arduino_homekit_server.cpp

#include <Arduino.h>
#include <esp_xpgm.h>
#include <ESP8266WiFi.h>
#include <WiFiServer.h>
#include <WiFiClient.h>
#include <ESP8266mDNS.h>
#include <LEAmDNS.h>

#include <wolfssl/wolfcrypt/settings.h>
#include <homekit/homekit.h>
#include <homekit/characteristics.h>
#include <homekit/tlv.h>
#include <homekit/types.h>
#include <wolfssl/wolfcrypt/hash.h> //wc_sha512

#include "constants.h"
#include "base64_util.h"
#include "pairing.h"
#include "storage.h"
#include "query_params.h"
#include "json.h"
#include "homekit_debug.h"
#include "port.h"
#include "http_parser.h"
#include "query_params.h"
#include "cJSON.h"
#include "cQueue.h"
#include "crypto.h"
#include "watchdog.h"
#include "arduino_homekit_server.h"

#define HOMEKIT_SERVER_PORT      5556
#define HOMEKIT_MAX_CLIENTS      8
#define HOMEKIT_MDNS_SERVICE     "hap"//"_hap"
#define HOMEKIT_MDNS_PROTO       "tcp"//"_tcp"
#define HOMEKIT_EVENT_QUEUE_SIZE 4 //original is 20
#define HOMEKIT_SOCKET_TIMEOUT   500 //milliseconds

//#define TCP_DEFAULT_KEEPALIVE_IDLE_SEC          7200 // 2 hours
//#define TCP_DEFAULT_KEEPALIVE_INTERVAL_SEC      75   // 75 sec
//#define TCP_DEFAULT_KEEPALIVE_COUNT             9    // fault after 9 failures
//const int idle = 180; /* 180 sec idle before start sending probes */
#define HOMEKIT_SOCKET_KEEPALIVE_IDLE_SEC      180
//const int interval = 30; /* 30 sec between probes */
#define HOMEKIT_SOCKET_KEEPALIVE_INTERVAL_SEC  30
//const int maxpkt = 4; /* Drop connection after 4 probes without response */
#define HOMEKIT_SOCKET_KEEPALIVE_IDLE_COUNT     4
// if 180 + 30 * 4 = 300 sec without socket response, disconected it.

// WiFiClient can not write big buff once.
// TCP_SND_BUF = (2 * TCP_MSS) = 1072. See lwipopts.h
// max(encrypted_chunk) = 512 + 8(chunk_info) + 18(chacha_info). See client_send_encrypted
#define HOMEKIT_JSONBUFFER_SIZE  512

#ifdef HOMEKIT_DEBUG
#define TLV_DEBUG(values) //tlv_debug(values)
#else
#define TLV_DEBUG(values)
#endif

#define CLIENT_DEBUG(client, message, ...) DEBUG("[Client %d] " message, client->socket, ##__VA_ARGS__)
#define CLIENT_INFO(client, message, ...) INFO("[Client %d] " message, client->socket, ##__VA_ARGS__)
#define CLIENT_ERROR(client, message, ...) ERROR("[Client %d] " message, client->socket, ##__VA_ARGS__)

client_context_t *current_client_context = NULL;
homekit_server_t *running_server = nullptr;
WiFiEventHandler arduino_homekit_gotiphandler;

#define HOMEKIT_NOTIFY_EVENT(server, event) \
  if ((server)->config->on_event) \
      (server)->config->on_event(event);

void client_context_free(client_context_t *c);
void pairing_context_free(pairing_context_t *context);
void homekit_server_close_client(homekit_server_t *server, client_context_t *context);
bool arduino_homekit_preinit(homekit_server_t *server);

homekit_server_t* server_new() {
	homekit_server_t *server = (homekit_server_t*) malloc(sizeof(homekit_server_t));
	server->wifi_server = new WiFiServer(HOMEKIT_SERVER_PORT);
	server->wifi_server->begin();
	server->wifi_server->setNoDelay(true);
	DEBUG("WiFiServer begin at port: %d", HOMEKIT_SERVER_PORT);
	//FD_ZERO(&server->fds);
	//server->max_fd = 0;
	server->nfds = 0;
	server->config = NULL;
	server->paired = false;
	server->pairing_context = NULL;
	server->clients = NULL;
	return server;
}

void server_free(homekit_server_t *server) {
	if (server->pairing_context)
		pairing_context_free(server->pairing_context);

	if (server->clients) {
		client_context_t *client = server->clients;
		while (client) {
			client_context_t *next = client->next;
			client_context_free(client);
			client = next;
		}
	}
	if (server->wifi_server) {
		server->wifi_server->stop();
		server->wifi_server->close();
		delete server->wifi_server;
		server->wifi_server = nullptr;
	}
	DEBUG("homekit_server_t delete WiFiServer at port: %d\n", HOMEKIT_SERVER_PORT);

	if (server == running_server) {
		running_server = NULL;
	}
	free(server);
}

void tlv_debug(const tlv_values_t *values) {
	DEBUG("Got following TLV values:");
	for (tlv_t *t = values->head; t; t = t->next) {
		char *escaped_payload = binary_to_string(t->value, t->size);
		DEBUG("Type %d value (%d bytes): %s", t->type, t->size, escaped_payload);
		free(escaped_payload);
	}
}

pair_verify_context_t* pair_verify_context_new() {
	pair_verify_context_t *context = (pair_verify_context_t*) malloc(sizeof(pair_verify_context_t));

	context->secret = NULL;
	context->secret_size = 0;

	context->session_key = NULL;
	context->session_key_size = 0;
	context->device_public_key = NULL;
	context->device_public_key_size = 0;
	context->accessory_public_key = NULL;
	context->accessory_public_key_size = 0;

	return context;
}

void pair_verify_context_free(pair_verify_context_t *context) {
	if (context->secret)
		free(context->secret);

	if (context->session_key)
		free(context->session_key);

	if (context->device_public_key)
		free(context->device_public_key);

	if (context->accessory_public_key)
		free(context->accessory_public_key);

	free(context);
}

//==========================
// client_context new and free
//============================
client_context_t* client_context_new(WiFiClient *wifiClient) {
	client_context_t *c = (client_context_t*) malloc(sizeof(client_context_t));
	c->server = NULL;
	c->endpoint_params = NULL;

	c->data_size = sizeof(c->data);
	c->data_available = 0;

	c->body = NULL;
	c->body_length = 0;
	http_parser_init(&c->parser, HTTP_REQUEST);
	c->parser.data = c;

	c->pairing_id = -1;
	c->encrypted = false;
	c->count_reads = 0;
	c->count_writes = 0;
	c->disconnect = false;

	//c->event_queue = xQueueCreate(20, sizeof(characteristic_event_t*));
	c->event_queue = (Queue_t*) malloc(sizeof(Queue_t));
	q_init(c->event_queue, sizeof(characteristic_event_t*),
	HOMEKIT_EVENT_QUEUE_SIZE, LIFO, true);

	c->verify_context = NULL;

	c->next = NULL;

	c->socket = wifiClient;

	c->step = HOMEKIT_CLIENT_STEP_NONE;
	c->error_write = false;

	return c;
}

void client_context_free(client_context_t *c) {
	if (c->verify_context)
		pair_verify_context_free(c->verify_context);

	if (c->event_queue) {
		//c->event_queue->clear();
		q_clean(c->event_queue);
		q_kill(c->event_queue);
		free(c->event_queue);
	}

	if (c->endpoint_params)
		query_params_free(c->endpoint_params);

	if (c->body)
		free(c->body);

	if (c->socket) {
		c->socket->stop();
		delete c->socket;
		c->socket = nullptr;
	}

	free(c);
}

pairing_context_t *saved_preinit_pairing_context = nullptr;

pairing_context_t* pairing_context_new() {
	pairing_context_t *context = (pairing_context_t*) malloc(sizeof(pairing_context_t));
	context->srp = crypto_srp_new();
	context->client = NULL;
	context->public_key = NULL;
	context->public_key_size = 0;
	return context;
}

void pairing_context_free(pairing_context_t *context) {
	if (context == saved_preinit_pairing_context) {
		INFO("Free saved_preinit_pairing_context");
		if (saved_preinit_pairing_context) {
			saved_preinit_pairing_context = nullptr;
		}
	}
	if (context->srp) {
		crypto_srp_free(context->srp);
	}
	if (context->public_key) {
		free(context->public_key);
	}
	free(context);
}

//=====================
//pairing context
//=====================

void client_notify_characteristic(homekit_characteristic_t *ch, homekit_value_t value,
		void *client);

void write_characteristic_json(json_stream *json, client_context_t *client,
		const homekit_characteristic_t *ch, characteristic_format_t format,
		const homekit_value_t *value) {
	json_string(json, "aid");
	json_uint32(json, ch->service->accessory->id);
	json_string(json, "iid");
	json_uint32(json, ch->id);

	if (format & characteristic_format_type) {
		json_string(json, "type");
		json_string(json, ch->type);
	}

	if (format & characteristic_format_perms) {
		json_string(json, "perms");
		json_array_start(json);
		if (ch->permissions & homekit_permissions_paired_read)
			json_string(json, "pr");
		if (ch->permissions & homekit_permissions_paired_write)
			json_string(json, "pw");
		if (ch->permissions & homekit_permissions_notify)
			json_string(json, "ev");
		if (ch->permissions & homekit_permissions_additional_authorization)
			json_string(json, "aa");
		if (ch->permissions & homekit_permissions_timed_write)
			json_string(json, "tw");
		if (ch->permissions & homekit_permissions_hidden)
			json_string(json, "hd");
		json_array_end(json);
	}

	if ((format & characteristic_format_events) && (ch->permissions & homekit_permissions_notify)) {
		bool events = homekit_characteristic_has_notify_callback(ch, client_notify_characteristic,
				client);
		json_string(json, "ev");
		json_boolean(json, events);
	}

	if (format & characteristic_format_meta) {
		if (ch->description) {
			json_string(json, "description");
			json_string(json, ch->description);
		}

		const char *format_str = NULL;
		switch (ch->format) {
		case homekit_format_bool:
			format_str = "bool";
			break;
		case homekit_format_uint8:
			format_str = "uint8";
			break;
		case homekit_format_uint16:
			format_str = "uint16";
			break;
		case homekit_format_uint32:
			format_str = "uint32";
			break;
		case homekit_format_uint64:
			format_str = "uint64";
			break;
		case homekit_format_int:
			format_str = "int";
			break;
		case homekit_format_float:
			format_str = "float";
			break;
		case homekit_format_string:
			format_str = "string";
			break;
		case homekit_format_tlv:
			format_str = "tlv8";
			break;
		case homekit_format_data:
			format_str = "data";
			break;
		}
		if (format_str) {
			json_string(json, "format");
			json_string(json, format_str);
		}

		const char *unit_str = NULL;
		switch (ch->unit) {
		case homekit_unit_none:
			break;
		case homekit_unit_celsius:
			unit_str = "celsius";
			break;
		case homekit_unit_percentage:
			unit_str = "percentage";
			break;
		case homekit_unit_arcdegrees:
			unit_str = "arcdegrees";
			break;
		case homekit_unit_lux:
			unit_str = "lux";
			break;
		case homekit_unit_seconds:
			unit_str = "seconds";
			break;
		}
		if (unit_str) {
			json_string(json, "unit");
			json_string(json, unit_str);
		}

		if (ch->min_value) {
			json_string(json, "minValue");
			json_float(json, *ch->min_value);
		}

		if (ch->max_value) {
			json_string(json, "maxValue");
			json_float(json, *ch->max_value);
		}

		if (ch->min_step) {
			json_string(json, "minStep");
			json_float(json, *ch->min_step);
		}

		if (ch->max_len) {
			json_string(json, "maxLen");
			json_uint32(json, *ch->max_len);
		}

		if (ch->max_data_len) {
			json_string(json, "maxDataLen");
			json_uint32(json, *ch->max_data_len);
		}

		if (ch->valid_values.count) {
			json_string(json, "valid-values");
			json_array_start(json);

			for (int i = 0; i < ch->valid_values.count; i++) {
				json_uint16(json, ch->valid_values.values[i]);
			}

			json_array_end(json);
		}

		if (ch->valid_values_ranges.count) {
			json_string(json, "valid-values-range");
			json_array_start(json);

			for (int i = 0; i < ch->valid_values_ranges.count; i++) {
				json_array_start(json);

				json_integer(json, ch->valid_values_ranges.ranges[i].start);
				json_integer(json, ch->valid_values_ranges.ranges[i].end);

				json_array_end(json);
			}

			json_array_end(json);
		}
	}

	if (ch->permissions & homekit_permissions_paired_read) {
		homekit_value_t v = value ? *value : ch->getter_ex ? ch->getter_ex(ch) : ch->value;

		if (v.is_null) {
			 json_string(json, "value"); json_null(json);
		} else if (v.format != ch->format) {
			ERROR("Characteristic value format is different from characteristic format");
		} else {
			switch (v.format) {
			case homekit_format_bool: {
				json_string(json, "value");
				json_boolean(json, v.bool_value);
				break;
			}
			case homekit_format_uint8: {
				json_string(json, "value");
				json_uint8(json, v.uint8_value);
				break;
			}
			case homekit_format_uint16: {
				json_string(json, "value");
				json_uint16(json, v.uint16_value);
				break;
			}
			case homekit_format_uint32: {
				json_string(json, "value");
				json_uint32(json, v.uint32_value);
				break;
			}
			case homekit_format_uint64: {
				json_string(json, "value");
				json_uint64(json, v.uint64_value);
				break;
			}
			case homekit_format_int: {
				json_string(json, "value");
				json_integer(json, v.int_value);
				break;
			}
			case homekit_format_float: {
				json_string(json, "value");
				json_float(json, v.float_value);
				break;
			}
			case homekit_format_string: {
				json_string(json, "value");
				json_string(json, v.string_value);
				break;
			}
			case homekit_format_tlv: {
				json_string(json, "value");
				if (!v.tlv_values) {
					json_string(json, "");
				} else {
					size_t tlv_size = 0;
					tlv_format(v.tlv_values, NULL, &tlv_size);
					if (tlv_size == 0) {
						json_string(json, "");
					} else {
						byte *tlv_data = (byte*) malloc(tlv_size);
						tlv_format(v.tlv_values, tlv_data, &tlv_size);

						size_t encoded_tlv_size = base64_encoded_size(tlv_data, tlv_size);
						byte *encoded_tlv_data = (byte*) malloc(encoded_tlv_size + 1);
						base64_encode_(tlv_data, tlv_size, encoded_tlv_data);
						encoded_tlv_data[encoded_tlv_size] = 0;

						json_string(json, (char*) encoded_tlv_data);

						free(encoded_tlv_data);
						free(tlv_data);
					}
				}
				break;
			}
			case homekit_format_data: {
				json_string(json, "value");
				if (!v.data_value || v.data_size == 0) {
					json_string(json, "");
				} else {
					size_t encoded_data_size = base64_encoded_size(v.data_value, v.data_size);
					byte *encoded_data = (byte*) malloc(encoded_data_size + 1);
					base64_encode_(v.data_value, v.data_size, encoded_data);
					encoded_data[encoded_data_size] = 0;

					json_string(json, (char*) encoded_data);

					free(encoded_data);
				}

				break;
			}
			}
		}

		if (!value && ch->getter_ex) {
			// called getter to get value, need to free it
			homekit_value_destruct(&v);
		}
	}
}

void write(client_context_t *context, byte *data, int data_size) {
	if ((!context) || (!context->socket) || (!context->socket->connected())) {
		CLIENT_ERROR(context, "The socket is null! (or is closed)");
		return;
	}
	if (context->disconnect) {
		context->error_write = true;
		return;
	}
	if (context->error_write) {
		CLIENT_ERROR(context, "Abort write data since error_write.");
		return;
	}
	int write_size = context->socket->write(data, data_size);
	CLIENT_DEBUG(context, "Sending data of size %d", data_size);
	if (write_size != data_size) {
		context->error_write = true;
		context->socket->keepAlive(1, 1, 1);	// fast disconnected internally in 1 second.
		CLIENT_ERROR(context, "socket.write, data_size=%d, write_size=%d", data_size, write_size);
	}
}

int client_send_encrypted_(client_context_t *context,
		byte *payload, size_t size) {
	CLIENT_DEBUG(context, "Send encrypted of size %d", size);
	// max(size) = HOMEKIT_JSONBUFFER_SIZE + chunk_info(8) = 512 + 8 = 520
	if (!context || !context->encrypted)
		return -1;

