mirrors
/
Tasmota
mirror of https://github.com/arendst/Tasmota.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity

Merge branch 'development' of github.com:arendst/Tasmota into pr_tm1638

This commit is contained in:
Ajith Vasudevan 2021-03-17 22:13:43 +05:30
parent 53d85e3441 2f7eefa8f4
commit 5aeb4c0475
19 changed files with 343 additions and 244 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

2
lib/libesp32_div/ESP32-HomeKit/src/_esp_hap_config.h Normal file → Executable file
View File

@ -14,7 +14,7 @@
#define CONFIG_HAP_HTTP_STACK_SIZE 12288
#define CONFIG_HAP_HTTP_SERVER_PORT 5556 // 80 for normal webserver
#define CONFIG_HAP_HTTP_CONTROL_PORT 32859
#define CONFIG_HAP_HTTP_MAX_OPEN_SOCKETS 6
#define CONFIG_HAP_HTTP_MAX_OPEN_SOCKETS 5 // 6
#define CONFIG_HAP_HTTP_MAX_URI_HANDLERS 16
#endif /* ESP_HAP_CONFIG_H_ */

0
lib/libesp32_div/ESP32-HomeKit/src/hap.h Normal file → Executable file
View File

17
lib/libesp32_div/ESP32-HomeKit/src/hap_apple_chars.c Normal file → Executable file
View File

@ -39,6 +39,21 @@ hap_char_t *hap_char_brightness_create(int brightness)
return hc;
}
/* Char: Brightness */
hap_char_t *hap_char_wattage_create(float watts)
{
hap_char_t *hc = hap_char_float_create(HAP_CHAR_UUID_CURRENT_AMBIENT_LIGHT_LEVEL,
HAP_CHAR_PERM_PR | HAP_CHAR_PERM_PW | HAP_CHAR_PERM_EV, watts);
if (!hc) {
return NULL;
}
hap_char_float_set_constraints(hc, -10000.0, 10000.0, 1);
hap_char_add_unit(hc, HAP_CHAR_UNIT_LUX);
return hc;
}
/* Char: Cooling Threshold Temperature */
hap_char_t *hap_char_cooling_threshold_temperature_create(float cooling_threshold_temp)
{
@ -1284,7 +1299,7 @@ hap_char_t *hap_char_relative_humidity_humidifier_threshold_create(float rel_hum
}
hap_char_float_set_constraints(hc, 0.0, 100.0, 1.0);
hap_char_add_unit(hc, HAP_CHAR_UNIT_PERCENTAGE);
hap_char_add_unit(hc, HAP_CHAR_UNIT_LUX);
return hc;
}

3
lib/libesp32_div/ESP32-HomeKit/src/hap_apple_chars.h Normal file → Executable file
View File

@ -142,6 +142,7 @@ extern "C" {
#define HAP_CHAR_UUID_REMAINING_DURATION "D4"
#define HAP_CHAR_UUID_VALVE_TYPE "D5"
#define HAP_CHAR_UUID_IS_CONFIGURED "D6"
#define HAP_CHAR_UUID_WATTAGE "DC"
#define HAP_CHAR_UUID_PRODUCT_DATA "220"
/** Create Brightness Characteristic
@ -1415,6 +1416,8 @@ hap_char_t *hap_char_air_particulate_density_create(float air_particulate_densit
*/
hap_char_t *hap_char_air_particulate_size_create(uint8_t air_particulate_size);
hap_char_t *hap_char_wattage_create(float watts);
#ifdef __cplusplus
}
#endif

17
lib/libesp32_div/ESP32-HomeKit/src/hap_apple_servs.c Normal file → Executable file
View File

@ -419,6 +419,22 @@ err:
return NULL;
}
hap_serv_t *hap_serv_wattage_create(float curr_watts)
{
hap_serv_t *hs = hap_serv_create(HAP_SERV_UUID_LIGHT_SENSOR);
if (!hs) {
return NULL;
}
if (hap_serv_add_char(hs, hap_char_wattage_create(curr_watts)) != HAP_SUCCESS) {
goto err;
}
return hs;
err:
hap_serv_delete(hs);
return NULL;
}
hap_serv_t *hap_serv_temperature_sensor_create(float curr_temp)
{
hap_serv_t *hs = hap_serv_create(HAP_SERV_UUID_TEMPERATURE_SENSOR);
@ -703,4 +719,3 @@ err:
hap_serv_delete(hs);
return NULL;
}

4
lib/libesp32_div/ESP32-HomeKit/src/hap_apple_servs.h Normal file → Executable file
View File

