subsys/emul/espi/emul_espi_host.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright 2020 Google LLC
  *
  * SPDX-License-Identifier: Apache-2.0
  *
  * Emulator for the generic eSPI Host. This supports basic
  * host operations.
  */

 #define DT_DRV_COMPAT zephyr_espi_emul_espi_host

 #define LOG_LEVEL CONFIG_ESPI_LOG_LEVEL
 #include <zephyr/logging/log.h>
 LOG_MODULE_REGISTER(espi_host);

 #include <zephyr/device.h>
 #include <zephyr/drivers/emul.h>
 #include <zephyr/drivers/espi.h>
 #include <zephyr/drivers/espi_emul.h>

 /** Data about the virtual wire */
 struct vw_data {
 	/* Virtual wire signal */
 	enum espi_vwire_signal sig;
 	/* The level(state) of the virtual wire */
 	uint8_t level;
 	/* The direction of the virtual wire. Possible values:
 	 * ESPI_MASTER_TO_SLAVE or ESPI_SLAVE_TO_MASTER */
 	uint8_t dir;
 };

 /** Declare the default state of virtual wires */
 const static struct vw_data vw_state_default[] = {
 	{ ESPI_VWIRE_SIGNAL_SLP_S3, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_SLP_S4, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_SLP_S5, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_SUS_STAT, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_PLTRST, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_OOB_RST_WARN, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_OOB_RST_ACK, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_WAKE, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_PME, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_SLV_BOOT_DONE, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_ERR_FATAL, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_ERR_NON_FATAL, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_SLV_BOOT_STS, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_SCI, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_SMI, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_RST_CPU_INIT, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_HOST_RST_ACK, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_HOST_RST_WARN, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_SUS_ACK, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_DNX_ACK, 0, ESPI_SLAVE_TO_MASTER },
 	{ ESPI_VWIRE_SIGNAL_SUS_WARN, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_SUS_PWRDN_ACK, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_SLP_A, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_SLP_LAN, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_SLP_WLAN, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_HOST_C10, 0, ESPI_MASTER_TO_SLAVE },
 	{ ESPI_VWIRE_SIGNAL_DNX_WARN, 0, ESPI_MASTER_TO_SLAVE },
 };

 #define NUMBER_OF_VWIRES ARRAY_SIZE(vw_state_default)

 /** Run-time data used by the emulator */
 struct espi_host_emul_data {
 	/** eSPI emulator detail */
 	struct espi_emul emul;
 	/** eSPI controller device */
 	const struct device *espi;
 	/** Virtual Wires states, for one slave only.
 	 *  With multi-slaves config, the states should be saved per slave */
 	struct vw_data vw_state[NUMBER_OF_VWIRES];
 #ifdef CONFIG_ESPI_PERIPHERAL_ACPI_SHM_REGION
 	/** ACPI Shared memory. */
 	uint8_t shm_acpi_mmap[CONFIG_EMUL_ESPI_HOST_ACPI_SHM_REGION_SIZE];
 #endif
 };

 /** Static configuration for the emulator */
 struct espi_host_emul_cfg {
 	/** Label of the emulated AP*/
 	const char *label;
 	/* eSPI chip-select of the emulated device */
 	uint16_t chipsel;
 };

 /**
  * Initialize the state of virtual wires to default based on
  * the vw_state_default array.
  *
  * @param data Host emulator data with the vwire array
  */
 static void emul_host_init_vw_state(struct espi_host_emul_data *data)
 {
 	unsigned i;

 	for (i = 0; i < NUMBER_OF_VWIRES; i++) {
 		data->vw_state[i] = vw_state_default[i];
 	}
 	return;
 }

 /**
  * Find a virtual wire in the array placed in the host data.
  *
  * @param data Host emulator data with the vwire array
  * @param vw Virtual wire signal to be found
  * @return index in the array
  * @return -1 if not found
  */
 static int emul_host_find_index(struct espi_host_emul_data *data,
 				enum espi_vwire_signal vw)
 {
 	int idx;

 	for (idx = 0; idx < NUMBER_OF_VWIRES; idx++) {
 		if (data->vw_state[idx].sig == vw) {
 			return idx;
 		}
 	}

 	return -1;
 }

 static int emul_host_set_vw(const struct emul *target,
 			    enum espi_vwire_signal vw, uint8_t level)
 {
 	struct espi_host_emul_data *data = target->data;
 	int idx;

 	idx = emul_host_find_index(data, vw);