	/*
	 HAP doc:
	 Each HTTP message is split into frames no larger than 1024 bytes.
	 Each frame has the following format:
	 <2:AAD for little endian length of encrypted data (n) in bytes>
	 <n:encrypted data according to AEAD algorithm, up to 1024 bytes>
	 <16:authTag according to AEAD algorithm>
	 Note by Wang Bin. 2020-03-07
	 */

	byte nonce[12];
	memset(nonce, 0, sizeof(nonce));

	byte encrypted[1024 + 18];
	int payload_offset = 0;

	while (payload_offset < size) {
		size_t chunk_size = size - payload_offset;
		if (chunk_size > 1024)
			chunk_size = 1024;

		byte aead[2] = { chunk_size % 256, chunk_size / 256 };

		memcpy(encrypted, aead, 2);

		byte i = 4;
		int x = context->count_reads++;
		while (x) {
			nonce[i++] = x % 256;
			x /= 256;
		}

		size_t available = sizeof(encrypted) - 2;
		int r = crypto_chacha20poly1305_encrypt(context->read_key, nonce, aead, 2,
				payload + payload_offset, chunk_size, encrypted + 2, &available);
		if (r) {
			ERROR("Failed to chacha encrypt payload (code %d)", r);
			return -1;
		}

		payload_offset += chunk_size;

		write(context, encrypted, available + 2);
	}

	return 0;
}

int client_decrypt_(client_context_t *context,
		byte *payload, size_t payload_size, byte *decrypted, size_t *decrypted_size) {
	if (!context || !context->encrypted)
		return -1;

	const size_t block_size = 1024 + 16 + 2;
	size_t required_decrypted_size = payload_size / block_size * 1024;
	if (payload_size % block_size > 0)
		required_decrypted_size += payload_size % block_size - 16 - 2;

	if (*decrypted_size < required_decrypted_size) {
		*decrypted_size = required_decrypted_size;
		return -2;
	}

	*decrypted_size = required_decrypted_size;

	byte nonce[12];
	memset(nonce, 0, sizeof(nonce));

	int payload_offset = 0;
	int decrypted_offset = 0;

	while (payload_offset < payload_size) {
		size_t chunk_size = payload[payload_offset] + payload[payload_offset + 1] * 256;
		if (chunk_size + 18 > payload_size - payload_offset) {
			// Unfinished chunk
			break;
		}

		byte i = 4;
		int x = context->count_writes++;
		while (x) {
			nonce[i++] = x % 256;
			x /= 256;
		}

		size_t decrypted_len = *decrypted_size - decrypted_offset;
		int r = crypto_chacha20poly1305_decrypt(context->write_key, nonce, payload + payload_offset,
				2, payload + payload_offset + 2, chunk_size + 16, decrypted, &decrypted_len);
		if (r) {
			ERROR("Failed to chacha decrypt payload (code %d)", r);
			return -1;
		}

		decrypted_offset += decrypted_len;
		payload_offset += chunk_size + 18;
	}

	return payload_offset;
}

void client_notify_characteristic(homekit_characteristic_t *ch, homekit_value_t value,
		void *context) {
	client_context_t *client = (client_context_t*) context;

	if (client->current_characteristic == ch && client->current_value
			&& homekit_value_equal(client->current_value, &value)) {
		// This value is set by this client, no need to send notification
		CLIENT_DEBUG(client, "This value is set by this client, no need to send notification");
		return;
	}
	CLIENT_INFO(client, "Got characteristic %d.%d change event",
			ch->service->accessory->id, ch->id);
	//DEBUG("Got characteristic %d.%d change event", ch->service->accessory->id, ch->id);

	if (!client->event_queue) {
		ERROR("Client has no event queue. Skipping notification");
		return;
	}

	characteristic_event_t *event = (characteristic_event_t*) malloc(
			sizeof(characteristic_event_t));
	event->characteristic = ch;
	homekit_value_copy(&event->value, &value);

	DEBUG("Sending event to client %d", client->socket);

	//xQueueSendToBack(client->event_queue, &event, 10);*/
	//q_push第二个参数要传指针地址
	q_push(client->event_queue, &event);
}

void client_send(client_context_t *context, byte *data, size_t data_size) {

	CLIENT_DEBUG(context, "send data size=%d, encrypted=%s",
			data_size, context->encrypted ? "true" : "false");

	if (context->encrypted) {
		int r = client_send_encrypted_(context, data, data_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to encrypt response (code %d)", r);
			return;
		}
	} else {
		write(context, data, data_size);
	}
}

void client_send_P(client_context_t *context, PGM_P pgm) {
	XPGM_BUFFCPY_STRING(char, buff, pgm);
	client_send(context, (byte*)buff, sizeof(buff) - 1);
}

void client_send_chunk(byte *data, size_t size, void *arg) {
	client_context_t *context = (client_context_t*) arg;

	size_t payload_size = size + 8;
	byte *payload = (byte*) malloc(payload_size);
	if (!payload) {
		ERROR("Error malloc payload!! payload_size->%d", payload_size);
		return;
	}

	int offset = snprintf((char*) payload, payload_size, "%x\r\n", size);
	memcpy(payload + offset, data, size);
	payload[offset + size] = '\r';
	payload[offset + size + 1] = '\n';
	CLIENT_DEBUG(context, "client_send_chunk, size=%d, offset=%d", size, offset);
	client_send(context, payload, offset + size + 2);
	free(payload);
}

void send_204_response(client_context_t *context) {
	static const char PROGMEM response[] = "HTTP/1.1 204 No Content\r\n\r\n";
	client_send_P(context, response);
}

void send_404_response(client_context_t *context) {
	static const char PROGMEM response[] = "HTTP/1.1 404 Not Found\r\n\r\n";
	client_send_P(context, response);
}

void send_client_events(client_context_t *context, client_event_t *events) {
	CLIENT_DEBUG(context, "Sending EVENT");DEBUG_HEAP();

	static const char PROGMEM http_headers[] = "EVENT/1.0 200 OK\r\n"
			"Content-Type: application/hap+json\r\n"
			"Transfer-Encoding: chunked\r\n\r\n";
	client_send_P(context, http_headers);

	// ~35 bytes per event JSON
	// 256 should be enough for ~7 characteristic updates
	json_stream *json = json_new(HOMEKIT_JSONBUFFER_SIZE, client_send_chunk, context);
	json_object_start(json);
	json_string(json, "characteristics");
	json_array_start(json);

	client_event_t *e = events;
	while (e) {
		json_object_start(json);
		write_characteristic_json(json, context, e->characteristic, (characteristic_format_t) 0,
				&e->value);
		json_object_end(json);

		e = e->next;
	}

	json_array_end(json);
	json_object_end(json);

	json_flush(json);
	json_free(json);

	client_send_chunk(NULL, 0, context);
}

void send_tlv_response(client_context_t *context, tlv_values_t *values);

void send_tlv_error_response(client_context_t *context, int state, TLVError error) {
	tlv_values_t *response = tlv_new();
	tlv_add_integer_value(response, TLVType_State, 1, state);
	tlv_add_integer_value(response, TLVType_Error, 1, error);

	send_tlv_response(context, response);
}

void send_tlv_response(client_context_t *context, tlv_values_t *values) {
	CLIENT_DEBUG(context, "Sending TLV response");TLV_DEBUG(values);

	size_t payload_size = 0;
	tlv_format(values, NULL, &payload_size);

	byte *payload = (byte*) malloc(payload_size);
	int r = tlv_format(values, payload, &payload_size);
	if (r) {
		CLIENT_ERROR(context, "Failed to format TLV payload (code %d)", r);
		free(payload);
		return;
	}

	tlv_free(values);

	static const char PROGMEM http_headers_pgm[] = "HTTP/1.1 200 OK\r\n"
				"Content-Type: application/pairing+tlv8\r\n"
				"Content-Length: %d\r\n"
				"Connection: keep-alive\r\n\r\n";

	XPGM_BUFFCPY_STRING(char, http_headers, http_headers_pgm);

	int response_size = strlen(http_headers) + payload_size + 32;
	char *response = (char*) malloc(response_size);
	int response_len = snprintf(response, response_size, http_headers, payload_size);

	if (response_size - response_len < payload_size + 1) {
		CLIENT_ERROR(context, "Incorrect response buffer size %d: headers took %d, payload size %d",
				response_size, response_len, payload_size);
		free(response);
		free(payload);
		return;
	}
	memcpy(response + response_len, payload, payload_size);
	response_len += payload_size;

	free(payload);

	client_send(context, (byte*) response, response_len);

	free(response);
}

static const char PROGMEM json_200_response_headers_progmem[] = "HTTP/1.1 200 OK\r\n"
		"Content-Type: application/hap+json\r\n"
		"Transfer-Encoding: chunked\r\n"
		"Connection: keep-alive\r\n\r\n";

static const char PROGMEM json_207_response_headers_progmem[] = "HTTP/1.1 207 Multi-Status\r\n"
		"Content-Type: application/hap+json\r\n"
		"Transfer-Encoding: chunked\r\n"
		"Connection: keep-alive\r\n\r\n";

void send_json_response(client_context_t *context, int status_code, byte *payload,
		size_t payload_size) {
	CLIENT_DEBUG(context, "Sending JSON response");DEBUG_HEAP();

	static const char PROGMEM http_headers_pgm[] = "HTTP/1.1 %d %s\r\n"
			"Content-Type: application/hap+json\r\n"
			"Content-Length: %d\r\n"
			"Connection: keep-alive\r\n\r\n";

	XPGM_BUFFCPY_STRING(char, http_headers, http_headers_pgm);

	CLIENT_DEBUG(context, "Payload: %s", payload);

	// Using PSTR and strcpy_P. Ref: ESP.getResetReason
	//const char *status_text = "OK";
	char status_text[32];
	strcpy_P(status_text, PSTR("OK"));
	switch (status_code) {
	case 204:
		strcpy_P(status_text, PSTR("No Content"));
		break;
	case 207:
		strcpy_P(status_text, PSTR("Multi-Status"));
		break;
	case 400:
		strcpy_P(status_text, PSTR("Bad Request"));
		break;
	case 404:
		strcpy_P(status_text, PSTR("Not Found"));
		break;
	case 422:
		strcpy_P(status_text, PSTR("Unprocessable Entity"));
		break;
	case 500:
		strcpy_P(status_text, PSTR("Internal Server Error"));
		break;
	case 503:
		strcpy_P(status_text, PSTR("Service Unavailable"));
		break;
	}

	int response_size = strlen(http_headers) + payload_size + strlen(status_text) + 32;
	char *response = (char*) malloc(response_size);
	if (!response) {
		CLIENT_ERROR(context, "Failed to allocate response buffer of size %d", response_size);
		return;
	}
	int response_len = snprintf(response, response_size, http_headers, status_code, status_text,
			payload_size);

	if (response_size - response_len < payload_size + 1) {
		CLIENT_ERROR(context, "Incorrect response buffer size %d: headers took %d, payload size %d",
				response_size, response_len, payload_size);
		free(response);
		return;
	}
	memcpy(response + response_len, payload, payload_size);
	response_len += payload_size;
	response[response_len] = 0;  // required for debug output

	CLIENT_DEBUG(context, "Sending HTTP response: %s", response);

	client_send(context, (byte*) response, response_len);

	free(response);
}

void send_json_error_response(client_context_t *context, int status_code, HAPStatus status) {
	byte buffer[32];
	int size = snprintf((char*) buffer, sizeof(buffer), "{\"status\": %d}", status);

	send_json_response(context, status_code, buffer, size);
}

homekit_client_id_t homekit_get_client_id() {
	return (homekit_client_id_t) current_client_context;
}

bool homekit_client_is_admin() {
	if (!current_client_context)
		return false;

	return current_client_context->permissions & pairing_permissions_admin;
}

int homekit_client_send(unsigned char *data, size_t size) {
	if (!current_client_context)
		return -1;
	client_send(current_client_context, data, size);
	return 0;
}

void homekit_server_on_identify(client_context_t *context) {
	CLIENT_INFO(context, "Identify");DEBUG_HEAP();
	if (context->server->paired) {
		// Already paired
		send_json_error_response(context, 400, HAPStatus_InsufficientPrivileges);
		return;
	}
	send_204_response(context);
	homekit_accessory_t *accessory = homekit_accessory_by_id(context->server->config->accessories,
			1);
	if (!accessory) {
		return;
	}

	homekit_service_t *accessory_info = homekit_service_by_type(accessory,
	HOMEKIT_SERVICE_ACCESSORY_INFORMATION);
	if (!accessory_info) {
		return;
	}

	homekit_characteristic_t *ch_identify = homekit_service_characteristic_by_type(accessory_info,
	HOMEKIT_CHARACTERISTIC_IDENTIFY);
	if (!ch_identify) {
		return;
	}
	if (ch_identify->setter_ex) {
		ch_identify->setter_ex(ch_identify, HOMEKIT_BOOL_CPP(true));
	}
}

void homekit_server_on_pair_setup(client_context_t *context, const byte *data, size_t size) {
	DEBUG("Pair Setup");DEBUG_HEAP();
	DEBUG_TIME_BEGIN();

