Merge branch 'dev'

# Conflicts: # docs/payloads.md
8 months ago · 9405e8bee3
163 changed files with 5620 additions and 800 deletions
--- a/boards/ESP32-S3-WROOM-1-N4.json
+++ b/boards/ESP32-S3-WROOM-1-N4.json
@ -0,0 +1,39 @@
 {
  "build": {
    "arduino": {
      "ldscript": "esp32s3_out.ld"
    },
    "core": "esp32",
    "extra_flags": [
      "-D ARDUINO_USB_CDC_ON_BOOT=0",
      "-D ARDUINO_USB_MSC_ON_BOOT=0",
      "-D ARDUINO_USB_DFU_ON_BOOT=0",
      "-D ARDUINO_USB_MODE=0",
      "-D ARDUINO_RUNNING_CORE=1",
      "-D ARDUINO_EVENT_RUNNING_CORE=1"
    ],
    "f_cpu": "240000000L",
    "f_flash": "80000000L",
    "flash_mode": "qio",
    "hwids": [["0x303A", "0x1001"]],
    "mcu": "esp32s3",
    "variant": "ESP32-S3-WROOM-1-N4"
  },
  "connectivity": ["wifi", "bluetooth"],
  "debug": {
    "default_tool": "esp-builtin",
    "onboard_tools": ["esp-builtin"],
    "openocd_target": "esp32s3.cfg"
  },
  "frameworks": ["arduino", "espidf"],
  "name": "ESP32-S3-WROOM-1-N4 (4 MB Flash, No PSRAM)",
  "upload": {
    "flash_size": "4MB",
    "maximum_ram_size": 524288,
    "maximum_size": 4194304,
    "require_upload_port": true,
    "speed": 921600
  },
  "url": "https://www.espressif.com/sites/default/files/documentation/esp32-s3-wroom-1_wroom-1u_datasheet_en.pdf",
  "vendor": "Espressif"
 }
--- a/boards/heltec_tracker_v2.json
+++ b/boards/heltec_tracker_v2.json
@ -0,0 +1,40 @@
 {
  "build": {
    "arduino": {
      "ldscript": "esp32s3_out.ld",
      "partitions": "default_8MB.csv"
      },
    "core": "esp32",
    "extra_flags": [
      "-DARDUINO_USB_CDC_ON_BOOT=1",
      "-DARDUINO_USB_MODE=0",
      "-DARDUINO_RUNNING_CORE=1",
      "-DARDUINO_EVENT_RUNNING_CORE=1"
    ],
    "f_cpu": "240000000L",
    "f_flash": "80000000L",
    "flash_mode": "qio",
    "hwids": [["0x303A", "0x1001"]],
    "mcu": "esp32s3",
    "variant": "heltec_tracker_v2"
  },
  "connectivity": ["wifi", "bluetooth", "lora"],
  "debug": {
    "default_tool": "esp-builtin",
    "onboard_tools": ["esp-builtin"],
    "openocd_target": "esp32s3.cfg"
  },
  "frameworks": ["arduino", "espidf"],
  "name": "heltec_tracker v2",
  "upload": {
    "flash_size": "8MB",
    "maximum_ram_size": 327680,
    "maximum_size": 8388608,
    "use_1200bps_touch": true,
    "wait_for_upload_port": true,
    "require_upload_port": true,
    "speed": 921600
  },
  "url": "https://heltec.org/",
  "vendor": "heltec"
 }
--- a/boards/rak4631.json
+++ b/boards/rak4631.json
@ -0,0 +1,72 @@
 {
  "build": {
    "arduino": {
      "ldscript": "nrf52840_s140_v6.ld"
    },
    "core": "nRF5",
    "cpu": "cortex-m4",
    "extra_flags": "-DARDUINO_NRF52840_FEATHER -DNRF52840_XXAA",
    "f_cpu": "64000000L",
    "hwids": [
      [
        "0x239A",
        "0x8029"
      ],
      [
        "0x239A",
        "0x0029"
      ],
      [
        "0x239A",
        "0x002A"
      ],
      [
        "0x239A",
        "0x802A"
      ]
    ],
    "usb_product": "WisCore RAK4631 Board",
    "mcu": "nrf52840",
    "variant": "WisCore_RAK4631_Board",
    "bsp": {
      "name": "adafruit"
    },
    "softdevice": {
      "sd_flags": "-DS140",
      "sd_name": "s140",
      "sd_version": "6.1.1",
      "sd_fwid": "0x00B6"
    },
    "bootloader": {
      "settings_addr": "0xFF000"
    }
  },
  "connectivity": [
    "bluetooth"
  ],
  "debug": {
    "jlink_device": "nRF52840_xxAA",
    "svd_path": "nrf52840.svd"
  },
  "frameworks": [
    "arduino"
  ],
  "name": "WisCore RAK4631 Board",
  "upload": {
    "maximum_ram_size": 248832,
    "maximum_size": 815104,
    "speed": 115200,
    "protocol": "nrfutil",
    "protocols": [
      "jlink",
      "nrfjprog",
      "nrfutil",
      "stlink"
    ],
    "use_1200bps_touch": true,
    "require_upload_port": true,
    "wait_for_upload_port": true
  },
  "url": "https://www.rakwireless.com",
  "vendor": "RAKwireless"
 }
--- a/build.sh
+++ b/build.sh
@ -1,12 +1,45 @@
 #!/usr/bin/env bash
-# usage
+global_usage() {
-# sh build.sh build-firmware RAK_4631_Repeater
+  cat - <<EOF
-# sh build.sh build-firmwares
+Usage:
-# sh build.sh build-matching-firmwares RAK_4631
+sh build.sh <command> [target]
-# sh build.sh build-companion-firmwares
+
-# sh build.sh build-repeater-firmwares
+Commands:
-# sh build.sh build-room-server-firmwares
+  help|usage|-h|--help: Shows this message.
  build-firmware <target>: Build the firmware for the given build target.
  build-firmwares: Build all firmwares for all targets.
  build-matching-firmwares <build-match-spec>: Build all firmwares for build targets containing the string given for <build-match-spec>.
  build-companion-firmwares: Build all companion firmwares for all build targets.
  build-repeater-firmwares: Build all repeater firmwares for all build targets.
  build-room-server-firmwares: Build all chat room server firmwares for all build targets.
 Examples:
 Build firmware for the "RAK_4631_repeater" device target
 $ sh build.sh build-firmware RAK_4631_repeater
 Build all firmwares for device targets containing the string "RAK_4631"
 $ sh build.sh build-matching-firmwares <build-match-spec>
 Build all companion firmwares
 $ sh build.sh build-companion-firmwares
 Build all repeater firmwares
 $ sh build.sh build-repeater-firmwares
 Build all chat room server firmwares
 $ sh build.sh build-room-server-firmwares
 EOF
 }
 # Catch cries for help before doing anything else.
 case $1 in
  help|usage|-h|--help)
    global_usage
    exit 1
    ;;
 esac
 # get a list of pio env names that start with "env:"
 get_pio_envs() {
--- a/create-uf2.py
+++ b/create-uf2.py
@ -0,0 +1,31 @@
 #!/usr/bin/python3
 # Adds PlatformIO post-processing to convert hex files to uf2 files
 import os
 Import("env")
 firmware_hex = "${BUILD_DIR}/${PROGNAME}.hex"
 uf2_file = os.environ.get("UF2_FILE_PATH", "${BUILD_DIR}/${PROGNAME}.uf2")
 def create_uf2_action(source, target, env):
    uf2_cmd = " ".join(
        [
            '"$PYTHONEXE"',
            '"$PROJECT_DIR/bin/uf2conv/uf2conv.py"',
            '-f', '0xADA52840',
            '-c', firmware_hex,
            '-o', uf2_file,
        ]
    )
    env.Execute(uf2_cmd)
 env.AddCustomTarget(
    name="create_uf2",
    dependencies=firmware_hex,
    actions=create_uf2_action,
    title="Create UF2 file",
    description="Use uf2conv to convert hex binary into uf2",
    always_build=True,
 )
--- a/docs/packet_structure.md
+++ b/docs/packet_structure.md
@ -44,6 +44,10 @@ bit 0 means the lowest bit (1s place)
 | `0x08` | `PAYLOAD_TYPE_PATH`       | Returned path.                                |
 | `0x09` | `PAYLOAD_TYPE_TRACE`      | trace a path, collecting SNI for each hop.    |
 | `0x0A` | `PAYLOAD_TYPE_MULTIPART`  | packet is part of a sequence of packets.      |
 | `0x0B` | `PAYLOAD_TYPE_CONTROL`    | control packet data (unencrypted)             |
 | `0x0C` | .                         | reserved                                      |
 | `0x0D` | .                         | reserved                                      |
 | `0x0E` | .                         | reserved                                      |
 | `0x0F` | `PAYLOAD_TYPE_RAW_CUSTOM` | Custom packet (raw bytes, custom encryption). |
 ## Payload Version Values
--- a/docs/payloads.md
+++ b/docs/payloads.md
@ -11,6 +11,7 @@ Inside of each [meshcore packet](./packet_structure.md) is a payload, identified
 * Group text message (unverified).
 * Group datagram (unverified).
 * Multi-part packet
 * Control data packet
 * Custom packet (raw bytes, custom encryption).
 This document defines the structure of each of these payload types.
