Tasmota/tasmota/xdrv_23_zigbee_A_impl.ino

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/*
xdrv_23_zigbee.ino - zigbee support for Tasmota
2021-01-01 12:44:04 +00:00
Copyright (C) 2021 Theo Arends and Stephan Hadinger
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifdef USE_ZIGBEE
#define XDRV_23 23
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#include "UnishoxStrings.h"
const char kZbCommands[] PROGMEM = D_PRFX_ZB "|" // prefix
// SetOption synonyms
D_SO_ZIGBEE_NAMEKEY "|" D_SO_ZIGBEE_DEVICETOPIC "|" D_SO_ZIGBEE_NOPREFIX "|" D_SO_ZIGBEE_ENDPOINTSUFFIX "|" D_SO_ZIGBEE_NOAUTOBIND "|"
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D_SO_ZIGBEE_NAMETOPIC "|" D_SO_ZIGBEE_ENDPOINTTOPIC "|" D_SO_ZIGBEE_NOAUTOQUERY "|" D_SO_ZIGBEE_ZBRECEIVEDTOPIC "|" D_SO_ZIGBEE_OMITDEVICE "|"
#ifdef USE_ZIGBEE_ZNP
D_CMND_ZIGBEEZNPSEND "|" D_CMND_ZIGBEEZNPRECEIVE "|"
#endif // USE_ZIGBEE_ZNP
#ifdef USE_ZIGBEE_EZSP
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D_CMND_ZIGBEE_EZSP_SEND "|" D_CMND_ZIGBEE_EZSP_RECEIVE "|" D_CMND_ZIGBEE_EZSP_LISTEN "|"
#endif // USE_ZIGBEE_EZSP
D_CMND_ZIGBEE_PERMITJOIN "|"
D_CMND_ZIGBEE_STATUS "|" D_CMND_ZIGBEE_RESET "|" D_CMND_ZIGBEE_SEND "|" D_CMND_ZIGBEE_PROBE "|"
D_CMND_ZIGBEE_INFO "|" D_CMND_ZIGBEE_FORGET "|" D_CMND_ZIGBEE_SAVE "|" D_CMND_ZIGBEE_NAME "|"
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D_CMND_ZIGBEE_BIND "|" D_CMND_ZIGBEE_UNBIND "|" D_CMND_ZIGBEE_PING "|" D_CMND_ZIGBEE_MODELID "|"
D_CMND_ZIGBEE_LIGHT "|" D_CMND_ZIGBEE_OCCUPANCY "|"
D_CMND_ZIGBEE_RESTORE "|" D_CMND_ZIGBEE_BIND_STATE "|" D_CMND_ZIGBEE_MAP "|" D_CMND_ZIGBEE_LEAVE "|"
D_CMND_ZIGBEE_CONFIG "|" D_CMND_ZIGBEE_DATA "|" D_CMND_ZIGBEE_SCAN
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;
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SO_SYNONYMS(kZbSynonyms,
83, 89, 100, 101, 110,
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112, 120, 116, 118, 119,
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);
void (* const ZigbeeCommand[])(void) PROGMEM = {
#ifdef USE_ZIGBEE_ZNP
&CmndZbZNPSend, &CmndZbZNPReceive,
#endif // USE_ZIGBEE_ZNP
#ifdef USE_ZIGBEE_EZSP
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&CmndZbEZSPSend, &CmndZbEZSPReceive, &CmndZbEZSPListen,
#endif // USE_ZIGBEE_EZSP
&CmndZbPermitJoin,
&CmndZbStatus, &CmndZbReset, &CmndZbSend, &CmndZbProbe,
&CmndZbInfo, &CmndZbForget, &CmndZbSave, &CmndZbName,
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&CmndZbBind, &CmndZbUnbind, &CmndZbPing, &CmndZbModelId,
&CmndZbLight, &CmndZbOccupancy,
&CmndZbRestore, &CmndZbBindState, &CmndZbMap, CmndZbLeave,
&CmndZbConfig, &CmndZbData, &CmndZbScan,
};
/********************************************************************************************/
// Initialize internal structures
void ZigbeeInit(void)
{
// #pragma GCC diagnostic push
// #pragma GCC diagnostic ignored "-Winvalid-offsetof"
// Serial.printf(">>> offset %d %d %d\n", Z_offset(Z_Data_Light, dimmer), Z_offset(Z_Data_Light, x), Z_offset(Z_Data_Thermo, temperature));
// #pragma GCC diagnostic pop
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// Check if settings in Flash are set
if (PinUsed(GPIO_ZIGBEE_RX) && PinUsed(GPIO_ZIGBEE_TX)) {
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if (0 == Settings->zb_channel) {
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_ZIGBEE D_ZIGBEE_RANDOMIZING_ZBCONFIG));
uint64_t mac64 = 0; // stuff mac address into 64 bits
WiFi.macAddress((uint8_t*) &mac64);
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uint32_t esp_id = ESP_getChipId();
#ifdef ESP8266
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uint32_t flash_id = ESP.getFlashChipId();
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#endif // ESP8266
#ifdef ESP32
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uint32_t flash_id = 0;
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#endif // ESP32
uint16_t pan_id = (mac64 & 0x3FFF);
if (0x0000 == pan_id) { pan_id = 0x0001; } // avoid extreme values
if (0x3FFF == pan_id) { pan_id = 0x3FFE; } // avoid extreme values
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Settings->zb_pan_id = pan_id;
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Settings->zb_ext_panid = 0xCCCCCCCC00000000L | (mac64 & 0x00000000FFFFFFFFL);
Settings->zb_precfgkey_l = (mac64 << 32) | (esp_id << 16) | flash_id;
Settings->zb_precfgkey_h = (mac64 << 32) | (esp_id << 16) | flash_id;
Settings->zb_channel = USE_ZIGBEE_CHANNEL;
Settings->zb_txradio_dbm = USE_ZIGBEE_TXRADIO_DBM;
}
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if (Settings->zb_txradio_dbm < 0) {
Settings->zb_txradio_dbm = -Settings->zb_txradio_dbm;
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#ifdef USE_ZIGBEE_EZSP
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EZ_reset_config = true; // force reconfigure of EZSP
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#endif
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SettingsSave(2);
}
#ifdef USE_ZIGBEE_EZSP
// Check the I2C EEprom
Wire.beginTransmission(USE_ZIGBEE_ZBBRIDGE_EEPROM);
uint8_t error = Wire.endTransmission();
if (0 == error) {
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_ZIGBEE D_ZIGBEE_EEPROM_FOUND_AT_ADDRESS " 0x%02X"), USE_ZIGBEE_ZBBRIDGE_EEPROM);
zigbee.eeprom_present = true;
}
#endif
}
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// update commands with the current settings
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#ifdef USE_ZIGBEE_ZNP
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ZNP_UpdateConfig(Settings->zb_channel, Settings->zb_pan_id, Settings->zb_ext_panid, Settings->zb_precfgkey_l, Settings->zb_precfgkey_h);
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#endif
#ifdef USE_ZIGBEE_EZSP
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EZ_UpdateConfig(Settings->zb_channel, Settings->zb_pan_id, Settings->zb_ext_panid, Settings->zb_precfgkey_l, Settings->zb_precfgkey_h, Settings->zb_txradio_dbm);
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#endif
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ZigbeeInitSerial();
}
/*********************************************************************************************\
* Commands
\*********************************************************************************************/
#ifdef USE_ZIGBEE_ZNP
// Do a factory reset of the CC2530
const unsigned char ZIGBEE_FACTORY_RESET[] PROGMEM =
{ Z_SREQ | Z_SAPI, SAPI_WRITE_CONFIGURATION, CONF_STARTUP_OPTION, 0x01 /* len */, 0x01 /* STARTOPT_CLEAR_CONFIG */};
//"2605030101"; // Z_SREQ | Z_SAPI, SAPI_WRITE_CONFIGURATION, CONF_STARTUP_OPTION, 0x01 len, 0x01 STARTOPT_CLEAR_CONFIG
#endif // USE_ZIGBEE_ZNP
void CmndZbReset(void) {
if (ZigbeeSerial) {
switch (XdrvMailbox.payload) {
case 1:
#ifdef USE_ZIGBEE_ZNP
ZigbeeZNPSend(ZIGBEE_FACTORY_RESET, sizeof(ZIGBEE_FACTORY_RESET));
#endif // USE_ZIGBEE_ZNP
eraseZigbeeDevices();
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// no break - this is intended
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case 2: // fall through
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Settings->zb_txradio_dbm = - abs(Settings->zb_txradio_dbm);
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TasmotaGlobal.restart_flag = 2;
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#ifdef USE_ZIGBEE_ZNP
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ResponseCmndChar_P(PSTR(D_JSON_ZIGBEE_CC2530 " " D_JSON_RESET_AND_RESTARTING));
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#endif // USE_ZIGBEE_ZNP
#ifdef USE_ZIGBEE_EZSP
ResponseCmndChar_P(PSTR(D_JSON_ZIGBEE_EZSP " " D_JSON_RESET_AND_RESTARTING));
#endif // USE_ZIGBEE_EZSP
break;
default:
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ResponseCmndChar_P(PSTR(D_ZIGBEE_RESET_1_OR_2));
}
}
}
/********************************************************************************************/
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//
// High-level function
// Send a command specified as an HEX string for the workload.
// The target endpoint is computed if zero, i.e. sent to the first known endpoint of the device.
