arch/arm/cpu/armv8/txhd/clock.c - u-boot - Git at Google

 /*
  * Copyright (C) 2017 Amlogic, Inc. All rights reserved.
  *
  * 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; either version 2 of the License, or
  * (at your option) any later version.
  *
  * This program is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
  * more details.
  *
  */

 #include <config.h>
 #include <common.h>
 #include <asm/arch/io.h>
 #include <asm/arch/secure_apb.h>
 #include <asm/arch/clock.h>

 /*  !!must use nonzero value as default value. Otherwise it linked to bss segment,
     but this segment not cleared to zero while running "board_init_f" */
 #define CLK_UNKNOWN (0xffffffff)

 #if 0
 __u32 get_rate_xtal(void)
 {
 	unsigned long clk;
 	clk = (readl(P_PREG_CTLREG0_ADDR) >> 4) & 0x3f;
 	clk = clk * 1000 * 1000;
 	return clk;
 }


 __u32 get_cpu_clk(void)
 {
     static __u32 sys_freq=CLK_UNKNOWN;
     if (sys_freq == CLK_UNKNOWN)
     {
         sys_freq=(clk_util_clk_msr(SYS_PLL_CLK)*1000000);
     }
     return sys_freq;
 }

 __u32 get_clk_ddr(void)
 {
    static __u32 freq=CLK_UNKNOWN;
 	if (freq == CLK_UNKNOWN)
 	{
 	    freq=(clk_util_clk_msr(DDR_PLL_CLK)*1000000);
 	}
     return freq;
 }

 __u32 get_clk_ethernet_pad(void)
 {
     static __u32 freq=CLK_UNKNOWN;
     if (freq == CLK_UNKNOWN)
     {
         freq=(clk_util_clk_msr(MOD_ETH_CLK50_I)*1000000);
     }
     return freq;
 }

 __u32 get_clk_cts_eth_rmii(void)
 {
     static __u32 freq=CLK_UNKNOWN;
     if (freq == CLK_UNKNOWN)
     {
         freq=(clk_util_clk_msr(CTS_ETH_RMII)*1000000);
     }
     return freq;
 }

 __u32 get_misc_pll_clk(void)
 {
     static __u32 freq=CLK_UNKNOWN;
     if (freq == CLK_UNKNOWN)
     {
         freq=(clk_util_clk_msr(MISC_PLL_CLK)*1000000);
     }
     return freq;
 }
 #endif

 __u32 get_clk81(void)
 {
     static __u32 clk81_freq=CLK_UNKNOWN;
 	if (clk81_freq == CLK_UNKNOWN)
     {
         clk81_freq=(clk_util_clk_msr(CLK81)*1000000);
     }
     return clk81_freq;
 }

 struct __clk_rate{
     unsigned clksrc;
     __u32 (*get_rate)(void);
 };

 struct __clk_rate clkrate[]={
     {
         .clksrc=CLK81,
         .get_rate=get_clk81,
     },
 };

 int clk_get_rate(unsigned clksrc)
 {
 	int i;
 	for (i = 0; i < sizeof(clkrate)/sizeof(clkrate[0]); i++)
 	{
 		if (clksrc == clkrate[i].clksrc)
 			return clkrate[i].get_rate();
 	}
 	return -1;
 }

