/* xdrv_23_zigbee_converters.ino - zigbee support for Tasmota 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 . */ #ifdef USE_ZIGBEE /*********************************************************************************************\ * ZCL Command Structures \*********************************************************************************************/ typedef struct Z_CommandConverter { uint16_t tasmota_cmd_offset; uint16_t cluster; uint8_t cmd; // normally 8 bits, 0xFF means it's a parameter uint8_t direction; // direction of the command. 0x01 client->server, 0x02 server->client, 0x03 both, 0x80 requires custom decoding uint16_t param_offset; } Z_CommandConverter; typedef struct Z_XYZ_Var { // Holds values for vairables X, Y and Z uint32_t x = 0; uint32_t y = 0; uint32_t z = 0; uint8_t x_type = 0; // 0 = no value, 1 = 1 bytes, 2 = 2 bytes uint8_t y_type = 0; uint8_t z_type = 0; } Z_XYZ_Var; // Cluster specific commands // Note: the table is both for sending commands, but also displaying received commands // - tasmota_cmd: the human-readable name of the command as entered or displayed, use '|' to split into multiple commands when displayed // - cluster: cluster number of the command // - cmd: the command number, of 0xFF if it's actually a variable to be assigned from 'xx' // - direction: the direction of the command (bit field). 0x01=from client to server (coord to device), 0x02= from server to client (response), 0x80=needs specific decoding // - param: the paylod template, x/y/z are substituted with arguments, little endian. For command display, payload must match until x/y/z character or until the end of the paylod. '??' means ignore. const Z_CommandConverter Z_Commands[] PROGMEM = { // Identify cluster { Z_(Identify), 0x0003, 0x00, 0x01, Z_(xxxx) }, // Identify device, time in seconds { Z_(IdentifyQuery), 0x0003, 0x01, 0x01, Z_() }, // Identify Query (no param) // Group adress commands { Z_(AddGroup), 0x0004, 0x00, 0x01, Z_(xxxx00) }, // Add group id, group name is not supported { Z_(ViewGroup), 0x0004, 0x01, 0x01, Z_(xxxx) }, // Ask for the group name { Z_(GetGroup), 0x0004, 0x02, 0x01, Z_(01xxxx) }, // Get one group membership { Z_(GetAllGroups), 0x0004, 0x02, 0x01, Z_(00) }, // Get all groups membership { Z_(RemoveGroup), 0x0004, 0x03, 0x01, Z_(xxxx) }, // Remove one group { Z_(RemoveAllGroups),0x0004, 0x04, 0x01, Z_() }, // Remove all groups // Scenes //{ "AddScene", 0x0005, 0x00, 0x01, "xxxxyy0100" }, { Z_(ViewScene), 0x0005, 0x01, 0x01, Z_(xxxxyy) }, { Z_(RemoveScene), 0x0005, 0x02, 0x01, Z_(xxxxyy) }, { Z_(RemoveAllScenes),0x0005, 0x03, 0x01, Z_(xxxx) }, { Z_(RecallScene), 0x0005, 0x05, 0x01, Z_(xxxxyy) }, { Z_(GetSceneMembership),0x0005, 0x06, 0x01, Z_(xxxx) }, // Light & Shutter commands { Z_(PowerOffEffect), 0x0006, 0x40, 0x81, Z_(xxyy) }, // Power Off With Effect { Z_(PowerOnRecall), 0x0006, 0x41, 0x81, Z_() }, // Power On With Recall Global Scene { Z_(PowerOnTimer), 0x0006, 0x42, 0x81, Z_(xxyyyyzzzz) }, // Power On with Timed Off { Z_(LidlPower), 0x0006, 0xFD, 