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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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cd6e9db277
Users of the CM funtionality should not access the CM registers directly by themselves. Thus, added new CM driver APIs for the OMAP2 specific functionalities which support the existing direct register accesses, and changed the platform code to use these. This is done in preparation for moving the CM code into its own individual driver. Signed-off-by: Tero Kristo <t-kristo@ti.com> Signed-off-by: Paul Walmsley <paul@pwsan.com>
424 lines
9.8 KiB
C
424 lines
9.8 KiB
C
/*
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* OMAP2xxx CM module functions
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*
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* Copyright (C) 2009 Nokia Corporation
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* Copyright (C) 2008-2010, 2012 Texas Instruments, Inc.
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* Paul Walmsley
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* Rajendra Nayak <rnayak@ti.com>
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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 version 2 as
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* published by the Free Software Foundation.
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*/
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#include <linux/kernel.h>
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#include <linux/types.h>
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#include <linux/delay.h>
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#include <linux/errno.h>
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#include <linux/err.h>
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#include <linux/io.h>
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#include "soc.h"
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#include "iomap.h"
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#include "common.h"
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#include "prm2xxx.h"
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#include "cm.h"
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#include "cm2xxx.h"
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#include "cm-regbits-24xx.h"
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#include "clockdomain.h"
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/* CM_AUTOIDLE_PLL.AUTO_* bit values for DPLLs */
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#define DPLL_AUTOIDLE_DISABLE 0x0
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#define OMAP2XXX_DPLL_AUTOIDLE_LOW_POWER_STOP 0x3
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/* CM_AUTOIDLE_PLL.AUTO_* bit values for APLLs (OMAP2xxx only) */
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#define OMAP2XXX_APLL_AUTOIDLE_DISABLE 0x0
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#define OMAP2XXX_APLL_AUTOIDLE_LOW_POWER_STOP 0x3
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/* CM_IDLEST_PLL bit value offset for APLLs (OMAP2xxx only) */
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#define EN_APLL_LOCKED 3
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static const u8 omap2xxx_cm_idlest_offs[] = {
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CM_IDLEST1, CM_IDLEST2, OMAP2430_CM_IDLEST3, OMAP24XX_CM_IDLEST4
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};
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/*
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*
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*/
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static void _write_clktrctrl(u8 c, s16 module, u32 mask)
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{
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u32 v;
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v = omap2_cm_read_mod_reg(module, OMAP2_CM_CLKSTCTRL);
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v &= ~mask;
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v |= c << __ffs(mask);
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omap2_cm_write_mod_reg(v, module, OMAP2_CM_CLKSTCTRL);
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}
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bool omap2xxx_cm_is_clkdm_in_hwsup(s16 module, u32 mask)
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{
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u32 v;
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v = omap2_cm_read_mod_reg(module, OMAP2_CM_CLKSTCTRL);
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v &= mask;
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v >>= __ffs(mask);
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return (v == OMAP24XX_CLKSTCTRL_ENABLE_AUTO) ? 1 : 0;
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}
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void omap2xxx_cm_clkdm_enable_hwsup(s16 module, u32 mask)
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{
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_write_clktrctrl(OMAP24XX_CLKSTCTRL_ENABLE_AUTO, module, mask);
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}
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void omap2xxx_cm_clkdm_disable_hwsup(s16 module, u32 mask)
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{
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_write_clktrctrl(OMAP24XX_CLKSTCTRL_DISABLE_AUTO, module, mask);
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}
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/*
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* DPLL autoidle control
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*/
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static void _omap2xxx_set_dpll_autoidle(u8 m)
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{
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u32 v;
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v = omap2_cm_read_mod_reg(PLL_MOD, CM_AUTOIDLE);
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v &= ~OMAP24XX_AUTO_DPLL_MASK;
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v |= m << OMAP24XX_AUTO_DPLL_SHIFT;
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omap2_cm_write_mod_reg(v, PLL_MOD, CM_AUTOIDLE);
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}
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void omap2xxx_cm_set_dpll_disable_autoidle(void)
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{
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_omap2xxx_set_dpll_autoidle(OMAP2XXX_DPLL_AUTOIDLE_LOW_POWER_STOP);
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}
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void omap2xxx_cm_set_dpll_auto_low_power_stop(void)
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{
