soc/arm/nuvoton_npcx/common/power.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2021 Nuvoton Technology Corporation.
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 /**
  * @file
  * @brief Nuvoton NPCX power management driver
  *
  * This file contains the drivers of NPCX Power Manager Modules that improves
  * the efficiency of ec operation by adjusting the chip’s power consumption to
  * the level of activity required by the application. The following table
  * summarizes the main properties of the various power states and shows the
  * activity levels of the various clocks while in these power states.
  *
  * +--------------------------------------------------------------------------+
  * | Power State | LFCLK | HFCLK | APB/AHB |  Core  | RAM/Regs   | VCC | VSBY |
  * |--------------------------------------------------------------------------|
  * | Active      | On    | On    | On      | Active | Active     | On  | On   |
  * | Idle (wfi)  | On    | On    | On      | Wait   | Active     | On  | On   |
  * | Sleep       | On    | On    | Stop    | Stop   | Preserved  | On  | On   |
  * | Deep Sleep  | On    | Stop  | Stop    | Stop   | Power Down | On  | On   |
  * | Stand-By    | Off   | Off   | Off     | Off    | Off        | Off | On   |
  * +--------------------------------------------------------------------------+
  *
  * LFCLK - Low-Frequency Clock. Its frequency is fixed to 32kHz.
  * HFCLK - High-Frequency (PLL) Clock. Its frequency is configured to OFMCLK.
  *
  * Based on the following criteria:
  *
  * - A delay of 'Instant' wake-up from 'Deep Sleep' is 20 us.
  * - A delay of 'Standard' wake-up from 'Deep Sleep' is 3.43 ms.
  * - Max residency time in Deep Sleep for 'Instant' wake-up is 200 ms
  * - Min Residency time in Deep Sleep for 'Instant' wake-up is 61 us
  * - The unit to determine power state residency policy is tick.
  *
  * this driver implements one power state, PM_STATE_SUSPEND_TO_IDLE, with
  * two sub-states for power management system.
  * Sub-state 0 - "Deep Sleep" mode with “Instant” wake-up if residency time
  *               is greater or equal to 1 ms
  * Sub-state 1 - "Deep Sleep" mode with "Standard" wake-up if residency time
  *               is greater or equal to 201 ms
  *
  * INCLUDE FILES: soc_clock.h
  */

 #include <zephyr/arch/arm/aarch32/cortex_m/cmsis.h>
 #include <zephyr/kernel.h>
 #include <zephyr/drivers/gpio.h>
 #include <zephyr/drivers/espi.h>
 #include <zephyr/pm/pm.h>
 #include <soc.h>

 #include "soc_gpio.h"
 #include "soc_host.h"
 #include "soc_power.h"

 #include <zephyr/logging/log.h>
 LOG_MODULE_DECLARE(soc, CONFIG_SOC_LOG_LEVEL);

 /* The steps that npcx ec enters sleep/deep mode and leaves it. */
 #define NPCX_ENTER_SYSTEM_SLEEP() ({                                           \
 	__asm__ volatile (                                                     \
 	"push {r0-r5}\n"     /* Save the registers used for delay */           \
 	"wfi\n"              /* Enter sleep mode after receiving wfi */        \
 	"ldm %0, {r0-r5}\n"  /* Add a delay before instructions fetching */    \
 	"pop {r0-r5}\n"      /* Restore the registers used for delay */        \
 	"isb\n"              /* Flush the cpu pipelines */                     \
 	:: "r" (CONFIG_SRAM_BASE_ADDRESS)); /* A valid addr used for delay */  \
 	})

 /* Variables for tracing */
 static uint32_t cnt_sleep0;
 static uint32_t cnt_sleep1;

 /* Supported sleep mode in npcx series */
 enum {
 	NPCX_SLEEP,
 	NPCX_DEEP_SLEEP,
 };

 /* Supported wake-up mode in npcx series */
 enum {
 	NPCX_INSTANT_WAKE_UP,
 	NPCX_STANDARD_WAKE_UP,
 };