0x01, Z_(xx) }, // Lidl specific encoding { Z_(Power), 0x0006, 0xFF, 0x01, Z_() }, // 0=Off, 1=On, 2=Toggle { Z_(Dimmer), 0x0008, 0x04, 0x01, Z_(xx0A00) }, // Move to Level with On/Off, xx=0..254 (255 is invalid) { Z_(DimmerUp), 0x0008, 0x06, 0x01, Z_(00190200) }, // Step up by 10%, 0.2 secs { Z_(DimmerDown), 0x0008, 0x06, 0x01, Z_(01190200) }, // Step down by 10%, 0.2 secs { Z_(DimmerStop), 0x0008, 0x03, 0x01, Z_() }, // Stop any Dimmer animation { Z_(ResetAlarm), 0x0009, 0x00, 0x01, Z_(xxyyyy) }, // Reset alarm (alarm code + cluster identifier) { Z_(ResetAllAlarms), 0x0009, 0x01, 0x01, Z_() }, // Reset all alarms { Z_(Hue), 0x0300, 0x00, 0x01, Z_(xx000A00) }, // Move to Hue, shortest time, 1s { Z_(Sat), 0x0300, 0x03, 0x01, Z_(xx0A00) }, // Move to Sat { Z_(HueSat), 0x0300, 0x06, 0x01, Z_(xxyy0A00) }, // Hue, Sat { Z_(Color), 0x0300, 0x07, 0x01, Z_(xxxxyyyy0A00) }, // x, y (uint16) { Z_(CT), 0x0300, 0x0A, 0x01, Z_(xxxx0A00) }, // Color Temperature Mireds (uint16) { Z_(RGB), 0x0300, 0xF0, 0x81, Z_() }, // synthetic commands converting RGB to XY { Z_(ShutterOpen), 0x0102, 0x00, 0x01, Z_() }, { Z_(ShutterClose), 0x0102, 0x01, 0x01, Z_() }, { Z_(ShutterStop), 0x0102, 0x02, 0x01, Z_() }, { Z_(ShutterLift), 0x0102, 0x05, 0x01, Z_(xx) }, // Lift percentage, 0%=open, 100%=closed { Z_(ShutterTilt), 0x0102, 0x08, 0x01, Z_(xx) }, // Tilt percentage { Z_(Shutter), 0x0102, 0xFF, 0x01, Z_() }, // Blitzwolf PIR { Z_(Occupancy), 0xEF00, 0x01, 0x82, Z_()}, // Specific decoder for Blitzwolf PIR, empty name means special treatment // Decoders only - normally not used to send, and names may be masked by previous definitions { Z_(Dimmer), 0x0008, 0x00, 0x01, Z_(xx) }, { Z_(DimmerMove), 0x0008, 0x01, 0x01, Z_(xx0A) }, { Z_(DimmerStepUp), 0x0008, 0x02, 0x01, Z_(00xx0A00) }, { Z_(DimmerStepDown), 0x0008, 0x02, 0x01, Z_(01xx0A00) }, { Z_(DimmerStep), 0x0008, 0x02, 0x01, Z_(xx190A00) }, { Z_(DimmerMove), 0x0008, 0x05, 0x01, Z_(xx0A) }, { Z_(DimmerUp), 0x0008, 0x06, 0x01, Z_(00) }, { Z_(DimmerDown), 0x0008, 0x06, 0x01, Z_(01) }, { Z_(DimmerStop), 0x0008, 0x07, 0x01, Z_() }, { Z_(HueMove), 0x0300, 0x01, 0x01, Z_(xx19) }, { Z_(HueStepUp), 0x0300, 0x02, 0x01, Z_(01xx0A00) }, { Z_(HueStepDown), 0x0300, 0x02, 0x01, Z_(03xx0A00) }, { Z_(HueStep), 0x0300, 0x02, 0x01, Z_(xx190A00) }, { Z_(SatMove), 0x0300, 0x04, 0x01, Z_(xx19) }, { Z_(SatStep), 0x0300, 0x05, 0x01, Z_(xx190A) }, { Z_(ColorMove), 0x0300, 0x08, 0x01, Z_(xxxxyyyy) }, { Z_(ColorStep), 0x0300, 0x09, 0x01, Z_(xxxxyyyy0A00) }, { Z_(ColorTempMoveUp), 0x0300, 0x4B, 0x01, Z_(01xxxx000000000000) }, { Z_(ColorTempMoveDown),0x0300, 0x4B, 0x01, Z_(03xxxx000000000000) }, { Z_(ColorTempMoveStop),0x0300, 0x4B, 0x01, Z_(00xxxx000000000000) }, { Z_(ColorTempMove), 0x0300, 0x4B, 0x01, Z_(xxyyyy000000000000) }, { Z_(ColorTempStepUp), 0x0300, 0x4C, 0x01, Z_(01xxxx0A0000000000) }, { Z_(ColorTempStepDown),0x0300, 0x4C, 0x01, Z_(03xxxx0A0000000000) }, { Z_(ColorTempStep), 0x0300, 0x4C, 0x01, Z_(xxyyyy0A0000000000) }, //xx = 0x01 up, 0x03 down, yyyy = step // Tradfri { Z_(ArrowClick), 0x0005, 0x07, 0x01, Z_(xx) }, // xx == 0x01 = left, 0x00 = right { Z_(ArrowHold), 0x0005, 0x08, 0x01, Z_(xx) }, // xx == 0x01 = left, 0x00 = right { Z_(ArrowRelease), 0x0005, 0x09, 0x01, Z_() }, // Response for Indetify cluster { Z_(IdentifyQuery), 0x0003, 0x00, 0x02, Z_(xxxx) }, // timeout in seconds // IAS - Intruder Alarm System + leak/fire detection { Z_(ZoneStatusChange),0x0500, 0x00, 0x82, Z_(xxxxyyzz) }, // xxxx = zone status, yy = extended status, zz = zone id, Delay is ignored // responses for Group cluster commands { Z_(AddGroup), 0x0004, 0x00, 0x82, Z_(xxyyyy) }, // xx = status, yy = group id { Z_(ViewGroup), 0x0004, 0x01, 0x82, Z_(xxyyyy) }, // xx = status, yy = group id, name ignored { Z_(GetGroup), 0x0004, 0x02, 0x82, Z_(xxyyzzzz) }, // xx = capacity, yy = count, zzzz = first group id, following groups ignored { Z_(RemoveGroup), 0x0004, 0x03, 0x82, Z_(xxyyyy) }, // xx = status, yy = group id // responses for Scene cluster commands { Z_(AddScene), 0x0005, 0x00, 0x82, Z_(xxyyyyzz) }, // xx = status, yyyy = group id, zz = scene id { Z_(ViewScene), 0x0005, 0x01, 0x82, Z_(xxyyyyzz) }, // xx = status, yyyy = group id, zz = scene id { Z_(RemoveScene), 0x0005, 0x02, 0x82, Z_(xxyyyyzz) }, // xx = status, yyyy = group id, zz = scene id { Z_(RemoveAllScenes),0x0005, 0x03, 0x82, Z_(xxyyyy) }, // xx = status, yyyy = group id { Z_(StoreScene), 0x0005, 0x04, 0x82, Z_(xxyyyyzz) }, // xx = status, yyyy = group id, zz = scene id { Z_(GetSceneMembership),0x0005, 0x06, 0x82,Z_(xxyyzzzz) }, // specific // Tuya - Moes specific { Z_(), 0xEF00, 0xFF, 0x83, Z_() }, // capture any command in 0xEF00 cluster // Terncy specific { Z_(), 0xFCCC, 0x00, 0x82, Z_(xxyy) }, // Terncy button (multi-)press }; /*********************************************************************************************\ * ZCL Read Light status based on cluster number \*********************************************************************************************/ #define ZLE(x) ((x) & 0xFF), ((x) >> 8) // Little Endian // Below are the attributes we wand to read from each cluster const uint8_t CLUSTER_0006[] = { ZLE(0x0000) }; // Power const uint8_t CLUSTER_0008[] = { ZLE(0x0000) }; // CurrentLevel const uint8_t CLUSTER_0009[] = { ZLE(0x0000) }; // AlarmCount const uint8_t CLUSTER_0300[] = { ZLE(0x0000), ZLE(0x0001), ZLE(0x0003), ZLE(0x0004), ZLE(0x0007), ZLE(0x0008) }; // Hue, Sat, X, Y, CT, ColorMode // This callback is registered after a cluster specific command and sends a read command for the same cluster void Z_ReadAttrCallback(uint16_t shortaddr, uint16_t groupaddr, uint16_t cluster, uint8_t endpoint, uint32_t value) { size_t attrs_len = 0; const uint8_t* attrs = nullptr; switch (cluster) { case 0x0006: // for On/Off attrs = CLUSTER_0006; attrs_len = sizeof(CLUSTER_0006); break; case 0x0008: // for Dimmer attrs = CLUSTER_0008; attrs_len = sizeof(CLUSTER_0008); break; case 0x0009: // for Alarms attrs = CLUSTER_0009; attrs_len = sizeof(CLUSTER_0009); break; case 0x0300: // for Lights attrs = CLUSTER_0300; attrs_len = sizeof(CLUSTER_0300); break; } if (attrs) { if (groupaddr) { shortaddr = BAD_SHORTADDR; // if group address, don't send to device } uint8_t seq = zigbee_devices.getNextSeqNumber(shortaddr); ZigbeeZCLSend_Raw(ZigbeeZCLSendMessage({ shortaddr, groupaddr, cluster /*cluster*/, endpoint, ZCL_READ_ATTRIBUTES, 0, /* manuf */ false /* not cluster specific */, true /* response */, false /* discover route */, seq, /* zcl transaction id */ attrs, attrs_len })); } } // This callback is registered after a an attribute read command was made to a light, and fires if we don't get any response after 1000 ms void Z_Unreachable(uint16_t shortaddr, uint16_t groupaddr, uint16_t cluster, uint8_t endpoint, uint32_t value) { if (BAD_SHORTADDR != shortaddr) { zigbee_devices.getShortAddr(shortaddr).setReachable(false); // mark device as reachable Z_attribute_list attr_list; attr_list.addAttributePMEM(PSTR("Reachable")).setBool(false); // "Reachable":false // Z_postProcessAttributes(shortaddr, endpoint, attr_list); // make sure all is updated accordingly zigbee_devices.jsonPublishNow(shortaddr, attr_list); } } // returns true if char is 'x', 'y' or 'z' inline bool isXYZ(char c) { return (c >= 'x') && (c <= 'z'); } // returns the Hex value of a digit [0-9A-Fa-f] // return: 0x00-0x0F // or -1 if cannot be parsed inline int8_t hexValue(char c) { if ((c >= '0') && (c <= '9')) { return c - '0'; } if ((c >= 'A') && (c <= 'F')) { return 10 + c - 'A'; } if ((c >= 'a') && (c <= 'f')) { return 10 + c - 'a'; } return -1; } // Parse a Big Endian suite of max_len digits, or stops when a non-hex digit is found uint32_t parseHex_P(const char **data, size_t max_len = 8) { uint32_t ret = 0; for (uint32_t i = 0; i < max_len; i++) { int8_t v = hexValue(pgm_read_byte(*data)); if (v < 0) { break; } // non hex digit, we stop parsing ret = (ret << 4) | v; *data += 1; } return ret; } // Parse a model like "xxyy00" // and fill x, y and z values // Little Endian encoding // On exit, xyz is updated, and x_type, y_type, z_type contain the number of bytes read for each void parseXYZ(const char *model, const SBuffer &payload, struct Z_XYZ_Var *xyz) { const char *p = model; // pointer to the model character uint32_t v = 0; // index in the payload bytes buffer char c = pgm_read_byte(p); // cur char while (c) { char c1 = pgm_read_byte(p+1); // next char if (!c1) { break; } // unexpected end of model if (isXYZ(c) && (c == c1) && (v < payload.len())) { // if char is [x-z] and followed by same char uint8_t val = payload.get8(v); switch (c) { case 'x': xyz->x = xyz->x | (val << (xyz->x_type * 8)); xyz->x_type++; break; case 'y': xyz->y = xyz->y | (val << (xyz->y_type * 8)); xyz->y_type++; break; case 'z': xyz->z = xyz->z | (val << (xyz->z_type * 8)); xyz->z_type++; break; } } p += 2; v++; c = pgm_read_byte(p); } } // Parse a cluster specific command, and try to convert into human readable void convertClusterSpecific(class Z_attribute_list &attr_list, uint16_t cluster, uint8_t cmd, bool direction, uint16_t shortaddr, uint8_t