//
// Inputs:
// - shortaddr: 16-bits short address, or 0x0000 if group address
// - groupaddr: 16-bits group address, or 0x0000 if unicast using shortaddr
// - endpoint: 8-bits target endpoint (source is always 0x01), if 0x00, it will be guessed from ZbStatus information (basically the first endpoint of the device)
// - clusterSpecific: boolean, is the message general cluster or cluster specific, used to create the FC byte of ZCL
// - clusterIf: 16-bits cluster number
// - param: pointer to HEX string for payload, should not be nullptr
// Returns: None
//
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void zigbeeZCLSendCmd(class ZCLMessage &zcl) {
if ((0 == zcl.endpoint) && (zcl.validShortaddr())) {
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// endpoint is not specified, let's try to find it from shortAddr, unless it's a group address
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zcl.endpoint = zigbee_devices.findFirstEndpoint(zcl.shortaddr);
if (0x00 == zcl.endpoint) { zcl.endpoint = 0x01; } // if we don't know the endpoint, try 0x01
//AddLog(LOG_LEVEL_DEBUG, PSTR("ZbSend: guessing endpoint 0x%02X"), endpoint);
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}
// AddLog(LOG_LEVEL_DEBUG, PSTR("ZbSend: shortaddr 0x%04X, groupaddr 0x%04X, cluster 0x%04X, endpoint 0x%02X, cmd 0x%02X, data %_B"),
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// zcl.shortaddr, zcl.groupaddr, zcl.cluster, zcl.endpoint, zcl.cmd, &zcl.buf);
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if ((0 == zcl.endpoint) && (zcl.validShortaddr())) { // endpoint null is ok for group address
AddLog(LOG_LEVEL_INFO, PSTR("ZbSend: unspecified endpoint"));
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return;
}
// everything is good, we can send the command
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if (!zcl.transacSet) {
zcl.transac = zigbee_devices.getNextSeqNumber(zcl.shortaddr);
zcl.transacSet = true;
}
AddLog(LOG_LEVEL_DEBUG, PSTR("ZigbeeZCLSend device: 0x%04X, group: 0x%04X, endpoint:%d, cluster:0x%04X, cmd:0x%02X, send:\"%_B\""),
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zcl.shortaddr, zcl.groupaddr, zcl.endpoint, zcl.cluster, zcl.cmd, &zcl.buf);
ZigbeeZCLSend_Raw(zcl);
// now set the timer, if any, to read back the state later
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if (zcl.clusterSpecific) {
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if (!Settings->flag5.zb_disable_autoquery) {
// read back attribute value unless it is disabled
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sendHueUpdate(zcl.shortaddr, zcl.groupaddr, zcl.cluster, zcl.endpoint);
}
}
}
// Special encoding for multiplier:
// multiplier == 0: ignore
// multiplier == 1: ignore
// multiplier > 0: divide by the multiplier
// multiplier < 0: multiply by the -multiplier (positive)
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void ZbApplyMultiplier(double &val_d, int8_t multiplier) {
if ((0 != multiplier) && (1 != multiplier)) {
if (multiplier > 0) { // inverse of decoding
val_d = val_d / multiplier;
} else {
val_d = val_d * (-multiplier);
}
}
}
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//
// Write Tuya-Moes attribute
//
bool ZbTuyaWrite(SBuffer & buf, const Z_attribute & attr) {
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double val_d = attr.getOptimisticDouble();
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const char * val_str = attr.getStr();
if (attr.key_is_str) { return false; } // couldn't find attr if so skip
if (attr.isNum() && (1 != attr.attr_multiplier)) {
ZbApplyMultiplier(val_d, attr.attr_multiplier);
}
uint32_t u32 = val_d;
int32_t i32 = val_d;
uint8_t tuyatype = (attr.key.id.attr_id >> 8);
uint8_t dpid = (attr.key.id.attr_id & 0xFF);
buf.add8(tuyatype);
buf.add8(dpid);
// the next attribute is length 16 bits in big endian
// high byte is always 0x00
buf.add8(0);
switch (tuyatype) {
case 0x00: // raw
{
SBuffer buf_raw = SBuffer::SBufferFromHex(val_str, strlen(val_str));
if (buf_raw.len() > 255) { return false; }
buf.add8(buf_raw.len());
buf.addBuffer(buf_raw);
}
break;
case 0x01: // Boolean = uint8
case 0x04: // enum uint8
buf.add8(1);
buf.add8(u32);
break;
case 0x02: // int32
buf.add8(4);
buf.add32BigEndian(i32);
break;
case 0x03: // String
{
uint32_t s_len = strlen(val_str);
if (s_len > 255) { return false; }
buf.add8(s_len);
buf.addBuffer(val_str, s_len);
}
break;
case 0x05: // bitmap 1/2/4 so we use 4 bytes
buf.add8(4);
buf.add32BigEndian(u32);
break;
default:
return false;
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}
return true;
}
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//
// Send Attribute Write, apply mutlipliers before
//
bool ZbAppendWriteBuf(SBuffer & buf, const Z_attribute & attr, bool prepend_status_ok) {
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double val_d = attr.getOptimisticDouble();
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const char * val_str = attr.getStr();
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if (attr.key_is_str) { return false; } // couldn't find attr if so skip
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if (attr.isNum() && (1 != attr.attr_multiplier)) {
ZbApplyMultiplier(val_d, attr.attr_multiplier);
}
// push the value in the buffer
buf.add16(attr.key.id.attr_id); // prepend with attribute identifier
if (prepend_status_ok) {
buf.add8(Z_SUCCESS); // status OK = 0x00
}
buf.add8(attr.attr_type); // prepend with attribute type
int32_t res = encodeSingleAttribute(buf, val_d, val_str, attr.attr_type);
if (res < 0) {
// remove the attribute type we just added
// buf.setLen(buf.len() - (operation == ZCL_READ_ATTRIBUTES_RESPONSE ? 4 : 3));
AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_ZIGBEE D_ZIGBEE_UNSUPPORTED_ATTRIBUTE_TYPE " %04X/%04X '0x%02X'"), attr.key.id.cluster, attr.key.id.attr_id, attr.attr_type);
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return false;
}
return true;
}
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//
// Parse "Report", "Write", "Response" or "Config" attribute
// Operation is one of: ZCL_REPORT_ATTRIBUTES (0x0A), ZCL_WRITE_ATTRIBUTES (0x02) or ZCL_READ_ATTRIBUTES_RESPONSE (0x01)
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//
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void ZbSendReportWrite(class JsonParserToken val_pubwrite, class ZCLMessage & zcl) {
zcl.buf.reserve(200); // buffer to store the binary output of attibutes
SBuffer & buf = zcl.buf; // synonym
if (nullptr == XdrvMailbox.command) {
XdrvMailbox.command = (char*) ""; // prevent a crash when calling ReponseCmndChar and there was no previous command
}
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bool tuya_protocol = zigbee_devices.isTuyaProtocol(zcl.shortaddr, zcl.endpoint);
// iterate on keys
for (auto key : val_pubwrite.getObject()) {
JsonParserToken value = key.getValue();
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Z_attribute attr;
attr.setKeyName(key.getStr());
if (Z_parseAttributeKey(attr, tuya_protocol ? 0xEF00 : 0xFFFF)) { // favor tuya protocol if needed
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// Buffer ready, do some sanity checks
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// all attributes must use the same cluster
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if (0xFFFF == zcl.cluster) {
zcl.cluster = attr.key.id.cluster; // set the cluster for this packet
} else if (zcl.cluster != attr.key.id.cluster) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_TOO_MANY_CLUSTERS));
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return;
}
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} else {
if (attr.key_is_str) {
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Response_P(PSTR("{\"%s\":\"%s'%s'\"}"), XdrvMailbox.command, PSTR(D_ZIGBEE_UNKNOWN_ATTRIBUTE " "), key);
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return;
}
if (Zunk == attr.attr_type) {
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Response_P(PSTR("{\"%s\":\"%s'%s'\"}"), XdrvMailbox.command, PSTR(D_ZIGBEE_UNSUPPORTED_ATTRIBUTE_TYPE " "), key);
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return;
}
}
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// copy value from input to attribute, in numerical or string format
if (value.isStr()) {
attr.setStr(value.getStr());
} else if (value.isNum()) {
attr.setFloat(value.getFloat());
}
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double val_d = 0; // I try to avoid `double` but this type capture both float and (u)int32_t without prevision loss
const char* val_str = ""; // variant as string
////////////////////////////////////////////////////////////////////////////////
// Split encoding depending on message
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if (zcl.cmd != ZCL_CONFIGURE_REPORTING) {
if ((zcl.cluster == 0XEF00) && (zcl.cmd == ZCL_WRITE_ATTRIBUTES)) {
// special case of Tuya / Moes / Lidl attributes
if (buf.len() == 0) {
// add the prefix to data
buf.add8(0); // status
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buf.add8(zigbee_devices.getNextSeqNumber(zcl.shortaddr));
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}
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zcl.clusterSpecific = true;
zcl.cmd = 0x00;
if (!ZbTuyaWrite(buf, attr)) {
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return; // error
}
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} else if (!ZbAppendWriteBuf(buf, attr, zcl.cmd == ZCL_READ_ATTRIBUTES_RESPONSE)) { // general case
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return; // error
}
} else {
// ////////////////////////////////////////////////////////////////////////////////
// ZCL_CONFIGURE_REPORTING
if (!value.isObject()) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_JSON_REQUIRED));
return;
}
JsonParserObject attr_config = value.getObject();
bool attr_direction = false;
uint32_t dir = attr_config.getUInt(PSTR("DirectionReceived"), 0);
if (dir) { attr_direction = true; }
// read MinInterval and MaxInterval, default to 0xFFFF if not specified
uint16_t attr_min_interval = attr_config.getUInt(PSTR("MinInterval"), 0xFFFF);
uint16_t attr_max_interval = attr_config.getUInt(PSTR("MaxInterval"), 0xFFFF);
// read ReportableChange
JsonParserToken val_attr_rc = attr_config[PSTR("ReportableChange")];
if (val_attr_rc) {
val_d = val_attr_rc.getFloat();
val_str = val_attr_rc.getStr();
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ZbApplyMultiplier(val_d, attr.attr_multiplier);
}
// read TimeoutPeriod
uint16_t attr_timeout = attr_config.getUInt(PSTR("TimeoutPeriod"), 0x0000);
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bool attr_discrete = Z_isDiscreteDataType(attr.attr_type);
// all fields are gathered, output the butes into the buffer, ZCL 2.5.7.1
// common bytes
buf.add8(attr_direction ? 0x01 : 0x00);
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buf.add16(attr.key.id.attr_id);
if (attr_direction) {
buf.add16(attr_timeout);
} else {
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buf.add8(attr.attr_type);
buf.add16(attr_min_interval);
buf.add16(attr_max_interval);
if (!attr_discrete) {
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int32_t res = encodeSingleAttribute(buf, val_d, val_str, attr.attr_type);
if (res < 0) {
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Response_P(PSTR("{\"%s\":\"%s'%s' 0x%02X\"}"), XdrvMailbox.command, PSTR(D_ZIGBEE_UNSUPPORTED_ATTRIBUTE_TYPE " "), key, attr.attr_type);
return;
}
}
}
}
}
// did we have any attribute?
if (0 == buf.len()) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_NO_ATTRIBUTE));
return;
}
// all good, send the packet
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zigbeeZCLSendCmd(zcl);
ResponseCmndDone();
}
// Parse the "Send" attribute and send the command
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void ZbSendSend(class JsonParserToken val_cmd, ZCLMessage & zcl) {
zcl.clusterSpecific = true;
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static const char delim[] = ", "; // delimiters for parameters
// probe the type of the argument
// If JSON object, it's high level commands
// If String, it's a low level command
if (val_cmd.isObject()) {
// we have a high-level command
JsonParserObject cmd_obj = val_cmd.getObject();
int32_t cmd_size = cmd_obj.size();
if (cmd_size > 1) {
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Response_P(PSTR(D_ZIGBEE_TOO_MANY_COMMANDS), cmd_size);
return;
} else if (1 == cmd_size) {
// We have exactly 1 command, parse it
JsonParserKey key = cmd_obj.getFirstElement();
JsonParserToken value = key.getValue();
uint32_t x = 0, y = 0, z = 0;
uint16_t cmd_var;
uint16_t local_cluster_id;
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const char * tasmota_cmd = zigbeeFindCommand(key.getStr(), &local_cluster_id, &cmd_var);
if (tasmota_cmd == nullptr) { // did we find the command?
