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https://github.com/edk2-porting/linux-next.git
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9dfefe8c76
This clock provider uses the consumer API, so include clk.h explicitly. Also remove clkdev.h in files that aren't using it and include slab.h when clkdev.h was being used to implicitly include it. Cc: Chen-Yu Tsai <wens@csie.org> Cc: Maxime Ripard <maxime.ripard@free-electrons.com> Signed-off-by: Stephen Boyd <sboyd@codeaurora.org>
323 lines
7.2 KiB
C
323 lines
7.2 KiB
C
/*
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* Copyright 2014 Chen-Yu Tsai
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*
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* Chen-Yu Tsai <wens@csie.org>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*/
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#include <linux/clk.h>
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#include <linux/clk-provider.h>
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#include <linux/of.h>
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#include <linux/of_address.h>
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#include <linux/log2.h>
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#include "clk-factors.h"
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/**
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* sun9i_a80_get_pll4_factors() - calculates n, p, m factors for PLL4
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* PLL4 rate is calculated as follows
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* rate = (parent_rate * n >> p) / (m + 1);
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* parent_rate is always 24MHz
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*
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* p and m are named div1 and div2 in Allwinner's SDK
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*/
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static void sun9i_a80_get_pll4_factors(u32 *freq, u32 parent_rate,
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u8 *n_ret, u8 *k, u8 *m_ret, u8 *p_ret)
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{
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int n;
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int m = 1;
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int p = 1;
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/* Normalize value to a 6 MHz multiple (24 MHz / 4) */
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n = DIV_ROUND_UP(*freq, 6000000);
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/* If n is too large switch to steps of 12 MHz */
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if (n > 255) {
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m = 0;
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n = (n + 1) / 2;
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}
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/* If n is still too large switch to steps of 24 MHz */
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if (n > 255) {
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p = 0;
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n = (n + 1) / 2;
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}
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/* n must be between 12 and 255 */
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if (n > 255)
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n = 255;
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else if (n < 12)
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n = 12;
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*freq = ((24000000 * n) >> p) / (m + 1);
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/* we were called to round the frequency, we can now return */
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if (n_ret == NULL)
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return;
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*n_ret = n;
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*m_ret = m;
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*p_ret = p;
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}
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static struct clk_factors_config sun9i_a80_pll4_config = {
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.mshift = 18,
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.mwidth = 1,
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.nshift = 8,
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.nwidth = 8,
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.pshift = 16,
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.pwidth = 1,
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};
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static const struct factors_data sun9i_a80_pll4_data __initconst = {
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.enable = 31,
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.table = &sun9i_a80_pll4_config,
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.getter = sun9i_a80_get_pll4_factors,
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};
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static DEFINE_SPINLOCK(sun9i_a80_pll4_lock);
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static void __init sun9i_a80_pll4_setup(struct device_node *node)
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{
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void __iomem *reg;
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reg = of_io_request_and_map(node, 0, of_node_full_name(node));
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if (IS_ERR(reg)) {
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pr_err("Could not get registers for a80-pll4-clk: %s\n",
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node->name);
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return;
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}
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sunxi_factors_register(node, &sun9i_a80_pll4_data,
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&sun9i_a80_pll4_lock, reg);
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}
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CLK_OF_DECLARE(sun9i_a80_pll4, "allwinner,sun9i-a80-pll4-clk", sun9i_a80_pll4_setup);
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/**
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* sun9i_a80_get_gt_factors() - calculates m factor for GT
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* GT rate is calculated as follows
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* rate = parent_rate / (m + 1);
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*/
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static void sun9i_a80_get_gt_factors(u32 *freq, u32 parent_rate,
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u8 *n, u8 *k, u8 *m, u8 *p)
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{
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u32 div;
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if (parent_rate < *freq)
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*freq = parent_rate;
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div = DIV_ROUND_UP(parent_rate, *freq);
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/* maximum divider is 4 */
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if (div > 4)
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div = 4;
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*freq = parent_rate / div;
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/* we were called to round the frequency, we can now return */
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if (!m)
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return;
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*m = div;
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}
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static struct clk_factors_config sun9i_a80_gt_config = {
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.mshift = 0,
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.mwidth = 2,
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};
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static const struct factors_data sun9i_a80_gt_data __initconst = {
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.mux = 24,
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.muxmask = BIT(1) | BIT(0),
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.table = &sun9i_a80_gt_config,
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.getter = sun9i_a80_get_gt_factors,
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};
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static DEFINE_SPINLOCK(sun9i_a80_gt_lock);
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static void __init sun9i_a80_gt_setup(struct device_node *node)
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{
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void __iomem *reg;
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struct clk *gt;
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reg = of_io_request_and_map(node, 0, of_node_full_name(node));
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if (IS_ERR(reg)) {
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pr_err("Could not get registers for a80-gt-clk: %s\n",
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node->name);
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return;
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}
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gt = sunxi_factors_register(node, &sun9i_a80_gt_data,
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&sun9i_a80_gt_lock, reg);
