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https://github.com/AsahiLinux/u-boot
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1bc464be1f
The A64 DRAM controller is very similar to the H3 one, so the code can be reused with some small changes. This refactoring does not change the code size for the existing H3 part. [Andre: rework from #ifdefs to using socid parameters in static functions, minor fixes, merging in fixes from Jens] Signed-off-by: Jens Kuske <jenskuske@gmail.com> Signed-off-by: Andre Przywara <andre.przywara@arm.com> Acked-by: Maxime Ripard <maxime.ripard@free-electrons.com> Reviewed-by: Jagan Teki <jagan@openedev.com>
284 lines
7.5 KiB
C
284 lines
7.5 KiB
C
/*
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* sun6i specific clock code
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*
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* (C) Copyright 2007-2012
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* Allwinner Technology Co., Ltd. <www.allwinnertech.com>
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* Tom Cubie <tangliang@allwinnertech.com>
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*
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* (C) Copyright 2013 Luke Kenneth Casson Leighton <lkcl@lkcl.net>
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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/io.h>
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#include <asm/arch/clock.h>
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#include <asm/arch/prcm.h>
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#include <asm/arch/sys_proto.h>
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#ifdef CONFIG_SPL_BUILD
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void clock_init_safe(void)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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#if !defined(CONFIG_MACH_SUN8I_H3) && !defined(CONFIG_MACH_SUN50I)
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struct sunxi_prcm_reg * const prcm =
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(struct sunxi_prcm_reg *)SUNXI_PRCM_BASE;
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/* Set PLL ldo voltage without this PLL6 does not work properly */
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clrsetbits_le32(&prcm->pll_ctrl1, PRCM_PLL_CTRL_LDO_KEY_MASK,
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PRCM_PLL_CTRL_LDO_KEY);
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clrsetbits_le32(&prcm->pll_ctrl1, ~PRCM_PLL_CTRL_LDO_KEY_MASK,
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PRCM_PLL_CTRL_LDO_DIGITAL_EN | PRCM_PLL_CTRL_LDO_ANALOG_EN |
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PRCM_PLL_CTRL_EXT_OSC_EN | PRCM_PLL_CTRL_LDO_OUT_L(1140));
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clrbits_le32(&prcm->pll_ctrl1, PRCM_PLL_CTRL_LDO_KEY_MASK);
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#endif
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clock_set_pll1(408000000);
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writel(PLL6_CFG_DEFAULT, &ccm->pll6_cfg);
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while (!(readl(&ccm->pll6_cfg) & CCM_PLL6_CTRL_LOCK))
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;
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writel(AHB1_ABP1_DIV_DEFAULT, &ccm->ahb1_apb1_div);
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writel(MBUS_CLK_DEFAULT, &ccm->mbus0_clk_cfg);
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if (IS_ENABLED(CONFIG_MACH_SUN6I))
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writel(MBUS_CLK_DEFAULT, &ccm->mbus1_clk_cfg);
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}
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#endif
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void clock_init_sec(void)
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{
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#ifdef CONFIG_MACH_SUN8I_H3
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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setbits_le32(&ccm->ccu_sec_switch,
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CCM_SEC_SWITCH_MBUS_NONSEC |
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CCM_SEC_SWITCH_BUS_NONSEC |
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CCM_SEC_SWITCH_PLL_NONSEC);
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#endif
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}
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void clock_init_uart(void)
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{
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#if CONFIG_CONS_INDEX < 5
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struct sunxi_ccm_reg *const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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/* uart clock source is apb2 */
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writel(APB2_CLK_SRC_OSC24M|
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APB2_CLK_RATE_N_1|
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APB2_CLK_RATE_M(1),
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&ccm->apb2_div);
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/* open the clock for uart */
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setbits_le32(&ccm->apb2_gate,
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CLK_GATE_OPEN << (APB2_GATE_UART_SHIFT +
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CONFIG_CONS_INDEX - 1));
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/* deassert uart reset */
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setbits_le32(&ccm->apb2_reset_cfg,
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1 << (APB2_RESET_UART_SHIFT +
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CONFIG_CONS_INDEX - 1));
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#else
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/* enable R_PIO and R_UART clocks, and de-assert resets */
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prcm_apb0_enable(PRCM_APB0_GATE_PIO | PRCM_APB0_GATE_UART);
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#endif
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}