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Response_P(PSTR(D_ZIGBEE_UNRECOGNIZED_COMMAND), key.getStr());
return;
}
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// check cluster
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if (0xFFFF == zcl.cluster) {
zcl.cluster = local_cluster_id;
} else if (zcl.cluster != local_cluster_id) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_TOO_MANY_CLUSTERS));
return;
}
// parse the JSON value, depending on its type fill in x,y,z
if (value.isNum()) {
x = value.getUInt(); // automatic conversion to 0/1
// if (value.is<bool>()) {
// // x = value.as<bool>() ? 1 : 0;
2020-10-10 16:00:37 +01:00
// } else if
// } else if (value.is<unsigned int>()) {
// x = value.as<unsigned int>();
} else {
// if non-bool or non-int, trying char*
const char *s_const = value.getStr(nullptr);
// const char *s_const = value.as<const char*>();
if (s_const != nullptr) {
char s[strlen(s_const)+1];
strcpy(s, s_const);
if ((nullptr != s) && (0x00 != *s)) { // ignore any null or empty string, could represent 'null' json value
char *sval = strtok(s, delim);
if (sval) {
x = ZigbeeAliasOrNumber(sval);
sval = strtok(nullptr, delim);
if (sval) {
y = ZigbeeAliasOrNumber(sval);
sval = strtok(nullptr, delim);
if (sval) {
z = ZigbeeAliasOrNumber(sval);
}
}
}
}
}
}
//AddLog(LOG_LEVEL_DEBUG, PSTR("ZbSend: command_template = %s"), cmd_str.c_str());
if (0xFF == cmd_var) { // if command number is a variable, replace it with x
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zcl.cmd = x;
x = y; // and shift other variables
y = z;
} else {
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zcl.cmd = cmd_var; // or simply copy the cmd number
}
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zigbeeCmdAddParams(zcl.buf, tasmota_cmd, x, y, z); // fill in parameters
} else {
// we have zero command, pass through until last error for missing command
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return;
}
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zigbeeZCLSendCmd(zcl);
} else if (val_cmd.isStr()) {
// low-level command
// Now parse the string to extract cluster, command, and payload
// Parse 'cmd' in the form "AAAA_BB/CCCCCCCC" or "AAAA!BB/CCCCCCCC"
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// where AAAA is the cluster number, BB the command number, CCCC... the payload
// First delimiter is '_' for a global command, or '!' for a cluster specific command
const char * data = val_cmd.getStr();
uint16_t local_cluster_id = parseHex(&data, 4);
// check cluster
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if (0xFFFF == zcl.cluster) {
zcl.cluster = local_cluster_id;
} else if (zcl.cluster != local_cluster_id) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_TOO_MANY_CLUSTERS));
return;
}
// delimiter
if (('_' == *data) || ('!' == *data)) {
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if ('_' == *data) { zcl.clusterSpecific = false; }
data++;
} else {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_WRONG_DELIMITER));
return;
}
// parse cmd number
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zcl.cmd = parseHex(&data, 2);
// move to end of payload
// delimiter is optional
if ('/' == *data) { data++; } // skip delimiter
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zcl.buf.replace(SBuffer::SBufferFromHex(data, strlen(data)));
zigbeeZCLSendCmd(zcl);
} else {
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// we have an unsupported command type
return;
}
ResponseCmndDone();
}
// Parse the "Send" attribute and send the command
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void ZbSendRead(JsonParserToken val_attr, ZCLMessage & zcl) {
// ZbSend {"Device":"0xF289","Cluster":0,"Endpoint":3,"Read":5}
// ZbSend {"Device":"0xF289","Cluster":"0x0000","Endpoint":"0x0003","Read":"0x0005"}
// ZbSend {"Device":"0xF289","Cluster":0,"Endpoint":3,"Read":[5,6,7,4]}
// ZbSend {"Device":"0xF289","Endpoint":3,"Read":{"ModelId":true}}
// ZbSend {"Device":"0xF289","Read":{"ModelId":true}}
// ZbSend {"Device":"0xF289","ReadConig":{"Power":true}}
// ZbSend {"Device":"0xF289","Cluster":6,"Endpoint":3,"ReadConfig":0}
// params
size_t attrs_len = 0;
uint8_t* attrs = nullptr; // empty string is valid
size_t attr_item_len = 2; // how many bytes per attribute, standard for "Read"
size_t attr_item_offset = 0; // how many bytes do we offset to store attribute
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if (ZCL_READ_REPORTING_CONFIGURATION == zcl.cmd) {
attr_item_len = 3;
attr_item_offset = 1;
}
if (val_attr.isArray()) {
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// value is an array []
JsonParserArray attr_arr = val_attr.getArray();
attrs_len = attr_arr.size() * attr_item_len;
attrs = (uint8_t*) calloc(attrs_len, 1);
uint32_t i = 0;
for (auto value : attr_arr) {
uint16_t val = value.getUInt();
i += attr_item_offset;
attrs[i++] = val & 0xFF;
attrs[i++] = val >> 8;
i += attr_item_len - 2 - attr_item_offset; // normally 0
}
} else if (val_attr.isObject()) {
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// value is an object {}
JsonParserObject attr_obj = val_attr.getObject();
attrs_len = attr_obj.size() * attr_item_len;
attrs = (uint8_t*) calloc(attrs_len, 1);
uint32_t actual_attr_len = 0;
// iterate on keys
for (auto key : attr_obj) {
JsonParserToken value = key.getValue();
bool found = false;
// scan attributes to find by name, and retrieve type
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for (uint32_t i = 0; i < nitems(Z_PostProcess); i++) {
const Z_AttributeConverter *converter = &Z_PostProcess[i];
uint16_t local_attr_id = pgm_read_word(&converter->attribute);
uint16_t local_cluster_id = CxToCluster(pgm_read_byte(&converter->cluster_short));
// uint8_t local_type_id = pgm_read_byte(&converter->type);
if ((pgm_read_word(&converter->name_offset)) && (0 == strcasecmp_P(key.getStr(), Z_strings + pgm_read_word(&converter->name_offset)))) {
// match name
// check if there is a conflict with cluster
// TODO
if (!(value.getBool()) && attr_item_offset) {
// If value is false (non-default) then set direction to 1 (for ReadConfig)
attrs[actual_attr_len] = 0x01;
}
actual_attr_len += attr_item_offset;
attrs[actual_attr_len++] = local_attr_id & 0xFF;
attrs[actual_attr_len++] = local_attr_id >> 8;
actual_attr_len += attr_item_len - 2 - attr_item_offset; // normally 0
found = true;
// check cluster
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if (!zcl.validCluster()) {
zcl.cluster = local_cluster_id;
} else if (zcl.cluster != local_cluster_id) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_TOO_MANY_CLUSTERS));
if (attrs) { free(attrs); }
return;
}
break; // found, exit loop
}
}
if (!found) {
AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_ZIGBEE D_ZIGBEE_UNKNWON_ATTRIBUTE), key.getStr());
}
}
attrs_len = actual_attr_len;
} else {
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// value is a literal
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if (zcl.validCluster()) {
uint16_t val = val_attr.getUInt();
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attrs_len = attr_item_len;
attrs = (uint8_t*) calloc(attrs_len, 1);
attrs[0 + attr_item_offset] = val & 0xFF; // little endian
attrs[1 + attr_item_offset] = val >> 8;
}
}
if (attrs_len > 0) {
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// all good, send the packet
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zcl.buf.reserve(attrs_len);
zcl.buf.setLen(0); // clear any previous buffer
zcl.buf.addBuffer(attrs, attrs_len);
zigbeeZCLSendCmd(zcl);
ResponseCmndDone();
} else {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_MISSING_PARAM));
}
if (attrs) { free(attrs); }
}
//
// Command `ZbSend`
//
// Examples:
// ZbSend {"Device":"0x0000","Endpoint":1,"Write":{"0006/0000":0}}
// ZbSend {"Device":"0x0000","Endpoint":1,"Write":{"Power":0}}
// ZbSend {"Device":"0x0000","Endpoint":1,"Write":{"AqaraRotate":0}}
// ZbSend {"Device":"0x0000","Endpoint":1,"Write":{"AqaraRotate":12.5}}
// ZbSend {"Device":"0x0000","Endpoint":1,"Write":{"006/0000%39":12.5}}
// ZbSend {"Device":"0x0000","Endpoint":1,"Write":{"AnalogInApplicationType":1000000}}
// ZbSend {"Device":"0x0000","Endpoint":1,"Write":{"TimeZone":-1000000}}
// ZbSend {"Device":"0x0000","Endpoint":1,"Write":{"Manufacturer":"Tasmota","ModelId":"Tasmota Z2T Router"}}
void CmndZbSend(void) {
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Power":1} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Power":"3"} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Power":"0xFF"} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Power":null} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Power":false} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Power":true} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Power":"true"} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"ShutterClose":null} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Power":1} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Color":"1,2"} }
// ZbSend { "device":"0x1234", "endpoint":"0x03", "send":{"Color":"0x1122,0xFFEE"} }
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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JsonParser parser(XdrvMailbox.data);
JsonParserObject root = parser.getRootObject();
if (!root) { ResponseCmndChar_P(PSTR(D_JSON_INVALID_JSON)); return; }
// params
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ZCLMessage zcl; // prepare the ZCL structure
// parse "Device" and "Group"
JsonParserToken val_device = root[PSTR(D_CMND_ZIGBEE_DEVICE)];
if (val_device) {
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zcl.shortaddr = zigbee_devices.parseDeviceFromName(val_device.getStr()).shortaddr;
if (!zcl.validShortaddr()) { ResponseCmndChar_P(PSTR(D_ZIGBEE_INVALID_PARAM)); return; }
}
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if (!zcl.validShortaddr()) { // if not found, check if we have a group
JsonParserToken val_group = root[PSTR(D_CMND_ZIGBEE_GROUP)];
if (val_group) {
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zcl.groupaddr = val_group.getUInt();
} else { // no device nor group
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ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return;
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}
}
// from here, either device has a device shortaddr, or if BAD_SHORTADDR then use group address
// Note: groupaddr == 0 is valid
// read other parameters
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zcl.cluster = root.getUInt(PSTR(D_CMND_ZIGBEE_CLUSTER), zcl.cluster);
zcl.endpoint = root.getUInt(PSTR(D_CMND_ZIGBEE_ENDPOINT), zcl.endpoint);
zcl.manuf = root.getUInt(PSTR(D_CMND_ZIGBEE_MANUF), zcl.manuf);
// infer endpoint
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if (!zcl.validShortaddr()) {
zcl.endpoint = 0xFF; // endpoint not used for group addresses, so use a dummy broadcast endpoint
} else if (!zcl.validEndpoint()) { // if it was not already specified, try to guess it
zcl.endpoint = zigbee_devices.findFirstEndpoint(zcl.shortaddr);
AddLog(LOG_LEVEL_DEBUG, PSTR("ZIG: guessing endpoint %d"), zcl.endpoint);
}
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if (!zcl.validEndpoint()) { // after this, if it is still zero, then it's an error
ResponseCmndChar_P(PSTR("Missing endpoint"));
return;
}
// from here endpoint is valid and non-zero
// cluster may be already specified or 0xFFFF
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JsonParserToken val_cmd = root[PSTR(D_CMND_ZIGBEE_SEND)];
JsonParserToken val_read = root[PSTR(D_CMND_ZIGBEE_READ)];
JsonParserToken val_write = root[PSTR(D_CMND_ZIGBEE_WRITE)];
JsonParserToken val_publish = root[PSTR(D_CMND_ZIGBEE_REPORT)];
JsonParserToken val_response = root[PSTR(D_CMND_ZIGBEE_RESPONSE)];
JsonParserToken val_read_config = root[PSTR(D_CMND_ZIGBEE_READ_CONFIG)];
JsonParserToken val_config = root[PSTR(D_CMND_ZIGBEE_CONFIG)];
uint32_t multi_cmd = ((bool)val_cmd) + ((bool)val_read) + ((bool)val_write) + ((bool)val_publish)
+ ((bool)val_response) + ((bool)val_read_config) + ((bool)val_config);
if (multi_cmd > 1) {
ResponseCmndChar_P(PSTR("Can only have one of: 'Send', 'Read', 'Write', 'Report', 'Reponse', 'ReadConfig' or 'Config'"));
return;
}
// from here we have one and only one command
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zcl.clusterSpecific = false; /* not cluster specific */
zcl.needResponse = false; /* no response */
zcl.direct = false; /* discover route */
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if (val_cmd) {
// "Send":{...commands...}
// we accept either a string or a JSON object
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ZbSendSend(val_cmd, zcl);
} else if (val_read) {
// "Read":{...attributes...}, "Read":attribute or "Read":[...attributes...]
// we accept eitehr a number, a string, an array of numbers/strings, or a JSON object
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zcl.cmd = ZCL_READ_ATTRIBUTES;
ZbSendRead(val_read, zcl);
} else if (val_write) {
// only KSON object
if (!val_write.isObject()) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_MISSING_PARAM));
return;
}
// "Write":{...attributes...}
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zcl.cmd = ZCL_WRITE_ATTRIBUTES;
ZbSendReportWrite(val_write, zcl);
} else if (val_publish) {
// "Publish":{...attributes...}
// only KSON object
if (!val_publish.isObject()) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_MISSING_PARAM));
return;
}
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zcl.cmd = ZCL_REPORT_ATTRIBUTES;
ZbSendReportWrite(val_publish, zcl);
} else if (val_response) {
// "Report":{...attributes...}
// only KSON object
if (!val_response.isObject()) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_MISSING_PARAM));
return;
}
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zcl.cmd = ZCL_READ_ATTRIBUTES_RESPONSE;
ZbSendReportWrite(val_response, zcl);
} else if (val_read_config) {
// "ReadConfg":{...attributes...}, "ReadConfg":attribute or "ReadConfg":[...attributes...]
