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47d64fef1f
According to the BSP source code, the APB0 clock on the H3 and H5 has a normal M divider, not a power-of-two divider. This matches the hardware in the A83T (as described in both the BSP source code and the manual). Since the A83T and H3/A64 clocks are actually the same, we can merge the definitions. Signed-off-by: Samuel Holland <samuel@sholland.org> Signed-off-by: Maxime Ripard <maxime@cerno.tech>
291 lines
7.8 KiB
C
291 lines
7.8 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* Copyright (c) 2016 Icenowy Zheng <icenowy@aosc.xyz>
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*/
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#include <linux/clk-provider.h>
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#include <linux/of_address.h>
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#include <linux/platform_device.h>
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#include "ccu_common.h"
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#include "ccu_reset.h"
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#include "ccu_div.h"
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#include "ccu_gate.h"
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#include "ccu_mp.h"
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#include "ccu_nm.h"
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#include "ccu-sun8i-r.h"
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static const struct clk_parent_data ar100_parents[] = {
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{ .fw_name = "losc" },
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{ .fw_name = "hosc" },
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{ .fw_name = "pll-periph" },
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{ .fw_name = "iosc" },
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};
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static const struct ccu_mux_var_prediv ar100_predivs[] = {
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{ .index = 2, .shift = 8, .width = 5 },
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};
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static struct ccu_div ar100_clk = {
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.div = _SUNXI_CCU_DIV_FLAGS(4, 2, CLK_DIVIDER_POWER_OF_TWO),
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.mux = {
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.shift = 16,
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.width = 2,
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.var_predivs = ar100_predivs,
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.n_var_predivs = ARRAY_SIZE(ar100_predivs),
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},
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.common = {
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.reg = 0x00,
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.features = CCU_FEATURE_VARIABLE_PREDIV,
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.hw.init = CLK_HW_INIT_PARENTS_DATA("ar100",
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ar100_parents,
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&ccu_div_ops,
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0),
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},
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};
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static CLK_FIXED_FACTOR_HW(ahb0_clk, "ahb0", &ar100_clk.common.hw, 1, 1, 0);
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static SUNXI_CCU_M(apb0_clk, "apb0", "ahb0", 0x0c, 0, 2, 0);
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/*
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* Define the parent as an array that can be reused to save space
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* instead of having compound literals for each gate. Also have it
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* non-const so we can change it on the A83T.
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*/
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static const struct clk_hw *apb0_gate_parent[] = { &apb0_clk.common.hw };
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static SUNXI_CCU_GATE_HWS(apb0_pio_clk, "apb0-pio",
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apb0_gate_parent, 0x28, BIT(0), 0);
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static SUNXI_CCU_GATE_HWS(apb0_ir_clk, "apb0-ir",
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apb0_gate_parent, 0x28, BIT(1), 0);
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static SUNXI_CCU_GATE_HWS(apb0_timer_clk, "apb0-timer",
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apb0_gate_parent, 0x28, BIT(2), 0);
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static SUNXI_CCU_GATE_HWS(apb0_rsb_clk, "apb0-rsb",
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apb0_gate_parent, 0x28, BIT(3), 0);
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static SUNXI_CCU_GATE_HWS(apb0_uart_clk, "apb0-uart",
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apb0_gate_parent, 0x28, BIT(4), 0);
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static SUNXI_CCU_GATE_HWS(apb0_i2c_clk, "apb0-i2c",
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apb0_gate_parent, 0x28, BIT(6), 0);
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static SUNXI_CCU_GATE_HWS(apb0_twd_clk, "apb0-twd",
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apb0_gate_parent, 0x28, BIT(7), 0);
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static const char * const r_mod0_default_parents[] = { "osc32k", "osc24M" };
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static SUNXI_CCU_MP_WITH_MUX_GATE(ir_clk, "ir",
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r_mod0_default_parents, 0x54,
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0, 4, /* M */
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16, 2, /* P */
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24, 2, /* mux */
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BIT(31), /* gate */
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0);
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static const struct clk_parent_data a83t_r_mod0_parents[] = {
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{ .fw_name = "iosc" },
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{ .fw_name = "hosc" },
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};
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static const struct ccu_mux_fixed_prediv a83t_ir_predivs[] = {
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{ .index = 0, .div = 16 },
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};
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static struct ccu_mp a83t_ir_clk = {