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_omap2xxx_set_dpll_autoidle(DPLL_AUTOIDLE_DISABLE);
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}
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/*
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* APLL control
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*/
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static void _omap2xxx_set_apll_autoidle(u8 m, u32 mask)
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{
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u32 v;
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v = omap2_cm_read_mod_reg(PLL_MOD, CM_AUTOIDLE);
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v &= ~mask;
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v |= m << __ffs(mask);
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omap2_cm_write_mod_reg(v, PLL_MOD, CM_AUTOIDLE);
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}
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void omap2xxx_cm_set_apll54_disable_autoidle(void)
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{
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_omap2xxx_set_apll_autoidle(OMAP2XXX_APLL_AUTOIDLE_LOW_POWER_STOP,
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OMAP24XX_AUTO_54M_MASK);
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}
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void omap2xxx_cm_set_apll54_auto_low_power_stop(void)
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{
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_omap2xxx_set_apll_autoidle(OMAP2XXX_APLL_AUTOIDLE_DISABLE,
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OMAP24XX_AUTO_54M_MASK);
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}
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void omap2xxx_cm_set_apll96_disable_autoidle(void)
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{
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_omap2xxx_set_apll_autoidle(OMAP2XXX_APLL_AUTOIDLE_LOW_POWER_STOP,
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OMAP24XX_AUTO_96M_MASK);
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}
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void omap2xxx_cm_set_apll96_auto_low_power_stop(void)
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{
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_omap2xxx_set_apll_autoidle(OMAP2XXX_APLL_AUTOIDLE_DISABLE,
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OMAP24XX_AUTO_96M_MASK);
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}
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/* Enable an APLL if off */
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static int _omap2xxx_apll_enable(u8 enable_bit, u8 status_bit)
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{
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u32 v, m;
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m = EN_APLL_LOCKED << enable_bit;
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v = omap2_cm_read_mod_reg(PLL_MOD, CM_CLKEN);
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if (v & m)
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return 0; /* apll already enabled */
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v |= m;
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omap2_cm_write_mod_reg(v, PLL_MOD, CM_CLKEN);
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omap2xxx_cm_wait_module_ready(PLL_MOD, 1, status_bit);
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/*
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* REVISIT: Should we return an error code if
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* omap2xxx_cm_wait_module_ready() fails?
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*/
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return 0;
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}
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/* Stop APLL */
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static void _omap2xxx_apll_disable(u8 enable_bit)
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{
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u32 v;
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v = omap2_cm_read_mod_reg(PLL_MOD, CM_CLKEN);
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v &= ~(EN_APLL_LOCKED << enable_bit);
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omap2_cm_write_mod_reg(v, PLL_MOD, CM_CLKEN);
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}
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/* Enable an APLL if off */
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int omap2xxx_cm_apll54_enable(void)
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{
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return _omap2xxx_apll_enable(OMAP24XX_EN_54M_PLL_SHIFT,
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OMAP24XX_ST_54M_APLL_SHIFT);
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}
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/* Enable an APLL if off */
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int omap2xxx_cm_apll96_enable(void)
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{
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return _omap2xxx_apll_enable(OMAP24XX_EN_96M_PLL_SHIFT,
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OMAP24XX_ST_96M_APLL_SHIFT);
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}
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/* Stop APLL */
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void omap2xxx_cm_apll54_disable(void)
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{
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_omap2xxx_apll_disable(OMAP24XX_EN_54M_PLL_SHIFT);
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}
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/* Stop APLL */
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void omap2xxx_cm_apll96_disable(void)
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{
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_omap2xxx_apll_disable(OMAP24XX_EN_96M_PLL_SHIFT);
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}
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/**
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* omap2xxx_cm_split_idlest_reg - split CM_IDLEST reg addr into its components
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* @idlest_reg: CM_IDLEST* virtual address
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* @prcm_inst: pointer to an s16 to return the PRCM instance offset
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* @idlest_reg_id: pointer to a u8 to return the CM_IDLESTx register ID
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*
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* XXX This function is only needed until absolute register addresses are
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* removed from the OMAP struct clk records.