// we accept eitehr a number, a string, an array of numbers/strings, or a JSON object
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zcl.cmd = ZCL_READ_REPORTING_CONFIGURATION;
ZbSendRead(val_read_config, zcl);
} else if (val_config) {
// "Config":{...attributes...}
// only JSON object
if (!val_config.isObject()) {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_MISSING_PARAM));
return;
}
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zcl.cmd = ZCL_CONFIGURE_REPORTING;
ZbSendReportWrite(val_config, zcl);
} else {
Response_P(PSTR("Missing zigbee 'Send', 'Write', 'Report' or 'Response'"));
return;
}
}
//
// Command `ZbBind`
//
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void ZbBindUnbind(bool unbind) { // false = bind, true = unbind
// ZbBind {"Device":"<device>", "Endpoint":<endpoint>, "Cluster":<cluster>, "ToDevice":"<to_device>", "ToEndpoint":<to_endpoint>, "ToGroup":<to_group> }
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// ZbUnbind {"Device":"<device>", "Endpoint":<endpoint>, "Cluster":<cluster>, "ToDevice":"<to_device>", "ToEndpoint":<to_endpoint>, "ToGroup":<to_group> }
// local endpoint is always 1, IEEE addresses are calculated
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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JsonParser parser(XdrvMailbox.data);
JsonParserObject root = parser.getRootObject();
if (!root) { ResponseCmndChar_P(PSTR(D_JSON_INVALID_JSON)); return; }
// params
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uint16_t dstDevice = BAD_SHORTADDR; // BAD_SHORTADDR is broadcast, so considered invalid
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uint64_t dstLongAddr = 0;
uint8_t endpoint = 0x00; // 0x00 is invalid for the src endpoint
uint8_t toendpoint = 0x01; // default dest endpoint to 0x01
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uint16_t toGroup = 0x0000; // group address
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uint16_t cluster = 0; // cluster 0 is default
2020-03-01 10:25:59 +00:00
// Information about source device: "Device", "Endpoint", "Cluster"
// - the source endpoint must have a known IEEE address
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const Z_Device & src_device = zigbee_devices.parseDeviceFromName(root.getStr(PSTR(D_CMND_ZIGBEE_DEVICE), nullptr));
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if (!src_device.valid()) { ResponseCmndChar_P(PSTR("Unknown source device")); return; }
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// check if IEEE address is known
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uint64_t srcLongAddr = src_device.longaddr;
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if (0 == srcLongAddr) { ResponseCmndChar_P(PSTR("Unknown source IEEE address")); return; }
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// look for source endpoint
endpoint = root.getUInt(PSTR(D_CMND_ZIGBEE_ENDPOINT), endpoint);
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if (0 == endpoint) { endpoint = zigbee_devices.findFirstEndpoint(src_device.shortaddr); }
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// look for source cluster
JsonParserToken val_cluster = root[PSTR(D_CMND_ZIGBEE_CLUSTER)];
if (val_cluster) {
cluster = val_cluster.getUInt(cluster); // first convert as number
if (0 == cluster) {
zigbeeFindAttributeByName(val_cluster.getStr(), &cluster, nullptr, nullptr);
}
}
// Or Group Address - we don't need a dstEndpoint in this case
JsonParserToken to_group = root[PSTR("ToGroup")];
if (to_group) { toGroup = to_group.getUInt(toGroup); }
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// Either Device address
// In this case the following parameters are mandatory
// - "ToDevice" and the device must have a known IEEE address
// - "ToEndpoint"
JsonParserToken dst_device = root[PSTR("ToDevice")];
// If no target is specified, we default to coordinator 0x0000
if ((!to_group) && (!dst_device)) {
dstDevice = 0x0000;
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dstLongAddr = localIEEEAddr;
toendpoint = 1;
}
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if (dst_device) {
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const Z_Device & dstDevice = zigbee_devices.parseDeviceFromName(dst_device.getStr(nullptr));
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if (!dstDevice.valid()) { ResponseCmndChar_P(PSTR("Unknown dest device")); return; }
dstLongAddr = dstDevice.longaddr;
}
2020-03-01 10:25:59 +00:00
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if (!to_group) {
if (0 == dstLongAddr) { ResponseCmndChar_P(PSTR("Unknown dest IEEE address")); return; }
toendpoint = root.getUInt(PSTR("ToEndpoint"), toendpoint);
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}
// make sure we don't have conflicting parameters
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if (to_group && dst_device) { ResponseCmndChar_P(PSTR("Cannot have both \"ToDevice\" and \"ToGroup\"")); return; }
#ifdef USE_ZIGBEE_ZNP
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SBuffer buf(34);
buf.add8(Z_SREQ | Z_ZDO);
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if (unbind) {
buf.add8(ZDO_UNBIND_REQ);
} else {
buf.add8(ZDO_BIND_REQ);
}
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buf.add16(src_device.shortaddr);
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buf.add64(srcLongAddr);
buf.add8(endpoint);
buf.add16(cluster);
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if (!to_group) {
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buf.add8(Z_Addr_IEEEAddress); // DstAddrMode - 0x03 = ADDRESS_64_BIT
buf.add64(dstLongAddr);
buf.add8(toendpoint);
} else {
buf.add8(Z_Addr_Group); // DstAddrMode - 0x01 = GROUP_ADDRESS
buf.add16(toGroup);
}
ZigbeeZNPSend(buf.getBuffer(), buf.len());
#endif // USE_ZIGBEE_ZNP
#ifdef USE_ZIGBEE_EZSP
SBuffer buf(24);
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// ZDO message payload (see Zigbee spec 2.4.3.2.2)
buf.add64(srcLongAddr);
buf.add8(endpoint);
buf.add16(cluster);
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if (!to_group) {
buf.add8(Z_Addr_IEEEAddress); // DstAddrMode - 0x03 = ADDRESS_64_BIT
buf.add64(dstLongAddr);
buf.add8(toendpoint);
} else {
buf.add8(Z_Addr_Group); // DstAddrMode - 0x01 = GROUP_ADDRESS
buf.add16(toGroup);
}
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EZ_SendZDO(src_device.shortaddr, unbind ? ZDO_UNBIND_REQ : ZDO_BIND_REQ, buf.buf(), buf.len());
#endif // USE_ZIGBEE_EZSP
ResponseCmndDone();
}
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//
// Command ZbBind
//
void CmndZbBind(void) {
ZbBindUnbind(false);
}
//
// Command ZbBind
//
void CmndZbUnbind(void) {
ZbBindUnbind(true);
}
//
// ZbLeave - ask for a device to leave the network
//
void CmndZbLeave(void) {
if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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uint16_t shortaddr = zigbee_devices.parseDeviceFromName(XdrvMailbox.data).shortaddr;
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if (BAD_SHORTADDR == shortaddr) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
#ifdef USE_ZIGBEE_ZNP
SBuffer buf(14);
buf.add8(Z_SREQ | Z_ZDO); // 25
buf.add8(ZDO_MGMT_LEAVE_REQ); // 34
buf.add16(shortaddr); // shortaddr
buf.add64(0); // remove self
buf.add8(0x00); // don't rejoin and don't remove children
ZigbeeZNPSend(buf.getBuffer(), buf.len());
#endif // USE_ZIGBEE_ZNP
#ifdef USE_ZIGBEE_EZSP
// ZDO message payload (see Zigbee spec 2.4.3.3.4)
SBuffer buf(10);
buf.add64(0); // remove self
buf.add8(0x00); // don't rejoin and don't remove children
EZ_SendZDO(shortaddr, ZDO_MGMT_LEAVE_REQ, buf.getBuffer(), buf.len());
#endif // USE_ZIGBEE_EZSP
ResponseCmndDone();
}
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void CmndZbBindState_or_Map(bool map) {
if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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uint16_t parsed_shortaddr;;
uint16_t shortaddr = zigbee_devices.parseDeviceFromName(XdrvMailbox.data, &parsed_shortaddr).shortaddr;
if (BAD_SHORTADDR == shortaddr) {
if ((map) && (parsed_shortaddr != shortaddr)) {
shortaddr = parsed_shortaddr; // allow a non-existent address when ZbMap
} else {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE));
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return;
}
}
uint8_t index = XdrvMailbox.index - 1; // change default 1 to 0
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uint16_t zdo_cmd;
#ifdef USE_ZIGBEE_ZNP
zdo_cmd = map ? ZDO_MGMT_LQI_REQ : ZDO_MGMT_BIND_REQ;
#endif // USE_ZIGBEE_ZNP
#ifdef USE_ZIGBEE_EZSP
zdo_cmd = map ? ZDO_Mgmt_Lqi_req : ZDO_Mgmt_Bind_req;
#endif // USE_ZIGBEE_EZSP
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Z_Send_State_or_Map(shortaddr, index, zdo_cmd);
ResponseCmndDone();
}
//
// Command `ZbBindState`
// `ZbBindState<x>` as index if it does not fit. If default, `1` starts at the beginning
//
void CmndZbBindState(void) {
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CmndZbBindState_or_Map(false);
}
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void ZigbeeMapAllDevices(void) {
// we can't abort a mapping in progress
if (zigbee.mapping_in_progress) { return; }
// defer sending ZbMap to each device
zigbee_mapper.reset(); // clear all data in Zigbee mapper
const static uint32_t DELAY_ZBMAP = 2000; // wait for 1s between commands
uint32_t wait_ms = DELAY_ZBMAP;
zigbee.mapping_in_progress = true; // mark mapping in progress
zigbee_devices.setTimer(0x0000, 0, 0 /*wait_ms*/, 0, 0, Z_CAT_ALWAYS, 0 /* value = index */, &Z_Map);
for (const auto & device : zigbee_devices.getDevices()) {
zigbee_devices.setTimer(device.shortaddr, 0, wait_ms, 0, 0, Z_CAT_ALWAYS, 0 /* value = index */, &Z_Map);
wait_ms += DELAY_ZBMAP;
}
wait_ms += DELAY_ZBMAP*2;
zigbee_devices.setTimer(BAD_SHORTADDR, 0, wait_ms, 0, 0, Z_CAT_ALWAYS, 0 /* value = index */, &Z_Map);
zigbee.mapping_end_time = wait_ms + millis();
}
//
// Command `ZbMap`
// `ZbMap<x>` as index if it does not fit. If default, `1` starts at the beginning
//
void CmndZbMap(void) {
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
RemoveSpace(XdrvMailbox.data);
if (strlen(XdrvMailbox.data) == 0) {
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ZigbeeMapAllDevices();
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ResponseCmndDone();
} else {
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CmndZbBindState_or_Map(true);
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}
}
// Probe a specific device to get its endpoints and supported clusters
void CmndZbProbe(void) {
CmndZbProbeOrPing(true);
}
//
// Common code for `ZbProbe` and `ZbPing`
//
void CmndZbProbeOrPing(boolean probe) {
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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uint16_t shortaddr = zigbee_devices.parseDeviceFromName(XdrvMailbox.data).shortaddr;
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if (BAD_SHORTADDR == shortaddr) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
// set a timer for Reachable - 2s default value
zigbee_devices.setTimer(shortaddr, 0, Z_CAT_REACHABILITY_TIMEOUT, 0, 0, Z_CAT_REACHABILITY, 0 /* value */, &Z_Unreachable);
// everything is good, we can send the command
Z_SendIEEEAddrReq(shortaddr);
if (probe) {
Z_SendActiveEpReq(shortaddr);
}
ResponseCmndDone();
}
// Ping a device, actually a simplified version of ZbProbe
void CmndZbPing(void) {
CmndZbProbeOrPing(false);
}
//
// Command `ZbName`
// Specify, read or erase a Friendly Name
//
void CmndZbName(void) {
// Syntax is:
// ZbName <device_id>,<friendlyname> - assign a friendly name
// ZbName <device_id> - display the current friendly name
// ZbName <device_id>, - remove friendly name
//
// Where <device_id> can be: short_addr, long_addr, device_index, friendly_name
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
// check if parameters contain a comma ','
char *p;
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strtok_r(XdrvMailbox.data, ",", &p);
// parse first part, <device_id>
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Z_Device & device = zigbee_devices.parseDeviceFromName(XdrvMailbox.data); // it's the only case where we create a new device
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if (!device.valid()) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
if (p == nullptr) {
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const char * friendlyName = device.friendlyName;
Response_P(PSTR("{\"0x%04X\":{\"" D_JSON_ZIGBEE_NAME "\":\"%s\"}}"), device.shortaddr, friendlyName ? friendlyName : "");
} else {
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if (strlen(p) > 32) { p[32] = 0x00; } // truncate to 32 chars max
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device.setFriendlyName(p);
