mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-04 18:41:03 +00:00
90526e9fba
Move this header out of the common header. Network support is used in quite a few places but it still does not warrant blanket inclusion. Note that this net.h header itself has quite a lot in it. It could be split into the driver-mode support, functions, structures, checksumming, etc. Signed-off-by: Simon Glass <sjg@chromium.org>
690 lines
18 KiB
C
690 lines
18 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (C) 2015-2016 Freescale Semiconductor, Inc.
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* Copyright 2017 NXP
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*/
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#include <cpu_func.h>
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#include <asm/cache.h>
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#include <asm/io.h>
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#include <asm/psci.h>
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#include <asm/secure.h>
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#include <asm/arch/imx-regs.h>
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#include <asm/armv7.h>
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#include <asm/gic.h>
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#include <linux/bitops.h>
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#include <common.h>
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#include <fsl_wdog.h>
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#define GPC_LPCR_A7_BSC 0x0
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#define GPC_LPCR_A7_AD 0x4
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#define GPC_SLPCR 0x14
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#define GPC_PGC_ACK_SEL_A7 0x24
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#define GPC_IMR1_CORE0 0x30
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#define GPC_SLOT0_CFG 0xb0
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#define GPC_CPU_PGC_SW_PUP_REQ 0xf0
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#define GPC_CPU_PGC_SW_PDN_REQ 0xfc
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#define GPC_PGC_C0 0x800
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#define GPC_PGC_C0 0x800
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#define GPC_PGC_C1 0x840
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#define GPC_PGC_SCU 0x880
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#define BM_LPCR_A7_BSC_CPU_CLK_ON_LPM 0x4000
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#define BM_LPCR_A7_BSC_LPM1 0xc
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#define BM_LPCR_A7_BSC_LPM0 0x3
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#define BP_LPCR_A7_BSC_LPM0 0
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#define BM_SLPCR_EN_DSM 0x80000000
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#define BM_SLPCR_RBC_EN 0x40000000
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#define BM_SLPCR_REG_BYPASS_COUNT 0x3f000000
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#define BM_SLPCR_VSTBY 0x4
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#define BM_SLPCR_SBYOS 0x2
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#define BM_SLPCR_BYPASS_PMIC_READY 0x1
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#define BM_LPCR_A7_AD_L2PGE 0x10000
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#define BM_LPCR_A7_AD_EN_C1_PUP 0x800
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#define BM_LPCR_A7_AD_EN_C0_PUP 0x200
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#define BM_LPCR_A7_AD_EN_PLAT_PDN 0x10
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#define BM_LPCR_A7_AD_EN_C1_PDN 0x8
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#define BM_LPCR_A7_AD_EN_C0_PDN 0x2
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#define BM_CPU_PGC_SW_PDN_PUP_REQ_CORE0_A7 0x1
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#define BM_CPU_PGC_SW_PDN_PUP_REQ_CORE1_A7 0x2
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#define BM_GPC_PGC_ACK_SEL_A7_PD_DUMMY_ACK 0x8000
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#define BM_GPC_PGC_ACK_SEL_A7_PU_DUMMY_ACK 0x80000000
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#define MAX_SLOT_NUMBER 10
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#define A7_LPM_WAIT 0x5
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#define A7_LPM_STOP 0xa
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#define BM_SYS_COUNTER_CNTCR_FCR1 0x200
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#define BM_SYS_COUNTER_CNTCR_FCR0 0x100
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#define REG_SET 0x4
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#define REG_CLR 0x8
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#define ANADIG_ARM_PLL 0x60
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#define ANADIG_DDR_PLL 0x70
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#define ANADIG_SYS_PLL 0xb0
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#define ANADIG_ENET_PLL 0xe0
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#define ANADIG_AUDIO_PLL 0xf0
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#define ANADIG_VIDEO_PLL 0x130
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#define BM_ANATOP_ARM_PLL_OVERRIDE BIT(20)
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#define BM_ANATOP_DDR_PLL_OVERRIDE BIT(19)
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#define BM_ANATOP_SYS_PLL_OVERRIDE (0x1ff << 17)
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#define BM_ANATOP_ENET_PLL_OVERRIDE BIT(13)
