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|
/*
* This file is part of the coreboot project.
*
* Copyright 2014 Rockchip Inc.
*
* 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.
*/
#include <device/mmio.h>
#include <assert.h>
#include <console/console.h>
#include <delay.h>
#include <lib.h>
#include <soc/addressmap.h>
#include <soc/clock.h>
#include <soc/grf.h>
#include <soc/i2c.h>
#include <soc/soc.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
struct pll_div {
u32 nr;
u32 nf;
u32 no;
};
struct rk3288_cru_reg {
u32 cru_apll_con[4];
u32 cru_dpll_con[4];
u32 cru_cpll_con[4];
u32 cru_gpll_con[4];
u32 cru_npll_con[4];
u32 cru_mode_con;
u32 reserved0[3];
u32 cru_clksel_con[43];
u32 reserved1[21];
u32 cru_clkgate_con[19];
u32 reserved2;
u32 cru_glb_srst_fst_value;
u32 cru_glb_srst_snd_value;
u32 cru_softrst_con[12];
u32 cru_misc_con;
u32 cru_glb_cnt_th;
u32 cru_glb_rst_con;
u32 reserved3;
u32 cru_glb_rst_st;
u32 reserved4;
u32 cru_sdmmc_con[2];
u32 cru_sdio0_con[2];
u32 cru_sdio1_con[2];
u32 cru_emmc_con[2];
};
check_member(rk3288_cru_reg, cru_emmc_con[1], 0x021c);
static struct rk3288_cru_reg * const cru_ptr = (void *)CRU_BASE;
#define PLL_DIVISORS(hz, _nr, _no) {\
.nr = _nr, .nf = (u32)((u64)hz * _nr * _no / OSC_HZ), .no = _no};\
_Static_assert(((u64)hz * _nr * _no / OSC_HZ) * OSC_HZ /\
(_nr * _no) == hz, #hz "Hz cannot be hit with PLL "\
"divisors on line " STRINGIFY(__LINE__));
/* Keep divisors as low as possible to reduce jitter and power usage. */
static const struct pll_div gpll_init_cfg = PLL_DIVISORS(GPLL_HZ, 2, 2);
static const struct pll_div cpll_init_cfg = PLL_DIVISORS(CPLL_HZ, 1, 2);
/* See linux/drivers/clk/rockchip/clk-rk3288.c for more APLL combinations */
static const struct pll_div apll_1800_cfg = PLL_DIVISORS(1800*MHz, 1, 1);
static const struct pll_div apll_1416_cfg = PLL_DIVISORS(1416*MHz, 1, 1);
static const struct pll_div apll_600_cfg = PLL_DIVISORS(600*MHz, 1, 2);
static const struct pll_div *apll_cfgs[] = {
[APLL_1800_MHZ] = &apll_1800_cfg,
[APLL_1416_MHZ] = &apll_1416_cfg,
[APLL_600_MHZ] = &apll_600_cfg,
};
/*******************PLL CON0 BITS***************************/
#define PLL_OD_MSK (0x0F)
#define PLL_NR_MSK (0x3F << 8)
#define PLL_NR_SHIFT (8)
/*******************PLL CON1 BITS***************************/
#define PLL_NF_MSK (0x1FFF)
/*******************PLL CON2 BITS***************************/
#define PLL_BWADJ_MSK (0x0FFF)
/*******************PLL CON3 BITS***************************/
#define PLL_RESET_MSK (1 << 5)
#define PLL_RESET (1 << 5)
#define PLL_RESET_RESUME (0 << 5)
/*******************CLKSEL0 BITS***************************/
/* core clk pll sel: amr or general */