#ifdef HOMEKIT_OVERCLOCK_PAIR_SETUP
    homekit_overclock_start();
#endif

	// First set step=NONE, if pair-setup ok then set step=1or2or3
	// (if pair-step error, the step is NONE)

	context->step = HOMEKIT_CLIENT_STEP_NONE;

	tlv_values_t *message = tlv_new();
	tlv_parse(data, size, message);
	TLV_DEBUG(message);
	switch (tlv_get_integer_value(message, TLVType_State, -1)) {
	case 1: {
		CLIENT_INFO(context, "Pair Setup Step 1/3");DEBUG_HEAP();
		if (context->server->paired) {
			CLIENT_INFO(context, "Refusing to pair: already paired");
			send_tlv_error_response(context, 2, TLVError_Unavailable);
			break;
		}
		if (context->server->pairing_context) {
			if (context->server->pairing_context->client != context) {
				CLIENT_INFO(context, "Refusing to pair: another pairing in progress");
				send_tlv_error_response(context, 2, TLVError_Busy);
				break;
			}
		} else {
			// arduino homekit preinit (create pairing_context)
			if (!arduino_homekit_preinit(context->server)) {
				CLIENT_ERROR(context, "Init pairing context error");
				send_tlv_error_response(context, 2, TLVError_Unknown);
				break;
			}
			if (saved_preinit_pairing_context == nullptr) {
				CLIENT_ERROR(context, "The saved_preinit_pairing_context is NULL ?!");
				send_tlv_error_response(context, 2, TLVError_Unknown);
				break;
			}
			context->server->pairing_context = saved_preinit_pairing_context; ///pairing_context_new();
			context->server->pairing_context->client = context;
		}

		int r = 0;
		size_t salt_size = 0;
		crypto_srp_get_salt(context->server->pairing_context->srp, NULL, &salt_size);
		byte *salt = (byte*) malloc(salt_size);
		r = crypto_srp_get_salt(context->server->pairing_context->srp, salt, &salt_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to get salt (code %d)", r);
			free(salt);
			pairing_context_free(context->server->pairing_context);
			context->server->pairing_context = NULL;
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}
		tlv_values_t *response = tlv_new();
		tlv_add_value(response, TLVType_PublicKey, context->server->pairing_context->public_key,
				context->server->pairing_context->public_key_size);
		tlv_add_value(response, TLVType_Salt, salt, salt_size);
		tlv_add_integer_value(response, TLVType_State, 1, 2);
		free(salt);
		send_tlv_response(context, response);
		context->step = HOMEKIT_CLIENT_STEP_PAIR_SETUP_1OF3;
		break;
	}
	case 3: {
		CLIENT_INFO(context, "Pair Setup Step 2/3");DEBUG_HEAP();
		tlv_t *device_public_key = tlv_get_value(message, TLVType_PublicKey);
		if (!device_public_key) {
			CLIENT_ERROR(context, "Invalid payload: no device public key");
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		tlv_t *proof = tlv_get_value(message, TLVType_Proof);
		if (!proof) {
			CLIENT_ERROR(context, "Invalid payload: no device proof");
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}
		CLIENT_DEBUG(context, "Computing SRP shared secret");
		DEBUG_HEAP();
		watchdog_disable_all();
		watchdog_check_begin();
		int r = crypto_srp_compute_key(context->server->pairing_context->srp,
				device_public_key->value, device_public_key->size,
				context->server->pairing_context->public_key,
				context->server->pairing_context->public_key_size);
		watchdog_check_end("crypto_srp_compute_key"); // 13479ms
		watchdog_enable_all();

		delay(10);

		if (r) {
			CLIENT_ERROR(context, "Failed to compute SRP shared secret (code %d)", r);
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		free(context->server->pairing_context->public_key);
		context->server->pairing_context->public_key = NULL;
		context->server->pairing_context->public_key_size = 0;

		CLIENT_DEBUG(context, "Verifying peer's proof");

		//watchdog_check_begin();
		r = crypto_srp_verify(context->server->pairing_context->srp, proof->value, proof->size);
		//watchdog_check_end("crypto_srp_verify");// 1ms

		if (r) {
			CLIENT_ERROR(context, "Failed to verify peer's proof (code %d)", r);
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}
		CLIENT_DEBUG(context, "Generating own proof");
		size_t server_proof_size = 0;
		crypto_srp_get_proof(context->server->pairing_context->srp, NULL, &server_proof_size);

		byte *server_proof = (byte*) malloc(server_proof_size);
		//watchdog_check_begin();
		r = crypto_srp_get_proof(context->server->pairing_context->srp, server_proof,
				&server_proof_size);
		//watchdog_check_end("crypto_srp_get_proof");// 1ms

		tlv_values_t *response = tlv_new();
		tlv_add_integer_value(response, TLVType_State, 1, 4);
		tlv_add_value(response, TLVType_Proof, server_proof, server_proof_size);
		free(server_proof);
		send_tlv_response(context, response);
		context->step = HOMEKIT_CLIENT_STEP_PAIR_SETUP_2OF3;
		break;
	}
	case 5: {
		CLIENT_INFO(context, "Pair Setup Step 3/3");DEBUG_HEAP();
		int r;
		byte shared_secret[HKDF_HASH_SIZE];
		size_t shared_secret_size = sizeof(shared_secret);

		CLIENT_DEBUG(context, "Calculating shared secret");
		const char salt1[] = "Pair-Setup-Encrypt-Salt";
		const char info1[] = "Pair-Setup-Encrypt-Info";

		r = crypto_srp_hkdf(context->server->pairing_context->srp, (byte*) salt1, sizeof(salt1) - 1,
				(byte*) info1, sizeof(info1) - 1, shared_secret, &shared_secret_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to generate shared secret (code %d)", r);
			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		tlv_t *tlv_encrypted_data = tlv_get_value(message, TLVType_EncryptedData);
		if (!tlv_encrypted_data) {
			CLIENT_ERROR(context, "Invalid payload: no encrypted data");
			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		CLIENT_DEBUG(context, "Decrypting payload");
		size_t decrypted_data_size = 0;
		crypto_chacha20poly1305_decrypt(shared_secret, (byte*) "\x0\x0\x0\x0PS-Msg05", NULL, 0,
				tlv_encrypted_data->value, tlv_encrypted_data->size,
				NULL, &decrypted_data_size);

		byte *decrypted_data = (byte*) malloc(decrypted_data_size);
		// TODO: check malloc result
		r = crypto_chacha20poly1305_decrypt(shared_secret, (byte*) "\x0\x0\x0\x0PS-Msg05", NULL, 0,
				tlv_encrypted_data->value, tlv_encrypted_data->size, decrypted_data,
				&decrypted_data_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to decrypt data (code %d)", r);

			free(decrypted_data);

			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		tlv_values_t *decrypted_message = tlv_new();
		r = tlv_parse(decrypted_data, decrypted_data_size, decrypted_message);
		if (r) {
			CLIENT_ERROR(context, "Failed to parse decrypted TLV (code %d)", r);

			tlv_free(decrypted_message);
			free(decrypted_data);

			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		free(decrypted_data);

		tlv_t *tlv_device_id = tlv_get_value(decrypted_message, TLVType_Identifier);
		if (!tlv_device_id) {
			CLIENT_ERROR(context, "Invalid encrypted payload: no device identifier");

			tlv_free(decrypted_message);

			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		// TODO: check that tlv_device_id->size == 36

		tlv_t *tlv_device_public_key = tlv_get_value(decrypted_message, TLVType_PublicKey);
		if (!tlv_device_public_key) {
			CLIENT_ERROR(context, "Invalid encrypted payload: no device public key");

			tlv_free(decrypted_message);

			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		tlv_t *tlv_device_signature = tlv_get_value(decrypted_message, TLVType_Signature);
		if (!tlv_device_signature) {
			CLIENT_ERROR(context, "Invalid encrypted payload: no device signature");

			tlv_free(decrypted_message);

			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		CLIENT_DEBUG(context, "Importing device public key");

		ed25519_key device_key;
		crypto_ed25519_init(&device_key);

		r = crypto_ed25519_import_public_key(&device_key, tlv_device_public_key->value,
				tlv_device_public_key->size);
		if (r) {
			CLIENT_ERROR(context, "Failed to import device public Key (code %d)", r);

			tlv_free(decrypted_message);

			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		byte device_x[HKDF_HASH_SIZE];
		size_t device_x_size = sizeof(device_x);

		CLIENT_DEBUG(context, "Calculating DeviceX");
		const char salt2[] = "Pair-Setup-Controller-Sign-Salt";
		const char info2[] = "Pair-Setup-Controller-Sign-Info";

		r = crypto_srp_hkdf(context->server->pairing_context->srp, (byte*) salt2, sizeof(salt2) - 1,
				(byte*) info2, sizeof(info2) - 1, device_x, &device_x_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to generate DeviceX (code %d)", r);

			tlv_free(decrypted_message);

			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		size_t device_info_size = device_x_size + tlv_device_id->size + tlv_device_public_key->size;
		byte *device_info = (byte*) malloc(device_info_size);
		memcpy(device_info, device_x, device_x_size);
		memcpy(device_info + device_x_size, tlv_device_id->value, tlv_device_id->size);
		memcpy(device_info + device_x_size + tlv_device_id->size, tlv_device_public_key->value,
				tlv_device_public_key->size);

		CLIENT_DEBUG(context, "Verifying device signature");
		r = crypto_ed25519_verify(&device_key, device_info, device_info_size,
				tlv_device_signature->value, tlv_device_signature->size);
		if (r) {
			CLIENT_ERROR(context, "Failed to generate DeviceX (code %d)", r);

			free(device_info);
			tlv_free(decrypted_message);

			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		free(device_info);

		r = homekit_storage_add_pairing((const char*) tlv_device_id->value, &device_key,
				pairing_permissions_admin);
		if (r) {
			CLIENT_ERROR(context, "Failed to store pairing (code %d)", r);

			tlv_free(decrypted_message);
			send_tlv_error_response(context, 6, TLVError_Unknown);
			break;
		}

		char *device_id = strndup((const char*) tlv_device_id->value, tlv_device_id->size);
		INFO("Added pairing with %s", device_id);
		free(device_id);

		tlv_free(decrypted_message);

		HOMEKIT_NOTIFY_EVENT(context->server, HOMEKIT_EVENT_PAIRING_ADDED);

		CLIENT_DEBUG(context, "Exporting accessory public key");
		size_t accessory_public_key_size = 0;

		crypto_ed25519_export_public_key(&context->server->accessory_key, NULL,
				&accessory_public_key_size);

		byte *accessory_public_key = (byte*) malloc(accessory_public_key_size);
		r = crypto_ed25519_export_public_key(&context->server->accessory_key, accessory_public_key,
				&accessory_public_key_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to export accessory public key (code %d)", r);

			free(accessory_public_key);

			send_tlv_error_response(context, 6, TLVError_Authentication);
			break;
		}

		size_t accessory_id_size = sizeof(context->server->accessory_id) - 1;
		size_t accessory_info_size = HKDF_HASH_SIZE + accessory_id_size + accessory_public_key_size;
		byte *accessory_info = (byte*) malloc(accessory_info_size);

		CLIENT_DEBUG(context, "Calculating AccessoryX");
		size_t accessory_x_size = accessory_info_size;
		const char salt3[] = "Pair-Setup-Accessory-Sign-Salt";
		const char info3[] = "Pair-Setup-Accessory-Sign-Info";
		r = crypto_srp_hkdf(context->server->pairing_context->srp, (byte*) salt3, sizeof(salt3) - 1,
				(byte*) info3, sizeof(info3) - 1, accessory_info, &accessory_x_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to generate AccessoryX (code %d)", r);

			free(accessory_info);
			free(accessory_public_key);

			send_tlv_error_response(context, 6, TLVError_Unknown);
			break;
		}

		memcpy(accessory_info + accessory_x_size, context->server->accessory_id, accessory_id_size);
		memcpy(accessory_info + accessory_x_size + accessory_id_size, accessory_public_key,
				accessory_public_key_size);

		CLIENT_DEBUG(context, "Generating accessory signature");DEBUG_HEAP();
		size_t accessory_signature_size = 0;
		crypto_ed25519_sign(&context->server->accessory_key, accessory_info, accessory_info_size,
		NULL, &accessory_signature_size);

		byte *accessory_signature = (byte*) malloc(accessory_signature_size);
		r = crypto_ed25519_sign(&context->server->accessory_key, accessory_info,
				accessory_info_size, accessory_signature, &accessory_signature_size);

		if (r) {
			CLIENT_ERROR(context, "Failed to generate accessory signature (code %d)", r);

			free(accessory_signature);
			free(accessory_public_key);
			free(accessory_info);

			send_tlv_error_response(context, 6, TLVError_Unknown);
			break;
		}

		free(accessory_info);

		tlv_values_t *response_message = tlv_new();
		tlv_add_value(response_message, TLVType_Identifier, (byte*) context->server->accessory_id,
				accessory_id_size);
		tlv_add_value(response_message, TLVType_PublicKey, accessory_public_key,
				accessory_public_key_size);
		tlv_add_value(response_message, TLVType_Signature, accessory_signature,
				accessory_signature_size);

		free(accessory_public_key);
		free(accessory_signature);

		size_t response_data_size = 0;
		TLV_DEBUG(response_message);

		tlv_format(response_message, NULL, &response_data_size);

		byte *response_data = (byte*) malloc(response_data_size);
		r = tlv_format(response_message, response_data, &response_data_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to format TLV response (code %d)", r);

			free(response_data);
			tlv_free(response_message);

			send_tlv_error_response(context, 6, TLVError_Unknown);
			break;
		}

		tlv_free(response_message);

