454 строки
10 KiB
C
454 строки
10 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* MIPS-specific support for Broadcom STB S2/S3/S5 power management
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*
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* Copyright (C) 2016-2017 Broadcom
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*/
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#include <linux/kernel.h>
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#include <linux/printk.h>
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#include <linux/io.h>
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#include <linux/of.h>
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#include <linux/of_address.h>
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#include <linux/delay.h>
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#include <linux/suspend.h>
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#include <asm/bmips.h>
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#include <asm/tlbflush.h>
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#include "pm.h"
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#define S2_NUM_PARAMS 6
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#define MAX_NUM_MEMC 3
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/* S3 constants */
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#define MAX_GP_REGS 16
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#define MAX_CP0_REGS 32
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#define NUM_MEMC_CLIENTS 128
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#define AON_CTRL_RAM_SIZE 128
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#define BRCMSTB_S3_MAGIC 0x5AFEB007
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#define CLEAR_RESET_MASK 0x01
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/* Index each CP0 register that needs to be saved */
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#define CONTEXT 0
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#define USER_LOCAL 1
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#define PGMK 2
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#define HWRENA 3
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#define COMPARE 4
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#define STATUS 5
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#define CONFIG 6
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#define MODE 7
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#define EDSP 8
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#define BOOT_VEC 9
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#define EBASE 10
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struct brcmstb_memc {
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void __iomem *ddr_phy_base;
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void __iomem *arb_base;
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};
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struct brcmstb_pm_control {
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void __iomem *aon_ctrl_base;
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void __iomem *aon_sram_base;
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void __iomem *timers_base;
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struct brcmstb_memc memcs[MAX_NUM_MEMC];
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int num_memc;
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};
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struct brcm_pm_s3_context {
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u32 cp0_regs[MAX_CP0_REGS];
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u32 memc0_rts[NUM_MEMC_CLIENTS];
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u32 sc_boot_vec;
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};
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struct brcmstb_mem_transfer;
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struct brcmstb_mem_transfer {
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struct brcmstb_mem_transfer *next;
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void *src;
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void *dst;
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dma_addr_t pa_src;
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dma_addr_t pa_dst;
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u32 len;
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u8 key;
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u8 mode;
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u8 src_remapped;
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u8 dst_remapped;
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u8 src_dst_remapped;
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};
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#define AON_SAVE_SRAM(base, idx, val) \
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__raw_writel(val, base + (idx << 2))
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/* Used for saving registers in asm */
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u32 gp_regs[MAX_GP_REGS];
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#define BSP_CLOCK_STOP 0x00
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#define PM_INITIATE 0x01
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static struct brcmstb_pm_control ctrl;
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static void brcm_pm_save_cp0_context(struct brcm_pm_s3_context *ctx)
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{
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/* Generic MIPS */
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ctx->cp0_regs[CONTEXT] = read_c0_context();
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ctx->cp0_regs[USER_LOCAL] = read_c0_userlocal();
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ctx->cp0_regs[PGMK] = read_c0_pagemask();
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ctx->cp0_regs[HWRENA] = read_c0_cache();
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ctx->cp0_regs[COMPARE] = read_c0_compare();
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ctx->cp0_regs[STATUS] = read_c0_status();
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/* Broadcom specific */
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ctx->cp0_regs[CONFIG] = read_c0_brcm_config();
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ctx->cp0_regs[MODE] = read_c0_brcm_mode();
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ctx->cp0_regs[EDSP] = read_c0_brcm_edsp();
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ctx->cp0_regs[BOOT_VEC] = read_c0_brcm_bootvec();
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ctx->cp0_regs[EBASE] = read_c0_ebase();
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ctx->sc_boot_vec = bmips_read_zscm_reg(0xa0);
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}
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static void brcm_pm_restore_cp0_context(struct brcm_pm_s3_context *ctx)
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{
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/* Restore cp0 state */
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bmips_write_zscm_reg(0xa0, ctx->sc_boot_vec);
