forked from Minki/linux
8bd26e3a7e
The __cpuinit type of throwaway sections might have made sense
some time ago when RAM was more constrained, but now the savings
do not offset the cost and complications. For example, the fix in
commit 5e427ec2d0
("x86: Fix bit corruption at CPU resume time")
is a good example of the nasty type of bugs that can be created
with improper use of the various __init prefixes.
After a discussion on LKML[1] it was decided that cpuinit should go
the way of devinit and be phased out. Once all the users are gone,
we can then finally remove the macros themselves from linux/init.h.
Note that some harmless section mismatch warnings may result, since
notify_cpu_starting() and cpu_up() are arch independent (kernel/cpu.c)
and are flagged as __cpuinit -- so if we remove the __cpuinit from
the arch specific callers, we will also get section mismatch warnings.
As an intermediate step, we intend to turn the linux/init.h cpuinit
related content into no-ops as early as possible, since that will get
rid of these warnings. In any case, they are temporary and harmless.
This removes all the ARM uses of the __cpuinit macros from C code,
and all __CPUINIT from assembly code. It also had two ".previous"
section statements that were paired off against __CPUINIT
(aka .section ".cpuinit.text") that also get removed here.
[1] https://lkml.org/lkml/2013/5/20/589
Cc: Russell King <linux@arm.linux.org.uk>
Cc: Will Deacon <will.deacon@arm.com>
Cc: linux-arm-kernel@lists.infradead.org
Signed-off-by: Paul Gortmaker <paul.gortmaker@windriver.com>
402 lines
11 KiB
C
402 lines
11 KiB
C
/*
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* OMAP MPUSS low power code
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*
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* Copyright (C) 2011 Texas Instruments, Inc.
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* Santosh Shilimkar <santosh.shilimkar@ti.com>
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*
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* OMAP4430 MPUSS mainly consists of dual Cortex-A9 with per-CPU
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* Local timer and Watchdog, GIC, SCU, PL310 L2 cache controller,
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* CPU0 and CPU1 LPRM modules.
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* CPU0, CPU1 and MPUSS each have there own power domain and
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* hence multiple low power combinations of MPUSS are possible.
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*
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* The CPU0 and CPU1 can't support Closed switch Retention (CSWR)
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* because the mode is not supported by hw constraints of dormant
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* mode. While waking up from the dormant mode, a reset signal
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* to the Cortex-A9 processor must be asserted by the external
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* power controller.
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*
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* With architectural inputs and hardware recommendations, only
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* below modes are supported from power gain vs latency point of view.
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*
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* CPU0 CPU1 MPUSS
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* ----------------------------------------------
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* ON ON ON
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* ON(Inactive) OFF ON(Inactive)
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* OFF OFF CSWR
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* OFF OFF OSWR
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* OFF OFF OFF(Device OFF *TBD)
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* ----------------------------------------------
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*
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* Note: CPU0 is the master core and it is the last CPU to go down
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* and first to wake-up when MPUSS low power states are excercised
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*
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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/io.h>
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#include <linux/errno.h>
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#include <linux/linkage.h>
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#include <linux/smp.h>
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#include <asm/cacheflush.h>
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#include <asm/tlbflush.h>
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#include <asm/smp_scu.h>
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#include <asm/pgalloc.h>
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#include <asm/suspend.h>
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#include <asm/hardware/cache-l2x0.h>
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#include "soc.h"
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#include "common.h"
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#include "omap44xx.h"
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#include "omap4-sar-layout.h"
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#include "pm.h"
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#include "prcm_mpu44xx.h"
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#include "prminst44xx.h"
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#include "prcm44xx.h"
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#include "prm44xx.h"
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#include "prm-regbits-44xx.h"
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#ifdef CONFIG_SMP
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struct omap4_cpu_pm_info {
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struct powerdomain *pwrdm;
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void __iomem *scu_sar_addr;
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void __iomem *wkup_sar_addr;
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void __iomem *l2x0_sar_addr;
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void (*secondary_startup)(void);
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};
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/**
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* struct cpu_pm_ops - CPU pm operations
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* @finish_suspend: CPU suspend finisher function pointer
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* @resume: CPU resume function pointer
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* @scu_prepare: CPU Snoop Control program function pointer
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*
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* Structure holds functions pointer for CPU low power operations like
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* suspend, resume and scu programming.
