mirror of https://github.com/arendst/Tasmota.git
Add Zigbee web ui widget for Lights
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@ -3,6 +3,7 @@
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### 8.4.0.3 20200823
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### 8.4.0.3 20200823
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- Add command ``PowerDelta1`` to ``PowerDelta3`` to trigger on up to three phases (#9134)
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- Add command ``PowerDelta1`` to ``PowerDelta3`` to trigger on up to three phases (#9134)
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- Add Zigbee web ui widget for Lights
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### 8.4.0.2 20200813
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### 8.4.0.2 20200813
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@ -146,6 +146,14 @@ public:
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inline bool getReachable(void) const { return bitRead(power, 7); }
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inline bool getReachable(void) const { return bitRead(power, 7); }
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inline void setPower(bool power_on) { bitWrite(power, 0, power_on); bitWrite(power, 1, false); }
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inline void setPower(bool power_on) { bitWrite(power, 0, power_on); bitWrite(power, 1, false); }
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inline bool getPower(void) const { return bitRead(power, 0); }
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inline bool getPower(void) const { return bitRead(power, 0); }
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// If light, returns the number of channels, or 0xFF if unknown
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uint8_t getLightChannels(void) const {
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if ((zb_profile & 0xF0) == 0x00) {
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return zb_profile & 0x07;
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}
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return 0xFF;
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}
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};
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};
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/*********************************************************************************************\
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/*********************************************************************************************\
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@ -682,21 +690,21 @@ void Z_Devices::updateZbProfile(uint16_t shortaddr) {
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{
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{
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uint32_t channels = zb_profile & 0x07;
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uint32_t channels = zb_profile & 0x07;
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// depending on the bulb type, the default parameters from unknown to credible defaults
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// depending on the bulb type, the default parameters from unknown to credible defaults
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if (!device.validPower()) { device.setPower(false); }
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// if (!device.validPower()) { device.setPower(false); }
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if (1 <= channels) {
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// if (1 <= channels) {
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if (0xFF == device.dimmer) { device.dimmer = 0; }
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// if (0xFF == device.dimmer) { device.dimmer = 0; }
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}
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// }
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if (3 <= channels) {
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// if (3 <= channels) {
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if (0xFF == device.sat) { device.sat = 0; }
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// if (0xFF == device.sat) { device.sat = 0; }
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if (0xFFFF == device.hue) { device.hue = 0; }
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// if (0xFFFF == device.hue) { device.hue = 0; }
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if (0xFFFF == device.x) { device.x = 0; }
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// if (0xFFFF == device.x) { device.x = 0; }
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if (0xFFFF == device.y) { device.y = 0; }
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// if (0xFFFF == device.y) { device.y = 0; }
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if (0xFF == device.colormode) { device.colormode = 0; } // HueSat mode
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// if (0xFF == device.colormode) { device.colormode = 0; } // HueSat mode
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}
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// }
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if ((2 == channels) || (5 == channels)) {
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// if ((2 == channels) || (5 == channels)) {
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if (0xFFFF == device.ct) { device.ct = 200; }
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// if (0xFFFF == device.ct) { device.ct = 200; }
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if (0xFF == device.colormode) { device.colormode = 2; } // CT mode
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// if (0xFF == device.colormode) { device.colormode = 2; } // CT mode
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}
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// }
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}
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}
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break;
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break;
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}
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}
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@ -681,7 +681,7 @@ ZBM(ZBS_SET_CONCENTRATOR, EZSP_setConcentrator, 0x00 /*high*/, 0x00 /*false*/, 0
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ZBM(ZBR_SET_CONCENTRATOR, EZSP_setConcentrator, 0x00 /*high*/, 0x00 /*ok*/) // 100000
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ZBM(ZBR_SET_CONCENTRATOR, EZSP_setConcentrator, 0x00 /*high*/, 0x00 /*ok*/) // 100000
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// setInitialSecurityState
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// setInitialSecurityState
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#define EZ_SECURITY_MODE EMBER_TRUST_CENTER_GLOBAL_LINK_KEY | EMBER_PRECONFIGURED_NETWORK_KEY_MODE | EMBER_HAVE_NETWORK_KEY | EMBER_HAVE_PRECONFIGURED_KEY
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#define EZ_SECURITY_MODE EMBER_TRUST_CENTER_GLOBAL_LINK_KEY | EMBER_PRECONFIGURED_NETWORK_KEY_MODE | EMBER_HAVE_NETWORK_KEY | EMBER_HAVE_PRECONFIGURED_KEY | EMBER_NO_FRAME_COUNTER_RESET