 #define NODE_LEAKAGE_IO DT_INST(0, nuvoton_npcx_leakage_io)
 #if DT_NODE_HAS_PROP(NODE_LEAKAGE_IO, leak_gpios)
 struct npcx_leak_gpio {
 	const struct device *gpio;
 	gpio_pin_t pin;
 };

 #define NPCX_POWER_LEAKAGE_IO_INIT(node_id, prop, idx)	{		\
 	.gpio = DEVICE_DT_GET(DT_GPIO_CTLR_BY_IDX(node_id, prop, idx)),	\
 	.pin = DT_GPIO_PIN_BY_IDX(node_id, prop, idx),			\
 },

 /*
  * Get io array which have leakage current from 'leak-gpios' property of
  * 'power_leakage_io' DT node. User can overwrite this prop. at board DT file to
  * save power consumption when ec enter deep sleep.
  *
  * &power_leakage_io {
  *       leak-gpios = <&gpio0 0 0
  *                    &gpiob 1 0>;
  * };
  */
 static struct npcx_leak_gpio leak_gpios[] = {
 	DT_FOREACH_PROP_ELEM(NODE_LEAKAGE_IO, leak_gpios, NPCX_POWER_LEAKAGE_IO_INIT)
 };

 static void npcx_power_suspend_leak_io_pads(void)
 {
 	for (int i = 0; i < ARRAY_SIZE(leak_gpios); i++) {
 		npcx_gpio_disable_io_pads(leak_gpios[i].gpio, leak_gpios[i].pin);
 	}
 }

 static void npcx_power_restore_leak_io_pads(void)
 {
 	for (int i = 0; i < ARRAY_SIZE(leak_gpios); i++) {
 		npcx_gpio_enable_io_pads(leak_gpios[i].gpio, leak_gpios[i].pin);
 	}
 }
 #else
 void npcx_power_suspend_leak_io_pads(void)
 {
 	/* do nothing */
 }

 void npcx_power_restore_leak_io_pads(void)
 {
 	/* do nothing */
 }
 #endif /* DT_NODE_HAS_PROP(NODE_LEAKAGE_IO, leak_gpios) */

 static void npcx_power_enter_system_sleep(int slp_mode, int wk_mode)
 {
 	/* Disable interrupts */
 	__disable_irq();

 	/*
 	 * Disable priority mask temporarily to make sure that wake-up events
 	 * are visible to the WFI instruction.
 	 */
 	__set_BASEPRI(0);

 	/* Configure sleep/deep sleep settings in clock control module. */
 	npcx_clock_control_turn_on_system_sleep(slp_mode == NPCX_DEEP_SLEEP,
 					wk_mode == NPCX_INSTANT_WAKE_UP);

 	/*
 	 * Disable the connection between io pads that have leakage current and
 	 * input buffer to save power consumption.
 	 */
 	npcx_power_suspend_leak_io_pads();

 	/* Turn on eSPI/LPC host access wake-up interrupt. */
 	if (IS_ENABLED(CONFIG_ESPI_NPCX)) {
 		npcx_host_enable_access_interrupt();
 	}

 	/* Turn on UART RX wake-up interrupt. */
 	if (IS_ENABLED(CONFIG_UART_NPCX)) {
 		npcx_uart_enable_access_interrupt();
 	}

 	/*
 	 * Capture the reading of low-freq timer for compensation before ec
 	 * enters system sleep mode.
 	 */
 	npcx_clock_capture_low_freq_timer();

 	/* Enter system sleep mode */
 	NPCX_ENTER_SYSTEM_SLEEP();

 	/*
 	 * Compensate system timer by the elapsed time of low-freq timer during
 	 * system sleep mode.
 	 */
 	npcx_clock_compensate_system_timer();

 	/* Turn off eSPI/LPC host access wake-up interrupt. */
 	if (IS_ENABLED(CONFIG_ESPI_NPCX)) {
 		npcx_host_disable_access_interrupt();
 	}

 	/*
 	 * Restore the connection between io pads that have leakage current and
 	 * input buffer.
 	 */
 	npcx_power_restore_leak_io_pads();

 	/* Turn off system sleep mode. */
 	npcx_clock_control_turn_off_system_sleep();
 }

