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/*
* Copyright (c) 2016, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <assert.h>
#include <errno.h>
#include <platform_def.h>
#include <arch_helpers.h>
#include <common/debug.h>
#include <drivers/delay_timer.h>
#include <lib/mmio.h>
#include <plat/common/platform.h>
#include <plat_private.h>
#include <pmu.h>
#include <pmu_com.h>
#include <rk3288_def.h>
#include <secure.h>
#include <soc.h>
DEFINE_BAKERY_LOCK(rockchip_pd_lock);
static uint32_t cpu_warm_boot_addr;
static uint32_t store_pmu_pwrmode_con;
static uint32_t store_sgrf_soc_con0;
static uint32_t store_sgrf_cpu_con0;
/* These enum are variants of low power mode */
enum {
ROCKCHIP_ARM_OFF_LOGIC_NORMAL = 0,
ROCKCHIP_ARM_OFF_LOGIC_DEEP = 1,
};
static inline int rk3288_pmu_bus_idle(uint32_t req, uint32_t idle)
{
uint32_t mask = BIT(req);
uint32_t idle_mask = 0;
uint32_t idle_target = 0;
uint32_t val;
uint32_t wait_cnt = 0;
switch (req) {
case bus_ide_req_gpu:
idle_mask = BIT(pmu_idle_ack_gpu) | BIT(pmu_idle_gpu);
idle_target = (idle << pmu_idle_ack_gpu) |
(idle << pmu_idle_gpu);
break;
case bus_ide_req_core:
idle_mask = BIT(pmu_idle_ack_core) | BIT(pmu_idle_core);
idle_target = (idle << pmu_idle_ack_core) |
(idle << pmu_idle_core);
break;
case bus_ide_req_cpup:
idle_mask = BIT(pmu_idle_ack_cpup) | BIT(pmu_idle_cpup);
idle_target = (idle << pmu_idle_ack_cpup) |
(idle << pmu_idle_cpup);
break;
case bus_ide_req_bus:
idle_mask = BIT(pmu_idle_ack_bus) | BIT(pmu_idle_bus);
idle_target = (idle << pmu_idle_ack_bus) |
(idle << pmu_idle_bus);
break;
case bus_ide_req_dma:
idle_mask = BIT(pmu_idle_ack_dma) | BIT(pmu_idle_dma);
idle_target = (idle << pmu_idle_ack_dma) |
(idle << pmu_idle_dma);
break;
case bus_ide_req_peri:
idle_mask = BIT(pmu_idle_ack_peri) | BIT(pmu_idle_peri);
idle_target = (idle << pmu_idle_ack_peri) |
(idle << pmu_idle_peri);
break;
case bus_ide_req_video:
idle_mask = BIT(pmu_idle_ack_video) | BIT(pmu_idle_video);
idle_target = (idle << pmu_idle_ack_video) |
(idle << pmu_idle_video);
break;
case bus_ide_req_hevc:
idle_mask = BIT(pmu_idle_ack_hevc) | BIT(pmu_idle_hevc);
idle_target = (idle << pmu_idle_ack_hevc) |
(idle << pmu_idle_hevc);
break;
case bus_ide_req_vio:
idle_mask = BIT(pmu_idle_ack_vio) | BIT(pmu_idle_vio);
idle_target = (pmu_idle_ack_vio) |
(idle << pmu_idle_vio);
break;
case bus_ide_req_alive:
idle_mask = BIT(pmu_idle_ack_alive) | BIT(pmu_idle_alive);
idle_target = (idle << pmu_idle_ack_alive) |
(idle << pmu_idle_alive);
break;
default:
ERROR("%s: Unsupported the idle request\n", __func__);
break;
}
val = mmio_read_32(PMU_BASE + PMU_BUS_IDE_REQ);
if (idle)
val |= mask;
else
val &= ~mask;
mmio_write_32(PMU_BASE + PMU_BUS_IDE_REQ, val);
while ((mmio_read_32(PMU_BASE +
PMU_BUS_IDE_ST) & idle_mask) != idle_target) {
wait_cnt++;
if (!(wait_cnt % MAX_WAIT_CONUT))
WARN("%s:st=%x(%x)\n", __func__,
mmio_read_32(PMU_BASE + PMU_BUS_IDE_ST),
idle_mask);
}
return 0;
}
static bool rk3288_sleep_disable_osc(void)
{
static const uint32_t reg_offset[] = { GRF_UOC0_CON0, GRF_UOC1_CON0,
GRF_UOC2_CON0 };
uint32_t reg, i;
/*
* if any usb phy is still on(GRF_SIDDQ==0), that means we need the
* function of usb wakeup, so do not switch to 32khz, since the usb phy
