1*09f455dcSMasahiro Yamada /* 2*09f455dcSMasahiro Yamada * Copyright (c) 2010-2014, NVIDIA CORPORATION. All rights reserved. 3*09f455dcSMasahiro Yamada * 4*09f455dcSMasahiro Yamada * This program is free software; you can redistribute it and/or modify it 5*09f455dcSMasahiro Yamada * under the terms and conditions of the GNU General Public License, 6*09f455dcSMasahiro Yamada * version 2, as published by the Free Software Foundation. 7*09f455dcSMasahiro Yamada * 8*09f455dcSMasahiro Yamada * This program is distributed in the hope it will be useful, but WITHOUT 9*09f455dcSMasahiro Yamada * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 10*09f455dcSMasahiro Yamada * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 11*09f455dcSMasahiro Yamada * more details. 12*09f455dcSMasahiro Yamada * 13*09f455dcSMasahiro Yamada * You should have received a copy of the GNU General Public License 14*09f455dcSMasahiro Yamada * along with this program. If not, see <http://www.gnu.org/licenses/>. 15*09f455dcSMasahiro Yamada */ 16*09f455dcSMasahiro Yamada 17*09f455dcSMasahiro Yamada /* Tegra SoC common clock control functions */ 18*09f455dcSMasahiro Yamada 19*09f455dcSMasahiro Yamada #include <common.h> 20*09f455dcSMasahiro Yamada #include <asm/io.h> 21*09f455dcSMasahiro Yamada #include <asm/arch/clock.h> 22*09f455dcSMasahiro Yamada #include <asm/arch/tegra.h> 23*09f455dcSMasahiro Yamada #include <asm/arch-tegra/clk_rst.h> 24*09f455dcSMasahiro Yamada #include <asm/arch-tegra/timer.h> 25*09f455dcSMasahiro Yamada #include <div64.h> 26*09f455dcSMasahiro Yamada #include <fdtdec.h> 27*09f455dcSMasahiro Yamada 28*09f455dcSMasahiro Yamada /* 29*09f455dcSMasahiro Yamada * This is our record of the current clock rate of each clock. We don't 30*09f455dcSMasahiro Yamada * fill all of these in since we are only really interested in clocks which 31*09f455dcSMasahiro Yamada * we use as parents. 32*09f455dcSMasahiro Yamada */ 33*09f455dcSMasahiro Yamada static unsigned pll_rate[CLOCK_ID_COUNT]; 34*09f455dcSMasahiro Yamada 35*09f455dcSMasahiro Yamada /* 36*09f455dcSMasahiro Yamada * The oscillator frequency is fixed to one of four set values. Based on this 37*09f455dcSMasahiro Yamada * the other clocks are set up appropriately. 38*09f455dcSMasahiro Yamada */ 39*09f455dcSMasahiro Yamada static unsigned osc_freq[CLOCK_OSC_FREQ_COUNT] = { 40*09f455dcSMasahiro Yamada 13000000, 41*09f455dcSMasahiro Yamada 19200000, 42*09f455dcSMasahiro Yamada 12000000, 43*09f455dcSMasahiro Yamada 26000000, 44*09f455dcSMasahiro Yamada }; 45*09f455dcSMasahiro Yamada 46*09f455dcSMasahiro Yamada /* return 1 if a peripheral ID is in range */ 47*09f455dcSMasahiro Yamada #define clock_type_id_isvalid(id) ((id) >= 0 && \ 48*09f455dcSMasahiro Yamada (id) < CLOCK_TYPE_COUNT) 49*09f455dcSMasahiro Yamada 50*09f455dcSMasahiro Yamada char pllp_valid = 1; /* PLLP is set up correctly */ 51*09f455dcSMasahiro Yamada 52*09f455dcSMasahiro Yamada /* return 1 if a periphc_internal_id is in range */ 53*09f455dcSMasahiro Yamada #define periphc_internal_id_isvalid(id) ((id) >= 0 && \ 54*09f455dcSMasahiro Yamada (id) < PERIPHC_COUNT) 55*09f455dcSMasahiro Yamada 56*09f455dcSMasahiro Yamada /* number of clock outputs of a PLL */ 57*09f455dcSMasahiro Yamada static const u8 pll_num_clkouts[] = { 58*09f455dcSMasahiro Yamada 1, /* PLLC */ 59*09f455dcSMasahiro Yamada 1, /* PLLM */ 60*09f455dcSMasahiro Yamada 4, /* PLLP */ 61*09f455dcSMasahiro Yamada 1, /* PLLA */ 62*09f455dcSMasahiro Yamada 0, /* PLLU */ 63*09f455dcSMasahiro Yamada 0, /* PLLD */ 64*09f455dcSMasahiro Yamada }; 65*09f455dcSMasahiro Yamada 66*09f455dcSMasahiro Yamada int clock_get_osc_bypass(void) 67*09f455dcSMasahiro Yamada { 68*09f455dcSMasahiro Yamada struct clk_rst_ctlr *clkrst = 69*09f455dcSMasahiro Yamada (struct clk_rst_ctlr *)NV_PA_CLK_RST_BASE; 70*09f455dcSMasahiro Yamada u32 reg; 71*09f455dcSMasahiro Yamada 72*09f455dcSMasahiro Yamada reg = readl(&clkrst->crc_osc_ctrl); 73*09f455dcSMasahiro Yamada return (reg & OSC_XOBP_MASK) >> OSC_XOBP_SHIFT; 74*09f455dcSMasahiro Yamada } 75*09f455dcSMasahiro Yamada 76*09f455dcSMasahiro Yamada /* Returns a pointer to the registers of the given pll */ 77*09f455dcSMasahiro Yamada static struct clk_pll *get_pll(enum clock_id clkid) 78*09f455dcSMasahiro Yamada { 79*09f455dcSMasahiro Yamada struct clk_rst_ctlr *clkrst = 80*09f455dcSMasahiro Yamada (struct clk_rst_ctlr *)NV_PA_CLK_RST_BASE; 81*09f455dcSMasahiro Yamada 82*09f455dcSMasahiro Yamada assert(clock_id_is_pll(clkid)); 83*09f455dcSMasahiro Yamada return &clkrst->crc_pll[clkid]; 84*09f455dcSMasahiro Yamada } 85*09f455dcSMasahiro Yamada 