		CLIENT_DEBUG(context, "Encrypting response");
		size_t encrypted_response_data_size = 0;
		crypto_chacha20poly1305_encrypt(shared_secret, (byte*) "\x0\x0\x0\x0PS-Msg06", NULL, 0,
				response_data, response_data_size,
				NULL, &encrypted_response_data_size);

		byte *encrypted_response_data = (byte*) malloc(encrypted_response_data_size);
		r = crypto_chacha20poly1305_encrypt(shared_secret, (byte*) "\x0\x0\x0\x0PS-Msg06", NULL, 0,
				response_data, response_data_size, encrypted_response_data,
				&encrypted_response_data_size);

		free(response_data);

		if (r) {
			CLIENT_ERROR(context, "Failed to encrypt response data (code %d)", r);

			free(encrypted_response_data);

			send_tlv_error_response(context, 6, TLVError_Unknown);
			break;
		}

		tlv_values_t *response = tlv_new();
		tlv_add_integer_value(response, TLVType_State, 1, 6);
		tlv_add_value(response, TLVType_EncryptedData, encrypted_response_data,
				encrypted_response_data_size);

		free(encrypted_response_data);
		send_tlv_response(context, response);

		pairing_context_free(context->server->pairing_context);
		context->server->pairing_context = NULL;
		context->server->paired = true;
		CLIENT_INFO(context, "Successfully paired");
		//homekit_setup_mdns(context->server);
		context->step = HOMEKIT_CLIENT_STEP_PAIR_SETUP_3OF3;
		break;
	}
	default: {
		CLIENT_ERROR(context, "Unknown state: %d",
				tlv_get_integer_value(message, TLVType_State, -1));
	}
	}

	tlv_free(message);
	DEBUG_TIME_END("pair_setup");

#ifdef HOMEKIT_OVERCLOCK_PAIR_SETUP
    homekit_overclock_end();
#endif
}

void homekit_server_on_pair_verify(client_context_t *context, const byte *data, size_t size) {
	DEBUG("HomeKit Pair Verify");DEBUG_HEAP();
	DEBUG_TIME_BEGIN();

	context->step = HOMEKIT_CLIENT_STEP_NONE;

#ifdef HOMEKIT_OVERCLOCK_PAIR_VERIFY
    homekit_overclock_start();
#endif

	tlv_values_t *message = tlv_new();
	tlv_parse(data, size, message);

	TLV_DEBUG(message);
	int r;
	switch (tlv_get_integer_value(message, TLVType_State, -1)) {
	case 1: {
		CLIENT_INFO(context, "Pair Verify Step 1/2");
		CLIENT_DEBUG(context, "Importing device Curve25519 public key");
		tlv_t *tlv_device_public_key = tlv_get_value(message, TLVType_PublicKey);
		if (!tlv_device_public_key) {
			CLIENT_ERROR(context, "Device Curve25519 public key not found");
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}
		curve25519_key device_key;
		r = crypto_curve25519_init(&device_key);
		if (r) {
			CLIENT_ERROR(context, "Failed to initialize device Curve25519 public key (code %d)", r);
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		r = crypto_curve25519_import_public(&device_key, tlv_device_public_key->value,
				tlv_device_public_key->size);
		if (r) {
			CLIENT_ERROR(context, "Failed to import device Curve25519 public key (code %d)", r);
			crypto_curve25519_done(&device_key);
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}
		CLIENT_DEBUG(context, "Generating accessory Curve25519 key");
		curve25519_key my_key;
		r = crypto_curve25519_generate(&my_key);
		if (r) {
			CLIENT_ERROR(context, "Failed to generate accessory Curve25519 key (code %d)", r);
			crypto_curve25519_done(&device_key);
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}
		CLIENT_DEBUG(context, "Exporting accessory Curve25519 public key");
		size_t my_key_public_size = 0;
		crypto_curve25519_export_public(&my_key, NULL, &my_key_public_size);

		byte *my_key_public = (byte*) malloc(my_key_public_size);
		r = crypto_curve25519_export_public(&my_key, my_key_public, &my_key_public_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to export accessory Curve25519 public key (code %d)", r);
			free(my_key_public);
			crypto_curve25519_done(&my_key);
			crypto_curve25519_done(&device_key);
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		CLIENT_DEBUG(context, "Generating Curve25519 shared secret");
		size_t shared_secret_size = 0;
		crypto_curve25519_shared_secret(&my_key, &device_key, NULL, &shared_secret_size);

		byte *shared_secret = (byte*) malloc(shared_secret_size);
		r = crypto_curve25519_shared_secret(&my_key, &device_key, shared_secret,
				&shared_secret_size);
		crypto_curve25519_done(&my_key);
		crypto_curve25519_done(&device_key);

		if (r) {
			CLIENT_ERROR(context, "Failed to generate Curve25519 shared secret (code %d)", r);
			free(shared_secret);
			free(my_key_public);
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		CLIENT_DEBUG(context, "Generating signature");
		size_t accessory_id_size = sizeof(context->server->accessory_id) - 1;
		size_t accessory_info_size = my_key_public_size + accessory_id_size
				+ tlv_device_public_key->size;

		byte *accessory_info = (byte*) malloc(accessory_info_size);
		memcpy(accessory_info, my_key_public, my_key_public_size);
		memcpy(accessory_info + my_key_public_size, context->server->accessory_id,
				accessory_id_size);
		memcpy(accessory_info + my_key_public_size + accessory_id_size,
				tlv_device_public_key->value, tlv_device_public_key->size);

		size_t accessory_signature_size = 0;
		crypto_ed25519_sign(&context->server->accessory_key, accessory_info, accessory_info_size,
		NULL, &accessory_signature_size);

		byte *accessory_signature = (byte*) malloc(accessory_signature_size);
		r = crypto_ed25519_sign(&context->server->accessory_key, accessory_info,
				accessory_info_size, accessory_signature, &accessory_signature_size);
		free(accessory_info);
		if (r) {
			CLIENT_ERROR(context, "Failed to generate signature (code %d)", r);
			free(accessory_signature);
			free(shared_secret);
			free(my_key_public);
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		tlv_values_t *sub_response = tlv_new();
		tlv_add_value(sub_response, TLVType_Identifier, (const byte*) context->server->accessory_id,
				accessory_id_size);
		tlv_add_value(sub_response, TLVType_Signature, accessory_signature,
				accessory_signature_size);

		free(accessory_signature);

		size_t sub_response_data_size = 0;
		tlv_format(sub_response, NULL, &sub_response_data_size);

		byte *sub_response_data = (byte*) malloc(sub_response_data_size);
		r = tlv_format(sub_response, sub_response_data, &sub_response_data_size);
		tlv_free(sub_response);

		if (r) {
			CLIENT_ERROR(context, "Failed to format sub-TLV message (code %d)", r);
			free(sub_response_data);
			free(shared_secret);
			free(my_key_public);
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		CLIENT_DEBUG(context, "Generating proof");
		size_t session_key_size = 0;
		const byte salt[] = "Pair-Verify-Encrypt-Salt";
		const byte info[] = "Pair-Verify-Encrypt-Info";
		crypto_hkdf(shared_secret, shared_secret_size, salt, sizeof(salt) - 1, info,
				sizeof(info) - 1,
				NULL, &session_key_size);

		byte *session_key = (byte*) malloc(session_key_size);
		r = crypto_hkdf(shared_secret, shared_secret_size, salt, sizeof(salt) - 1, info,
				sizeof(info) - 1, session_key, &session_key_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to derive session key (code %d)", r);
			free(session_key);
			free(sub_response_data);
			free(shared_secret);
			free(my_key_public);
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		CLIENT_DEBUG(context, "Encrypting response");
		size_t encrypted_response_data_size = 0;
		crypto_chacha20poly1305_encrypt(session_key, (byte*) "\x0\x0\x0\x0PV-Msg02", NULL, 0,
				sub_response_data, sub_response_data_size,
				NULL, &encrypted_response_data_size);

		byte *encrypted_response_data = (byte*) malloc(encrypted_response_data_size);
		r = crypto_chacha20poly1305_encrypt(session_key, (byte*) "\x0\x0\x0\x0PV-Msg02", NULL, 0,
				sub_response_data, sub_response_data_size, encrypted_response_data,
				&encrypted_response_data_size);
		free(sub_response_data);

		if (r) {
			CLIENT_ERROR(context, "Failed to encrypt sub response data (code %d)", r);
			free(encrypted_response_data);
			free(session_key);
			free(shared_secret);
			free(my_key_public);
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		tlv_values_t *response = tlv_new();
		tlv_add_integer_value(response, TLVType_State, 1, 2);
		tlv_add_value(response, TLVType_PublicKey, my_key_public, my_key_public_size);
		tlv_add_value(response, TLVType_EncryptedData, encrypted_response_data,
				encrypted_response_data_size);

		free(encrypted_response_data);

		send_tlv_response(context, response);

		if (context->verify_context)
			pair_verify_context_free(context->verify_context);

		context->verify_context = pair_verify_context_new();
		context->verify_context->secret = shared_secret;
		context->verify_context->secret_size = shared_secret_size;

		context->verify_context->session_key = session_key;
		context->verify_context->session_key_size = session_key_size;

		context->verify_context->accessory_public_key = my_key_public;
		context->verify_context->accessory_public_key_size = my_key_public_size;

		context->verify_context->device_public_key = (byte*) malloc(tlv_device_public_key->size);
		memcpy(context->verify_context->device_public_key, tlv_device_public_key->value,
				tlv_device_public_key->size);
		context->verify_context->device_public_key_size = tlv_device_public_key->size;
		context->step = HOMEKIT_CLIENT_STEP_PAIR_VERIFY_1OF2;
		break;
	}
	case 3: {
		CLIENT_INFO(context, "Pair Verify Step 2/2");

		if (!context->verify_context) {
			CLIENT_ERROR(context, "Failed to verify: no state 1 data");
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		tlv_t *tlv_encrypted_data = tlv_get_value(message, TLVType_EncryptedData);
		if (!tlv_encrypted_data) {
			CLIENT_ERROR(context, "Failed to verify: no encrypted data");
			pair_verify_context_free(context->verify_context);
			context->verify_context = NULL;
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		CLIENT_DEBUG(context, "Decrypting payload");
		size_t decrypted_data_size = 0;
		crypto_chacha20poly1305_decrypt(context->verify_context->session_key,
				(byte*) "\x0\x0\x0\x0PV-Msg03", NULL, 0, tlv_encrypted_data->value,
				tlv_encrypted_data->size,
				NULL, &decrypted_data_size);

		byte *decrypted_data = (byte*) malloc(decrypted_data_size);
		r = crypto_chacha20poly1305_decrypt(context->verify_context->session_key,
				(byte*) "\x0\x0\x0\x0PV-Msg03", NULL, 0, tlv_encrypted_data->value,
				tlv_encrypted_data->size, decrypted_data, &decrypted_data_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to decrypt data (code %d)", r);
			free(decrypted_data);
			pair_verify_context_free(context->verify_context);
			context->verify_context = NULL;
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		tlv_values_t *decrypted_message = tlv_new();
		r = tlv_parse(decrypted_data, decrypted_data_size, decrypted_message);
		free(decrypted_data);

		if (r) {
			CLIENT_ERROR(context, "Failed to parse decrypted TLV (code %d)", r);
			tlv_free(decrypted_message);
			pair_verify_context_free(context->verify_context);
			context->verify_context = NULL;
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		tlv_t *tlv_device_id = tlv_get_value(decrypted_message, TLVType_Identifier);
		if (!tlv_device_id) {
			CLIENT_ERROR(context, "Invalid encrypted payload: no device identifier");
			tlv_free(decrypted_message);
			pair_verify_context_free(context->verify_context);
			context->verify_context = NULL;
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		tlv_t *tlv_device_signature = tlv_get_value(decrypted_message, TLVType_Signature);
		if (!tlv_device_signature) {
			CLIENT_ERROR(context, "Invalid encrypted payload: no device identifier");
			tlv_free(decrypted_message);
			pair_verify_context_free(context->verify_context);
			context->verify_context = NULL;
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		char *device_id = strndup((const char*) tlv_device_id->value, tlv_device_id->size);
		CLIENT_DEBUG(context, "Searching pairing with %s", device_id);
		pairing_t pairing;
		if (homekit_storage_find_pairing(device_id, &pairing)) {
			CLIENT_ERROR(context, "No pairing for %s found", device_id);
			free(device_id);
			tlv_free(decrypted_message);
			pair_verify_context_free(context->verify_context);
			context->verify_context = NULL;
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		CLIENT_INFO(context, "Found pairing with %s", device_id);
		free(device_id);

		byte permissions = pairing.permissions;
		int pairing_id = pairing.id;

		size_t device_info_size = context->verify_context->device_public_key_size
				+ context->verify_context->accessory_public_key_size + tlv_device_id->size;
		byte *device_info = (byte*) malloc(device_info_size);
		memcpy(device_info, context->verify_context->device_public_key,
				context->verify_context->device_public_key_size);
		memcpy(device_info + context->verify_context->device_public_key_size, tlv_device_id->value,
				tlv_device_id->size);
		memcpy(device_info + context->verify_context->device_public_key_size + tlv_device_id->size,
				context->verify_context->accessory_public_key,
				context->verify_context->accessory_public_key_size);

		CLIENT_DEBUG(context, "Verifying device signature");
		r = crypto_ed25519_verify(&pairing.device_key, device_info, device_info_size,
				tlv_device_signature->value, tlv_device_signature->size);
		free(device_info);
		tlv_free(decrypted_message);

		if (r) {
			CLIENT_ERROR(context, "Failed to verify device signature (code %d)", r);
			pair_verify_context_free(context->verify_context);
			context->verify_context = NULL;
			send_tlv_error_response(context, 4, TLVError_Authentication);
			break;
		}

		const byte salt[] = "Control-Salt";
		size_t read_key_size = sizeof(context->read_key);
		const byte read_info[] = "Control-Read-Encryption-Key";
		r = crypto_hkdf(context->verify_context->secret, context->verify_context->secret_size, salt,
				sizeof(salt) - 1, read_info, sizeof(read_info) - 1, context->read_key,
				&read_key_size);
		if (r) {
			CLIENT_ERROR(context, "Failed to derive read encryption key (code %d)", r);
			pair_verify_context_free(context->verify_context);
			context->verify_context = NULL;
			send_tlv_error_response(context, 4, TLVError_Unknown);
			break;
		}

		size_t write_key_size = sizeof(context->write_key);
		const byte write_info[] = "Control-Write-Encryption-Key";

		r = crypto_hkdf(context->verify_context->secret, context->verify_context->secret_size, salt,
				sizeof(salt) - 1, write_info, sizeof(write_info) - 1, context->write_key,
				&write_key_size);

		pair_verify_context_free(context->verify_context);
		context->verify_context = NULL;

		if (r) {
			CLIENT_ERROR(context, "Failed to derive write encryption key (code %d)", r);
			send_tlv_error_response(context, 4, TLVError_Unknown);
			break;
		}

		tlv_values_t *response = tlv_new();
		tlv_add_integer_value(response, TLVType_State, 1, 4);
		send_tlv_response(context, response);

		context->pairing_id = pairing_id;
		context->permissions = permissions;
		context->encrypted = true;