Response_P(PSTR("{\"0x%04X\":{\"" D_JSON_ZIGBEE_NAME "\":\"%s\"}}"), device.shortaddr, p);
}
}
//
// Command `ZbName`
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// Specify, read or erase a ModelId, only for debug purposes
//
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void CmndZbModelId(void) {
// Syntax is:
// ZbName <device_id>,<friendlyname> - assign a friendly name
// ZbName <device_id> - display the current friendly name
// ZbName <device_id>, - remove friendly name
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//
// Where <device_id> can be: short_addr, long_addr, device_index, friendly_name
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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// check if parameters contain a comma ','
char *p;
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strtok_r(XdrvMailbox.data, ",", &p);
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// parse first part, <device_id>
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Z_Device & device = zigbee_devices.parseDeviceFromName(XdrvMailbox.data); // in case of short_addr, it must be already registered
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if (!device.valid()) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
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if (p != nullptr) {
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device.setModelId(p);
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}
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const char * modelId = device.modelId;
Response_P(PSTR("{\"0x%04X\":{\"" D_JSON_ZIGBEE_MODELID "\":\"%s\"}}"), device.shortaddr, modelId ? modelId : "");
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}
//
// Command `ZbLight`
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// Specify, read or erase a Light type for Hue/Alexa integration
void CmndZbLight(void) {
// Syntax is:
// ZbLight <device_id>,<x> - assign a bulb type 0-5
// ZbLight <device_id> - display the current bulb type and status
//
// Where <device_id> can be: short_addr, long_addr, device_index, friendly_name
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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// check if parameters contain a comma ','
char *p;
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strtok_r(XdrvMailbox.data, ", ", &p);
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// parse first part, <device_id>
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Z_Device & device = zigbee_devices.parseDeviceFromName(XdrvMailbox.data); // in case of short_addr, it must be already registered
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if (!device.valid()) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
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if (p) {
int8_t bulbtype = strtol(p, nullptr, 10);
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if (bulbtype > 5) { bulbtype = 5; }
if (bulbtype < -1) { bulbtype = -1; }
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device.setLightChannels(bulbtype);
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}
Z_attribute_list attr_list;
device.jsonLightState(attr_list);
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device.jsonPublishAttrList(PSTR(D_PRFX_ZB D_CMND_ZIGBEE_LIGHT), attr_list); // publish as ZbReceived
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ResponseCmndDone();
}
//
// Command `ZbOccupancy`
// Specify, read or erase the Occupancy detector configuration
void CmndZbOccupancy(void) {
// Syntax is:
// ZbOccupancy <device_id>,<x> - set the occupancy time-out
// ZbOccupancy <device_id> - display the configuration
//
// List of occupancy time-outs:
// 0xF = default (90 s)
// 0x0 = no time-out
// 0x1 = 15 s
// 0x2 = 30 s
// 0x3 = 45 s
// 0x4 = 60 s
// 0x5 = 75 s
// 0x6 = 90 s -- default
// 0x7 = 105 s
// 0x8 = 120 s
// Where <device_id> can be: short_addr, long_addr, device_index, friendly_name
if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
// check if parameters contain a comma ','
char *p;
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strtok_r(XdrvMailbox.data, ", ", &p);
// parse first part, <device_id>
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Z_Device & device = zigbee_devices.parseDeviceFromName(XdrvMailbox.data); // in case of short_addr, it must be already registered
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if (!device.valid()) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
int8_t occupancy_time = -1;
if (p) {
Z_Data_PIR & pir = (Z_Data_PIR&) device.data.getByType(Z_Data_Type::Z_PIR);
occupancy_time = strtol(p, nullptr, 10);
pir.setTimeoutSeconds(occupancy_time);
zigbee_devices.dirty();
} else {
const Z_Data_PIR & pir_found = (const Z_Data_PIR&) device.data.find(Z_Data_Type::Z_PIR);
if (&pir_found != nullptr) {
occupancy_time = pir_found.getTimeoutSeconds();
}
}
Response_P(PSTR("{\"" D_PRFX_ZB D_CMND_ZIGBEE_OCCUPANCY "\":%d}"), occupancy_time);
MqttPublishPrefixTopicRulesProcess_P(RESULT_OR_STAT, PSTR(D_PRFX_ZB D_CMND_ZIGBEE_LIGHT));
ResponseCmndDone();
}
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//
// Command `ZbForget`
// Remove an old Zigbee device from the list of known devices, use ZigbeeStatus to know all registered devices
//
void CmndZbForget(void) {
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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Z_Device & device = zigbee_devices.parseDeviceFromName(XdrvMailbox.data); // in case of short_addr, it must be already registered
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if (!device.valid()) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
// everything is good, we can send the command
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if (zigbee_devices.removeDevice(device.shortaddr)) {
ResponseCmndDone();
} else {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE));
}
}
//
// Command `ZbInfo`
// Display all information known about a device, this equivalent to `2bStatus3` with a simpler JSON output
//
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void CmndZbInfo_inner(const Z_Device & device) {
Z_attribute_list attr_list;
device.jsonDumpSingleDevice(attr_list, 3, false); // don't add Device/Name
device.jsonPublishAttrList(PSTR(D_JSON_ZIGBEE_INFO), attr_list); // publish as ZbReceived
}
void CmndZbInfo(void) {
if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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RemoveSpace(XdrvMailbox.data);
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if (strlen(XdrvMailbox.data) == 0) {
// if empty, dump for all values
for (const auto & device : zigbee_devices.getDevices()) {
CmndZbInfo_inner(device);
}
} else { // try JSON
Z_Device & device = zigbee_devices.parseDeviceFromName(XdrvMailbox.data); // in case of short_addr, it must be already registered
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if (!device.valid()) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
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// everything is good, we can send the command
Z_attribute_list attr_list;
device.jsonDumpSingleDevice(attr_list, 3, false); // don't add Device/Name
device.jsonPublishAttrList(PSTR(D_JSON_ZIGBEE_INFO), attr_list); // publish as ZbReceived
}
ResponseCmndDone();
}
//
// Command `ZbSave`
// Save Zigbee information to flash
//
void CmndZbSave(void) {
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
switch (XdrvMailbox.payload) {
case 2: // save only data
hibernateAllData();
break;
#ifdef Z_EEPROM_DEBUG
case -10:
{ // reinit EEPROM
ZFS::erase();
}
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break;
#endif
default:
saveZigbeeDevices();
break;
}
ResponseCmndDone();
}
//
// Command `ZbScan`
// Run an energy scan
//
void CmndZbScan(void) {
if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
for (uint32_t i = 0; i < USE_ZIGBEE_CHANNEL_COUNT; i++) {
zigbee.energy[i] = -0x80;
}
#ifdef USE_ZIGBEE_ZNP
ResponseCmndChar_P(PSTR("Unsupported command on ZNP"));
return;
#endif // USE_ZIGBEE_ZNP
#ifdef USE_ZIGBEE_EZSP
SBuffer buf(8);
buf.add16(EZSP_startScan);
buf.add8(0x00); // EZSP_ENERGY_SCAN
buf.add32(0x07FFF800); // standard channels 11-26
buf.add8(0x04); // duration 2 ^ 4
ZigbeeEZSPSendCmd(buf.getBuffer(), buf.len());
#endif // USE_ZIGBEE_EZSP
ResponseCmndDone();
}
// Restore a device configuration previously exported via `ZbStatus2``
// Format:
// Either the entire `ZbStatus3` export, or an array or just the device configuration.
// If array, if can contain multiple devices
// ZbRestore {"ZbStatus3":[{"Device":"0x5ADF","Name":"Petite_Lampe","IEEEAddr":"0x90FD9FFFFE03B051","ModelId":"TRADFRI bulb E27 WS opal 980lm","Manufacturer":"IKEA of Sweden","Endpoints":["0x01","0xF2"]}]}
// ZbRestore [{"Device":"0x5ADF","Name":"Petite_Lampe","IEEEAddr":"0x90FD9FFFFE03B051","ModelId":"TRADFRI bulb E27 WS opal 980lm","Manufacturer":"IKEA of Sweden","Endpoints":["0x01","0xF2"]}]
// ZbRestore {"Device":"0x5ADF","Name":"Petite_Lampe","IEEEAddr":"0x90FD9FFFFE03B051","ModelId":"TRADFRI bulb E27 WS opal 980lm","Manufacturer":"IKEA of Sweden","Endpoints":["0x01","0xF2"]}
void CmndZbRestore(void) {
if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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RemoveSpace(XdrvMailbox.data);
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if (strlen(XdrvMailbox.data) == 0) {
// if empty, log values for all devices
restoreDumpAllDevices();
} else if (XdrvMailbox.data[0] == '{') { // try JSON
JsonParser parser(XdrvMailbox.data);
JsonParserToken root = parser.getRoot();
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if (!parser || !(root.isObject() || root.isArray())) { ResponseCmndChar_P(PSTR(D_JSON_INVALID_JSON)); return; }
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// Check is root contains `ZbStatus<x>` key, if so change the root
JsonParserToken zbstatus = root.getObject().findStartsWith(PSTR("ZbStatus"));
if (zbstatus) {
root = zbstatus;
}
// check if the root is an array
if (root.isArray()) {
JsonParserArray arr = JsonParserArray(root);
for (const auto elt : arr) {
// call restore on each item
if (elt.isObject()) {
int32_t res = zigbee_devices.deviceRestore(JsonParserObject(elt));
if (res < 0) {
ResponseCmndChar_P(PSTR("Restore failed"));
return;
}
}
}
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} else if (root.isObject()) {
int32_t res = zigbee_devices.deviceRestore(JsonParserObject(root));
if (res < 0) {
ResponseCmndChar_P(PSTR("Restore failed"));
return;
}
// call restore on a single object
} else {
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ResponseCmndChar_P(PSTR(D_ZIGBEE_MISSING_PARAM));
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return;
}
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} else { // try hex
SBuffer buf = SBuffer::SBufferFromHex(XdrvMailbox.data, strlen(XdrvMailbox.data));
// do a sanity check, the first byte must equal the length of the buffer
if (buf.get8(0) == buf.len()) {
// good, we can hydrate
hydrateSingleDevice(buf);
} else {
ResponseCmndChar_P(PSTR("Restore failed"));
return;
}
}
ResponseCmndDone();
}
//
// Command `ZbPermitJoin`
// Allow or Deny pairing of new Zigbee devices
//
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void CmndZbPermitJoin(void) {
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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uint32_t payload = XdrvMailbox.payload;
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uint8_t duration = 60; // default 60s
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if (payload <= 0) {
duration = 0;
}
if (99 == payload) {
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if (zigbee.zb3) {
ResponseCmndChar_P(PSTR("Unlimited time not supported")); return;
}
duration = 0xFF; // unlimited time
}
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// ZNP Version
#ifdef USE_ZIGBEE_ZNP
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SBuffer buf(34);
buf.add8(Z_SREQ | Z_ZDO); // 25
buf.add8(ZDO_MGMT_PERMIT_JOIN_REQ); // 36
buf.add8(0x0F); // AddrMode
buf.add16(0xFFFC); // DstAddr
buf.add8(duration);
buf.add8(0x00); // TCSignificance
ZigbeeZNPSend(buf.getBuffer(), buf.len());
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#endif // USE_ZIGBEE_ZNP
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// EZSP VERSION
#ifdef USE_ZIGBEE_EZSP
SBuffer buf(3);
buf.add16(EZSP_permitJoining);
buf.add8(duration);
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ZigbeeEZSPSendCmd(buf.getBuffer(), buf.len());
// send ZDO_Mgmt_Permit_Joining_req to all routers
buf.setLen(0);
buf.add8(duration);
buf.add8(0x01); // TC_Significance - This field shall always have a value of 1, indicating a request to change the Trust Center policy. If a frame is received with a value of 0, it shall be treated as having a value of 1.