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#define BM_ANATOP_AUDIO_PLL_OVERRIDE BIT(24)
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#define BM_ANATOP_VIDEO_PLL_OVERRIDE BIT(24)
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#define DDRC_STAT 0x4
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#define DDRC_PWRCTL 0x30
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#define DDRC_PSTAT 0x3fc
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#define SRC_GPR1_MX7D 0x074
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#define SRC_GPR2_MX7D 0x078
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#define SRC_A7RCR0 0x004
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#define SRC_A7RCR1 0x008
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#define BP_SRC_A7RCR0_A7_CORE_RESET0 0
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#define BP_SRC_A7RCR1_A7_CORE1_ENABLE 1
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#define SNVS_LPCR 0x38
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#define BP_SNVS_LPCR_DP_EN 0x20
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#define BP_SNVS_LPCR_TOP 0x40
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#define CCM_CCGR_SNVS 0x4250
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#define CCM_ROOT_WDOG 0xbb80
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#define CCM_CCGR_WDOG1 0x49c0
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#define MPIDR_AFF0 GENMASK(7, 0)
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#define IMX7D_PSCI_NR_CPUS 2
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#if IMX7D_PSCI_NR_CPUS > CONFIG_ARMV7_PSCI_NR_CPUS
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#error "invalid value for CONFIG_ARMV7_PSCI_NR_CPUS"
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#endif
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#define imx_cpu_gpr_entry_offset(cpu) \
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(SRC_BASE_ADDR + SRC_GPR1_MX7D + cpu * 8)
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#define imx_cpu_gpr_para_offset(cpu) \
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(imx_cpu_gpr_entry_offset(cpu) + 4)
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#define IMX_CPU_SYNC_OFF ~0
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#define IMX_CPU_SYNC_ON 0
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u8 psci_state[IMX7D_PSCI_NR_CPUS] __secure_data = {
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PSCI_AFFINITY_LEVEL_ON,
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PSCI_AFFINITY_LEVEL_OFF};
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enum imx_gpc_slot {
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CORE0_A7,
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CORE1_A7,
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SCU_A7,
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FAST_MEGA_MIX,
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MIPI_PHY,
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PCIE_PHY,
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USB_OTG1_PHY,
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USB_OTG2_PHY,
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USB_HSIC_PHY,
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CORE0_M4,
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};
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enum mxc_cpu_pwr_mode {
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RUN,
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WAIT,
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STOP,
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};
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extern void psci_system_resume(void);
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static inline void psci_set_state(int cpu, u8 state)
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{
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psci_state[cpu] = state;
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dsb();
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isb();
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}
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static inline void imx_gpcv2_set_m_core_pgc(bool enable, u32 offset)
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{
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writel(enable, GPC_IPS_BASE_ADDR + offset);
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}
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__secure void imx_gpcv2_set_core_power(int cpu, bool pdn)
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{
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u32 reg = pdn ? GPC_CPU_PGC_SW_PUP_REQ : GPC_CPU_PGC_SW_PDN_REQ;
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u32 pgc = cpu ? GPC_PGC_C1 : GPC_PGC_C0;
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u32 pdn_pup_req = cpu ? BM_CPU_PGC_SW_PDN_PUP_REQ_CORE1_A7 :
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BM_CPU_PGC_SW_PDN_PUP_REQ_CORE0_A7;
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u32 val;
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imx_gpcv2_set_m_core_pgc(true, pgc);
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val = readl(GPC_IPS_BASE_ADDR + reg);
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val |= pdn_pup_req;
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writel(val, GPC_IPS_BASE_ADDR + reg);
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while ((readl(GPC_IPS_BASE_ADDR + reg) & pdn_pup_req) != 0)
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;
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imx_gpcv2_set_m_core_pgc(false, pgc);
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}
