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69a3b81141
For K2E and K2L SoCs clock output from PASS PLL has to be enabled after NETCP domain and PA module are enabled. So create new function for that and call it after PA module is enabled. Signed-off-by: Ivan Khoronzhuk <ivan.khoronzhuk@ti.com>
272 lines
7.1 KiB
C
272 lines
7.1 KiB
C
/*
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* Keystone2: pll initialization
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*
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* (C) Copyright 2012-2014
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* Texas Instruments Incorporated, <www.ti.com>
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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#include <common.h>
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#include <asm/arch/clock.h>
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#include <asm/arch/clock_defs.h>
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#define MAX_SPEEDS 13
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static void wait_for_completion(const struct pll_init_data *data)
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{
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int i;
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for (i = 0; i < 100; i++) {
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sdelay(450);
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if ((pllctl_reg_read(data->pll, stat) & PLLSTAT_GO) == 0)
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break;
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}
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}
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void init_pll(const struct pll_init_data *data)
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{
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u32 tmp, tmp_ctl, pllm, plld, pllod, bwadj;
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pllm = data->pll_m - 1;
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plld = (data->pll_d - 1) & PLL_DIV_MASK;
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pllod = (data->pll_od - 1) & PLL_CLKOD_MASK;
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if (data->pll == MAIN_PLL) {
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/* The requered delay before main PLL configuration */
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sdelay(210000);
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tmp = pllctl_reg_read(data->pll, secctl);
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if (tmp & (PLLCTL_BYPASS)) {
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setbits_le32(keystone_pll_regs[data->pll].reg1,
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BIT(MAIN_ENSAT_OFFSET));
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pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLEN |
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PLLCTL_PLLENSRC);
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sdelay(340);
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pllctl_reg_setbits(data->pll, secctl, PLLCTL_BYPASS);
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pllctl_reg_setbits(data->pll, ctl, PLLCTL_PLLPWRDN);
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sdelay(21000);
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pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLPWRDN);
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} else {
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pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLEN |
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PLLCTL_PLLENSRC);
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sdelay(340);
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}
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pllctl_reg_write(data->pll, mult, pllm & PLLM_MULT_LO_MASK);
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clrsetbits_le32(keystone_pll_regs[data->pll].reg0,
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PLLM_MULT_HI_SMASK, (pllm << 6));
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/* Set the BWADJ (12 bit field) */
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tmp_ctl = pllm >> 1; /* Divide the pllm by 2 */
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clrsetbits_le32(keystone_pll_regs[data->pll].reg0,
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PLL_BWADJ_LO_SMASK,
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(tmp_ctl << PLL_BWADJ_LO_SHIFT));
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clrsetbits_le32(keystone_pll_regs[data->pll].reg1,
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PLL_BWADJ_HI_MASK,
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(tmp_ctl >> 8));
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/*
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* Set the pll divider (6 bit field) *
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* PLLD[5:0] is located in MAINPLLCTL0
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*/
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clrsetbits_le32(keystone_pll_regs[data->pll].reg0,
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PLL_DIV_MASK, plld);
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/* Set the OUTPUT DIVIDE (4 bit field) in SECCTL */
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pllctl_reg_rmw(data->pll, secctl, PLL_CLKOD_SMASK,
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(pllod << PLL_CLKOD_SHIFT));
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wait_for_completion(data);
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pllctl_reg_write(data->pll, div1, PLLM_RATIO_DIV1);
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pllctl_reg_write(data->pll, div2, PLLM_RATIO_DIV2);
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pllctl_reg_write(data->pll, div3, PLLM_RATIO_DIV3);
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pllctl_reg_write(data->pll, div4, PLLM_RATIO_DIV4);
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pllctl_reg_write(data->pll, div5, PLLM_RATIO_DIV5);
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pllctl_reg_setbits(data->pll, alnctl, 0x1f);
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/*
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* Set GOSET bit in PLLCMD to initiate the GO operation
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* to change the divide
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*/
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pllctl_reg_setbits(data->pll, cmd, PLLSTAT_GO);
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sdelay(1500); /* wait for the phase adj */
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wait_for_completion(data);
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/* Reset PLL */
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pllctl_reg_setbits(data->pll, ctl, PLLCTL_PLLRST);
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sdelay(21000); /* Wait for a minimum of 7 us*/
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pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLRST);
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sdelay(105000); /* Wait for PLL Lock time (min 50 us) */
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pllctl_reg_clrbits(data->pll, secctl, PLLCTL_BYPASS);
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tmp = pllctl_reg_setbits(data->pll, ctl, PLLCTL_PLLEN);
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#ifndef CONFIG_SOC_K2E
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} else if (data->pll == TETRIS_PLL) {
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bwadj = pllm >> 1;
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/* 1.5 Set PLLCTL0[BYPASS] =1 (enable bypass), */
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setbits_le32(keystone_pll_regs[data->pll].reg0, PLLCTL_BYPASS);
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/*
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* Set CHIPMISCCTL1[13] = 0 (enable glitchfree bypass)
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* only applicable for Kepler
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*/
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clrbits_le32(KS2_MISC_CTRL, KS2_ARM_PLL_EN);
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/* 2 In PLLCTL1, write PLLRST = 1 (PLL is reset) */
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setbits_le32(keystone_pll_regs[data->pll].reg1 ,
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PLL_PLLRST | PLLCTL_ENSAT);
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/*
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* 3 Program PLLM and PLLD in PLLCTL0 register
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* 4 Program BWADJ[7:0] in PLLCTL0 and BWADJ[11:8] in
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* PLLCTL1 register. BWADJ value must be set
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* to ((PLLM + 1) >> 1) – 1)
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*/
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tmp = ((bwadj & PLL_BWADJ_LO_MASK) << PLL_BWADJ_LO_SHIFT) |
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(pllm << 6) |
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(plld & PLL_DIV_MASK) |