#define CORE_SEL_PLL_MSK (1 << 15)
#define CORE_SEL_APLL (0 << 15)
#define CORE_SEL_GPLL (1 << 15)
/* a12 core clock div: clk_core = clk_src / (div_con + 1) */
#define A12_DIV_SHIFT (8)
#define A12_DIV_MSK (0x1F << 8)
/* mp core axi clock div: clk = clk_src / (div_con + 1) */
#define MP_DIV_SHIFT (4)
#define MP_DIV_MSK (0xF << 4)
/* m0 core axi clock div: clk = clk_src / (div_con + 1) */
#define M0_DIV_MSK (0xF)
/*******************CLKSEL1 BITS***************************/
/* pd bus clk pll sel: codec or general */
#define PD_BUS_SEL_PLL_MSK (1 << 15)
#define PD_BUS_SEL_CPLL (0 << 15)
#define PD_BUS_SEL_GPLL (1 << 15)
/* pd bus pclk div:
* pclk = pd_bus_aclk /(div + 1)
*/
#define PD_BUS_PCLK_DIV_SHIFT (12)
#define PD_BUS_PCLK_DIV_MSK (0x7 << 12)
/* pd bus hclk div:
* aclk_bus: hclk_bus = 1:1 or 2:1 or 4:1
*/
#define PD_BUS_HCLK_DIV_SHIFT (8)
#define PD_BUS_HCLK_DIV_MSK (0x3 << 8)
/* pd bus aclk div:
* pd_bus_aclk = pd_bus_src_clk /(div0 * div1)
*/
#define PD_BUS_ACLK_DIV0_SHIFT (3)
#define PD_BUS_ACLK_DIV0_MASK (0x1f << 3)
#define PD_BUS_ACLK_DIV1_SHIFT (0)
#define PD_BUS_ACLK_DIV1_MASK (0x7 << 0)
/*******************CLKSEL10 BITS***************************/
/* peripheral bus clk pll sel: codec or general */
#define PERI_SEL_PLL_MSK (1 << 15)
#define PERI_SEL_CPLL (0 << 15)
#define PERI_SEL_GPLL (1 << 15)
/* peripheral bus pclk div:
* aclk_bus: pclk_bus = 1:1 or 2:1 or 4:1 or 8:1
*/
#define PERI_PCLK_DIV_SHIFT (12)
#define PERI_PCLK_DIV_MSK (0x7 << 12)
/* peripheral bus hclk div:
* aclk_bus: hclk_bus = 1:1 or 2:1 or 4:1
*/
#define PERI_HCLK_DIV_SHIFT (8)
#define PERI_HCLK_DIV_MSK (0x3 << 8)
/* peripheral bus aclk div:
* aclk_periph =
* periph_clk_src / (peri_aclk_div_con + 1)
*/
#define PERI_ACLK_DIV_SHIFT (0x0)
#define PERI_ACLK_DIV_MSK (0x1F)
/*******************CLKSEL37 BITS***************************/
#define L2_DIV_MSK (0x7)
#define ATCLK_DIV_MSK (0x1F << 4)
#define ATCLK_DIV_SHIFT (4)
#define PCLK_DBG_DIV_MSK (0x1F << 9)
#define PCLK_DBG_DIV_SHIFT (9)
#define APLL_MODE_MSK (0x3)
#define APLL_MODE_SLOW (0)
#define APLL_MODE_NORM (1)
#define DPLL_MODE_MSK (0x3 << 4)
#define DPLL_MODE_SLOW (0 << 4)
#define DPLL_MODE_NORM (1 << 4)
#define CPLL_MODE_MSK (0x3 << 8)
#define CPLL_MODE_SLOW (0 << 8)
#define CPLL_MODE_NORM (1 << 8)
#define GPLL_MODE_MSK (0x3 << 12)
#define GPLL_MODE_SLOW (0 << 12)
#define GPLL_MODE_NORM (1 << 12)
#define NPLL_MODE_MSK (0x3 << 14)
#define NPLL_MODE_SLOW (0 << 14)
#define NPLL_MODE_NORM (1 << 14)
#define SOCSTS_DPLL_LOCK (1 << 5)
#define SOCSTS_APLL_LOCK (1 << 6)
#define SOCSTS_CPLL_LOCK (1 << 7)
#define SOCSTS_GPLL_LOCK (1 << 8)
#define SOCSTS_NPLL_LOCK (1 << 9)