@ -75,6 +75,7 @@ extern "C" {
#define HAP_SERV_UUID_VALVE "D0"
#define HAP_SERV_UUID_FAUCET "D7"
/** Create Accessory Information Service
*
* This API will create the Accessory Information Service with the mandatory
@ -553,6 +554,9 @@ hap_serv_t *hap_serv_valve_create(uint8_t active, uint8_t in_use, uint8_t valve_
*/
hap_serv_t *hap_serv_faucet_create(uint8_t active);
hap_serv_t *hap_serv_wattage_create(float curr_watts);
#ifdef __cplusplus
}
#endif

33
lib/libesp32_div/ESP32-HomeKit/src/hap_platform_keystore.cpp
View File

@ -144,12 +144,10 @@ int hap_platform_keystore_delete_namespace(const char *part_name, const char *na
while (true) {
File entry = fp.openNextFile();
if (!entry) break;
char fp[48];
strcpy(fp,path);
strcat(fp, "/");
strcat(fp, entry.name());
ffsp->remove(fp);
char p[48];
strcpy(p,entry.name());
entry.close();
ffsp->remove(p);
}
}
return 0;
@ -157,7 +155,6 @@ int hap_platform_keystore_delete_namespace(const char *part_name, const char *na
// last resort only
int hap_platfrom_keystore_erase_partition(const char *part_name) {
// LITTLEFS.format();
char path[48];
strcpy(path, "/");
strcat(path, part_name);
@ -166,17 +163,23 @@ if (fp.isDirectory()) {
while (true) {
File entry = fp.openNextFile();
if (!entry) break;
char fp[48];
strcpy(fp,path);
strcat(fp, "/");
strcat(fp, entry.name());
if (entry.isDirectory()) {
hap_platform_keystore_delete_namespace(part_name, entry.name());
ffsp->rmdir(fp);
} else {
ffsp->remove(fp);
const char *ep = entry.name();
if (*ep=='/') ep++;
char *lcp = strrchr(ep,'/');
if (lcp) {
ep = lcp + 1;
}
char p[48];
strcpy(p,entry.name());
if (entry.isDirectory()) {
hap_platform_keystore_delete_namespace(part_name, ep);
entry.close();
ffsp->rmdir(p);
} else {
entry.close();
ffsp->remove(p);
}
}
}
return 0;