 	if (idx < 0 || data->vw_state[idx].dir != ESPI_SLAVE_TO_MASTER) {
 		LOG_ERR("%s: invalid vw: %d", __func__, vw);
 		return -EPERM;
 	}

 	data->vw_state[idx].level = level;

 	return 0;
 }

 static int emul_host_get_vw(const struct emul *target,
 			    enum espi_vwire_signal vw, uint8_t *level)
 {
 	struct espi_host_emul_data *data = target->data;
 	int idx;

 	idx = emul_host_find_index(data, vw);

 	if (idx < 0 || data->vw_state[idx].dir != ESPI_MASTER_TO_SLAVE) {
 		LOG_ERR("%s: invalid vw: %d", __func__, vw);
 		return -EPERM;
 	}

 	*level = data->vw_state[idx].level;

 	return 0;
 }

 int emul_espi_host_send_vw(const struct device *espi_dev, enum espi_vwire_signal vw,
 			   uint8_t level)
 {
 	struct espi_emul *emul_espi;
 	struct espi_event evt;
 	struct espi_host_emul_data *data_host;
 	struct emul_espi_driver_api *api;
 	int idx;

 	api = (struct emul_espi_driver_api *)espi_dev->api;

 	__ASSERT_NO_MSG(api);
 	__ASSERT_NO_MSG(api->trigger_event);
 	__ASSERT_NO_MSG(api->find_emul);

 	emul_espi = api->find_emul(espi_dev, EMUL_ESPI_HOST_CHIPSEL);
 	data_host = emul_espi->target->data;

 	idx = emul_host_find_index(data_host, vw);
 	if (idx < 0 || data_host->vw_state[idx].dir != ESPI_MASTER_TO_SLAVE) {
 		LOG_ERR("%s: invalid vw: %d", __func__, vw);
 		return -EPERM;
 	}

 	data_host->vw_state[idx].level = level;

 	evt.evt_type = ESPI_BUS_EVENT_VWIRE_RECEIVED;
 	evt.evt_details = vw;
 	evt.evt_data = level;

 	api->trigger_event(espi_dev, &evt);

 	return 0;
 }

 int emul_espi_host_port80_write(const struct device *espi_dev, uint32_t data)
 {
 	struct espi_event evt;
 	struct emul_espi_driver_api *api;

 	api = (struct emul_espi_driver_api *)espi_dev->api;

 	__ASSERT_NO_MSG(api);
 	__ASSERT_NO_MSG(api->trigger_event);

 	evt.evt_type = ESPI_BUS_PERIPHERAL_NOTIFICATION;
 	evt.evt_details = ESPI_PERIPHERAL_DEBUG_PORT80;
 	evt.evt_data = data;

 	api->trigger_event(espi_dev, &evt);

 	return 0;
 }

 #ifdef CONFIG_ESPI_PERIPHERAL_ACPI_SHM_REGION
 static uintptr_t emul_espi_dev_get_acpi_shm(const struct emul *target)
 {
 	struct espi_host_emul_data *data = target->data;

 	return (uintptr_t)data->shm_acpi_mmap;
 }

 uintptr_t emul_espi_host_get_acpi_shm(const struct device *espi_dev)
 {
 	uint32_t shm;
 	int rc = espi_read_lpc_request(espi_dev, EACPI_GET_SHARED_MEMORY, &shm);

 	__ASSERT_NO_MSG(rc == 0);

 	return (uintptr_t) shm;
 }
 #endif

 /* Device instantiation */
 static struct emul_espi_device_api ap_emul_api = {
 	.set_vw = emul_host_set_vw,
 	.get_vw = emul_host_get_vw,
 	.get_acpi_shm = emul_espi_dev_get_acpi_shm,
 };

 /**
  * Set up a new eSPI host emulator
  *
  * @param emul Emulation information
  * @param bus Device to emulated eSPI controller
  * @return 0 indicating success (always)
  */
 static int emul_host_init(const struct emul *emul, const struct device *bus)
 {
 	struct espi_host_emul_data *data = emul->data;

 	ARG_UNUSED(bus);

 	emul_host_init_vw_state(data);

 	return 0;
 }

 #define HOST_EMUL(n)                                                                               \
 	static struct espi_host_emul_data espi_host_emul_data_##n;                                 \
 	static const struct espi_host_emul_cfg espi_host_emul_cfg_##n = {                          \
 		.chipsel = DT_INST_REG_ADDR(n),                                                    \
 	};                                                                                         \
 	EMUL_DT_INST_DEFINE(n, emul_host_init, &espi_host_emul_data_##n, &espi_host_emul_cfg_##n,  \
 			    &ap_emul_api)