		HOMEKIT_NOTIFY_EVENT(context->server, HOMEKIT_EVENT_CLIENT_VERIFIED);
		CLIENT_INFO(context, "Verification successful, secure session established");
		context->step = HOMEKIT_CLIENT_STEP_PAIR_VERIFY_2OF2;
		break;
	}
	default: {
		CLIENT_ERROR(context, "Unknown state: %d",
				tlv_get_integer_value(message, TLVType_State, -1));
	}
	}
	tlv_free(message);
	DEBUG_TIME_END("pair_verify");
	INFO_HEAP();

#ifdef HOMEKIT_OVERCLOCK_PAIR_VERIFY
    homekit_overclock_end();
#endif
}

void homekit_client_process(client_context_t *context);

void homekit_server_on_get_accessories(client_context_t *context) {
	DEBUG_TIME_BEGIN();
	CLIENT_INFO(context, "Get Accessories");DEBUG_HEAP();
	client_send_P(context, json_200_response_headers_progmem);

	CLIENT_DEBUG(context, "Get Accessories, start send json body");

	json_stream *json = json_new(HOMEKIT_JSONBUFFER_SIZE, client_send_chunk, context);
	json_object_start(json);
	json_string(json, "accessories");
	json_array_start(json);

	for (homekit_accessory_t **accessory_it = context->server->config->accessories;
			*accessory_it; accessory_it++) {

		homekit_accessory_t *accessory = *accessory_it;

		json_object_start(json);

		json_string(json, "aid");
		json_uint32(json, accessory->id);
		json_string(json, "services");
		json_array_start(json);

		for (homekit_service_t **service_it = accessory->services; *service_it; service_it++) {
			homekit_service_t *service = *service_it;

			json_object_start(json);

			json_string(json, "iid");
			json_uint32(json, service->id);
			json_string(json, "type");
			json_string(json, service->type);
			json_string(json, "hidden");
			json_boolean(json, service->hidden);
			json_string(json, "primary");
			json_boolean(json, service->primary);
			if (service->linked) {
				json_string(json, "linked");
				json_array_start(json);
				for (homekit_service_t **linked = service->linked; *linked; linked++) {
					json_uint32(json, (*linked)->id);
				}
				json_array_end(json);
			}

			json_string(json, "characteristics");
			json_array_start(json);

			for (homekit_characteristic_t **ch_it = service->characteristics; *ch_it; ch_it++) {
				homekit_characteristic_t *ch = *ch_it;

				json_object_start(json);
				write_characteristic_json(json, context, ch,
						(characteristic_format_t) (characteristic_format_type
								| characteristic_format_meta | characteristic_format_perms
								| characteristic_format_events),
						NULL);
				json_object_end(json);
			}

			json_array_end(json);
			json_object_end(json); // service
		}

		json_array_end(json);
		json_object_end(json); // accessory
	}

	json_array_end(json);
	json_object_end(json); // response

	json_flush(json);
	json_free(json);

	client_send_chunk(NULL, 0, context);
	DEBUG_TIME_END("get_accessories")
}

bool bool_endpoint_param(const char *name, client_context_t *context) {
	query_param_t *param = query_params_find(context->endpoint_params, name);
	return param && param->value && !strcmp(param->value, "1");
}

void write_characteristic_error(json_stream *json, uint32_t aid, uint32_t iid, int status) {
	json_object_start(json);
	json_string(json, "aid");
	json_uint32(json, aid);
	json_string(json, "iid");
	json_uint32(json, iid);
	json_string(json, "status");
	json_uint8(json, status);
	json_object_end(json);
}

void homekit_server_on_get_characteristics(client_context_t *context) {
	CLIENT_INFO(context, "Get Characteristics");DEBUG_HEAP();

	query_param_t *qp = context->endpoint_params;
	while (qp) {
		CLIENT_DEBUG(context, "Query paramter %s = %s", qp->name, qp->value);
		qp = qp->next;
	}

	query_param_t *id_param = query_params_find(context->endpoint_params, "id");
	if (!id_param) {
		CLIENT_ERROR(context, "Invalid get characteristics request: missing ID parameter");
		send_json_error_response(context, 400, HAPStatus_InvalidValue);
		return;
	}

	characteristic_format_t format = (characteristic_format_t) 0;
	if (bool_endpoint_param("meta", context))
		format = (characteristic_format_t) (format | characteristic_format_meta);

	if (bool_endpoint_param("perms", context))
		format = (characteristic_format_t) (format | characteristic_format_perms);

	if (bool_endpoint_param("type", context))
		format = (characteristic_format_t) (format | characteristic_format_type);

	if (bool_endpoint_param("ev", context))
		format = (characteristic_format_t) (format | characteristic_format_events);

	bool success = true;

	char *id = strdup(id_param->value);
	char *ch_id;
	char *_id = id;
	while ((ch_id = strsep(&_id, ","))) {
		char *dot = strstr(ch_id, ".");
		if (!dot) {
			send_json_error_response(context, 400, HAPStatus_InvalidValue);
			free(id);
			return;
		}

		*dot = 0;
		uint32_t aid = atoi(ch_id);
		uint32_t iid = atoi(dot + 1);

		CLIENT_DEBUG(context, "Requested characteristic info for %u.%u", aid, iid);
		homekit_characteristic_t *ch = homekit_characteristic_by_aid_and_iid(
				context->server->config->accessories, aid, iid);
		if (!ch) {
			success = false;
			continue;
		}

		if (!(ch->permissions & homekit_permissions_paired_read)) {
			success = false;
			continue;
		}
	}

	free(id);
	id = strdup(id_param->value);

	if (success) {
		client_send_P(context, json_200_response_headers_progmem);
	} else {
		client_send_P(context, json_207_response_headers_progmem);
	}

	json_stream *json = json_new(HOMEKIT_JSONBUFFER_SIZE, client_send_chunk, context);
	json_object_start(json);
	json_string(json, "characteristics");
	json_array_start(json);

	_id = id;
	while ((ch_id = strsep(&_id, ","))) {
		char *dot = strstr(ch_id, ".");
		*dot = 0;
		uint32_t aid = atoi(ch_id);
		uint32_t iid = atoi(dot + 1);

		CLIENT_DEBUG(context, "Requested characteristic info for %d.%d", aid, iid);
		homekit_characteristic_t *ch = homekit_characteristic_by_aid_and_iid(
				context->server->config->accessories, aid, iid);
		if (!ch) {
			write_characteristic_error(json, aid, iid, HAPStatus_NoResource);
			continue;
		}

		if (!(ch->permissions & homekit_permissions_paired_read)) {
			write_characteristic_error(json, aid, iid, HAPStatus_WriteOnly);
			continue;
		}

		json_object_start(json);
		write_characteristic_json(json, context, ch, format, NULL);
		if (!success) {
			json_string(json, "status");
			json_uint8(json, HAPStatus_Success);
		}
		json_object_end(json);
	}

	json_array_end(json);
	json_object_end(json); // response

	json_flush(json);
	json_free(json);

	client_send_chunk(NULL, 0, context);

	free(id);
}

HAPStatus process_characteristics_update(const cJSON *j_ch, client_context_t *context) {
	cJSON *j_aid = cJSON_GetObjectItem(j_ch, "aid");
	if (!j_aid) {
		CLIENT_ERROR(context, "Failed to process request: no \"aid\" field");
		return HAPStatus_NoResource;
	}
	if (j_aid->type != cJSON_Number) {
		CLIENT_ERROR(context, "Failed to process request: \"aid\" field is not a number");
		return HAPStatus_NoResource;
	}

	cJSON *j_iid = cJSON_GetObjectItem(j_ch, "iid");
	if (!j_iid) {
		CLIENT_ERROR(context, "Failed to process request: no \"iid\" field");
		return HAPStatus_NoResource;
	}
	if (j_iid->type != cJSON_Number) {
		CLIENT_ERROR(context, "Failed to process request: \"iid\" field is not a number");
		return HAPStatus_NoResource;
	}

	uint32_t aid = (uint32_t)j_aid->valuedouble;//j_aid->valueint;
	uint32_t iid = (uint32_t)j_iid->valuedouble;//j_iid->valueint;

	homekit_characteristic_t *ch = homekit_characteristic_by_aid_and_iid(
			context->server->config->accessories, aid, iid);
	if (!ch) {
		CLIENT_ERROR(context,
				"Failed to process request to update %u.%u: " "no such characteristic", aid, iid);
		return HAPStatus_NoResource;
	}

	cJSON *j_value = cJSON_GetObjectItem(j_ch, "value");
	if (j_value) {
		homekit_value_t h_value = HOMEKIT_NULL_CPP();

		if (!(ch->permissions & homekit_permissions_paired_write)) {
			CLIENT_ERROR(context, "Failed to update %d.%d: no write permission", aid, iid);
			return HAPStatus_ReadOnly;
		}

		switch (ch->format) {
		case homekit_format_bool: {
			bool value = false;
			if (j_value->type == cJSON_True) {
				value = true;
			} else if (j_value->type == cJSON_False) {
				value = false;
			} else if (j_value->type == cJSON_Number
					&& (j_value->valueint == 0 || j_value->valueint == 1)) {
				value = j_value->valueint == 1;
			} else {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is not a boolean or 0/1", aid,
						iid);
				return HAPStatus_InvalidValue;
			}

			CLIENT_DEBUG(context, "Updating characteristic %d.%d with boolean %s", aid, iid, value ? "true" : "false");

			h_value = HOMEKIT_BOOL_CPP(value);
			if (ch->setter_ex) {
				ch->setter_ex(ch, h_value);
			} else {
				ch->value = h_value;
			}
			break;
		}
		case homekit_format_uint8:
			case homekit_format_uint16:
			case homekit_format_uint32:
			case homekit_format_uint64:
			case homekit_format_int: {
			// We accept boolean values here in order to fix a bug in HomeKit. HomeKit sometimes sends a boolean instead of an integer of value 0 or 1.
			if (j_value->type != cJSON_Number && j_value->type != cJSON_False
					&& j_value->type != cJSON_True) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is not a number", aid, iid);
				return HAPStatus_InvalidValue;
			}

			double min_value = 0;
			double max_value = 0;

			switch (ch->format) {
			case homekit_format_uint8: {
				min_value = 0;
				max_value = 255;
				break;
			}
			case homekit_format_uint16: {
				min_value = 0;
				max_value = 65535;
				break;
			}
			case homekit_format_uint32: {
				min_value = 0;
				max_value = 4294967295;
				break;
			}
			case homekit_format_uint64: {
				min_value = 0;
				max_value = 18446744073709551615ULL;
				break;
			}
			case homekit_format_int: {
				min_value = -2147483648;
				max_value = 2147483647;
				break;
			}
			default: {
				// Impossible, keeping to make compiler happy
				break;
			}
			}

			if (ch->min_value)
				min_value = *ch->min_value;
			if (ch->max_value)
				max_value = *ch->max_value;

			double value = j_value->valuedouble;
			if (value < min_value || value > max_value) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value %g is not in range %g..%g",
						aid, iid, value, min_value, max_value);
				return HAPStatus_InvalidValue;
			}

			if (ch->valid_values.count) {
				bool matches = false;
				int v = (int) value;
				for (int i = 0; i < ch->valid_values.count; i++) {
					if (v == ch->valid_values.values[i]) {
						matches = true;
						break;
					}
				}

				if (!matches) {
					CLIENT_ERROR(context,
							"Failed to update %d.%d: value is not one of valid values", aid, iid);
					return HAPStatus_InvalidValue;
				}
			}

			if (ch->valid_values_ranges.count) {
				bool matches = false;
				for (int i = 0; i < ch->valid_values_ranges.count; i++) {
					if (value >= ch->valid_values_ranges.ranges[i].start
							&& value <= ch->valid_values_ranges.ranges[i].end) {
						matches = true;
						break;
					}
				}

				if (!matches) {
					CLIENT_ERROR(context,
							"Failed to update %d.%d: value is not in valid values range", aid, iid);
					return HAPStatus_InvalidValue;
				}
			}

			CLIENT_DEBUG(context, "Updating characteristic %d.%d with integer %g", aid, iid, value);

			switch (ch->format) {
			case homekit_format_uint8:
				h_value = HOMEKIT_UINT8_CPP(value);
				break;
			case homekit_format_uint16:
				h_value = HOMEKIT_UINT16_CPP(value);
				break;
			case homekit_format_uint32:
				h_value = HOMEKIT_UINT32_CPP(value);
				break;
			case homekit_format_uint64:
				h_value = HOMEKIT_UINT64_CPP(value);
				break;
			case homekit_format_int:
				h_value = HOMEKIT_INT_CPP(value);
				break;

			default:
				CLIENT_ERROR(context, "Unexpected format when updating numeric value: %d",
						ch->format);
				return HAPStatus_InvalidValue;
			}

			if (ch->setter_ex) {
				ch->setter_ex(ch, h_value);
			} else {
				ch->value = h_value;
			}
			break;
		}
		case homekit_format_float: {
			if (j_value->type != cJSON_Number) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is not a number", aid, iid);
				return HAPStatus_InvalidValue;
			}

			float value = j_value->valuedouble;
			if ((ch->min_value && value < *ch->min_value)
					|| (ch->max_value && value > *ch->max_value)) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is not in range", aid, iid);
				return HAPStatus_InvalidValue;
			}

			CLIENT_DEBUG(context, "Updating characteristic %d.%d with %g", aid, iid, value);

			h_value = HOMEKIT_FLOAT_CPP(value);
			if (ch->setter_ex) {
				ch->setter_ex(ch, h_value);
			} else {
				ch->value = h_value;
			}
			break;
		}
		case homekit_format_string: {
			if (j_value->type != cJSON_String) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is not a string", aid, iid);
				return HAPStatus_InvalidValue;
			}

			int max_len = (ch->max_len) ? *ch->max_len : 64;

			char *value = j_value->valuestring;
			if (strlen(value) > max_len) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is too long", aid, iid);
				return HAPStatus_InvalidValue;
			}