86*09f455dcSMasahiro Yamada int clock_ll_read_pll(enum clock_id clkid, u32 *divm, u32 *divn, 87*09f455dcSMasahiro Yamada u32 *divp, u32 *cpcon, u32 *lfcon) 88*09f455dcSMasahiro Yamada { 89*09f455dcSMasahiro Yamada struct clk_pll *pll = get_pll(clkid); 90*09f455dcSMasahiro Yamada u32 data; 91*09f455dcSMasahiro Yamada 92*09f455dcSMasahiro Yamada assert(clkid != CLOCK_ID_USB); 93*09f455dcSMasahiro Yamada 94*09f455dcSMasahiro Yamada /* Safety check, adds to code size but is small */ 95*09f455dcSMasahiro Yamada if (!clock_id_is_pll(clkid) || clkid == CLOCK_ID_USB) 96*09f455dcSMasahiro Yamada return -1; 97*09f455dcSMasahiro Yamada data = readl(&pll->pll_base); 98*09f455dcSMasahiro Yamada *divm = (data & PLL_DIVM_MASK) >> PLL_DIVM_SHIFT; 99*09f455dcSMasahiro Yamada *divn = (data & PLL_DIVN_MASK) >> PLL_DIVN_SHIFT; 100*09f455dcSMasahiro Yamada *divp = (data & PLL_DIVP_MASK) >> PLL_DIVP_SHIFT; 101*09f455dcSMasahiro Yamada data = readl(&pll->pll_misc); 102*09f455dcSMasahiro Yamada *cpcon = (data & PLL_CPCON_MASK) >> PLL_CPCON_SHIFT; 103*09f455dcSMasahiro Yamada *lfcon = (data & PLL_LFCON_MASK) >> PLL_LFCON_SHIFT; 104*09f455dcSMasahiro Yamada 105*09f455dcSMasahiro Yamada return 0; 106*09f455dcSMasahiro Yamada } 107*09f455dcSMasahiro Yamada 108*09f455dcSMasahiro Yamada unsigned long clock_start_pll(enum clock_id clkid, u32 divm, u32 divn, 109*09f455dcSMasahiro Yamada u32 divp, u32 cpcon, u32 lfcon) 110*09f455dcSMasahiro Yamada { 111*09f455dcSMasahiro Yamada struct clk_pll *pll = get_pll(clkid); 112*09f455dcSMasahiro Yamada u32 data; 113*09f455dcSMasahiro Yamada 114*09f455dcSMasahiro Yamada /* 115*09f455dcSMasahiro Yamada * We cheat by treating all PLL (except PLLU) in the same fashion. 116*09f455dcSMasahiro Yamada * This works only because: 117*09f455dcSMasahiro Yamada * - same fields are always mapped at same offsets, except DCCON 118*09f455dcSMasahiro Yamada * - DCCON is always 0, doesn't conflict 119*09f455dcSMasahiro Yamada * - M,N, P of PLLP values are ignored for PLLP 120*09f455dcSMasahiro Yamada */ 121*09f455dcSMasahiro Yamada data = (cpcon << PLL_CPCON_SHIFT) | (lfcon << PLL_LFCON_SHIFT); 122*09f455dcSMasahiro Yamada writel(data, &pll->pll_misc); 123*09f455dcSMasahiro Yamada 124*09f455dcSMasahiro Yamada data = (divm << PLL_DIVM_SHIFT) | (divn << PLL_DIVN_SHIFT) | 125*09f455dcSMasahiro Yamada (0 << PLL_BYPASS_SHIFT) | (1 << PLL_ENABLE_SHIFT); 126*09f455dcSMasahiro Yamada 127*09f455dcSMasahiro Yamada if (clkid == CLOCK_ID_USB) 128*09f455dcSMasahiro Yamada data |= divp << PLLU_VCO_FREQ_SHIFT; 129*09f455dcSMasahiro Yamada else 130*09f455dcSMasahiro Yamada data |= divp << PLL_DIVP_SHIFT; 131*09f455dcSMasahiro Yamada writel(data, &pll->pll_base); 132*09f455dcSMasahiro Yamada 133*09f455dcSMasahiro Yamada /* calculate the stable time */ 134*09f455dcSMasahiro Yamada return timer_get_us() + CLOCK_PLL_STABLE_DELAY_US; 135*09f455dcSMasahiro Yamada } 136*09f455dcSMasahiro Yamada 137*09f455dcSMasahiro Yamada void clock_ll_set_source_divisor(enum periph_id periph_id, unsigned source, 138*09f455dcSMasahiro Yamada unsigned divisor) 139*09f455dcSMasahiro Yamada { 140*09f455dcSMasahiro Yamada u32 *reg = get_periph_source_reg(periph_id); 141*09f455dcSMasahiro Yamada u32 value; 142*09f455dcSMasahiro Yamada 143*09f455dcSMasahiro Yamada value = readl(reg); 144*09f455dcSMasahiro Yamada 145*09f455dcSMasahiro Yamada value &= ~OUT_CLK_SOURCE_31_30_MASK; 146*09f455dcSMasahiro Yamada value |= source << OUT_CLK_SOURCE_31_30_SHIFT; 147*09f455dcSMasahiro Yamada 148*09f455dcSMasahiro Yamada value &= ~OUT_CLK_DIVISOR_MASK; 149*09f455dcSMasahiro Yamada value |= divisor << OUT_CLK_DIVISOR_SHIFT; 150*09f455dcSMasahiro Yamada 151*09f455dcSMasahiro Yamada writel(value, reg); 152*09f455dcSMasahiro Yamada } 153*09f455dcSMasahiro Yamada 154*09f455dcSMasahiro Yamada void clock_ll_set_source(enum periph_id periph_id, unsigned source) 155*09f455dcSMasahiro Yamada { 156*09f455dcSMasahiro Yamada u32 *reg = get_periph_source_reg(periph_id); 157*09f455dcSMasahiro Yamada 158*09f455dcSMasahiro Yamada clrsetbits_le32(reg, OUT_CLK_SOURCE_31_30_MASK, 159*09f455dcSMasahiro Yamada source << OUT_CLK_SOURCE_31_30_SHIFT); 160*09f455dcSMasahiro Yamada } 161*09f455dcSMasahiro Yamada 162*09f455dcSMasahiro Yamada /** 163*09f455dcSMasahiro Yamada * Given the parent's rate and the required rate for the children, this works 164*09f455dcSMasahiro Yamada * out the peripheral clock divider to use, in 7.1 binary format. 