 const char* clk_table[] = {
 	[109] = "cts_alocker_in_clk          ",
 	[108] = "cts_alocker_out_clk         ",
 	[107] = "am_ring_osc_clk_out_ee[11]  ",
 	[106] = "am_ring_osc_clk_out_ee[10]  ",
 	[105] = "am_ring_osc_clk_out_ee[9]   ",
 	[104] = "am_ring_osc_clk_out_ee[8]   ",
 	[103] = "am_ring_osc_clk_out_ee[7]   ",
 	[102] = "am_ring_osc_clk_out_ee[6]   ",
 	[101] = "am_ring_osc_clk_out_ee[5]   ",
 	[100] = "am_ring_osc_clk_out_ee[4]   ",
 	[99]  = "am_ring_osc_clk_out_ee[3]   ",
 	[98]  = "cts_hdmirx_aud_pll_clk      ",
 	[97]  = "cts_vpu_clkb_tmp            ",
 	[96]  = "cts_vpu_clkb                ",
 	[95]  = "ethphy_test_clk_out         ",
 	[94]  = "atv_dmd_mono_clk_32         ",
 	[93]  = "cts_audin_lrclk             ",
 	[92]  = "cts_audin_sclk              ",
 	[91]  = "cts_audin_mclk              ",
 	[90]  = "cts_hdmitx_sys_clk          ",
 	[89]  = "HDMI_CLK_TODIG              ",
 	[88]  = "hdmirx_vid_clk              ",
 	[87]  = "lvds_fifo_clk               ",
 	[86]  = "hdmirx_phy_dtb[3]           ",
 	[85]  = "hdmirx_phy_dtb[2]           ",
 	[84]  = "hdmirx_phy_dtb[1]           ",
 	[83]  = "hdmirx_phy_dtb[0]           ",
 	[82]  = "Cts_ge2d_clk                ",
 	[81]  = "Cts_vapbclk                 ",
 	[80]  = "Rng_ring_osc_clk[3]         ",
 	[79]  = "Rng_ring_osc_clk[2]         ",
 	[78]  = "Rng_ring_osc_clk[1]         ",
 	[77]  = "Rng_ring_osc_clk[0]         ",
 	[76]  = "cts_aoclk_int               ",
 	[75]  = "cts_aoclkx2_int             ",
 	[74]  = "cts_atv_dmd_vdac_clk        ",
 	[73]  = "cts_pwm_C_clk               ",
 	[72]  = "cts_pwm_D_clk               ",
 	[71]  = "cts_pwm_E_clk               ",
 	[70]  = "cts_pwm_F_clk               ",
 	[69]  = "Cts_hdcp22_skp              ",
 	[68]  = "Cts_hdcp22_esm              ",
 	[67]  = "tvfe_sample_clk             ",
 	[66]  = "cts_vid_lock_clk            ",
 	[65]  = "cts_atv_dmd_sys_clk         ",
 	[64]  = "Cts_hdmirx_cfg_clk          ",
 	[63]  = "adc_dpll_intclk             ",
 	[62]  = "cts_hevc_clk                ",
 	[61]  = "gpio_clk_msr                ",
 	[60]  = "alt_32k_clk                 ",
 	[59]  = "cts_hcodec_clk              ",
 	[58]  = "Hdmirx_aud_clk              ",
 	[57]  = "Cts_hdmirx_audmeas          ",
 	[56]  = "Cts_hdmirx_modet_clk        ",
 	[55]  = "vid_pll_div_clk_out         ",
 	[54]  = "Cts_hdmirx_arc_ref_clk      ",
 	[53]  = "sd_emmc_clk_A               ",
 	[52]  = "sd_emmc_clk_B               ",
 	[51]  = "sd_emmc_clk_C               ",
 	[50]  = "mp3_clk_out                 ",
 	[49]  = "mp2_clk_out                 ",
 	[48]  = "mp1_clk_out                 ",
 	[47]  = "ddr_dpll_pt_clk             ",
 	[46]  = "cts_vpu_clk                 ",
 	[45]  = "cts_pwm_A_clk               ",
 	[44]  = "cts_pwm_B_clk               ",
 	[43]  = "fclk_div5                   ",
 	[42]  = "mp0_clk_out                 ",
 	[41]  = "eth_rx_clk_rmii             ",
 	[40]  = "cts_pcm_mclk                ",
 	[39]  = "cts_pcm_sclk                ",
 	[38]  = "Cts_vdin_meas_clk           ",
 	[37]  = "cts_clk_i958                ",
 	[36]  = "cts_hdmi_tx_pixel_clk       ",
 	[35]  = "cts_mali_clk                ",
 	[34]  = "adc_dpll_clk_b3             ",
 	[33]  = "adc_dpll_clk_b2             ",
 	[32]  = "cts_vdec_clk                ",
 	[31]  = "MPLL_CLK_TEST_OUT           ",
 	[30]  = "Hdmirx_audmeas_clk          ",
 	[29]  = "Hdmirx_pix_clk              ",
 	[28]  = "Cts_sar_adc_clk             ",
 	[27]  = "Hdmirx_mpll_div_clk         ",
 	[26]  = "sc_clk_int                  ",
 	[25]  = "Hdmirx_tmds_clk             ",
 	[24]  = "Hdmirx_aud_pll_clk          ",
 	[23]  = "mmc_clk                     ",
 	[22]  = "eth_phy_ref_clk             ",
 	[21]  = "i2s_clk_in_src0             ",
 	[20]  = "rtc_osc_clk_out             ",
 	[19]  = "adc_dpll_clka2              ",
 	[18]  = "sys_cpu_clk_div16           ",
 	[17]  = "sys_pll_div16               ",
 	[16]  = "cts_FEC_CLK_2               ",
 	[15]  = "cts_FEC_CLK_1               ",
 	[14]  = "cts_FEC_CLK_0               ",
 	[13]  = "cts_amclk                   ",
 	[12]  = "Cts_demod_core_clk          ",
 	[11]  = "mac_eth_tx_clk              ",
 	[10]  = "cts_vdac_clk                ",
 	[9]   = "cts_encl_clk                ",
 	[8]   = "cts_encp_clk                ",
 	[7]   = "clk81                       ",
 	[6]   = "cts_enci_clk                ",
 	[5]   = "gp1_pll_clk                 ",
 	[4]   = "gp0_pll_clk                 ",
 	[3]   = "A53_ring_osc_clk            ",
 	[2]   = "am_ring_osc_clk_out_ee[2]   ",
 	[1]   = "am_ring_osc_clk_out_ee[1]   ",
 	[0]   = "am_ring_osc_clk_out_ee[0]   ",
 };