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__secure void imx_enable_cpu_ca7(int cpu, bool enable)
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{
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u32 mask, val;
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mask = 1 << (BP_SRC_A7RCR1_A7_CORE1_ENABLE + cpu - 1);
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val = readl(SRC_BASE_ADDR + SRC_A7RCR1);
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val = enable ? val | mask : val & ~mask;
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writel(val, SRC_BASE_ADDR + SRC_A7RCR1);
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}
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__secure void psci_arch_cpu_entry(void)
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{
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u32 cpu = psci_get_cpu_id();
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psci_set_state(cpu, PSCI_AFFINITY_LEVEL_ON);
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}
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__secure s32 psci_cpu_on(u32 __always_unused function_id, u32 mpidr, u32 ep,
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u32 context_id)
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{
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u32 cpu = mpidr & MPIDR_AFF0;
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if (mpidr & ~MPIDR_AFF0)
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return ARM_PSCI_RET_INVAL;
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if (cpu >= IMX7D_PSCI_NR_CPUS)
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return ARM_PSCI_RET_INVAL;
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if (psci_state[cpu] == PSCI_AFFINITY_LEVEL_ON)
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return ARM_PSCI_RET_ALREADY_ON;
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if (psci_state[cpu] == PSCI_AFFINITY_LEVEL_ON_PENDING)
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return ARM_PSCI_RET_ON_PENDING;
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psci_save(cpu, ep, context_id);
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writel((u32)psci_cpu_entry, imx_cpu_gpr_entry_offset(cpu));
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psci_set_state(cpu, PSCI_AFFINITY_LEVEL_ON_PENDING);
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imx_gpcv2_set_core_power(cpu, true);
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imx_enable_cpu_ca7(cpu, true);
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return ARM_PSCI_RET_SUCCESS;
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}
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__secure s32 psci_cpu_off(void)
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{
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int cpu;
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cpu = psci_get_cpu_id();
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psci_cpu_off_common();
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psci_set_state(cpu, PSCI_AFFINITY_LEVEL_OFF);
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imx_enable_cpu_ca7(cpu, false);
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imx_gpcv2_set_core_power(cpu, false);
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/*
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* We use the cpu jumping argument register to sync with
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* psci_affinity_info() which is running on cpu0 to kill the cpu.
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*/
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writel(IMX_CPU_SYNC_OFF, imx_cpu_gpr_para_offset(cpu));
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while (1)
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wfi();
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}
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__secure void psci_system_reset(void)
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{
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struct wdog_regs *wdog = (struct wdog_regs *)WDOG1_BASE_ADDR;
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/* make sure WDOG1 clock is enabled */
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writel(0x1 << 28, CCM_BASE_ADDR + CCM_ROOT_WDOG);
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writel(0x3, CCM_BASE_ADDR + CCM_CCGR_WDOG1);
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writew(WCR_WDE, &wdog->wcr);
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while (1)
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wfi();
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}
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__secure void psci_system_off(void)
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{
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u32 val;
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/* make sure SNVS clock is enabled */
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writel(0x3, CCM_BASE_ADDR + CCM_CCGR_SNVS);
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val = readl(SNVS_BASE_ADDR + SNVS_LPCR);
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val |= BP_SNVS_LPCR_DP_EN | BP_SNVS_LPCR_TOP;
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writel(val, SNVS_BASE_ADDR + SNVS_LPCR);
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while (1)
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wfi();
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}
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__secure u32 psci_version(void)
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{