			CLIENT_DEBUG(context, "Updating characteristic %d.%d with \"%s\"", aid, iid, value);

			h_value = HOMEKIT_STRING_CPP(value);
			if (ch->setter_ex) {
				ch->setter_ex(ch, h_value);
			} else {
				homekit_value_destruct(&ch->value);
				homekit_value_copy(&ch->value, &h_value);
			}
			break;
		}
		case homekit_format_tlv: {
			if (j_value->type != cJSON_String) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is not a string", aid, iid);
				return HAPStatus_InvalidValue;
			}

			int max_len = (ch->max_len) ? *ch->max_len : 256;

			char *value = j_value->valuestring;
			size_t value_len = strlen(value);
			if (value_len > max_len) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is too long", aid, iid);
				return HAPStatus_InvalidValue;
			}

			size_t tlv_size = base64_decoded_size((unsigned char*) value, value_len);
			byte *tlv_data = (byte*) malloc(tlv_size);
			if (base64_decode_((byte*) value, value_len, tlv_data) < 0) {
				free(tlv_data);
				CLIENT_ERROR(context, "Failed to update %d.%d: error Base64 decoding", aid, iid);
				return HAPStatus_InvalidValue;
			}

			tlv_values_t *tlv_values = tlv_new();
			int r = tlv_parse(tlv_data, tlv_size, tlv_values);
			free(tlv_data);

			if (r) {
				CLIENT_ERROR(context, "Failed to update %d.%d: error parsing TLV", aid, iid);
				return HAPStatus_InvalidValue;
			}

			CLIENT_DEBUG(context, "Updating characteristic %d.%d with TLV:", aid, iid);
			for (tlv_t *t = tlv_values->head; t; t = t->next) {
				char *escaped_payload = binary_to_string(t->value, t->size);
				CLIENT_DEBUG(context, "  Type %d value (%d bytes): %s", t->type, t->size, escaped_payload);
				free(escaped_payload);
			}

			h_value = HOMEKIT_TLV_CPP(tlv_values);
			if (ch->setter_ex) {
				ch->setter_ex(ch, h_value);
			} else {
				homekit_value_destruct(&ch->value);
				homekit_value_copy(&ch->value, &h_value);
			}

			tlv_free(tlv_values);
			break;
		}
		case homekit_format_data: {
			if (j_value->type != cJSON_String) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is not a string", aid, iid);
				return HAPStatus_InvalidValue;
			}

			// Default max data len = 2,097,152 but that does not make sense
			// for this accessory
			int max_len = (ch->max_data_len) ? *ch->max_data_len : 4096;

			char *value = j_value->valuestring;
			size_t value_len = strlen(value);
			if (value_len > max_len) {
				CLIENT_ERROR(context, "Failed to update %d.%d: value is too long", aid, iid);
				return HAPStatus_InvalidValue;
			}

			size_t data_size = base64_decoded_size((unsigned char*) value, value_len);
			byte *data = (byte*) malloc(data_size);
			if (base64_decode_((byte*) value, value_len, data) < 0) {
				free(data);
				CLIENT_ERROR(context, "Failed to update %d.%d: error Base64 decoding", aid, iid);
				return HAPStatus_InvalidValue;
			}

			CLIENT_DEBUG(context, "Updating characteristic %d.%d with Data:", aid, iid);

			h_value = HOMEKIT_DATA_CPP(data, data_size);
			if (ch->setter_ex) {
				ch->setter_ex(ch, h_value);
			} else {
				homekit_value_destruct(&ch->value);
				homekit_value_copy(&ch->value, &h_value);
			}
			break;
		}
		}

		if (!h_value.is_null) {
			context->current_characteristic = ch;
			context->current_value = &h_value;

			homekit_characteristic_notify(ch, h_value);

			context->current_characteristic = NULL;
			context->current_value = NULL;
		}
	}

	cJSON *j_events = cJSON_GetObjectItem(j_ch, "ev");
	if (j_events) {
		if (!(ch->permissions && homekit_permissions_notify)) {
			CLIENT_ERROR(context,
					"Failed to set notification state for %d.%d: " "notifications are not supported",
					aid, iid);
			return HAPStatus_NotificationsUnsupported;
		}

		if ((j_events->type != cJSON_True) && (j_events->type != cJSON_False)) {
			CLIENT_ERROR(context,
					"Failed to set notification state for %d.%d: " "invalid state value", aid, iid);
		}

		if (j_events->type == cJSON_True) {
			homekit_characteristic_add_notify_callback(ch, client_notify_characteristic, context);
		} else {
			homekit_characteristic_remove_notify_callback(ch, client_notify_characteristic,
					context);
		}
	}

	return HAPStatus_Success;
}

void homekit_server_on_update_characteristics(client_context_t *context, const byte *data,
		size_t size) {
	DEBUG_TIME_BEGIN();
	CLIENT_INFO(context, "Update Characteristics");DEBUG_HEAP();

	char *data1 = strndup((char*) data, size);
	cJSON *json = cJSON_Parse(data1);
	free(data1);

	if (!json) {
		CLIENT_ERROR(context, "Failed to parse request JSON");
		send_json_error_response(context, 400, HAPStatus_InvalidValue);
		return;
	}

	cJSON *characteristics = cJSON_GetObjectItem(json, "characteristics");
	if (!characteristics) {
		CLIENT_ERROR(context, "Failed to parse request: no \"characteristics\" field");
		cJSON_Delete(json);
		send_json_error_response(context, 400, HAPStatus_InvalidValue);
		return;
	}
	if (characteristics->type != cJSON_Array) {
		CLIENT_ERROR(context, "Failed to parse request: \"characteristics\" field is not an list");
		cJSON_Delete(json);
		send_json_error_response(context, 400, HAPStatus_InvalidValue);
		return;
	}

	HAPStatus *statuses = (HAPStatus*) malloc(
			sizeof(HAPStatus) * cJSON_GetArraySize(characteristics));
	bool has_errors = false;

	for (int i = 0; i < cJSON_GetArraySize(characteristics); i++) {

		cJSON *j_ch = cJSON_GetArrayItem(characteristics, i);

		char *s = cJSON_Print(j_ch);
		CLIENT_DEBUG(context, "Processing element %s", s);
		free(s);

		statuses[i] = process_characteristics_update(j_ch, context);

		if (statuses[i] != HAPStatus_Success)
			has_errors = true;
	}

	if (!has_errors) {
		CLIENT_DEBUG(context, "There were no processing errors, sending No Content response");

		send_204_response(context);
	} else {
		CLIENT_DEBUG(context, "There were processing errors, sending Multi-Status response");
		client_send_P(context, json_207_response_headers_progmem);

		json_stream *json1 = json_new(HOMEKIT_JSONBUFFER_SIZE, client_send_chunk, context);
		json_object_start(json1);
		json_string(json1, "characteristics");
		json_array_start(json1);

		for (int i = 0; i < cJSON_GetArraySize(characteristics); i++) {

			cJSON *j_ch = cJSON_GetArrayItem(characteristics, i);

			json_object_start(json1);
			json_string(json1, "aid");
			json_uint32(json1, cJSON_GetObjectItem(j_ch, "aid")->valuedouble);//->valueint);
			json_string(json1, "iid");
			json_uint32(json1, cJSON_GetObjectItem(j_ch, "iid")->valuedouble);//->valueint);
			json_string(json1, "status");
			json_uint8(json1, statuses[i]);
			json_object_end(json1);
		}

		json_array_end(json1);
		json_object_end(json1); // response

		json_flush(json1);
		json_free(json1);

		client_send_chunk(NULL, 0, context);
	}

	free(statuses);
	cJSON_Delete(json);
	DEBUG_TIME_END("update_characteristics");
}

void homekit_server_on_pairings(client_context_t *context, const byte *data, size_t size) {
	DEBUG("HomeKit Pairings");DEBUG_HEAP();

	//context->step = HOMEKIT_CLIENT_STEP_PAIRINGS;
	tlv_values_t *message = tlv_new();
	tlv_parse(data, size, message);

	TLV_DEBUG(message);

	int r;

	if (tlv_get_integer_value(message, TLVType_State, -1) != 1) {
		send_tlv_error_response(context, 2, TLVError_Unknown);
		tlv_free(message);
		return;
	}

	switch (tlv_get_integer_value(message, TLVType_Method, -1)) {
	case TLVMethod_AddPairing: {
		CLIENT_INFO(context, "Add Pairing");

		if (!(context->permissions & pairing_permissions_admin)) {
			CLIENT_ERROR(context, "Refusing to add pairing to non-admin controller");
			send_tlv_error_response(context, 2, TLVError_Authentication);
			break;
		}

		tlv_t *tlv_device_identifier = tlv_get_value(message, TLVType_Identifier);
		if (!tlv_device_identifier) {
			CLIENT_ERROR(context, "Invalid add pairing request: no device identifier");
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}
		tlv_t *tlv_device_public_key = tlv_get_value(message, TLVType_PublicKey);
		if (!tlv_device_public_key) {
			CLIENT_ERROR(context, "Invalid add pairing request: no device public key");
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}
		int device_permissions = tlv_get_integer_value(message, TLVType_Permissions, -1);
		if (device_permissions == -1) {
			CLIENT_ERROR(context, "Invalid add pairing request: no device permissions");
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		ed25519_key device_key;
		crypto_ed25519_init(&device_key);
		r = crypto_ed25519_import_public_key(&device_key, tlv_device_public_key->value,
				tlv_device_public_key->size);
		if (r) {
			CLIENT_ERROR(context, "Failed to import device public key");
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		char *device_identifier = strndup((const char*) tlv_device_identifier->value,
				tlv_device_identifier->size);

		pairing_t pairing;
		if (!homekit_storage_find_pairing(device_identifier, &pairing)) {
			size_t pairing_public_key_size = 0;
			crypto_ed25519_export_public_key(&pairing.device_key, NULL, &pairing_public_key_size);

			byte *pairing_public_key = (byte*) malloc(pairing_public_key_size);
			r = crypto_ed25519_export_public_key(&pairing.device_key, pairing_public_key,
					&pairing_public_key_size);
			if (r) {
				CLIENT_ERROR(context,
						"Failed to add pairing: error exporting pairing public key (code %d)", r);
				free(pairing_public_key);
				free(device_identifier);
				send_tlv_error_response(context, 2, TLVError_Unknown);
			}

			if (pairing_public_key_size != tlv_device_public_key->size
					|| memcmp(tlv_device_public_key->value, pairing_public_key,
							pairing_public_key_size)) {
				CLIENT_ERROR(context,
						"Failed to add pairing: pairing public key differs from given one");
				free(pairing_public_key);
				free(device_identifier);
				send_tlv_error_response(context, 2, TLVError_Unknown);
			}

			free(pairing_public_key);

			r = homekit_storage_update_pairing(device_identifier, device_permissions);
			if (r) {
				CLIENT_ERROR(context, "Failed to add pairing: storage error (code %d)", r);
				free(device_identifier);
				send_tlv_error_response(context, 2, TLVError_Unknown);
				break;
			}

			INFO("Updated pairing with %s", device_identifier);
		} else {
			if (!homekit_storage_can_add_pairing()) {
				CLIENT_ERROR(context, "Failed to add pairing: max peers");
				free(device_identifier);
				send_tlv_error_response(context, 2, TLVError_MaxPeers);
				break;
			}

			r = homekit_storage_add_pairing(device_identifier, &device_key, device_permissions);
			if (r) {
				CLIENT_ERROR(context, "Failed to add pairing: storage error (code %d)", r);
				free(device_identifier);
				send_tlv_error_response(context, 2, TLVError_Unknown);
				break;
			}

			INFO("Added pairing with %s", device_identifier);

			HOMEKIT_NOTIFY_EVENT(context->server, HOMEKIT_EVENT_PAIRING_ADDED);
		}

		free(device_identifier);

		tlv_values_t *response = tlv_new();
		tlv_add_integer_value(response, TLVType_State, 1, 2);

		send_tlv_response(context, response);

		break;
	}
	case TLVMethod_RemovePairing: {
		CLIENT_INFO(context, "Remove Pairing");

		if (!(context->permissions & pairing_permissions_admin)) {
			CLIENT_ERROR(context, "Refusing to remove pairing to non-admin controller");
			send_tlv_error_response(context, 2, TLVError_Authentication);
			break;
		}

		tlv_t *tlv_device_identifier = tlv_get_value(message, TLVType_Identifier);
		if (!tlv_device_identifier) {
			CLIENT_ERROR(context, "Invalid remove pairing request: no device identifier");
			send_tlv_error_response(context, 2, TLVError_Unknown);
			break;
		}

		char *device_identifier = strndup((const char*) tlv_device_identifier->value,
				tlv_device_identifier->size);

		pairing_t pairing;
		if (!homekit_storage_find_pairing(device_identifier, &pairing)) {
			bool is_admin = pairing.permissions & pairing_permissions_admin;

			r = homekit_storage_remove_pairing(device_identifier);
			if (r) {
				CLIENT_ERROR(context, "Failed to remove pairing: storage error (code %d)", r);
				free(device_identifier);
				send_tlv_error_response(context, 2, TLVError_Unknown);
				break;
			}

			INFO("Removed pairing with %s", device_identifier);