341
tasmota/homekit.c
View File

@ -59,11 +59,11 @@ extern uint32_t Ext_UpdVar(char *vname, float *fvar, uint32_t mode);
#define MAX_HAP_DEFS 16
struct HAP_DESC {
char hap_name[16];
char var_name[16];
char var2_name[16];
char var3_name[16];
char var4_name[16];
char hap_name[24];
char var_name[12];
char var2_name[12];
char var3_name[12];
char var4_name[12];
uint8_t hap_cid;
uint8_t type;
hap_acc_t *accessory;
@ -148,45 +148,66 @@ static int accessory_identify(hap_acc_t *ha)
return HAP_SUCCESS;
}
const struct HAP_CHAR_TABLE {
char stype[4];
char ntype;
int8_t index;
} hap_rtab[] = {
{HAP_CHAR_UUID_CURRENT_TEMPERATURE,'f',0},
{HAP_CHAR_UUID_CURRENT_RELATIVE_HUMIDITY,'f',0},
{HAP_CHAR_UUID_CURRENT_AMBIENT_LIGHT_LEVEL,'f',0},
{HAP_CHAR_UUID_BATTERY_LEVEL,'u',0},
{HAP_CHAR_UUID_STATUS_LOW_BATTERY,'b',1},
{HAP_CHAR_UUID_CHARGING_STATE,'b',2},
{HAP_CHAR_UUID_ON,'b',0},
{HAP_CHAR_UUID_HUE,'f',1},
{HAP_CHAR_UUID_SATURATION,'f',2},
{HAP_CHAR_UUID_BRIGHTNESS,'u',3},
{HAP_CHAR_UUID_COLOR_TEMPERATURE,'u',0},
{HAP_CHAR_UUID_CONTACT_SENSOR_STATE,'u',0},
{HAP_CHAR_UUID_WATTAGE,'f',0}
};
#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
/* A dummy callback for handling a write on the "On" characteristic of Outlet.
* In an actual accessory, this should control the hardware
*/
static int sensor_write(hap_write_data_t write_data[], int count, void *serv_priv, void *write_priv, uint32_t index) {
int i, ret = HAP_SUCCESS;
float fvar;
hap_write_data_t *write;
for (i = 0; i < count; i++) {
write = &write_data[i];
bool found = false;
const char *hcp = hap_char_get_type_uuid(write->hc);
if (!strcmp(hcp, HAP_CHAR_UUID_ON)) {
//ESP_LOGI(TAG, "Received Write. Outlet %s", write->val.b ? "On" : "Off");
ESP_LOG_LEVEL(ESP_LOG_INFO, TAG, "Received Write. Outlet %s", write->val.b ? "On" : "Off");
for (uint32_t cnt = 0; cnt < ARRAY_SIZE(hap_rtab); cnt++ ) {
if (!strcmp(hcp, hap_rtab[cnt].stype)) {
hap_char_update_val(write->hc, &(write->val));
float fvar = write->val.b;
Ext_UpdVar(hap_devs[index].var_name, &fvar, 1);
switch (hap_rtab[cnt].ntype) {
case 'f': fvar = write->val.f; break;
case 'u': fvar = write->val.u; break;
case 'b': fvar = write->val.b; break;
}
switch (hap_rtab[cnt].index) {
case 0: Ext_UpdVar(hap_devs[index].var_name, &fvar, 1);break;
case 1: Ext_UpdVar(hap_devs[index].var2_name, &fvar, 1);break;
case 2: Ext_UpdVar(hap_devs[index].var3_name, &fvar, 1);break;
case 3: Ext_UpdVar(hap_devs[index].var4_name, &fvar, 1);break;
}
*(write->status) = HAP_STATUS_SUCCESS;
} else if (!strcmp(hcp, HAP_CHAR_UUID_HUE)) {
hap_char_update_val(write->hc, &(write->val));
float fvar = write->val.f;
Ext_UpdVar(hap_devs[index].var2_name, &fvar, 1);
*(write->status) = HAP_STATUS_SUCCESS;
} else if (!strcmp(hcp, HAP_CHAR_UUID_SATURATION)) {
hap_char_update_val(write->hc, &(write->val));
float fvar = write->val.f;
Ext_UpdVar(hap_devs[index].var3_name, &fvar, 1);
*(write->status) = HAP_STATUS_SUCCESS;
} else if (!strcmp(hcp, HAP_CHAR_UUID_BRIGHTNESS)) {
hap_char_update_val(write->hc, &(write->val));
float fvar = write->val.u;
Ext_UpdVar(hap_devs[index].var4_name, &fvar, 1);
*(write->status) = HAP_STATUS_SUCCESS;
} else {
found = true;
break;
}
}
if (!found) {
*(write->status) = HAP_STATUS_RES_ABSENT;
}
}
return ret;
}
// common read routine
static int sensor_read(hap_char_t *hc, hap_status_t *status_code, void *serv_priv, void *read_priv, uint32_t index) {
hap_val_t new_val;
@ -200,61 +221,123 @@ static int sensor_read(hap_char_t *hc, hap_status_t *status_code, void *serv_pri
printf("read values %s\n", hcp );
if (!strcmp(hcp, HAP_CHAR_UUID_CURRENT_TEMPERATURE)
|| !strcmp(hcp, HAP_CHAR_UUID_CURRENT_RELATIVE_HUMIDITY)
|| !strcmp(hcp, HAP_CHAR_UUID_CURRENT_AMBIENT_LIGHT_LEVEL)
) {
Ext_UpdVar(hap_devs[index].var_name, &fvar, 0);
new_val.f = fvar;
for (uint32_t cnt = 0; cnt < ARRAY_SIZE(hap_rtab); cnt++ ) {
if (!strcmp(hcp, hap_rtab[cnt].stype)) {
switch (hap_rtab[cnt].index) {
case 0: Ext_UpdVar(hap_devs[index].var_name, &fvar, 0);break;
case 1: Ext_UpdVar(hap_devs[index].var2_name, &fvar, 0);break;
case 2: Ext_UpdVar(hap_devs[index].var3_name, &fvar, 0);break;
case 3: Ext_UpdVar(hap_devs[index].var4_name, &fvar, 0);break;
}
switch (hap_rtab[cnt].ntype) {
case 'f': new_val.f = fvar; break;
case 'u': new_val.u = fvar; break;
case 'b': new_val.b = fvar; break;
}
hap_char_update_val(hc, &new_val);
*status_code = HAP_STATUS_SUCCESS;
}
if (!strcmp(hcp, HAP_CHAR_UUID_ON)) {
Ext_UpdVar(hap_devs[index].var_name, &fvar, 0);
new_val.b = fvar;
hap_char_update_val(hc, &new_val);
*status_code = HAP_STATUS_SUCCESS;
}
if (!strcmp(hcp, HAP_CHAR_UUID_HUE)) {
Ext_UpdVar(hap_devs[index].var2_name, &fvar, 0);
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
*status_code = HAP_STATUS_SUCCESS;
}
if (!strcmp(hcp, HAP_CHAR_UUID_SATURATION)) {
Ext_UpdVar(hap_devs[index].var3_name, &fvar, 0);
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
*status_code = HAP_STATUS_SUCCESS;
}
if (!strcmp(hcp, HAP_CHAR_UUID_BRIGHTNESS)) {
Ext_UpdVar(hap_devs[index].var4_name, &fvar, 0);
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
*status_code = HAP_STATUS_SUCCESS;
}
if (!strcmp(hcp, HAP_CHAR_UUID_BATTERY_LEVEL)) {
Ext_UpdVar(hap_devs[index].var_name, &fvar, 0);
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
*status_code = HAP_STATUS_SUCCESS;
}
if (!strcmp(hcp, HAP_CHAR_UUID_STATUS_LOW_BATTERY)) {
Ext_UpdVar(hap_devs[index].var2_name, &fvar, 0);
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
*status_code = HAP_STATUS_SUCCESS;
}
if (!strcmp(hcp, HAP_CHAR_UUID_CHARGING_STATE)) {
Ext_UpdVar(hap_devs[index].var3_name, &fvar, 0);
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
*status_code = HAP_STATUS_SUCCESS;
}
return HAP_SUCCESS;
}
// update values every 500 ms
void hap_update_from_vars(void) {
float fvar;
hap_char_t *hc;
hap_val_t new_val;
for (uint32_t cnt = 0; cnt < hk_services; cnt++) {
switch (hap_devs[cnt].hap_cid) {
case HAP_CID_SENSOR:
switch (hap_devs[cnt].type) {
case 0:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_CURRENT_TEMPERATURE);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case 1:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_CURRENT_RELATIVE_HUMIDITY);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case 2:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_CURRENT_AMBIENT_LIGHT_LEVEL);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case 3:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_BATTERY_LEVEL);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_STATUS_LOW_BATTERY);