#define VCO_MAX_KHZ (2200 * (MHz/KHz))
#define VCO_MIN_KHZ (440 * (MHz/KHz))
#define OUTPUT_MAX_KHZ (2200 * (MHz/KHz))
#define OUTPUT_MIN_KHZ 27500
#define FREF_MAX_KHZ (2200 * (MHz/KHz))
#define FREF_MIN_KHZ 269
static int rkclk_set_pll(u32 *pll_con, const struct pll_div *div)
{
/* All PLLs have same VCO and output frequency range restrictions. */
u32 vco_khz = OSC_HZ/KHz * div->nf / div->nr;
u32 output_khz = vco_khz / div->no;
printk(BIOS_DEBUG, "Configuring PLL at %p with NF = %d, NR = %d and "
"NO = %d (VCO = %uKHz, output = %uKHz)\n",
pll_con, div->nf, div->nr, div->no, vco_khz, output_khz);
assert(vco_khz >= VCO_MIN_KHZ && vco_khz <= VCO_MAX_KHZ &&
output_khz >= OUTPUT_MIN_KHZ && output_khz <= OUTPUT_MAX_KHZ &&
(div->no == 1 || !(div->no % 2)));
/* enter rest */
write32(&pll_con[3], RK_SETBITS(PLL_RESET_MSK));
write32(&pll_con[0],
RK_CLRSETBITS(PLL_NR_MSK, (div->nr - 1) << PLL_NR_SHIFT) |
RK_CLRSETBITS(PLL_OD_MSK, (div->no - 1)));
write32(&pll_con[1], RK_CLRSETBITS(PLL_NF_MSK, (div->nf - 1)));
write32(&pll_con[2],
RK_CLRSETBITS(PLL_BWADJ_MSK, ((div->nf >> 1) - 1)));
udelay(10);
/* return form rest */
write32(&pll_con[3], RK_CLRBITS(PLL_RESET_MSK));
return 0;
}
void rkclk_init(void)
{
u32 aclk_div;
u32 hclk_div;
u32 pclk_div;
/* pll enter slow-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(GPLL_MODE_MSK, GPLL_MODE_SLOW) |
RK_CLRSETBITS(CPLL_MODE_MSK, CPLL_MODE_SLOW));
/* init pll */
rkclk_set_pll(&cru_ptr->cru_gpll_con[0], &gpll_init_cfg);
rkclk_set_pll(&cru_ptr->cru_cpll_con[0], &cpll_init_cfg);
/* waiting for pll lock */
while (1) {
if ((read32(&rk3288_grf->soc_status[1])
& (SOCSTS_CPLL_LOCK | SOCSTS_GPLL_LOCK))
== (SOCSTS_CPLL_LOCK | SOCSTS_GPLL_LOCK))
break;
udelay(1);
}
/*
* pd_bus clock pll source selection and
* set up dependent divisors for PCLK/HCLK and ACLK clocks.
*/
aclk_div = GPLL_HZ / PD_BUS_ACLK_HZ - 1;
assert((aclk_div + 1) * PD_BUS_ACLK_HZ == GPLL_HZ && aclk_div <= 0x1f);
hclk_div = PD_BUS_ACLK_HZ / PD_BUS_HCLK_HZ - 1;
assert((hclk_div + 1) * PD_BUS_HCLK_HZ ==
PD_BUS_ACLK_HZ && (hclk_div <= 0x3) && (hclk_div != 0x2));
pclk_div = PD_BUS_ACLK_HZ / PD_BUS_PCLK_HZ - 1;
assert((pclk_div + 1) * PD_BUS_PCLK_HZ ==
PD_BUS_ACLK_HZ && pclk_div <= 0x7);
write32(&cru_ptr->cru_clksel_con[1], RK_SETBITS(PD_BUS_SEL_GPLL) |
RK_CLRSETBITS(PD_BUS_PCLK_DIV_MSK,
pclk_div << PD_BUS_PCLK_DIV_SHIFT) |
RK_CLRSETBITS(PD_BUS_HCLK_DIV_MSK,
hclk_div << PD_BUS_HCLK_DIV_SHIFT) |
RK_CLRSETBITS(PD_BUS_ACLK_DIV0_MASK,
aclk_div << PD_BUS_ACLK_DIV0_SHIFT) |
RK_CLRSETBITS(PD_BUS_ACLK_DIV1_MASK, 0 << 0));
/*
* peri clock pll source selection and
* set up dependent divisors for PCLK/HCLK and ACLK clocks.
