Tasmota/tasmota/xsns_62_esp32_mi_homekit.c

334 lines
13 KiB
C

#if(USE_MI_HOMEKIT==1)
#include <stdio.h>
#include <string.h>
#include <freertos/FreeRTOS.h>
#include <freertos/task.h>
#include <esp_log.h>
#include <hap.h>
#include <hap_apple_servs.h>
#include <hap_apple_chars.h>
#include <hap_platform_keystore.h>
//Homekit
static int MI32_bridge_identify(hap_acc_t *ha);
static int MI32_accessory_identify(hap_acc_t *ha);
static void MI32_bridge_thread_entry(void *p);
extern uint32_t MI32numberOfDevices();
extern const char *MI32getDeviceName(uint32_t slot);
extern uint32_t MI32getDeviceType(uint32_t slot);
extern void MI32saveHAPhandles(uint32_t slot, uint32_t type, void* handle);
extern void MI32passHapEvent(uint32_t event);
extern void MI32didStartHAP();
extern const char * MI32getSetupCode();
extern uint32_t MI32numOfRelays();
extern void MI32setRelayFromHK(uint32_t relay, bool onOff);
// static const char *TAG = "Mi Bridge";
static bool MIBridgeWasNeverConnected = true;
#define CONFIG_EXAMPLE_SETUP_ID "MI32"
#define FLORA 1
#define MJ_HT_V1 2
#define LYWSD02 3
#define LYWSD03MMC 4
#define CGG1 5
#define CGD1 6
#define NLIGHT 7
#define MJYD2S 8
#define YEERC 9
#define MHOC401 10
#define MHOC303 11
#define ATC 12
#define MCCGQ02 13
#define SJWS01L 14
#define PVVX 15
#define YLKG08 16
/*********************************************************************************************\
* Homekit
\*********************************************************************************************/
/* Mandatory identify routine for the bridge.
* In a real accessory, something like LED blink should be implemented
* got visual identification
*/
static int MI32_bridge_identify(hap_acc_t *ha)
{
return HAP_SUCCESS;
}
void mi_hap_event_handler(hap_event_t event, void *data)
{
MI32passHapEvent((uint32_t)event);
if(event == HAP_EVENT_CTRL_CONNECTED) MIBridgeWasNeverConnected = false;
}
static int MI32_bridge_read_callback(hap_read_data_t read_data[], int count,
void *serv_priv, void *read_priv)
{
return HAP_SUCCESS;
}
static int MI32_outlets_write_callback(hap_write_data_t write_data[], int count,
void *serv_priv, void *write_priv)
{
uint8_t _relay = ((uint8_t*)serv_priv)[0];
int i, ret = HAP_SUCCESS;
hap_write_data_t *write;
for (i = 0; i < count; i++) {
write = &write_data[i];
if (!strcmp(hap_char_get_type_uuid(write->hc), HAP_CHAR_UUID_ON)) {
MI32setRelayFromHK(_relay-48, write->val.b);
hap_char_update_val(write->hc, &(write->val));
*(write->status) = HAP_STATUS_SUCCESS;
} else {
*(write->status) = HAP_STATUS_RES_ABSENT;
}
}
return ret;
}
/* Mandatory identify routine for the bridged accessory
* In a real bridge, the actual accessory must be sent some request to
* identify itself visually
*/
static int MI32_accessory_identify(hap_acc_t *ha)
{
return HAP_SUCCESS;
}
/*The main thread for handling the Smart Outlet Accessory */
static void MI32_bridge_thread_entry(void *p)
{
// esp_log_level_set("*", ESP_LOG_NONE);
hap_acc_t *accessory;
hap_serv_t *service;
/* Initialize the HAP core */
hap_init(HAP_TRANSPORT_WIFI);
/* Initialise the mandatory parameters for Accessory which will be added as
* the mandatory services internally
*/
hap_acc_cfg_t cfg = {
.name = "Mi-Home-Bridge",
.manufacturer = "Tasmota",
.model = "ESP32",
.serial_num = "9600",
.fw_rev = "0.9.5",
.hw_rev = NULL,
.pv = "1.1.0",
.cid = HAP_CID_BRIDGE,
.identify_routine = MI32_bridge_identify
};
/* Create accessory object */
accessory = hap_acc_create(&cfg);
/* Add a dummy Product Data */
uint8_t product_data[] = {'T','M','H'};
hap_acc_add_product_data(accessory, product_data, sizeof(product_data));
/* Add the Accessory to the HomeKit Database */
hap_add_accessory(accessory);
#define NUM_BRIDGED_ACCESSORIES 1
/* Create and add the Accessory to the Bridge object*/
uint32_t _numDevices = MI32numberOfDevices();
for (uint32_t i = 0; i < _numDevices; i++) {
char *accessory_name = (char*)MI32getDeviceName(i);
char _serialNum[4] = {0};
snprintf(_serialNum,sizeof(_serialNum),"%u", i);
hap_acc_cfg_t bridge_cfg = {
.name = accessory_name,
.manufacturer = "Xiaomi",
.model = accessory_name,
.serial_num = _serialNum,
.fw_rev = "0.9.1",
.hw_rev = NULL,
.pv = "1.1.0",
.cid = HAP_CID_SENSOR,
.identify_routine = MI32_accessory_identify,
};
/* Create accessory object */
accessory = hap_acc_create(&bridge_cfg);
switch (MI32getDeviceType(i)){
case LYWSD02: case LYWSD03MMC: case CGG1: case CGD1: case MHOC303: case MHOC401: case ATC: case PVVX:
{
service = hap_serv_humidity_sensor_create(50.0f);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x06,(void *)hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_CURRENT_RELATIVE_HUMIDITY));
service = hap_serv_temperature_sensor_create(22.5f);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x04,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_CURRENT_TEMPERATURE));