			HOMEKIT_NOTIFY_EVENT(context->server, HOMEKIT_EVENT_PAIRING_REMOVED);

			client_context_t *c = context->server->clients;
			while (c) {
				if (c->pairing_id == pairing.id)
					c->disconnect = true;
				c = c->next;
			}

			if (is_admin) {
				// Removed pairing was admin,
				// check if there any other admins left.
				// If no admins left, enable pairing again
				bool admin_found = false;

				pairing_iterator_t pairing_it;
				homekit_storage_pairing_iterator_init(&pairing_it);
				while ((!homekit_storage_next_pairing(&pairing_it, &pairing))) {
					if (pairing.permissions & pairing_permissions_admin) {
						admin_found = true;
						break;
					}
				};
				homekit_storage_pairing_iterator_done(&pairing_it);

				if (!admin_found) {
					// No admins left, enable pairing again
					INFO("Last admin pairing was removed, enabling pair setup");
					context->server->paired = false;
					//homekit_setup_mdns(context->server);
				}
			}
		}
		free(device_identifier);

		tlv_values_t *response = tlv_new();
		tlv_add_integer_value(response, TLVType_State, 1, 2);
		send_tlv_response(context, response);

		break;
	}
	case TLVMethod_ListPairings: {
		CLIENT_INFO(context, "List Pairings");

		if (!(context->permissions & pairing_permissions_admin)) {
			CLIENT_INFO(context, "Refusing to list pairings to non-admin controller");
			send_tlv_error_response(context, 2, TLVError_Authentication);
			break;
		}

		tlv_values_t *response = tlv_new();
		tlv_add_integer_value(response, TLVType_State, 1, 2);

		bool first = true;

		pairing_iterator_t it;
		homekit_storage_pairing_iterator_init(&it);

		pairing_t pairing;

		byte public_key[32];

		while (!homekit_storage_next_pairing(&it, &pairing)) {
			if (!first) {
				tlv_add_value(response, TLVType_Separator, NULL, 0);
			}
			size_t public_key_size = sizeof(public_key);
			r = crypto_ed25519_export_public_key(&pairing.device_key, public_key, &public_key_size);

			tlv_add_string_value(response, TLVType_Identifier, pairing.device_id);
			tlv_add_value(response, TLVType_PublicKey, public_key, public_key_size);
			tlv_add_integer_value(response, TLVType_Permissions, 1, pairing.permissions);

			first = false;
		}
		homekit_storage_pairing_iterator_done(&it);

		send_tlv_response(context, response);
		break;
	}
	default: {
		send_tlv_error_response(context, 2, TLVError_Unknown);
		break;
	}
	}

	tlv_free(message);
}

void homekit_server_on_reset(client_context_t *context) {
	INFO("Reset");

	homekit_server_reset();
	send_204_response(context);
	homekit_system_restart();
}

void homekit_server_on_resource(client_context_t *context) {
	CLIENT_INFO(context, "Resource");DEBUG_HEAP();

	if (!context->server->config->on_resource) {
		send_404_response(context);
		return;
	}

	context->server->config->on_resource(context->body, context->body_length);
}
//=============================================
// parse data
//=============================================

int homekit_server_on_url(http_parser *parser, const char *data, size_t length) {
	client_context_t *context = (client_context_t*) parser->data;

	context->endpoint = HOMEKIT_ENDPOINT_UNKNOWN;
	if (parser->method == HTTP_PARSER_METHOD_GET) {
		if (!strncmp(data, "/accessories", length)) {
			context->endpoint = HOMEKIT_ENDPOINT_GET_ACCESSORIES;
		} else {
			static const char url[] = "/characteristics";
			size_t url_len = sizeof(url) - 1;

			if (length >= url_len && !strncmp(data, url, url_len)
					&& (data[url_len] == 0 || data[url_len] == '?')) {
				context->endpoint = HOMEKIT_ENDPOINT_GET_CHARACTERISTICS;
				if (data[url_len] == '?') {
					char *query = strndup(data + url_len + 1, length - url_len - 1);
					context->endpoint_params = query_params_parse(query);
					free(query);
				}
			}
		}
	} else if (parser->method == HTTP_PARSER_METHOD_POST) {
		if (!strncmp(data, "/identify", length)) {
			context->endpoint = HOMEKIT_ENDPOINT_IDENTIFY;
		} else if (!strncmp(data, "/pair-setup", length)) {
			context->endpoint = HOMEKIT_ENDPOINT_PAIR_SETUP;
		} else if (!strncmp(data, "/pair-verify", length)) {
			context->endpoint = HOMEKIT_ENDPOINT_PAIR_VERIFY;
		} else if (!strncmp(data, "/pairings", length)) {
			context->endpoint = HOMEKIT_ENDPOINT_PAIRINGS;
		} else if (!strncmp(data, "/resource", length)) {
			context->endpoint = HOMEKIT_ENDPOINT_RESOURCE;
		}
	} else if (parser->method == HTTP_PARSER_METHOD_PUT) {
		if (!strncmp(data, "/characteristics", length)) {
			context->endpoint = HOMEKIT_ENDPOINT_UPDATE_CHARACTERISTICS;
		}
	}

	if (context->endpoint == HOMEKIT_ENDPOINT_UNKNOWN) {
		char *url = strndup(data, length);
		//TODO fix
		//ERROR("Unknown endpoint: %s %s", http_method_str(parser->method), url);
		free(url);
	}

	return 0;
}

int homekit_server_on_body(http_parser *parser, const char *data, size_t length) {
	DEBUG("http_parser lenght=%d", length);
	client_context_t *context = (client_context_t*) parser->data;
	context->body = (char*) realloc(context->body, context->body_length + length + 1);
	memcpy(context->body + context->body_length, data, length);
	context->body_length += length;
	context->body[context->body_length] = 0;

	return 0;
}

int homekit_server_on_message_complete(http_parser *parser) {
	DEBUG("http_parser message_complete");
	client_context_t *context = (client_context_t*) parser->data;

	if (!context->encrypted) {
		switch (context->endpoint) {
		case HOMEKIT_ENDPOINT_PAIR_SETUP: {
			homekit_server_on_pair_setup(context, (const byte*) context->body,
					context->body_length);
			break;
		}
		case HOMEKIT_ENDPOINT_PAIR_VERIFY: {
			homekit_server_on_pair_verify(context, (const byte*) context->body,
					context->body_length);
			break;
		}
		default: {
			DEBUG("Unknown endpoint");
			send_404_response(context);
			break;
		}
		}
	} else {
		switch (context->endpoint) {
		case HOMEKIT_ENDPOINT_IDENTIFY: {
			homekit_server_on_identify(context);
			break;
		}
		case HOMEKIT_ENDPOINT_GET_ACCESSORIES: {
			homekit_server_on_get_accessories(context);
			break;
		}
		case HOMEKIT_ENDPOINT_GET_CHARACTERISTICS: {
			homekit_server_on_get_characteristics(context);
			break;
		}
		case HOMEKIT_ENDPOINT_UPDATE_CHARACTERISTICS: {
			homekit_server_on_update_characteristics(context, (const byte*) context->body,
					context->body_length);
			break;
		}
		case HOMEKIT_ENDPOINT_PAIRINGS: {
			homekit_server_on_pairings(context, (const byte*) context->body, context->body_length);
			break;
		}
		case HOMEKIT_ENDPOINT_RESOURCE: {
			homekit_server_on_resource(context);
			break;
		}
		default: {
			DEBUG("Unknown endpoint");
			send_404_response(context);
			break;
		}
		}
	}

	if (context->endpoint_params) {
		query_params_free(context->endpoint_params);
		context->endpoint_params = NULL;
	}

	if (context->body) {
		free(context->body);
		context->body = NULL;
		context->body_length = 0;
	}
	return 0;
}

http_parser_settings make_http_parser_settings() {
	http_parser_settings settings;
	settings.on_url = homekit_server_on_url;
	settings.on_body = homekit_server_on_body;
	settings.on_message_complete = homekit_server_on_message_complete;
	return settings;
}

//sorry, unimplemented: non-trivial designated initializers not supported
//static http_parser_settings homekit_http_parser_settings = {
//    .on_url = homekit_server_on_url,
//    .on_body = homekit_server_on_body,
//    .on_message_complete = homekit_server_on_message_complete,
//};
//点号+赋值符号
//struct A a={.b = 1,.c = 2}; //c++ compiler dose not support
//冒号
//struct A a={b:1,c:2}；
static http_parser_settings homekit_http_parser_settings = make_http_parser_settings();

void homekit_client_process(client_context_t *context) {
//    int data_len = read(
//        context->socket,
//        context->data+context->data_available,
//        context->data_size-context->data_available
//    );
	if (context->socket == nullptr) {
		CLIENT_ERROR(context, "The socket is null");
		return;
	}
	int data_len = 0;
	int available_len = context->socket->available();  // optimistic_yield(100);
	if (available_len > 0) {
		int size = context->data_size - context->data_available;
		if (size > available_len) {
			size = available_len;
		}
		// read or readBytes
		data_len = context->socket->read(context->data + context->data_available, size);
	}
	if (data_len == 0) {
		if (!context->socket->connected()) {
			CLIENT_INFO(context, "Disconnected!");
			context->disconnect = true;
			homekit_server_close_client(context->server, context);
		}
		return;
	}
	CLIENT_DEBUG(context, "Got %d incomming data, encrypted is %s",
			data_len, context->encrypted ? "true" : "false");
	byte *payload = (byte*) context->data;
	size_t payload_size = (size_t) data_len;

	byte *decrypted = NULL;
	size_t decrypted_size = 0;

	if (context->encrypted) {
		CLIENT_DEBUG(context, "Decrypting data");

		client_decrypt_(context, context->data, data_len, NULL, &decrypted_size);

		decrypted = (byte*) malloc(decrypted_size);
		int r = client_decrypt_(context, context->data, data_len, decrypted, &decrypted_size);

		if (r < 0) {
			CLIENT_ERROR(context, "Invalid client data");
			free(decrypted);
			return;
		}
		context->data_available = data_len - r;
		if (r && context->data_available) {
			memmove(context->data, &context->data[r], context->data_available);
		}
		CLIENT_DEBUG(context, "Decrypted %d bytes, available %d", decrypted_size, context->data_available);

		payload = decrypted;
		payload_size = decrypted_size;
		if (payload_size)
			print_binary("Decrypted data", payload, payload_size);
	} else {
		context->data_available = 0;
	}

	current_client_context = context;
	http_parser_execute(&context->parser, &homekit_http_parser_settings,
			(char*) payload, payload_size);
	current_client_context = NULL;

	CLIENT_DEBUG(context, "Finished processing");

	if (decrypted) {
		free(decrypted);
	}
}

void homekit_server_close_client(homekit_server_t *server, client_context_t *context) {
	CLIENT_INFO(context, "Closing client connection");
	context->step = HOMEKIT_CLIENT_STEP_END;
	server->nfds--;

	if (context->socket) {
		context->socket->stop();
		CLIENT_DEBUG(context, "The sockect is stopped");
		delete context->socket;
		context->socket = nullptr;
	}
	if (context->server->pairing_context && context->server->pairing_context->client == context) {
		pairing_context_free(context->server->pairing_context);
		context->server->pairing_context = NULL;
		CLIENT_INFO(context, "Clear the pairing context");
	}

	if (context->server->clients == context) {
		context->server->clients = context->next;
	} else {
		client_context_t *c = context->server->clients;
		while (c->next && c->next != context)
			c = c->next;
		if (c->next)
			c->next = c->next->next;
	}

	homekit_accessories_clear_notify_callbacks(context->server->config->accessories,
			client_notify_characteristic, context);

	HOMEKIT_NOTIFY_EVENT(server, HOMEKIT_EVENT_CLIENT_DISCONNECTED);

	client_context_free(context);
}

client_context_t* homekit_server_accept_client(homekit_server_t *server) {

	if (!server->wifi_server) {
		ERROR("The server's WiFiServer is NULL!");
		return NULL;
	}
	WiFiClient *wifiClient = nullptr;

	if (server->wifi_server->hasClient()) {
		wifiClient = new WiFiClient(server->wifi_server->available());
		if (server->nfds >= HOMEKIT_MAX_CLIENTS) {
			INFO("No more room for client connections (max %d)", HOMEKIT_MAX_CLIENTS);
			wifiClient->stop();
			delete wifiClient;
			return NULL;
		}
	} else {
		return NULL;
	}

	INFO("Got new client: local %s:%d, remote %s:%d",
			wifiClient->localIP().toString().c_str(), wifiClient->localPort(),
			wifiClient->remoteIP().toString().c_str(), wifiClient->remotePort());

	wifiClient->keepAlive(HOMEKIT_SOCKET_KEEPALIVE_IDLE_SEC,
	HOMEKIT_SOCKET_KEEPALIVE_INTERVAL_SEC, HOMEKIT_SOCKET_KEEPALIVE_IDLE_COUNT);
	wifiClient->setNoDelay(true);
	wifiClient->setSync(false);
	wifiClient->setTimeout(HOMEKIT_SOCKET_TIMEOUT);

	client_context_t *context = client_context_new(wifiClient);
	context->server = server;
	context->socket = wifiClient;

	context->next = server->clients;
	server->clients = context;

	server->nfds++;

	HOMEKIT_NOTIFY_EVENT(server, HOMEKIT_EVENT_CLIENT_CONNECTED);

	return context;
}

//设备向iPhone传递characteristic的消息
void homekit_server_process_notifications(homekit_server_t *server) {
	client_context_t *context = server->clients;
	// 把characteristic_event_t拼接成client_event_t链表
	// 按照Apple的规定，Nofiy消息需合并发送
	while (context) {
		if (context->step != HOMEKIT_CLIENT_STEP_PAIR_VERIFY_2OF2) {
			// Do not send event when the client is not verify over.
			context = context->next;
			continue;
		}
		characteristic_event_t *event = NULL;
		if (context->event_queue && q_pop(context->event_queue, &event)) {
			// Get and coalesce all client events
			client_event_t *events_head = (client_event_t*) malloc(sizeof(client_event_t));
			events_head->characteristic = event->characteristic;
			homekit_value_copy(&events_head->value, &event->value);
			events_head->next = NULL;

			homekit_value_destruct(&event->value);
			free(event);

			client_event_t *events_tail = events_head;

			while (q_pop(context->event_queue, &event)) {
				//q_pop第二个参数必须传指针的地址
				//event = context->event_queue->shift();
				client_event_t *e = events_head;
				while (e) {
					if (e->characteristic == event->characteristic) {
						break;
					}
					e = e->next;
				}

				if (e) {
					homekit_value_destruct(&e->value);
				} else {
					e = (client_event_t*) malloc(sizeof(client_event_t));
					e->characteristic = event->characteristic;
					e->next = NULL;

					events_tail->next = e;
					events_tail = e;
				}

				homekit_value_copy(&e->value, &event->value);

				homekit_value_destruct(&event->value);
				free(event);
			}

			send_client_events(context, events_head);

			client_event_t *e = events_head;
			while (e) {
				client_event_t *next = e->next;

				homekit_value_destruct(&e->value);
				free(e);

				e = next;
			}
		}

		context = context->next;
	}

}

bool homekit_client_need_process_data(client_context_t *context) {
	if (context) {
		return (context->step >= HOMEKIT_CLIENT_STEP_PAIR_SETUP_1OF3
				&& context->step < HOMEKIT_CLIENT_STEP_PAIR_VERIFY_2OF2);
	}
	return false;
}

