/* support_device_groups.ino - device groups support for Tasmota Copyright (C) 2020 Paul C Diem Device group allow multiple devices to be in a group with power, light brightness, fade and speed settings and other module-specific settings kept in sync across all devices in the group. 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_DEVICE_GROUPS //#define DEVICE_GROUPS_DEBUG #define DGR_MEMBER_TIMEOUT 45000 #define DGR_ANNOUNCEMENT_INTERVAL 60000 extern bool udp_connected; struct device_group_member { struct device_group_member * flink; IPAddress ip_address; uint16_t received_sequence; uint16_t acked_sequence; uint32_t unicast_count; }; struct device_group { uint32_t next_announcement_time; uint32_t next_ack_check_time; uint32_t member_timeout_time; uint16_t last_full_status_sequence; uint16_t message_length; uint16_t ack_check_interval; uint8_t message_header_length; uint8_t initial_status_requests_remaining; bool local; char group_name[TOPSZ]; char message[128]; struct device_group_member * device_group_members; #ifdef USE_DEVICE_GROUPS_SEND uint8_t values_8bit[DGR_ITEM_LAST_8BIT]; uint16_t values_16bit[DGR_ITEM_LAST_16BIT - DGR_ITEM_MAX_8BIT - 1]; uint32_t values_32bit[DGR_ITEM_LAST_32BIT - DGR_ITEM_MAX_16BIT - 1]; #endif // USE_DEVICE_GROUPS_SEND }; struct device_group * device_groups; uint32_t next_check_time = 0; uint16_t outgoing_sequence = 0; bool device_groups_initialized = false; bool device_groups_initialization_failed = false; bool building_status_message = false; bool processing_remote_device_message = false; bool udp_was_connected = false; void DeviceGroupsInit(void) { // If there are more device group names set than the number of device groups needed by the // mdoule, use the device group name count as the device group count. for (; device_group_count < MAX_DEV_GROUP_NAMES; device_group_count++) { if (!*SettingsText(SET_DEV_GROUP_NAME1 + device_group_count)) break; } // Initialize the device information for each device group. device_groups = (struct device_group *)calloc(device_group_count, sizeof(struct device_group)); if (device_groups == nullptr) { AddLog_P2(LOG_LEVEL_ERROR, PSTR("DGR: Error allocating %u-element device group array"), device_group_count); device_groups_initialization_failed = true; return; } for (uint32_t device_group_index = 0; device_group_index < device_group_count; device_group_index++) { struct device_group * device_group = &device_groups[device_group_index]; strcpy(device_group->group_name, SettingsText(SET_DEV_GROUP_NAME1 + device_group_index)); // If the device group name is not set, use the MQTT group topic (with the device group index + // 1 appended for device group indices > 0). if (!device_group->group_name[0]) { strcpy(device_group->group_name, SettingsText(SET_MQTT_GRP_TOPIC)); if (device_group_index) { char str[10]; sprintf_P(str, PSTR("%u"), device_group_index + 1); strcat(device_group->group_name, str); } } device_group->message_header_length = sprintf_P(device_group->message, PSTR("%s%s HTTP/1.1\n\n"), kDeviceGroupMessage, device_group->group_name); device_group->last_full_status_sequence = -1; } device_groups[0].local = true; // If both in and out shared items masks are 0, assume they're unitialized and initialize them. if (!Settings.device_group_share_in && !Settings.device_group_share_out) { Settings.device_group_share_in = Settings.device_group_share_out = 0xffffffff; } device_groups_initialized = true; } char * IPAddressToString(const IPAddress& ip_address) { static char buffer[16]; sprintf_P(buffer, PSTR("%u.%u.%u.%u"), ip_address[0], ip_address[1], ip_address[2], ip_address[3]); return buffer; } char * BeginDeviceGroupMessage(struct device_group * device_group, uint16_t flags, bool hold_sequence = false) { char * message_ptr = &device_group->message[device_group->message_header_length]; if (!hold_sequence && !