*/
aclk_div = GPLL_HZ / PERI_ACLK_HZ - 1;
assert((aclk_div + 1) * PERI_ACLK_HZ == GPLL_HZ && aclk_div <= 0x1f);
hclk_div = log2(PERI_ACLK_HZ / PERI_HCLK_HZ);
assert((1 << hclk_div) * PERI_HCLK_HZ ==
PERI_ACLK_HZ && (hclk_div <= 0x2));
pclk_div = log2(PERI_ACLK_HZ / PERI_PCLK_HZ);
assert((1 << pclk_div) * PERI_PCLK_HZ ==
PERI_ACLK_HZ && (pclk_div <= 0x3));
write32(&cru_ptr->cru_clksel_con[10], RK_SETBITS(PERI_SEL_GPLL) |
RK_CLRSETBITS(PERI_PCLK_DIV_MSK,
pclk_div << PERI_PCLK_DIV_SHIFT) |
RK_CLRSETBITS(PERI_HCLK_DIV_MSK,
hclk_div << PERI_HCLK_DIV_SHIFT) |
RK_CLRSETBITS(PERI_ACLK_DIV_MSK,
aclk_div << PERI_ACLK_DIV_SHIFT));
/* PLL enter normal-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(GPLL_MODE_MSK, GPLL_MODE_NORM) |
RK_CLRSETBITS(CPLL_MODE_MSK, CPLL_MODE_NORM));
}
void rkclk_configure_cpu(enum apll_frequencies apll_freq)
{
/* pll enter slow-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(APLL_MODE_MSK, APLL_MODE_SLOW));
rkclk_set_pll(&cru_ptr->cru_apll_con[0], apll_cfgs[apll_freq]);
/* waiting for pll lock */
while (1) {
if (read32(&rk3288_grf->soc_status[1]) & SOCSTS_APLL_LOCK)
break;
udelay(1);
}
/*
* core clock pll source selection and
* set up dependent divisors for MPAXI/M0AXI and ARM clocks.
* core clock select apll, apll clk = 1800MHz
* arm clk = 1800MHz, mpclk = 450MHz, m0clk = 900MHz
*/
write32(&cru_ptr->cru_clksel_con[0], RK_CLRBITS(CORE_SEL_PLL_MSK) |
RK_CLRSETBITS(A12_DIV_MSK, 0 << A12_DIV_SHIFT) |
RK_CLRSETBITS(MP_DIV_MSK, 3 << MP_DIV_SHIFT) |
RK_CLRSETBITS(M0_DIV_MSK, 1 << 0));
/*
* set up dependent divisors for L2RAM/ATCLK and PCLK clocks.
* l2ramclk = 900MHz, atclk = 450MHz, pclk_dbg = 450MHz
*/
write32(&cru_ptr->cru_clksel_con[37],
RK_CLRSETBITS(L2_DIV_MSK, 1 << 0) |
RK_CLRSETBITS(ATCLK_DIV_MSK, (3 << ATCLK_DIV_SHIFT)) |
RK_CLRSETBITS(PCLK_DBG_DIV_MSK, (3 << PCLK_DBG_DIV_SHIFT)));
/* PLL enter normal-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(APLL_MODE_MSK, APLL_MODE_NORM));
}
void rkclk_configure_ddr(unsigned int hz)
{
struct pll_div dpll_cfg;
switch (hz) {
case 300*MHz:
dpll_cfg = (struct pll_div){.nf = 50, .nr = 2, .no = 2};
break;
case 533*MHz: /* actually 533.3P MHz */
dpll_cfg = (struct pll_div){.nf = 400, .nr = 9, .no = 2};
break;
case 666*MHz: /* actually 666.6P MHz */
dpll_cfg = (struct pll_div){.nf = 500, .nr = 9, .no = 2};
break;
case 800*MHz:
dpll_cfg = (struct pll_div){.nf = 100, .nr = 3, .no = 1};
break;
default:
die("Unsupported SDRAM frequency, add to clock.c!");
}
/* pll enter slow-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(DPLL_MODE_MSK, DPLL_MODE_SLOW));
rkclk_set_pll(&cru_ptr->cru_dpll_con[0], &dpll_cfg);
/* waiting for pll lock */
while (1) {
if (read32(&rk3288_grf->soc_status[1]) & SOCSTS_DPLL_LOCK)
break;
udelay(1);
}
/* PLL enter normal-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(DPLL_MODE_MSK, DPLL_MODE_NORM));
}
void rkclk_ddr_reset(u32 ch, u32 ctl, u32 phy)
{
u32 phy_ctl_srstn_shift = 4 + 5 * ch;
u32 ctl_psrstn_shift = 3 + 5 * ch;
u32 ctl_srstn_shift = 2 + 5 * ch;
u32 phy_psrstn_shift = 1 + 5 * ch;
u32 phy_srstn_shift = 5 * ch;