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/* Generic MIPS */
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write_c0_context(ctx->cp0_regs[CONTEXT]);
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write_c0_userlocal(ctx->cp0_regs[USER_LOCAL]);
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write_c0_pagemask(ctx->cp0_regs[PGMK]);
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write_c0_cache(ctx->cp0_regs[HWRENA]);
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write_c0_compare(ctx->cp0_regs[COMPARE]);
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write_c0_status(ctx->cp0_regs[STATUS]);
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/* Broadcom specific */
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write_c0_brcm_config(ctx->cp0_regs[CONFIG]);
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write_c0_brcm_mode(ctx->cp0_regs[MODE]);
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write_c0_brcm_edsp(ctx->cp0_regs[EDSP]);
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write_c0_brcm_bootvec(ctx->cp0_regs[BOOT_VEC]);
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write_c0_ebase(ctx->cp0_regs[EBASE]);
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}
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static void brcmstb_pm_handshake(void)
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{
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void __iomem *base = ctrl.aon_ctrl_base;
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u32 tmp;
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/* BSP power handshake, v1 */
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tmp = __raw_readl(base + AON_CTRL_HOST_MISC_CMDS);
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tmp &= ~1UL;
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__raw_writel(tmp, base + AON_CTRL_HOST_MISC_CMDS);
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(void)__raw_readl(base + AON_CTRL_HOST_MISC_CMDS);
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__raw_writel(0, base + AON_CTRL_PM_INITIATE);
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(void)__raw_readl(base + AON_CTRL_PM_INITIATE);
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__raw_writel(BSP_CLOCK_STOP | PM_INITIATE,
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base + AON_CTRL_PM_INITIATE);
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/*
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* HACK: BSP may have internal race on the CLOCK_STOP command.
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* Avoid touching the BSP for a few milliseconds.
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*/
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mdelay(3);
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}
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static void brcmstb_pm_s5(void)
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{
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void __iomem *base = ctrl.aon_ctrl_base;
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brcmstb_pm_handshake();
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/* Clear magic s3 warm-boot value */
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AON_SAVE_SRAM(ctrl.aon_sram_base, 0, 0);
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/* Set the countdown */
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__raw_writel(0x10, base + AON_CTRL_PM_CPU_WAIT_COUNT);
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(void)__raw_readl(base + AON_CTRL_PM_CPU_WAIT_COUNT);
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/* Prepare to S5 cold boot */
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__raw_writel(PM_COLD_CONFIG, base + AON_CTRL_PM_CTRL);
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(void)__raw_readl(base + AON_CTRL_PM_CTRL);
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__raw_writel((PM_COLD_CONFIG | PM_PWR_DOWN), base +
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AON_CTRL_PM_CTRL);
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(void)__raw_readl(base + AON_CTRL_PM_CTRL);
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__asm__ __volatile__(
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" wait\n"
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: : : "memory");
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}
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static int brcmstb_pm_s3(void)
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{
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struct brcm_pm_s3_context s3_context;
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void __iomem *memc_arb_base;
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unsigned long flags;
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u32 tmp;
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int i;
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/* Prepare for s3 */
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AON_SAVE_SRAM(ctrl.aon_sram_base, 0, BRCMSTB_S3_MAGIC);
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AON_SAVE_SRAM(ctrl.aon_sram_base, 1, (u32)&s3_reentry);
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AON_SAVE_SRAM(ctrl.aon_sram_base, 2, 0);
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/* Clear RESET_HISTORY */
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tmp = __raw_readl(ctrl.aon_ctrl_base + AON_CTRL_RESET_CTRL);
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tmp &= ~CLEAR_RESET_MASK;
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__raw_writel(tmp, ctrl.aon_ctrl_base + AON_CTRL_RESET_CTRL);
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local_irq_save(flags);
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/* Inhibit DDR_RSTb pulse for both MMCs*/
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for (i = 0; i < ctrl.num_memc; i++) {
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tmp = __raw_readl(ctrl.memcs[i].ddr_phy_base +
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DDR40_PHY_CONTROL_REGS_0_STANDBY_CTRL);
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tmp &= ~0x0f;
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__raw_writel(tmp, ctrl.memcs[i].ddr_phy_base +
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DDR40_PHY_CONTROL_REGS_0_STANDBY_CTRL);
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tmp |= (0x05 | BIT(5));
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__raw_writel(tmp, ctrl.memcs[i].ddr_phy_base +
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DDR40_PHY_CONTROL_REGS_0_STANDBY_CTRL);
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}
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/* Save CP0 context */
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brcm_pm_save_cp0_context(&s3_context);
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/* Save RTS(skip debug register) */
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memc_arb_base = ctrl.memcs[0].arb_base + 4;
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for (i = 0; i < NUM_MEMC_CLIENTS; i++) {
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s3_context.memc0_rts[i] = __raw_readl(memc_arb_base);
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memc_arb_base += 4;
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}