165*09f455dcSMasahiro Yamada * 166*09f455dcSMasahiro Yamada * @param divider_bits number of divider bits (8 or 16) 167*09f455dcSMasahiro Yamada * @param parent_rate clock rate of parent clock in Hz 168*09f455dcSMasahiro Yamada * @param rate required clock rate for this clock 169*09f455dcSMasahiro Yamada * @return divider which should be used 170*09f455dcSMasahiro Yamada */ 171*09f455dcSMasahiro Yamada static int clk_get_divider(unsigned divider_bits, unsigned long parent_rate, 172*09f455dcSMasahiro Yamada unsigned long rate) 173*09f455dcSMasahiro Yamada { 174*09f455dcSMasahiro Yamada u64 divider = parent_rate * 2; 175*09f455dcSMasahiro Yamada unsigned max_divider = 1 << divider_bits; 176*09f455dcSMasahiro Yamada 177*09f455dcSMasahiro Yamada divider += rate - 1; 178*09f455dcSMasahiro Yamada do_div(divider, rate); 179*09f455dcSMasahiro Yamada 180*09f455dcSMasahiro Yamada if ((s64)divider - 2 < 0) 181*09f455dcSMasahiro Yamada return 0; 182*09f455dcSMasahiro Yamada 183*09f455dcSMasahiro Yamada if ((s64)divider - 2 >= max_divider) 184*09f455dcSMasahiro Yamada return -1; 185*09f455dcSMasahiro Yamada 186*09f455dcSMasahiro Yamada return divider - 2; 187*09f455dcSMasahiro Yamada } 188*09f455dcSMasahiro Yamada 189*09f455dcSMasahiro Yamada int clock_set_pllout(enum clock_id clkid, enum pll_out_id pllout, unsigned rate) 190*09f455dcSMasahiro Yamada { 191*09f455dcSMasahiro Yamada struct clk_pll *pll = get_pll(clkid); 192*09f455dcSMasahiro Yamada int data = 0, div = 0, offset = 0; 193*09f455dcSMasahiro Yamada 194*09f455dcSMasahiro Yamada if (!clock_id_is_pll(clkid)) 195*09f455dcSMasahiro Yamada return -1; 196*09f455dcSMasahiro Yamada 197*09f455dcSMasahiro Yamada if (pllout + 1 > pll_num_clkouts[clkid]) 198*09f455dcSMasahiro Yamada return -1; 199*09f455dcSMasahiro Yamada 200*09f455dcSMasahiro Yamada div = clk_get_divider(8, pll_rate[clkid], rate); 201*09f455dcSMasahiro Yamada 202*09f455dcSMasahiro Yamada if (div < 0) 203*09f455dcSMasahiro Yamada return -1; 204*09f455dcSMasahiro Yamada 205*09f455dcSMasahiro Yamada /* out2 and out4 are in the high part of the register */ 206*09f455dcSMasahiro Yamada if (pllout == PLL_OUT2 || pllout == PLL_OUT4) 207*09f455dcSMasahiro Yamada offset = 16; 208*09f455dcSMasahiro Yamada 209*09f455dcSMasahiro Yamada data = (div << PLL_OUT_RATIO_SHIFT) | 210*09f455dcSMasahiro Yamada PLL_OUT_OVRRIDE | PLL_OUT_CLKEN | PLL_OUT_RSTN; 211*09f455dcSMasahiro Yamada clrsetbits_le32(&pll->pll_out[pllout >> 1], 212*09f455dcSMasahiro Yamada PLL_OUT_RATIO_MASK << offset, data << offset); 213*09f455dcSMasahiro Yamada 214*09f455dcSMasahiro Yamada return 0; 215*09f455dcSMasahiro Yamada } 216*09f455dcSMasahiro Yamada 217*09f455dcSMasahiro Yamada /** 218*09f455dcSMasahiro Yamada * Given the parent's rate and the divider in 7.1 format, this works out the 219*09f455dcSMasahiro Yamada * resulting peripheral clock rate. 220*09f455dcSMasahiro Yamada * 221*09f455dcSMasahiro Yamada * @param parent_rate clock rate of parent clock in Hz 222*09f455dcSMasahiro Yamada * @param divider which should be used in 7.1 format 223*09f455dcSMasahiro Yamada * @return effective clock rate of peripheral 224*09f455dcSMasahiro Yamada */ 225*09f455dcSMasahiro Yamada static unsigned long get_rate_from_divider(unsigned long parent_rate, 226*09f455dcSMasahiro Yamada int divider) 227*09f455dcSMasahiro Yamada { 228*09f455dcSMasahiro Yamada u64 rate; 229*09f455dcSMasahiro Yamada 230*09f455dcSMasahiro Yamada rate = (u64)parent_rate * 2; 231*09f455dcSMasahiro Yamada do_div(rate, divider + 2); 232*09f455dcSMasahiro Yamada return rate; 233*09f455dcSMasahiro Yamada } 234*09f455dcSMasahiro Yamada 235*09f455dcSMasahiro Yamada unsigned long clock_get_periph_rate(enum periph_id periph_id, 236*09f455dcSMasahiro Yamada enum clock_id parent) 237*09f455dcSMasahiro Yamada { 238*09f455dcSMasahiro Yamada u32 *reg = get_periph_source_reg(periph_id); 239*09f455dcSMasahiro Yamada 240*09f455dcSMasahiro Yamada return get_rate_from_divider(pll_rate[parent], 241*09f455dcSMasahiro Yamada (readl(reg) & OUT_CLK_DIVISOR_MASK) >> OUT_CLK_DIVISOR_SHIFT); 242*09f455dcSMasahiro Yamada } 243*09f455dcSMasahiro Yamada 244*09f455dcSMasahiro Yamada /** 245*09f455dcSMasahiro Yamada * Find the best available 7.1 format divisor given a parent clock rate and 246*09f455dcSMasahiro Yamada * required child clock rate. This function assumes that a second-stage 247*09f455dcSMasahiro Yamada * divisor is available which can divide by powers of 2 from 1 to 256. 248*09f455dcSMasahiro Yamada * 249*09f455dcSMasahiro Yamada * @param divider_bits number of divider bits (8 or 16) 250*09f455dcSMasahiro Yamada * @param parent_rate clock rate of parent clock in Hz 251*09f455dcSMasahiro Yamada * @param rate required clock rate for this clock 252*09f455dcSMasahiro Yamada * @param extra_div value for the second-stage divisor (not set if this 253*09f455dcSMasahiro Yamada * function returns -1. 