srcendpoint, const SBuffer &payload) { const char * command_name = nullptr; uint8_t conv_direction; Z_XYZ_Var xyz; //AddLog_P(LOG_LEVEL_INFO, PSTR(">>> len = %d - %02X%02X%02X"), payload.len(), payload.get8(0), payload.get8(1), payload.get8(2)); for (uint32_t i = 0; i < sizeof(Z_Commands) / sizeof(Z_Commands[0]); i++) { const Z_CommandConverter *conv = &Z_Commands[i]; uint16_t conv_cluster = pgm_read_word(&conv->cluster); if (conv_cluster == cluster) { // cluster match uint8_t conv_cmd = pgm_read_byte(&conv->cmd); conv_direction = pgm_read_byte(&conv->direction); if ((0xFF == conv_cmd) || (cmd == conv_cmd)) { // cmd match if ((direction && (conv_direction & 0x02)) || (!direction && (conv_direction & 0x01))) { // check if we have a match for params too // Match if: // - payload exactly matches conv->param (conv->param may be longer) // - payload matches conv->param until 'x', 'y' or 'z' const char * p = Z_strings + pgm_read_word(&conv->param_offset); //AddLog_P(LOG_LEVEL_INFO, PSTR(">>>++1 param = %s"), p); bool match = true; for (uint8_t i = 0; i < payload.len(); i++) { const char c1 = pgm_read_byte(p); // const char c2 = pgm_read_byte(p+1); //AddLog_P(LOG_LEVEL_INFO, PSTR(">>>++2 c1 = %c, c2 = %c"), c1, c2); if ((0x00 == c1) || isXYZ(c1)) { break; } const char * p2 = p; uint32_t nextbyte = parseHex_P(&p2, 2); //AddLog_P(LOG_LEVEL_INFO, PSTR(">>>++3 parseHex_P = %02X"), nextbyte); if (nextbyte != payload.get8(i)) { match = false; break; } p += 2; } if (match) { command_name = Z_strings + pgm_read_word(&conv->tasmota_cmd_offset); parseXYZ(Z_strings + pgm_read_word(&conv->param_offset), payload, &xyz); if (0xFF == conv_cmd) { // shift all values xyz.z = xyz.y; xyz.z_type = xyz.y_type; xyz.y = xyz.x; xyz.y_type = xyz.x_type; xyz.x = cmd; xyz.x_type = 1; // 1 byte } break; } } } } } // always report attribute in raw format // Format: "0001!06": "00" = "!": "" for commands to devices // Format: "0004<00": "00" = "<": "" for commands to devices char attrid_str[12]; snprintf_P(attrid_str, sizeof(attrid_str), PSTR("%04X%c%02X"), cluster, direction ? '<' : '!', cmd); Z_attribute & attr_raw = attr_list.addAttribute(attrid_str); attr_raw.setBuf(payload, 0, payload.len()); if (command_name) { // Now try to transform into a human readable format // if (direction & 0x80) then specific transform if (conv_direction & 0x80) { uint32_t cccc00mm = (cluster << 16) | cmd; // format = cccc00mm, cccc = cluster, mm = command // IAS switch (cccc00mm) { case 0x05000000: // "ZoneStatusChange" { attr_list.addAttribute(command_name, true).setUInt(xyz.x); if (0 != xyz.y) { attr_list.addAttribute(command_name, PSTR("Ext")).setUInt(xyz.y); } if ((0 != xyz.z) && (0xFF != xyz.z)) { attr_list.addAttribute(command_name, PSTR("Zone")).setUInt(xyz.z); } // Convert to "Occupancy" or to "Contact" if the device is PIR or Contact sensor const Z_Data_Alarm & alarm = (const Z_Data_Alarm&) zigbee_devices.getShortAddr(shortaddr).data.find(Z_Data_Type::Z_Alarm, srcendpoint); if (&alarm != nullptr) { alarm.convertZoneStatus(attr_list, xyz.x); } } break; case 