++outgoing_sequence) outgoing_sequence = 1; *message_ptr++ = outgoing_sequence & 0xff; *message_ptr++ = outgoing_sequence >> 8; *message_ptr++ = flags & 0xff; *message_ptr++ = flags >> 8; return message_ptr; } // Return true if we're configured to share the specified item. bool DeviceGroupItemShared(bool incoming, uint8_t item) { uint8_t mask = 0; switch (item) { case DGR_ITEM_LIGHT_BRI: case DGR_ITEM_BRI_POWER_ON: mask = DGR_SHARE_LIGHT_BRI; break; case DGR_ITEM_POWER: mask = DGR_SHARE_POWER; break; case DGR_ITEM_LIGHT_SCHEME: mask = DGR_SHARE_LIGHT_SCHEME; break; case DGR_ITEM_LIGHT_FIXED_COLOR: case DGR_ITEM_LIGHT_CHANNELS: mask = DGR_SHARE_LIGHT_COLOR; break; case DGR_ITEM_LIGHT_FADE: case DGR_ITEM_LIGHT_SPEED: mask = DGR_SHARE_LIGHT_FADE; break; case DGR_ITEM_BRI_PRESET_LOW: case DGR_ITEM_BRI_PRESET_HIGH: mask = DGR_SHARE_DIMMER_SETTINGS; break; case DGR_ITEM_EVENT: mask = DGR_SHARE_EVENT; break; } return (!mask || ((incoming ? Settings.device_group_share_in : Settings.device_group_share_out) & mask)); } void SendDeviceGroupPacket(IPAddress ip, char * packet, int len, const char * label) { if (!ip) ip = IPAddress(239,255,255,250); for (int attempt = 1; attempt <= 5; attempt++) { if (PortUdp.beginPacket(ip, 1900)) { PortUdp_write(packet, len); if (PortUdp.endPacket()) return; } delay(10); } AddLog_P2(LOG_LEVEL_ERROR, PSTR("DGR: Error sending %s packet"), label); } void _SendDeviceGroupMessage(uint8_t device_group_index, DevGroupMessageType message_type, ...) { // If device groups are not enabled, ignore this request. if (!Settings.flag4.device_groups_enabled) return; // If UDP is not set up, ignore this request. if (!udp_connected) return; // If we're currently processing a remote device message, ignore this request. if (processing_remote_device_message && message_type != DGR_MSGTYPE_UPDATE_COMMAND) return; // Get a pointer to the device information for this device. struct device_group * device_group = &device_groups[device_group_index]; // If we're still sending initial status requests, ignore this request. if (device_group->initial_status_requests_remaining) return; // A full status request is a request from a remote device for the status of every item we // control. As long as we're building it, we may as well multicast the status update to all // device group members. char * message_ptr = &device_group->message[device_group->message_header_length]; if (message_type == DGR_MSGTYP_FULL_STATUS) { // Set the flag indicating we're currently building a status message. SendDeviceGroupMessage // will build but not send messages while this flag is set. building_status_message = true; // Call the drivers to build the status update. if (!++outgoing_sequence) outgoing_sequence = 1; #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("Building device group %s full status packet"), device_group->group_name); #endif // DEVICE_GROUPS_DEBUG device_group->message_length = 0; SendDeviceGroupMessage(device_group_index, DGR_MSGTYP_PARTIAL_UPDATE, DGR_ITEM_POWER, power); XdrvMailbox.index = device_group_index << 16; XdrvMailbox.command_code = DGR_ITEM_STATUS; XdrvMailbox.topic = (char *)&device_group_index; XdrvCall(FUNC_DEVICE_GROUP_ITEM); building_status_message = false; // If we have nothing to share with the other members, restore the message sequence and return. if (!device_group->message_length) { if (!