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Based on the normalized pattern: this program is free software you can redistribute it and/or modify it under the terms of the gnu general public license version 2 as published by the free software foundation this program is distributed as is without any warranty of any kind whether express or implied without even the implied warranty of merchantability or fitness for a particular purpose see the gnu general public license for more details extracted by the scancode license scanner the SPDX license identifier GPL-2.0-only has been chosen to replace the boilerplate/reference. Reviewed-by: Allison Randal <allison@lohutok.net> Signed-off-by: Thomas Gleixner <tglx@linutronix.de> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
337 lines
12 KiB
C
337 lines
12 KiB
C
/* SPDX-License-Identifier: GPL-2.0-only */
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/*
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* TI clock drivers support
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*
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* Copyright (C) 2013 Texas Instruments, Inc.
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*/
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#ifndef __LINUX_CLK_TI_H__
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#define __LINUX_CLK_TI_H__
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#include <linux/clk-provider.h>
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#include <linux/clkdev.h>
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/**
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* struct clk_omap_reg - OMAP register declaration
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* @offset: offset from the master IP module base address
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* @index: index of the master IP module
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*/
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struct clk_omap_reg {
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void __iomem *ptr;
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u16 offset;
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u8 index;
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u8 flags;
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};
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/**
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* struct dpll_data - DPLL registers and integration data
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* @mult_div1_reg: register containing the DPLL M and N bitfields
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* @mult_mask: mask of the DPLL M bitfield in @mult_div1_reg
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* @div1_mask: mask of the DPLL N bitfield in @mult_div1_reg
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* @clk_bypass: struct clk_hw pointer to the clock's bypass clock input
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* @clk_ref: struct clk_hw pointer to the clock's reference clock input
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* @control_reg: register containing the DPLL mode bitfield
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* @enable_mask: mask of the DPLL mode bitfield in @control_reg
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* @last_rounded_rate: cache of the last rate result of omap2_dpll_round_rate()
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* @last_rounded_m: cache of the last M result of omap2_dpll_round_rate()
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* @last_rounded_m4xen: cache of the last M4X result of
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* omap4_dpll_regm4xen_round_rate()
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* @last_rounded_lpmode: cache of the last lpmode result of
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* omap4_dpll_lpmode_recalc()
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* @max_multiplier: maximum valid non-bypass multiplier value (actual)
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* @last_rounded_n: cache of the last N result of omap2_dpll_round_rate()
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* @min_divider: minimum valid non-bypass divider value (actual)
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* @max_divider: maximum valid non-bypass divider value (actual)
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* @max_rate: maximum clock rate for the DPLL
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* @modes: possible values of @enable_mask
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* @autoidle_reg: register containing the DPLL autoidle mode bitfield
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* @idlest_reg: register containing the DPLL idle status bitfield
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* @autoidle_mask: mask of the DPLL autoidle mode bitfield in @autoidle_reg
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* @freqsel_mask: mask of the DPLL jitter correction bitfield in @control_reg
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* @dcc_mask: mask of the DPLL DCC correction bitfield @mult_div1_reg
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* @dcc_rate: rate atleast which DCC @dcc_mask must be set
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* @idlest_mask: mask of the DPLL idle status bitfield in @idlest_reg
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* @lpmode_mask: mask of the DPLL low-power mode bitfield in @control_reg
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* @m4xen_mask: mask of the DPLL M4X multiplier bitfield in @control_reg
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* @auto_recal_bit: bitshift of the driftguard enable bit in @control_reg
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* @recal_en_bit: bitshift of the PRM_IRQENABLE_* bit for recalibration IRQs
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* @recal_st_bit: bitshift of the PRM_IRQSTATUS_* bit for recalibration IRQs
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* @ssc_deltam_reg: register containing the DPLL SSC frequency spreading
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* @ssc_modfreq_reg: register containing the DPLL SSC modulation frequency
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* @ssc_modfreq_mant_mask: mask of the mantissa component in @ssc_modfreq_reg
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* @ssc_modfreq_exp_mask: mask of the exponent component in @ssc_modfreq_reg
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* @ssc_enable_mask: mask of the DPLL SSC enable bit in @control_reg
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* @ssc_downspread_mask: mask of the DPLL SSC low frequency only bit in
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* @control_reg
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* @ssc_modfreq: the DPLL SSC frequency modulation in kHz
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* @ssc_deltam: the DPLL SSC frequency spreading in permille (10th of percent)
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* @ssc_downspread: require the only low frequency spread of the DPLL in SSC
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* mode
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* @flags: DPLL type/features (see below)
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*
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* Possible values for @flags:
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* DPLL_J_TYPE: "J-type DPLL" (only some 36xx, 4xxx DPLLs)
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*
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* @freqsel_mask is only used on the OMAP34xx family and AM35xx.
