383 lines
10 KiB
C
383 lines
10 KiB
C
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// SPDX-License-Identifier: GPL-2.0
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/*
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* Copyright (c) 2014 Marvell Technology Group Ltd.
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*
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* Sebastian Hesselbarth <sebastian.hesselbarth@gmail.com>
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* Alexandre Belloni <alexandre.belloni@free-electrons.com>
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*/
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#include <linux/clk-provider.h>
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#include <linux/io.h>
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#include <linux/kernel.h>
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#include <linux/of.h>
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#include <linux/of_address.h>
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#include <linux/slab.h>
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#include "berlin2-avpll.h"
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/*
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* Berlin2 SoCs comprise up to two PLLs called AVPLL built upon a
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* VCO with 8 channels each, channel 8 is the odd-one-out and does
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* not provide mul/div.
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*
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* Unfortunately, its registers are not named but just numbered. To
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* get in at least some kind of structure, we split each AVPLL into
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* the VCOs and each channel into separate clock drivers.
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*
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* Also, here and there the VCO registers are a bit different with
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* respect to bit shifts. Make sure to add a comment for those.
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*/
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#define NUM_CHANNELS 8
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#define AVPLL_CTRL(x) ((x) * 0x4)
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#define VCO_CTRL0 AVPLL_CTRL(0)
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/* BG2/BG2CDs VCO_B has an additional shift of 4 for its VCO_CTRL0 reg */
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#define VCO_RESET BIT(0)
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#define VCO_POWERUP BIT(1)
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#define VCO_INTERPOL_SHIFT 2
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#define VCO_INTERPOL_MASK (0xf << VCO_INTERPOL_SHIFT)
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#define VCO_REG1V45_SEL_SHIFT 6
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#define VCO_REG1V45_SEL(x) ((x) << VCO_REG1V45_SEL_SHIFT)
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#define VCO_REG1V45_SEL_1V40 VCO_REG1V45_SEL(0)
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#define VCO_REG1V45_SEL_1V45 VCO_REG1V45_SEL(1)
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#define VCO_REG1V45_SEL_1V50 VCO_REG1V45_SEL(2)
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#define VCO_REG1V45_SEL_1V55 VCO_REG1V45_SEL(3)
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#define VCO_REG1V45_SEL_MASK VCO_REG1V45_SEL(3)
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#define VCO_REG0V9_SEL_SHIFT 8
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#define VCO_REG0V9_SEL_MASK (0xf << VCO_REG0V9_SEL_SHIFT)
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#define VCO_VTHCAL_SHIFT 12
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#define VCO_VTHCAL(x) ((x) << VCO_VTHCAL_SHIFT)
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#define VCO_VTHCAL_0V90 VCO_VTHCAL(0)
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#define VCO_VTHCAL_0V95 VCO_VTHCAL(1)
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#define VCO_VTHCAL_1V00 VCO_VTHCAL(2)
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#define VCO_VTHCAL_1V05 VCO_VTHCAL(3)
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#define VCO_VTHCAL_MASK VCO_VTHCAL(3)
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#define VCO_KVCOEXT_SHIFT 14
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#define VCO_KVCOEXT_MASK (0x3 << VCO_KVCOEXT_SHIFT)
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#define VCO_KVCOEXT_ENABLE BIT(17)
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#define VCO_V2IEXT_SHIFT 18
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#define VCO_V2IEXT_MASK (0xf << VCO_V2IEXT_SHIFT)
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#define VCO_V2IEXT_ENABLE BIT(22)
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#define VCO_SPEED_SHIFT 23
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#define VCO_SPEED(x) ((x) << VCO_SPEED_SHIFT)
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#define VCO_SPEED_1G08_1G21 VCO_SPEED(0)
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#define VCO_SPEED_1G21_1G40 VCO_SPEED(1)
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#define VCO_SPEED_1G40_1G61 VCO_SPEED(2)
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#define VCO_SPEED_1G61_1G86 VCO_SPEED(3)
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#define VCO_SPEED_1G86_2G00 VCO_SPEED(4)
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#define VCO_SPEED_2G00_2G22 VCO_SPEED(5)
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#define VCO_SPEED_2G22 VCO_SPEED(6)
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#define VCO_SPEED_MASK VCO_SPEED(0x7)
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#define VCO_CLKDET_ENABLE BIT(26)
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#define VCO_CTRL1 AVPLL_CTRL(1)
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#define VCO_REFDIV_SHIFT 0
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#define VCO_REFDIV(x) ((x) << VCO_REFDIV_SHIFT)
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#define VCO_REFDIV_1 VCO_REFDIV(0)
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#define VCO_REFDIV_2 VCO_REFDIV(1)
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#define VCO_REFDIV_4 VCO_REFDIV(2)
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#define VCO_REFDIV_3 VCO_REFDIV(3)
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#define VCO_REFDIV_MASK VCO_REFDIV(0x3f)
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#define VCO_FBDIV_SHIFT 6