0x00040000: case 0x00040001: case 0x00040003: // AddGroupResp or ViewGroupResp (group name ignored) or RemoveGroup attr_list.addAttribute(command_name, true).setUInt(xyz.y); attr_list.addAttribute(command_name, PSTR("Status")).setUInt(xyz.x); attr_list.addAttribute(command_name, PSTR("StatusMsg")).setStr(getZigbeeStatusMessage(xyz.x).c_str()); break; case 0x00040002: // GetGroupResp attr_list.addAttribute(command_name, PSTR("Capacity")).setUInt(xyz.x); attr_list.addAttribute(command_name, PSTR("Count")).setUInt(xyz.y); { JsonGeneratorArray group_list; for (uint32_t i = 0; i < xyz.y; i++) { group_list.add(payload.get16(2 + 2*i)); } attr_list.addAttribute(command_name, true).setStrRaw(group_list.toString().c_str()); } break; case 0x00050000: case 0x00050001: // ViewScene case 0x00050002: case 0x00050004: // AddScene or RemoveScene or StoreScene attr_list.addAttribute(command_name, PSTR("Status")).setUInt(xyz.x); attr_list.addAttribute(command_name, PSTR("StatusMsg")).setStr(getZigbeeStatusMessage(xyz.x).c_str()); attr_list.addAttributePMEM(PSTR("GroupId")).setUInt(xyz.y); attr_list.addAttributePMEM(PSTR("SceneId")).setUInt(xyz.z); if (0x00050001 == cccc00mm) { // ViewScene specific attr_list.addAttributePMEM(PSTR("ScenePayload")).setBuf(payload, 4, payload.len()-4); // remove first 4 bytes } break; case 0x00050003: // RemoveAllScenes attr_list.addAttribute(command_name, PSTR("Status")).setUInt(xyz.x); attr_list.addAttribute(command_name, PSTR("StatusMsg")).setStr(getZigbeeStatusMessage(xyz.x).c_str()); attr_list.addAttributePMEM(PSTR("GroupId")).setUInt(xyz.y); break; case 0x00050006: // GetSceneMembership attr_list.addAttribute(command_name, PSTR("Status")).setUInt(xyz.x); attr_list.addAttribute(command_name, PSTR("StatusMsg")).setStr(getZigbeeStatusMessage(xyz.x).c_str()); attr_list.addAttributePMEM(PSTR("Capacity")).setUInt(xyz.y); attr_list.addAttributePMEM(PSTR("GroupId")).setUInt(xyz.z); attr_list.addAttributePMEM(PSTR("ScenePayload")).setBuf(payload, 4, payload.len()-4); // remove first 4 bytes break; case 0x00060040: // Power Off With Effect attr_list.addAttributePMEM(PSTR("Power")).setUInt(0); attr_list.addAttributePMEM(PSTR("PowerEffect")).setUInt(xyz.x); attr_list.addAttributePMEM(PSTR("PowerEffectVariant")).setUInt(xyz.y); break; case 0x00060041: // Power On With Recall Global Scene attr_list.addAttributePMEM(PSTR("Power")).setUInt(1); attr_list.addAttributePMEM(PSTR("PowerRecallGlobalScene")).setBool(true); break; case 0x00060042: // Power On With Timed Off Command attr_list.addAttributePMEM(PSTR("Power")).setUInt(1); attr_list.addAttributePMEM(PSTR("PowerOnlyWhenOn")).setUInt(xyz.x); attr_list.addAttributePMEM(PSTR("PowerOnTime")).setFloat(xyz.y / 10.0f); attr_list.addAttributePMEM(PSTR("PowerOffWait")).setFloat(xyz.z / 10.0f); break; case 0xEF000000 ... 