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EZ_SendZDO(0xFFFC, ZDO_Mgmt_Permit_Joining_req, buf.buf(), buf.len());
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#endif // USE_ZIGBEE_EZSP
// Set Timer after the end of the period, and reset a non-expired previous timer
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if (zigbee.zb3) {
if (duration > 0) {
// Log pairing mode enabled
Response_P(PSTR("{\"" D_JSON_ZIGBEE_STATE "\":{\"Status\":21,\"Message\":\"Pairing mode enabled\"}}"));
MqttPublishPrefixTopicRulesProcess_P(RESULT_OR_TELE, PSTR(D_JSON_ZIGBEE_STATE));
zigbee.permit_end_time = millis() + duration * 1000;
} else {
zigbee.permit_end_time = millis();
}
if (0 == zigbee.permit_end_time) { zigbee.permit_end_time = 1; } // avoid very rare case where timer collides with timestamp equals to zero
}
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ResponseCmndDone();
}
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#ifdef USE_ZIGBEE_EZSP
//
// `ZbListen`: add a multicast group to listen to
// Overcomes a current limitation that EZSP only shows messages from multicast groups it listens too
//
// Ex: `ZbListen 99`, `ZbListen2 100`
void CmndZbEZSPListen(void) {
if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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int32_t index = XdrvMailbox.index; // 0 is reserved for group 0 (auto-config)
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int32_t group = XdrvMailbox.payload;
if (group <= 0) {
group = 0;
} else if (group > 0xFFFF) {
group = 0xFFFF;
}
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SBuffer buf(8);
buf.add16(EZSP_setMulticastTableEntry);
buf.add8(index);
buf.add16(group); // group
buf.add8(0x01); // endpoint
buf.add8(0x00); // network index
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ZigbeeEZSPSendCmd(buf.getBuffer(), buf.len());
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ResponseCmndDone();
}
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void ZigbeeGlowPermitJoinLight(void) {
#ifdef ESP8266 // quick fix since this causes a crash on ESP32
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static const uint16_t cycle_time = 1000; // cycle up and down in 1000 ms
static const uint16_t half_cycle_time = cycle_time / 2; // cycle up and down in 1000 ms
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uint16_t led_power = 0; // turn led off
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if (zigbee.permit_end_time) {
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uint32_t millis_to_go = millis() - zigbee.permit_end_time;
uint32_t sub_second = millis_to_go % cycle_time;
if (sub_second <= half_cycle_time) {
led_power = changeUIntScale(sub_second, 0, half_cycle_time, 0, 1023);
} else {
led_power = changeUIntScale(sub_second, half_cycle_time, cycle_time, 1023, 0);
}
led_power = ledGamma10_10(led_power);
}
// change the led state
int led_pin = Pin(GPIO_LEDLNK);
if (led_pin >= 0) {
analogWrite(led_pin, TasmotaGlobal.ledlnk_inverted ? 1023 - led_power : led_power);
}
#endif
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}
#endif // USE_ZIGBEE_EZSP
// check if the permitjoin timer has expired
void ZigbeePermitJoinUpdate(void) {
if (zigbee.zb3 && zigbee.permit_end_time) {
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// permit join is ongoing
if (TimeReached(zigbee.permit_end_time)) {
zigbee.permit_end_time = 0; // disable timer
Z_PermitJoinDisable();
}
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#ifdef USE_ZIGBEE_EZSP
ZigbeeGlowPermitJoinLight(); // update glowing light accordingly
#endif // USE_ZIGBEE_EZSP
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}
}
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//
// Command `ZbStatus`
//
void CmndZbStatus(void) {
if (ZigbeeSerial) {
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if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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String dump;
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if (0 == XdrvMailbox.index) {
dump = zigbee_devices.dumpCoordinator();
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} else {
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Z_Device & device = zigbee_devices.parseDeviceFromName(XdrvMailbox.data);
if (XdrvMailbox.data_len > 0) {
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if (!device.valid()) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
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dump = zigbee_devices.dumpDevice(XdrvMailbox.index, device);
} else {
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if (XdrvMailbox.index >= 2) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
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dump = zigbee_devices.dumpDevice(XdrvMailbox.index, *(Z_Device*)nullptr);
}
}
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Response_P(PSTR("{\"%s%d\":%s}"), XdrvMailbox.command, XdrvMailbox.index, dump.c_str());
}
}
//
// Command `ZbData`
//
void CmndZbData(void) {
if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
RemoveSpace(XdrvMailbox.data);
if (strlen(XdrvMailbox.data) == 0) {
// if empty, log values for all devices
for (const auto & device : zigbee_devices.getDevices()) {
hibernateDeviceData(device);
}
} else {
// check if parameters contain a comma ','
char *p;
strtok_r(XdrvMailbox.data, ",", &p);
// parse first part, <device_id>
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Z_Device & device = zigbee_devices.parseDeviceFromName(XdrvMailbox.data); // in case of short_addr, it must be already registered
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if (!device.valid()) { ResponseCmndChar_P(PSTR(D_ZIGBEE_UNKNOWN_DEVICE)); return; }
if (p) {
// set ZbData
const SBuffer buf = SBuffer::SBufferFromHex(p, strlen(p));
hydrateDeviceData(device, buf, 0, buf.len());
} else {
// non-JSON, export current data
// ZbData 0x1234
// ZbData Device_Name
hibernateDeviceData(device);
}
}
ResponseCmndDone();
}
//
// Command `ZbConfig`
//
void CmndZbConfig(void) {
// ZbConfig
// ZbConfig {"Channel":11,"PanID":"0x1A63","ExtPanID":"0xCCCCCCCCCCCCCCCC","KeyL":"0x0F0D0B0907050301L","KeyH":"0x0D0C0A0806040200L"}
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uint8_t zb_channel = Settings->zb_channel;
uint16_t zb_pan_id = Settings->zb_pan_id;
uint64_t zb_ext_panid = Settings->zb_ext_panid;
uint64_t zb_precfgkey_l = Settings->zb_precfgkey_l;
uint64_t zb_precfgkey_h = Settings->zb_precfgkey_h;
int8_t zb_txradio_dbm = Settings->zb_txradio_dbm;
// if (zigbee.init_phase) { ResponseCmndChar_P(PSTR(D_ZIGBEE_NOT_STARTED)); return; }
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RemoveSpace(XdrvMailbox.data);
if (strlen(XdrvMailbox.data) > 0) {
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JsonParser parser(XdrvMailbox.data);
JsonParserObject root = parser.getRootObject();
if (!root) { ResponseCmndChar_P(PSTR(D_JSON_INVALID_JSON)); return; }
// Channel
zb_channel = root.getUInt(PSTR("Channel"), zb_channel);
zb_pan_id = root.getUInt(PSTR("PanID"), zb_pan_id);
zb_ext_panid = root.getULong(PSTR("ExtPanID"), zb_ext_panid);
zb_precfgkey_l = root.getULong(PSTR("KeyL"), zb_precfgkey_l);
zb_precfgkey_h = root.getULong(PSTR("KeyH"), zb_precfgkey_h);
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zb_txradio_dbm = root.getInt(PSTR("TxRadio"), zb_txradio_dbm);
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if (zb_channel < 11) { zb_channel = 11; }
if (zb_channel > 26) { zb_channel = 26; }
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// if network key is zero, we generate a truly random key with a hardware generator from ESP
if ((0 == zb_precfgkey_l) && (0 == zb_precfgkey_h)) {
AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_ZIGBEE D_ZIGBEE_GENERATE_KEY));
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zb_precfgkey_l = (uint64_t)HwRandom() << 32 | HwRandom();
zb_precfgkey_h = (uint64_t)HwRandom() << 32 | HwRandom();
}
// Check if a parameter was changed after all
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if ( (zb_channel != Settings->zb_channel) ||
(zb_pan_id != Settings->zb_pan_id) ||
(zb_ext_panid != Settings->zb_ext_panid) ||
(zb_precfgkey_l != Settings->zb_precfgkey_l) ||
(zb_precfgkey_h != Settings->zb_precfgkey_h) ||
(zb_txradio_dbm != Settings->zb_txradio_dbm) ) {
Settings->zb_channel = zb_channel;
Settings->zb_pan_id = zb_pan_id;
Settings->zb_ext_panid = zb_ext_panid;
Settings->zb_precfgkey_l = zb_precfgkey_l;
Settings->zb_precfgkey_h = zb_precfgkey_h;
Settings->zb_txradio_dbm = zb_txradio_dbm;
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TasmotaGlobal.restart_flag = 2; // save and reboot
}
}
// display the current or new configuration
// {"ZbConfig":{"Channel":11,"PanID":"0x1A63","ExtPanID":"0xCCCCCCCCCCCCCCCC","KeyL":"0x0F0D0B0907050301L","KeyH":"0x0D0C0A0806040200L"}}
Response_P(PSTR("{\"" D_PRFX_ZB D_JSON_ZIGBEE_CONFIG "\":{"
"\"Channel\":%d"
",\"PanID\":\"0x%04X\""
",\"ExtPanID\":\"0x%_X\""
",\"KeyL\":\"0x%_X\""
",\"KeyH\":\"0x%_X\""
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",\"TxRadio\":%d"
"}}"),
zb_channel, zb_pan_id,
&zb_ext_panid,
&zb_precfgkey_l, &zb_precfgkey_h,
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zb_txradio_dbm);
}
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/*********************************************************************************************\
* Presentation
\*********************************************************************************************/
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const char ZB_WEB_U[] PROGMEM =
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
// index 0
//=ZB_WEB_CSS
"</table>{t}" // Terminate current two column table and open new table
"<style>"
// Table CSS
".ztd td:not(:first-child){width:20px;font-size:70%%}"
".ztd td:last-child{width:45px}"