write32(&cru_ptr->cru_softrst_con[10],
RK_CLRSETBITS(1 << phy_ctl_srstn_shift,
phy << phy_ctl_srstn_shift) |
RK_CLRSETBITS(1 << ctl_psrstn_shift, ctl << ctl_psrstn_shift) |
RK_CLRSETBITS(1 << ctl_srstn_shift, ctl << ctl_srstn_shift) |
RK_CLRSETBITS(1 << phy_psrstn_shift, phy << phy_psrstn_shift) |
RK_CLRSETBITS(1 << phy_srstn_shift, phy << phy_srstn_shift));
}
void rkclk_ddr_phy_ctl_reset(u32 ch, u32 n)
{
u32 phy_ctl_srstn_shift = 4 + 5 * ch;
write32(&cru_ptr->cru_softrst_con[10],
RK_CLRSETBITS(1 << phy_ctl_srstn_shift,
n << phy_ctl_srstn_shift));
}
void rkclk_configure_spi(unsigned int bus, unsigned int hz)
{
int src_clk_div = GPLL_HZ / hz;
assert((src_clk_div - 1 <= 127) && (src_clk_div * hz == GPLL_HZ));
switch (bus) { /*select gpll as spi src clk, and set div*/
case 0:
write32(&cru_ptr->cru_clksel_con[25],
RK_CLRSETBITS(1 << 7 | 0x1f << 0,
1 << 7 | (src_clk_div - 1) << 0));
break;
case 1:
write32(&cru_ptr->cru_clksel_con[25],
RK_CLRSETBITS(1 << 15 | 0x1f << 8,
1 << 15 | (src_clk_div - 1) << 8));
break;
case 2:
write32(&cru_ptr->cru_clksel_con[39],
RK_CLRSETBITS(1 << 7 | 0x1f << 0,
1 << 7 | (src_clk_div - 1) << 0));
break;
default:
printk(BIOS_ERR, "do not support this spi bus\n");
}
}
static u32 clk_gcd(u32 a, u32 b)
{
while (b != 0) {
int r = b;
b = a % b;
a = r;
}
return a;
}
void rkclk_configure_i2s(unsigned int hz)
{
int n, d;
int v;
/* i2s source clock: gpll
i2s0_outclk_sel: clk_i2s
i2s0_clk_sel: divider output from fraction
i2s0_pll_div_con: 0*/
write32(&cru_ptr->cru_clksel_con[4],
RK_CLRSETBITS(1 << 15 | 1 << 12 | 3 << 8 | 0x7f << 0,
1 << 15 | 0 << 12 | 1 << 8 | 0 << 0));
/* set frac divider */
v = clk_gcd(GPLL_HZ, hz);
n = (GPLL_HZ / v) & (0xffff);
d = (hz / v) & (0xffff);
assert(hz == GPLL_HZ / n * d);
write32(&cru_ptr->cru_clksel_con[8], d << 16 | n);
}
void rkclk_configure_crypto(unsigned int hz)
{
u32 div = PD_BUS_ACLK_HZ / hz;
assert((div - 1 <= 3) && (div * hz == PD_BUS_ACLK_HZ));
assert(hz <= 150*MHz); /* Suggested max in TRM. */
write32(&cru_ptr->cru_clksel_con[26],
RK_CLRSETBITS(0x3 << 6, (div - 1) << 6));
}
void rkclk_configure_tsadc(unsigned int hz)
{
u32 div;
u32 src_clk = 32 * KHz; /* tsadc source clock is 32KHz*/
div = src_clk / hz;
assert((div - 1 <= 63) && (div * hz == 32 * KHz));
write32(&cru_ptr->cru_clksel_con[2],
RK_CLRSETBITS(0x3f << 0, (div - 1) << 0));
}
static int pll_para_config(u32 freq_hz, struct pll_div *div, u32 *ext_div)
{
u32 ref_khz = OSC_HZ / KHz, nr, nf = 0;
u32 fref_khz;
u32 diff_khz, best_diff_khz;
const u32 max_nr = 1 << 6, max_nf = 1 << 12, max_no = 1 << 4;
u32 vco_khz;
u32 no = 1;
u32 freq_khz = freq_hz / KHz;
if (!freq_hz) {
printk(BIOS_ERR, "%s: the frequency can not be 0 Hz\n", __func__);
return -1;
}
no = DIV_ROUND_UP(VCO_MIN_KHZ, freq_khz);
if (ext_div) {
*ext_div = DIV_ROUND_UP(no, max_no);
no = DIV_ROUND_UP(no, *ext_div);
}
/* only even divisors (and 1) are supported */
if (no > 1)
no = DIV_ROUND_UP(no, 2) * 2;
vco_khz = freq_khz * no;
if (ext_div)
vco_khz *= *ext_div;
if (vco_khz < VCO_MIN_KHZ || vco_khz > VCO_MAX_KHZ || no > max_no) {
printk(BIOS_ERR, "%s: Cannot find out a supported VCO"
