/*
 * Copyright (c) 2017 Linaro Limited
 * Copyright (c) 2017-2019 Foundries.io
 *
 * SPDX-License-Identifier: Apache-2.0
 */

#define LOG_MODULE_NAME net_lwm2m_client_app
#define LOG_LEVEL LOG_LEVEL_DBG

#include <logging/log.h>
LOG_MODULE_REGISTER(LOG_MODULE_NAME);

#include <drivers/hwinfo.h>
#include <zephyr.h>
#include <drivers/gpio.h>
#include <drivers/sensor.h>
#include <net/lwm2m.h>

#define APP_BANNER "Run LWM2M client"

#if !defined(CONFIG_NET_CONFIG_PEER_IPV4_ADDR)
#define CONFIG_NET_CONFIG_PEER_IPV4_ADDR ""
#endif

#if !defined(CONFIG_NET_CONFIG_PEER_IPV6_ADDR)
#define CONFIG_NET_CONFIG_PEER_IPV6_ADDR ""
#endif

#if defined(CONFIG_NET_IPV6)
#define SERVER_ADDR CONFIG_NET_CONFIG_PEER_IPV6_ADDR
#elif defined(CONFIG_NET_IPV4)
#define SERVER_ADDR CONFIG_NET_CONFIG_PEER_IPV4_ADDR
#else
#error LwM2M requires either IPV6 or IPV4 support
#endif


#define WAIT_TIME	K_SECONDS(10)
#define CONNECT_TIME	K_SECONDS(10)

#define CLIENT_MANUFACTURER	"Zephyr"
#define CLIENT_MODEL_NUMBER	"OMA-LWM2M Sample Client"
#define CLIENT_SERIAL_NUMBER	"345000123"
#define CLIENT_FIRMWARE_VER	"1.0"
#define CLIENT_DEVICE_TYPE	"OMA-LWM2M Client"
#define CLIENT_HW_VER		"1.0.1"

#define LIGHT_NAME		"Test light"
#define TIMER_NAME		"Test timer"

#define ENDPOINT_LEN		32

#if DT_NODE_HAS_STATUS(DT_ALIAS(led0), okay)
#define LED_GPIO_PORT	DT_GPIO_LABEL(DT_ALIAS(led0), gpios)
#define LED_GPIO_PIN	DT_GPIO_PIN(DT_ALIAS(led0), gpios)
#define LED_GPIO_FLAGS	DT_GPIO_FLAGS(DT_ALIAS(led0), gpios)
#else
/* Not an error; the relevant IPSO object will simply not be created. */
#define LED_GPIO_PORT	""
#define LED_GPIO_PIN	0
#define LED_GPIO_FLAGS	0
#endif

static uint8_t bat_idx = LWM2M_DEVICE_PWR_SRC_TYPE_BAT_INT;
static int bat_mv = 3800;
static int bat_ma = 125;
static uint8_t usb_idx = LWM2M_DEVICE_PWR_SRC_TYPE_USB;
static int usb_mv = 5000;
static int usb_ma = 900;
static uint8_t bat_level = 95;
static uint8_t bat_status = LWM2M_DEVICE_BATTERY_STATUS_CHARGING;
static int mem_free = 15;
static int mem_total = 25;

static const struct device *led_dev;
static uint32_t led_state;

static struct lwm2m_ctx client;

#if defined(CONFIG_LWM2M_DTLS_SUPPORT)
#define TLS_TAG			1

/* "000102030405060708090a0b0c0d0e0f" */
static unsigned char client_psk[] = {
	0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
	0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f
};

static const char client_psk_id[] = "Client_identity";
#endif /* CONFIG_LWM2M_DTLS_SUPPORT */

static struct k_sem quit_lock;

#if defined(CONFIG_LWM2M_FIRMWARE_UPDATE_OBJ_SUPPORT)
static uint8_t firmware_buf[64];
#endif