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return ARM_PSCI_VER_1_0;
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}
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__secure s32 psci_cpu_suspend(u32 __always_unused function_id, u32 power_state,
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u32 entry_point_address,
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u32 context_id)
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{
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return ARM_PSCI_RET_INVAL;
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}
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__secure s32 psci_affinity_info(u32 __always_unused function_id,
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u32 target_affinity,
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u32 lowest_affinity_level)
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{
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u32 cpu = target_affinity & MPIDR_AFF0;
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if (lowest_affinity_level > 0)
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return ARM_PSCI_RET_INVAL;
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if (target_affinity & ~MPIDR_AFF0)
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return ARM_PSCI_RET_INVAL;
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if (cpu >= IMX7D_PSCI_NR_CPUS)
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return ARM_PSCI_RET_INVAL;
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/* CPU is waiting for killed */
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if (readl(imx_cpu_gpr_para_offset(cpu)) == IMX_CPU_SYNC_OFF) {
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imx_enable_cpu_ca7(cpu, false);
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imx_gpcv2_set_core_power(cpu, false);
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writel(IMX_CPU_SYNC_ON, imx_cpu_gpr_para_offset(cpu));
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}
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return psci_state[cpu];
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}
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__secure u32 psci_migrate_info_type(void)
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{
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/* Trusted OS is either not present or does not require migration */
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return 2;
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}
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__secure s32 psci_features(u32 __always_unused function_id, u32 psci_fid)
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{
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switch (psci_fid) {
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case ARM_PSCI_0_2_FN_PSCI_VERSION:
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case ARM_PSCI_0_2_FN_CPU_OFF:
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case ARM_PSCI_0_2_FN_CPU_ON:
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case ARM_PSCI_0_2_FN_AFFINITY_INFO:
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case ARM_PSCI_0_2_FN_MIGRATE_INFO_TYPE:
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case ARM_PSCI_0_2_FN_SYSTEM_OFF:
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case ARM_PSCI_0_2_FN_SYSTEM_RESET:
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case ARM_PSCI_1_0_FN_PSCI_FEATURES:
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case ARM_PSCI_1_0_FN_SYSTEM_SUSPEND:
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return 0x0;
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}
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return ARM_PSCI_RET_NI;
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}
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static __secure void imx_gpcv2_set_lpm_mode(enum mxc_cpu_pwr_mode mode)
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{
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u32 val1, val2, val3;
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val1 = readl(GPC_IPS_BASE_ADDR + GPC_LPCR_A7_BSC);
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val2 = readl(GPC_IPS_BASE_ADDR + GPC_SLPCR);
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/* all cores' LPM settings must be same */
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val1 &= ~(BM_LPCR_A7_BSC_LPM0 | BM_LPCR_A7_BSC_LPM1);
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val1 |= BM_LPCR_A7_BSC_CPU_CLK_ON_LPM;
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val2 &= ~(BM_SLPCR_EN_DSM | BM_SLPCR_VSTBY | BM_SLPCR_RBC_EN |
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BM_SLPCR_SBYOS | BM_SLPCR_BYPASS_PMIC_READY);
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/*
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* GPC: When improper low-power sequence is used,
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* the SoC enters low power mode before the ARM core executes WFI.
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*
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* Software workaround:
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* 1) Software should trigger IRQ #32 (IOMUX) to be always pending
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* by setting IOMUX_GPR1_IRQ.
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* 2) Software should then unmask IRQ #32 in GPC before setting GPC
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* Low-Power mode.
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* 3) Software should mask IRQ #32 right after GPC Low-Power mode
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* is set.