".ztd .bt{margin-right:10px;}" // Margin right should be half of the not-first width
".htr{line-height:20px}"
// Lighting
".bx{height:14px;width:14px;display:inline-block;border:1px solid currentColor;background-color:var(--cl,#fff)}"
// Signal Strength Indicator
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".si{display:inline-flex;align-items:flex-end;height:15px;padding:0}"
".si i{width:3px;margin-right:1px;border-radius:3px;background-color:#%06x}"
".si .b0{height:25%%}.si .b1{height:50%%}.si .b2{height:75%%}.si .b3{height:100%%}.o30{opacity:.3}"
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"</style>"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
// index 1
// Visual indicator for PermitJoin Active
//=ZB_WEB_PERMITJOIN_ACTIVE
"<p><b>[ <span style='color:#080;'>%s</span> ]</b></p>"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
// index 2
// Start of vis.js box
//=ZB_WEB_VIS_JS_BEFORE
"<script type=\"text/javascript\" src=\"https://unpkg.com/vis-network/standalone/umd/vis-network.min.js\"></script>"
"<div id=\"mynetwork\" style=\"background-color:#fff;color:#000;width:800px;height:400px;border:1px solid lightgray;resize:both;\">Unable to load vis.js</div>"
"<script type=\"text/javascript\">"
"var container=document.getElementById(\"mynetwork\");"
"var options={groups:{o:{shape:\"circle\",color:\"#d55\"},r:{shape:\"box\",color:\"#fb7\"},e:{shape:\"ellipse\",color:\"#adf\"}}};"
"var data={"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
// index 3
// End of vis.js box
//=ZB_WEB_VIS_JS_AFTER
"};"
"var network=new vis.Network(container,data,options);</script>"
// "<p></p><form action='zbr' method='get'><button>Zigbee Map Refresh</button></form>"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
// index 4
// Auto-refresh
//=ZB_WEB_AUTO_REFRESH
"<script>setTimeout(function(){location.reload();},1990);</script>"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
// index 5
// Auto-refresh
//=ZB_WEB_MAP_REFRESH
"<p></p><form action='zbr' method='get'><button>%s</button></form>"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
// index 6
// Style
//=ZB_WEB_STATUS_LINE
"<tr class='ztd htr'>"
"<td><b title='0x%04X %s - %s'>%s</b></td>" // name
"<td>%s</td>" // sbatt (Battery Indicator)
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"<td><div title='LQI %s' class='si'>" // slqi
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"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
//=ZB_WEB_BATTERY
"<i class=\"bt\" title=\"%d%%\" style=\"--bl:%dpx\"></i>"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
//=ZB_WEB_LAST_SEEN
"<td style=\"color:#%02x%02x%02x\">&#x1F557;%02d%c"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
//=ZB_WEB_COLOR_RGB
" <i class=\"bx\" style=\"--cl:#%02X%02X%02X\"></i>#%02X%02X%02X"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
//=ZB_WEB_LINE_START
"<tr class='htr'><td colspan=\"4\">&#9478;"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
//=ZB_WEB_LIGHT_CT
" <span title=\"CT %d\"><small>&#9898; </small>%dK</span>"
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
//=ZB_WEB_END_STATUS
"</div></td>" // Close LQI
"%s{e}" // dhm (Last Seen)
"\0"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++
//=ZB_WEB_LINE_END
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"</table>{t}<p></p>"
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"\0"
; // end of list
// Use the tool at https://tasmota.hadinger.fr/util and choose "Compress Strings template with Unishox"
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// ++++++++++++++++++++ DO NOT EDIT BELOW ++++++++++++++++++++
// ++++++++++++++++++++vvvvvvvvvvvvvvvvvvv++++++++++++++++++++
enum {
ZB_WEB_CSS=0,
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ZB_WEB_PERMITJOIN_ACTIVE=507,
ZB_WEB_VIS_JS_BEFORE=561,
ZB_WEB_VIS_JS_AFTER=1034,
ZB_WEB_AUTO_REFRESH=1098,
ZB_WEB_MAP_REFRESH=1164,
ZB_WEB_STATUS_LINE=1230,
ZB_WEB_BATTERY=1338,
ZB_WEB_LAST_SEEN=1388,
ZB_WEB_COLOR_RGB=1436,
ZB_WEB_LINE_START=1496,
ZB_WEB_LIGHT_CT=1536,
ZB_WEB_END_STATUS=1591,
ZB_WEB_LINE_END=1608,
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};
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// Compressed from 1627 to 1118, -31.3%
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const char ZB_WEB[] PROGMEM = "\x00\x66\x3D\x0E\xCA\xB1\xC1\x33\xF0\xF6\xD1\xEE\x3D\x3D\x46\x41\x33\xF0\xE8\x6D"
"\xA1\x15\x08\x79\xF6\x51\xDD\x3C\xCC\x6F\xFD\x47\x58\x62\xB4\x21\x0E\xF1\xED\x1F"
"\xD1\x28\x51\xE6\x72\x99\x0C\x36\x1E\x0C\x67\x51\xD7\xED\x36\xB3\xCC\xE7\x99\xF4"
"\x7D\x1E\xE2\x04\x3C\x40\x2B\x04\x3C\x28\x10\xB0\x93\x99\xA4\x30\xD8\x08\x36\x8E"
"\x83\xA8\xF6\x8D\xBF\x8F\x6F\x1D\x7F\xD1\xE1\x54\x79\x9C\x8C\x86\x1B\x0F\x07\xB8"
"\xE8\x2A\x2B\xBE\x7B\x42\xDE\x67\x58\xA7\xA3\xC2\xA8\xF3\x39\x4C\x86\x1B\x0F\x71"
"\xD0\x71\xB0\xF6\x82\x14\xC3\x93\x08\x61\xB0\xF0\x08\x39\x49\xC9\x84\x30\xD8\x78"
"\x13\x7C\x30\x2B\x32\x3C\xF7\x82\xDE\x67\x58\xE0\xB0\x33\x43\xC0\xEC\xF8\x8F\xE7"
"\x99\xC8\x43\x0D\x8B\xD8\x16\x88\x83\x17\xFF\xBE\xA2\x0F\x02\xCF\x9E\x07\x58\x66"
"\x83\xDF\xC1\x7C\x21\xD6\x1E\x05\x9F\x3C\xCC\xEF\xE7\x74\xEB\x3A\xC3\x08\xEA\x3C"
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"\x8C\x18\x30\x77\x8F\x71\xD3\xDA\x7B\x41\x2B\x33\x30\x13\x36\x1E\x2C\x2D\x1E\xE3"
"\xAF\x69\x8D\xF1\xE6\x60\x26\x6C\x3A\xDF\x08\x78\x04\x3D\xCC\xE6\x90\xC3\x61\xE0"
"\x65\x88\x26\xF0\xF1\xE6\x71\x9E\xE3\xA1\x7B\x56\x82\x17\x0A\x07\x2C\x86\x1B\x0F"
"\x2A\x01\x93\xC2\x30\xC3\x60\x21\x6F\xC7\x5F\xEC\x4D\x17\xE3\xCC\xE5\x90\xC3\x60"
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"\x96\x0C\xB0\xF6\x8C\x8F\x33\xA1\xCB\x3D\xC7\xA1\xD8\x40\x83\xCA\x24\xE1\x7C\xF4"
"\x18\x7E\x1E\x83\x8F\xC3\xDE\x47\xA7\x86\x5F\x2F\x51\x90\x4C\xF8\x7D\x82\x16\xCE"
"\x71\xFD\x9E\x0F\xB3\xF0\xFA\x2F\x1E\x87\x67\x86\x5F\x1F\x88\xF7\xCF\x43\xB0\x71"
"\xF8\x7A\x1D\x83\x0F\xC9\xC2\xF9\xE9\xE0\xFF\xA3\x29\x51\x90\xC6\x7C\x3D\x94\xCD"
"\x94\x76\x1A\xEC\xCE\xC1\x06\x91\xEC\x5E\xF8\x67\xC3\xD8\x2A\x2B\xA8\x67\x8F\x33"
"\xB0\xEC\x17\xC3\x0D\x07\x8E\x81\xE0\xD3\xB0\xCF\x7C\x75\xF3\xA1\xFC\xF9\xA1\xD9"
"\xEA\xBE\x12\xC2\xCE\x67\x60\xB1\xA2\x02\x3D\x73\xA0\xDD\xE3\xA1\xAF\xC7\xB0\xFC"
"\x3D\x0E\xC0\x41\xCB\x0F\xC3\xD0\x4D\x33\x5A\x21\xF0\xF6\x0D\x32\x04\x2C\x2A\x01"
"\xF6\x02\x17\x2A\x01\xC7\xB0\x13\x78\x9C\x30\x60\xC1\xE0\x10\xF8\x1C\x38\xD9\x02"
"\x17\x32\x27\x3E\xD9\x0C\x36\x02\x1F\x22\x47\x31\xB2\x04\x4E\x3A\x01\x1B\x98\xA0"
"\xB4\x78\x55\x0F\x7E\xCC\x8F\x1F\x7E\xD3\x6B\x3C\xC7\x65\x0A\x3C\x1E\xC3\xF0\x85"
"\xF5\x8E\x09\xAA\xC4\x16\x58\x88\xCF\x7C\x74\x35\xF8\xF4\x3B\x04\xD3\x33\xF0\x16"
"\x78\x63\x3F\x0C\xEF\xE8\x3C\xEA\xBD\xE7\xF3\xE0\x98\x18\xB1\xAF\xA8\xE8\x3C\xE8"
"\x98\x4C\x6B\xEA\x21\xC6\x45\xA2\x1D\xD0\x46\xE0\xC8\xEF\x1E\x0C\xEF\xEB\x06\x56"
"\xE7\x78\xF8\x7B\x47\xBF\x82\xC6\x78\xF3\x3D\xB8\x79\x9E\xDF\x0A\xB1\x8C\xF3\x3D"
"\x81\xEF\xC3\x09\x9E\xC3\xA8\x10\x78\x3D\x3D\x87\x90\x87\x37\x4F\x61\xEE\x3A\x8B"
"\xE0\x89\x70\x76\x1B\x01\x16\xC9\x81\xC7\x3C\x7B\x0F\x71\xD4\x4C\x11\x2C\xB0\x82"
"\xD1\x9E\x04\x6C\x6A\xC4\x30\x7B\x0F\x71\xEE\x3D\xC7\x83\x3B\xFA\x12\xEA\xCF\x87"
"\xB6\x70\xBE\x08\x32\x41\x0B\x6C\x3E\x73\x1F\x46\x7B\xE3\xA1\x70\x20\xCC\x3B\xA0"
"\x89\xC1\x49\xD4\x25\xD5\x9D\x40\x85\xC0\x29\xDE\x3C\x02\x27\x20\xC0\x87\xCB\xA9"
"\xF9\xE7\x45\x5A\x35\xE0\xBA\x3B\xA6\x05\xF0\x75\xB9\xC7\x74\xEF\x1E\xD0\xB0\x3B"
"\xAD\xCE\x3A\x7D\x85\x96\x21\xDD\x3B\xC7\x83\xDC\x75\x1C\x89\x32\x04\x8C\x78\x61"
"\xF8\x7A\x1D\x83\x0F\xC3\xD0\xC6\x7C\x6A\xB0\xEB\x73\x8F\x87\xD9\xB4\x77\xCF\xB4"
"\x35\xD0\xAC\x10\xF8\x7D\x8F\x3A\x3E\xCF\xC3\xD0\x70\xBA\xAC\xE3\xF0\xFA\xF1\xE8"
"\x76\x02\x14\x73\xD0\xEC\x31\x9F\x1A\x7E\x4E\x17\xCF\x4A\xFA\x0C\x2B\xF7\x8F\x87"
"\xD9\xB6\x84\x42\xAB\xE7\xD9\xF8\x7A\x50\x87\xE1\xE8\x39\x56\xD0\x4C\xF8\x7D\x9C"
"\x64\x6C\x3E\x8E\x3C\x22\x36\x23\xEB\xC8\xEB\x47\xD7\x81\x07\xA0\x7E\x38\xFC\x3D"
"\x0E\xCA\x10\xFC\x3D\x28\x43\xF0\xFA\xF0\x22\x47\x3D\x04\xD3\x30\x43\xC4\x88\x22"
"\x35\x16\xA3\xEB\xC7\xD8\x21\xE7\x1E\xD3\xEC\xFC\x9C\x2F\x9E\x9A\x08\x52\xCF\x60"
"\xEA\x3D\x80\x85\x82\x9E\xC3\xE8\x43\xE8\xFA\x04\x4E\x7F\x8E\xB3\xAC\x70\x47\x99"
"\xF4\x20\xC3\x61\xEC\x3F\x0F\x43\xB3\x4F\xC9\xC2\xF9\xE9\x42\x02\x1D\x70\x44\xE8"
"\xA7\x1C\xA2\x36\x1F\x47\x1D\x11\xB0\xFA\x38\xE8\x8D\x87\xB0\xFC\x3F\x47\x91\xB0"
"\xE4\x22\x30\x73\x77\xC7\x83\xE9\xD1\x08\x7D\x07\x38\x5F\x40\x8D\x9F\x9B\x01\x1B"
"\x32\x0C\x23\xCC\xF2\x3E\x8E\x3A\x22\x36\x1F\x47\x1D\x11\x1B\x0F\xA3\x8E\x88\x8D"
"\x80\x83\x9D\x82\x44\xF0\x47\xE1\x98\x10\xF8\x62\x41\xE0\x5E\x19\x7C\x7C\x3D\x87"
"\x30\xF6\x1F\x87\xE8\xF2\x59\xEF\x9E\x0A\x70\xBE\x08\x5D\x15\xA0\x42\xE0\x6C\x83"
"\x2A\x2B\x47\xD0\x87\xB0\xFC\x3D\x3C\x36\xC2\x08\xFC\x3F\x47\x91\xC5\xF5\xF3\xC1"
"\xDC\x3D\x0E\xC2\x04\x19\x87\xD0\x84\x68\x08\x5D\x16\xC9\xC2\xF8\x21\x74\x18\x4E"
2021-01-03 17:41:03 +00:00
"\xCA\x10\xFC\x3E\xBC\x7B\x59\xEE\x9C\x2F\x82\x3F\x4E\x90\x10\x79\x23\x9C\x2F\x9B";
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// ++++++++++++++++++++^^^^^^^^^^^^^^^^^^^++++++++++++++++++++
// ++++++++++++++++++++ DO NOT EDIT ABOVE ++++++++++++++++++++
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// comparator function used to sort Zigbee devices by alphabetical order (if friendlyname)
// then by shortaddr if they don't have friendlyname
int device_cmp(uint8_t a, uint8_t b) {
const Z_Device &dev_a = zigbee_devices.devicesAt(a);
const Z_Device &dev_b = zigbee_devices.devicesAt(b);
const char * fn_a = dev_a.friendlyName;
const char * fn_b = dev_b.friendlyName;
if (fn_a && fn_b) {
return strcasecmp(fn_a, fn_b);
} else if (!fn_a && !fn_b) {
return (int32_t)dev_a.shortaddr - (int32_t)dev_b.shortaddr;
} else {
if (fn_a) return -1;
else return 1;
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}
}
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// Convert seconds to a string representing days, hours or minutes present in the n-value.
// The string will contain the most coarse time only, rounded down (61m == 01h, 01h37m == 01h).