if (Ext_UpdVar(hap_devs[cnt].var2_name, &fvar, 0)) {
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_STATUS_LOW_BATTERY);
if (Ext_UpdVar(hap_devs[cnt].var3_name, &fvar, 0)) {
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case 4:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_CURRENT_AMBIENT_LIGHT_LEVEL);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case 5:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_CONTACT_SENSOR_STATE);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
}
break;
}
break;
case HAP_CID_OUTLET:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_ON);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.b = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case HAP_CID_LIGHTING:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_ON);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.b = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_HUE);
if (Ext_UpdVar(hap_devs[cnt].var2_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_SATURATION);
if (Ext_UpdVar(hap_devs[cnt].var3_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_BRIGHTNESS);
if (Ext_UpdVar(hap_devs[cnt].var4_name, &fvar, 0)) {
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
}
break;
}
}
}
#define HAP_READ hap_char_t *hc, hap_status_t *status_code, void *serv_priv, void *read_priv) { return sensor_read(hc, status_code, serv_priv, read_priv
static int sensor_read1(HAP_READ, 0);}
@ -377,6 +460,8 @@ uint32_t str2c(char **sp, char *vp, uint32_t len) {
return 1;
}
extern char *GetFName();
/*The main thread for handling the Smart Outlet Accessory */
static void smart_outlet_thread_entry(void *p) {
/* Initialize the HAP core */
@ -385,7 +470,8 @@ static void smart_outlet_thread_entry(void *p) {
hap_acc_t *accessory;
hap_acc_cfg_t cfg = {
.name = "Tasmota-Bridge",
//.name = "Tasmota-Bridge",
.name = GetFName(),
.manufacturer = "Tasmota",
.model = "Bridge",
.serial_num = "001122334455",
@ -462,7 +548,6 @@ static void smart_outlet_thread_entry(void *p) {
/* Create accessory object */
hap_devs[index].accessory = hap_acc_create(&hap_cfg);
/* Add a dummy Product Data */
uint8_t product_data[] = {'E','S','P','3','2','H','A','P'};
hap_acc_add_product_data(hap_devs[index].accessory, product_data, sizeof(product_data));
int ret;
@ -500,6 +585,8 @@ static void smart_outlet_thread_entry(void *p) {
hap_devs[index].service = hap_serv_battery_service_create(fvar, fvar1, fvar2);
}
break;
case 4: hap_devs[index].service = hap_serv_wattage_create(fvar); break;
case 5: hap_devs[index].service = hap_serv_contact_sensor_create(fvar); break;
}
}
break;
@ -513,7 +600,7 @@ static void smart_outlet_thread_entry(void *p) {
hap_set_write(hap_devs[index].service, index);
/* Get pointer to the outlet in use characteristic which we need to monitor for state changes */
hap_char_t *outlet_in_use = hap_serv_get_char_by_uuid(hap_devs[index].service, HAP_CHAR_UUID_OUTLET_IN_USE);
outlet_in_use = hap_serv_get_char_by_uuid(hap_devs[index].service, HAP_CHAR_UUID_OUTLET_IN_USE);
/* Add the Outlet Service to the Accessory Object */
hap_acc_add_serv(hap_devs[index].accessory, hap_devs[index].service);
@ -565,13 +652,8 @@ nextline:
/* Enable Hardware MFi authentication (applicable only for MFi variant of SDK) */
hap_enable_mfi_auth(HAP_MFI_AUTH_HW);
/* Initialize Wi-Fi */
//app_wifi_init();
/* After all the initializations are done, start the HAP core */
hap_start();
/* Start Wi-Fi */
//app_wifi_start(portMAX_DELAY);
int32_t io_num = OUTLET_IN_USE_GPIO;
if (io_num >= 0) {
@ -597,93 +679,16 @@ nextline:
}
} else {
// vTaskDelete(NULL);
// update values every 100 ms
while (1) {
delay(100);
float fvar;
hap_char_t *hc;
hap_val_t new_val;
for (uint32_t cnt = 0; cnt < hk_services; cnt++) {
switch (hap_devs[cnt].hap_cid) {
case HAP_CID_SENSOR:
switch (hap_devs[cnt].type) {
case 0:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_CURRENT_TEMPERATURE);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case 1:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_CURRENT_RELATIVE_HUMIDITY);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case 2:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_CURRENT_AMBIENT_LIGHT_LEVEL);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case 3:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_BATTERY_LEVEL);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_STATUS_LOW_BATTERY);
if (Ext_UpdVar(hap_devs[cnt].var2_name, &fvar, 0)) {
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_STATUS_LOW_BATTERY);
if (Ext_UpdVar(hap_devs[cnt].var3_name, &fvar, 0)) {
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
}
break;
}
break;
case HAP_CID_OUTLET:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_ON);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.b = fvar;
hap_char_update_val(hc, &new_val);
}
break;
case HAP_CID_LIGHTING:
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_ON);
if (Ext_UpdVar(hap_devs[cnt].var_name, &fvar, 0)) {
new_val.b = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_HUE);
if (Ext_UpdVar(hap_devs[cnt].var2_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_SATURATION);
if (Ext_UpdVar(hap_devs[cnt].var3_name, &fvar, 0)) {
new_val.f = fvar;
hap_char_update_val(hc, &new_val);
}
hc = hap_serv_get_char_by_uuid(hap_devs[cnt].service, HAP_CHAR_UUID_BRIGHTNESS);
if (Ext_UpdVar(hap_devs[cnt].var4_name, &fvar, 0)) {
new_val.u = fvar;
hap_char_update_val(hc, &new_val);
}
break;
}
}
delay(500);
// hap_update_from_vars();
}
}
}
#define HK_PASSCODE "111-11-111"
int hap_loop_stop(void);
extern void Ext_toLog(char *str);
void homekit_main(char *desc, uint32_t flag ) {
if (desc) {
@ -710,10 +715,14 @@ void homekit_main(char *desc, uint32_t flag ) {
hk_desc = cp;
} else {
if (flag == 99) {
hap_loop_stop();
hap_reset_to_factory();
} else if (flag == 98) {
hap_loop_stop();
// is just the folder in wrapper
hap_platfrom_keystore_erase_partition(hap_platform_keystore_get_nvs_partition_name());
} else {
// not yet implemented
hap_stop();
hap_loop_stop();
}
return;
}