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*/
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switch (mode) {
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case RUN:
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val3 = readl(GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0);
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val3 &= ~0x1;
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writel(val3, GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0);
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break;
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case WAIT:
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val1 |= A7_LPM_WAIT << BP_LPCR_A7_BSC_LPM0;
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val1 &= ~BM_LPCR_A7_BSC_CPU_CLK_ON_LPM;
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val3 = readl(GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0);
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val3 &= ~0x1;
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writel(val3, GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0);
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break;
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case STOP:
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val1 |= A7_LPM_STOP << BP_LPCR_A7_BSC_LPM0;
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val1 &= ~BM_LPCR_A7_BSC_CPU_CLK_ON_LPM;
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val2 |= BM_SLPCR_EN_DSM;
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val2 |= BM_SLPCR_SBYOS;
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val2 |= BM_SLPCR_VSTBY;
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val2 |= BM_SLPCR_BYPASS_PMIC_READY;
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val3 = readl(GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0);
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val3 |= 0x1;
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writel(val3, GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0);
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break;
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default:
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return;
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}
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writel(val1, GPC_IPS_BASE_ADDR + GPC_LPCR_A7_BSC);
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writel(val2, GPC_IPS_BASE_ADDR + GPC_SLPCR);
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}
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static __secure void imx_gpcv2_set_plat_power_gate_by_lpm(bool pdn)
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{
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u32 val = readl(GPC_IPS_BASE_ADDR + GPC_LPCR_A7_AD);
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val &= ~(BM_LPCR_A7_AD_EN_PLAT_PDN | BM_LPCR_A7_AD_L2PGE);
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if (pdn)
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val |= BM_LPCR_A7_AD_EN_PLAT_PDN | BM_LPCR_A7_AD_L2PGE;
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writel(val, GPC_IPS_BASE_ADDR + GPC_LPCR_A7_AD);
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}
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static __secure void imx_gpcv2_set_cpu_power_gate_by_lpm(u32 cpu, bool pdn)
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{
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u32 val;
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val = readl(GPC_IPS_BASE_ADDR + GPC_LPCR_A7_AD);
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if (cpu == 0) {