 DT_INST_FOREACH_STATUS_OKAY(HOST_EMUL)
	/*
	* Copyright 2020 Google LLC
	*
	* SPDX-License-Identifier: Apache-2.0
	*
	* Emulator for the generic eSPI Host. This supports basic
	* host operations.
	*/

	#define DT_DRV_COMPAT zephyr_espi_emul_espi_host

	#define LOG_LEVEL CONFIG_ESPI_LOG_LEVEL
	#include <zephyr/logging/log.h>
	LOG_MODULE_REGISTER(espi_host);

	#include <zephyr/device.h>
	#include <zephyr/drivers/emul.h>
	#include <zephyr/drivers/espi.h>
	#include <zephyr/drivers/espi_emul.h>

	/** Data about the virtual wire */
	struct vw_data {
	/* Virtual wire signal */
	enum espi_vwire_signal sig;
	/* The level(state) of the virtual wire */
	uint8_t level;
	/* The direction of the virtual wire. Possible values:
	* ESPI_MASTER_TO_SLAVE or ESPI_SLAVE_TO_MASTER */
	uint8_t dir;
	};

	/** Declare the default state of virtual wires */
	const static struct vw_data vw_state_default[] = {
	{ ESPI_VWIRE_SIGNAL_SLP_S3, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_SLP_S4, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_SLP_S5, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_SUS_STAT, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_PLTRST, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_OOB_RST_WARN, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_OOB_RST_ACK, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_WAKE, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_PME, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_SLV_BOOT_DONE, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_ERR_FATAL, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_ERR_NON_FATAL, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_SLV_BOOT_STS, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_SCI, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_SMI, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_RST_CPU_INIT, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_HOST_RST_ACK, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_HOST_RST_WARN, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_SUS_ACK, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_DNX_ACK, 0, ESPI_SLAVE_TO_MASTER },
	{ ESPI_VWIRE_SIGNAL_SUS_WARN, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_SUS_PWRDN_ACK, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_SLP_A, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_SLP_LAN, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_SLP_WLAN, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_HOST_C10, 0, ESPI_MASTER_TO_SLAVE },
	{ ESPI_VWIRE_SIGNAL_DNX_WARN, 0, ESPI_MASTER_TO_SLAVE },
	};

	#define NUMBER_OF_VWIRES ARRAY_SIZE(vw_state_default)

	/** Run-time data used by the emulator */
	struct espi_host_emul_data {
	/** eSPI emulator detail */
	struct espi_emul emul;
	/** eSPI controller device */
	const struct device *espi;
	/** Virtual Wires states, for one slave only.
	* With multi-slaves config, the states should be saved per slave */
	struct vw_data vw_state[NUMBER_OF_VWIRES];
	#ifdef CONFIG_ESPI_PERIPHERAL_ACPI_SHM_REGION
	/** ACPI Shared memory. */
	uint8_t shm_acpi_mmap[CONFIG_EMUL_ESPI_HOST_ACPI_SHM_REGION_SIZE];
	#endif
	};

	/** Static configuration for the emulator */
	struct espi_host_emul_cfg {
	/** Label of the emulated AP*/
	const char *label;
	/* eSPI chip-select of the emulated device */
	uint16_t chipsel;
	};

	/**
	* Initialize the state of virtual wires to default based on
	* the vw_state_default array.
	*
	* @param data Host emulator data with the vwire array
	*/
	static void emul_host_init_vw_state(struct espi_host_emul_data *data)
	{
	unsigned i;

	for (i = 0; i < NUMBER_OF_VWIRES; i++) {
	data->vw_state[i] = vw_state_default[i];
	}
	return;
	}

	/**
	* Find a virtual wire in the array placed in the host data.
	*
	* @param data Host emulator data with the vwire array
	* @param vw Virtual wire signal to be found
	* @return index in the array
	* @return -1 if not found
	*/
	static int emul_host_find_index(struct espi_host_emul_data *data,
	enum espi_vwire_signal vw)
	{
	int idx;

	for (idx = 0; idx < NUMBER_OF_VWIRES; idx++) {
	if (data->vw_state[idx].sig == vw) {
	return idx;
	}
	}

	return -1;
	}

	static int emul_host_set_vw(const struct emul *target,
	enum espi_vwire_signal vw, uint8_t level)
	{
	struct espi_host_emul_data *data = target->data;
	int idx;

	idx = emul_host_find_index(data, vw);