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*
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* XXX Some DPLLs have multiple bypass inputs, so it's not technically
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* correct to only have one @clk_bypass pointer.
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*
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* XXX The runtime-variable fields (@last_rounded_rate, @last_rounded_m,
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* @last_rounded_n) should be separated from the runtime-fixed fields
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* and placed into a different structure, so that the runtime-fixed data
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* can be placed into read-only space.
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*/
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struct dpll_data {
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struct clk_omap_reg mult_div1_reg;
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u32 mult_mask;
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u32 div1_mask;
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struct clk_hw *clk_bypass;
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struct clk_hw *clk_ref;
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struct clk_omap_reg control_reg;
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u32 enable_mask;
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unsigned long last_rounded_rate;
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u16 last_rounded_m;
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u8 last_rounded_m4xen;
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u8 last_rounded_lpmode;
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u16 max_multiplier;
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u8 last_rounded_n;
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u8 min_divider;
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u16 max_divider;
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unsigned long max_rate;
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u8 modes;
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struct clk_omap_reg autoidle_reg;
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struct clk_omap_reg idlest_reg;
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u32 autoidle_mask;
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u32 freqsel_mask;
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u32 idlest_mask;
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u32 dco_mask;
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u32 sddiv_mask;
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u32 dcc_mask;
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unsigned long dcc_rate;
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u32 lpmode_mask;
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u32 m4xen_mask;
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u8 auto_recal_bit;
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u8 recal_en_bit;
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u8 recal_st_bit;
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struct clk_omap_reg ssc_deltam_reg;
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struct clk_omap_reg ssc_modfreq_reg;
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u32 ssc_deltam_int_mask;
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u32 ssc_deltam_frac_mask;
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u32 ssc_modfreq_mant_mask;
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u32 ssc_modfreq_exp_mask;
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u32 ssc_enable_mask;
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u32 ssc_downspread_mask;
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u32 ssc_modfreq;
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u32 ssc_deltam;
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bool ssc_downspread;
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u8 flags;
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};
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struct clk_hw_omap;
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/**
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* struct clk_hw_omap_ops - OMAP clk ops
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* @find_idlest: find idlest register information for a clock
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* @find_companion: find companion clock register information for a clock,
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* basically converts CM_ICLKEN* <-> CM_FCLKEN*
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* @allow_idle: enables autoidle hardware functionality for a clock
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* @deny_idle: prevent autoidle hardware functionality for a clock
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*/
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struct clk_hw_omap_ops {
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void (*find_idlest)(struct clk_hw_omap *oclk,
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struct clk_omap_reg *idlest_reg,
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u8 *idlest_bit, u8 *idlest_val);
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void (*find_companion)(struct clk_hw_omap *oclk,
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struct clk_omap_reg *other_reg,
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u8 *other_bit);
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void (*allow_idle)(struct clk_hw_omap *oclk);
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void (*deny_idle)(struct clk_hw_omap *oclk);
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};
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/**
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* struct clk_hw_omap - OMAP struct clk
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* @node: list_head connecting this clock into the full clock list
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* @enable_reg: register to write to enable the clock (see @enable_bit)
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* @enable_bit: bitshift to write to enable/disable the clock (see @enable_reg)
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* @flags: see "struct clk.flags possibilities" above
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* @clksel_reg: for clksel clks, register va containing src/divisor select
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* @dpll_data: for DPLLs, pointer to struct dpll_data for this clock
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* @clkdm_name: clockdomain name that this clock is contained in
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* @clkdm: pointer to struct clockdomain, resolved from @clkdm_name at runtime
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* @ops: clock ops for this clock
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*/
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struct clk_hw_omap {
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struct clk_hw hw;
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struct list_head node;
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unsigned long fixed_rate;
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u8 fixed_div;
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struct clk_omap_reg enable_reg;
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u8 enable_bit;
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unsigned long flags;
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struct clk_omap_reg clksel_reg;
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struct dpll_data *dpll_data;
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const char *clkdm_name;
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struct clockdomain *clkdm;
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const struct clk_hw_omap_ops *ops;
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u32 context;
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int autoidle_count;
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};
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/*
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* struct clk_hw_omap.flags possibilities
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*
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* XXX document the rest of the clock flags here
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*
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* ENABLE_REG_32BIT: (OMAP1 only) clock control register must be accessed
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* with 32bit ops, by default OMAP1 uses 16bit ops.