8
tasmota/language/it_IT.h
View File

@ -28,11 +28,11 @@
* Use online command StateText to translate ON, OFF, HOLD and TOGGLE.
* Use online command Prefix to translate cmnd, stat and tele.
*
* Updated until v9.3.1.1
* Last update - 9.3.1.1 (17.03.2021)
\*********************************************************************/
#define LANGUAGE_MODULE_NAME // Enable to display "Module Generic" (ie Spanish), Disable to display "Generic Module" (ie English)
// https://www.science.co.il/language/Locale-codes.php
#define LANGUAGE_LCID 1040
// HTML (ISO 639-1) Language Code
#define D_HTML_LANGUAGE "it"
@ -798,8 +798,8 @@
#define D_SENSOR_NEOPOOL_TX "NeoPool - TX"
#define D_SENSOR_NEOPOOL_RX "NeoPool - RX"
#define D_SENSOR_VL53L0X_XSHUT "VL53L0X XSHUT"
#define D_NEW_ADDRESS "Cambio di indirizzo a"
#define D_OUT_OF_RANGE "Fuori dal limite"
#define D_NEW_ADDRESS "Imposta indirizzo a"
#define D_OUT_OF_RANGE "Fuori limite"
#define D_SENSOR_DETECTED "rilevato"
// Units

3
tasmota/tasmota_template.h
View File

@ -410,11 +410,13 @@ const uint16_t kGpioNiceList[] PROGMEM = {
AGPIO(GPIO_SDCARD_CS),
#endif // USE_SDCARD
#endif // USE_SPI
AGPIO(GPIO_SSPI_MISO), // Software SPI Master Input Client Output
AGPIO(GPIO_SSPI_MOSI), // Software SPI Master Output Client Input
AGPIO(GPIO_SSPI_SCLK), // Software SPI Serial Clock
AGPIO(GPIO_SSPI_CS), // Software SPI Chip Select
AGPIO(GPIO_SSPI_DC), // Software SPI Data or Command
#ifdef USE_DISPLAY
#ifdef USE_DISPLAY_ILI9341
AGPIO(GPIO_ILI9341_CS),
@ -422,7 +424,6 @@ const uint16_t kGpioNiceList[] PROGMEM = {
#ifdef USE_XPT2046
AGPIO(GPIO_XPT2046_CS), // XPT2046 SPI Chip Select
#endif
#endif // USE_DISPLAY_ILI9341
#ifdef USE_DISPLAY_ILI9488
AGPIO(GPIO_ILI9488_CS),