@ -57,7 +58,7 @@ Appdata Flags
 # Acknowledgement
-An acknowledgement that a message was received. Note that for returned path messages, an acknowledgement will be sent in the "extra" payload (see [Returned Path](#returned-path)) and not as a discrete acknowledgement. CLI commands do not require an acknowledgement, neither discrete nor extra.
+An acknowledgement that a message was received. Note that for returned path messages, an acknowledgement can be sent in the "extra" payload (see [Returned Path](#returned-path)) instead of as a separate ackowledgement packet. CLI commands do not cause acknowledgement responses, neither discrete nor extra.
 | Field    | Size (bytes) | Description                                                |
 |----------|--------------|------------------------------------------------------------|
@ -140,13 +141,13 @@ Request data about sensors on the node, including battery level.
 ## Plain text message
-| Field           | Size (bytes)    | Description                                                  |
+| Field              | Size (bytes)    | Description                                                  |
-|-----------------|-----------------|--------------------------------------------------------------|
+|--------------------|-----------------|--------------------------------------------------------------|
-| timestamp       | 4               | send time (unix timestamp)                                   |
+| timestamp          | 4               | send time (unix timestamp)                                   |
-| flags + attempt | 1               | upper six bits are flags (see below), lower two bits are attempt number (0..3) |
+| txt_type + attempt | 1               | upper six bits are txt_type (see below), lower two bits are attempt number (0..3) |
-| message         | rest of payload | the message content, see next table                          |
+| message            | rest of payload | the message content, see next table                          |
-Flags
+txt_type
 | Value  | Description               | Message content                                            |
 |--------|---------------------------|------------------------------------------------------------|
@ -163,13 +164,20 @@ Flags
 | cipher MAC       | 2               | MAC for encrypted data in next field      |
 | ciphertext       | rest of payload | encrypted message, see below for details  |
-Plaintext message
+## Room server login
 | Field          | Size (bytes)    | Description                                                                   |
 |----------------|-----------------|-------------------------------------------------------------------------------|
-| timestamp      | 4               | send time (unix timestamp)                                                    |
+| timestamp      | 4               | sender time (unix timestamp)                                                  |
-| sync timestamp | 4               | NOTE: room server only! - sender's "sync messages SINCE x" timestamp |
+| sync timestamp | 4               | sender's "sync messages SINCE x" timestamp                                    |
-| password       | rest of message | password for repeater/room                                                    |
+| password       | rest of message | password for room                                                             |
 ## Repeater/Sensor login
 | Field          | Size (bytes)    | Description                                                                   |
 |----------------|-----------------|-------------------------------------------------------------------------------|
 | timestamp      | 4               | sender time (unix timestamp)                                                  |
 | password       | rest of message | password for repeater/sensor                                                  |
 # Group text message / datagram
@ -182,7 +190,31 @@ Plaintext message
 The plaintext contained in the ciphertext matches the format described in [plain text message](#plain-text-message). Specifically, it consists of a four byte timestamp, a flags byte, and the message. The flags byte will generally be `0x00` because it is a "plain text message". The message will be of the form `<sender name>: <message body>` (eg., `user123: I'm on my way`).
-TODO: describe what datagram looks like
+# Control data
 | Field        | Size (bytes)    | Description                                |
 |--------------|-----------------|--------------------------------------------|
 | flags        | 1               | upper 4 bits is sub_type                   |
 | data         | rest of payload | typically unencrypted data                 |
 ## DISCOVER_REQ (sub_type)
 | Field        | Size (bytes)    | Description                                  |
 |--------------|-----------------|----------------------------------------------|
 | flags        | 1               | 0x8 (upper 4 bits), prefix_only (lowest bit) |
 | type_filter  | 1               | bit for each ADV_TYPE_*                      |
 | tag          | 4               | randomly generate by sender                  |
 | since        | 4               | (optional) epoch timestamp (0 by default)    |
 ## DISCOVER_RESP (sub_type)
 | Field        | Size (bytes)    | Description                                |
 |--------------|-----------------|--------------------------------------------|
 | flags        | 1               | 0x9 (upper 4 bits), node_type (lower 4)    |
 | snr          | 1               | signed, SNR*4                              |
 | tag          | 4               | reflected back from DISCOVER_REQ           |
 | pubkey       | 8 or 32         | node's ID (or prefix)                      |
 # Custom packet
--- a/examples/companion_radio/DataStore.cpp
+++ b/examples/companion_radio/DataStore.cpp
@ -197,11 +197,7 @@ void DataStore::loadPrefs(NodePrefs& prefs, double& node_lat, double& node_lon)
 }
 void DataStore::loadPrefsInt(const char *filename, NodePrefs& _prefs, double& node_lat, double& node_lon) {
-#if defined(RP2040_PLATFORM)
+  File file = openRead(_fs, filename);
  File file = _fs->open(filename, "r");
 #else
  File file = _fs->open(filename);
 #endif
  if (file) {
    uint8_t pad[8];
@ -262,16 +258,7 @@ void DataStore::savePrefs(const NodePrefs& _prefs, double node_lat, double node_
 }
 void DataStore::loadContacts(DataStoreHost* host) {
-#if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+File file = openRead(_getContactsChannelsFS(), "/contacts3");
  if (_getContactsChannelsFS()->exists("/contacts3")) {
    File file = _getContactsChannelsFS()->open("/contacts3");
 #elif defined(RP2040_PLATFORM)
    if (_fs->exists("/contacts3")) {
    File file = _fs->open("/contacts3", "r");
 #else
    if (_fs->exists("/contacts3")) {
      File file = _fs->open("/contacts3", "r", false);
 #endif
    if (file) {
      bool full = false;
      while (!full) {
@ -299,7 +286,6 @@ void DataStore::loadContacts(DataStoreHost* host) {
      }
      file.close();
    }
  }
 }
 void DataStore::saveContacts(DataStoreHost* host) {
@ -332,16 +318,7 @@ void DataStore::saveContacts(DataStoreHost* host) {
 }
 void DataStore::loadChannels(DataStoreHost* host) {
-#if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+    File file = openRead(_getContactsChannelsFS(), "/channels2");
  if (_getContactsChannelsFS()->exists("/channels2")) {
    File file = _getContactsChannelsFS()->open("/channels2");
 #elif defined(RP2040_PLATFORM)
  if (_fs->exists("/channels2")) {
    File file = _fs->open("/channels2", "r");
 #else
  if (_fs->exists("/channels2")) {
    File file = _fs->open("/channels2", "r", false);
 #endif
    if (file) {
      bool full = false;
      uint8_t channel_idx = 0;
@ -363,7 +340,6 @@ void DataStore::loadChannels(DataStoreHost* host) {
      }
      file.close();
    }
  }
 }
 void DataStore::saveChannels(DataStoreHost* host) {
@ -520,7 +496,7 @@ void DataStore::migrateToSecondaryFS() {
 }
 uint8_t DataStore::getBlobByKey(const uint8_t key[], int key_len, uint8_t dest_buf[]) {
-  File file = _getContactsChannelsFS()->open("/adv_blobs");
+  File file = openRead(_getContactsChannelsFS(), "/adv_blobs");
  uint8_t len = 0;  // 0 = not found
  if (file) {
    BlobRec tmp;
@ -583,11 +559,7 @@ uint8_t DataStore::getBlobByKey(const uint8_t key[], int key_len, uint8_t dest_b
  sprintf(path, "/bl/%s", fname);
  if (_fs->exists(path)) {
-#if defined(RP2040_PLATFORM)
+    File f = openRead(_fs, path);
    File f = _fs->open(path, "r");
 #else
    File f = _fs->open(path);
 #endif
    if (f) {
      int len = f.read(dest_buf, 255); // currently MAX 255 byte blob len supported!!
      f.close();
--- a/examples/companion_radio/MyMesh.cpp
+++ b/examples/companion_radio/MyMesh.cpp
@ -50,6 +50,8 @@
 #define CMD_SEND_BINARY_REQ           50
 #define CMD_FACTORY_RESET             51
 #define CMD_SEND_PATH_DISCOVERY_REQ   52
 #define CMD_SET_FLOOD_SCOPE           54   // v8+
 #define CMD_SEND_CONTROL_DATA         55   // v8+
 #define RESP_CODE_OK                  0
 #define RESP_CODE_ERR                 1
@ -99,6 +101,7 @@
 #define PUSH_CODE_TELEMETRY_RESPONSE    0x8B
 #define PUSH_CODE_BINARY_RESPONSE       0x8C
 #define PUSH_CODE_PATH_DISCOVERY_RESPONSE 0x8D
 #define PUSH_CODE_CONTROL_DATA          0x8E   // v8+
 #define ERR_CODE_UNSUPPORTED_CMD        1
 #define ERR_CODE_NOT_FOUND              2
@ -378,6 +381,35 @@ void MyMesh::queueMessage(const ContactInfo &from, uint8_t txt_type, mesh::Packe
 #endif
 }
 bool MyMesh::filterRecvFloodPacket(mesh::Packet* packet) {
  // REVISIT: try to determine which Region (from transport_codes[1]) that Sender is indicating for replies/responses
  //    if unknown, fallback to finding Region from transport_codes[0], the 'scope' used by Sender
  return false;
 }
 void MyMesh::sendFloodScoped(const ContactInfo& recipient, mesh::Packet* pkt, uint32_t delay_millis) {
  // TODO: dynamic send_scope, depending on recipient and current 'home' Region
  if (send_scope.isNull()) {
    sendFlood(pkt, delay_millis);
  } else {
    uint16_t codes[2];
    codes[0] = send_scope.calcTransportCode(pkt);
    codes[1] = 0;  // REVISIT: set to 'home' Region, for sender/return region?