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* CLOCK_IDLE_CONTROL: (OMAP1 only) clock has autoidle support.
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* CLOCK_NO_IDLE_PARENT: (OMAP1 only) when clock is enabled, its parent
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* clock is put to no-idle mode.
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* ENABLE_ON_INIT: Clock is enabled on init.
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* INVERT_ENABLE: By default, clock enable bit behavior is '1' enable, '0'
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* disable. This inverts the behavior making '0' enable and '1' disable.
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* CLOCK_CLKOUTX2: (OMAP4 only) DPLL CLKOUT and CLKOUTX2 GATE_CTRL
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* bits share the same register. This flag allows the
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* omap4_dpllmx*() code to determine which GATE_CTRL bit field
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* should be used. This is a temporary solution - a better approach
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* would be to associate clock type-specific data with the clock,
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* similar to the struct dpll_data approach.
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*/
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#define ENABLE_REG_32BIT (1 << 0) /* Use 32-bit access */
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#define CLOCK_IDLE_CONTROL (1 << 1)
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#define CLOCK_NO_IDLE_PARENT (1 << 2)
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#define ENABLE_ON_INIT (1 << 3) /* Enable upon framework init */
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#define INVERT_ENABLE (1 << 4) /* 0 enables, 1 disables */
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#define CLOCK_CLKOUTX2 (1 << 5)
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/* CM_CLKEN_PLL*.EN* bit values - not all are available for every DPLL */
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#define DPLL_LOW_POWER_STOP 0x1
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#define DPLL_LOW_POWER_BYPASS 0x5
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#define DPLL_LOCKED 0x7
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/* DPLL Type and DCO Selection Flags */
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#define DPLL_J_TYPE 0x1
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/* Static memmap indices */
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enum {
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TI_CLKM_CM = 0,
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TI_CLKM_CM2,
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TI_CLKM_PRM,
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TI_CLKM_SCRM,
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TI_CLKM_CTRL,
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TI_CLKM_CTRL_AUX,
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TI_CLKM_PLLSS,
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CLK_MAX_MEMMAPS
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};
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/**
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* struct ti_clk_ll_ops - low-level ops for clocks
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* @clk_readl: pointer to register read function
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* @clk_writel: pointer to register write function
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* @clk_rmw: pointer to register read-modify-write function
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* @clkdm_clk_enable: pointer to clockdomain enable function
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* @clkdm_clk_disable: pointer to clockdomain disable function
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* @clkdm_lookup: pointer to clockdomain lookup function
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* @cm_wait_module_ready: pointer to CM module wait ready function
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* @cm_split_idlest_reg: pointer to CM module function to split idlest reg
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*
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* Low-level ops are generally used by the basic clock types (clk-gate,
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* clk-mux, clk-divider etc.) to provide support for various low-level
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* hadrware interfaces (direct MMIO, regmap etc.), and is initialized
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* by board code. Low-level ops also contain some other platform specific
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* operations not provided directly by clock drivers.