254*09f455dcSMasahiro Yamada * @return divider which should be used, or -1 if nothing is valid 255*09f455dcSMasahiro Yamada * 256*09f455dcSMasahiro Yamada */ 257*09f455dcSMasahiro Yamada static int find_best_divider(unsigned divider_bits, unsigned long parent_rate, 258*09f455dcSMasahiro Yamada unsigned long rate, int *extra_div) 259*09f455dcSMasahiro Yamada { 260*09f455dcSMasahiro Yamada int shift; 261*09f455dcSMasahiro Yamada int best_divider = -1; 262*09f455dcSMasahiro Yamada int best_error = rate; 263*09f455dcSMasahiro Yamada 264*09f455dcSMasahiro Yamada /* try dividers from 1 to 256 and find closest match */ 265*09f455dcSMasahiro Yamada for (shift = 0; shift <= 8 && best_error > 0; shift++) { 266*09f455dcSMasahiro Yamada unsigned divided_parent = parent_rate >> shift; 267*09f455dcSMasahiro Yamada int divider = clk_get_divider(divider_bits, divided_parent, 268*09f455dcSMasahiro Yamada rate); 269*09f455dcSMasahiro Yamada unsigned effective_rate = get_rate_from_divider(divided_parent, 270*09f455dcSMasahiro Yamada divider); 271*09f455dcSMasahiro Yamada int error = rate - effective_rate; 272*09f455dcSMasahiro Yamada 273*09f455dcSMasahiro Yamada /* Given a valid divider, look for the lowest error */ 274*09f455dcSMasahiro Yamada if (divider != -1 && error < best_error) { 275*09f455dcSMasahiro Yamada best_error = error; 276*09f455dcSMasahiro Yamada *extra_div = 1 << shift; 277*09f455dcSMasahiro Yamada best_divider = divider; 278*09f455dcSMasahiro Yamada } 279*09f455dcSMasahiro Yamada } 280*09f455dcSMasahiro Yamada 281*09f455dcSMasahiro Yamada /* return what we found - *extra_div will already be set */ 282*09f455dcSMasahiro Yamada return best_divider; 283*09f455dcSMasahiro Yamada } 284*09f455dcSMasahiro Yamada 285*09f455dcSMasahiro Yamada /** 286*09f455dcSMasahiro Yamada * Adjust peripheral PLL to use the given divider and source. 287*09f455dcSMasahiro Yamada * 288*09f455dcSMasahiro Yamada * @param periph_id peripheral to adjust 289*09f455dcSMasahiro Yamada * @param source Source number (0-3 or 0-7) 290*09f455dcSMasahiro Yamada * @param mux_bits Number of mux bits (2 or 4) 291*09f455dcSMasahiro Yamada * @param divider Required divider in 7.1 or 15.1 format 292*09f455dcSMasahiro Yamada * @return 0 if ok, -1 on error (requesting a parent clock which is not valid 293*09f455dcSMasahiro Yamada * for this peripheral) 294*09f455dcSMasahiro Yamada */ 295*09f455dcSMasahiro Yamada static int adjust_periph_pll(enum periph_id periph_id, int source, 296*09f455dcSMasahiro Yamada int mux_bits, unsigned divider) 297*09f455dcSMasahiro Yamada { 298*09f455dcSMasahiro Yamada u32 *reg = get_periph_source_reg(periph_id); 299*09f455dcSMasahiro Yamada 300*09f455dcSMasahiro Yamada clrsetbits_le32(reg, OUT_CLK_DIVISOR_MASK, 301*09f455dcSMasahiro Yamada divider << OUT_CLK_DIVISOR_SHIFT); 302*09f455dcSMasahiro Yamada udelay(1); 303*09f455dcSMasahiro Yamada 304*09f455dcSMasahiro Yamada /* work out the source clock and set it */ 305*09f455dcSMasahiro Yamada if (source < 0) 306*09f455dcSMasahiro Yamada return -1; 307*09f455dcSMasahiro Yamada 308*09f455dcSMasahiro Yamada switch (mux_bits) { 309*09f455dcSMasahiro Yamada case MASK_BITS_31_30: 310*09f455dcSMasahiro Yamada clrsetbits_le32(reg, OUT_CLK_SOURCE_31_30_MASK, 311*09f455dcSMasahiro Yamada source << OUT_CLK_SOURCE_31_30_SHIFT); 312*09f455dcSMasahiro Yamada break; 313*09f455dcSMasahiro Yamada 314*09f455dcSMasahiro Yamada case MASK_BITS_31_29: 315*09f455dcSMasahiro Yamada clrsetbits_le32(reg, OUT_CLK_SOURCE_31_29_MASK, 316*09f455dcSMasahiro Yamada source << OUT_CLK_SOURCE_31_29_SHIFT); 317*09f455dcSMasahiro Yamada break; 318*09f455dcSMasahiro Yamada 319*09f455dcSMasahiro Yamada case MASK_BITS_31_28: 320*09f455dcSMasahiro Yamada clrsetbits_le32(reg, OUT_CLK_SOURCE_31_28_MASK, 321*09f455dcSMasahiro Yamada source << OUT_CLK_SOURCE_31_28_SHIFT); 322*09f455dcSMasahiro Yamada break; 323*09f455dcSMasahiro Yamada 324*09f455dcSMasahiro Yamada default: 325*09f455dcSMasahiro Yamada return -1; 326*09f455dcSMasahiro Yamada } 327*09f455dcSMasahiro Yamada 328*09f455dcSMasahiro Yamada udelay(2); 329*09f455dcSMasahiro Yamada return 0; 330*09f455dcSMasahiro Yamada } 331*09f455dcSMasahiro Yamada 332*09f455dcSMasahiro Yamada unsigned clock_adjust_periph_pll_div(enum periph_id periph_id, 333*09f455dcSMasahiro Yamada enum clock_id parent, unsigned rate, int *extra_div) 334*09f455dcSMasahiro Yamada { 335*09f455dcSMasahiro Yamada unsigned effective_rate; 336*09f455dcSMasahiro Yamada int mux_bits, divider_bits, source; 337*09f455dcSMasahiro