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if (pdn)
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val |= BM_LPCR_A7_AD_EN_C0_PDN |
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BM_LPCR_A7_AD_EN_C0_PUP;
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else
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val &= ~(BM_LPCR_A7_AD_EN_C0_PDN |
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BM_LPCR_A7_AD_EN_C0_PUP);
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}
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if (cpu == 1) {
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if (pdn)
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val |= BM_LPCR_A7_AD_EN_C1_PDN |
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BM_LPCR_A7_AD_EN_C1_PUP;
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else
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val &= ~(BM_LPCR_A7_AD_EN_C1_PDN |
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BM_LPCR_A7_AD_EN_C1_PUP);
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}
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writel(val, GPC_IPS_BASE_ADDR + GPC_LPCR_A7_AD);
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}
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static __secure void imx_gpcv2_set_slot_ack(u32 index, enum imx_gpc_slot m_core,
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bool mode, bool ack)
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{
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u32 val;
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if (index >= MAX_SLOT_NUMBER)
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return;
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/* set slot */
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writel(readl(GPC_IPS_BASE_ADDR + GPC_SLOT0_CFG + index * 4) |
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((mode + 1) << (m_core * 2)),
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GPC_IPS_BASE_ADDR + GPC_SLOT0_CFG + index * 4);
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if (ack) {
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/* set ack */
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val = readl(GPC_IPS_BASE_ADDR + GPC_PGC_ACK_SEL_A7);
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/* clear dummy ack */
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val &= ~(mode ? BM_GPC_PGC_ACK_SEL_A7_PU_DUMMY_ACK :
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BM_GPC_PGC_ACK_SEL_A7_PD_DUMMY_ACK);
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val |= 1 << (m_core + (mode ? 16 : 0));
|
|
writel(val, GPC_IPS_BASE_ADDR + GPC_PGC_ACK_SEL_A7);
|
|
}
|
|
}
|
|
|
|
static __secure void imx_system_counter_resume(void)
|
|
{
|
|
u32 val;
|
|
|
|
val = readl(SYSCNT_CTRL_IPS_BASE_ADDR);
|
|
val &= ~BM_SYS_COUNTER_CNTCR_FCR1;
|
|
val |= BM_SYS_COUNTER_CNTCR_FCR0;
|
|
writel(val, SYSCNT_CTRL_IPS_BASE_ADDR);
|
|
}
|
|
|
|
static __secure void imx_system_counter_suspend(void)
|
|
{
|
|
u32 val;
|
|
|
|
val = readl(SYSCNT_CTRL_IPS_BASE_ADDR);
|
|
val &= ~BM_SYS_COUNTER_CNTCR_FCR0;
|
|
val |= BM_SYS_COUNTER_CNTCR_FCR1;
|
|
writel(val, SYSCNT_CTRL_IPS_BASE_ADDR);
|
|
}
|
|
|
|
static __secure void gic_resume(void)
|
|
{
|
|
u32 itlinesnr, i;
|
|
u32 gic_dist_addr = GIC400_ARB_BASE_ADDR + GIC_DIST_OFFSET;
|
|
|
|
/* enable the GIC distributor */
|
|
writel(readl(gic_dist_addr + GICD_CTLR) | 0x03,
|
|
gic_dist_addr + GICD_CTLR);
|
|
|
|
/* TYPER[4:0] contains an encoded number of available interrupts */
|
|
itlinesnr = readl(gic_dist_addr + GICD_TYPER) & 0x1f;
|
|
|
|