    sendFlood(pkt, codes, delay_millis);
  }
 }
 void MyMesh::sendFloodScoped(const mesh::GroupChannel& channel, mesh::Packet* pkt, uint32_t delay_millis) {
  // TODO: have per-channel send_scope
  if (send_scope.isNull()) {
    sendFlood(pkt, delay_millis);
  } else {
    uint16_t codes[2];
    codes[0] = send_scope.calcTransportCode(pkt);
    codes[1] = 0;  // REVISIT: set to 'home' Region, for sender/return region?
    sendFlood(pkt, codes, delay_millis);
  }
 }
 void MyMesh::onMessageRecv(const ContactInfo &from, mesh::Packet *pkt, uint32_t sender_timestamp,
                           const char *text) {
  markConnectionActive(from); // in case this is from a server, and we have a connection
@ -596,6 +628,26 @@ bool MyMesh::onContactPathRecv(ContactInfo& contact, uint8_t* in_path, uint8_t i
  return BaseChatMesh::onContactPathRecv(contact, in_path, in_path_len, out_path, out_path_len, extra_type, extra, extra_len);
 }
 void MyMesh::onControlDataRecv(mesh::Packet *packet) {
  if (packet->payload_len + 4 > sizeof(out_frame)) {
    MESH_DEBUG_PRINTLN("onControlDataRecv(), payload_len too long: %d", packet->payload_len);
    return;
  }
  int i = 0;
  out_frame[i++] = PUSH_CODE_CONTROL_DATA;
  out_frame[i++] = (int8_t)(_radio->getLastSNR() * 4);
  out_frame[i++] = (int8_t)(_radio->getLastRSSI());
  out_frame[i++] = packet->path_len;
  memcpy(&out_frame[i], packet->payload, packet->payload_len);
  i += packet->payload_len;
  if (_serial->isConnected()) {
    _serial->writeFrame(out_frame, i);
  } else {
    MESH_DEBUG_PRINTLN("onControlDataRecv(), data received while app offline");
  }
 }
 void MyMesh::onRawDataRecv(mesh::Packet *packet) {
  if (packet->payload_len + 4 > sizeof(out_frame)) {
    MESH_DEBUG_PRINTLN("onRawDataRecv(), payload_len too long: %d", packet->payload_len);
@ -663,6 +715,7 @@ MyMesh::MyMesh(mesh::Radio &radio, mesh::RNG &rng, mesh::RTCClock &rtc, SimpleMe
  sign_data = NULL;
  dirty_contacts_expiry = 0;
  memset(advert_paths, 0, sizeof(advert_paths));
  memset(send_scope.key, 0, sizeof(send_scope.key));
  // defaults
  memset(&_prefs, 0, sizeof(_prefs));
@ -706,8 +759,8 @@ void MyMesh::begin(bool has_display) {
  _prefs.rx_delay_base = constrain(_prefs.rx_delay_base, 0, 20.0f);
  _prefs.airtime_factor = constrain(_prefs.airtime_factor, 0, 9.0f);
  _prefs.freq = constrain(_prefs.freq, 400.0f, 2500.0f);
-  _prefs.bw = constrain(_prefs.bw, 62.5f, 500.0f);
+  _prefs.bw = constrain(_prefs.bw, 7.8f, 500.0f);
-  _prefs.sf = constrain(_prefs.sf, 7, 12);
+  _prefs.sf = constrain(_prefs.sf, 5, 12);
  _prefs.cr = constrain(_prefs.cr, 5, 8);
  _prefs.tx_power_dbm = constrain(_prefs.tx_power_dbm, 1, MAX_LORA_TX_POWER);
@ -1485,6 +1538,21 @@ void MyMesh::handleCmdFrame(size_t len) {
    } else {
      writeErrFrame(ERR_CODE_FILE_IO_ERROR);
    }
  } else if (cmd_frame[0] == CMD_SET_FLOOD_SCOPE && len >= 2 && cmd_frame[1] == 0) {
    if (len >= 2 + 16) {
      memcpy(send_scope.key, &cmd_frame[2], sizeof(send_scope.key));  // set curr scope TransportKey
    } else {
      memset(send_scope.key, 0, sizeof(send_scope.key));  // set scope to null
    }
    writeOKFrame();
  } else if (cmd_frame[0] == CMD_SEND_CONTROL_DATA && len >= 2 && (cmd_frame[1] & 0x80) != 0) {
    auto resp = createControlData(&cmd_frame[1], len - 1);
    if (resp) {
      sendZeroHop(resp);
      writeOKFrame();
    } else {
      writeErrFrame(ERR_CODE_TABLE_FULL);
    }
  } else {
    writeErrFrame(ERR_CODE_UNSUPPORTED_CMD);
    MESH_DEBUG_PRINTLN("ERROR: unknown command: %02X", cmd_frame[0]);
--- a/examples/companion_radio/MyMesh.h
+++ b/examples/companion_radio/MyMesh.h
@ -5,14 +5,14 @@
 #include "AbstractUITask.h"
 /*------------ Frame Protocol --------------*/
-#define FIRMWARE_VER_CODE 7
+#define FIRMWARE_VER_CODE 8
 #ifndef FIRMWARE_BUILD_DATE
-#define FIRMWARE_BUILD_DATE "2 Oct 2025"
+#define FIRMWARE_BUILD_DATE "13 Nov 2025"
 #endif
 #ifndef FIRMWARE_VERSION
-#define FIRMWARE_VERSION "v1.9.1"
+#define FIRMWARE_VERSION "v1.10.0"
 #endif
 #if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
@ -68,6 +68,7 @@
 #endif
 #include <helpers/BaseChatMesh.h>
 #include <helpers/TransportKeyStore.h>
 /* -------------------------------------------------------------------------------------- */
@ -106,6 +107,10 @@ protected:
  int getInterferenceThreshold() const override;
  int calcRxDelay(float score, uint32_t air_time) const override;
  uint8_t getExtraAckTransmitCount() const override;
  bool filterRecvFloodPacket(mesh::Packet* packet) override;
  void sendFloodScoped(const ContactInfo& recipient, mesh::Packet* pkt, uint32_t delay_millis=0) override;
  void sendFloodScoped(const mesh::GroupChannel& channel, mesh::Packet* pkt, uint32_t delay_millis=0) override;
  void logRxRaw(float snr, float rssi, const uint8_t raw[], int len) override;
  bool isAutoAddEnabled() const override;
@ -128,6 +133,7 @@ protected:
  uint8_t onContactRequest(const ContactInfo &contact, uint32_t sender_timestamp, const uint8_t *data,
                           uint8_t len, uint8_t *reply) override;
  void onContactResponse(const ContactInfo &contact, const uint8_t *data, uint8_t len) override;
  void onControlDataRecv(mesh::Packet *packet) override;
  void onRawDataRecv(mesh::Packet *packet) override;
  void onTraceRecv(mesh::Packet *packet, uint32_t tag, uint32_t auth_code, uint8_t flags,
                   const uint8_t *path_snrs, const uint8_t *path_hashes, uint8_t path_len) override;
@ -191,6 +197,8 @@ private:
  uint32_t sign_data_len;
  unsigned long dirty_contacts_expiry;
  TransportKey send_scope;
  uint8_t cmd_frame[MAX_FRAME_SIZE + 1];
  uint8_t out_frame[MAX_FRAME_SIZE + 1];
  CayenneLPP telemetry;
--- a/examples/companion_radio/main.cpp
+++ b/examples/companion_radio/main.cpp
@ -227,4 +227,5 @@ void loop() {
 #ifdef DISPLAY_CLASS
  ui_task.loop();
 #endif
  rtc_clock.tick();
 }
--- a/examples/companion_radio/ui-new/UITask.cpp
+++ b/examples/companion_radio/ui-new/UITask.cpp
@ -20,7 +20,11 @@
  #define UI_RECENT_LIST_SIZE 4
 #endif
-#define PRESS_LABEL "long press"
+#if UI_HAS_JOYSTICK
  #define PRESS_LABEL "press Enter"
 #else
  #define PRESS_LABEL "long press"
 #endif
 #include "icons.h"
@ -75,6 +79,9 @@ class HomeScreen : public UIScreen {
    RADIO,
    BLUETOOTH,
    ADVERT,
 #if ENV_INCLUDE_GPS == 1
    GPS,
 #endif
 #if UI_SENSORS_PAGE == 1
    SENSORS,
 #endif
@ -170,7 +177,7 @@ public:
    // curr page indicator
    int y = 14;
-    int x = display.width() / 2 - 25;
+    int x = display.width() / 2 - 5 * (HomePage::Count-1);
    for (uint8_t i = 0; i < HomePage::Count; i++, x += 10) {
      if (i == _page) {
        display.fillRect(x-1, y-1, 3, 3);
@ -250,6 +257,34 @@ public:
      display.setColor(DisplayDriver::GREEN);
      display.drawXbm((display.width() - 32) / 2, 18, advert_icon, 32, 32);
      display.drawTextCentered(display.width() / 2, 64 - 11, "advert: " PRESS_LABEL);
 #if ENV_INCLUDE_GPS == 1
    } else if (_page == HomePage::GPS) {
      LocationProvider* nmea = sensors.getLocationProvider();
      int y = 18;
      display.drawTextLeftAlign(0, y, _task->getGPSState() ? "gps on" : "gps off");
      if (nmea == NULL) {
        y = y + 12;
        display.drawTextLeftAlign(0, y, "Can't access GPS");
      } else {
        char buf[50];
        strcpy(buf, nmea->isValid()?"fix":"no fix");
        display.drawTextRightAlign(display.width()-1, y, buf);