* clk does not connect to 32khz osc
*/
for (i = 0; i < ARRAY_SIZE(reg_offset); i++) {
reg = mmio_read_32(GRF_BASE + reg_offset[i]);
if (!(reg & GRF_SIDDQ))
return false;
}
return true;
}
static void pmu_set_sleep_mode(int level)
{
uint32_t mode_set, mode_set1;
bool osc_disable = rk3288_sleep_disable_osc();
mode_set = BIT(pmu_mode_glb_int_dis) | BIT(pmu_mode_l2_flush_en) |
BIT(pmu_mode_sref0_enter) | BIT(pmu_mode_sref1_enter) |
BIT(pmu_mode_ddrc0_gt) | BIT(pmu_mode_ddrc1_gt) |
BIT(pmu_mode_en) | BIT(pmu_mode_chip_pd) |
BIT(pmu_mode_scu_pd);
mode_set1 = BIT(pmu_mode_clr_core) | BIT(pmu_mode_clr_cpup);
if (level == ROCKCHIP_ARM_OFF_LOGIC_DEEP) {
/* arm off, logic deep sleep */
mode_set |= BIT(pmu_mode_bus_pd) | BIT(pmu_mode_pmu_use_lf) |
BIT(pmu_mode_ddrio1_ret) |
BIT(pmu_mode_ddrio0_ret) |
BIT(pmu_mode_pmu_alive_use_lf) |
BIT(pmu_mode_pll_pd);
if (osc_disable)
mode_set |= BIT(pmu_mode_osc_dis);
mode_set1 |= BIT(pmu_mode_clr_alive) | BIT(pmu_mode_clr_bus) |
BIT(pmu_mode_clr_peri) | BIT(pmu_mode_clr_dma);
mmio_write_32(PMU_BASE + PMU_WAKEUP_CFG1,
pmu_armint_wakeup_en);
/*
* In deep suspend we use PMU_PMU_USE_LF to let the rk3288
* switch its main clock supply to the alternative 32kHz
* source. Therefore set 30ms on a 32kHz clock for pmic
* stabilization. Similar 30ms on 24MHz for the other
* mode below.
*/
mmio_write_32(PMU_BASE + PMU_STABL_CNT, 32 * 30);
/* only wait for stabilization, if we turned the osc off */
mmio_write_32(PMU_BASE + PMU_OSC_CNT,
osc_disable ? 32 * 30 : 0);
} else {
/*
* arm off, logic normal
* if pmu_clk_core_src_gate_en is not set,
* wakeup will be error
*/
mode_set |= BIT(pmu_mode_core_src_gt);
mmio_write_32(PMU_BASE + PMU_WAKEUP_CFG1,
BIT(pmu_armint_wakeup_en) |
BIT(pmu_gpioint_wakeup_en));
/* 30ms on a 24MHz clock for pmic stabilization */
mmio_write_32(PMU_BASE + PMU_STABL_CNT, 24000 * 30);
/* oscillator is still running, so no need to wait */
mmio_write_32(PMU_BASE + PMU_OSC_CNT, 0);
}
mmio_write_32(PMU_BASE + PMU_PWRMODE_CON, mode_set);
mmio_write_32(PMU_BASE + PMU_PWRMODE_CON1, mode_set1);
}
static int cpus_power_domain_on(uint32_t cpu_id)
{
uint32_t cpu_pd;
cpu_pd = PD_CPU0 + cpu_id;
/* if the core has been on, power it off first */
if (pmu_power_domain_st(cpu_pd) == pmu_pd_on) {
/* put core in reset - some sort of A12/A17 bug */
mmio_write_32(CRU_BASE + CRU_SOFTRSTS_CON(0),
BIT(cpu_id) | (BIT(cpu_id) << 16));
pmu_power_domain_ctr(cpu_pd, pmu_pd_off);
}
pmu_power_domain_ctr(cpu_pd, pmu_pd_on);
/* pull core out of reset */
mmio_write_32(CRU_BASE + CRU_SOFTRSTS_CON(0), BIT(cpu_id) << 16);
return 0;
}
static int cpus_power_domain_off(uint32_t cpu_id)
{
uint32_t cpu_pd = PD_CPU0 + cpu_id;
if (pmu_power_domain_st(cpu_pd) == pmu_pd_off)
return 0;
if (check_cpu_wfie(cpu_id, CKECK_WFEI_MSK))
return -EINVAL;
/* put core in reset - some sort of A12/A17 bug */
mmio_write_32(CRU_BASE + CRU_SOFTRSTS_CON(0),
BIT(cpu_id) | (BIT(cpu_id) << 16));
pmu_power_domain_ctr(cpu_pd, pmu_pd_off);
return 0;
}
static void nonboot_cpus_off(void)
{
uint32_t boot_cpu, cpu;
boot_cpu = plat_my_core_pos();
boot_cpu = MPIDR_AFFLVL0_VAL(read_mpidr());
/* turn off noboot cpus */
for (cpu = 0; cpu < PLATFORM_CORE_COUNT; cpu++) {