 /* Invoke when enter "Suspend/Low Power" mode. */
 __weak void pm_state_set(enum pm_state state, uint8_t substate_id)
 {
 	if (state != PM_STATE_SUSPEND_TO_IDLE) {
 		LOG_DBG("Unsupported power state %u", state);
 	} else {
 		switch (substate_id) {
 		case 0:	/* Sub-state 0: Deep sleep with instant wake-up */
 			npcx_power_enter_system_sleep(NPCX_DEEP_SLEEP,
 							NPCX_INSTANT_WAKE_UP);
 			if (IS_ENABLED(CONFIG_NPCX_PM_TRACE)) {
 				cnt_sleep0++;
 			}
 			break;
 		case 1:	/* Sub-state 1: Deep sleep with standard wake-up */
 			npcx_power_enter_system_sleep(NPCX_DEEP_SLEEP,
 							NPCX_STANDARD_WAKE_UP);
 			if (IS_ENABLED(CONFIG_NPCX_PM_TRACE)) {
 				cnt_sleep1++;
 			}
 			break;
 		default:
 			LOG_DBG("Unsupported power substate-id %u",
 				substate_id);
 			break;
 		}
 	}
 }

 /* Handle soc specific activity after exiting "Suspend/Low Power" mode. */
 __weak void pm_state_exit_post_ops(enum pm_state state, uint8_t substate_id)
 {
 	if (state != PM_STATE_SUSPEND_TO_IDLE) {
 		LOG_DBG("Unsupported power state %u", state);
 	} else {
 		switch (substate_id) {
 		case 0:	/* Sub-state 0: Deep sleep with instant wake-up */
 			/* Restore interrupts */
 			__enable_irq();
 			break;
 		case 1:	/* Sub-state 1: Deep sleep with standard wake-up */
 			/* Restore interrupts */
 			__enable_irq();
 			break;
 		default:
 			LOG_DBG("Unsupported power substate-id %u",
 				substate_id);
 			break;
 		}
 	}

 	if (IS_ENABLED(CONFIG_NPCX_PM_TRACE)) {
 		LOG_DBG("sleep: %d, deep sleep: %d", cnt_sleep0, cnt_sleep1);
 		LOG_INF("total ticks in sleep: %lld",
 			npcx_clock_get_sleep_ticks());
 	}
 }
	/*
	* Copyright (c) 2021 Nuvoton Technology Corporation.
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	/**
	* @file
	* @brief Nuvoton NPCX power management driver
	*
	* This file contains the drivers of NPCX Power Manager Modules that improves
	* the efficiency of ec operation by adjusting the chip’s power consumption to
	* the level of activity required by the application. The following table
	* summarizes the main properties of the various power states and shows the
	* activity levels of the various clocks while in these power states.
	*
	* +--------------------------------------------------------------------------+
	* \| Power State \| LFCLK \| HFCLK \| APB/AHB \| Core \| RAM/Regs \| VCC \| VSBY \|
	* \|--------------------------------------------------------------------------\|
	* \| Active \| On \| On \| On \| Active \| Active \| On \| On \|
	* \| Idle (wfi) \| On \| On \| On \| Wait \| Active \| On \| On \|
	* \| Sleep \| On \| On \| Stop \| Stop \| Preserved \| On \| On \|
	* \| Deep Sleep \| On \| Stop \| Stop \| Stop \| Power Down \| On \| On \|
	* \| Stand-By \| Off \| Off \| Off \| Off \| Off \| Off \| On \|
	* +--------------------------------------------------------------------------+
	*
	* LFCLK - Low-Frequency Clock. Its frequency is fixed to 32kHz.
	* HFCLK - High-Frequency (PLL) Clock. Its frequency is configured to OFMCLK.
	*
	* Based on the following criteria:
	*
	* - A delay of 'Instant' wake-up from 'Deep Sleep' is 20 us.
	* - A delay of 'Standard' wake-up from 'Deep Sleep' is 3.43 ms.
	* - Max residency time in Deep Sleep for 'Instant' wake-up is 200 ms
	* - Min Residency time in Deep Sleep for 'Instant' wake-up is 61 us
	* - The unit to determine power state residency policy is tick.
	*
	* this driver implements one power state, PM_STATE_SUSPEND_TO_IDLE, with
	* two sub-states for power management system.
	* Sub-state 0 - "Deep Sleep" mode with “Instant” wake-up if residency time
	* is greater or equal to 1 ms
	* Sub-state 1 - "Deep Sleep" mode with "Standard" wake-up if residency time
	* is greater or equal to 201 ms
	*
	* INCLUDE FILES: soc_clock.h
	*/