Yamada int divider; 338*09f455dcSMasahiro Yamada int xdiv = 0; 339*09f455dcSMasahiro Yamada 340*09f455dcSMasahiro Yamada /* work out the source clock and set it */ 341*09f455dcSMasahiro Yamada source = get_periph_clock_source(periph_id, parent, &mux_bits, 342*09f455dcSMasahiro Yamada ÷r_bits); 343*09f455dcSMasahiro Yamada 344*09f455dcSMasahiro Yamada divider = find_best_divider(divider_bits, pll_rate[parent], 345*09f455dcSMasahiro Yamada rate, &xdiv); 346*09f455dcSMasahiro Yamada if (extra_div) 347*09f455dcSMasahiro Yamada *extra_div = xdiv; 348*09f455dcSMasahiro Yamada 349*09f455dcSMasahiro Yamada assert(divider >= 0); 350*09f455dcSMasahiro Yamada if (adjust_periph_pll(periph_id, source, mux_bits, divider)) 351*09f455dcSMasahiro Yamada return -1U; 352*09f455dcSMasahiro Yamada debug("periph %d, rate=%d, reg=%p = %x\n", periph_id, rate, 353*09f455dcSMasahiro Yamada get_periph_source_reg(periph_id), 354*09f455dcSMasahiro Yamada readl(get_periph_source_reg(periph_id))); 355*09f455dcSMasahiro Yamada 356*09f455dcSMasahiro Yamada /* Check what we ended up with. This shouldn't matter though */ 357*09f455dcSMasahiro Yamada effective_rate = clock_get_periph_rate(periph_id, parent); 358*09f455dcSMasahiro Yamada if (extra_div) 359*09f455dcSMasahiro Yamada effective_rate /= *extra_div; 360*09f455dcSMasahiro Yamada if (rate != effective_rate) 361*09f455dcSMasahiro Yamada debug("Requested clock rate %u not honored (got %u)\n", 362*09f455dcSMasahiro Yamada rate, effective_rate); 363*09f455dcSMasahiro Yamada return effective_rate; 364*09f455dcSMasahiro Yamada } 365*09f455dcSMasahiro Yamada 366*09f455dcSMasahiro Yamada unsigned clock_start_periph_pll(enum periph_id periph_id, 367*09f455dcSMasahiro Yamada enum clock_id parent, unsigned rate) 368*09f455dcSMasahiro Yamada { 369*09f455dcSMasahiro Yamada unsigned effective_rate; 370*09f455dcSMasahiro Yamada 371*09f455dcSMasahiro Yamada reset_set_enable(periph_id, 1); 372*09f455dcSMasahiro Yamada clock_enable(periph_id); 373*09f455dcSMasahiro Yamada 374*09f455dcSMasahiro Yamada effective_rate = clock_adjust_periph_pll_div(periph_id, parent, rate, 375*09f455dcSMasahiro Yamada NULL); 376*09f455dcSMasahiro Yamada 377*09f455dcSMasahiro Yamada reset_set_enable(periph_id, 0); 378*09f455dcSMasahiro Yamada return effective_rate; 379*09f455dcSMasahiro Yamada } 380*09f455dcSMasahiro Yamada 381*09f455dcSMasahiro Yamada void clock_enable(enum periph_id clkid) 382*09f455dcSMasahiro Yamada { 383*09f455dcSMasahiro Yamada clock_set_enable(clkid, 1); 384*09f455dcSMasahiro Yamada } 385*09f455dcSMasahiro Yamada 386*09f455dcSMasahiro Yamada void clock_disable(enum periph_id clkid) 387*09f455dcSMasahiro Yamada { 388*09f455dcSMasahiro Yamada clock_set_enable(clkid, 0); 389*09f455dcSMasahiro Yamada } 390*09f455dcSMasahiro Yamada 391*09f455dcSMasahiro Yamada void reset_periph(enum periph_id periph_id, int us_delay) 392*09f455dcSMasahiro Yamada { 393*09f455dcSMasahiro Yamada /* Put peripheral into reset */ 394*09f455dcSMasahiro Yamada reset_set_enable(periph_id, 1); 395*09f455dcSMasahiro Yamada udelay(us_delay); 396*09f455dcSMasahiro Yamada 397*09f455dcSMasahiro Yamada /* Remove reset */ 398*09f455dcSMasahiro Yamada reset_set_enable(periph_id, 0); 399*09f455dcSMasahiro Yamada 400*09f455dcSMasahiro Yamada udelay(us_delay); 401*09f455dcSMasahiro Yamada } 402*09f455dcSMasahiro Yamada 403*09f455dcSMasahiro Yamada void reset_cmplx_set_enable(int cpu, int which, int reset) 404*09f455dcSMasahiro Yamada { 405*09f455dcSMasahiro Yamada struct clk_rst_ctlr *clkrst = 406*09f455dcSMasahiro Yamada (struct clk_rst_ctlr *)NV_PA_CLK_RST_BASE; 407*09f455dcSMasahiro Yamada u32 mask; 408*09f455dcSMasahiro Yamada 409*09f455dcSMasahiro Yamada /* Form the mask, which depends on the cpu chosen (2 or 4) */ 410*09f455dcSMasahiro Yamada assert(cpu >= 0 && cpu < MAX_NUM_CPU); 411*09f455dcSMasahiro Yamada mask = which << cpu; 412*09f455dcSMasahiro Yamada 413*09f455dcSMasahiro Yamada /* either enable or disable those reset for that CPU */ 414*09f455dcSMasahiro Yamada if (reset) 415*09f455dcSMasahiro Yamada writel(mask, &clkrst->crc_cpu_cmplx_set); 416*09f455dcSMasahiro Yamada else 417*09f455dcSMasahiro Yamada writel(mask, &clkrst->crc_cpu_cmplx_clr); 418*09f455dcSMasahiro Yamada } 419*09f455dcSMasahiro Yamada 420*09f455dcSMasahiro Yamada unsigned clock_get_rate(enum clock_id clkid) 421*09f455dcSMasahiro Yamada { 422*09f455dcSMasahiro Yamada struct clk_pll *pll; 423*09f455dcSMasahiro Yamada u32 base; 424*09f455dcSMasahiro Yamada u32 divm; 425*09f455dcSMasahiro Yamada u64 parent_rate; 426*09f455dcSMasahiro Yamada u64 rate; 427*09f455dcSMasahiro