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*/
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struct ti_clk_ll_ops {
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u32 (*clk_readl)(const struct clk_omap_reg *reg);
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void (*clk_writel)(u32 val, const struct clk_omap_reg *reg);
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void (*clk_rmw)(u32 val, u32 mask, const struct clk_omap_reg *reg);
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int (*clkdm_clk_enable)(struct clockdomain *clkdm, struct clk *clk);
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int (*clkdm_clk_disable)(struct clockdomain *clkdm,
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struct clk *clk);
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struct clockdomain * (*clkdm_lookup)(const char *name);
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int (*cm_wait_module_ready)(u8 part, s16 prcm_mod, u16 idlest_reg,
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u8 idlest_shift);
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int (*cm_split_idlest_reg)(struct clk_omap_reg *idlest_reg,
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s16 *prcm_inst, u8 *idlest_reg_id);
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};
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#define to_clk_hw_omap(_hw) container_of(_hw, struct clk_hw_omap, hw)
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bool omap2_clk_is_hw_omap(struct clk_hw *hw);
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int omap2_clk_disable_autoidle_all(void);
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int omap2_clk_enable_autoidle_all(void);
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int omap2_clk_allow_idle(struct clk *clk);
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int omap2_clk_deny_idle(struct clk *clk);
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unsigned long omap2_dpllcore_recalc(struct clk_hw *hw,
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unsigned long parent_rate);
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int omap2_reprogram_dpllcore(struct clk_hw *clk, unsigned long rate,
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unsigned long parent_rate);
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void omap2xxx_clkt_dpllcore_init(struct clk_hw *hw);
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void omap2xxx_clkt_vps_init(void);
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unsigned long omap2_get_dpll_rate(struct clk_hw_omap *clk);
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void ti_dt_clk_init_retry_clks(void);
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void ti_dt_clockdomains_setup(void);
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int ti_clk_setup_ll_ops(struct ti_clk_ll_ops *ops);
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struct regmap;
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int omap2_clk_provider_init(struct device_node *parent, int index,
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struct regmap *syscon, void __iomem *mem);
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void omap2_clk_legacy_provider_init(int index, void __iomem *mem);
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int omap3430_dt_clk_init(void);
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int omap3630_dt_clk_init(void);
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int am35xx_dt_clk_init(void);
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int dm814x_dt_clk_init(void);
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int dm816x_dt_clk_init(void);
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int omap4xxx_dt_clk_init(void);
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int omap5xxx_dt_clk_init(void);
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int dra7xx_dt_clk_init(void);
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int am33xx_dt_clk_init(void);
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int am43xx_dt_clk_init(void);
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int omap2420_dt_clk_init(void);
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int omap2430_dt_clk_init(void);
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struct ti_clk_features {
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u32 flags;
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long fint_min;
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long fint_max;
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long fint_band1_max;
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long fint_band2_min;
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u8 dpll_bypass_vals;
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u8 cm_idlest_val;
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};
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#define TI_CLK_DPLL_HAS_FREQSEL BIT(0)
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#define TI_CLK_DPLL4_DENY_REPROGRAM BIT(1)
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#define TI_CLK_DISABLE_CLKDM_CONTROL BIT(2)
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#define TI_CLK_ERRATA_I810 BIT(3)
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#define TI_CLK_CLKCTRL_COMPAT BIT(4)
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#define TI_CLK_DEVICE_TYPE_GP BIT(5)
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void ti_clk_setup_features(struct ti_clk_features *features);
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const struct ti_clk_features *ti_clk_get_features(void);
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bool ti_clk_is_in_standby(struct clk *clk);
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int omap3_noncore_dpll_save_context(struct clk_hw *hw);
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void omap3_noncore_dpll_restore_context(struct clk_hw *hw);
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int omap3_core_dpll_save_context(struct clk_hw *hw);
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void omap3_core_dpll_restore_context(struct clk_hw *hw);
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extern const struct clk_hw_omap_ops clkhwops_omap2xxx_dpll;
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#ifdef CONFIG_ATAGS
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int omap3430_clk_legacy_init(void);
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int omap3430es1_clk_legacy_init(void);
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int omap36xx_clk_legacy_init(void);
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int am35xx_clk_legacy_init(void);
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#else
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static inline int omap3430_clk_legacy_init(void) { return -ENXIO; }
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static inline int omap3430es1_clk_legacy_init(void) { return -ENXIO; }
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static inline int omap36xx_clk_legacy_init(void) { return -ENXIO; }
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static inline int am35xx_clk_legacy_init(void) { return -ENXIO; }
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#endif
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#endif
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