        y = y + 12;
        display.drawTextLeftAlign(0, y, "sat");
        sprintf(buf, "%d", nmea->satellitesCount());
        display.drawTextRightAlign(display.width()-1, y, buf);
        y = y + 12;
        display.drawTextLeftAlign(0, y, "pos");
        sprintf(buf, "%.4f %.4f", 
          nmea->getLatitude()/1000000., nmea->getLongitude()/1000000.);
        display.drawTextRightAlign(display.width()-1, y, buf);
        y = y + 12;
        display.drawTextLeftAlign(0, y, "alt");
        sprintf(buf, "%.2f", nmea->getAltitude()/1000.);
        display.drawTextRightAlign(display.width()-1, y, buf);
        y = y + 12;
      }
 #endif
 #if UI_SENSORS_PAGE == 1
    } else if (_page == HomePage::SENSORS) {
      int y = 18;
@ -329,7 +364,7 @@ public:
        display.drawTextCentered(display.width() / 2, 34, "hibernating...");
      } else {
        display.drawXbm((display.width() - 32) / 2, 18, power_icon, 32, 32);
-        display.drawTextCentered(display.width() / 2, 64 - 11, "hibernate: " PRESS_LABEL);
+        display.drawTextCentered(display.width() / 2, 64 - 11, "hibernate:" PRESS_LABEL);
      }
    }
    return 5000;   // next render after 5000 ms
@ -364,6 +399,12 @@ public:
      }
      return true;
    }
 #if ENV_INCLUDE_GPS == 1
    if (c == KEY_ENTER && _page == HomePage::GPS) {
      _task->toggleGPS();
      return true;
    }
 #endif
 #if UI_SENSORS_PAGE == 1
    if (c == KEY_ENTER && _page == HomePage::SENSORS) {
      _task->toggleGPS();
@ -623,19 +664,13 @@ bool UITask::isButtonPressed() const {
 void UITask::loop() {
  char c = 0;
-#if defined(PIN_USER_BTN)
+#if UI_HAS_JOYSTICK
  int ev = user_btn.check();
  if (ev == BUTTON_EVENT_CLICK) {
-    c = checkDisplayOn(KEY_NEXT);
+    c = checkDisplayOn(KEY_ENTER);
  } else if (ev == BUTTON_EVENT_LONG_PRESS) {
-    c = handleLongPress(KEY_ENTER);
+    c = handleLongPress(KEY_ENTER);  // REVISIT: could be mapped to different key code
  } else if (ev == BUTTON_EVENT_DOUBLE_CLICK) {
    c = handleDoubleClick(KEY_PREV);
  } else if (ev == BUTTON_EVENT_TRIPLE_CLICK) {
    c = handleTripleClick(KEY_SELECT);
  }
 #endif
 #if defined(WIO_TRACKER_L1)
  ev = joystick_left.check();
  if (ev == BUTTON_EVENT_CLICK) {
    c = checkDisplayOn(KEY_LEFT);
@ -648,9 +683,12 @@ void UITask::loop() {
  } else if (ev == BUTTON_EVENT_LONG_PRESS) {
    c = handleLongPress(KEY_RIGHT);
  }
-#endif
+  ev = back_btn.check();
-#if defined(PIN_USER_BTN_ANA)
+  if (ev == BUTTON_EVENT_TRIPLE_CLICK) {
-  ev = analog_btn.check();
+    c = handleTripleClick(KEY_SELECT);
  }
 #elif defined(PIN_USER_BTN)
  int ev = user_btn.check();
  if (ev == BUTTON_EVENT_CLICK) {
    c = checkDisplayOn(KEY_NEXT);
  } else if (ev == BUTTON_EVENT_LONG_PRESS) {
@ -661,6 +699,21 @@ void UITask::loop() {
    c = handleTripleClick(KEY_SELECT);
  }
 #endif
 #if defined(PIN_USER_BTN_ANA)
  if (abs(millis() - _analogue_pin_read_millis) > 10) {
    ev = analog_btn.check();
    if (ev == BUTTON_EVENT_CLICK) {
      c = checkDisplayOn(KEY_NEXT);
    } else if (ev == BUTTON_EVENT_LONG_PRESS) {
      c = handleLongPress(KEY_ENTER);
    } else if (ev == BUTTON_EVENT_DOUBLE_CLICK) {
      c = handleDoubleClick(KEY_PREV);
    } else if (ev == BUTTON_EVENT_TRIPLE_CLICK) {
      c = handleTripleClick(KEY_SELECT);
    }
    _analogue_pin_read_millis = millis();
  }
 #endif
 #if defined(DISP_BACKLIGHT) && defined(BACKLIGHT_BTN)
  if (millis() > next_backlight_btn_check) {
    bool touch_state = digitalRead(PIN_BUTTON2);
@ -773,6 +826,18 @@ char UITask::handleTripleClick(char c) {
  return c;
 }
 bool UITask::getGPSState() {
  if (_sensors != NULL) {
    int num = _sensors->getNumSettings();
    for (int i = 0; i < num; i++) {
      if (strcmp(_sensors->getSettingName(i), "gps") == 0) {
        return !strcmp(_sensors->getSettingValue(i), "1");
      }
    }
  } 
  return false;
 }
 void UITask::toggleGPS() {
    if (_sensors != NULL) {
    // toggle GPS on/off
--- a/examples/companion_radio/ui-new/UITask.h
+++ b/examples/companion_radio/ui-new/UITask.h
@ -40,6 +40,10 @@ class UITask : public AbstractUITask {
  int last_led_increment = 0;
 #endif
 #ifdef PIN_USER_BTN_ANA
  unsigned long _analogue_pin_read_millis = millis();
 #endif
  UIScreen* splash;
  UIScreen* home;
  UIScreen* msg_preview;
@ -71,6 +75,7 @@ public:
  bool isButtonPressed() const;
  void toggleBuzzer();
  bool getGPSState();
  void toggleGPS();
--- a/examples/simple_repeater/MyMesh.cpp
+++ b/examples/simple_repeater/MyMesh.cpp
@ -114,6 +114,7 @@ uint8_t MyMesh::handleLoginReq(const mesh::Identity& sender, const uint8_t* secr
    MESH_DEBUG_PRINTLN("Login success!");
    client->last_timestamp = sender_timestamp;
    client->last_activity = getRTCClock()->getCurrentTime();
    client->permissions &= ~0x03;
    client->permissions |= perms;
    memcpy(client->shared_secret, secret, PUB_KEY_SIZE);
@ -148,7 +149,7 @@ int MyMesh::handleRequest(ClientInfo *sender, uint32_t sender_timestamp, uint8_t
    stats.n_packets_recv = radio_driver.getPacketsRecv();
    stats.n_packets_sent = radio_driver.getPacketsSent();
    stats.total_air_time_secs = getTotalAirTime() / 1000;
-    stats.total_up_time_secs = _ms->getMillis() / 1000;
+    stats.total_up_time_secs = uptime_millis / 1000;
    stats.n_sent_flood = getNumSentFlood();
    stats.n_sent_direct = getNumSentDirect();
    stats.n_recv_flood = getNumRecvFlood();
@ -169,7 +170,10 @@ int MyMesh::handleRequest(ClientInfo *sender, uint32_t sender_timestamp, uint8_t
    telemetry.reset();
    telemetry.addVoltage(TELEM_CHANNEL_SELF, (float)board.getBattMilliVolts() / 1000.0f);
    // query other sensors -- target specific
-    sensors.querySensors((sender->isAdmin() ? 0xFF : 0x00) & perm_mask, telemetry);
+    if ((sender->permissions & PERM_ACL_ROLE_MASK) == PERM_ACL_GUEST) {
      perm_mask = 0x00;  // just base telemetry allowed
    }
    sensors.querySensors(perm_mask, telemetry);
    uint8_t tlen = telemetry.getSize();
    memcpy(&reply_data[4], telemetry.getBuffer(), tlen);
@ -287,11 +291,7 @@ int MyMesh::handleRequest(ClientInfo *sender, uint32_t sender_timestamp, uint8_t
 mesh::Packet *MyMesh::createSelfAdvert() {
  uint8_t app_data[MAX_ADVERT_DATA_SIZE];
-  uint8_t app_data_len;
+  uint8_t app_data_len = _cli.buildAdvertData(ADV_TYPE_REPEATER, app_data);
  {
    AdvertDataBuilder builder(ADV_TYPE_REPEATER, _prefs.node_name, _prefs.node_lat, _prefs.node_lon);
    app_data_len = builder.encodeTo(app_data);
  }
  return createAdvert(self_id, app_data, app_data_len);
 }
@ -309,6 +309,10 @@ File MyMesh::openAppend(const char *fname) {
 bool MyMesh::allowPacketForward(const mesh::Packet *packet) {
  if (_prefs.disable_fwd) return false;
  if (packet->isRouteFlood() && packet->path_len >= _prefs.flood_max) return false;
  if (packet->isRouteFlood() && recv_pkt_region == NULL) {
    MESH_DEBUG_PRINTLN("allowPacketForward: unknown transport code, or wildcard not allowed for FLOOD packet");
    return false;
  }
  return true;
 }
@ -331,6 +335,12 @@ void MyMesh::logRxRaw(float snr, float rssi, const uint8_t raw[], int len) {
 }
 void MyMesh::logRx(mesh::Packet *pkt, int len, float score) {
 #ifdef WITH_BRIDGE
  if (_prefs.bridge_pkt_src == 1) {
    bridge.sendPacket(pkt);
  }
 #endif
  if (_logging) {
    File f = openAppend(PACKET_LOG_FILE);
    if (f) {