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#define VCO_FBDIV(x) ((x) << VCO_FBDIV_SHIFT)
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#define VCO_FBDIV_MASK VCO_FBDIV(0xff)
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#define VCO_ICP_SHIFT 14
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/* PLL Charge Pump Current = 10uA * (x + 1) */
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#define VCO_ICP(x) ((x) << VCO_ICP_SHIFT)
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#define VCO_ICP_MASK VCO_ICP(0xf)
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#define VCO_LOAD_CAP BIT(18)
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#define VCO_CALIBRATION_START BIT(19)
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#define VCO_FREQOFFSETn(x) AVPLL_CTRL(3 + (x))
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#define VCO_FREQOFFSET_MASK 0x7ffff
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#define VCO_CTRL10 AVPLL_CTRL(10)
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#define VCO_POWERUP_CH1 BIT(20)
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#define VCO_CTRL11 AVPLL_CTRL(11)
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#define VCO_CTRL12 AVPLL_CTRL(12)
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#define VCO_CTRL13 AVPLL_CTRL(13)
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#define VCO_CTRL14 AVPLL_CTRL(14)
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#define VCO_CTRL15 AVPLL_CTRL(15)
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#define VCO_SYNC1n(x) AVPLL_CTRL(15 + (x))
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#define VCO_SYNC1_MASK 0x1ffff
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#define VCO_SYNC2n(x) AVPLL_CTRL(23 + (x))
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#define VCO_SYNC2_MASK 0x1ffff
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#define VCO_CTRL30 AVPLL_CTRL(30)
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#define VCO_DPLL_CH1_ENABLE BIT(17)
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struct berlin2_avpll_vco {
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struct clk_hw hw;
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void __iomem *base;
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u8 flags;
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};
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#define to_avpll_vco(hw) container_of(hw, struct berlin2_avpll_vco, hw)
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static int berlin2_avpll_vco_is_enabled(struct clk_hw *hw)
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{
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struct berlin2_avpll_vco *vco = to_avpll_vco(hw);
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u32 reg;
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reg = readl_relaxed(vco->base + VCO_CTRL0);
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if (vco->flags & BERLIN2_AVPLL_BIT_QUIRK)
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reg >>= 4;
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return !!(reg & VCO_POWERUP);
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}
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static int berlin2_avpll_vco_enable(struct clk_hw *hw)
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{
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struct berlin2_avpll_vco *vco = to_avpll_vco(hw);
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u32 reg;
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reg = readl_relaxed(vco->base + VCO_CTRL0);
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if (vco->flags & BERLIN2_AVPLL_BIT_QUIRK)
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reg |= VCO_POWERUP << 4;
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else
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reg |= VCO_POWERUP;
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writel_relaxed(reg, vco->base + VCO_CTRL0);
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return 0;
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}
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static void berlin2_avpll_vco_disable(struct clk_hw *hw)
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{
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struct berlin2_avpll_vco *vco = to_avpll_vco(hw);
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u32 reg;
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reg = readl_relaxed(vco->base + VCO_CTRL0);
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if (vco->flags & BERLIN2_AVPLL_BIT_QUIRK)
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reg &= ~(VCO_POWERUP << 4);
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else
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reg &= ~VCO_POWERUP;
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writel_relaxed(reg, vco->base + VCO_CTRL0);
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}
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static u8 vco_refdiv[] = { 1, 2, 4, 3 };
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static unsigned long
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berlin2_avpll_vco_recalc_rate(struct clk_hw *hw, unsigned long parent_rate)
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{
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struct berlin2_avpll_vco *vco = to_avpll_vco(hw);
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u32 reg, refdiv, fbdiv;
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u64 freq = parent_rate;
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/* AVPLL VCO frequency: Fvco = (Fref / refdiv) * fbdiv */
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reg = readl_relaxed(vco->base + VCO_CTRL1);
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refdiv = (reg & VCO_REFDIV_MASK) >> VCO_REFDIV_SHIFT;
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refdiv = vco_refdiv[refdiv];
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fbdiv = (reg & VCO_FBDIV_MASK) >> VCO_FBDIV_SHIFT;
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freq *= fbdiv;
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do_div(freq, refdiv);
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return (unsigned long)freq;
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}
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static const struct clk_ops berlin2_avpll_vco_ops = {
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.is_enabled = berlin2_avpll_vco_is_enabled,
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.enable = berlin2_avpll_vco_enable,
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.disable = berlin2_avpll_vco_disable,