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*/
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struct cpu_pm_ops {
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int (*finish_suspend)(unsigned long cpu_state);
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void (*resume)(void);
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void (*scu_prepare)(unsigned int cpu_id, unsigned int cpu_state);
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};
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static DEFINE_PER_CPU(struct omap4_cpu_pm_info, omap4_pm_info);
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static struct powerdomain *mpuss_pd;
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static void __iomem *sar_base;
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static int default_finish_suspend(unsigned long cpu_state)
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{
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omap_do_wfi();
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return 0;
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}
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static void dummy_cpu_resume(void)
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{}
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static void dummy_scu_prepare(unsigned int cpu_id, unsigned int cpu_state)
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{}
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struct cpu_pm_ops omap_pm_ops = {
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.finish_suspend = default_finish_suspend,
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.resume = dummy_cpu_resume,
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.scu_prepare = dummy_scu_prepare,
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};
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/*
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* Program the wakeup routine address for the CPU0 and CPU1
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* used for OFF or DORMANT wakeup.
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*/
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static inline void set_cpu_wakeup_addr(unsigned int cpu_id, u32 addr)
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{
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struct omap4_cpu_pm_info *pm_info = &per_cpu(omap4_pm_info, cpu_id);
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__raw_writel(addr, pm_info->wkup_sar_addr);
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}
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/*
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* Store the SCU power status value to scratchpad memory
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*/
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static void scu_pwrst_prepare(unsigned int cpu_id, unsigned int cpu_state)
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{
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struct omap4_cpu_pm_info *pm_info = &per_cpu(omap4_pm_info, cpu_id);
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u32 scu_pwr_st;
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switch (cpu_state) {
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case PWRDM_POWER_RET:
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scu_pwr_st = SCU_PM_DORMANT;
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break;
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case PWRDM_POWER_OFF:
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scu_pwr_st = SCU_PM_POWEROFF;
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break;
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case PWRDM_POWER_ON:
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case PWRDM_POWER_INACTIVE:
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default:
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scu_pwr_st = SCU_PM_NORMAL;
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break;
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}
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__raw_writel(scu_pwr_st, pm_info->scu_sar_addr);
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}
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/* Helper functions for MPUSS OSWR */
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static inline void mpuss_clear_prev_logic_pwrst(void)
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{
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u32 reg;
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reg = omap4_prminst_read_inst_reg(OMAP4430_PRM_PARTITION,
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OMAP4430_PRM_MPU_INST, OMAP4_RM_MPU_MPU_CONTEXT_OFFSET);
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omap4_prminst_write_inst_reg(reg, OMAP4430_PRM_PARTITION,
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OMAP4430_PRM_MPU_INST, OMAP4_RM_MPU_MPU_CONTEXT_OFFSET);
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}
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static inline void cpu_clear_prev_logic_pwrst(unsigned int cpu_id)
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{
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u32 reg;
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if (cpu_id) {
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reg = omap4_prcm_mpu_read_inst_reg(OMAP4430_PRCM_MPU_CPU1_INST,
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OMAP4_RM_CPU1_CPU1_CONTEXT_OFFSET);
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omap4_prcm_mpu_write_inst_reg(reg, OMAP4430_PRCM_MPU_CPU1_INST,
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OMAP4_RM_CPU1_CPU1_CONTEXT_OFFSET);
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} else {
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reg = omap4_prcm_mpu_read_inst_reg(OMAP4430_PRCM_MPU_CPU0_INST,
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OMAP4_RM_CPU0_CPU0_CONTEXT_OFFSET);
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omap4_prcm_mpu_write_inst_reg(reg, OMAP4430_PRCM_MPU_CPU0_INST,
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OMAP4_RM_CPU0_CPU0_CONTEXT_OFFSET);
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}
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}
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/*
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* Store the CPU cluster state for L2X0 low power operations.
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*/
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static void l2x0_pwrst_prepare(unsigned int cpu_id, unsigned int save_state)
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{
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struct omap4_cpu_pm_info *pm_info = &per_cpu(omap4_pm_info, cpu_id);
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__raw_writel(save_state, pm_info->l2x0_sar_addr);
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}
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/*
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* Save the L2X0 AUXCTRL and POR value to SAR memory. Its used to
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* in every restore MPUSS OFF path.