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.enable = BIT(31),
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.m = _SUNXI_CCU_DIV(0, 4),
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.p = _SUNXI_CCU_DIV(16, 2),
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.mux = {
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.shift = 24,
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.width = 2,
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.fixed_predivs = a83t_ir_predivs,
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.n_predivs = ARRAY_SIZE(a83t_ir_predivs),
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},
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.common = {
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.reg = 0x54,
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.features = CCU_FEATURE_VARIABLE_PREDIV,
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.hw.init = CLK_HW_INIT_PARENTS_DATA("ir",
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a83t_r_mod0_parents,
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&ccu_mp_ops,
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0),
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},
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};
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static struct ccu_common *sun8i_a83t_r_ccu_clks[] = {
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&ar100_clk.common,
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&apb0_clk.common,
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&apb0_pio_clk.common,
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&apb0_ir_clk.common,
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&apb0_timer_clk.common,
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&apb0_rsb_clk.common,
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&apb0_uart_clk.common,
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&apb0_i2c_clk.common,
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&apb0_twd_clk.common,
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&a83t_ir_clk.common,
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};
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static struct ccu_common *sun8i_h3_r_ccu_clks[] = {
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&ar100_clk.common,
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&apb0_clk.common,
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&apb0_pio_clk.common,
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&apb0_ir_clk.common,
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&apb0_timer_clk.common,
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&apb0_uart_clk.common,
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&apb0_i2c_clk.common,
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&apb0_twd_clk.common,
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&ir_clk.common,
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};
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static struct ccu_common *sun50i_a64_r_ccu_clks[] = {
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&ar100_clk.common,
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&apb0_clk.common,
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&apb0_pio_clk.common,
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&apb0_ir_clk.common,
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&apb0_timer_clk.common,
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&apb0_rsb_clk.common,
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&apb0_uart_clk.common,
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&apb0_i2c_clk.common,
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&apb0_twd_clk.common,
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&ir_clk.common,
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};
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static struct clk_hw_onecell_data sun8i_a83t_r_hw_clks = {
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.hws = {
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[CLK_AR100] = &ar100_clk.common.hw,
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[CLK_AHB0] = &ahb0_clk.hw,
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[CLK_APB0] = &apb0_clk.common.hw,
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[CLK_APB0_PIO] = &apb0_pio_clk.common.hw,
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[CLK_APB0_IR] = &apb0_ir_clk.common.hw,
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[CLK_APB0_TIMER] = &apb0_timer_clk.common.hw,
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[CLK_APB0_RSB] = &apb0_rsb_clk.common.hw,
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[CLK_APB0_UART] = &apb0_uart_clk.common.hw,
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[CLK_APB0_I2C] = &apb0_i2c_clk.common.hw,
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[CLK_APB0_TWD] = &apb0_twd_clk.common.hw,
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[CLK_IR] = &a83t_ir_clk.common.hw,
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},
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.num = CLK_NUMBER,
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};
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static struct clk_hw_onecell_data sun8i_h3_r_hw_clks = {
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.hws = {
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[CLK_AR100] = &ar100_clk.common.hw,
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[CLK_AHB0] = &ahb0_clk.hw,
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[CLK_APB0] = &apb0_clk.common.hw,
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[CLK_APB0_PIO] = &apb0_pio_clk.common.hw,
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[CLK_APB0_IR] = &apb0_ir_clk.common.hw,
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[CLK_APB0_TIMER] = &apb0_timer_clk.common.hw,
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[CLK_APB0_UART] = &apb0_uart_clk.common.hw,
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[CLK_APB0_I2C] = &apb0_i2c_clk.common.hw,
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[CLK_APB0_TWD] = &apb0_twd_clk.common.hw,
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[CLK_IR] = &ir_clk.common.hw,
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},
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.num = CLK_NUMBER,
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};
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static struct clk_hw_onecell_data sun50i_a64_r_hw_clks = {
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.hws = {
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[CLK_AR100] = &ar100_clk.common.hw,
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[CLK_AHB0] = &ahb0_clk.hw,