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*/
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int omap2xxx_cm_split_idlest_reg(void __iomem *idlest_reg, s16 *prcm_inst,
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u8 *idlest_reg_id)
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{
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unsigned long offs;
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u8 idlest_offs;
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int i;
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if (idlest_reg < cm_base || idlest_reg > (cm_base + 0x0fff))
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return -EINVAL;
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idlest_offs = (unsigned long)idlest_reg & 0xff;
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for (i = 0; i < ARRAY_SIZE(omap2xxx_cm_idlest_offs); i++) {
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if (idlest_offs == omap2xxx_cm_idlest_offs[i]) {
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*idlest_reg_id = i + 1;
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break;
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}
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}
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if (i == ARRAY_SIZE(omap2xxx_cm_idlest_offs))
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return -EINVAL;
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offs = idlest_reg - cm_base;
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offs &= 0xff00;
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*prcm_inst = offs;
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return 0;
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}
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/*
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*
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*/
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/**
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* omap2xxx_cm_wait_module_ready - wait for a module to leave idle or standby
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* @prcm_mod: PRCM module offset
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* @idlest_id: CM_IDLESTx register ID (i.e., x = 1, 2, 3)
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* @idlest_shift: shift of the bit in the CM_IDLEST* register to check
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*
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* Wait for the PRCM to indicate that the module identified by
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* (@prcm_mod, @idlest_id, @idlest_shift) is clocked. Return 0 upon
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* success or -EBUSY if the module doesn't enable in time.
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*/
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int omap2xxx_cm_wait_module_ready(s16 prcm_mod, u8 idlest_id, u8 idlest_shift)
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{
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int ena = 0, i = 0;
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u8 cm_idlest_reg;
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u32 mask;
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if (!idlest_id || (idlest_id > ARRAY_SIZE(omap2xxx_cm_idlest_offs)))
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return -EINVAL;
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cm_idlest_reg = omap2xxx_cm_idlest_offs[idlest_id - 1];
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mask = 1 << idlest_shift;
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ena = mask;
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omap_test_timeout(((omap2_cm_read_mod_reg(prcm_mod, cm_idlest_reg) &
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mask) == ena), MAX_MODULE_READY_TIME, i);
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return (i < MAX_MODULE_READY_TIME) ? 0 : -EBUSY;
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}
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/* Clockdomain low-level functions */
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static void omap2xxx_clkdm_allow_idle(struct clockdomain *clkdm)
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{
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omap2xxx_cm_clkdm_enable_hwsup(clkdm->pwrdm.ptr->prcm_offs,
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clkdm->clktrctrl_mask);
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}
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static void omap2xxx_clkdm_deny_idle(struct clockdomain *clkdm)
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{
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omap2xxx_cm_clkdm_disable_hwsup(clkdm->pwrdm.ptr->prcm_offs,
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clkdm->clktrctrl_mask);
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}
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static int omap2xxx_clkdm_clk_enable(struct clockdomain *clkdm)
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{
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bool hwsup = false;
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if (!clkdm->clktrctrl_mask)
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return 0;
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hwsup = omap2xxx_cm_is_clkdm_in_hwsup(clkdm->pwrdm.ptr->prcm_offs,
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clkdm->clktrctrl_mask);
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if (!hwsup && clkdm->flags & CLKDM_CAN_FORCE_WAKEUP)
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omap2xxx_clkdm_wakeup(clkdm);
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return 0;
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}
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static int omap2xxx_clkdm_clk_disable(struct clockdomain *clkdm)
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{
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bool hwsup = false;
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if (!clkdm->clktrctrl_mask)
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return 0;
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hwsup = omap2xxx_cm_is_clkdm_in_hwsup(clkdm->pwrdm.ptr->prcm_offs,
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clkdm->clktrctrl_mask);
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if (!hwsup && clkdm->flags & CLKDM_CAN_FORCE_SLEEP)
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omap2xxx_clkdm_sleep(clkdm);
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return 0;
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}
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struct clkdm_ops omap2_clkdm_operations = {
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.clkdm_add_wkdep = omap2_clkdm_add_wkdep,