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ZBR(ZBS_SET_SECURITY, EZSP_setInitialSecurityState, 0x00 /*high*/,
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ZBR(ZBS_SET_SECURITY, EZSP_setInitialSecurityState, 0x00 /*high*/,
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Z_B0(EZ_SECURITY_MODE), Z_B1(EZ_SECURITY_MODE),
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Z_B0(EZ_SECURITY_MODE), Z_B1(EZ_SECURITY_MODE),
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// preConfiguredKey
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// preConfiguredKey
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@ -1348,6 +1348,7 @@ void ZigbeeShow(bool json)
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const uint8_t px_lqi = (strlen(D_LQI) + 4) * 10; // LQI 254 = 70px
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const uint8_t px_lqi = (strlen(D_LQI) + 4) * 10; // LQI 254 = 70px
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WSContentSend_P(PSTR("</table>{t}")); // Terminate current two column table and open new table
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WSContentSend_P(PSTR("</table>{t}")); // Terminate current two column table and open new table
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WSContentSend_P(PSTR("<style>.bx{height:14px;width:14px;display:inline-block;border:1px solid currentColor;background-color:var(--cl,#fff)}</style>"));
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// sort elements by name, then by id
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// sort elements by name, then by id
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uint8_t sorted_idx[zigbee_num];
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uint8_t sorted_idx[zigbee_num];
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@ -1393,20 +1394,45 @@ void ZigbeeShow(bool json)
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bool pressure_ok = device.validPressure();
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bool pressure_ok = device.validPressure();
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if (temperature_ok || humidity_ok || pressure_ok) {
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if (temperature_ok || humidity_ok || pressure_ok) {
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WSContentSend_P(PSTR("<tr><td colspan=\"3\">| "));
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WSContentSend_P(PSTR("<tr><td colspan=\"3\">┆"));
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if (temperature_ok) {
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if (temperature_ok) {
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char buf[12];
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char buf[12];
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dtostrf(device.temperature / 10.0f, 3, 1, buf);
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dtostrf(device.temperature / 10.0f, 3, 1, buf);
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WSContentSend_PD(PSTR(" ☀️%s°C"), buf);
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WSContentSend_PD(PSTR(" ☀️%s°C"), buf);
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}
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}
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if (humidity_ok) {
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if (humidity_ok) {
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WSContentSend_P(PSTR(" 💧%d%%"), device.humidity);
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WSContentSend_P(PSTR(" 💧%d%%"), device.humidity);
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}
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}
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if (pressure_ok) {
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if (pressure_ok) {
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WSContentSend_P(PSTR(" ⛅ %d hPa"), device.pressure);
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WSContentSend_P(PSTR(" ⛅ %d hPa"), device.pressure);
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}
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}
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WSContentSend_P(PSTR("{e}"));
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WSContentSend_P(PSTR("{e}"));
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}
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}
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// Light and switches
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bool power_ok = device.validPower();
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if (power_ok) {
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uint8_t channels = device.getLightChannels();
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if (0xFF == channels) { channels = 5; } // if number of channel is unknown, display all known attributes
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WSContentSend_P(PSTR("<tr><td colspan=\"3\">┆ %s"), device.getPower() ? PSTR(D_ON) : PSTR(D_OFF));
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if (device.validDimmer() && (channels >= 1)) {
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WSContentSend_P(PSTR(" 🔅%d%%"), changeUIntScale(device.dimmer,0,254,0,100));
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}
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if (device.validCT() && ((channels == 2) || (channels == 5))) {
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uint32_t ct_k = (((1000000 / device.ct) + 25) / 50) * 50;
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WSContentSend_P(PSTR(" <span title=\"CT %d\"><small>⚪ </small>%dK</span>"), device.ct, ct_k);
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}
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if (device.validHue() && device.validSat() && (channels >= 3)) {
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uint8_t r,g,b;
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uint8_t sat = changeUIntScale(device.sat, 0, 254, 0, 255); // scale to 0..255
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LightStateClass::HsToRgb(device.hue, sat, &r, &g, &b);
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WSContentSend_P(PSTR(" <i class=\"bx\" style=\"--cl:#%02X%02X%02X\"></i>#%02X%02X%02X"), r,g,b,r,g,b);
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} else if (device.validX() && device.validY() && (channels >= 3)) {
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uint8_t r,g,b;
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LightStateClass::XyToRgb(device.x / 65535.0f, device.y / 65535.0f, &r, &g, &b);
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WSContentSend_P(PSTR(" <i class=\"bx\" style=\"--cl:#%02X%02X%02X\"></i> #%02X%02X%02X"), r,g,b,r,g,b);
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}
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}
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}
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}
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WSContentSend_P(PSTR("</table>{t}")); // Terminate current multi column table and open new table
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WSContentSend_P(PSTR("</table>{t}")); // Terminate current multi column table and open new table
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