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*/
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#ifdef CONFIG_CACHE_L2X0
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static void save_l2x0_context(void)
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{
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u32 val;
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void __iomem *l2x0_base = omap4_get_l2cache_base();
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if (l2x0_base) {
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val = __raw_readl(l2x0_base + L2X0_AUX_CTRL);
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__raw_writel(val, sar_base + L2X0_AUXCTRL_OFFSET);
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val = __raw_readl(l2x0_base + L2X0_PREFETCH_CTRL);
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__raw_writel(val, sar_base + L2X0_PREFETCH_CTRL_OFFSET);
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}
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}
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#else
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static void save_l2x0_context(void)
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{}
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#endif
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/**
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* omap4_enter_lowpower: OMAP4 MPUSS Low Power Entry Function
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* The purpose of this function is to manage low power programming
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* of OMAP4 MPUSS subsystem
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* @cpu : CPU ID
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* @power_state: Low power state.
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*
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* MPUSS states for the context save:
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* save_state =
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* 0 - Nothing lost and no need to save: MPUSS INACTIVE
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* 1 - CPUx L1 and logic lost: MPUSS CSWR
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* 2 - CPUx L1 and logic lost + GIC lost: MPUSS OSWR
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* 3 - CPUx L1 and logic lost + GIC + L2 lost: DEVICE OFF
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*/
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int omap4_enter_lowpower(unsigned int cpu, unsigned int power_state)
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{
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struct omap4_cpu_pm_info *pm_info = &per_cpu(omap4_pm_info, cpu);
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unsigned int save_state = 0;
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unsigned int wakeup_cpu;
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if (omap_rev() == OMAP4430_REV_ES1_0)
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return -ENXIO;
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switch (power_state) {
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case PWRDM_POWER_ON:
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case PWRDM_POWER_INACTIVE:
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save_state = 0;
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break;
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case PWRDM_POWER_OFF:
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save_state = 1;
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break;
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case PWRDM_POWER_RET:
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default:
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/*
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* CPUx CSWR is invalid hardware state. Also CPUx OSWR
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* doesn't make much scense, since logic is lost and $L1
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* needs to be cleaned because of coherency. This makes
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* CPUx OSWR equivalent to CPUX OFF and hence not supported
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*/
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WARN_ON(1);
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return -ENXIO;
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}
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pwrdm_pre_transition(NULL);
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/*
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* Check MPUSS next state and save interrupt controller if needed.
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* In MPUSS OSWR or device OFF, interrupt controller contest is lost.
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*/
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mpuss_clear_prev_logic_pwrst();
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if ((pwrdm_read_next_pwrst(mpuss_pd) == PWRDM_POWER_RET) &&
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(pwrdm_read_logic_retst(mpuss_pd) == PWRDM_POWER_OFF))
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save_state = 2;
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cpu_clear_prev_logic_pwrst(cpu);
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pwrdm_set_next_pwrst(pm_info->pwrdm, power_state);
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set_cpu_wakeup_addr(cpu, virt_to_phys(omap_pm_ops.resume));
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omap_pm_ops.scu_prepare(cpu, power_state);
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l2x0_pwrst_prepare(cpu, save_state);
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/*
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* Call low level function with targeted low power state.
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*/
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if (save_state)
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cpu_suspend(save_state, omap_pm_ops.finish_suspend);
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else
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omap_pm_ops.finish_suspend(save_state);
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/*
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* Restore the CPUx power state to ON otherwise CPUx
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* power domain can transitions to programmed low power
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* state while doing WFI outside the low powe code. On
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* secure devices, CPUx does WFI which can result in
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* domain transition
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*/
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wakeup_cpu = smp_processor_id();
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pwrdm_set_next_pwrst(pm_info->pwrdm, PWRDM_POWER_ON);
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pwrdm_post_transition(NULL);
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return 0;
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}
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/**
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* omap4_hotplug_cpu: OMAP4 CPU hotplug entry
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* @cpu : CPU ID
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* @power_state: CPU low power state.