/* set all bits in the GIC group registers to one to allow access
|
|
* from non-secure state. The first 32 interrupts are private per
|
|
* CPU and will be set later when enabling the GIC for each core
|
|
*/
|
|
for (i = 1; i <= itlinesnr; i++)
|
|
writel((u32)-1, gic_dist_addr + GICD_IGROUPRn + 4 * i);
|
|
}
|
|
|
|
static inline void imx_pll_suspend(void)
|
|
{
|
|
writel(BM_ANATOP_ARM_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_ARM_PLL + REG_SET);
|
|
writel(BM_ANATOP_DDR_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_DDR_PLL + REG_SET);
|
|
writel(BM_ANATOP_SYS_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_SYS_PLL + REG_SET);
|
|
writel(BM_ANATOP_ENET_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_ENET_PLL + REG_SET);
|
|
writel(BM_ANATOP_AUDIO_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_AUDIO_PLL + REG_SET);
|
|
writel(BM_ANATOP_VIDEO_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_VIDEO_PLL + REG_SET);
|
|
}
|
|
|
|
static inline void imx_pll_resume(void)
|
|
{
|
|
writel(BM_ANATOP_ARM_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_ARM_PLL + REG_CLR);
|
|
writel(BM_ANATOP_DDR_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_DDR_PLL + REG_CLR);
|
|
writel(BM_ANATOP_SYS_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_SYS_PLL + REG_CLR);
|
|
writel(BM_ANATOP_ENET_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_ENET_PLL + REG_CLR);
|
|
writel(BM_ANATOP_AUDIO_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_AUDIO_PLL + REG_CLR);
|
|
writel(BM_ANATOP_VIDEO_PLL_OVERRIDE,
|
|
ANATOP_BASE_ADDR + ANADIG_VIDEO_PLL + REG_CLR);
|
|
}
|
|
|
|
static inline void imx_udelay(u32 usec)
|
|
{
|
|
u32 freq;
|
|
u64 start, end;
|
|
|
|
asm volatile("mrc p15, 0, %0, c14, c0, 0" : "=r" (freq));
|
|
asm volatile("mrrc p15, 0, %Q0, %R0, c14" : "=r" (start));
|
|
do {
|
|
asm volatile("mrrc p15, 0, %Q0, %R0, c14" : "=r" (end));
|
|
if ((end - start) > usec * (freq / 1000000))
|
|
break;
|
|
} while (1);
|
|
}
|
|
|
|
static inline void imx_ddrc_enter_self_refresh(void)
|
|
{
|
|
writel(0, DDRC_IPS_BASE_ADDR + DDRC_PWRCTL);
|
|
while (readl(DDRC_IPS_BASE_ADDR + DDRC_PSTAT) & 0x10001)
|
|
;
|
|
|
|
writel(0x20, DDRC_IPS_BASE_ADDR + DDRC_PWRCTL);
|
|
while ((readl(DDRC_IPS_BASE_ADDR + DDRC_STAT) & 0x23) != 0x23)
|
|
;
|
|
writel(readl(DDRC_IPS_BASE_ADDR + DDRC_PWRCTL) | 0x8,
|
|
DDRC_IPS_BASE_ADDR + DDRC_PWRCTL);
|
|
}
|
|
|
|
static inline void imx_ddrc_exit_self_refresh(void)
|
|
{
|
|
writel(0, DDRC_IPS_BASE_ADDR + DDRC_PWRCTL);
|
|
while ((readl(DDRC_IPS_BASE_ADDR + DDRC_STAT) & 0x3) == 0x3)
|
|
;
|
|
writel(readl(DDRC_IPS_BASE_ADDR + DDRC_PWRCTL) | 0x1,
|
|
DDRC_IPS_BASE_ADDR + DDRC_PWRCTL);
|
|
}
|
|
|
|
__secure void imx_system_resume(void)
|
|
{
|
|
unsigned int i, val, imr[4], entry;
|
|
|
|
entry = psci_get_target_pc(0);
|
|
imx_ddrc_exit_self_refresh();
|
|
imx_system_counter_resume();
|
|
imx_gpcv2_set_lpm_mode(RUN);
|
|
imx_gpcv2_set_cpu_power_gate_by_lpm(0, false);
|
|
imx_gpcv2_set_plat_power_gate_by_lpm(false);
|
|
imx_gpcv2_set_m_core_pgc(false, GPC_PGC_C0);
|
|
imx_gpcv2_set_m_core_pgc(false, GPC_PGC_SCU);
|
|
|
|
/*
|
|
* need to mask all interrupts in GPC before
|
|
* operating RBC configurations
|
|
*/
|
|
for (i = 0; i < 4; i++) {
|
|
imr[i] = readl(GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0 + i * 4);
|
|
writel(~0, GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0 + i * 4);
|
|
}
|
|
|
|
/* configure RBC enable bit */
|
|
val = readl(GPC_IPS_BASE_ADDR + GPC_SLPCR);
|
|
val &= ~BM_SLPCR_RBC_EN;
|
|
writel(val, GPC_IPS_BASE_ADDR + GPC_SLPCR);
|
|
|
|
/* configure RBC count */
|
|
val = readl(GPC_IPS_BASE_ADDR + GPC_SLPCR);
|
|