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#ifdef CONFIG_SPL_BUILD
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void clock_set_pll1(unsigned int clk)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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const int p = 0;
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int k = 1;
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int m = 1;
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if (clk > 1152000000) {
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k = 2;
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} else if (clk > 768000000) {
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k = 3;
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m = 2;
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}
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/* Switch to 24MHz clock while changing PLL1 */
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writel(AXI_DIV_3 << AXI_DIV_SHIFT |
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ATB_DIV_2 << ATB_DIV_SHIFT |
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CPU_CLK_SRC_OSC24M << CPU_CLK_SRC_SHIFT,
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&ccm->cpu_axi_cfg);
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/*
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* sun6i: PLL1 rate = ((24000000 * n * k) >> 0) / m (p is ignored)
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* sun8i: PLL1 rate = ((24000000 * n * k) >> p) / m
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*/
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writel(CCM_PLL1_CTRL_EN | CCM_PLL1_CTRL_P(p) |
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CCM_PLL1_CTRL_N(clk / (24000000 * k / m)) |
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CCM_PLL1_CTRL_K(k) | CCM_PLL1_CTRL_M(m), &ccm->pll1_cfg);
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sdelay(200);
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/* Switch CPU to PLL1 */
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writel(AXI_DIV_3 << AXI_DIV_SHIFT |
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ATB_DIV_2 << ATB_DIV_SHIFT |
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CPU_CLK_SRC_PLL1 << CPU_CLK_SRC_SHIFT,
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&ccm->cpu_axi_cfg);
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}
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#endif
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void clock_set_pll3(unsigned int clk)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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const int m = 8; /* 3 MHz steps just like sun4i, sun5i and sun7i */
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if (clk == 0) {
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clrbits_le32(&ccm->pll3_cfg, CCM_PLL3_CTRL_EN);
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return;
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}
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/* PLL3 rate = 24000000 * n / m */
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writel(CCM_PLL3_CTRL_EN | CCM_PLL3_CTRL_INTEGER_MODE |
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CCM_PLL3_CTRL_N(clk / (24000000 / m)) | CCM_PLL3_CTRL_M(m),
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&ccm->pll3_cfg);
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}
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void clock_set_pll5(unsigned int clk, bool sigma_delta_enable)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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const int max_n = 32;
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int k = 1, m = 2;
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#ifdef CONFIG_MACH_SUN8I_H3
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clrsetbits_le32(&ccm->pll5_tuning_cfg, CCM_PLL5_TUN_LOCK_TIME_MASK |
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CCM_PLL5_TUN_INIT_FREQ_MASK,
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CCM_PLL5_TUN_LOCK_TIME(2) | CCM_PLL5_TUN_INIT_FREQ(16));
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#endif
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if (sigma_delta_enable)
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writel(CCM_PLL5_PATTERN, &ccm->pll5_pattern_cfg);
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/* PLL5 rate = 24000000 * n * k / m */
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if (clk > 24000000 * k * max_n / m) {
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m = 1;
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if (clk > 24000000 * k * max_n / m)
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k = 2;
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}
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writel(CCM_PLL5_CTRL_EN |
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(sigma_delta_enable ? CCM_PLL5_CTRL_SIGMA_DELTA_EN : 0) |
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CCM_PLL5_CTRL_UPD |
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CCM_PLL5_CTRL_N(clk / (24000000 * k / m)) |
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CCM_PLL5_CTRL_K(k) | CCM_PLL5_CTRL_M(m), &ccm->pll5_cfg);
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udelay(5500);
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}
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#ifdef CONFIG_MACH_SUN6I
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void clock_set_mipi_pll(unsigned int clk)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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unsigned int k, m, n, value, diff;
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unsigned best_k = 0, best_m = 0, best_n = 0, best_diff = 0xffffffff;
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unsigned int src = clock_get_pll3();
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/* All calculations are in KHz to avoid overflows */
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clk /= 1000;
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src /= 1000;
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/* Pick the closest lower clock */