--outgoing_sequence) outgoing_sequence = -1; return; } device_group->last_full_status_sequence = outgoing_sequence; // Set the status update flag in the outgoing message. *(message_ptr + 2) |= DGR_FLAG_FULL_STATUS; } else { #ifdef USE_DEVICE_GROUPS_SEND bool escaped; bool use_command; char chr; char oper; uint32_t old_value; char * out_ptr; #endif // USE_DEVICE_GROUPS_SEND struct item { uint8_t item; uint32_t value; void * value_ptr; } item_array[32]; bool shared; uint8_t item; uint32_t value; char * value_ptr; struct item * item_ptr; va_list ap; #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("Building device group %s packet"), device_group->group_name); #endif // DEVICE_GROUPS_DEBUG value = 0; if (message_type == DGR_MSGTYP_UPDATE_MORE_TO_COME) value |= DGR_FLAG_MORE_TO_COME; else if (message_type == DGR_MSGTYP_UPDATE_DIRECT) value |= DGR_FLAG_DIRECT; #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR(">sequence=%u, flags=%u"), outgoing_sequence, value); #endif // DEVICE_GROUPS_DEBUG message_ptr = BeginDeviceGroupMessage(device_group, value, building_status_message || message_type == DGR_MSGTYP_PARTIAL_UPDATE); // Build an array of all the items and values in this update. memset(item_array, 0, sizeof(item_array)); item_ptr = item_array; #ifdef USE_DEVICE_GROUPS_SEND use_command = (message_type == DGR_MSGTYPE_UPDATE_COMMAND); if (use_command) { value_ptr = XdrvMailbox.data; while ((item = strtoul(value_ptr, &value_ptr, 0))) { item_ptr->item = item; if (*value_ptr == '=') { value_ptr++; if (item <= DGR_ITEM_MAX_32BIT) { oper = 0; if (*value_ptr == '@') { oper = value_ptr[1]; value_ptr += 2; } value = strtoul(value_ptr, &value_ptr, 0); if (oper) { old_value = (item <= DGR_ITEM_MAX_8BIT ? device_group->values_8bit[item] : (item <= DGR_ITEM_MAX_16BIT ? device_group->values_16bit[item - DGR_ITEM_MAX_8BIT - 1] : device_group->values_32bit[item - DGR_ITEM_MAX_16BIT - 1])); value = (oper == '+' ? old_value + value : (oper == '-' ? old_value - value : (oper == '^' ? old_value ^ (value ? value : 0xffffffff) : old_value))); } item_ptr->value = value; } else if (item <= DGR_ITEM_MAX_STRING) { item_ptr->value_ptr = out_ptr = value_ptr; escaped = false; while ((chr = *value_ptr++)) { if (chr == ' ' && !escaped) break; if (!(escaped = (chr == '\\' && !escaped))) *out_ptr++ = chr; } *out_ptr = 0; } else { switch (item) { case DGR_ITEM_LIGHT_CHANNELS: item_ptr->value_ptr = out_ptr = value_ptr; for (int i = 0; i < 5; i++) { *out_ptr = strtoul(value_ptr, &value_ptr, 0); if (*value_ptr == ',') value_ptr++; } break; } } } item_ptr++; } } else { #endif // USE_DEVICE_GROUPS_SEND va_start(ap, message_type); while ((item = va_arg(ap, int))) { item_ptr->item = item; if (item <= DGR_ITEM_MAX_32BIT) item_ptr->value = va_arg(ap, int); else if (item <= DGR_ITEM_MAX_STRING) item_ptr->value_ptr = va_arg(ap, char *); else { switch (item) { case DGR_ITEM_LIGHT_CHANNELS: item_ptr->value_ptr = va_arg(ap, uint8_t *); break; } } item_ptr++; } va_end(ap); #ifdef USE_DEVICE_GROUPS_SEND } #endif // USE_DEVICE_GROUPS_SEND // If we're still building this update or all group members haven't acknowledged the previous // update yet, update the message to include these new updates. First we need to rebuild the // previous update message to remove any items and their values that are included in this new // update. if (device_group->message_length) { int kept_item_count = 0; // Rebuild the previous update message, removing any items whose values are included in this // new update. char * previous_message_ptr = message_ptr; while (item = *previous_message_ptr++) { // Search for this item in the new update. for (item_ptr = item_array; item_ptr->item; item_ptr++) { if (item_ptr->item == item) break; } // If this item was found in the new update skip over it and it's value. if (item_ptr->item) { if (item <= DGR_ITEM_MAX_32BIT) { previous_message_ptr++; if (item > DGR_ITEM_MAX_8BIT) { previous_message_ptr++; if (item > DGR_ITEM_MAX_16BIT) { previous_message_ptr++; previous_message_ptr++; } } } else