Yamada 428*09f455dcSMasahiro Yamada parent_rate = osc_freq[clock_get_osc_freq()]; 429*09f455dcSMasahiro Yamada if (clkid == CLOCK_ID_OSC) 430*09f455dcSMasahiro Yamada return parent_rate; 431*09f455dcSMasahiro Yamada 432*09f455dcSMasahiro Yamada pll = get_pll(clkid); 433*09f455dcSMasahiro Yamada base = readl(&pll->pll_base); 434*09f455dcSMasahiro Yamada 435*09f455dcSMasahiro Yamada /* Oh for bf_unpack()... */ 436*09f455dcSMasahiro Yamada rate = parent_rate * ((base & PLL_DIVN_MASK) >> PLL_DIVN_SHIFT); 437*09f455dcSMasahiro Yamada divm = (base & PLL_DIVM_MASK) >> PLL_DIVM_SHIFT; 438*09f455dcSMasahiro Yamada if (clkid == CLOCK_ID_USB) 439*09f455dcSMasahiro Yamada divm <<= (base & PLLU_VCO_FREQ_MASK) >> PLLU_VCO_FREQ_SHIFT; 440*09f455dcSMasahiro Yamada else 441*09f455dcSMasahiro Yamada divm <<= (base & PLL_DIVP_MASK) >> PLL_DIVP_SHIFT; 442*09f455dcSMasahiro Yamada do_div(rate, divm); 443*09f455dcSMasahiro Yamada return rate; 444*09f455dcSMasahiro Yamada } 445*09f455dcSMasahiro Yamada 446*09f455dcSMasahiro Yamada /** 447*09f455dcSMasahiro Yamada * Set the output frequency you want for each PLL clock. 448*09f455dcSMasahiro Yamada * PLL output frequencies are programmed by setting their N, M and P values. 449*09f455dcSMasahiro Yamada * The governing equations are: 450*09f455dcSMasahiro Yamada * VCO = (Fi / m) * n, Fo = VCO / (2^p) 451*09f455dcSMasahiro Yamada * where Fo is the output frequency from the PLL. 452*09f455dcSMasahiro Yamada * Example: Set the output frequency to 216Mhz(Fo) with 12Mhz OSC(Fi) 453*09f455dcSMasahiro Yamada * 216Mhz = ((12Mhz / m) * n) / (2^p) so n=432,m=12,p=1 454*09f455dcSMasahiro Yamada * Please see Tegra TRM section 5.3 to get the detail for PLL Programming 455*09f455dcSMasahiro Yamada * 456*09f455dcSMasahiro Yamada * @param n PLL feedback divider(DIVN) 457*09f455dcSMasahiro Yamada * @param m PLL input divider(DIVN) 458*09f455dcSMasahiro Yamada * @param p post divider(DIVP) 459*09f455dcSMasahiro Yamada * @param cpcon base PLL charge pump(CPCON) 460*09f455dcSMasahiro Yamada * @return 0 if ok, -1 on error (the requested PLL is incorrect and cannot 461*09f455dcSMasahiro Yamada * be overriden), 1 if PLL is already correct 462*09f455dcSMasahiro Yamada */ 463*09f455dcSMasahiro Yamada int clock_set_rate(enum clock_id clkid, u32 n, u32 m, u32 p, u32 cpcon) 464*09f455dcSMasahiro Yamada { 465*09f455dcSMasahiro Yamada u32 base_reg; 466*09f455dcSMasahiro Yamada u32 misc_reg; 467*09f455dcSMasahiro Yamada struct clk_pll *pll; 468*09f455dcSMasahiro Yamada 469*09f455dcSMasahiro Yamada pll = get_pll(clkid); 470*09f455dcSMasahiro Yamada 471*09f455dcSMasahiro Yamada base_reg = readl(&pll->pll_base); 472*09f455dcSMasahiro Yamada 473*09f455dcSMasahiro Yamada /* Set BYPASS, m, n and p to PLL_BASE */ 474*09f455dcSMasahiro Yamada base_reg &= ~PLL_DIVM_MASK; 475*09f455dcSMasahiro Yamada base_reg |= m << PLL_DIVM_SHIFT; 476*09f455dcSMasahiro Yamada 477*09f455dcSMasahiro Yamada base_reg &= ~PLL_DIVN_MASK; 478*09f455dcSMasahiro Yamada base_reg |= n << PLL_DIVN_SHIFT; 479*09f455dcSMasahiro Yamada 480*09f455dcSMasahiro Yamada base_reg &= ~PLL_DIVP_MASK; 481*09f455dcSMasahiro Yamada base_reg |= p << PLL_DIVP_SHIFT; 482*09f455dcSMasahiro Yamada 483*09f455dcSMasahiro Yamada if (clkid == CLOCK_ID_PERIPH) { 484*09f455dcSMasahiro Yamada /* 485*09f455dcSMasahiro Yamada * If the PLL is already set up, check that it is correct 486*09f455dcSMasahiro Yamada * and record this info for clock_verify() to check. 487*09f455dcSMasahiro Yamada */ 488*09f455dcSMasahiro Yamada if (base_reg & PLL_BASE_OVRRIDE_MASK) { 489*09f455dcSMasahiro Yamada base_reg |= PLL_ENABLE_MASK; 490*09f455dcSMasahiro Yamada if (base_reg != readl(&pll->pll_base)) 491*09f455dcSMasahiro Yamada pllp_valid = 0; 492*09f455dcSMasahiro Yamada return pllp_valid ? 1 : -1; 493*09f455dcSMasahiro Yamada } 494*09f455dcSMasahiro Yamada base_reg |= PLL_BASE_OVRRIDE_MASK; 495*09f455dcSMasahiro Yamada } 496*09f455dcSMasahiro Yamada 497*09f455dcSMasahiro Yamada base_reg |= PLL_BYPASS_MASK; 498*09f455dcSMasahiro Yamada writel(base_reg, &pll->pll_base); 499*09f455dcSMasahiro Yamada 500*09f455dcSMasahiro Yamada /* Set cpcon to PLL_MISC */ 501*09f455dcSMasahiro Yamada misc_reg = readl(&pll->pll_misc); 502*09f455dcSMasahiro Yamada misc_reg &= ~PLL_CPCON_MASK; 503*09f455dcSMasahiro Yamada misc_reg |= cpcon << PLL_CPCON_SHIFT; 504*09f455dcSMasahiro Yamada writel(misc_reg, &pll->pll_misc); 505*09f455dcSMasahiro Yamada 506*09f455dcSMasahiro Yamada /* Enable PLL */ 507*09f455dcSMasahiro Yamada base_reg |= PLL_ENABLE_MASK; 508*09f455dcSMasahiro Yamada writel(base_reg, &pll->pll_base); 