" for Frequency (%uHz).\n", __func__, freq_hz);
return -1;
}
div->no = no;
best_diff_khz = vco_khz;
for (nr = 1; nr < max_nr && best_diff_khz; nr++) {
fref_khz = ref_khz / nr;
if (fref_khz < FREF_MIN_KHZ)
break;
if (fref_khz > FREF_MAX_KHZ)
continue;
nf = vco_khz / fref_khz;
if (nf >= max_nf)
continue;
diff_khz = vco_khz - nf * fref_khz;
if (nf + 1 < max_nf && diff_khz > fref_khz / 2) {
nf++;
diff_khz = fref_khz - diff_khz;
}
if (diff_khz >= best_diff_khz)
continue;
best_diff_khz = diff_khz;
div->nr = nr;
div->nf = nf;
}
if (best_diff_khz > 4 * (MHz/KHz)) {
printk(BIOS_ERR, "%s: Failed to match output frequency %u, "
"difference is %u Hz,exceed 4MHZ\n", __func__, freq_hz,
best_diff_khz * KHz);
return -1;
}
return 0;
}
void rkclk_configure_edp(void)
{
/* clk_edp_24M source: 24M */
write32(&cru_ptr->cru_clksel_con[28], RK_SETBITS(1 << 15));
/* rst edp */
write32(&cru_ptr->cru_softrst_con[6], RK_SETBITS(1 << 15));
udelay(1);
write32(&cru_ptr->cru_softrst_con[6], RK_CLRBITS(1 << 15));
}
void rkclk_configure_hdmi(void)
{
/* enable pclk hdmi ctrl */
write32(&cru_ptr->cru_clkgate_con[16], RK_CLRBITS(1 << 9));
/* software reset hdmi */
write32(&cru_ptr->cru_softrst_con[7], RK_SETBITS(1 << 9));
udelay(1);
write32(&cru_ptr->cru_softrst_con[7], RK_CLRBITS(1 << 9));
}
void rkclk_configure_vop_aclk(u32 vop_id, u32 aclk_hz)
{
u32 div;
/* vop aclk source clk: cpll */
div = CPLL_HZ / aclk_hz;
assert((div - 1 <= 63) && (div * aclk_hz == CPLL_HZ));
switch (vop_id) {
case 0:
write32(&cru_ptr->cru_clksel_con[31],
RK_CLRSETBITS(3 << 6 | 0x1f << 0,
0 << 6 | (div - 1) << 0));
break;
case 1:
write32(&cru_ptr->cru_clksel_con[31],
RK_CLRSETBITS(3 << 14 | 0x1f << 8,
0 << 14 | (div - 1) << 8));
break;
}
}
int rkclk_configure_vop_dclk(u32 vop_id, u32 dclk_hz)
{
struct pll_div npll_config = {0};
u32 lcdc_div;
if (pll_para_config(dclk_hz, &npll_config, &lcdc_div))
return -1;
/* npll enter slow-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(NPLL_MODE_MSK, NPLL_MODE_SLOW));
rkclk_set_pll(&cru_ptr->cru_npll_con[0], &npll_config);
/* waiting for pll lock */
while (1) {
if (read32(&rk3288_grf->soc_status[1]) & SOCSTS_NPLL_LOCK)
break;
udelay(1);
}
/* npll enter normal-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(NPLL_MODE_MSK, NPLL_MODE_NORM));
/* vop dclk source clk: npll,dclk_div: 1 */
switch (vop_id) {
case 0:
write32(&cru_ptr->cru_clksel_con[27],
RK_CLRSETBITS(0xff << 8 | 3 << 0,
(lcdc_div - 1) << 8 | 2 << 0));
break;
case 1:
write32(&cru_ptr->cru_clksel_con[29],
RK_CLRSETBITS(0xff << 8 | 3 << 6,
(lcdc_div - 1) << 8 | 2 << 6));
break;
}
return 0;
}
int rkclk_was_watchdog_reset(void)
{
/* Bits 5 and 4 are "second" and "first" global watchdog reset. */
return read32(&cru_ptr->cru_glb_rst_st) & 0x30;
}
unsigned int rkclk_i2c_clock_for_bus(unsigned int bus)
{
/*i2c0,i2c2 src clk from pd_bus_pclk
other i2c src clk from peri_pclk
*/
switch (bus) {
case 0:
case 2:
return PD_BUS_PCLK_HZ;
case 1:
case 3:
case 4:
case 5:
return PERI_PCLK_HZ;
default:
return -1; /* Should never happen. */
}
}
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