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/* The GT bus clock needs to be always enabled */
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__clk_get(gt);
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clk_prepare_enable(gt);
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}
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CLK_OF_DECLARE(sun9i_a80_gt, "allwinner,sun9i-a80-gt-clk", sun9i_a80_gt_setup);
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/**
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* sun9i_a80_get_ahb_factors() - calculates p factor for AHB0/1/2
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* AHB rate is calculated as follows
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* rate = parent_rate >> p;
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*/
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static void sun9i_a80_get_ahb_factors(u32 *freq, u32 parent_rate,
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u8 *n, u8 *k, u8 *m, u8 *p)
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{
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u32 _p;
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if (parent_rate < *freq)
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*freq = parent_rate;
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_p = order_base_2(DIV_ROUND_UP(parent_rate, *freq));
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/* maximum p is 3 */
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if (_p > 3)
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_p = 3;
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*freq = parent_rate >> _p;
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/* we were called to round the frequency, we can now return */
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if (!p)
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return;
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*p = _p;
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}
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static struct clk_factors_config sun9i_a80_ahb_config = {
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.pshift = 0,
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.pwidth = 2,
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};
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static const struct factors_data sun9i_a80_ahb_data __initconst = {
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.mux = 24,
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.muxmask = BIT(1) | BIT(0),
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.table = &sun9i_a80_ahb_config,
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.getter = sun9i_a80_get_ahb_factors,
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};
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static DEFINE_SPINLOCK(sun9i_a80_ahb_lock);
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static void __init sun9i_a80_ahb_setup(struct device_node *node)
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{
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void __iomem *reg;
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reg = of_io_request_and_map(node, 0, of_node_full_name(node));
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if (IS_ERR(reg)) {
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pr_err("Could not get registers for a80-ahb-clk: %s\n",
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node->name);
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return;
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}
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sunxi_factors_register(node, &sun9i_a80_ahb_data,
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&sun9i_a80_ahb_lock, reg);
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}
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CLK_OF_DECLARE(sun9i_a80_ahb, "allwinner,sun9i-a80-ahb-clk", sun9i_a80_ahb_setup);
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static const struct factors_data sun9i_a80_apb0_data __initconst = {
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.mux = 24,
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.muxmask = BIT(0),
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.table = &sun9i_a80_ahb_config,
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.getter = sun9i_a80_get_ahb_factors,
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};
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static DEFINE_SPINLOCK(sun9i_a80_apb0_lock);
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static void __init sun9i_a80_apb0_setup(struct device_node *node)
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{
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void __iomem *reg;
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reg = of_io_request_and_map(node, 0, of_node_full_name(node));
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if (IS_ERR(reg)) {
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pr_err("Could not get registers for a80-apb0-clk: %s\n",
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node->name);
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return;
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}
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sunxi_factors_register(node, &sun9i_a80_apb0_data,
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&sun9i_a80_apb0_lock, reg);
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}
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CLK_OF_DECLARE(sun9i_a80_apb0, "allwinner,sun9i-a80-apb0-clk", sun9i_a80_apb0_setup);
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/**
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* sun9i_a80_get_apb1_factors() - calculates m, p factors for APB1
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* APB1 rate is calculated as follows
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* rate = (parent_rate >> p) / (m + 1);
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*/
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static void sun9i_a80_get_apb1_factors(u32 *freq, u32 parent_rate,
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u8 *n, u8 *k, u8 *m, u8 *p)
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{
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u32 div;
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u8 calcm, calcp;
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if (parent_rate < *freq)
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*freq = parent_rate;
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div = DIV_ROUND_UP(parent_rate, *freq);
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/* Highest possible divider is 256 (p = 3, m = 31) */
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if (div > 256)
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div = 256;
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calcp = order_base_2(div);
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calcm = (parent_rate >> calcp) - 1;
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*freq = (parent_rate >> calcp) / (calcm + 1);
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/* we were called to round the frequency, we can now return */
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if (n == NULL)
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return;
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*m = calcm;
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*p = calcp;
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}
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static struct clk_factors_config sun9i_a80_apb1_config = {
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.mshift = 0,
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.mwidth = 5,
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.pshift = 16,
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.pwidth = 2,
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};
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static const struct factors_data sun9i_a80_apb1_data __initconst = {
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.mux = 24,
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.muxmask = BIT(0),
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.table = &sun9i_a80_apb1_config,
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.getter = sun9i_a80_get_apb1_factors,
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};
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static DEFINE_SPINLOCK(sun9i_a80_apb1_lock);
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static void __init sun9i_a80_apb1_setup(struct device_node *node)
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{
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void __iomem *reg;
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reg = of_io_request_and_map(node, 0, of_node_full_name(node));
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if (IS_ERR(reg)) {
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pr_err("Could not get registers for a80-apb1-clk: %s\n",
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node->name);
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return;
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}
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sunxi_factors_register(node, &sun9i_a80_apb1_data,
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&sun9i_a80_apb1_lock, reg);
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}
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CLK_OF_DECLARE(sun9i_a80_apb1, "allwinner,sun9i-a80-apb1-clk", sun9i_a80_apb1_setup);
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