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(pllod << PLL_CLKOD_SHIFT) | PLLCTL_BYPASS;
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__raw_writel(tmp, keystone_pll_regs[data->pll].reg0);
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/* Set BWADJ[11:8] bits */
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tmp = __raw_readl(keystone_pll_regs[data->pll].reg1);
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tmp &= ~(PLL_BWADJ_HI_MASK);
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tmp |= ((bwadj>>8) & PLL_BWADJ_HI_MASK);
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__raw_writel(tmp, keystone_pll_regs[data->pll].reg1);
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/*
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* 5 Wait for at least 5 us based on the reference
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* clock (PLL reset time)
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*/
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sdelay(21000); /* Wait for a minimum of 7 us*/
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/* 6 In PLLCTL1, write PLLRST = 0 (PLL reset is released) */
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clrbits_le32(keystone_pll_regs[data->pll].reg1, PLL_PLLRST);
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/*
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* 7 Wait for at least 500 * REFCLK cycles * (PLLD + 1)
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* (PLL lock time)
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*/
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sdelay(105000);
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/* 8 disable bypass */
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clrbits_le32(keystone_pll_regs[data->pll].reg0, PLLCTL_BYPASS);
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/*
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* 9 Set CHIPMISCCTL1[13] = 1 (disable glitchfree bypass)
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* only applicable for Kepler
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*/
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setbits_le32(KS2_MISC_CTRL, KS2_ARM_PLL_EN);
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#endif
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} else {
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setbits_le32(keystone_pll_regs[data->pll].reg1, PLLCTL_ENSAT);
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/*
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* process keeps state of Bypass bit while programming
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* all other DDR PLL settings
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*/
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tmp = __raw_readl(keystone_pll_regs[data->pll].reg0);
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tmp &= PLLCTL_BYPASS; /* clear everything except Bypass */
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/*
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* Set the BWADJ[7:0], PLLD[5:0] and PLLM to PLLCTL0,
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* bypass disabled
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*/
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bwadj = pllm >> 1;
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tmp |= ((bwadj & PLL_BWADJ_LO_MASK) << PLL_BWADJ_LO_SHIFT) |
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(pllm << PLL_MULT_SHIFT) |
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(plld & PLL_DIV_MASK) |
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(pllod << PLL_CLKOD_SHIFT);
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__raw_writel(tmp, keystone_pll_regs[data->pll].reg0);
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/* Set BWADJ[11:8] bits */
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tmp = __raw_readl(keystone_pll_regs[data->pll].reg1);
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tmp &= ~(PLL_BWADJ_HI_MASK);
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tmp |= ((bwadj >> 8) & PLL_BWADJ_HI_MASK);
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__raw_writel(tmp, keystone_pll_regs[data->pll].reg1);
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/* Reset bit: bit 14 for both DDR3 & PASS PLL */
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tmp = PLL_PLLRST;
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/* Set RESET bit = 1 */
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setbits_le32(keystone_pll_regs[data->pll].reg1, tmp);
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/* Wait for a minimum of 7 us*/
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sdelay(21000);
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/* Clear RESET bit */
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clrbits_le32(keystone_pll_regs[data->pll].reg1, tmp);
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sdelay(105000);
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/* clear BYPASS (Enable PLL Mode) */
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clrbits_le32(keystone_pll_regs[data->pll].reg0, PLLCTL_BYPASS);
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sdelay(21000); /* Wait for a minimum of 7 us*/
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}
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/*
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* This is required to provide a delay between multiple
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* consequent PPL configurations
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*/
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sdelay(210000);
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}
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void init_plls(int num_pll, struct pll_init_data *config)
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{
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int i;
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for (i = 0; i < num_pll; i++)
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init_pll(&config[i]);
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}
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static int get_max_speed(u32 val, int *speeds)
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{
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int j;
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if (!val)
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return speeds[0];
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for (j = 1; j < MAX_SPEEDS; j++) {
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if (val == 1)
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return speeds[j];
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val >>= 1;
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}
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return SPD800;
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}
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#ifdef CONFIG_SOC_K2HK
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static u32 read_efuse_bootrom(void)
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{
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return (cpu_revision() > 1) ? __raw_readl(KS2_EFUSE_BOOTROM) :
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__raw_readl(KS2_REV1_DEVSPEED);
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}
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#else
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static inline u32 read_efuse_bootrom(void)
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{
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return __raw_readl(KS2_EFUSE_BOOTROM);
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}
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#endif
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inline int get_max_dev_speed(void)
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{
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return get_max_speed(read_efuse_bootrom() & 0xffff, dev_speeds);
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}
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#ifndef CONFIG_SOC_K2E
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inline int get_max_arm_speed(void)
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{
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return get_max_speed((read_efuse_bootrom() >> 16) & 0xffff, arm_speeds);
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}
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#endif
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void pass_pll_pa_clk_enable(void)
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{
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u32 reg;
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reg = readl(keystone_pll_regs[PASS_PLL].reg1);
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reg |= PLLCTL_PAPLL;
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writel(reg, keystone_pll_regs[PASS_PLL].reg1);
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/* wait till clock is enabled */
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sdelay(15000);
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}
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