@ -352,8 +362,11 @@ void MyMesh::logRx(mesh::Packet *pkt, int len, float score) {
 void MyMesh::logTx(mesh::Packet *pkt, int len) {
 #ifdef WITH_BRIDGE
-  bridge.onPacketTransmitted(pkt);
+  if (_prefs.bridge_pkt_src == 0) {
    bridge.sendPacket(pkt);
  }
 #endif
  if (_logging) {
    File f = openAppend(PACKET_LOG_FILE);
    if (f) {
@ -391,11 +404,28 @@ int MyMesh::calcRxDelay(float score, uint32_t air_time) const {
 uint32_t MyMesh::getRetransmitDelay(const mesh::Packet *packet) {
  uint32_t t = (_radio->getEstAirtimeFor(packet->path_len + packet->payload_len + 2) * _prefs.tx_delay_factor);
-  return getRNG()->nextInt(0, 6) * t;
+  return getRNG()->nextInt(0, 5*t + 1);
 }
 uint32_t MyMesh::getDirectRetransmitDelay(const mesh::Packet *packet) {
  uint32_t t = (_radio->getEstAirtimeFor(packet->path_len + packet->payload_len + 2) * _prefs.direct_tx_delay_factor);
-  return getRNG()->nextInt(0, 6) * t;
+  return getRNG()->nextInt(0, 5*t + 1);
 }
 bool MyMesh::filterRecvFloodPacket(mesh::Packet* pkt) {
  // just try to determine region for packet (apply later in allowPacketForward())
  if (pkt->getRouteType() == ROUTE_TYPE_TRANSPORT_FLOOD) {
    recv_pkt_region = region_map.findMatch(pkt, REGION_DENY_FLOOD);
  } else if (pkt->getRouteType() == ROUTE_TYPE_FLOOD) {
    if (region_map.getWildcard().flags & REGION_DENY_FLOOD) {
      recv_pkt_region = NULL;
    } else {
      recv_pkt_region =  &region_map.getWildcard();
    }
  } else {
    recv_pkt_region = NULL;
  }
  // do normal processing
  return false;
 }
 void MyMesh::onAnonDataRecv(mesh::Packet *packet, const uint8_t *secret, const mesh::Identity &sender,
@ -406,7 +436,14 @@ void MyMesh::onAnonDataRecv(mesh::Packet *packet, const uint8_t *secret, const m
    memcpy(&timestamp, data, 4);
    data[len] = 0;  // ensure null terminator
-    uint8_t reply_len = handleLoginReq(sender, secret, timestamp, &data[4]);
+    uint8_t reply_len;
    if (data[4] == 0 || data[4] >= ' ') {   // is password, ie. a login request
      reply_len = handleLoginReq(sender, secret, timestamp, &data[4]);
    //} else if (data[4] == ANON_REQ_TYPE_*) {   // future type codes
      // TODO
    } else {
      reply_len = 0;  // unknown request type
    }
    if (reply_len == 0) return;   // invalid request
@ -442,12 +479,19 @@ void MyMesh::getPeerSharedSecret(uint8_t *dest_secret, int peer_idx) {
  }
 }
 static bool isShare(const mesh::Packet *packet) {
  if (packet->hasTransportCodes()) {
    return packet->transport_codes[0] == 0 && packet->transport_codes[1] == 0;  // codes { 0, 0 } means 'send to nowhere'
  }
  return false;
 }
 void MyMesh::onAdvertRecv(mesh::Packet *packet, const mesh::Identity &id, uint32_t timestamp,
                          const uint8_t *app_data, size_t app_data_len) {
  mesh::Mesh::onAdvertRecv(packet, id, timestamp, app_data, app_data_len); // chain to super impl
-  // if this a zero hop advert, add it to neighbours
+  // if this a zero hop advert (and not via 'Share'), add it to neighbours
-  if (packet->path_len == 0) {
+  if (packet->path_len == 0 && !isShare(packet)) {
    AdvertDataParser parser(app_data, app_data_len);
    if (parser.isValid() && parser.getType() == ADV_TYPE_REPEATER) { // just keep neigbouring Repeaters
      putNeighbour(id, timestamp, packet->getSNR());
@ -577,20 +621,57 @@ bool MyMesh::onPeerPathRecv(mesh::Packet *packet, int sender_idx, const uint8_t
  return false;
 }
 #define CTL_TYPE_NODE_DISCOVER_REQ   0x80
 #define CTL_TYPE_NODE_DISCOVER_RESP  0x90
 void MyMesh::onControlDataRecv(mesh::Packet* packet) {
  uint8_t type = packet->payload[0] & 0xF0;    // just test upper 4 bits
  if (type == CTL_TYPE_NODE_DISCOVER_REQ && packet->payload_len >= 6 && discover_limiter.allow(rtc_clock.getCurrentTime())) {
    int i = 1;
    uint8_t  filter = packet->payload[i++];
    uint32_t tag;
    memcpy(&tag, &packet->payload[i], 4); i += 4;
    uint32_t since;
    if (packet->payload_len >= i+4) {   // optional since field
      memcpy(&since, &packet->payload[i], 4); i += 4;
    } else {
      since = 0;
    }
    if ((filter & (1 << ADV_TYPE_REPEATER)) != 0 && _prefs.discovery_mod_timestamp >= since) {
      bool prefix_only = packet->payload[0] & 1;
      uint8_t data[6 + PUB_KEY_SIZE];
      data[0] = CTL_TYPE_NODE_DISCOVER_RESP | ADV_TYPE_REPEATER;   // low 4-bits for node type
      data[1] = packet->_snr;   // let sender know the inbound SNR ( x 4)
      memcpy(&data[2], &tag, 4);     // include tag from request, for client to match to
      memcpy(&data[6], self_id.pub_key, PUB_KEY_SIZE);
      auto resp = createControlData(data, prefix_only ? 6 + 8 : 6 + PUB_KEY_SIZE);
      if (resp) {
        sendZeroHop(resp, getRetransmitDelay(resp)*4);  // apply random delay (widened x4), as multiple nodes can respond to this
      }
    }
  }
 }
 MyMesh::MyMesh(mesh::MainBoard &board, mesh::Radio &radio, mesh::MillisecondClock &ms, mesh::RNG &rng,
               mesh::RTCClock &rtc, mesh::MeshTables &tables)
    : mesh::Mesh(radio, ms, rng, rtc, *new StaticPoolPacketManager(32), tables),
-      _cli(board, rtc, &_prefs, this), telemetry(MAX_PACKET_PAYLOAD - 4)
+      _cli(board, rtc, sensors, &_prefs, this), telemetry(MAX_PACKET_PAYLOAD - 4), region_map(key_store), temp_map(key_store),
      discover_limiter(4, 120)  // max 4 every 2 minutes
 #if defined(WITH_RS232_BRIDGE)
-      , bridge(WITH_RS232_BRIDGE, _mgr, &rtc)
+      , bridge(&_prefs, WITH_RS232_BRIDGE, _mgr, &rtc)
-#elif defined(WITH_ESPNOW_BRIDGE)
+#endif
-      , bridge(_mgr, &rtc)
+#if defined(WITH_ESPNOW_BRIDGE)
      , bridge(&_prefs, _mgr, &rtc)
 #endif
 {
  last_millis = 0;
  uptime_millis = 0;
  next_local_advert = next_flood_advert = 0;
  dirty_contacts_expiry = 0;
  set_radio_at = revert_radio_at = 0;
  _logging = false;
  region_load_active = false;
 #if MAX_NEIGHBOURS
  memset(neighbours, 0, sizeof(neighbours));
@ -601,6 +682,7 @@ MyMesh::MyMesh(mesh::MainBoard &board, mesh::Radio &radio, mesh::MillisecondCloc
  _prefs.airtime_factor = 1.0;   // one half
  _prefs.rx_delay_base = 0.0f;   // turn off by default, was 10.0;
  _prefs.tx_delay_factor = 0.5f; // was 0.25f
  _prefs.direct_tx_delay_factor = 0.2f; // was zero
  StrHelper::strncpy(_prefs.node_name, ADVERT_NAME, sizeof(_prefs.node_name));
  _prefs.node_lat = ADVERT_LAT;
  _prefs.node_lon = ADVERT_LON;
@ -614,6 +696,20 @@ MyMesh::MyMesh(mesh::MainBoard &board, mesh::Radio &radio, mesh::MillisecondCloc
  _prefs.flood_advert_interval = 12; // 12 hours
  _prefs.flood_max = 64;
  _prefs.interference_threshold = 0; // disabled
  // bridge defaults
  _prefs.bridge_enabled = 1;    // enabled
  _prefs.bridge_delay   = 500;  // milliseconds
  _prefs.bridge_pkt_src = 0;    // logTx
  _prefs.bridge_baud = 115200;  // baud rate
  _prefs.bridge_channel = 1;    // channel 1
  StrHelper::strncpy(_prefs.bridge_secret, "LVSITANOS", sizeof(_prefs.bridge_secret));
  // GPS defaults
  _prefs.gps_enabled = 0;
  _prefs.gps_interval = 0;
  _prefs.advert_loc_policy = ADVERT_LOC_PREFS;
 }
 void MyMesh::begin(FILESYSTEM *fs) {
@ -621,11 +717,14 @@ void MyMesh::begin(FILESYSTEM *fs) {
  _fs = fs;
  // load persisted prefs
  _cli.loadPrefs(_fs);
  acl.load(_fs);
  // TODO: key_store.begin();
  region_map.load(_fs);
-#ifdef WITH_BRIDGE
+#if defined(WITH_BRIDGE)
-  bridge.begin();
+  if (_prefs.bridge_enabled) {
    bridge.begin();
  }
 #endif
  radio_set_params(_prefs.freq, _prefs.bw, _prefs.sf, _prefs.cr);