	if (idx < 0 \|\| data->vw_state[idx].dir != ESPI_SLAVE_TO_MASTER) {
	LOG_ERR("%s: invalid vw: %d", __func__, vw);
	return -EPERM;
	}

	data->vw_state[idx].level = level;

	return 0;
	}

	static int emul_host_get_vw(const struct emul *target,
	enum espi_vwire_signal vw, uint8_t *level)
	{
	struct espi_host_emul_data *data = target->data;
	int idx;

	idx = emul_host_find_index(data, vw);

	if (idx < 0 \|\| data->vw_state[idx].dir != ESPI_MASTER_TO_SLAVE) {
	LOG_ERR("%s: invalid vw: %d", __func__, vw);
	return -EPERM;
	}

	*level = data->vw_state[idx].level;

	return 0;
	}

	int emul_espi_host_send_vw(const struct device *espi_dev, enum espi_vwire_signal vw,
	uint8_t level)
	{
	struct espi_emul *emul_espi;
	struct espi_event evt;
	struct espi_host_emul_data *data_host;
	struct emul_espi_driver_api *api;
	int idx;

	api = (struct emul_espi_driver_api *)espi_dev->api;

	__ASSERT_NO_MSG(api);
	__ASSERT_NO_MSG(api->trigger_event);
	__ASSERT_NO_MSG(api->find_emul);

	emul_espi = api->find_emul(espi_dev, EMUL_ESPI_HOST_CHIPSEL);
	data_host = emul_espi->target->data;

	idx = emul_host_find_index(data_host, vw);
	if (idx < 0 \|\| data_host->vw_state[idx].dir != ESPI_MASTER_TO_SLAVE) {
	LOG_ERR("%s: invalid vw: %d", __func__, vw);
	return -EPERM;
	}

	data_host->vw_state[idx].level = level;

	evt.evt_type = ESPI_BUS_EVENT_VWIRE_RECEIVED;
	evt.evt_details = vw;
	evt.evt_data = level;

	api->trigger_event(espi_dev, &evt);

	return 0;
	}

	int emul_espi_host_port80_write(const struct device *espi_dev, uint32_t data)
	{
	struct espi_event evt;
	struct emul_espi_driver_api *api;

	api = (struct emul_espi_driver_api *)espi_dev->api;

	__ASSERT_NO_MSG(api);
	__ASSERT_NO_MSG(api->trigger_event);

	evt.evt_type = ESPI_BUS_PERIPHERAL_NOTIFICATION;
	evt.evt_details = ESPI_PERIPHERAL_DEBUG_PORT80;
	evt.evt_data = data;

	api->trigger_event(espi_dev, &evt);

	return 0;
	}

	#ifdef CONFIG_ESPI_PERIPHERAL_ACPI_SHM_REGION
	static uintptr_t emul_espi_dev_get_acpi_shm(const struct emul *target)
	{
	struct espi_host_emul_data *data = target->data;

	return (uintptr_t)data->shm_acpi_mmap;
	}

	uintptr_t emul_espi_host_get_acpi_shm(const struct device *espi_dev)
	{
	uint32_t shm;
	int rc = espi_read_lpc_request(espi_dev, EACPI_GET_SHARED_MEMORY, &shm);

	__ASSERT_NO_MSG(rc == 0);

	return (uintptr_t) shm;
	}
	#endif

	/* Device instantiation */
	static struct emul_espi_device_api ap_emul_api = {
	.set_vw = emul_host_set_vw,
	.get_vw = emul_host_get_vw,
	.get_acpi_shm = emul_espi_dev_get_acpi_shm,
	};

	/**
	* Set up a new eSPI host emulator
	*
	* @param emul Emulation information
	* @param bus Device to emulated eSPI controller
	* @return 0 indicating success (always)
	*/
	static int emul_host_init(const struct emul emul, const struct device bus)
	{
	struct espi_host_emul_data *data = emul->data;

	ARG_UNUSED(bus);

	emul_host_init_vw_state(data);

	return 0;
	}

	#define HOST_EMUL(n) \
	static struct espi_host_emul_data espi_host_emul_data_##n; \
	static const struct espi_host_emul_cfg espi_host_emul_cfg_##n = { \
	.chipsel = DT_INST_REG_ADDR(n), \
	}; \
	EMUL_DT_INST_DEFINE(n, emul_host_init, &espi_host_emul_data_##n, &espi_host_emul_cfg_##n, \
	&ap_emul_api)

	DT_INST_FOREACH_STATUS_OKAY(HOST_EMUL)