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.recalc_rate = berlin2_avpll_vco_recalc_rate,
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};
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int __init berlin2_avpll_vco_register(void __iomem *base,
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const char *name, const char *parent_name,
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u8 vco_flags, unsigned long flags)
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{
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struct berlin2_avpll_vco *vco;
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struct clk_init_data init;
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vco = kzalloc(sizeof(*vco), GFP_KERNEL);
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if (!vco)
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return -ENOMEM;
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vco->base = base;
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vco->flags = vco_flags;
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vco->hw.init = &init;
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init.name = name;
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init.ops = &berlin2_avpll_vco_ops;
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init.parent_names = &parent_name;
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init.num_parents = 1;
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init.flags = flags;
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return clk_hw_register(NULL, &vco->hw);
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}
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struct berlin2_avpll_channel {
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struct clk_hw hw;
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void __iomem *base;
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u8 flags;
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u8 index;
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};
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#define to_avpll_channel(hw) container_of(hw, struct berlin2_avpll_channel, hw)
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static int berlin2_avpll_channel_is_enabled(struct clk_hw *hw)
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{
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struct berlin2_avpll_channel *ch = to_avpll_channel(hw);
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u32 reg;
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if (ch->index == 7)
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return 1;
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reg = readl_relaxed(ch->base + VCO_CTRL10);
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reg &= VCO_POWERUP_CH1 << ch->index;
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return !!reg;
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}
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static int berlin2_avpll_channel_enable(struct clk_hw *hw)
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{
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struct berlin2_avpll_channel *ch = to_avpll_channel(hw);
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u32 reg;
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reg = readl_relaxed(ch->base + VCO_CTRL10);
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reg |= VCO_POWERUP_CH1 << ch->index;
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writel_relaxed(reg, ch->base + VCO_CTRL10);
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return 0;
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}
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static void berlin2_avpll_channel_disable(struct clk_hw *hw)
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{
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struct berlin2_avpll_channel *ch = to_avpll_channel(hw);
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u32 reg;
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reg = readl_relaxed(ch->base + VCO_CTRL10);
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reg &= ~(VCO_POWERUP_CH1 << ch->index);
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writel_relaxed(reg, ch->base + VCO_CTRL10);
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}
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static const u8 div_hdmi[] = { 1, 2, 4, 6 };
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static const u8 div_av1[] = { 1, 2, 5, 5 };
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static unsigned long
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berlin2_avpll_channel_recalc_rate(struct clk_hw *hw, unsigned long parent_rate)
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{
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struct berlin2_avpll_channel *ch = to_avpll_channel(hw);
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u32 reg, div_av2, div_av3, divider = 1;
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u64 freq = parent_rate;
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reg = readl_relaxed(ch->base + VCO_CTRL30);
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if ((reg & (VCO_DPLL_CH1_ENABLE << ch->index)) == 0)
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goto skip_div;
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/*
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* Fch = (Fref * sync2) /
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* (sync1 * div_hdmi * div_av1 * div_av2 * div_av3)
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*/
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reg = readl_relaxed(ch->base + VCO_SYNC1n(ch->index));
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/* BG2/BG2CDs SYNC1 reg on AVPLL_B channel 1 is shifted by 4 */
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if (ch->flags & BERLIN2_AVPLL_BIT_QUIRK && ch->index == 0)
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reg >>= 4;
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divider = reg & VCO_SYNC1_MASK;
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reg = readl_relaxed(ch->base + VCO_SYNC2n(ch->index));
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freq *= reg & VCO_SYNC2_MASK;
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/* Channel 8 has no dividers */
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if (ch->index == 7)
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goto skip_div;
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/*
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* HDMI divider start at VCO_CTRL11, bit 7; MSB is enable, lower 2 bit
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* determine divider.