51
tasmota/xdrv_10_scripter.ino
View File

@ -2515,9 +2515,12 @@ chknext:
if (!TasmotaGlobal.global_state.wifi_down) {
// erase nvs
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
homekit_main(0, fvar);
// restart homekit
TasmotaGlobal.restart_flag = 2;
if (fvar >= 98) {
glob_script_mem.homekit_running == false;
}
}
lp++;
len = 0;
@ -3589,13 +3592,51 @@ extern "C" {
uint32_t Ext_UpdVar(char *vname, float *fvar, uint32_t mode) {
return UpdVar(vname, fvar, mode);
}
void Ext_toLog(char *str) {
toLog(str);
}
char *GetFName(void) {
return SettingsText(SET_FRIENDLYNAME1);
}
}
int32_t UpdVar(char *vname, float *fvar, uint32_t mode) {
uint8_t type;
uint8_t index;
if (*vname == '@') {
vname++;
type = *vname;
vname++;
index = (*vname & 0x0f);
if (index < 1) index = 1;
if (index > 9) index = 9;
switch (type) {
case 'p':
if (mode) {
// set power
ExecuteCommandPower(index, *fvar, SRC_BUTTON);
return 0;
} else {
// read power
*fvar = bitRead(TasmotaGlobal.power, index - 1);
return 1;
}
break;
case 's':
*fvar = SwitchLastState(index - 1);
return 1;
break;
case 'b':
*fvar = Button.last_state[index - 1];
return 1;
break;
}
return 0;
}
struct T_INDEX ind;
uint8_t vtype;
float res = *fvar;
uint8_t index;
isvar(vname, &vtype, &ind, fvar, 0, 0);
if (vtype != VAR_NV) {
// found variable as result
@ -3604,7 +3645,7 @@ int32_t UpdVar(char *vname, float *fvar, uint32_t mode) {
// set var
index = glob_script_mem.type[ind.index].index;
glob_script_mem.fvars[index] = res;
SetChanged(ind.index);
glob_script_mem.type[ind.index].bits.changed = 1;
return 0;
} else {
// get var
@ -3724,13 +3765,11 @@ void Replace_Cmd_Vars(char *srcbuf, uint32_t srcsize, char *dstbuf, uint32_t dst
dstbuf[count] = 0;
}
void toLog(const char *str) {
if (!str) return;
AddLog(LOG_LEVEL_INFO, str);
}
void toLogN(const char *cp, uint8_t len) {
if (!cp) return;
char str[32];