 unsigned long clk_util_clk_msr(unsigned long clk_mux)
 {
 	unsigned int regval = 0;

 	WRITE_CBUS_REG(MSR_CLK_REG0, 0);
 	/* Set the measurement gate to 64uS */
 	CLEAR_CBUS_REG_MASK(MSR_CLK_REG0, 0xffff);
 	/* 64uS is enough for measure the frequence? */
 	SET_CBUS_REG_MASK(MSR_CLK_REG0, (64 - 1));
 	/* Disable continuous measurement */
 	/* Disable interrupts */
 	CLEAR_CBUS_REG_MASK(MSR_CLK_REG0, ((1 << 18) | (1 << 17)));
 	CLEAR_CBUS_REG_MASK(MSR_CLK_REG0, (0x7f << 20));
 	SET_CBUS_REG_MASK(MSR_CLK_REG0, (clk_mux << 20) | /* Select MUX */
 			(1 << 19) |       /* enable the clock */
 			(1 << 16));       /* enable measuring */
 	/* Wait for the measurement to be done */
 	regval = READ_CBUS_REG(MSR_CLK_REG0);
 	do {
 		regval = READ_CBUS_REG(MSR_CLK_REG0);
 	} while (regval & (1 << 31));

 	/* Disable measuring */
 	CLEAR_CBUS_REG_MASK(MSR_CLK_REG0, (1 << 16));
 	regval = (READ_CBUS_REG(MSR_CLK_REG2) + 31) & 0x000FFFFF;

 	return (regval >> 6);
 }

 int clk_msr(int index)
 {
 	unsigned int index_total = sizeof(clk_table) / sizeof(char *);

 	int i;
 	if (index == 0xff) {
 		for (i = 0; i < index_total; i++)
 			printf("[%4d][%4ld MHz] %s\n", i, clk_util_clk_msr(i), clk_table[i]);
 	}
 	else {
 		if (index >= index_total) {
 			printf("clk msr legal range: [0-%d]\n", index_total-1);
 			return -1;
 		}
 		printf("[%4d][%4ld MHz] %s\n", index, clk_util_clk_msr(index), clk_table[index]);
 	}

 	return 0;
 }

 #ifdef CONFIG_AML_SPICC
 /* generic clock control for spicc.
  * if deleted, you have to add it into all txhd board files as necessary.
  */
 static int spicc_clk_rate[] = {
 	24000000,	/* XTAL */
 	166666666,	/* CLK81 */
 	500000000,	/* FCLK_DIV4 */
 	666666666,	/* FCLK_DIV3 */
 	1000000000,	/* FCLK_DIV2 */
 	400000000,	/* FCLK_DIV5 */
 	285700000,	/* FCLK_DIV7 */
 };

 int spicc_clk_set_rate(int rate)
 {
 	u32 regv;
 	u8 mux, div = 0;

 	for (mux = 0; mux < ARRAY_SIZE(spicc_clk_rate); mux++)
 		if (rate == spicc_clk_rate[mux])
 			break;
 	if (mux == ARRAY_SIZE(spicc_clk_rate))
 		return -EINVAL;

 	regv = readl(P_HHI_SPICC_CLK_CNTL);
 	/* mux[9:7], gate[6], div[5:0] */
 	regv &= ~((0x7 << 7) | (1 << 6) | (0x3f << 0));
 	regv |= (mux << 7) | (1 << 6) | (div << 0);
 	writel(regv, P_HHI_SPICC_CLK_CNTL);