/* TODO: Move to a pre write hook that can handle ret codes once available */
static int led_on_off_cb(uint16_t obj_inst_id, uint16_t res_id, uint16_t res_inst_id,
			 uint8_t *data, uint16_t data_len,
			 bool last_block, size_t total_size)
{
	int ret = 0;
	uint32_t led_val;

	led_val = *(uint8_t *) data;
	if (led_val != led_state) {
		ret = gpio_pin_set(led_dev, LED_GPIO_PIN, (int) led_val);
		if (ret) {
			/*
			 * We need an extra hook in LWM2M to better handle
			 * failures before writing the data value and not in
			 * post_write_cb, as there is not much that can be
			 * done here.
			 */
			LOG_ERR("Fail to write to GPIO %d", LED_GPIO_PIN);
			return ret;
		}

		led_state = led_val;
		/* TODO: Move to be set by an internal post write function */
		lwm2m_engine_set_s32("3311/0/5852", 0);
	}

	return ret;
}

static int init_led_device(void)
{
	int ret;

	led_dev = device_get_binding(LED_GPIO_PORT);
	if (!led_dev) {
		return -ENODEV;
	}

	ret = gpio_pin_configure(led_dev, LED_GPIO_PIN, LED_GPIO_FLAGS |
							GPIO_OUTPUT_INACTIVE);
	if (ret) {
		return ret;
	}

	return 0;
}

static int device_reboot_cb(uint16_t obj_inst_id,
			    uint8_t *args, uint16_t args_len)
{
	LOG_INF("DEVICE: REBOOT");
	/* Add an error for testing */
	lwm2m_device_add_err(LWM2M_DEVICE_ERROR_LOW_POWER);
	/* Change the battery voltage for testing */
	lwm2m_engine_set_s32("3/0/7/0", (bat_mv - 1));

	return 0;
}

static int device_factory_default_cb(uint16_t obj_inst_id,
				     uint8_t *args, uint16_t args_len)
{
	LOG_INF("DEVICE: FACTORY DEFAULT");
	/* Add an error for testing */
	lwm2m_device_add_err(LWM2M_DEVICE_ERROR_GPS_FAILURE);
	/* Change the USB current for testing */
	lwm2m_engine_set_s32("3/0/8/1", (usb_ma - 1));

	return 0;
}

#if defined(CONFIG_LWM2M_FIRMWARE_UPDATE_PULL_SUPPORT)
static int firmware_update_cb(uint16_t obj_inst_id,
			      uint8_t *args, uint16_t args_len)
{
	LOG_DBG("UPDATE");

	/* TODO: kick off update process */

	/* If success, set the update result as RESULT_SUCCESS.
	 * In reality, it should be set at function lwm2m_setup()
	 */
	lwm2m_engine_set_u8("5/0/3", STATE_IDLE);
	lwm2m_engine_set_u8("5/0/5", RESULT_SUCCESS);
	return 0;
}
#endif


static void *temperature_get_buf(uint16_t obj_inst_id, uint16_t res_id,
				 uint16_t res_inst_id, size_t *data_len)
{
	/* Last read temperature value, will use 25.5C if no sensor available */
	static struct float32_value v = { 25, 500000 };
	const struct device *dev = NULL;

#if defined(CONFIG_FXOS8700_TEMP)
	dev = device_get_binding(DT_LABEL(DT_INST(0, nxp_fxos8700)));
#endif

	if (dev != NULL) {
		if (sensor_sample_fetch(dev)) {
			LOG_ERR("temperature data update failed");
		}

		sensor_channel_get(dev, SENSOR_CHAN_DIE_TEMP,
				  (struct sensor_value *) &v);
		LOG_DBG("LWM2M temperature set to %d.%d", v.val1, v.val2);
	}

	/* echo the value back through the engine to update min/max values */
	lwm2m_engine_set_float32("3303/0/5700", &v);
	*data_len = sizeof(v);
	return &v;
}