// Inputs:
// - seconds: uint32_t representing some number of seconds
// Outputs:
// - char for unit (d for day, h for hour, m for minute)
// - the hex color to be used to display the text
//
uint32_t convert_seconds_to_dhm(uint32_t seconds, char *unit, uint8_t *color){
static uint32_t conversions[3] = {24 * 3600, 3600, 60};
static char units[3] = { 'd', 'h', 'm'}; // day, hour, minute
uint8_t color_text_8 = WebColor(COL_TEXT) & 0xFF; // color of text on 8 bits
uint8_t color_back_8 = WebColor(COL_BACKGROUND) & 0xFF; // color of background on 8 bits
uint8_t colors[3] = { (uint8_t) changeUIntScale(6, 0, 16, color_back_8, color_text_8), // 6/16 of text
(uint8_t) changeUIntScale(10, 0, 16, color_back_8, color_text_8), // 10/16 of text color
color_text_8};
for(int i = 0; i < 3; ++i) {
*color = colors[i];
*unit = units[i];
if (seconds > conversions[i]) { // always pass even if 00m
return seconds / conversions[i];
}
}
return 0;
}
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const char HTTP_BTN_ZB_BUTTONS[] PROGMEM =
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"<button onclick='la(\"&zbj=1\");'>" D_ZIGBEE_PERMITJOIN "</button>"
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"<p></p>"
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"<form action='zbm' method='get'><button>" D_ZIGBEE_MAP "</button></form>";
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void ZigbeeShow(bool json)
{
if (json) {
return;
#ifdef USE_WEBSERVER
} else {
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UnishoxStrings msg(ZB_WEB);
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uint32_t zigbee_num = zigbee_devices.devicesSize();
if (zigbee_num > 0) {
if (zigbee_num > 255) { zigbee_num = 255; }
WSContentSend_P(msg[ZB_WEB_CSS], WebColor(COL_TEXT));
// WSContentSend_compressed(ZB_WEB, 0);
// sort elements by name, then by id
uint8_t sorted_idx[zigbee_num];
for (uint32_t i = 0; i < zigbee_num; i++) {
sorted_idx[i] = i;
}
// insertion sort
for (uint32_t i = 1; i < zigbee_num; i++) {
uint8_t key = sorted_idx[i];
uint8_t j = i;
while ((j > 0) && (device_cmp(sorted_idx[j - 1], key) > 0)) {
sorted_idx[j] = sorted_idx[j - 1];
j--;
}
sorted_idx[j] = key;
}
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uint32_t now = Rtc.utc_time;
for (uint32_t i = 0; i < zigbee_num; i++) {
const Z_Device &device = zigbee_devices.devicesAt(sorted_idx[i]);
uint16_t shortaddr = device.shortaddr;
char *name = (char*) device.friendlyName;
char sdevice[33];
if (nullptr == name) {
snprintf_P(sdevice, sizeof(sdevice), PSTR(D_DEVICE " 0x%04X"), shortaddr);
name = sdevice;
}
char sbatt[64];
snprintf_P(sbatt, sizeof(sbatt), PSTR("&nbsp;"));
if (device.validBatteryPercent()) {
snprintf_P(sbatt, sizeof(sbatt),
msg[ZB_WEB_BATTERY],
device.batterypercent, changeUIntScale(device.batterypercent, 0, 100, 0, 14)
);
}
uint32_t num_bars = 0;
char slqi[4];
slqi[0] = '-';
slqi[1] = '\0';
if (device.validLqi()){
num_bars = changeUIntScale(device.lqi, 0, 254, 0, 4);
snprintf_P(slqi, sizeof(slqi), PSTR("%d"), device.lqi);
}
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WSContentSend_PD(msg[ZB_WEB_STATUS_LINE],
shortaddr,
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device.modelId ? EscapeHTMLString(device.modelId).c_str() : "",
device.manufacturerId ? EscapeHTMLString(device.manufacturerId).c_str() : "",
EscapeHTMLString(name).c_str(), sbatt, slqi);
if(device.validLqi()) {
for(uint32_t j = 0; j < 4; ++j) {
WSContentSend_PD(PSTR("<i class='b%d%s'></i>"), j, (num_bars < j) ? PSTR(" o30") : PSTR(""));
}
}
char dhm[48];
snprintf_P(dhm, sizeof(dhm), PSTR("<td>&nbsp;"));
if (device.validLastSeen()) {
char unit;
uint8_t color;
uint16_t val = convert_seconds_to_dhm(now - device.last_seen, &unit, &color);
if (val < 100) {
snprintf_P(dhm, sizeof(dhm), msg[ZB_WEB_LAST_SEEN],
color, color, color, val, unit);
}
}
WSContentSend_PD(msg[ZB_WEB_END_STATUS], dhm );
// Sensors
const Z_Data_Thermo & thermo = device.data.find<Z_Data_Thermo>();
if (&thermo != nullptr) {
bool validTemp = thermo.validTemperature();
bool validTempTarget = thermo.validTempTarget();
bool validThSetpoint = thermo.validThSetpoint();
bool validHumidity = thermo.validHumidity();
bool validPressure = thermo.validPressure();
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if (validTemp || validTempTarget || validThSetpoint || validHumidity || validPressure) {
WSContentSend_P(msg[ZB_WEB_LINE_START]);
if (validTemp) {
char buf[12];
dtostrf(thermo.getTemperature() / 100.0f, 3, 1, buf);
WSContentSend_PD(PSTR(" &#x2600;&#xFE0F; %s°C"), buf);
}
if (validTempTarget) {
char buf[12];
dtostrf(thermo.getTempTarget() / 100.0f, 3, 1, buf);
WSContentSend_PD(PSTR(" &#127919; %s°C"), buf);
}
if (validThSetpoint) {
WSContentSend_PD(PSTR(" &#9881;&#65039; %d%%"), thermo.getThSetpoint());
}
if (validHumidity) {
WSContentSend_P(PSTR(" &#x1F4A7; %d%%"), (uint16_t)(thermo.getHumidity() / 100.0f + 0.5f));
}
if (validPressure) {
WSContentSend_P(PSTR(" &#x26C5; %d hPa"), thermo.getPressure());
}
WSContentSend_P(PSTR("{e}"));
}
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}
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// Light, switches and plugs
const Z_Data_OnOff & onoff = device.data.find<Z_Data_OnOff>();
bool onoff_display = (&onoff != nullptr) ? onoff.validPower() : false;
const Z_Data_Light & light = device.data.find<Z_Data_Light>();
bool light_display = (&light != nullptr) ? light.validDimmer() : false;
const Z_Data_Plug & plug = device.data.find<Z_Data_Plug>();
bool plug_voltage = (&plug != nullptr) ? plug.validMainsVoltage() : false;
bool plug_power = (&plug != nullptr) ? plug.validMainsPower() : false;
if (onoff_display || light_display || plug_voltage || plug_power) {
int8_t channels = device.getLightChannels();
if (channels < 0) { channels = 5; } // if number of channel is unknown, display all known attributes
WSContentSend_P(msg[ZB_WEB_LINE_START]);
if (onoff_display) {
WSContentSend_P(PSTR(" %s"), onoff.getPower() ? PSTR(D_ON) : PSTR(D_OFF));
}
if (&light != nullptr) {
if (light.validDimmer() && (channels >= 1)) {
WSContentSend_P(PSTR(" &#128261; %d%%"), changeUIntScale(light.getDimmer(),0,254,0,100));
}
if (light.validCT() && ((channels == 2) || (channels == 5))) {
uint32_t ct_k = (((1000000 / light.getCT()) + 25) / 50) * 50;
WSContentSend_P(msg[ZB_WEB_LIGHT_CT], light.getCT(), ct_k);
}
if (light.validHue() && light.validSat() && (channels >= 3)) {
uint8_t r,g,b;
uint8_t sat = changeUIntScale(light.getSat(), 0, 254, 0, 255); // scale to 0..255
HsToRgb(light.getHue(), sat, &r, &g, &b);
WSContentSend_P(msg[ZB_WEB_COLOR_RGB], r,g,b,r,g,b);
} else if (light.validX() && light.validY() && (channels >= 3)) {
uint8_t r,g,b;
XyToRgb(light.getX() / 65535.0f, light.getY() / 65535.0f, &r, &g, &b);
WSContentSend_P(msg[ZB_WEB_COLOR_RGB], r,g,b,r,g,b);
}
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}
if (plug_voltage || plug_power) {
WSContentSend_P(PSTR(" &#9889; "));
if (plug_voltage) {
WSContentSend_P(PSTR(" %dV"), plug.getMainsVoltage());
}
if (plug_power) {
WSContentSend_P(PSTR(" %dW"), plug.getMainsPower());
}
}
WSContentSend_P(PSTR("{e}"));
}
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}
WSContentSend_P(msg[ZB_WEB_LINE_END]); // Terminate current multi column table and open new table
}
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if (zigbee.permit_end_time) {
// PermitJoin in progress
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WSContentSend_P(msg[ZB_WEB_PERMITJOIN_ACTIVE], PSTR(D_ZIGBEE_PERMITJOIN_ACTIVE));
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}
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#endif
}
}
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// Web handler to refresh the map, the redirect to show map
void ZigbeeMapRefresh(void) {
if ((!zigbee.init_phase) && (!zigbee.mapping_in_progress)) {
ZigbeeMapAllDevices();
}
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Webserver->sendHeader(F("Location"),F("/zbm")); // Add a header to respond with a new location for the browser to go to the home page again
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Webserver->send(302);
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}
// Display a graphical representation of the Zigbee map using vis.js network
void ZigbeeShowMap(void) {
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_HTTP "Zigbee Mapper"));
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// if no map, then launch a new mapping
if ((!zigbee.init_phase) && (!zigbee.mapping_ready) && (!zigbee.mapping_in_progress)) {
ZigbeeMapAllDevices();
}
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UnishoxStrings msg(ZB_WEB);
WSContentStart_P(PSTR(D_ZIGBEE_MAPPING_TITLE));
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WSContentSendStyle();
if (zigbee.init_phase) {
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WSContentSend_P(PSTR(D_ZIGBEE_NOT_STARTED));
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} else if (zigbee.mapping_in_progress) {
int32_t mapping_remaining = 1 + (zigbee.mapping_end_time - millis()) / 1000;
if (mapping_remaining < 0) { mapping_remaining = 0; }
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WSContentSend_P(PSTR(D_ZIGBEE_MAPPING_IN_PROGRESS_SEC), mapping_remaining);
WSContentSend_P(msg[ZB_WEB_AUTO_REFRESH]);
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} else if (!zigbee.mapping_ready) {
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WSContentSend_P(PSTR(D_ZIGBEE_MAPPING_NOT_PRESENT));
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} else {
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WSContentSend_P(msg[ZB_WEB_VIS_JS_BEFORE]);
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zigbee_mapper.dumpInternals();
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WSContentSend_P(msg[ZB_WEB_VIS_JS_AFTER]);
WSContentSend_P(msg[ZB_WEB_MAP_REFRESH], PSTR(D_ZIGBEE_MAP_REFRESH));
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}
WSContentSpaceButton(BUTTON_MAIN);
WSContentStop();
}
/*********************************************************************************************\
* Interface
\*********************************************************************************************/
bool Xdrv23(uint8_t function) {
if (TasmotaGlobal.gpio_optiona.enable_ccloader) { return false; }
bool result = false;
if (zigbee.active) {
switch (function) {
case FUNC_EVERY_50_MSECOND:
if (!zigbee.init_phase) {
zigbee_devices.runTimer();
}
break;
case FUNC_LOOP:
#ifdef USE_ZIGBEE_EZSP
if (ZigbeeUploadXmodem()) {
return false;
}
#endif
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if (ZigbeeSerial) {
ZigbeeInputLoop();
ZigbeeOutputLoop(); // send any outstanding data
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ZigbeePermitJoinUpdate(); // timer for permit join
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}
if (zigbee.state_machine) {
ZigbeeStateMachine_Run();
}
break;
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#ifdef USE_WEBSERVER
case FUNC_WEB_SENSOR:
ZigbeeShow(false);
break;
// GUI xmodem
case FUNC_WEB_ADD_HANDLER:
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#ifdef USE_ZIGBEE_EZSP
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WebServer_on(PSTR("/" WEB_HANDLE_ZIGBEE_XFER), HandleZigbeeXfer);
#endif // USE_ZIGBEE_EZSP
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WebServer_on(PSTR("/zbm"), ZigbeeShowMap, HTTP_GET); // add web handler for Zigbee map
WebServer_on(PSTR("/zbr"), ZigbeeMapRefresh, HTTP_GET); // add web handler for Zigbee map refresh
break;
case FUNC_WEB_ADD_MAIN_BUTTON:
WSContentSend_P(HTTP_BTN_ZB_BUTTONS);
break;
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#endif // USE_WEBSERVER
case FUNC_PRE_INIT:
ZigbeeInit();
break;
case FUNC_COMMAND:
result = DecodeCommand(kZbCommands, ZigbeeCommand, kZbSynonyms);
break;
case FUNC_SAVE_BEFORE_RESTART:
if (!zigbee.init_phase) {
hibernateAllData();
restoreDumpAllDevices();
}
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break;
}
}
return result;
}
#endif // USE_ZIGBEE