54
tasmota/xdrv_13_display.ino
View File

@ -17,7 +17,6 @@
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#if defined(USE_I2C) || defined(USE_SPI)
#ifdef USE_DISPLAY
#define XDRV_13 13
@ -1601,7 +1600,9 @@ void DisplayInitDriver(void)
Display_Text_From_File("/display.ini");
#endif
#ifdef USE_GRAPH
for (uint8_t count = 0; count < NUM_GRAPHS; count++) { graph[count] = 0; }
#endif
// AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "Display model %d"), Settings.display_model);
@ -1945,7 +1946,7 @@ void CmndDisplayFont(void)
void CmndDisplayILIMOde(void)
{
if ((XdrvMailbox.payload >= 1) && (XdrvMailbox.payload < 16)) {
if ((XdrvMailbox.payload >= 1) && (XdrvMailbox.payload <= 7)) {
Settings.display_options.ilimode = XdrvMailbox.payload;
TasmotaGlobal.restart_flag = 2;
}
@ -2051,8 +2052,9 @@ void CmndDisplayRows(void)
}
/*********************************************************************************************\
* optional drivers
* Optional drivers
\*********************************************************************************************/
#ifdef USE_TOUCH_BUTTONS
// very limited path size, so, add .jpg
void draw_picture(char *path, uint32_t xp, uint32_t yp, uint32_t xs, uint32_t ys, uint32_t ocol, bool inverted) {
@ -2073,7 +2075,7 @@ char ppath[16];
}
Draw_RGB_Bitmap(ppath, xp, yp, inverted);
}
#endif
#endif // USE_TOUCH_BUTTONS
#ifdef ESP32
@ -2187,6 +2189,10 @@ void Draw_RGB_Bitmap(char *file,uint16_t xp, uint16_t yp, bool inverted ) {
}
#endif // USE_UFILESYS
/*********************************************************************************************\
* AWatch
\*********************************************************************************************/
#ifdef USE_AWATCH
#define MINUTE_REDUCT 4
@ -2224,6 +2230,9 @@ void DrawAClock(uint16_t rad) {
}
#endif // USE_AWATCH
/*********************************************************************************************\
* Graphics
\*********************************************************************************************/
#ifdef USE_GRAPH
@ -2264,7 +2273,6 @@ struct GRAPH {
GFLAGS flags;
};
struct GRAPH *graph[NUM_GRAPHS];
#define TICKLEN 4
@ -2461,6 +2469,7 @@ void Save_graph(uint8_t num, char *path) {
fp.print("\n");
fp.close();
}
void Restore_graph(uint8_t num, char *path) {
if (!renderer) return;
uint16_t index=num%NUM_GRAPHS;
@ -2572,7 +2581,6 @@ void AddGraph(uint8_t num,uint8_t val) {
}
}
// add next value
void AddValue(uint8_t num,float fval) {
// not yet defined ???
@ -2607,7 +2615,12 @@ void AddValue(uint8_t num,float fval) {
}
#endif // USE_GRAPH
/*********************************************************************************************\
* Touch panel control
\*********************************************************************************************/
#if defined(USE_FT5206) || defined(USE_XPT2046)
#ifdef USE_FT5206
#include <FT5206.h>
@ -2644,7 +2657,7 @@ uint32_t Touch_Status(uint32_t sel) {
return 0;
}
}
#endif
#endif // USE_FT5206
#if defined(USE_XPT2046) && defined(USE_DISPLAY_ILI9341)
#include <XPT2046_Touchscreen.h>
@ -2678,7 +2691,7 @@ uint32_t Touch_Status(uint32_t sel) {
}
}
#endif
#endif // USE_XPT2046 && USE_DISPLAY_ILI9341
#ifdef USE_TOUCH_BUTTONS
void Touch_MQTT(uint8_t index, const char *cp, uint32_t val) {
@ -2686,7 +2699,7 @@ void Touch_MQTT(uint8_t index, const char *cp, uint32_t val) {
ResponseTime_P(PSTR(",\"FT5206\":{\"%s%d\":\"%d\"}}"), cp, index+1, val);
#elif defined(USE_XPT2046)
ResponseTime_P(PSTR(",\"XPT2046\":{\"%s%d\":\"%d\"}}"), cp, index+1, val);
#endif
#endif // USE_XPT2046
MqttPublishTeleSensor();
}
@ -2702,10 +2715,9 @@ uint8_t tbstate[3];
// check digitizer hit
void Touch_Check(void(*rotconvert)(int16_t *x, int16_t *y)) {
uint16_t temp;
uint8_t rbutt=0;
uint8_t vbutt=0;
uint16_t temp;
uint8_t rbutt=0;
uint8_t vbutt=0;
if (touchp->touched()) {
// did find a hit
@ -2713,7 +2725,7 @@ uint8_t vbutt=0;
pLoc = touchp->getPoint(0);
#elif defined(USE_XPT2046)
pLoc = touchp->getPoint();
#endif
#endif // USE_XPT2046
if (renderer) {
#ifdef USE_M5STACK_CORE2
@ -2734,7 +2746,7 @@ uint8_t vbutt=0;
}
xcenter += 100;
}
#endif
#endif // USE_M5STACK_CORE2
rotconvert(&pLoc.x, &pLoc.y);
@ -2798,7 +2810,7 @@ uint8_t vbutt=0;
//AddLog(LOG_LEVEL_INFO, PSTR("tbut: %d released"), tbut);
}
}
#endif
#endif // USE_M5STACK_CORE2
for (uint8_t count = 0; count < MAX_TOUCH_BUTTONS; count++) {
if (buttons[count]) {
if (!buttons[count]->vpower.slider) {
@ -2831,7 +2843,7 @@ uint8_t vbutt=0;
}
#endif // USE_TOUCH_BUTTONS
#endif // USE_FT5206
#endif // USE_FT5206 || USE_XPT2046
/*********************************************************************************************\
* Interface
@ -2841,13 +2853,10 @@ bool Xdrv13(uint8_t function)
{
bool result = false;
if ((TasmotaGlobal.i2c_enabled || TasmotaGlobal.spi_enabled || TasmotaGlobal.soft_spi_enabled) && XdspPresent()) {
if (XdspPresent()) {
switch (function) {
case FUNC_PRE_INIT:
DisplayInitDriver();
#ifdef USE_GRAPH
for (uint8_t count = 0; count < NUM_GRAPHS; count++) { graph[count] = 0; }
#endif
break;
case FUNC_EVERY_50_MSECOND:
if (Settings.display_model) { XdspCall(FUNC_DISPLAY_EVERY_50_MSECOND); }
@ -2889,4 +2898,3 @@ bool Xdrv13(uint8_t function)
}
#endif // USE_DISPLAY
#endif // USE_I2C or USE_SPI