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*/
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int omap4_hotplug_cpu(unsigned int cpu, unsigned int power_state)
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{
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struct omap4_cpu_pm_info *pm_info = &per_cpu(omap4_pm_info, cpu);
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unsigned int cpu_state = 0;
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if (omap_rev() == OMAP4430_REV_ES1_0)
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return -ENXIO;
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if (power_state == PWRDM_POWER_OFF)
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cpu_state = 1;
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pwrdm_clear_all_prev_pwrst(pm_info->pwrdm);
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pwrdm_set_next_pwrst(pm_info->pwrdm, power_state);
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set_cpu_wakeup_addr(cpu, virt_to_phys(pm_info->secondary_startup));
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omap_pm_ops.scu_prepare(cpu, power_state);
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/*
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* CPU never retuns back if targeted power state is OFF mode.
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* CPU ONLINE follows normal CPU ONLINE ptah via
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* omap4_secondary_startup().
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*/
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omap_pm_ops.finish_suspend(cpu_state);
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pwrdm_set_next_pwrst(pm_info->pwrdm, PWRDM_POWER_ON);
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return 0;
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}
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/*
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* Initialise OMAP4 MPUSS
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*/
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int __init omap4_mpuss_init(void)
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{
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struct omap4_cpu_pm_info *pm_info;
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if (omap_rev() == OMAP4430_REV_ES1_0) {
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WARN(1, "Power Management not supported on OMAP4430 ES1.0\n");
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return -ENODEV;
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}
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sar_base = omap4_get_sar_ram_base();
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/* Initilaise per CPU PM information */
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pm_info = &per_cpu(omap4_pm_info, 0x0);
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pm_info->scu_sar_addr = sar_base + SCU_OFFSET0;
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pm_info->wkup_sar_addr = sar_base + CPU0_WAKEUP_NS_PA_ADDR_OFFSET;
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pm_info->l2x0_sar_addr = sar_base + L2X0_SAVE_OFFSET0;
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pm_info->pwrdm = pwrdm_lookup("cpu0_pwrdm");
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if (!pm_info->pwrdm) {
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pr_err("Lookup failed for CPU0 pwrdm\n");
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return -ENODEV;
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}
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/* Clear CPU previous power domain state */
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pwrdm_clear_all_prev_pwrst(pm_info->pwrdm);
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cpu_clear_prev_logic_pwrst(0);
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/* Initialise CPU0 power domain state to ON */
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pwrdm_set_next_pwrst(pm_info->pwrdm, PWRDM_POWER_ON);
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pm_info = &per_cpu(omap4_pm_info, 0x1);
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pm_info->scu_sar_addr = sar_base + SCU_OFFSET1;
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pm_info->wkup_sar_addr = sar_base + CPU1_WAKEUP_NS_PA_ADDR_OFFSET;
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pm_info->l2x0_sar_addr = sar_base + L2X0_SAVE_OFFSET1;
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if (cpu_is_omap446x())
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pm_info->secondary_startup = omap4460_secondary_startup;
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else
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pm_info->secondary_startup = omap4_secondary_startup;
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pm_info->pwrdm = pwrdm_lookup("cpu1_pwrdm");
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if (!pm_info->pwrdm) {
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pr_err("Lookup failed for CPU1 pwrdm\n");
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return -ENODEV;
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}
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/* Clear CPU previous power domain state */
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pwrdm_clear_all_prev_pwrst(pm_info->pwrdm);
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cpu_clear_prev_logic_pwrst(1);
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/* Initialise CPU1 power domain state to ON */
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pwrdm_set_next_pwrst(pm_info->pwrdm, PWRDM_POWER_ON);
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mpuss_pd = pwrdm_lookup("mpu_pwrdm");
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if (!mpuss_pd) {
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pr_err("Failed to lookup MPUSS power domain\n");
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return -ENODEV;
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}
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pwrdm_clear_all_prev_pwrst(mpuss_pd);
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mpuss_clear_prev_logic_pwrst();
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/* Save device type on scratchpad for low level code to use */
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if (omap_type() != OMAP2_DEVICE_TYPE_GP)
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__raw_writel(1, sar_base + OMAP_TYPE_OFFSET);
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else
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__raw_writel(0, sar_base + OMAP_TYPE_OFFSET);
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save_l2x0_context();
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if (cpu_is_omap44xx()) {
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omap_pm_ops.finish_suspend = omap4_finish_suspend;
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omap_pm_ops.resume = omap4_cpu_resume;
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omap_pm_ops.scu_prepare = scu_pwrst_prepare;
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}
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return 0;
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}
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#endif
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