509*09f455dcSMasahiro Yamada 510*09f455dcSMasahiro Yamada /* Disable BYPASS */ 511*09f455dcSMasahiro Yamada base_reg &= ~PLL_BYPASS_MASK; 512*09f455dcSMasahiro Yamada writel(base_reg, &pll->pll_base); 513*09f455dcSMasahiro Yamada 514*09f455dcSMasahiro Yamada return 0; 515*09f455dcSMasahiro Yamada } 516*09f455dcSMasahiro Yamada 517*09f455dcSMasahiro Yamada void clock_ll_start_uart(enum periph_id periph_id) 518*09f455dcSMasahiro Yamada { 519*09f455dcSMasahiro Yamada /* Assert UART reset and enable clock */ 520*09f455dcSMasahiro Yamada reset_set_enable(periph_id, 1); 521*09f455dcSMasahiro Yamada clock_enable(periph_id); 522*09f455dcSMasahiro Yamada clock_ll_set_source(periph_id, 0); /* UARTx_CLK_SRC = 00, PLLP_OUT0 */ 523*09f455dcSMasahiro Yamada 524*09f455dcSMasahiro Yamada /* wait for 2us */ 525*09f455dcSMasahiro Yamada udelay(2); 526*09f455dcSMasahiro Yamada 527*09f455dcSMasahiro Yamada /* De-assert reset to UART */ 528*09f455dcSMasahiro Yamada reset_set_enable(periph_id, 0); 529*09f455dcSMasahiro Yamada } 530*09f455dcSMasahiro Yamada 531*09f455dcSMasahiro Yamada #ifdef CONFIG_OF_CONTROL 532*09f455dcSMasahiro Yamada int clock_decode_periph_id(const void *blob, int node) 533*09f455dcSMasahiro Yamada { 534*09f455dcSMasahiro Yamada enum periph_id id; 535*09f455dcSMasahiro Yamada u32 cell[2]; 536*09f455dcSMasahiro Yamada int err; 537*09f455dcSMasahiro Yamada 538*09f455dcSMasahiro Yamada err = fdtdec_get_int_array(blob, node, "clocks", cell, 539*09f455dcSMasahiro Yamada ARRAY_SIZE(cell)); 540*09f455dcSMasahiro Yamada if (err) 541*09f455dcSMasahiro Yamada return -1; 542*09f455dcSMasahiro Yamada id = clk_id_to_periph_id(cell[1]); 543*09f455dcSMasahiro Yamada assert(clock_periph_id_isvalid(id)); 544*09f455dcSMasahiro Yamada return id; 545*09f455dcSMasahiro Yamada } 546*09f455dcSMasahiro Yamada #endif /* CONFIG_OF_CONTROL */ 547*09f455dcSMasahiro Yamada 548*09f455dcSMasahiro Yamada int clock_verify(void) 549*09f455dcSMasahiro Yamada { 550*09f455dcSMasahiro Yamada struct clk_pll *pll = get_pll(CLOCK_ID_PERIPH); 551*09f455dcSMasahiro Yamada u32 reg = readl(&pll->pll_base); 552*09f455dcSMasahiro Yamada 553*09f455dcSMasahiro Yamada if (!pllp_valid) { 554*09f455dcSMasahiro Yamada printf("Warning: PLLP %x is not correct\n", reg); 555*09f455dcSMasahiro Yamada return -1; 556*09f455dcSMasahiro Yamada } 557*09f455dcSMasahiro Yamada debug("PLLP %x is correct\n", reg); 558*09f455dcSMasahiro Yamada return 0; 559*09f455dcSMasahiro Yamada } 560*09f455dcSMasahiro Yamada 561*09f455dcSMasahiro Yamada void clock_init(void) 562*09f455dcSMasahiro Yamada { 563*09f455dcSMasahiro Yamada pll_rate[CLOCK_ID_MEMORY] = clock_get_rate(CLOCK_ID_MEMORY); 564*09f455dcSMasahiro Yamada pll_rate[CLOCK_ID_PERIPH] = clock_get_rate(CLOCK_ID_PERIPH); 565*09f455dcSMasahiro Yamada pll_rate[CLOCK_ID_CGENERAL] = clock_get_rate(CLOCK_ID_CGENERAL); 566*09f455dcSMasahiro Yamada pll_rate[CLOCK_ID_OSC] = clock_get_rate(CLOCK_ID_OSC); 567*09f455dcSMasahiro Yamada pll_rate[CLOCK_ID_SFROM32KHZ] = 32768; 568*09f455dcSMasahiro Yamada pll_rate[CLOCK_ID_XCPU] = clock_get_rate(CLOCK_ID_XCPU); 569*09f455dcSMasahiro Yamada debug("Osc = %d\n", pll_rate[CLOCK_ID_OSC]); 570*09f455dcSMasahiro Yamada debug("PLLM = %d\n", pll_rate[CLOCK_ID_MEMORY]); 571*09f455dcSMasahiro Yamada debug("PLLP = %d\n", pll_rate[CLOCK_ID_PERIPH]); 572*09f455dcSMasahiro Yamada debug("PLLC = %d\n", pll_rate[CLOCK_ID_CGENERAL]); 573*09f455dcSMasahiro Yamada debug("PLLX = %d\n", pll_rate[CLOCK_ID_XCPU]); 574*09f455dcSMasahiro Yamada 575*09f455dcSMasahiro Yamada /* Do any special system timer/TSC setup */ 576*09f455dcSMasahiro Yamada arch_timer_init(); 577*09f455dcSMasahiro Yamada } 578*09f455dcSMasahiro Yamada 579*09f455dcSMasahiro Yamada static void set_avp_clock_source(u32 src) 580*09f455dcSMasahiro Yamada { 581*09f455dcSMasahiro Yamada struct clk_rst_ctlr *clkrst = 582*09f455dcSMasahiro Yamada (struct clk_rst_ctlr *)NV_PA_CLK_RST_BASE; 583*09f455dcSMasahiro Yamada u32 val; 584*09f455dcSMasahiro Yamada 585*09f455dcSMasahiro Yamada val = (src << SCLK_SWAKEUP_FIQ_SOURCE_SHIFT) | 586*09f455dcSMasahiro Yamada (src << SCLK_SWAKEUP_IRQ_SOURCE_SHIFT) | 587*09f455dcSMasahiro Yamada (src << SCLK_SWAKEUP_RUN_SOURCE_SHIFT) | 588*09f455dcSMasahiro Yamada (src << SCLK_SWAKEUP_IDLE_SOURCE_SHIFT) | 589*09f455dcSMasahiro Yamada (SCLK_SYS_STATE_RUN << SCLK_SYS_STATE_SHIFT); 590*09f455dcSMasahiro Yamada writel(val, &clkrst->crc_sclk_brst_pol); 591*09f455dcSMasahiro Yamada udelay(3); 592*09f455dcSMasahiro Yamada } 593*09f455dcSMasahiro Yamada 594*09f455dcSMasahiro Yamada /* 595*09f455dcSMasahiro Yamada * This function is useful on Tegra30, and any later SoCs that have compatible 596*09f455dcSMasahiro Yamada * PLLP configuration registers. 