@ -633,6 +732,10 @@ void MyMesh::begin(FILESYSTEM *fs) {
  updateAdvertTimer();
  updateFloodAdvertTimer();
 #if ENV_INCLUDE_GPS == 1
  applyGpsPrefs();
 #endif
 }
 void MyMesh::applyTempRadioParams(float freq, float bw, uint8_t sf, uint8_t cr, int timeout_mins) {
@ -758,6 +861,19 @@ void MyMesh::removeNeighbor(const uint8_t *pubkey, int key_len) {
 #endif
 }
 void MyMesh::formatStatsReply(char *reply) {
  StatsFormatHelper::formatCoreStats(reply, board, *_ms, _err_flags, _mgr);
 }
 void MyMesh::formatRadioStatsReply(char *reply) {
  StatsFormatHelper::formatRadioStats(reply, _radio, radio_driver, getTotalAirTime(), getReceiveAirTime());
 }
 void MyMesh::formatPacketStatsReply(char *reply) {
  StatsFormatHelper::formatPacketStats(reply, radio_driver, getNumSentFlood(), getNumSentDirect(), 
                                       getNumRecvFlood(), getNumRecvDirect());
 }
 void MyMesh::saveIdentity(const mesh::LocalIdentity &new_id) {
  self_id = new_id;
 #if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
@ -779,8 +895,41 @@ void MyMesh::clearStats() {
 }
 void MyMesh::handleCommand(uint32_t sender_timestamp, char *command, char *reply) {
-  while (*command == ' ')
+  if (region_load_active) {
-    command++; // skip leading spaces
+    if (StrHelper::isBlank(command)) {  // empty/blank line, signal to terminate 'load' operation
      region_map = temp_map;  // copy over the temp instance as new current map
      region_load_active = false;
      sprintf(reply, "OK - loaded %d regions", region_map.getCount());
    } else {
      char *np = command;
      while (*np == ' ') np++;   // skip indent
      int indent = np - command;
      char *ep = np;
      while (RegionMap::is_name_char(*ep)) ep++;
      if (*ep) { *ep++ = 0; }  // set null terminator for end of name
      while (*ep && *ep != 'F') ep++;  // look for (optional) flags
      if (indent > 0 && indent < 8 && strlen(np) > 0) {
        auto parent = load_stack[indent - 1];
        if (parent) {
          auto old = region_map.findByName(np);
          auto nw = temp_map.putRegion(np, parent->id, old ? old->id : 0);  // carry-over the current ID (if name already exists)
          if (nw) {
            nw->flags = old ? old->flags : (*ep == 'F' ? 0 : REGION_DENY_FLOOD);   // carry-over flags from curr
            load_stack[indent] = nw;  // keep pointers to parent regions, to resolve parent_id's
          }
        }
      }
      reply[0] = 0;
    }
    return;
  }
  while (*command == ' ') command++; // skip leading spaces
  if (strlen(command) > 4 && command[2] == '|') { // optional prefix (for companion radio CLI)
    memcpy(reply, command, 3);                    // reflect the prefix back
@ -822,6 +971,88 @@ void MyMesh::handleCommand(uint32_t sender_timestamp, char *command, char *reply
      Serial.printf("\n");
    }
    reply[0] = 0;
  } else if (memcmp(command, "region", 6) == 0) {
    reply[0] = 0;
    const char* parts[4];
    int n = mesh::Utils::parseTextParts(command, parts, 4, ' ');
    if (n == 1 && sender_timestamp == 0) {
      region_map.exportTo(Serial);
    } else if (n >= 2 && strcmp(parts[1], "load") == 0) {
      temp_map.resetFrom(region_map);   // rebuild regions in a temp instance
      memset(load_stack, 0, sizeof(load_stack));
      load_stack[0] = &temp_map.getWildcard();
      region_load_active = true;
    } else if (n >= 2 && strcmp(parts[1], "save") == 0) {
      _prefs.discovery_mod_timestamp = rtc_clock.getCurrentTime();   // this node is now 'modified' (for discovery info)
      savePrefs();
      bool success = region_map.save(_fs);
      strcpy(reply, success ? "OK" : "Err - save failed");
    } else if (n >= 3 && strcmp(parts[1], "allowf") == 0) {
      auto region = region_map.findByNamePrefix(parts[2]);
      if (region) {
        region->flags &= ~REGION_DENY_FLOOD;
        strcpy(reply, "OK");
      } else {
        strcpy(reply, "Err - unknown region");
      }
    } else if (n >= 3 && strcmp(parts[1], "denyf") == 0) {
      auto region = region_map.findByNamePrefix(parts[2]);
      if (region) {
        region->flags |= REGION_DENY_FLOOD;
        strcpy(reply, "OK");
      } else {
        strcpy(reply, "Err - unknown region");
      }
    } else if (n >= 3 && strcmp(parts[1], "get") == 0) {
      auto region = region_map.findByNamePrefix(parts[2]);
      if (region) {
        auto parent = region_map.findById(region->parent);
        if (parent && parent->id != 0) {
          sprintf(reply, " %s (%s) %s", region->name, parent->name, (region->flags & REGION_DENY_FLOOD) ? "" : "F");
        } else {
          sprintf(reply, " %s %s", region->name, (region->flags & REGION_DENY_FLOOD) ? "" : "F");
        }
      } else {
        strcpy(reply, "Err - unknown region");
      }
    } else if (n >= 3 && strcmp(parts[1], "home") == 0) {
      auto home = region_map.findByNamePrefix(parts[2]);
      if (home) {
        region_map.setHomeRegion(home);
        sprintf(reply, " home is now %s", home->name);
      } else {
        strcpy(reply, "Err - unknown region");
      }
    } else if (n == 2 && strcmp(parts[1], "home") == 0) {
      auto home = region_map.getHomeRegion();
      sprintf(reply, " home is %s", home ? home->name : "*");
    } else if (n >= 3 && strcmp(parts[1], "put") == 0) {
      auto parent = n >= 4 ? region_map.findByNamePrefix(parts[3]) : &region_map.getWildcard();
      if (parent == NULL) {
        strcpy(reply, "Err - unknown parent");
      } else {
        auto region = region_map.putRegion(parts[2], parent->id);
        if (region == NULL) {
          strcpy(reply, "Err - unable to put");
        } else {
          strcpy(reply, "OK");
        }
      }
    } else if (n >= 3 && strcmp(parts[1], "remove") == 0) {
      auto region = region_map.findByName(parts[2]);
      if (region) {
        if (region_map.removeRegion(*region)) {
          strcpy(reply, "OK");
        } else {
          strcpy(reply, "Err - not empty");
        }
      } else {
        strcpy(reply, "Err - not found");
      }
    } else {
      strcpy(reply, "Err - ??");
    }
  } else{
    _cli.handleCommand(sender_timestamp, command, reply);  // common CLI commands
  }
@ -864,4 +1095,9 @@ void MyMesh::loop() {
    acl.save(_fs);
    dirty_contacts_expiry = 0;
  }
  // update uptime
  uint32_t now = millis();
  uptime_millis += now - last_millis;
  last_millis = now;
 }
--- a/examples/simple_repeater/MyMesh.h
+++ b/examples/simple_repeater/MyMesh.h
@ -2,7 +2,8 @@
 #include <Arduino.h>
 #include <Mesh.h>
-#include <helpers/CommonCLI.h>
+#include <RTClib.h>
 #include <target.h>
 #if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
  #include <InternalFileSystem.h>
@ -12,16 +13,6 @@
  #include <SPIFFS.h>
 #endif
 #include <helpers/ArduinoHelpers.h>
 #include <helpers/StaticPoolPacketManager.h>
 #include <helpers/SimpleMeshTables.h>
 #include <helpers/IdentityStore.h>
 #include <helpers/AdvertDataHelpers.h>
 #include <helpers/TxtDataHelpers.h>
 #include <helpers/ClientACL.h>
 #include <RTClib.h>
 #include <target.h>
 #ifdef WITH_RS232_BRIDGE
 #include "helpers/bridges/RS232Bridge.h"
 #define WITH_BRIDGE
@ -32,6 +23,18 @@
 #define WITH_BRIDGE
 #endif
 #include <helpers/AdvertDataHelpers.h>
 #include <helpers/ArduinoHelpers.h>
 #include <helpers/ClientACL.h>
 #include <helpers/CommonCLI.h>