#if defined(CONFIG_LWM2M_FIRMWARE_UPDATE_OBJ_SUPPORT)
static void *firmware_get_buf(uint16_t obj_inst_id, uint16_t res_id,
			      uint16_t res_inst_id, size_t *data_len)
{
	*data_len = sizeof(firmware_buf);
	return firmware_buf;
}

static int firmware_block_received_cb(uint16_t obj_inst_id,
				      uint16_t res_id, uint16_t res_inst_id,
				      uint8_t *data, uint16_t data_len,
				      bool last_block, size_t total_size)
{
	LOG_INF("FIRMWARE: BLOCK RECEIVED: len:%u last_block:%d",
		data_len, last_block);
	return 0;
}
#endif

/* An example data validation callback. */
static int timer_on_off_validate_cb(uint16_t obj_inst_id, uint16_t res_id,
				    uint16_t res_inst_id, uint8_t *data,
				    uint16_t data_len, bool last_block,
				    size_t total_size)
{
	LOG_INF("Validating On/Off data");

	if (data_len != 1) {
		return -EINVAL;
	}

	if (*data > 1) {
		return -EINVAL;
	}

	return 0;
}

static int timer_digital_state_cb(uint16_t obj_inst_id,
				  uint16_t res_id, uint16_t res_inst_id,
				  uint8_t *data, uint16_t data_len,
				  bool last_block, size_t total_size)
{
	bool *digital_state = (bool *)data;

	if (*digital_state) {
		LOG_INF("TIMER: ON");
	} else {
		LOG_INF("TIMER: OFF");
	}

	return 0;
}

static int lwm2m_setup(void)
{
	int ret;
	char *server_url;
	uint16_t server_url_len;
	uint8_t server_url_flags;

	/* setup SECURITY object */

	/* Server URL */
	ret = lwm2m_engine_get_res_data("0/0/0",
					(void **)&server_url, &server_url_len,
					&server_url_flags);
	if (ret < 0) {
		return ret;
	}

	snprintk(server_url, server_url_len, "coap%s//%s%s%s",
		 IS_ENABLED(CONFIG_LWM2M_DTLS_SUPPORT) ? "s:" : ":",
		 strchr(SERVER_ADDR, ':') ? "[" : "", SERVER_ADDR,
		 strchr(SERVER_ADDR, ':') ? "]" : "");

	/* Security Mode */
	lwm2m_engine_set_u8("0/0/2",
			    IS_ENABLED(CONFIG_LWM2M_DTLS_SUPPORT) ? 0 : 3);
#if defined(CONFIG_LWM2M_DTLS_SUPPORT)
	lwm2m_engine_set_string("0/0/3", (char *)client_psk_id);
	lwm2m_engine_set_opaque("0/0/5",
				(void *)client_psk, sizeof(client_psk));
#endif /* CONFIG_LWM2M_DTLS_SUPPORT */

#if defined(CONFIG_LWM2M_RD_CLIENT_SUPPORT_BOOTSTRAP)
	/* Mark 1st instance of security object as a bootstrap server */
	lwm2m_engine_set_u8("0/0/1", 1);

	/* Create 2nd instance of security object needed for bootstrap */
	lwm2m_engine_create_obj_inst("0/1");
#else
	/* Match Security object instance with a Server object instance with
	 * Short Server ID.
	 */
	lwm2m_engine_set_u16("0/0/10", 101);
	lwm2m_engine_set_u16("1/0/0", 101);
#endif