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.clkdm_del_wkdep = omap2_clkdm_del_wkdep,
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.clkdm_read_wkdep = omap2_clkdm_read_wkdep,
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.clkdm_clear_all_wkdeps = omap2_clkdm_clear_all_wkdeps,
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.clkdm_sleep = omap2xxx_clkdm_sleep,
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.clkdm_wakeup = omap2xxx_clkdm_wakeup,
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.clkdm_allow_idle = omap2xxx_clkdm_allow_idle,
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.clkdm_deny_idle = omap2xxx_clkdm_deny_idle,
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.clkdm_clk_enable = omap2xxx_clkdm_clk_enable,
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.clkdm_clk_disable = omap2xxx_clkdm_clk_disable,
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};
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int omap2xxx_cm_fclks_active(void)
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{
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u32 f1, f2;
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f1 = omap2_cm_read_mod_reg(CORE_MOD, CM_FCLKEN1);
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f2 = omap2_cm_read_mod_reg(CORE_MOD, OMAP24XX_CM_FCLKEN2);
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return (f1 | f2) ? 1 : 0;
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}
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int omap2xxx_cm_mpu_retention_allowed(void)
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{
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u32 l;
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/* Check for MMC, UART2, UART1, McSPI2, McSPI1 and DSS1. */
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l = omap2_cm_read_mod_reg(CORE_MOD, CM_FCLKEN1);
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if (l & (OMAP2420_EN_MMC_MASK | OMAP24XX_EN_UART2_MASK |
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OMAP24XX_EN_UART1_MASK | OMAP24XX_EN_MCSPI2_MASK |
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OMAP24XX_EN_MCSPI1_MASK | OMAP24XX_EN_DSS1_MASK))
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return 0;
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/* Check for UART3. */
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l = omap2_cm_read_mod_reg(CORE_MOD, OMAP24XX_CM_FCLKEN2);
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if (l & OMAP24XX_EN_UART3_MASK)
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return 0;
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return 1;
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}
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u32 omap2xxx_cm_get_core_clk_src(void)
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{
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u32 v;
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v = omap2_cm_read_mod_reg(PLL_MOD, CM_CLKSEL2);
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v &= OMAP24XX_CORE_CLK_SRC_MASK;
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return v;
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}
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u32 omap2xxx_cm_get_core_pll_config(void)
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{
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return omap2_cm_read_mod_reg(PLL_MOD, CM_CLKSEL2);
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}
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u32 omap2xxx_cm_get_pll_config(void)
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{
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return omap2_cm_read_mod_reg(PLL_MOD, CM_CLKSEL1);
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}
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u32 omap2xxx_cm_get_pll_status(void)
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{
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return omap2_cm_read_mod_reg(PLL_MOD, CM_CLKEN);
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}
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void omap2xxx_cm_set_mod_dividers(u32 mpu, u32 dsp, u32 gfx, u32 core, u32 mdm)
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{
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u32 tmp;
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omap2_cm_write_mod_reg(mpu, MPU_MOD, CM_CLKSEL);
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omap2_cm_write_mod_reg(dsp, OMAP24XX_DSP_MOD, CM_CLKSEL);
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omap2_cm_write_mod_reg(gfx, GFX_MOD, CM_CLKSEL);
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tmp = omap2_cm_read_mod_reg(CORE_MOD, CM_CLKSEL1) &
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OMAP24XX_CLKSEL_DSS2_MASK;
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omap2_cm_write_mod_reg(core | tmp, CORE_MOD, CM_CLKSEL1);
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if (cpu_is_omap2430())
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omap2_cm_write_mod_reg(mdm, OMAP2430_MDM_MOD, CM_CLKSEL);
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}
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/*
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*
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*/
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static struct cm_ll_data omap2xxx_cm_ll_data = {
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.split_idlest_reg = &omap2xxx_cm_split_idlest_reg,
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.wait_module_ready = &omap2xxx_cm_wait_module_ready,
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};
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int __init omap2xxx_cm_init(void)
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{
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if (!cpu_is_omap24xx())
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return 0;
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return cm_register(&omap2xxx_cm_ll_data);
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}
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static void __exit omap2xxx_cm_exit(void)
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{
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if (!cpu_is_omap24xx())
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return;
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/* Should never happen */
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WARN(cm_unregister(&omap2xxx_cm_ll_data),
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"%s: cm_ll_data function pointer mismatch\n", __func__);
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}
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__exitcall(omap2xxx_cm_exit);
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