//run in loop, include {accept_client, client_process, notifications}
void homekit_server_process(homekit_server_t *server) {

	homekit_server_accept_client(server);

	client_context_t *context = server->clients;
	while (context) {
		//homekit_client_process includes {handle data and stop disconnected client}
//		do{
//			if(homekit_client_need_process_data(context)){
//				CLIENT_INFO(context, "Step is %d", context->step);
//			}
//			delay(10);
		homekit_client_process(context);
//		} while(homekit_client_need_process_data(context));

		context = context->next;
	}
	homekit_server_process_notifications(server);
}

//=====================================================
// Arduino ESP8266 MDNS: call this funciton only once when WiFi STA is connected!
//=====================================================
bool homekit_mdns_started = false;

void homekit_mdns_init(homekit_server_t *server) {
	INFO("Configuring MDNS");

	if (!WiFi.isConnected()) {
		return;
	}

	IPAddress staIP = WiFi.localIP();
	if (!staIP.isSet()) {
		return;
	}

	homekit_accessory_t *accessory = server->config->accessories[0];
	homekit_service_t *accessory_info = homekit_service_by_type(accessory,
    HOMEKIT_SERVICE_ACCESSORY_INFORMATION);
	if (!accessory_info) {
		ERROR("Invalid accessory declaration: no Accessory Information service");
		return;
	}

	homekit_characteristic_t *name = homekit_service_characteristic_by_type(accessory_info,
    HOMEKIT_CHARACTERISTIC_NAME);

	if (!name) {
		ERROR("Invalid accessory declaration: " "no Name characteristic in AccessoryInfo service");
		return;
	}
 
	homekit_characteristic_t *model = homekit_service_characteristic_by_type(accessory_info,
    HOMEKIT_CHARACTERISTIC_MODEL);

	if (!model) {
		ERROR("Invalid accessory declaration: " "no Model characteristic in AccessoryInfo service");
		return;
	}

	if (homekit_mdns_started) {
		// MDNS.close();
		MDNS.begin(name->value.string_value, staIP);
		INFO("MDNS restart: %s, IP: %s", name->value.string_value, staIP.toString().c_str());
		MDNS.announce();
		return;
	}

	//homekit_mdns_configure_init(name->value.string_value, PORT);
	WiFi.hostname(name->value.string_value);
	// Must specify the MDNS runs on the IP of STA
	MDNS.begin(name->value.string_value, staIP);
	INFO("MDNS begin: %s, IP: %s", name->value.string_value, staIP.toString().c_str());

	MDNSResponder::hMDNSService mdns_service = MDNS.addService(name->value.string_value,
    HOMEKIT_MDNS_SERVICE, HOMEKIT_MDNS_PROTO, HOMEKIT_SERVER_PORT);
	// Set a service specific callback for dynamic service TXT items.
	// The callback is called, whenever service TXT items are needed for the given service.
	MDNS.setDynamicServiceTxtCallback(mdns_service,
			[](const MDNSResponder::hMDNSService p_hService) {
				DEBUG("MDNS call DynamicServiceTxtCallback");
				if (running_server) {
					MDNS.addDynamicServiceTxt(p_hService, "sf",
							(running_server->paired) ? "0" : "1");
					MDNS.addDynamicServiceTxt(p_hService, "c#",
							running_server->config->config_number);
				}

			}
	);
	MDNS.addServiceTxt(mdns_service, "md", model->value.string_value);
	MDNS.addServiceTxt(mdns_service, "pv", "1.0");
	MDNS.addServiceTxt(mdns_service, "id", server->accessory_id);
	//"c#" is a DynamicServiceTxt
	//Current configuration number. Required.
	//Must update when an accessory, service, or characteristic is added or removed on the accessory server.
	//Accessories must increment the config number after a firmware update.
	//This must have a range of 1-65535 and wrap to 1 when it overflows.
	//This value must persist across reboots, power cycles, etc.
	//MDNS.addServiceTxt(mdns_service, "c#", String(server->config->config_number).c_str());
	MDNS.addServiceTxt(mdns_service, "s#", "1");
	MDNS.addServiceTxt(mdns_service, "ff", "0");
	//"sf" is a DynamicServiceTxt
	//MDNS.addServiceTxt(HAP_SERVICE, HOMEKIT_MDNS_PROTO, "sf", (server->paired) ? "0" : "1");
	MDNS.addServiceTxt(mdns_service, "ci", String(server->config->category).c_str());

	if (server->config->setupId) {
		DEBUG("Accessory Setup ID = %s", server->config->setupId);

		size_t data_size = strlen(server->config->setupId) + strlen(server->accessory_id) + 1;
		char *data = (char*) malloc(data_size);
		snprintf(data, data_size, "%s%s", server->config->setupId, server->accessory_id);
		data[data_size - 1] = 0;

		unsigned char shaHash[SHA512_DIGEST_SIZE];
		wc_Sha512Hash((const unsigned char*) data, data_size - 1, shaHash);

		free(data);

		unsigned char encodedHash[9];
		memset(encodedHash, 0, sizeof(encodedHash));
		word32 len = sizeof(encodedHash);
		base64_encode_((const unsigned char*) shaHash, 4, encodedHash);
		MDNS.addServiceTxt(mdns_service, "sh", (char*) encodedHash);
	}

	MDNS.announce();
	MDNS.update();
	homekit_mdns_started = true;
}

// Used to update the config_number ("c#" value of Bonjour)
// Call this function when an accessory, service, or characteristic is added or removed on the accessory server.
// See the official HAP specification for more information.
void homekit_update_config_number() {
	if(!homekit_mdns_started) {
		return ;
	}
	if(!running_server){
		return;
	}
	// range of 1-65535
	uint16_t c = running_server->config->config_number;
	c = (c > 0 && c < 65535) ? (c + 1) : 1;
	running_server->config->config_number = c;
	MDNS.announce();
	MDNS.update();
	INFO("Update config_number to %u", c);
}

int homekit_accessory_id_generate(char *accessory_id) {
	byte buf[6];
	homekit_random_fill(buf, sizeof(buf));

	snprintf(accessory_id, ACCESSORY_ID_SIZE + 1, "%02X:%02X:%02X:%02X:%02X:%02X", buf[0], buf[1],
			buf[2], buf[3], buf[4], buf[5]);

	INFO("Generated new accessory ID: %s", accessory_id);
	return 0;
}

int homekit_accessory_key_generate(ed25519_key *key) {
	int r = crypto_ed25519_generate(key);
	if (r) {
		ERROR("Failed to generate accessory key");
		return r;
	}

	INFO("Generated new accessory key");

	return 0;
}

void homekit_server_init(homekit_server_config_t *config) {
	if (!config->accessories) {
		ERROR("Error initializing HomeKit accessory server: "
				"accessories are not specified");
		return;
	}

	if (!config->password && !config->password_callback) {
		ERROR("Error initializing HomeKit accessory server: "
				"neither password nor password callback is specified");
		return;
	}

	if (config->password) {
		const char *p = config->password;
		if (strlen(p) != 10
				|| !(ISDIGIT(p[0]) && ISDIGIT(p[1]) && ISDIGIT(p[2]) && p[3] == '-' && ISDIGIT(p[4])
						&& ISDIGIT(p[5]) && p[6] == '-' && ISDIGIT(p[7]) && ISDIGIT(p[8])
						&& ISDIGIT(p[9]))) {
			ERROR("Error initializing HomeKit accessory server: " "invalid password format");
			return;
		}
	}

	if (config->setupId) {
		const char *p = config->setupId;
		if (strlen(p) != 4
				|| !(ISBASE36(p[0]) && ISBASE36(p[1]) && ISBASE36(p[2]) && ISBASE36(p[3]))) {
			ERROR("Error initializing HomeKit accessory server: " "invalid setup ID format");
			return;
		}
	}

	homekit_accessories_init(config->accessories);
	if (!config->config_number) {
		config->config_number = config->accessories[0]->config_number;
		if (!config->config_number) {
			config->config_number = 1;
		}
	}
	if (!config->category) {
		config->category = config->accessories[0]->category;
	}
	homekit_server_t *server = server_new();
	running_server = server;
	server->config = config;

	//homekit_server_task(server);
	INFO("Starting server");

	if (homekit_storage_init() != 0 ||
      homekit_storage_load_accessory_id(server->accessory_id) != 0 ||
      homekit_storage_load_accessory_key(&server->accessory_key) != 0) {

		homekit_accessory_id_generate(server->accessory_id);
		homekit_storage_save_accessory_id(server->accessory_id);

		homekit_accessory_key_generate(&server->accessory_key);
		homekit_storage_save_accessory_key(&server->accessory_key);
	} else {
		INFO("Using existing accessory ID: %s", server->accessory_id);
	}

	pairing_iterator_t pairing_it;
	homekit_storage_pairing_iterator_init(&pairing_it);

	pairing_t pairing;
	while (!homekit_storage_next_pairing(&pairing_it, &pairing)) {
		if (pairing.permissions & pairing_permissions_admin) {
			INFO("Found admin pairing with %s, disabling pair setup", pairing.device_id);
			server->paired = true;
			break;
		}
	}
	homekit_storage_pairing_iterator_done(&pairing_it);

	if (!server->paired) {
		if (!arduino_homekit_preinit(server)) {
			ERROR("Error in arduino_homekit_preinit, please check and retry");
			system_restart();
			return;
		}
	}

	homekit_mdns_init(server);
	HOMEKIT_NOTIFY_EVENT(server, HOMEKIT_EVENT_SERVER_INITIALIZED);
	homekit_server_process(server);

	INFO("Init server over");
}

void homekit_server_reset() {
	homekit_storage_reset();
}

bool homekit_is_paired() {
	bool paired = false;

	pairing_iterator_t pairing_it;
	homekit_storage_pairing_iterator_init(&pairing_it);

	pairing_t pairing;
	while (!homekit_storage_next_pairing(&pairing_it, &pairing)) {
		if (pairing.permissions & pairing_permissions_admin) {
			paired = true;
			break;
		}
	};
	homekit_storage_pairing_iterator_done(&pairing_it);

	return paired;
}

int homekit_get_accessory_id(char *buffer, size_t size) {
	if (size < ACCESSORY_ID_SIZE + 1)
		return -1;

	int r = homekit_storage_load_accessory_id(buffer);
	if (r)
		return r;

	return 0;
}

int homekit_get_setup_uri(const homekit_server_config_t *config, char *buffer, size_t buffer_size) {
	static const char base36Table[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";

	if (buffer_size < 20)
		return -1;

	if (!config->password)
		return -1;
	// TODO: validate password in case it is run beffore server is started

	if (!config->setupId)
		return -1;
	// TODO: validate setupID in case it is run beffore server is started

	homekit_accessory_t *accessory = homekit_accessory_by_id(config->accessories, 1);
	if (!accessory)
		return -1;

	uint32_t setup_code = 0;
	for (const char *s = config->password; *s; s++) {
		if (ISDIGIT(*s)) {
			setup_code = setup_code * 10 + *s - '0';
		}
	}

	uint64_t payload = 0;

	payload <<= 4;  // reserved 4 bits

	payload <<= 8;
	payload |= accessory->category & 0xff;

	payload <<= 4;
	payload |= 2;  // flags (2=IP, 4=BLE, 8=IP_WAC)

	payload <<= 27;
	payload |= setup_code & 0x7fffffff;

	strcpy(buffer, "X-HM://");
	buffer += 7;
	for (int i = 8; i >= 0; i--) {
		buffer[i] = base36Table[payload % 36];
		payload /= 36;
	}
	buffer += 9;

	strcpy(buffer, config->setupId);
	buffer += 4;

	buffer[0] = 0;

	return 0;
}

// Pre-initialize the pairing_context used in Pair-Setep 1/3
// For avoiding timeout caused sockect disconnection from iOS device.
bool arduino_homekit_preinit(homekit_server_t *server) {
	if (saved_preinit_pairing_context != nullptr) {
		return true;
	}
	INFO("Preiniting pairing context");
	pairing_context_t *preinit_pairing_context = pairing_context_new();
	DEBUG_HEAP();
	char password[11];
	if (server->config->password) {
		strncpy(password, server->config->password, sizeof(password));
		//CLIENT_DEBUG(context, "Using user-specified password: %s", password);
		INFO("Using user-specified password: %s", password);
	} else {
		for (int i = 0; i < 10; i++) {
			password[i] = homekit_random() % 10 + '0';
		}
		password[3] = password[6] = '-';
		password[10] = 0;
		//CLIENT_DEBUG(context, "Using random password: %s", password);
		INFO("Using random password: %s", password);
	}

	if (server->config->password_callback) {
		server->config->password_callback(password);
	}

	watchdog_disable_all();
	watchdog_check_begin();
	crypto_srp_init(preinit_pairing_context->srp, "Pair-Setup", password);
	watchdog_check_end("crypto_srp_init");  // 6585ms
	watchdog_enable_all();

	delay(10);

	if (preinit_pairing_context->public_key) {
		free(preinit_pairing_context->public_key);
		preinit_pairing_context->public_key = NULL;
	}
	preinit_pairing_context->public_key_size = 0;
	crypto_srp_get_public_key(preinit_pairing_context->srp, NULL,
			&preinit_pairing_context->public_key_size);

	preinit_pairing_context->public_key = (byte*) malloc(preinit_pairing_context->public_key_size);

	watchdog_disable_all();
	watchdog_check_begin();
	int r = crypto_srp_get_public_key(preinit_pairing_context->srp,
			preinit_pairing_context->public_key, &preinit_pairing_context->public_key_size);
	watchdog_check_end("crypto_srp_get_public_key");  // 3310ms
	watchdog_enable_all();

	delay(10);

	if (r) {
		//CLIENT_ERROR(context, "Failed to dump SPR public key (code %d)", r);
		ERROR("Failed to dump SPR public key (code %d)");
		pairing_context_free(preinit_pairing_context);
		preinit_pairing_context = NULL;
		// In preinit, we should not send response
		// send_tlv_error_response(context, 2, TLVError_Unknown);
		return false;
	}
	saved_preinit_pairing_context = preinit_pairing_context;

	INFO("Preinit pairing context success");
	MDNS.announce();		// update "paired" state
	return true;
}

void arduino_homekit_setup(homekit_server_config_t *config) {
	if (system_get_cpu_freq() != SYS_CPU_160MHZ) {
		system_update_cpu_freq(SYS_CPU_160MHZ);
		INFO("Update the CPU to run at 160MHz");
	}

	homekit_server_init(config);
	// The MDNS needs to be restarted when WiFi is connected to confirm the
	// MDNS runs at the IPAddress of STA
	// otherwise the iOS will not show the Accessory
	arduino_homekit_gotiphandler = WiFi.onStationModeGotIP([](WiFiEventStationModeGotIP gotip) {
		INFO("WiFi connected, ip: %s, mask: %s, gw: %s",
				gotip.ip.toString().c_str(), gotip.mask.toString().c_str(),
				gotip.gw.toString().c_str());
		if (running_server) {
			homekit_mdns_init(running_server);
		} else {
			ERROR("running_server is NULL!");
		}
	});
}

void arduino_homekit_loop() {
	if (homekit_mdns_started) {
		MDNS.update();
	}
	if (running_server != nullptr) {
		if (!running_server->paired) {
			//If not paired or pairing was removed, preinit paring context.
			arduino_homekit_preinit(running_server);
		}
		homekit_server_process(running_server);
	}
}

int arduino_homekit_connected_clients_count() {
	if (running_server) {
		return running_server->nfds;
	}
	return -1;
}

homekit_server_t* arduino_homekit_get_running_server() {
	return running_server;
}