597*09f455dcSMasahiro Yamada */ 598*09f455dcSMasahiro Yamada void tegra30_set_up_pllp(void) 599*09f455dcSMasahiro Yamada { 600*09f455dcSMasahiro Yamada struct clk_rst_ctlr *clkrst = (struct clk_rst_ctlr *)NV_PA_CLK_RST_BASE; 601*09f455dcSMasahiro Yamada u32 reg; 602*09f455dcSMasahiro Yamada 603*09f455dcSMasahiro Yamada /* 604*09f455dcSMasahiro Yamada * Based on the Tegra TRM, the system clock (which is the AVP clock) can 605*09f455dcSMasahiro Yamada * run up to 275MHz. On power on, the default sytem clock source is set 606*09f455dcSMasahiro Yamada * to PLLP_OUT0. This function sets PLLP's (hence PLLP_OUT0's) rate to 607*09f455dcSMasahiro Yamada * 408MHz which is beyond system clock's upper limit. 608*09f455dcSMasahiro Yamada * 609*09f455dcSMasahiro Yamada * The fix is to set the system clock to CLK_M before initializing PLLP, 610*09f455dcSMasahiro Yamada * and then switch back to PLLP_OUT4, which has an appropriate divider 611*09f455dcSMasahiro Yamada * configured, after PLLP has been configured 612*09f455dcSMasahiro Yamada */ 613*09f455dcSMasahiro Yamada set_avp_clock_source(SCLK_SOURCE_CLKM); 614*09f455dcSMasahiro Yamada 615*09f455dcSMasahiro Yamada /* 616*09f455dcSMasahiro Yamada * PLLP output frequency set to 408Mhz 617*09f455dcSMasahiro Yamada * PLLC output frequency set to 228Mhz 618*09f455dcSMasahiro Yamada */ 619*09f455dcSMasahiro Yamada switch (clock_get_osc_freq()) { 620*09f455dcSMasahiro Yamada case CLOCK_OSC_FREQ_12_0: /* OSC is 12Mhz */ 621*09f455dcSMasahiro Yamada clock_set_rate(CLOCK_ID_PERIPH, 408, 12, 0, 8); 622*09f455dcSMasahiro Yamada clock_set_rate(CLOCK_ID_CGENERAL, 456, 12, 1, 8); 623*09f455dcSMasahiro Yamada break; 624*09f455dcSMasahiro Yamada 625*09f455dcSMasahiro Yamada case CLOCK_OSC_FREQ_26_0: /* OSC is 26Mhz */ 626*09f455dcSMasahiro Yamada clock_set_rate(CLOCK_ID_PERIPH, 408, 26, 0, 8); 627*09f455dcSMasahiro Yamada clock_set_rate(CLOCK_ID_CGENERAL, 600, 26, 0, 8); 628*09f455dcSMasahiro Yamada break; 629*09f455dcSMasahiro Yamada 630*09f455dcSMasahiro Yamada case CLOCK_OSC_FREQ_13_0: /* OSC is 13Mhz */ 631*09f455dcSMasahiro Yamada clock_set_rate(CLOCK_ID_PERIPH, 408, 13, 0, 8); 632*09f455dcSMasahiro Yamada clock_set_rate(CLOCK_ID_CGENERAL, 600, 13, 0, 8); 633*09f455dcSMasahiro Yamada break; 634*09f455dcSMasahiro Yamada case CLOCK_OSC_FREQ_19_2: 635*09f455dcSMasahiro Yamada default: 636*09f455dcSMasahiro Yamada /* 637*09f455dcSMasahiro Yamada * These are not supported. It is too early to print a 638*09f455dcSMasahiro Yamada * message and the UART likely won't work anyway due to the 639*09f455dcSMasahiro Yamada * oscillator being wrong. 640*09f455dcSMasahiro Yamada */ 641*09f455dcSMasahiro Yamada break; 642*09f455dcSMasahiro Yamada } 643*09f455dcSMasahiro Yamada 644*09f455dcSMasahiro Yamada /* Set PLLP_OUT1, 2, 3 & 4 freqs to 9.6, 48, 102 & 204MHz */ 645*09f455dcSMasahiro Yamada 646*09f455dcSMasahiro Yamada /* OUT1, 2 */ 647*09f455dcSMasahiro Yamada /* Assert RSTN before enable */ 648*09f455dcSMasahiro Yamada reg = PLLP_OUT2_RSTN_EN | PLLP_OUT1_RSTN_EN; 649*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_pll[CLOCK_ID_PERIPH].pll_out[0]); 650*09f455dcSMasahiro Yamada /* Set divisor and reenable */ 651*09f455dcSMasahiro Yamada reg = (IN_408_OUT_48_DIVISOR << PLLP_OUT2_RATIO) 652*09f455dcSMasahiro Yamada | PLLP_OUT2_OVR | PLLP_OUT2_CLKEN | PLLP_OUT2_RSTN_DIS 653*09f455dcSMasahiro Yamada | (IN_408_OUT_9_6_DIVISOR << PLLP_OUT1_RATIO) 654*09f455dcSMasahiro Yamada | PLLP_OUT1_OVR | PLLP_OUT1_CLKEN | PLLP_OUT1_RSTN_DIS; 655*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_pll[CLOCK_ID_PERIPH].pll_out[0]); 656*09f455dcSMasahiro Yamada 657*09f455dcSMasahiro Yamada /* OUT3, 4 */ 658*09f455dcSMasahiro Yamada /* Assert RSTN before enable */ 659*09f455dcSMasahiro Yamada reg = PLLP_OUT4_RSTN_EN | PLLP_OUT3_RSTN_EN; 660*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_pll[CLOCK_ID_PERIPH].pll_out[1]); 661*09f455dcSMasahiro Yamada /* Set divisor and reenable */ 662*09f455dcSMasahiro Yamada reg = (IN_408_OUT_204_DIVISOR << PLLP_OUT4_RATIO) 663*09f455dcSMasahiro Yamada | PLLP_OUT4_OVR | PLLP_OUT4_CLKEN | PLLP_OUT4_RSTN_DIS 664*09f455dcSMasahiro Yamada | (IN_408_OUT_102_DIVISOR << PLLP_OUT3_RATIO) 665*09f455dcSMasahiro Yamada | PLLP_OUT3_OVR | PLLP_OUT3_CLKEN | PLLP_OUT3_RSTN_DIS; 666*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_pll[CLOCK_ID_PERIPH].pll_out[1]); 667*09f455dcSMasahiro Yamada 668*09f455dcSMasahiro Yamada set_avp_clock_source(SCLK_SOURCE_PLLP_OUT4); 669*09f455dcSMasahiro Yamada } 670