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[CLK_APB0] = &apb0_clk.common.hw,
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[CLK_APB0_PIO] = &apb0_pio_clk.common.hw,
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[CLK_APB0_IR] = &apb0_ir_clk.common.hw,
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[CLK_APB0_TIMER] = &apb0_timer_clk.common.hw,
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[CLK_APB0_RSB] = &apb0_rsb_clk.common.hw,
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[CLK_APB0_UART] = &apb0_uart_clk.common.hw,
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[CLK_APB0_I2C] = &apb0_i2c_clk.common.hw,
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[CLK_APB0_TWD] = &apb0_twd_clk.common.hw,
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[CLK_IR] = &ir_clk.common.hw,
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},
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.num = CLK_NUMBER,
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};
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static struct ccu_reset_map sun8i_a83t_r_ccu_resets[] = {
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[RST_APB0_IR] = { 0xb0, BIT(1) },
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[RST_APB0_TIMER] = { 0xb0, BIT(2) },
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[RST_APB0_RSB] = { 0xb0, BIT(3) },
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[RST_APB0_UART] = { 0xb0, BIT(4) },
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[RST_APB0_I2C] = { 0xb0, BIT(6) },
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};
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static struct ccu_reset_map sun8i_h3_r_ccu_resets[] = {
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[RST_APB0_IR] = { 0xb0, BIT(1) },
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[RST_APB0_TIMER] = { 0xb0, BIT(2) },
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[RST_APB0_UART] = { 0xb0, BIT(4) },
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[RST_APB0_I2C] = { 0xb0, BIT(6) },
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};
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static struct ccu_reset_map sun50i_a64_r_ccu_resets[] = {
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[RST_APB0_IR] = { 0xb0, BIT(1) },
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[RST_APB0_TIMER] = { 0xb0, BIT(2) },
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[RST_APB0_RSB] = { 0xb0, BIT(3) },
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[RST_APB0_UART] = { 0xb0, BIT(4) },
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[RST_APB0_I2C] = { 0xb0, BIT(6) },
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};
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static const struct sunxi_ccu_desc sun8i_a83t_r_ccu_desc = {
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.ccu_clks = sun8i_a83t_r_ccu_clks,
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.num_ccu_clks = ARRAY_SIZE(sun8i_a83t_r_ccu_clks),
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.hw_clks = &sun8i_a83t_r_hw_clks,
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.resets = sun8i_a83t_r_ccu_resets,
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.num_resets = ARRAY_SIZE(sun8i_a83t_r_ccu_resets),
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};
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static const struct sunxi_ccu_desc sun8i_h3_r_ccu_desc = {
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.ccu_clks = sun8i_h3_r_ccu_clks,
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.num_ccu_clks = ARRAY_SIZE(sun8i_h3_r_ccu_clks),
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.hw_clks = &sun8i_h3_r_hw_clks,
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.resets = sun8i_h3_r_ccu_resets,
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.num_resets = ARRAY_SIZE(sun8i_h3_r_ccu_resets),
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};
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static const struct sunxi_ccu_desc sun50i_a64_r_ccu_desc = {
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.ccu_clks = sun50i_a64_r_ccu_clks,
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.num_ccu_clks = ARRAY_SIZE(sun50i_a64_r_ccu_clks),
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.hw_clks = &sun50i_a64_r_hw_clks,
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.resets = sun50i_a64_r_ccu_resets,
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.num_resets = ARRAY_SIZE(sun50i_a64_r_ccu_resets),
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};
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static void __init sunxi_r_ccu_init(struct device_node *node,
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const struct sunxi_ccu_desc *desc)
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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("%pOF: Could not map the clock registers\n", node);
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return;
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}
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sunxi_ccu_probe(node, reg, desc);
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}
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static void __init sun8i_a83t_r_ccu_setup(struct device_node *node)
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{
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sunxi_r_ccu_init(node, &sun8i_a83t_r_ccu_desc);
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}
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CLK_OF_DECLARE(sun8i_a83t_r_ccu, "allwinner,sun8i-a83t-r-ccu",
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sun8i_a83t_r_ccu_setup);
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static void __init sun8i_h3_r_ccu_setup(struct device_node *node)
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{
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sunxi_r_ccu_init(node, &sun8i_h3_r_ccu_desc);
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}
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CLK_OF_DECLARE(sun8i_h3_r_ccu, "allwinner,sun8i-h3-r-ccu",
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sun8i_h3_r_ccu_setup);
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static void __init sun50i_a64_r_ccu_setup(struct device_node *node)
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{
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sunxi_r_ccu_init(node, &sun50i_a64_r_ccu_desc);
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}
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CLK_OF_DECLARE(sun50i_a64_r_ccu, "allwinner,sun50i-a64-r-ccu",
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sun50i_a64_r_ccu_setup);
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