	#include <zephyr/arch/arm/aarch32/cortex_m/cmsis.h>
	#include <zephyr/kernel.h>
	#include <zephyr/drivers/gpio.h>
	#include <zephyr/drivers/espi.h>
	#include <zephyr/pm/pm.h>
	#include <soc.h>

	#include "soc_gpio.h"
	#include "soc_host.h"
	#include "soc_power.h"

	#include <zephyr/logging/log.h>
	LOG_MODULE_DECLARE(soc, CONFIG_SOC_LOG_LEVEL);

	/* The steps that npcx ec enters sleep/deep mode and leaves it. */
	#define NPCX_ENTER_SYSTEM_SLEEP() ({ \
	__asm__ volatile ( \
	"push {r0-r5}\n" /* Save the registers used for delay */ \
	"wfi\n" /* Enter sleep mode after receiving wfi */ \
	"ldm %0, {r0-r5}\n" /* Add a delay before instructions fetching */ \
	"pop {r0-r5}\n" /* Restore the registers used for delay */ \
	"isb\n" /* Flush the cpu pipelines */ \
	:: "r" (CONFIG_SRAM_BASE_ADDRESS)); /* A valid addr used for delay */ \
	})

	/* Variables for tracing */
	static uint32_t cnt_sleep0;
	static uint32_t cnt_sleep1;

	/* Supported sleep mode in npcx series */
	enum {
	NPCX_SLEEP,
	NPCX_DEEP_SLEEP,
	};

	/* Supported wake-up mode in npcx series */
	enum {
	NPCX_INSTANT_WAKE_UP,
	NPCX_STANDARD_WAKE_UP,
	};

	#define NODE_LEAKAGE_IO DT_INST(0, nuvoton_npcx_leakage_io)
	#if DT_NODE_HAS_PROP(NODE_LEAKAGE_IO, leak_gpios)
	struct npcx_leak_gpio {
	const struct device *gpio;
	gpio_pin_t pin;
	};

	#define NPCX_POWER_LEAKAGE_IO_INIT(node_id, prop, idx) { \
	.gpio = DEVICE_DT_GET(DT_GPIO_CTLR_BY_IDX(node_id, prop, idx)), \
	.pin = DT_GPIO_PIN_BY_IDX(node_id, prop, idx), \
	},

	/*
	* Get io array which have leakage current from 'leak-gpios' property of
	* 'power_leakage_io' DT node. User can overwrite this prop. at board DT file to
	* save power consumption when ec enter deep sleep.
	*
	* &power_leakage_io {
	* leak-gpios = <&gpio0 0 0
	* &gpiob 1 0>;
	* };
	*/
	static struct npcx_leak_gpio leak_gpios[] = {
	DT_FOREACH_PROP_ELEM(NODE_LEAKAGE_IO, leak_gpios, NPCX_POWER_LEAKAGE_IO_INIT)
	};

	static void npcx_power_suspend_leak_io_pads(void)
	{
	for (int i = 0; i < ARRAY_SIZE(leak_gpios); i++) {
	npcx_gpio_disable_io_pads(leak_gpios[i].gpio, leak_gpios[i].pin);
	}
	}

	static void npcx_power_restore_leak_io_pads(void)
	{
	for (int i = 0; i < ARRAY_SIZE(leak_gpios); i++) {
	npcx_gpio_enable_io_pads(leak_gpios[i].gpio, leak_gpios[i].pin);
	}
	}
	#else
	void npcx_power_suspend_leak_io_pads(void)
	{
	/* do nothing */
	}

	void npcx_power_restore_leak_io_pads(void)
	{
	/* do nothing */
	}
	#endif /* DT_NODE_HAS_PROP(NODE_LEAKAGE_IO, leak_gpios) */

	static void npcx_power_enter_system_sleep(int slp_mode, int wk_mode)
	{
	/* Disable interrupts */
	__disable_irq();