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for (k = 1; k <= 4; k++) {
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for (m = 1; m <= 16; m++) {
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for (n = 1; n <= 16; n++) {
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value = src * n * k / m;
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if (value > clk)
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continue;
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diff = clk - value;
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if (diff < best_diff) {
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best_diff = diff;
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best_k = k;
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best_m = m;
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best_n = n;
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}
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if (diff == 0)
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goto done;
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}
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}
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}
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done:
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writel(CCM_MIPI_PLL_CTRL_EN | CCM_MIPI_PLL_CTRL_LDO_EN |
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CCM_MIPI_PLL_CTRL_N(best_n) | CCM_MIPI_PLL_CTRL_K(best_k) |
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CCM_MIPI_PLL_CTRL_M(best_m), &ccm->mipi_pll_cfg);
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}
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#endif
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#if defined(CONFIG_MACH_SUN8I_A33) || defined(CONFIG_MACH_SUN50I)
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void clock_set_pll11(unsigned int clk, bool sigma_delta_enable)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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if (sigma_delta_enable)
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writel(CCM_PLL11_PATTERN, &ccm->pll11_pattern_cfg0);
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writel(CCM_PLL11_CTRL_EN | CCM_PLL11_CTRL_UPD |
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(sigma_delta_enable ? CCM_PLL11_CTRL_SIGMA_DELTA_EN : 0) |
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CCM_PLL11_CTRL_N(clk / 24000000), &ccm->pll11_cfg);
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while (readl(&ccm->pll11_cfg) & CCM_PLL11_CTRL_UPD)
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;
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}
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#endif
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unsigned int clock_get_pll3(void)
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{
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struct sunxi_ccm_reg *const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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uint32_t rval = readl(&ccm->pll3_cfg);
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int n = ((rval & CCM_PLL3_CTRL_N_MASK) >> CCM_PLL3_CTRL_N_SHIFT) + 1;
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int m = ((rval & CCM_PLL3_CTRL_M_MASK) >> CCM_PLL3_CTRL_M_SHIFT) + 1;
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/* Multiply by 1000 after dividing by m to avoid integer overflows */
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return (24000 * n / m) * 1000;
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}
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unsigned int clock_get_pll6(void)
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{
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struct sunxi_ccm_reg *const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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uint32_t rval = readl(&ccm->pll6_cfg);
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int n = ((rval & CCM_PLL6_CTRL_N_MASK) >> CCM_PLL6_CTRL_N_SHIFT) + 1;
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int k = ((rval & CCM_PLL6_CTRL_K_MASK) >> CCM_PLL6_CTRL_K_SHIFT) + 1;
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return 24000000 * n * k / 2;
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}
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unsigned int clock_get_mipi_pll(void)
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{
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struct sunxi_ccm_reg *const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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uint32_t rval = readl(&ccm->mipi_pll_cfg);
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unsigned int n = ((rval & CCM_MIPI_PLL_CTRL_N_MASK) >> CCM_MIPI_PLL_CTRL_N_SHIFT) + 1;
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unsigned int k = ((rval & CCM_MIPI_PLL_CTRL_K_MASK) >> CCM_MIPI_PLL_CTRL_K_SHIFT) + 1;
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unsigned int m = ((rval & CCM_MIPI_PLL_CTRL_M_MASK) >> CCM_MIPI_PLL_CTRL_M_SHIFT) + 1;
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unsigned int src = clock_get_pll3();
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/* Multiply by 1000 after dividing by m to avoid integer overflows */
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return ((src / 1000) * n * k / m) * 1000;
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}
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void clock_set_de_mod_clock(u32 *clk_cfg, unsigned int hz)
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{
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int pll = clock_get_pll6() * 2;
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int div = 1;
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while ((pll / div) > hz)
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div++;
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writel(CCM_DE_CTRL_GATE | CCM_DE_CTRL_PLL6_2X | CCM_DE_CTRL_M(div),
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clk_cfg);
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}
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