	/* setup SERVER object */

	/* setup DEVICE object */

	lwm2m_engine_set_res_data("3/0/0", CLIENT_MANUFACTURER,
				  sizeof(CLIENT_MANUFACTURER),
				  LWM2M_RES_DATA_FLAG_RO);
	lwm2m_engine_set_res_data("3/0/1", CLIENT_MODEL_NUMBER,
				  sizeof(CLIENT_MODEL_NUMBER),
				  LWM2M_RES_DATA_FLAG_RO);
	lwm2m_engine_set_res_data("3/0/2", CLIENT_SERIAL_NUMBER,
				  sizeof(CLIENT_SERIAL_NUMBER),
				  LWM2M_RES_DATA_FLAG_RO);
	lwm2m_engine_set_res_data("3/0/3", CLIENT_FIRMWARE_VER,
				  sizeof(CLIENT_FIRMWARE_VER),
				  LWM2M_RES_DATA_FLAG_RO);
	lwm2m_engine_register_exec_callback("3/0/4", device_reboot_cb);
	lwm2m_engine_register_exec_callback("3/0/5", device_factory_default_cb);
	lwm2m_engine_set_res_data("3/0/9", &bat_level, sizeof(bat_level), 0);
	lwm2m_engine_set_res_data("3/0/10", &mem_free, sizeof(mem_free), 0);
	lwm2m_engine_set_res_data("3/0/17", CLIENT_DEVICE_TYPE,
				  sizeof(CLIENT_DEVICE_TYPE),
				  LWM2M_RES_DATA_FLAG_RO);
	lwm2m_engine_set_res_data("3/0/18", CLIENT_HW_VER,
				  sizeof(CLIENT_HW_VER),
				  LWM2M_RES_DATA_FLAG_RO);
	lwm2m_engine_set_res_data("3/0/20", &bat_status, sizeof(bat_status), 0);
	lwm2m_engine_set_res_data("3/0/21", &mem_total, sizeof(mem_total), 0);

	/* add power source resource instances */
	lwm2m_engine_create_res_inst("3/0/6/0");
	lwm2m_engine_set_res_data("3/0/6/0", &bat_idx, sizeof(bat_idx), 0);

	lwm2m_engine_create_res_inst("3/0/7/0");
	lwm2m_engine_set_res_data("3/0/7/0", &bat_mv, sizeof(bat_mv), 0);
	lwm2m_engine_create_res_inst("3/0/8/0");
	lwm2m_engine_set_res_data("3/0/8/0", &bat_ma, sizeof(bat_ma), 0);
	lwm2m_engine_create_res_inst("3/0/6/1");
	lwm2m_engine_set_res_data("3/0/6/1", &usb_idx, sizeof(usb_idx), 0);
	lwm2m_engine_create_res_inst("3/0/7/1");
	lwm2m_engine_set_res_data("3/0/7/1", &usb_mv, sizeof(usb_mv), 0);
	lwm2m_engine_create_res_inst("3/0/8/1");
	lwm2m_engine_set_res_data("3/0/8/1", &usb_ma, sizeof(usb_ma), 0);

	/* setup FIRMWARE object */

#if defined(CONFIG_LWM2M_FIRMWARE_UPDATE_OBJ_SUPPORT)
	/* setup data buffer for block-wise transfer */
	lwm2m_engine_register_pre_write_callback("5/0/0", firmware_get_buf);
	lwm2m_firmware_set_write_cb(firmware_block_received_cb);
#endif
#if defined(CONFIG_LWM2M_FIRMWARE_UPDATE_PULL_SUPPORT)
	lwm2m_firmware_set_update_cb(firmware_update_cb);
#endif

	/* setup TEMP SENSOR object */
	lwm2m_engine_create_obj_inst("3303/0");
	lwm2m_engine_register_read_callback("3303/0/5700", temperature_get_buf);

	/* IPSO: Light Control object */
	if (init_led_device() == 0) {
		lwm2m_engine_create_obj_inst("3311/0");
		lwm2m_engine_register_post_write_callback("3311/0/5850",
				led_on_off_cb);
		lwm2m_engine_set_res_data("3311/0/5750",
					  LIGHT_NAME, sizeof(LIGHT_NAME),
					  LWM2M_RES_DATA_FLAG_RO);
	}