5
tasmota/xdsp_01_lcd.ino
View File

@ -55,8 +55,9 @@ void LcdInit(uint8_t mode)
}
}
void LcdInitDriver(void)
{
void LcdInitDriver(void) {
if (!TasmotaGlobal.i2c_enabled) { return; }
if (!Settings.display_model) {
if (I2cSetDevice(LCD_ADDRESS1)) {
Settings.display_address[0] = LCD_ADDRESS1;

5
tasmota/xdsp_02_ssd1306.ino
View File

@ -47,8 +47,9 @@ extern uint8_t *buffer;
/*********************************************************************************************/
void SSD1306InitDriver(void)
{
void SSD1306InitDriver(void) {
if (!TasmotaGlobal.i2c_enabled) { return; }
if (!Settings.display_model) {
if (I2cSetDevice(OLED_ADDRESS1)) {
Settings.display_address[0] = OLED_ADDRESS1;

5
tasmota/xdsp_03_matrix.ino
View File

@ -194,8 +194,9 @@ void MatrixInit(uint8_t mode)
}
}
void MatrixInitDriver(void)
{
void MatrixInitDriver(void) {
if (!TasmotaGlobal.i2c_enabled) { return; }
mtx_buffer = (char*)(malloc(MTX_MAX_SCREEN_BUFFER));
if (mtx_buffer != nullptr) {
if (!Settings.display_model) {

13
tasmota/xdsp_04_ili9341.ino
View File

@ -23,6 +23,8 @@
#define XDSP_04 4
enum IliModes { ILIMODE_9341 = 1, ILIMODE_9342, ILIMODE_MAX };
#include <ILI9341_2.h>
extern uint8_t *buffer;
@ -37,13 +39,10 @@ uint8_t ili9342_ctouch_counter = 0;
uint8_t ili9342_ctouch_counter = 0;
#endif // USE_FT5206
bool tft_init_done = false;
#define ILI9341_ID 1
#define ILI9342_ID 2
//Settings.display_options.ilimode = ILI9341_ID;
//Settings.display_options.ilimode = ILIMODE_9341;
/*********************************************************************************************/
@ -66,8 +65,8 @@ void ILI9341_InitDriver()
// disable screen buffer
buffer = NULL;
if (!Settings.display_options.ilimode) {
Settings.display_options.ilimode = ILI9341_ID;
if (!Settings.display_options.ilimode || (Settings.display_options.ilimode >= ILIMODE_MAX)) {
Settings.display_options.ilimode = ILIMODE_9341;
}
// default colors
@ -102,7 +101,7 @@ void ILI9341_InitDriver()
renderer->setTextFont(2);
renderer->setTextSize(1);
renderer->setTextColor(ILI9341_WHITE, ILI9341_BLACK);
renderer->DrawStringAt(50, (Settings.display_height/2)-12, (Settings.display_options.ilimode & 3)==ILI9341_ID?"ILI9341 TFT!":"ILI9342 TFT!", ILI9341_WHITE, 0);
renderer->DrawStringAt(50, (Settings.display_height/2)-12, (Settings.display_options.ilimode & 3)==ILIMODE_9341?"ILI9341 TFT!":"ILI9342 TFT!", ILI9341_WHITE, 0);
delay(1000);
#endif // SHOW_SPLASH

5
tasmota/xdsp_07_sh1106.ino
View File

@ -48,8 +48,9 @@ Adafruit_SH1106 *oled1106;
/*********************************************************************************************/
void SH1106InitDriver()
{
void SH1106InitDriver() {
if (!TasmotaGlobal.i2c_enabled) { return; }
if (!Settings.display_model) {
if (I2cSetDevice(OLED_ADDRESS1)) {
Settings.display_address[0] = OLED_ADDRESS1;

5
tasmota/xdsp_11_sevenseg.ino
View File

@ -147,8 +147,9 @@ void SevensegInit(uint8_t mode)
}
}
void SevensegInitDriver(void)
{
void SevensegInitDriver(void) {
if (!TasmotaGlobal.i2c_enabled) { return; }
if (!Settings.display_model) {
if (I2cSetDevice(Settings.display_address[0])) {
Settings.display_model = XDSP_11;

2
tasmota/xdsp_interface.ino
View File

@ -17,7 +17,6 @@
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#if defined(USE_I2C) || defined(USE_SPI)
#ifdef USE_DISPLAY
#ifdef XFUNC_PTR_IN_ROM
@ -201,4 +200,3 @@ bool XdspCall(uint8_t Function)
}
#endif // USE_DISPLAY
#endif // USE_I2C or USE_SPI