 #include <helpers/IdentityStore.h>
 #include <helpers/SimpleMeshTables.h>
 #include <helpers/StaticPoolPacketManager.h>
 #include <helpers/StatsFormatHelper.h>
 #include <helpers/TxtDataHelpers.h>
 #include <helpers/RegionMap.h>
 #include "RateLimiter.h"
 #ifdef WITH_BRIDGE
 extern AbstractBridge* bridge;
 #endif
@ -65,11 +68,11 @@ struct NeighbourInfo {
 };
 #ifndef FIRMWARE_BUILD_DATE
-  #define FIRMWARE_BUILD_DATE   "2 Oct 2025"
+  #define FIRMWARE_BUILD_DATE   "13 Nov 2025"
 #endif
 #ifndef FIRMWARE_VERSION
-  #define FIRMWARE_VERSION   "v1.9.1"
+  #define FIRMWARE_VERSION   "v1.10.0"
 #endif
 #define FIRMWARE_ROLE "repeater"
@ -78,12 +81,20 @@ struct NeighbourInfo {
 class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
  FILESYSTEM* _fs;
  uint32_t last_millis;
  uint64_t uptime_millis;
  unsigned long next_local_advert, next_flood_advert;
  bool _logging;
  NodePrefs _prefs;
  CommonCLI _cli;
  uint8_t reply_data[MAX_PACKET_PAYLOAD];
  ClientACL  acl;
  TransportKeyStore key_store;
  RegionMap region_map, temp_map;
  RegionEntry* load_stack[8];
  RegionEntry* recv_pkt_region;
  RateLimiter discover_limiter;
  bool region_load_active;
  unsigned long dirty_contacts_expiry;
 #if MAX_NEIGHBOURS
  NeighbourInfo neighbours[MAX_NEIGHBOURS];
@ -135,12 +146,21 @@ protected:
    return _prefs.multi_acks;
  }
 #if ENV_INCLUDE_GPS == 1
  void applyGpsPrefs() {
    sensors.setSettingValue("gps", _prefs.gps_enabled?"1":"0");
  }
 #endif
  bool filterRecvFloodPacket(mesh::Packet* pkt) override;
  void onAnonDataRecv(mesh::Packet* packet, const uint8_t* secret, const mesh::Identity& sender, uint8_t* data, size_t len) override;
  int searchPeersByHash(const uint8_t* hash) override;
  void getPeerSharedSecret(uint8_t* dest_secret, int peer_idx) override;
  void onAdvertRecv(mesh::Packet* packet, const mesh::Identity& id, uint32_t timestamp, const uint8_t* app_data, size_t app_data_len);
  void onPeerDataRecv(mesh::Packet* packet, uint8_t type, int sender_idx, const uint8_t* secret, uint8_t* data, size_t len) override;
  bool onPeerPathRecv(mesh::Packet* packet, int sender_idx, const uint8_t* secret, uint8_t* path, uint8_t path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len) override;
  void onControlDataRecv(mesh::Packet* packet) override;
 public:
  MyMesh(mesh::MainBoard& board, mesh::Radio& radio, mesh::MillisecondClock& ms, mesh::RNG& rng, mesh::RTCClock& rtc, mesh::MeshTables& tables);
@ -175,6 +195,9 @@ public:
  void setTxPower(uint8_t power_dbm) override;
  void formatNeighborsReply(char *reply) override;
  void removeNeighbor(const uint8_t* pubkey, int key_len) override;
  void formatStatsReply(char *reply) override;
  void formatRadioStatsReply(char *reply) override;
  void formatPacketStatsReply(char *reply) override;
  mesh::LocalIdentity& getSelfId() override { return self_id; }
@ -182,4 +205,24 @@ public:
  void clearStats() override;
  void handleCommand(uint32_t sender_timestamp, char* command, char* reply);
  void loop();
 #if defined(WITH_BRIDGE)
  void setBridgeState(bool enable) override {
    if (enable == bridge.isRunning()) return;
    if (enable)
    {
      bridge.begin();
    }
    else 
    {
      bridge.end();
    }
  }
  void restartBridge() override {
    if (!bridge.isRunning()) return;
    bridge.end();
    bridge.begin();
  }
 #endif
 };
--- a/examples/simple_repeater/RateLimiter.h
+++ b/examples/simple_repeater/RateLimiter.h
@ -0,0 +1,23 @@
 #pragma once
 #include <stdint.h>
 class RateLimiter {
  uint32_t _start_timestamp;
  uint32_t _secs;
  uint16_t _maximum, _count;
 public:
  RateLimiter(uint16_t maximum, uint32_t secs): _maximum(maximum), _secs(secs), _start_timestamp(0), _count(0) { }
  bool allow(uint32_t now) {
    if (now < _start_timestamp + _secs) {
      _count++;
      if (_count > _maximum) return false;   // deny
    } else {   // time window now expired
      _start_timestamp = now;
      _count = 1;
    }
    return true;
  }
 };
--- a/examples/simple_repeater/main.cpp
+++ b/examples/simple_repeater/main.cpp
@ -91,14 +91,16 @@ void loop() {
    if (c != '\n') {
      command[len++] = c;
      command[len] = 0;
      Serial.print(c);
    }
-    Serial.print(c);
+    if (c == '\r') break;
  }
  if (len == sizeof(command)-1) {  // command buffer full
    command[sizeof(command)-1] = '\r';
  }
  if (len > 0 && command[len - 1] == '\r') {  // received complete line
    Serial.print('\n');
    command[len - 1] = 0;  // replace newline with C string null terminator
    char reply[160];
    the_mesh.handleCommand(0, command, reply);  // NOTE: there is no sender_timestamp via serial!
@ -114,4 +116,5 @@ void loop() {
 #ifdef DISPLAY_CLASS
  ui_task.loop();
 #endif
  rtc_clock.tick();
 }
--- a/examples/simple_room_server/MyMesh.cpp
+++ b/examples/simple_room_server/MyMesh.cpp
@ -114,11 +114,7 @@ bool MyMesh::processAck(const uint8_t *data) {
 mesh::Packet *MyMesh::createSelfAdvert() {
  uint8_t app_data[MAX_ADVERT_DATA_SIZE];
-  uint8_t app_data_len;
+  uint8_t app_data_len = _cli.buildAdvertData(ADV_TYPE_ROOM, app_data);
  {
    AdvertDataBuilder builder(ADV_TYPE_ROOM, _prefs.node_name, _prefs.node_lat, _prefs.node_lon);
    app_data_len = builder.encodeTo(app_data);
  }
  return createAdvert(self_id, app_data, app_data_len);
 }
@ -148,7 +144,7 @@ int MyMesh::handleRequest(ClientInfo *sender, uint32_t sender_timestamp, uint8_t
    stats.n_packets_recv = radio_driver.getPacketsRecv();
    stats.n_packets_sent = radio_driver.getPacketsSent();
    stats.total_air_time_secs = getTotalAirTime() / 1000;
-    stats.total_up_time_secs = _ms->getMillis() / 1000;
+    stats.total_up_time_secs = uptime_millis / 1000;
    stats.n_sent_flood = getNumSentFlood();
    stats.n_sent_direct = getNumSentDirect();
    stats.n_recv_flood = getNumRecvFlood();
@ -169,7 +165,10 @@ int MyMesh::handleRequest(ClientInfo *sender, uint32_t sender_timestamp, uint8_t
    telemetry.reset();
    telemetry.addVoltage(TELEM_CHANNEL_SELF, (float)board.getBattMilliVolts() / 1000.0f);
    // query other sensors -- target specific
-    sensors.querySensors((sender->isAdmin() ? 0xFF : 0x00) & perm_mask, telemetry);
+    if ((sender->permissions & PERM_ACL_ROLE_MASK) == PERM_ACL_GUEST) {
      perm_mask = 0x00;  // just base telemetry allowed
    }
    sensors.querySensors(perm_mask, telemetry);
    uint8_t tlen = telemetry.getSize();
    memcpy(&reply_data[4], telemetry.getBuffer(), tlen);
@ -266,11 +265,11 @@ const char *MyMesh::getLogDateTime() {
 uint32_t MyMesh::getRetransmitDelay(const mesh::Packet *packet) {
  uint32_t t = (_radio->getEstAirtimeFor(packet->path_len + packet->payload_len + 2) * _prefs.tx_delay_factor);
-  return getRNG()->nextInt(0, 6) * t;
+  return getRNG()->nextInt(0, 5*t + 1);
 }
 uint32_t MyMesh::getDirectRetransmitDelay(const mesh::Packet *packet) {
  uint32_t t = (_radio->getEstAirtimeFor(packet->path_len + packet->payload_len + 2) * _prefs.direct_tx_delay_factor);
-  return getRNG()->nextInt(0, 6) * t;
+  return getRNG()->nextInt(0, 5*t + 1);
 }
 bool MyMesh::allowPacketForward(const mesh::Packet *packet) {
@ -290,7 +289,7 @@ void MyMesh::onAnonDataRecv(mesh::Packet *packet, const uint8_t *secret, const m
    data[len] = 0;                                        // ensure null terminator
    ClientInfo* client = NULL;
-    if (data[8] == 0 && !_prefs.allow_read_only) {   // blank password, just check if sender is in ACL