0xEF0000FF: // any Tuya - Moes command if (convertTuyaSpecificCluster(attr_list, cluster, cmd, direction, shortaddr, srcendpoint, payload)) { attr_list.removeAttribute(&attr_raw); // remove raw command } break; case 0xFCCC0000: // Terncy button (multi-)press attr_list.addAttributePMEM(PSTR("TerncyPress")).setUInt(xyz.y); attr_list.addAttributePMEM(PSTR("TerncyCount")).setUInt(xyz.x); break; } } else { // general case // do we send command with endpoint suffix char command_suffix[4] = { 0x00 }; // empty string by default // if SO101 and multiple endpoints, append endpoint number if (Settings.flag4.zb_index_ep) { if (zigbee_devices.getShortAddr(shortaddr).countEndpoints() > 0) { snprintf_P(command_suffix, sizeof(command_suffix), PSTR("%d"), srcendpoint); } } if (0 == xyz.x_type) { attr_list.addAttribute(command_name, command_suffix).setBool(true); } else if (0 == xyz.y_type) { attr_list.addAttribute(command_name, command_suffix).setUInt(xyz.x); } else { // multiple answers, create an array JsonGeneratorArray arr; arr.add(xyz.x); arr.add(xyz.y); if (xyz.z_type) { arr.add(xyz.z); } attr_list.addAttribute(command_name, command_suffix).setStrRaw(arr.toString().c_str()); } } } } /*********************************************************************************************\ * * Tuya Zigbee specific protocol * \*********************************************************************************************/ // Parse a sinlge attribute value and convert to human readable JSON attribute value void parseSingleTuyaAttribute(Z_attribute & attr, const SBuffer &buf, uint32_t i, uint32_t len, int32_t attrtype) { // fallback - enter a null value attr.setNone(); // set to null by default // now parse accordingly to attr type switch (attrtype) { case 0x00: // RAW octstr attr.setBuf(buf, i, len); break; case 0x01: // Bool, values 0/1, len = 1 case 0x04: // enum 8 bits attr.setUInt(buf.get8(i)); break; case 0x02: // 4 bytes value (signed?) attr.setUInt(buf.get32BigEndian(i)); break; case 0x03: // String (we expect it is not ended with \00) { char str[len+1]; strncpy(str, buf.charptr(i), len); str[len] = 0x00; attr.setStr(str); } break; case 0x05: // enum in 1/2/4 bytes, Big Endian if (1 == len) { attr.setUInt(buf.get8(i)); } else if (2 == len) { attr.setUInt(buf.get16BigEndian(i)); } else if (4 == len) { attr.setUInt(buf.get32BigEndian(i)); } } } // // Tuya - MOES specifc cluster 0xEF00 // See https://medium.com/@dzegarra/zigbee2mqtt-how-to-add-support-for-a-new-tuya-based-device-part-2-5492707e882d // and https://github.com/Koenkk/zigbee-herdsman-converters/blob/9f503d47d3df6a99d133b78d2b52aa5c701ddddf/converters/fromZigbee.js#L339 // bool convertTuyaSpecificCluster(class Z_attribute_list &attr_list, uint16_t cluster, uint8_t cmd, bool direction, uint16_t shortaddr, uint8_t srcendpoint, const SBuffer &buf) { // uint8_t status = buf.get8(0); // uint8_t transid = buf.get8(1); uint8_t dp = buf.get8(2); // dpid from Tuya documentation uint8_t attr_type = buf.get8(3); // data type from Tuya documentation uint16_t len = buf.get16BigEndian(4); if ((1 == cmd) || (2 == cmd)) { // attribute report or attribute response // create a synthetic attribute with id 'dp' Z_attribute & attr = attr_list.addAttribute(cluster, (attr_type << 8) | dp); parseSingleTuyaAttribute(attr, buf, 6, len, attr_type); return true; // true = remove the original Tuya attribute } return false; } /*********************************************************************************************\ * * Find commands * \*********************************************************************************************/ // Find the command details by command name // Only take commands outgoing, i.e. direction == 0 // If not found: // - returns nullptr const __FlashStringHelper* zigbeeFindCommand(const char *command, uint16_t *cluster, uint16_t *cmd) { if (nullptr == command) { return nullptr; } for (uint32_t i = 0; i < sizeof(Z_Commands) / sizeof(Z_Commands[0]); i++) { const Z_CommandConverter *conv = &Z_Commands[i]; uint8_t conv_direction = pgm_read_byte(&conv->direction); uint8_t conv_cmd = pgm_read_byte(&conv->cmd); uint16_t conv_cluster = pgm_read_word(&conv->cluster); if ((conv_direction & 0x01) && (0 == strcasecmp_P(command, Z_strings + pgm_read_word(&conv->tasmota_cmd_offset)))) { *cluster = conv_cluster; *cmd = conv_cmd; return (const __FlashStringHelper*) (Z_strings + pgm_read_word(&conv->param_offset)); } } return nullptr; } // take the lower 4 bits and turn it to an hex char inline char hexDigit(uint32_t h) { uint32_t nybble = h & 0x0F; return (nybble > 9) ? 'A' - 10 + nybble : '0' + nybble; } // replace all xx/yy/zz substrings with unsigned ints, and the corresponding len (8, 16 or 32 bits) String zigbeeCmdAddParams(const char *zcl_cmd_P, uint32_t x, uint32_t y, uint32_t z) { size_t len = strlen_P(zcl_cmd_P); char zcl_cmd[len+1]; strcpy_P(zcl_cmd, zcl_cmd_P); // copy into RAM char *p = zcl_cmd; while (*p) { if (isXYZ(*p) && (*p == *(p+1))) { // if char is [x-z] and followed by same char uint8_t val = 0; switch (*p) { case 'x': val = x & 0xFF; x = x >> 8; break; case 'y': val = y & 0xFF; y = y >> 8; break; case 'z': val = z & 0xFF; z = z >> 8; break; } *p = hexDigit(val >> 4); *(p+1) = hexDigit(val); p++; } p++; } AddLog_P(LOG_LEVEL_DEBUG, PSTR("SendZCLCommand_P: zcl_cmd = %s"), zcl_cmd); return String(zcl_cmd); } const char kZ_Alias[] PROGMEM = "OFF|" D_OFF "|" D_FALSE "|" D_STOP "|" "OPEN" "|" // 0 "ON|" D_ON "|" D_TRUE "|" D_START "|" "CLOSE" "|" // 1 "TOGGLE|" D_TOGGLE "|" // 2 "ALL" ; // 255 const uint8_t kZ_Numbers[] PROGMEM = { 0,0,0,0,0, 1,1,1,1,1, 2,2, 255 }; // Convert an alias like "On" to the corresponding number uint32_t ZigbeeAliasOrNumber(const char *state_text) { char command[16]; int state_number = GetCommandCode(command, sizeof(command), state_text, kZ_Alias); if (state_number >= 0) { // found an alias, get its value return pgm_read_byte(kZ_Numbers + state_number); } else { // no alias found, convert it as number return strtoul(state_text, nullptr, 0); } } /*********************************************************************************************\ * * Send Zigbee commands * \*********************************************************************************************/ #endif // USE_ZIGBEE