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/* Save I/O context */
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local_flush_tlb_all();
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_dma_cache_wback_inv(0, ~0);
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brcm_pm_do_s3(ctrl.aon_ctrl_base, current_cpu_data.dcache.linesz);
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/* CPU reconfiguration */
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local_flush_tlb_all();
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bmips_cpu_setup();
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cpumask_clear(&bmips_booted_mask);
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/* Restore RTS (skip debug register) */
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memc_arb_base = ctrl.memcs[0].arb_base + 4;
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for (i = 0; i < NUM_MEMC_CLIENTS; i++) {
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__raw_writel(s3_context.memc0_rts[i], memc_arb_base);
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memc_arb_base += 4;
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}
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/* restore CP0 context */
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brcm_pm_restore_cp0_context(&s3_context);
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local_irq_restore(flags);
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return 0;
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}
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static int brcmstb_pm_s2(void)
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{
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/*
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* We need to pass 6 arguments to an assembly function. Lets avoid the
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* stack and pass arguments in a explicit 4 byte array. The assembly
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* code assumes all arguments are 4 bytes and arguments are ordered
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* like so:
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*
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* 0: AON_CTRl base register
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* 1: DDR_PHY base register
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* 2: TIMERS base resgister
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* 3: I-Cache line size
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* 4: Restart vector address
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* 5: Restart vector size
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*/
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u32 s2_params[6];
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/* Prepare s2 parameters */
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s2_params[0] = (u32)ctrl.aon_ctrl_base;
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s2_params[1] = (u32)ctrl.memcs[0].ddr_phy_base;
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s2_params[2] = (u32)ctrl.timers_base;
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s2_params[3] = (u32)current_cpu_data.icache.linesz;
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s2_params[4] = (u32)BMIPS_WARM_RESTART_VEC;
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s2_params[5] = (u32)(bmips_smp_int_vec_end -
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bmips_smp_int_vec);
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/* Drop to standby */
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brcm_pm_do_s2(s2_params);
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return 0;
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}
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static int brcmstb_pm_standby(bool deep_standby)
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{
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brcmstb_pm_handshake();
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/* Send IRQs to BMIPS_WARM_RESTART_VEC */
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clear_c0_cause(CAUSEF_IV);
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irq_disable_hazard();
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set_c0_status(ST0_BEV);
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irq_disable_hazard();
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if (deep_standby)
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brcmstb_pm_s3();
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else
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brcmstb_pm_s2();
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/* Send IRQs to normal runtime vectors */
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clear_c0_status(ST0_BEV);
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irq_disable_hazard();
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set_c0_cause(CAUSEF_IV);
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irq_disable_hazard();
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return 0;
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}
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static int brcmstb_pm_enter(suspend_state_t state)
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{
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int ret = -EINVAL;
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switch (state) {
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case PM_SUSPEND_STANDBY:
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ret = brcmstb_pm_standby(false);
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break;
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case PM_SUSPEND_MEM:
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ret = brcmstb_pm_standby(true);
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break;
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}
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return ret;
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}
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static int brcmstb_pm_valid(suspend_state_t state)
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{
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switch (state) {
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case PM_SUSPEND_STANDBY:
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return true;
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case PM_SUSPEND_MEM:
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return true;
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default:
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return false;
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}
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}
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static const struct platform_suspend_ops brcmstb_pm_ops = {
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.enter = brcmstb_pm_enter,
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.valid = brcmstb_pm_valid,
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};
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static const struct of_device_id aon_ctrl_dt_ids[] = {