	/*
	* Disable priority mask temporarily to make sure that wake-up events
	* are visible to the WFI instruction.
	*/
	__set_BASEPRI(0);

	/* Configure sleep/deep sleep settings in clock control module. */
	npcx_clock_control_turn_on_system_sleep(slp_mode == NPCX_DEEP_SLEEP,
	wk_mode == NPCX_INSTANT_WAKE_UP);

	/*
	* Disable the connection between io pads that have leakage current and
	* input buffer to save power consumption.
	*/
	npcx_power_suspend_leak_io_pads();

	/* Turn on eSPI/LPC host access wake-up interrupt. */
	if (IS_ENABLED(CONFIG_ESPI_NPCX)) {
	npcx_host_enable_access_interrupt();
	}

	/* Turn on UART RX wake-up interrupt. */
	if (IS_ENABLED(CONFIG_UART_NPCX)) {
	npcx_uart_enable_access_interrupt();
	}

	/*
	* Capture the reading of low-freq timer for compensation before ec
	* enters system sleep mode.
	*/
	npcx_clock_capture_low_freq_timer();

	/* Enter system sleep mode */
	NPCX_ENTER_SYSTEM_SLEEP();

	/*
	* Compensate system timer by the elapsed time of low-freq timer during
	* system sleep mode.
	*/
	npcx_clock_compensate_system_timer();

	/* Turn off eSPI/LPC host access wake-up interrupt. */
	if (IS_ENABLED(CONFIG_ESPI_NPCX)) {
	npcx_host_disable_access_interrupt();
	}

	/*
	* Restore the connection between io pads that have leakage current and
	* input buffer.
	*/
	npcx_power_restore_leak_io_pads();

	/* Turn off system sleep mode. */
	npcx_clock_control_turn_off_system_sleep();
	}

	/* Invoke when enter "Suspend/Low Power" mode. */
	__weak void pm_state_set(enum pm_state state, uint8_t substate_id)
	{
	if (state != PM_STATE_SUSPEND_TO_IDLE) {
	LOG_DBG("Unsupported power state %u", state);
	} else {
	switch (substate_id) {
	case 0: /* Sub-state 0: Deep sleep with instant wake-up */
	npcx_power_enter_system_sleep(NPCX_DEEP_SLEEP,
	NPCX_INSTANT_WAKE_UP);
	if (IS_ENABLED(CONFIG_NPCX_PM_TRACE)) {
	cnt_sleep0++;
	}
	break;
	case 1: /* Sub-state 1: Deep sleep with standard wake-up */
	npcx_power_enter_system_sleep(NPCX_DEEP_SLEEP,
	NPCX_STANDARD_WAKE_UP);
	if (IS_ENABLED(CONFIG_NPCX_PM_TRACE)) {
	cnt_sleep1++;
	}
	break;
	default:
	LOG_DBG("Unsupported power substate-id %u",
	substate_id);
	break;
	}
	}
	}

	/* Handle soc specific activity after exiting "Suspend/Low Power" mode. */
	__weak void pm_state_exit_post_ops(enum pm_state state, uint8_t substate_id)
	{
	if (state != PM_STATE_SUSPEND_TO_IDLE) {
	LOG_DBG("Unsupported power state %u", state);
	} else {
	switch (substate_id) {
	case 0: /* Sub-state 0: Deep sleep with instant wake-up */
	/* Restore interrupts */
	__enable_irq();
	break;
	case 1: /* Sub-state 1: Deep sleep with standard wake-up */
	/* Restore interrupts */
	__enable_irq();
	break;
	default:
	LOG_DBG("Unsupported power substate-id %u",
	substate_id);
	break;
	}
	}

	if (IS_ENABLED(CONFIG_NPCX_PM_TRACE)) {
	LOG_DBG("sleep: %d, deep sleep: %d", cnt_sleep0, cnt_sleep1);
	LOG_INF("total ticks in sleep: %lld",
	npcx_clock_get_sleep_ticks());
	}
	}