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*/
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reg = readl_relaxed(ch->base + VCO_CTRL11) >> 7;
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reg = (reg >> (ch->index * 3));
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if (reg & BIT(2))
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divider *= div_hdmi[reg & 0x3];
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/*
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* AV1 divider start at VCO_CTRL11, bit 28; MSB is enable, lower 2 bit
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* determine divider.
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*/
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if (ch->index == 0) {
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reg = readl_relaxed(ch->base + VCO_CTRL11);
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reg >>= 28;
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} else {
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reg = readl_relaxed(ch->base + VCO_CTRL12);
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reg >>= (ch->index-1) * 3;
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}
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if (reg & BIT(2))
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divider *= div_av1[reg & 0x3];
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/*
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* AV2 divider start at VCO_CTRL12, bit 18; each 7 bits wide,
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* zero is not a valid value.
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*/
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if (ch->index < 2) {
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reg = readl_relaxed(ch->base + VCO_CTRL12);
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reg >>= 18 + (ch->index * 7);
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} else if (ch->index < 7) {
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reg = readl_relaxed(ch->base + VCO_CTRL13);
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reg >>= (ch->index - 2) * 7;
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} else {
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reg = readl_relaxed(ch->base + VCO_CTRL14);
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}
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div_av2 = reg & 0x7f;
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if (div_av2)
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divider *= div_av2;
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/*
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* AV3 divider start at VCO_CTRL14, bit 7; each 4 bits wide.
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* AV2/AV3 form a fractional divider, where only specfic values for AV3
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* are allowed. AV3 != 0 divides by AV2/2, AV3=0 is bypass.
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*/
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if (ch->index < 6) {
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reg = readl_relaxed(ch->base + VCO_CTRL14);
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reg >>= 7 + (ch->index * 4);
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} else {
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reg = readl_relaxed(ch->base + VCO_CTRL15);
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}
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div_av3 = reg & 0xf;
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if (div_av2 && div_av3)
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freq *= 2;
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skip_div:
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do_div(freq, divider);
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return (unsigned long)freq;
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}
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static const struct clk_ops berlin2_avpll_channel_ops = {
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.is_enabled = berlin2_avpll_channel_is_enabled,
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.enable = berlin2_avpll_channel_enable,
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.disable = berlin2_avpll_channel_disable,
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.recalc_rate = berlin2_avpll_channel_recalc_rate,
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};
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/*
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* Another nice quirk:
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* On some production SoCs, AVPLL channels are scrambled with respect
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* to the channel numbering in the registers but still referenced by
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* their original channel numbers. We deal with it by having a flag
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* and a translation table for the index.
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*/
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static const u8 quirk_index[] __initconst = { 0, 6, 5, 4, 3, 2, 1, 7 };
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int __init berlin2_avpll_channel_register(void __iomem *base,
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const char *name, u8 index, const char *parent_name,
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u8 ch_flags, unsigned long flags)
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{
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struct berlin2_avpll_channel *ch;
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struct clk_init_data init;
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ch = kzalloc(sizeof(*ch), GFP_KERNEL);
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if (!ch)
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return -ENOMEM;
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ch->base = base;
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if (ch_flags & BERLIN2_AVPLL_SCRAMBLE_QUIRK)
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ch->index = quirk_index[index];
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else
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ch->index = index;
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ch->flags = ch_flags;
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ch->hw.init = &init;
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init.name = name;
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init.ops = &berlin2_avpll_channel_ops;
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init.parent_names = &parent_name;
|
||
|
init.num_parents = 1;
|
||
|
init.flags = flags;
|
||
|
|
||
|
return clk_hw_register(NULL, &ch->hw);
|
||
|
}
|