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{ .compatible = "brcm,brcmstb-aon-ctrl" },
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{ /* sentinel */ }
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};
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static const struct of_device_id ddr_phy_dt_ids[] = {
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{ .compatible = "brcm,brcmstb-ddr-phy" },
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{ /* sentinel */ }
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};
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static const struct of_device_id arb_dt_ids[] = {
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{ .compatible = "brcm,brcmstb-memc-arb" },
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{ /* sentinel */ }
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};
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static const struct of_device_id timers_ids[] = {
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{ .compatible = "brcm,brcmstb-timers" },
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{ /* sentinel */ }
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};
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static inline void __iomem *brcmstb_ioremap_node(struct device_node *dn,
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int index)
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{
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return of_io_request_and_map(dn, index, dn->full_name);
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}
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static void __iomem *brcmstb_ioremap_match(const struct of_device_id *matches,
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int index, const void **ofdata)
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{
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struct device_node *dn;
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const struct of_device_id *match;
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dn = of_find_matching_node_and_match(NULL, matches, &match);
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if (!dn)
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return ERR_PTR(-EINVAL);
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if (ofdata)
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*ofdata = match->data;
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return brcmstb_ioremap_node(dn, index);
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}
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static int brcmstb_pm_init(void)
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{
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struct device_node *dn;
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void __iomem *base;
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int i;
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/* AON ctrl registers */
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base = brcmstb_ioremap_match(aon_ctrl_dt_ids, 0, NULL);
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if (IS_ERR(base)) {
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pr_err("error mapping AON_CTRL\n");
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goto aon_err;
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}
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ctrl.aon_ctrl_base = base;
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/* AON SRAM registers */
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base = brcmstb_ioremap_match(aon_ctrl_dt_ids, 1, NULL);
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if (IS_ERR(base)) {
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pr_err("error mapping AON_SRAM\n");
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goto sram_err;
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}
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ctrl.aon_sram_base = base;
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ctrl.num_memc = 0;
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/* Map MEMC DDR PHY registers */
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for_each_matching_node(dn, ddr_phy_dt_ids) {
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i = ctrl.num_memc;
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if (i >= MAX_NUM_MEMC) {
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pr_warn("Too many MEMCs (max %d)\n", MAX_NUM_MEMC);
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break;
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}
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base = brcmstb_ioremap_node(dn, 0);
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if (IS_ERR(base))
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goto ddr_err;
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ctrl.memcs[i].ddr_phy_base = base;
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ctrl.num_memc++;
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}
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/* MEMC ARB registers */
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base = brcmstb_ioremap_match(arb_dt_ids, 0, NULL);
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if (IS_ERR(base)) {
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pr_err("error mapping MEMC ARB\n");
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goto ddr_err;
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}
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ctrl.memcs[0].arb_base = base;
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/* Timer registers */
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base = brcmstb_ioremap_match(timers_ids, 0, NULL);
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if (IS_ERR(base)) {
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pr_err("error mapping timers\n");
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goto tmr_err;
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}
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ctrl.timers_base = base;
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/* s3 cold boot aka s5 */
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pm_power_off = brcmstb_pm_s5;
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suspend_set_ops(&brcmstb_pm_ops);
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return 0;
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tmr_err:
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iounmap(ctrl.memcs[0].arb_base);
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ddr_err:
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for (i = 0; i < ctrl.num_memc; i++)
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iounmap(ctrl.memcs[i].ddr_phy_base);
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iounmap(ctrl.aon_sram_base);
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sram_err:
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iounmap(ctrl.aon_ctrl_base);
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aon_err:
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return PTR_ERR(base);
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}
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arch_initcall(brcmstb_pm_init);
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