service = hap_serv_battery_service_create(99,0,0);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x0a,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_BATTERY_LEVEL));
}
break;
case FLORA: case MJYD2S:
{
service = hap_serv_light_sensor_create(100.0f);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x07,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_CURRENT_AMBIENT_LIGHT_LEVEL));
service = hap_serv_battery_service_create(50,0,0);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x0a,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_BATTERY_LEVEL));
if(MI32getDeviceType(i) == MJYD2S){
service = hap_serv_motion_sensor_create(false);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x0f,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_MOTION_DETECTED));
}
break;
}
case NLIGHT:
{
service = hap_serv_motion_sensor_create(false);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x0f,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_MOTION_DETECTED));
service = hap_serv_battery_service_create(50,0,0);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x0a,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_BATTERY_LEVEL));
break;
//motion 0x0f
}
case MCCGQ02:
{
service = hap_serv_contact_sensor_create(0);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x19,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_CONTACT_SENSOR_STATE));
service = hap_serv_battery_service_create(50,0,0);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x0a,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_BATTERY_LEVEL));
break;
}
case YEERC:
{
bridge_cfg.cid = HAP_CID_PROGRAMMABLE_SWITCH;
hap_serv_t * _label = hap_serv_service_label_create(1);
hap_acc_add_serv(accessory, _label);
for(uint8_t _but=0;_but<6;_but++){
hap_serv_t * _newSwitch = hap_serv_stateless_programmable_switch_create(0);
const uint8_t _validVals[] = {0,2};
hap_char_add_valid_vals(hap_serv_get_char_by_uuid(_newSwitch, HAP_CHAR_UUID_PROGRAMMABLE_SWITCH_EVENT), _validVals, 2);
hap_char_t *_index = hap_char_service_label_index_create(_but+1);
hap_serv_add_char(_newSwitch,_index);
hap_acc_add_serv(accessory, _newSwitch);
MI32saveHAPhandles(i,_but+1000,hap_serv_get_char_by_uuid(_newSwitch, HAP_CHAR_UUID_PROGRAMMABLE_SWITCH_EVENT));
}
}
break;
case SJWS01L:
service = hap_serv_leak_sensor_create(0);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x14,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_LEAK_DETECTED));
hap_serv_t * _newSwitch = hap_serv_stateless_programmable_switch_create(0);
const uint8_t _validVals[] = {0,2};
hap_char_add_valid_vals(hap_serv_get_char_by_uuid(_newSwitch, HAP_CHAR_UUID_PROGRAMMABLE_SWITCH_EVENT), _validVals, 2);
hap_acc_add_serv(accessory, _newSwitch);
MI32saveHAPhandles(i,1000,hap_serv_get_char_by_uuid(_newSwitch, HAP_CHAR_UUID_PROGRAMMABLE_SWITCH_EVENT));
service = hap_serv_battery_service_create(50,0,0);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0x0a,hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_BATTERY_LEVEL));
break;
default:
break;
}
/* Add the Accessory to the HomeKit Database */
hap_add_bridged_accessory(accessory, hap_get_unique_aid(accessory_name));
}
// add internal Tasmota devices
for(uint32_t i = 0;i<MI32numOfRelays();i++){
char _serialNum[2] = {i+49,0};
hap_acc_cfg_t bridge_cfg = {
.name = _serialNum,
.manufacturer = "Xiaomi",
.model = "Tasmota",
.serial_num = _serialNum,
.fw_rev = "0.9.1",
.hw_rev = NULL,
.pv = "1.1.0",
.cid = HAP_CID_OUTLET,
.identify_routine = MI32_accessory_identify,
};
/* Create accessory object */
accessory = hap_acc_create(&bridge_cfg);
service = hap_serv_outlet_create(false,true);
hap_serv_set_bulk_read_cb(service, MI32_bridge_read_callback);
hap_serv_set_write_cb(service, MI32_outlets_write_callback);
hap_serv_set_priv(service, strdup(_serialNum));
hap_acc_add_serv(accessory, service);
MI32saveHAPhandles(i,0xf0,(void *)hap_serv_get_char_by_uuid(service, HAP_CHAR_UUID_ON));
hap_add_bridged_accessory(accessory, hap_get_unique_aid(_serialNum));
}
hap_register_event_handler(mi_hap_event_handler);
hap_set_setup_code(MI32getSetupCode());
hap_set_setup_id(CONFIG_EXAMPLE_SETUP_ID);
if (hap_start() == HAP_SUCCESS){
MI32didStartHAP(true);
}
else MI32didStartHAP(false);
/* The task ends here. The read/write callbacks will be invoked by the HAP Framework */
vTaskDelete(NULL);
}
void mi_homekit_main(void){
xTaskCreate(MI32_bridge_thread_entry, "MIBRIDGE", 8192, NULL, 5, NULL);
}
void mi_homekit_update_value(void* handle, float value, uint32_t type){
if(handle == NULL) return;
if(MIBridgeWasNeverConnected) return;
hap_val_t new_val;
switch(type){
case 0x01: case 0x19: case 0x0a: case 0x14: case 0xf0:
if(type == 0x19){
value = 1-(uint8_t)value;
}
new_val.i = (uint8_t)value;
break;
case 0x0f:
new_val.b = (value > 0.0f);
break;
default:
new_val.f = value;
}
int ret = hap_char_update_val((hap_char_t *)handle, &new_val);
// if(ret!= HAP_SUCCESS){
// ESP_LOGE(TAG,"error:",ret);
// }
}
void mi_homekit_stop(){
hap_stop();
}
#endif //USE_MI_ESP32