 	return 0;
 }

 int spicc_clk_enable(bool enable)
 {
 	u32 regv;

 	regv = readl(P_HHI_GCLK_MPEG0);
 	if (enable)
 		regv |= 1 << 8;
 	else
 		regv &= ~(1 << 8);
 	writel(regv, P_HHI_GCLK_MPEG0);

 	return 0;
 }
 #endif /* CONFIG_AML_SPICC */
	/*
	* Copyright (C) 2017 Amlogic, Inc. All rights reserved.
	*
	* 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; either version 2 of the License, or
	* (at your option) any later version.
	*
	* This program is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
	* more details.
	*
	*/

	#include <config.h>
	#include <common.h>
	#include <asm/arch/io.h>
	#include <asm/arch/secure_apb.h>
	#include <asm/arch/clock.h>

	/* !!must use nonzero value as default value. Otherwise it linked to bss segment,
	but this segment not cleared to zero while running "board_init_f" */
	#define CLK_UNKNOWN (0xffffffff)

	#if 0
	__u32 get_rate_xtal(void)
	{
	unsigned long clk;
	clk = (readl(P_PREG_CTLREG0_ADDR) >> 4) & 0x3f;
	clk = clk * 1000 * 1000;
	return clk;
	}


	__u32 get_cpu_clk(void)
	{
	static __u32 sys_freq=CLK_UNKNOWN;
	if (sys_freq == CLK_UNKNOWN)
	{
	sys_freq=(clk_util_clk_msr(SYS_PLL_CLK)*1000000);
	}
	return sys_freq;
	}

	__u32 get_clk_ddr(void)
	{
	static __u32 freq=CLK_UNKNOWN;
	if (freq == CLK_UNKNOWN)
	{
	freq=(clk_util_clk_msr(DDR_PLL_CLK)*1000000);
	}
	return freq;
	}

	__u32 get_clk_ethernet_pad(void)
	{
	static __u32 freq=CLK_UNKNOWN;
	if (freq == CLK_UNKNOWN)
	{
	freq=(clk_util_clk_msr(MOD_ETH_CLK50_I)*1000000);
	}
	return freq;
	}

	__u32 get_clk_cts_eth_rmii(void)
	{
	static __u32 freq=CLK_UNKNOWN;
	if (freq == CLK_UNKNOWN)
	{
	freq=(clk_util_clk_msr(CTS_ETH_RMII)*1000000);
	}
	return freq;
	}

	__u32 get_misc_pll_clk(void)
	{
	static __u32 freq=CLK_UNKNOWN;
	if (freq == CLK_UNKNOWN)
	{
	freq=(clk_util_clk_msr(MISC_PLL_CLK)*1000000);
	}
	return freq;
	}
	#endif

	__u32 get_clk81(void)
	{
	static __u32 clk81_freq=CLK_UNKNOWN;
	if (clk81_freq == CLK_UNKNOWN)
	{
	clk81_freq=(clk_util_clk_msr(CLK81)*1000000);
	}
	return clk81_freq;
	}

	struct __clk_rate{
	unsigned clksrc;
	__u32 (*get_rate)(void);
	};

	struct __clk_rate clkrate[]={
	{
	.clksrc=CLK81,
	.get_rate=get_clk81,
	},
	};

	int clk_get_rate(unsigned clksrc)
	{
	int i;
	for (i = 0; i < sizeof(clkrate)/sizeof(clkrate[0]); i++)
	{
	if (clksrc == clkrate[i].clksrc)
	return clkrate[i].get_rate();
	}
	return -1;
	}