val &= ~BM_SLPCR_REG_BYPASS_COUNT;
|
|
writel(val, GPC_IPS_BASE_ADDR + GPC_SLPCR);
|
|
|
|
/*
|
|
* need to delay at least 2 cycles of CKIL(32K)
|
|
* due to hardware design requirement, which is
|
|
* ~61us, here we use 65us for safe
|
|
*/
|
|
imx_udelay(65);
|
|
|
|
/* restore GPC interrupt mask settings */
|
|
for (i = 0; i < 4; i++)
|
|
writel(imr[i], GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0 + i * 4);
|
|
|
|
/* initialize gic distributor */
|
|
gic_resume();
|
|
_nonsec_init();
|
|
|
|
/* save cpu0 entry */
|
|
psci_save(0, entry, 0);
|
|
psci_cpu_entry();
|
|
}
|
|
|
|
__secure void psci_system_suspend(u32 __always_unused function_id,
|
|
u32 ep, u32 context_id)
|
|
{
|
|
u32 gpc_mask[4];
|
|
u32 i, val;
|
|
|
|
psci_save(0, ep, context_id);
|
|
/* overwrite PLL to be controlled by low power mode */
|
|
imx_pll_suspend();
|
|
imx_system_counter_suspend();
|
|
/* set CA7 platform to enter STOP mode */
|
|
imx_gpcv2_set_lpm_mode(STOP);
|
|
/* enable core0/scu power down/up with low power mode */
|
|
imx_gpcv2_set_cpu_power_gate_by_lpm(0, true);
|
|
imx_gpcv2_set_plat_power_gate_by_lpm(true);
|
|
/* time slot settings for core0 and scu */
|
|
imx_gpcv2_set_slot_ack(0, CORE0_A7, false, false);
|
|
imx_gpcv2_set_slot_ack(1, SCU_A7, false, true);
|
|
imx_gpcv2_set_slot_ack(5, SCU_A7, true, false);
|
|
imx_gpcv2_set_slot_ack(6, CORE0_A7, true, true);
|
|
imx_gpcv2_set_m_core_pgc(true, GPC_PGC_C0);
|
|
imx_gpcv2_set_m_core_pgc(true, GPC_PGC_SCU);
|
|
psci_v7_flush_dcache_all();
|
|
|
|
imx_ddrc_enter_self_refresh();
|
|
|
|
/*
|
|
* e10133: ARM: Boot failure after A7 enters into
|
|
* low-power idle mode
|
|
*
|
|
* Workaround:
|
|
* If both CPU0/CPU1 are IDLE, the last IDLE CPU should
|
|
* disable GIC first, then REG_BYPASS_COUNTER is used
|
|
* to mask wakeup INT, and then execute “wfi” is used to
|
|
* bring the system into power down processing safely.
|
|
* The counter must be enabled as close to the “wfi” state
|
|
* as possible. The following equation can be used to
|
|
* determine the RBC counter value:
|
|
* RBC_COUNT * (1/32K RTC frequency) >=
|
|
* (46 + PDNSCR_SW + PDNSCR_SW2ISO ) ( 1/IPG_CLK frequency ).
|
|
*/
|
|
|
|
/* disable GIC distributor */
|
|
writel(0, GIC400_ARB_BASE_ADDR + GIC_DIST_OFFSET);
|
|
|
|
for (i = 0; i < 4; i++)
|
|
gpc_mask[i] = readl(GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0 + i * 4);
|
|
|
|
/*
|
|
* enable the RBC bypass counter here
|
|
* to hold off the interrupts. RBC counter
|
|
* = 8 (240us). With this setting, the latency
|
|
* from wakeup interrupt to ARM power up
|
|
* is ~250uS.
|
|
*/
|
|
val = readl(GPC_IPS_BASE_ADDR + GPC_SLPCR);
|
|
val &= ~(0x3f << 24);
|
|
val |= (0x8 << 24);
|
|
writel(val, GPC_IPS_BASE_ADDR + GPC_SLPCR);
|
|
|
|
/* enable the counter. */
|
|
val = readl(GPC_IPS_BASE_ADDR + GPC_SLPCR);
|
|
val |= (1 << 30);
|
|
writel(val, GPC_IPS_BASE_ADDR + GPC_SLPCR);
|
|
|
|
/* unmask all the GPC interrupts. */
|
|
for (i = 0; i < 4; i++)
|
|
writel(gpc_mask[i], GPC_IPS_BASE_ADDR + GPC_IMR1_CORE0 + i * 4);
|
|
|
|
/*
|
|
* now delay for a short while (3usec)
|
|
* ARM is at 1GHz at this point
|
|
* so a short loop should be enough.
|
|
* this delay is required to ensure that
|
|
* the RBC counter can start counting in
|
|
* case an interrupt is already pending
|
|
* or in case an interrupt arrives just
|
|
* as ARM is about to assert DSM_request.
|
|
*/
|
|
imx_udelay(3);
|
|
|
|
/* save resume entry and sp in CPU0 GPR registers */
|
|
asm volatile("mov %0, sp" : "=r" (val));
|
|
writel((u32)psci_system_resume, SRC_BASE_ADDR + SRC_GPR1_MX7D);
|
|
writel(val, SRC_BASE_ADDR + SRC_GPR2_MX7D);
|
|
|
|
/* sleep */
|
|
while (1)
|
|
wfi();
|
|
}
|