	/* IPSO: Timer object */
	lwm2m_engine_create_obj_inst("3340/0");
	lwm2m_engine_register_validate_callback("3340/0/5850",
			timer_on_off_validate_cb);
	lwm2m_engine_register_post_write_callback("3340/0/5543",
			timer_digital_state_cb);
	lwm2m_engine_set_res_data("3340/0/5750", TIMER_NAME, sizeof(TIMER_NAME),
				  LWM2M_RES_DATA_FLAG_RO);

	return 0;
}

static void rd_client_event(struct lwm2m_ctx *client,
			    enum lwm2m_rd_client_event client_event)
{
	switch (client_event) {

	case LWM2M_RD_CLIENT_EVENT_NONE:
		/* do nothing */
		break;

	case LWM2M_RD_CLIENT_EVENT_BOOTSTRAP_REG_FAILURE:
		LOG_DBG("Bootstrap registration failure!");
		break;

	case LWM2M_RD_CLIENT_EVENT_BOOTSTRAP_REG_COMPLETE:
		LOG_DBG("Bootstrap registration complete");
		break;

	case LWM2M_RD_CLIENT_EVENT_BOOTSTRAP_TRANSFER_COMPLETE:
		LOG_DBG("Bootstrap transfer complete");
		break;

	case LWM2M_RD_CLIENT_EVENT_REGISTRATION_FAILURE:
		LOG_DBG("Registration failure!");
		break;

	case LWM2M_RD_CLIENT_EVENT_REGISTRATION_COMPLETE:
		LOG_DBG("Registration complete");
		break;

	case LWM2M_RD_CLIENT_EVENT_REG_UPDATE_FAILURE:
		LOG_DBG("Registration update failure!");
		break;

	case LWM2M_RD_CLIENT_EVENT_REG_UPDATE_COMPLETE:
		LOG_DBG("Registration update complete");
		break;

	case LWM2M_RD_CLIENT_EVENT_DEREGISTER_FAILURE:
		LOG_DBG("Deregister failure!");
		break;

	case LWM2M_RD_CLIENT_EVENT_DISCONNECT:
		LOG_DBG("Disconnected");
		break;

	case LWM2M_RD_CLIENT_EVENT_QUEUE_MODE_RX_OFF:
		LOG_DBG("Queue mode RX window closed");
		break;

	case LWM2M_RD_CLIENT_EVENT_NETWORK_ERROR:
		LOG_ERR("LwM2M engine reported a network erorr.");
		lwm2m_rd_client_stop(client, rd_client_event);
		break;
	}
}

void main(void)
{
	uint32_t flags = IS_ENABLED(CONFIG_LWM2M_RD_CLIENT_SUPPORT_BOOTSTRAP) ?
				LWM2M_RD_CLIENT_FLAG_BOOTSTRAP : 0;
	int ret;

	LOG_INF(APP_BANNER);

	k_sem_init(&quit_lock, 0, K_SEM_MAX_LIMIT);

	ret = lwm2m_setup();
	if (ret < 0) {
		LOG_ERR("Cannot setup LWM2M fields (%d)", ret);
		return;
	}

	(void)memset(&client, 0x0, sizeof(client));
#if defined(CONFIG_LWM2M_DTLS_SUPPORT)
	client.tls_tag = TLS_TAG;
#endif

#if defined(CONFIG_HWINFO)
	uint8_t dev_id[16];
	char dev_str[33];
	ssize_t length;
	int i;

	(void)memset(dev_id, 0x0, sizeof(dev_id));

	/* Obtain the device id */
	length = hwinfo_get_device_id(dev_id, sizeof(dev_id));

	/* If this fails for some reason, use all zeros instead */
	if (length <= 0) {
		length = sizeof(dev_id);
	}

	/* Render the obtained serial number in hexadecimal representation */
	for (i = 0 ; i < length ; i++) {
		sprintf(&dev_str[i*2], "%02x", dev_id[i]);
	}

	lwm2m_rd_client_start(&client, dev_str, flags, rd_client_event);
#else
	/* client.sec_obj_inst is 0 as a starting point */
	lwm2m_rd_client_start(&client, CONFIG_BOARD, flags, rd_client_event);
#endif

	k_sem_take(&quit_lock, K_FOREVER);
}