	const char* clk_table[] = {
	[109] = "cts_alocker_in_clk ",
	[108] = "cts_alocker_out_clk ",
	[107] = "am_ring_osc_clk_out_ee[11] ",
	[106] = "am_ring_osc_clk_out_ee[10] ",
	[105] = "am_ring_osc_clk_out_ee[9] ",
	[104] = "am_ring_osc_clk_out_ee[8] ",
	[103] = "am_ring_osc_clk_out_ee[7] ",
	[102] = "am_ring_osc_clk_out_ee[6] ",
	[101] = "am_ring_osc_clk_out_ee[5] ",
	[100] = "am_ring_osc_clk_out_ee[4] ",
	[99] = "am_ring_osc_clk_out_ee[3] ",
	[98] = "cts_hdmirx_aud_pll_clk ",
	[97] = "cts_vpu_clkb_tmp ",
	[96] = "cts_vpu_clkb ",
	[95] = "ethphy_test_clk_out ",
	[94] = "atv_dmd_mono_clk_32 ",
	[93] = "cts_audin_lrclk ",
	[92] = "cts_audin_sclk ",
	[91] = "cts_audin_mclk ",
	[90] = "cts_hdmitx_sys_clk ",
	[89] = "HDMI_CLK_TODIG ",
	[88] = "hdmirx_vid_clk ",
	[87] = "lvds_fifo_clk ",
	[86] = "hdmirx_phy_dtb[3] ",
	[85] = "hdmirx_phy_dtb[2] ",
	[84] = "hdmirx_phy_dtb[1] ",
	[83] = "hdmirx_phy_dtb[0] ",
	[82] = "Cts_ge2d_clk ",
	[81] = "Cts_vapbclk ",
	[80] = "Rng_ring_osc_clk[3] ",
	[79] = "Rng_ring_osc_clk[2] ",
	[78] = "Rng_ring_osc_clk[1] ",
	[77] = "Rng_ring_osc_clk[0] ",
	[76] = "cts_aoclk_int ",
	[75] = "cts_aoclkx2_int ",
	[74] = "cts_atv_dmd_vdac_clk ",
	[73] = "cts_pwm_C_clk ",
	[72] = "cts_pwm_D_clk ",
	[71] = "cts_pwm_E_clk ",
	[70] = "cts_pwm_F_clk ",
	[69] = "Cts_hdcp22_skp ",
	[68] = "Cts_hdcp22_esm ",
	[67] = "tvfe_sample_clk ",
	[66] = "cts_vid_lock_clk ",
	[65] = "cts_atv_dmd_sys_clk ",
	[64] = "Cts_hdmirx_cfg_clk ",
	[63] = "adc_dpll_intclk ",
	[62] = "cts_hevc_clk ",
	[61] = "gpio_clk_msr ",
	[60] = "alt_32k_clk ",
	[59] = "cts_hcodec_clk ",
	[58] = "Hdmirx_aud_clk ",
	[57] = "Cts_hdmirx_audmeas ",
	[56] = "Cts_hdmirx_modet_clk ",
	[55] = "vid_pll_div_clk_out ",
	[54] = "Cts_hdmirx_arc_ref_clk ",
	[53] = "sd_emmc_clk_A ",
	[52] = "sd_emmc_clk_B ",
	[51] = "sd_emmc_clk_C ",
	[50] = "mp3_clk_out ",
	[49] = "mp2_clk_out ",
	[48] = "mp1_clk_out ",
	[47] = "ddr_dpll_pt_clk ",
	[46] = "cts_vpu_clk ",
	[45] = "cts_pwm_A_clk ",
	[44] = "cts_pwm_B_clk ",
	[43] = "fclk_div5 ",
	[42] = "mp0_clk_out ",
	[41] = "eth_rx_clk_rmii ",
	[40] = "cts_pcm_mclk ",
	[39] = "cts_pcm_sclk ",
	[38] = "Cts_vdin_meas_clk ",
	[37] = "cts_clk_i958 ",
	[36] = "cts_hdmi_tx_pixel_clk ",
	[35] = "cts_mali_clk ",
	[34] = "adc_dpll_clk_b3 ",
	[33] = "adc_dpll_clk_b2 ",
	[32] = "cts_vdec_clk ",
	[31] = "MPLL_CLK_TEST_OUT ",
	[30] = "Hdmirx_audmeas_clk ",
	[29] = "Hdmirx_pix_clk ",
	[28] = "Cts_sar_adc_clk ",
	[27] = "Hdmirx_mpll_div_clk ",
	[26] = "sc_clk_int ",
	[25] = "Hdmirx_tmds_clk ",
	[24] = "Hdmirx_aud_pll_clk ",
	[23] = "mmc_clk ",
	[22] = "eth_phy_ref_clk ",
	[21] = "i2s_clk_in_src0 ",
	[20] = "rtc_osc_clk_out ",
	[19] = "adc_dpll_clka2 ",
	[18] = "sys_cpu_clk_div16 ",
	[17] = "sys_pll_div16 ",
	[16] = "cts_FEC_CLK_2 ",
	[15] = "cts_FEC_CLK_1 ",
	[14] = "cts_FEC_CLK_0 ",
	[13] = "cts_amclk ",
	[12] = "Cts_demod_core_clk ",
	[11] = "mac_eth_tx_clk ",
	[10] = "cts_vdac_clk ",
	[9] = "cts_encl_clk ",
	[8] = "cts_encp_clk ",
	[7] = "clk81 ",
	[6] = "cts_enci_clk ",
	[5] = "gp1_pll_clk ",
	[4] = "gp0_pll_clk ",
	[3] = "A53_ring_osc_clk ",
	[2] = "am_ring_osc_clk_out_ee[2] ",
	[1] = "am_ring_osc_clk_out_ee[1] ",
	[0] = "am_ring_osc_clk_out_ee[0] ",
	};