if (item <= DGR_ITEM_MAX_STRING) { previous_message_ptr += strlen(previous_message_ptr) + 1; } else { switch (item) { case DGR_ITEM_LIGHT_CHANNELS: previous_message_ptr += 5; break; } } } // If this item was not found in the new udpate, copy it to the new update message. else { *message_ptr++ = item; if (item <= DGR_ITEM_MAX_32BIT) { *message_ptr++ = *previous_message_ptr++; if (item > DGR_ITEM_MAX_8BIT) { *message_ptr++ = *previous_message_ptr++; if (item > DGR_ITEM_MAX_16BIT) { *message_ptr++ = *previous_message_ptr++; *message_ptr++ = *previous_message_ptr++; } } } else if (item <= DGR_ITEM_MAX_STRING) { value = strlen(previous_message_ptr) + 1; memmove(message_ptr, previous_message_ptr, value); previous_message_ptr += value; message_ptr += value; } else { switch (item) { case DGR_ITEM_LIGHT_CHANNELS: memmove(message_ptr, previous_message_ptr, 5); previous_message_ptr += 5; message_ptr += 5; break; } } kept_item_count++; } } #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("%u items carried over from previous update"), kept_item_count); #endif // DEVICE_GROUPS_DEBUG } // Itertate through the passed items adding them and their values to the message. for (item_ptr = item_array; (item = item_ptr->item); item_ptr++) { // If this item is shared with the group add it to the message. shared = true; if (!device_group_index) shared = DeviceGroupItemShared(false, item); if (shared) { *message_ptr++ = item; // For integer items, add the value to the message. if (item <= DGR_ITEM_MAX_32BIT) { value = item_ptr->value; //#ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR(">%u=%u"), item, value); //#endif // DEVICE_GROUPS_DEBUG *message_ptr++ = value & 0xff; if (item > DGR_ITEM_MAX_8BIT) { #ifdef USE_DEVICE_GROUPS_SEND old_value = value; #endif // USE_DEVICE_GROUPS_SEND value >>= 8; *message_ptr++ = value & 0xff; if (item > DGR_ITEM_MAX_16BIT) { value >>= 8; *message_ptr++ = value & 0xff; value >>= 8; // For the power item, the device count is overlayed onto the highest 8 bits. if (item == DGR_ITEM_POWER) { if (!value) value = (device_group_index == 0 ? devices_present : 1); #ifdef USE_DEVICE_GROUPS_SEND else old_value = old_value & 0xffffff; #endif // USE_DEVICE_GROUPS_SEND } *message_ptr++ = value; #ifdef USE_DEVICE_GROUPS_SEND device_group->values_32bit[item - DGR_ITEM_MAX_16BIT - 1] = old_value; #endif // USE_DEVICE_GROUPS_SEND } #ifdef USE_DEVICE_GROUPS_SEND else { device_group->values_16bit[item - DGR_ITEM_MAX_8BIT - 1] = old_value; } #endif // USE_DEVICE_GROUPS_SEND } #ifdef USE_DEVICE_GROUPS_SEND else { device_group->values_8bit[item] = value; } #endif // USE_DEVICE_GROUPS_SEND } // For string items, add the null-terminated string to the message. else if (item <= DGR_ITEM_MAX_STRING) { if (item_ptr->value_ptr) { value = strlen((const char *)item_ptr->value_ptr); memcpy(message_ptr, item_ptr->value_ptr, value); message_ptr += value; } *message_ptr++ = 0; //#ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR(">%u='%s'"), item, item_ptr->value_ptr); //#endif // DEVICE_GROUPS_DEBUG } // For special items, handle them individually. else { switch (item) { case DGR_ITEM_LIGHT_CHANNELS: value_ptr = (char *)item_ptr->value_ptr; for (int i = 0; i < 5; i++) { *message_ptr++ = (value_ptr ? *value_ptr++ : 0); } //#ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR(">%u=%u,%u,%u,%u,%u"), item, *(message_ptr - 5), *(message_ptr - 4), *(message_ptr - 3), *(message_ptr - 2), *(message_ptr - 1)); //#endif // DEVICE_GROUPS_DEBUG break; } } } } // Add the EOL item code and calculate the message length. *message_ptr++ = 0; device_group->message_length = message_ptr - device_group->message; // If there's going to be more items added to this message, return. if (building_status_message || message_type == DGR_MSGTYP_PARTIAL_UPDATE) return; } // Multicast the packet. #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: Sending %u-byte device group %s packet via multicast, sequence=%u"), device_group->message_length, device_group->group_name, device_group->message[device_group->message_header_length] | device_group->message[device_group->message_header_length + 1] << 8); #endif // DEVICE_GROUPS_DEBUG SendDeviceGroupPacket(IPAddress(0,0,0,0), device_group->message, device_group->message_length, PSTR("Multicast")); uint32_t now = millis(); if (message_type == DGR_MSGTYP_UPDATE_MORE_TO_COME) { device_group->message_length = 0; device_group->next_ack_check_time = 0; } else { device_group->ack_check_interval = 100; device_group->next_ack_check_time = now + device_group->ack_check_interval; if (device_group->next_ack_check_time < next_check_time) next_check_time = device_group->next_ack_check_time; device_group->member_timeout_time = now + DGR_MEMBER_TIMEOUT; } device_group->next_announcement_time = now + DGR_ANNOUNCEMENT_INTERVAL; if (device_group->next_announcement_time < next_check_time) next_check_time = device_group->next_announcement_time; } void ProcessDeviceGroupMessage(char * packet, int packet_length) { // Make the group name a null-terminated string. char * message_group_name = packet + sizeof(DEVICE_GROUP_MESSAGE) - 1; char * message_ptr = strchr(message_group_name, ' '); if (message_ptr == nullptr) return; *message_ptr = 0; // Search for a device group with the target group name. If one isn't found, return. struct device_group * device_group; uint8_t device_group_index = 0; for (;;) { device_group = &device_groups[device_group_index]; if (!strcmp(message_group_name, device_group->group_name)) break; if (++device_group_index >= device_group_count) return; } *message_ptr++ = ' '; // Find the group member. If this is a new group member, add it. IPAddress remote_ip = PortUdp.remoteIP(); struct device_group_member * * flink = &device_group->device_group_members; struct device_group_member * device_group_member; for (;;) { device_group_member = *flink; if (!device_group_member) { device_group_member = (struct device_group_member *)calloc(1, sizeof(struct device_group_member)); if (device_group_member == nullptr) { AddLog_P2(LOG_LEVEL_ERROR, PSTR("DGR: Error allocating device group member block")); return; } AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: Adding member %s"), IPAddressToString(remote_ip)); device_group_member->ip_address = remote_ip; *flink = device_group_member; break; } else if (device_group_member->ip_address == remote_ip) { break; } flink = &device_group_member->flink; } // Find the start of the actual message (after the http header). message_ptr = strstr_P(message_ptr, PSTR("\n\n")); if (message_ptr == nullptr) return; message_ptr += 2; bool light_fade; uint16_t flags; uint16_t item; uint16_t message_sequence; int32_t value; // Get the message sequence and flags. if (packet_length - (message_ptr - packet) < 4) goto badmsg; // Malformed message - must be at least 16-bit sequence, 16-bit flags left message_sequence = *message_ptr++; message_sequence |= *message_ptr++ << 8; flags = *message_ptr++; flags |= *message_ptr++ << 8; #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("Received device group %s packet from %s: sequence=%u, flags=%u"), device_group->group_name, IPAddressToString(remote_ip), message_sequence, flags); #endif // DEVICE_GROUPS_DEBUG // If this is an announcement, simply return. if (flags == DGR_FLAG_ANNOUNCEMENT) return; // If this is an ack message, save the message sequence if it's newwer than the last ack we // received from this member. if (flags == DGR_FLAG_ACK) { if (message_sequence > device_group_member->acked_sequence || device_group_member->acked_sequence - message_sequence < 64536) { device_group_member->acked_sequence = message_sequence; } #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("acked_sequence != device_group->last_full_status_sequence) { _SendDeviceGroupMessage(device_group_index, DGR_MSGTYP_FULL_STATUS); } #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("received_sequence) { if (message_sequence == device_group_member->received_sequence || device_group_member->received_sequence - message_sequence > 64536) { #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("received_sequence = message_sequence; // Set the flag indicating we're currently processing a remote device message. // SendDeviceGroupMessage will not send messages while this flag is set. processing_remote_device_message = true; /* XdrvMailbox bool grpflg bool usridx uint16_t command_code Item code uint32_t index 0:15 Flags, 16:31 Message sequence uint32_t data_len String item value length int32_t payload Integer item value char *topic Pointer to device group index char *data Pointer to non-integer item value char *command nullptr */ XdrvMailbox.command = nullptr; // Indicates the source is a device group update XdrvMailbox.index = flags | message_sequence << 16; XdrvMailbox.topic = (char *)&device_group_index; if (flags & (DGR_FLAG_MORE_TO_COME | DGR_FLAG_DIRECT)) skip_light_fade = true; for (;;) { if (packet_length - (message_ptr - packet) < 1) goto badmsg; // Malformed message item = *message_ptr++; if (!item) break; // Done #ifdef DEVICE_GROUPS_DEBUG switch (item) { case DGR_ITEM_LIGHT_FADE: case DGR_ITEM_LIGHT_SPEED: case DGR_ITEM_LIGHT_BRI: case DGR_ITEM_LIGHT_SCHEME: case DGR_ITEM_LIGHT_FIXED_COLOR: case DGR_ITEM_BRI_PRESET_LOW: case DGR_ITEM_BRI_PRESET_HIGH: case DGR_ITEM_BRI_POWER_ON: case DGR_ITEM_POWER: case DGR_ITEM_EVENT: case DGR_ITEM_LIGHT_CHANNELS: break; default: AddLog_P2(LOG_LEVEL_ERROR, PSTR("DGR: ********** Invalid item=%u received from device group %s member %s"), item, device_group->group_name, IPAddressToString(remote_ip)); } #endif // DEVICE_GROUPS_DEBUG XdrvMailbox.command_code = item; if (item <= DGR_ITEM_LAST_32BIT) { value = *message_ptr++; if (item > DGR_ITEM_MAX_8BIT) { value |= *message_ptr++ << 8; if (item > DGR_ITEM_MAX_16BIT) { value |= *message_ptr++ << 16; value |= *message_ptr++ << 24; #ifdef USE_DEVICE_GROUPS_SEND device_group->values_32bit[item - DGR_ITEM_MAX_16BIT - 1] = (item == DGR_ITEM_POWER ? value & 0xffffff : value); #endif // USE_DEVICE_GROUPS_SEND } #ifdef USE_DEVICE_GROUPS_SEND else { device_group->values_16bit[item - DGR_ITEM_MAX_8BIT - 1] = value; } #endif // USE_DEVICE_GROUPS_SEND } #ifdef USE_DEVICE_GROUPS_SEND else { device_group->values_8bit[item] = value; } #endif // USE_DEVICE_GROUPS_SEND //#ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR("<%u=%u"), item, value); //#endif // DEVICE_GROUPS_DEBUG XdrvMailbox.payload = value; } else if (item <= DGR_ITEM_MAX_STRING) { value = strlen(message_ptr); if (value >= packet_length - (message_ptr - packet)) goto badmsg; // Malformed message //#ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR("<%u='%s'"), item, message_ptr); //#endif // DEVICE_GROUPS_DEBUG XdrvMailbox.data_len = value; XdrvMailbox.data = message_ptr; message_ptr += value + 1; } else { switch (item) { case DGR_ITEM_LIGHT_CHANNELS: //#ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR("<%u=%u,%u,%u,%u,%u"), item, *message_ptr, *(message_ptr + 1), *(message_ptr + 2), *(message_ptr + 3), *(message_ptr + 4)); //#endif // DEVICE_GROUPS_DEBUG XdrvMailbox.data = message_ptr; message_ptr += 5; break; } } if (DeviceGroupItemShared(true, item)) { if (item == DGR_ITEM_POWER) { if (device_group->local) { uint8_t mask_devices = value >> 24; if (mask_devices > devices_present) mask_devices = devices_present; for (uint32_t i = 0; i < devices_present; i++) { uint32_t mask = 1 << i; bool on = (value & mask); if (on != (power & mask)) ExecuteCommandPower(i + 1, (on ? POWER_ON : POWER_OFF), SRC_REMOTE); } } } else if (item == DGR_ITEM_EVENT) { CmndEvent(); } XdrvCall(FUNC_DEVICE_GROUP_ITEM); } } XdrvMailbox.command_code = DGR_ITEM_EOL; XdrvCall(FUNC_DEVICE_GROUP_ITEM); skip_light_fade = false; processing_remote_device_message = false; #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("device_group_members; device_group_member; device_group_member = device_group_member->flink) { snprintf(buffer, sizeof(buffer), PSTR("%s,{\"IPAddress\":\"%s\",\"ResendCount\":%u,\"LastRcvdSeq\":%u,\"LastAckedSeq\":%u}"), buffer, IPAddressToString(device_group_member->ip_address), device_group_member->unicast_count, device_group_member->received_sequence, device_group_member->acked_sequence); member_count++; } Response_P(PSTR("{\"" D_CMND_DEVGROUPSTATUS "\":{\"Index\":%u,\"GroupName\":\"%s\",\"MessageSeq\":%u,\"MemberCount\":%d,\"Members\":[%s]}"), device_group_index, device_group->group_name, outgoing_sequence, member_count, &buffer[1]); } } void DeviceGroupsLoop(void) { if (!Settings.flag4.device_groups_enabled) return; if (udp_connected) { uint32_t now = millis(); // If UDP was not connected before, (re)initialize. if (!udp_was_connected) { udp_was_connected = true; if (!device_groups_initialized) DeviceGroupsInit(); if (device_groups_initialization_failed) return; // Load the status request message for all device groups. This message will be multicast 10 // times at 200ms intervals. next_check_time = now + 3000; for (uint32_t device_group_index = 0; device_group_index < device_group_count; device_group_index++) { device_group * device_group = &device_groups[device_group_index]; device_group->message_length = BeginDeviceGroupMessage(device_group, DGR_FLAG_RESET | DGR_FLAG_STATUS_REQUEST) - device_group->message; device_group->initial_status_requests_remaining = 10; device_group->next_ack_check_time = next_check_time; } AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: (Re)discovering device groups")); } if (device_groups_initialization_failed) return; // If it's time to check on things, iterate through the device groups. if (next_check_time <= now) { #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: Ckecking next_check_time=%u, now=%u"), next_check_time, now); #endif // DEVICE_GROUPS_DEBUG next_check_time = now + DGR_ANNOUNCEMENT_INTERVAL * 2; for (uint32_t device_group_index = 0; device_group_index < device_group_count; device_group_index++) { device_group * device_group = &device_groups[device_group_index]; // If we're still waiting for acks to the last update from this device group, ... if (device_group->next_ack_check_time) { // If it's time to check for acks, ... if (device_group->next_ack_check_time <= now) { // If we're still sending the initial status request message, send it. if (device_group->initial_status_requests_remaining) { if (--device_group->initial_status_requests_remaining) { #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: Sending initial status request for group %s"), device_group->group_name); #endif // DEVICE_GROUPS_DEBUG SendDeviceGroupPacket(IPAddress(0,0,0,0), device_group->message, device_group->message_length, PSTR("Initial")); device_group->message[device_group->message_header_length + 2] = DGR_FLAG_STATUS_REQUEST; // The reset flag is on only for the first packet - turn it off now device_group->next_ack_check_time = now + 200; } // If we've sent the initial status request message the set number of times, send our // status to all the members. else { device_group->next_ack_check_time = 0; _SendDeviceGroupMessage(device_group_index, DGR_MSGTYP_FULL_STATUS); } } // If we're done initializing, iterate through the group memebers, ... else { #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: Checking for ack's")); #endif // DEVICE_GROUPS_DEBUG bool acked = true; struct device_group_member ** flink = &device_group->device_group_members; struct device_group_member * device_group_member; while ((device_group_member = *flink)) { // If we have not received an ack to our last message from this member, ... if (device_group_member->acked_sequence != outgoing_sequence) { // If we haven't receive an ack from this member in DGR_MEMBER_TIMEOUT ms, assume // they're offline and remove them from the group. if (device_group->member_timeout_time < now) { AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: Removing member %s"), IPAddressToString(device_group_member->ip_address)); *flink = device_group_member->flink; free(device_group_member); } // Otherwise, unicast the last message directly to this member. else { #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: Sending %u-byte device group %s packet via unicast to %s, sequence %u, last message acked=%u"), device_group->message_length, device_group->group_name, IPAddressToString(device_group_member->ip_address), outgoing_sequence, device_group_member->acked_sequence); #endif // DEVICE_GROUPS_DEBUG SendDeviceGroupPacket(device_group_member->ip_address, device_group->message, device_group->message_length, PSTR("Unicast")); device_group_member->unicast_count++; acked = false; flink = &device_group_member->flink; } } else { flink = &device_group_member->flink; } } // If we've received an ack to the last message from all members, clear the ack check // time and zero-out the message length. if (acked) { device_group->next_ack_check_time = 0; device_group->message_length = 0; // Let _SendDeviceGroupMessage know we're done with this update } // If there are still members we haven't received an ack from, set the next ack check // time. We start at 200ms and double the interval each pass with a maximum interval of // 5 seconds. else { device_group->ack_check_interval *= 2; if (device_group->ack_check_interval > 5000) device_group->ack_check_interval = 5000; device_group->next_ack_check_time = now + device_group->ack_check_interval; } } } if (device_group->next_ack_check_time < next_check_time) next_check_time = device_group->next_ack_check_time; } // If it's time to send a multicast announcement for this group, send it. This is to // announcement ourself to any members that have somehow not heard about us. We send it at // the announcement interval plus a random number of milliseconds so that even if all the // devices booted at the same time, they don't all multicast their announcements at the same // time. #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: next_announcement_time=%u, now=%u"), device_group->next_announcement_time, now); #endif // DEVICE_GROUPS_DEBUG if (device_group->next_announcement_time <= now) { #ifdef DEVICE_GROUPS_DEBUG AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DGR: Sending device group %s announcement"), device_group->group_name); #endif // DEVICE_GROUPS_DEBUG SendDeviceGroupPacket(IPAddress(0,0,0,0), device_group->message, BeginDeviceGroupMessage(device_group, DGR_FLAG_ANNOUNCEMENT, true) - device_group->message, PSTR("Announcement")); device_group->next_announcement_time = now + DGR_ANNOUNCEMENT_INTERVAL + random(10000); } if (device_group->next_announcement_time < next_check_time) next_check_time = device_group->next_announcement_time; } } } else { udp_was_connected = false; } } #endif // USE_DEVICE_GROUPS