if (cpu == boot_cpu)
continue;
cpus_power_domain_off(cpu);
}
}
void sram_save(void)
{
/* TODO: support the sdram save for rk3288 SoCs*/
}
void sram_restore(void)
{
/* TODO: support the sdram restore for rk3288 SoCs */
}
int rockchip_soc_cores_pwr_dm_on(unsigned long mpidr, uint64_t entrypoint)
{
uint32_t cpu_id = plat_core_pos_by_mpidr(mpidr);
assert(cpu_id < PLATFORM_CORE_COUNT);
assert(cpuson_flags[cpu_id] == 0);
cpuson_flags[cpu_id] = PMU_CPU_HOTPLUG;
cpuson_entry_point[cpu_id] = entrypoint;
dsb();
cpus_power_domain_on(cpu_id);
/*
* We communicate with the bootrom to active the cpus other
* than cpu0, after a blob of initialize code, they will
* stay at wfe state, once they are actived, they will check
* the mailbox:
* sram_base_addr + 4: 0xdeadbeaf
* sram_base_addr + 8: start address for pc
* The cpu0 need to wait the other cpus other than cpu0 entering
* the wfe state.The wait time is affected by many aspects.
* (e.g: cpu frequency, bootrom frequency, sram frequency, ...)
*/
mdelay(1); /* ensure the cpus other than cpu0 to startup */
/* tell the bootrom mailbox where to start from */
mmio_write_32(SRAM_BASE + 8, cpu_warm_boot_addr);
mmio_write_32(SRAM_BASE + 4, 0xDEADBEAF);
dsb();
sev();
return 0;
}
int rockchip_soc_cores_pwr_dm_on_finish(void)
{
return 0;
}
int rockchip_soc_sys_pwr_dm_resume(void)
{
mmio_write_32(PMU_BASE + PMU_PWRMODE_CON, store_pmu_pwrmode_con);
mmio_write_32(SGRF_BASE + SGRF_CPU_CON(0),
store_sgrf_cpu_con0 | SGRF_DAPDEVICE_MSK);
/* disable fastboot mode */
mmio_write_32(SGRF_BASE + SGRF_SOC_CON(0),
store_sgrf_soc_con0 | SGRF_FAST_BOOT_DIS);
secure_watchdog_ungate();
clk_gate_con_restore();
clk_sel_con_restore();
clk_plls_resume();
secure_gic_init();
plat_rockchip_gic_init();
return 0;
}
int rockchip_soc_sys_pwr_dm_suspend(void)
{
nonboot_cpus_off();
store_sgrf_cpu_con0 = mmio_read_32(SGRF_BASE + SGRF_CPU_CON(0));
store_sgrf_soc_con0 = mmio_read_32(SGRF_BASE + SGRF_SOC_CON(0));
store_pmu_pwrmode_con = mmio_read_32(PMU_BASE + PMU_PWRMODE_CON);
/* save clk-gates and ungate all for suspend */
clk_gate_con_save();
clk_gate_con_disable();
clk_sel_con_save();
pmu_set_sleep_mode(ROCKCHIP_ARM_OFF_LOGIC_NORMAL);
clk_plls_suspend();
secure_watchdog_gate();
/*
* The dapswjdp can not auto reset before resume, that cause it may
* access some illegal address during resume. Let's disable it before
* suspend, and the MASKROM will enable it back.
*/
mmio_write_32(SGRF_BASE + SGRF_CPU_CON(0), SGRF_DAPDEVICE_MSK);
/*
* SGRF_FAST_BOOT_EN - system to boot from FAST_BOOT_ADDR
*/
mmio_write_32(SGRF_BASE + SGRF_SOC_CON(0), SGRF_FAST_BOOT_ENA);
/* boot-address of resuming system is from this register value */
mmio_write_32(SGRF_BASE + SGRF_FAST_BOOT_ADDR,
(uint32_t)&pmu_cpuson_entrypoint);
/* flush all caches - otherwise we might loose the resume address */
dcsw_op_all(DC_OP_CISW);
return 0;
}
void rockchip_plat_mmu_svc_mon(void)
{
}
void plat_rockchip_pmu_init(void)
{
uint32_t cpu;
cpu_warm_boot_addr = (uint32_t)platform_cpu_warmboot;
/* on boot all power-domains are on */
for (cpu = 0; cpu < PLATFORM_CORE_COUNT; cpu++)
cpuson_flags[cpu] = pmu_pd_on;
nonboot_cpus_off();
}
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