	unsigned long clk_util_clk_msr(unsigned long clk_mux)
	{
	unsigned int regval = 0;

	WRITE_CBUS_REG(MSR_CLK_REG0, 0);
	/* Set the measurement gate to 64uS */
	CLEAR_CBUS_REG_MASK(MSR_CLK_REG0, 0xffff);
	/* 64uS is enough for measure the frequence? */
	SET_CBUS_REG_MASK(MSR_CLK_REG0, (64 - 1));
	/* Disable continuous measurement */
	/* Disable interrupts */
	CLEAR_CBUS_REG_MASK(MSR_CLK_REG0, ((1 << 18) \| (1 << 17)));
	CLEAR_CBUS_REG_MASK(MSR_CLK_REG0, (0x7f << 20));
	SET_CBUS_REG_MASK(MSR_CLK_REG0, (clk_mux << 20) \| /* Select MUX */
	(1 << 19) \| /* enable the clock */
	(1 << 16)); /* enable measuring */
	/* Wait for the measurement to be done */
	regval = READ_CBUS_REG(MSR_CLK_REG0);
	do {
	regval = READ_CBUS_REG(MSR_CLK_REG0);
	} while (regval & (1 << 31));

	/* Disable measuring */
	CLEAR_CBUS_REG_MASK(MSR_CLK_REG0, (1 << 16));
	regval = (READ_CBUS_REG(MSR_CLK_REG2) + 31) & 0x000FFFFF;

	return (regval >> 6);
	}

	int clk_msr(int index)
	{
	unsigned int index_total = sizeof(clk_table) / sizeof(char *);

	int i;
	if (index == 0xff) {
	for (i = 0; i < index_total; i++)
	printf("[%4d][%4ld MHz] %s\n", i, clk_util_clk_msr(i), clk_table[i]);
	}
	else {
	if (index >= index_total) {
	printf("clk msr legal range: [0-%d]\n", index_total-1);
	return -1;
	}
	printf("[%4d][%4ld MHz] %s\n", index, clk_util_clk_msr(index), clk_table[index]);
	}

	return 0;
	}

	#ifdef CONFIG_AML_SPICC
	/* generic clock control for spicc.
	* if deleted, you have to add it into all txhd board files as necessary.
	*/
	static int spicc_clk_rate[] = {
	24000000, /* XTAL */
	166666666, /* CLK81 */
	500000000, /* FCLK_DIV4 */
	666666666, /* FCLK_DIV3 */
	1000000000, /* FCLK_DIV2 */
	400000000, /* FCLK_DIV5 */
	285700000, /* FCLK_DIV7 */
	};

	int spicc_clk_set_rate(int rate)
	{
	u32 regv;
	u8 mux, div = 0;

	for (mux = 0; mux < ARRAY_SIZE(spicc_clk_rate); mux++)
	if (rate == spicc_clk_rate[mux])
	break;
	if (mux == ARRAY_SIZE(spicc_clk_rate))
	return -EINVAL;

	regv = readl(P_HHI_SPICC_CLK_CNTL);
	/* mux[9:7], gate[6], div[5:0] */
	regv &= ~((0x7 << 7) \| (1 << 6) \| (0x3f << 0));
	regv \|= (mux << 7) \| (1 << 6) \| (div << 0);
	writel(regv, P_HHI_SPICC_CLK_CNTL);

	return 0;
	}

	int spicc_clk_enable(bool enable)
	{
	u32 regv;

	regv = readl(P_HHI_GCLK_MPEG0);
	if (enable)
	regv \|= 1 << 8;
	else
	regv &= ~(1 << 8);
	writel(regv, P_HHI_GCLK_MPEG0);

	return 0;
	}
	#endif /* CONFIG_AML_SPICC */