+    if (data[8] == 0) {   // blank password, just check if sender is in ACL
      client = acl.getClient(sender.pub_key, PUB_KEY_SIZE);
      if (client == NULL) {
      #if MESH_DEBUG
@ -326,6 +325,7 @@ void MyMesh::onAnonDataRecv(mesh::Packet *packet, const uint8_t *secret, const m
      client->extra.room.push_failures = 0;
      client->last_activity = getRTCClock()->getCurrentTime();
      client->permissions &= ~0x03;
      client->permissions |= perm;
      memcpy(client->shared_secret, secret, PUB_KEY_SIZE);
@ -583,7 +583,9 @@ void MyMesh::onAckRecv(mesh::Packet *packet, uint32_t ack_crc) {
 MyMesh::MyMesh(mesh::MainBoard &board, mesh::Radio &radio, mesh::MillisecondClock &ms, mesh::RNG &rng,
               mesh::RTCClock &rtc, mesh::MeshTables &tables)
    : mesh::Mesh(radio, ms, rng, rtc, *new StaticPoolPacketManager(32), tables),
-      _cli(board, rtc, &_prefs, this), telemetry(MAX_PACKET_PAYLOAD - 4) {
+      _cli(board, rtc, sensors, &_prefs, this), telemetry(MAX_PACKET_PAYLOAD - 4) {
  last_millis = 0;
  uptime_millis = 0;
  next_local_advert = next_flood_advert = 0;
  dirty_contacts_expiry = 0;
  _logging = false;
@ -594,6 +596,7 @@ MyMesh::MyMesh(mesh::MainBoard &board, mesh::Radio &radio, mesh::MillisecondCloc
  _prefs.airtime_factor = 1.0;   // one half
  _prefs.rx_delay_base = 0.0f;   // off by default, was 10.0
  _prefs.tx_delay_factor = 0.5f; // was 0.25f;
  _prefs.direct_tx_delay_factor = 0.2f; // was zero
  StrHelper::strncpy(_prefs.node_name, ADVERT_NAME, sizeof(_prefs.node_name));
  _prefs.node_lat = ADVERT_LAT;
  _prefs.node_lon = ADVERT_LON;
@ -612,6 +615,11 @@ MyMesh::MyMesh(mesh::MainBoard &board, mesh::Radio &radio, mesh::MillisecondCloc
  StrHelper::strncpy(_prefs.guest_password, ROOM_PASSWORD, sizeof(_prefs.guest_password));
 #endif
  // GPS defaults
  _prefs.gps_enabled = 0;
  _prefs.gps_interval = 0;
  _prefs.advert_loc_policy = ADVERT_LOC_PREFS;
  next_post_idx = 0;
  next_client_idx = 0;
  next_push = 0;
@ -632,6 +640,10 @@ void MyMesh::begin(FILESYSTEM *fs) {
  updateAdvertTimer();
  updateFloodAdvertTimer();
 #if ENV_INCLUDE_GPS == 1
  applyGpsPrefs();
 #endif
 }
 void MyMesh::applyTempRadioParams(float freq, float bw, uint8_t sf, uint8_t cr, int timeout_mins) {
@ -721,6 +733,19 @@ void MyMesh::clearStats() {
  ((SimpleMeshTables *)getTables())->resetStats();
 }
 void MyMesh::formatStatsReply(char *reply) {
  StatsFormatHelper::formatCoreStats(reply, board, *_ms, _err_flags, _mgr);
 }
 void MyMesh::formatRadioStatsReply(char *reply) {
  StatsFormatHelper::formatRadioStats(reply, _radio, radio_driver, getTotalAirTime(), getReceiveAirTime());
 }
 void MyMesh::formatPacketStatsReply(char *reply) {
  StatsFormatHelper::formatPacketStats(reply, radio_driver, getNumSentFlood(), getNumSentDirect(), 
                                       getNumRecvFlood(), getNumRecvDirect());
 }
 void MyMesh::handleCommand(uint32_t sender_timestamp, char *command, char *reply) {
  while (*command == ' ')
    command++; // skip leading spaces
@ -852,4 +877,9 @@ void MyMesh::loop() {
  }
  // TODO: periodically check for OLD/inactive entries in known_clients[], and evict
  // update uptime
  uint32_t now = millis();
  uptime_millis += now - last_millis;
  last_millis = now;
 }
--- a/examples/simple_room_server/MyMesh.h
+++ b/examples/simple_room_server/MyMesh.h
@ -18,6 +18,7 @@
 #include <helpers/AdvertDataHelpers.h>
 #include <helpers/TxtDataHelpers.h>
 #include <helpers/CommonCLI.h>
 #include <helpers/StatsFormatHelper.h>
 #include <helpers/ClientACL.h>
 #include <RTClib.h>
 #include <target.h>
@ -25,11 +26,11 @@
 /* ------------------------------ Config -------------------------------- */
 #ifndef FIRMWARE_BUILD_DATE
-  #define FIRMWARE_BUILD_DATE   "2 Oct 2025"
+  #define FIRMWARE_BUILD_DATE   "13 Nov 2025"
 #endif
 #ifndef FIRMWARE_VERSION
-  #define FIRMWARE_VERSION   "v1.9.1"
+  #define FIRMWARE_VERSION   "v1.10.0"
 #endif
 #ifndef LORA_FREQ
@ -88,6 +89,8 @@ struct PostInfo {
 class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
  FILESYSTEM* _fs;
  uint32_t last_millis;
  uint64_t uptime_millis;
  unsigned long next_local_advert, next_flood_advert;
  bool _logging;
  NodePrefs _prefs;
@ -149,6 +152,12 @@ protected:
  bool onPeerPathRecv(mesh::Packet* packet, int sender_idx, const uint8_t* secret, uint8_t* path, uint8_t path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len) override;
  void onAckRecv(mesh::Packet* packet, uint32_t ack_crc) override;
 #if ENV_INCLUDE_GPS == 1
  void applyGpsPrefs() {
    sensors.setSettingValue("gps", _prefs.gps_enabled?"1":"0");
  }
 #endif
 public:
  MyMesh(mesh::MainBoard& board, mesh::Radio& radio, mesh::MillisecondClock& ms, mesh::RNG& rng, mesh::RTCClock& rtc, mesh::MeshTables& tables);
@ -184,6 +193,9 @@ public:
  void formatNeighborsReply(char *reply) override {
    strcpy(reply, "not supported");
  }
  void formatStatsReply(char *reply) override;
  void formatRadioStatsReply(char *reply) override;
  void formatPacketStatsReply(char *reply) override;
  mesh::LocalIdentity& getSelfId() override { return self_id; }
--- a/examples/simple_room_server/main.cpp
+++ b/examples/simple_room_server/main.cpp
@ -110,4 +110,5 @@ void loop() {
 #ifdef DISPLAY_CLASS
  ui_task.loop();
 #endif
  rtc_clock.tick();
 }
--- a/examples/simple_secure_chat/main.cpp
+++ b/examples/simple_secure_chat/main.cpp
@ -548,7 +548,7 @@ public:
 StdRNG fast_rng;
 SimpleMeshTables tables;
-MyMesh the_mesh(radio_driver, fast_rng, *new VolatileRTCClock(), tables); // TODO: test with 'rtc_clock' in target.cpp
+MyMesh the_mesh(radio_driver, fast_rng, rtc_clock, tables);
 void halt() {
  while (1) ;
@ -587,4 +587,5 @@ void setup() {
 void loop() {
  the_mesh.loop();
  rtc_clock.tick();
 }
--- a/examples/simple_sensor/SensorMesh.cpp
+++ b/examples/simple_sensor/SensorMesh.cpp
@ -239,11 +239,7 @@ uint8_t SensorMesh::handleRequest(uint8_t perms, uint32_t sender_timestamp, uint
 mesh::Packet* SensorMesh::createSelfAdvert() {
  uint8_t app_data[MAX_ADVERT_DATA_SIZE];
-  uint8_t app_data_len;
+  uint8_t app_data_len = _cli.buildAdvertData(ADV_TYPE_SENSOR, app_data);
  {
    AdvertDataBuilder builder(ADV_TYPE_SENSOR, _prefs.node_name, _prefs.node_lat, _prefs.node_lon);
    app_data_len = builder.encodeTo(app_data);
  }
  return createAdvert(self_id, app_data, app_data_len);
 }
@ -453,7 +449,14 @@ void SensorMesh::onAnonDataRecv(mesh::Packet* packet, const uint8_t* secret, con
    memcpy(&timestamp, data, 4);
    data[len] = 0;  // ensure null terminator
-    uint8_t reply_len = handleLoginReq(sender, secret, timestamp, &data[4]);
+    uint8_t reply_len;
    if (data[4] == 0 || data[4] >= ' ') {   // is password, ie. a login request
      reply_len = handleLoginReq(sender, secret, timestamp, &data[4]);
    //} else if (data[4] == ANON_REQ_TYPE_*) {   // future type codes
      // TODO
    } else {
      reply_len = 0;  // unknown request type
    }
    if (reply_len == 0) return;   // invalid request
@ -614,6 +617,39 @@ bool SensorMesh::handleIncomingMsg(ClientInfo& from, uint32_t timestamp, uint8_t
  return false;
 }
 #define CTL_TYPE_NODE_DISCOVER_REQ   0x80
 #define CTL_TYPE_NODE_DISCOVER_RESP  0x90
 void SensorMesh::onControlDataRecv(mesh::Packet* packet) {
  uint8_t type = packet->payload[0] & 0xF0;    // just test upper 4 bits
  if (type == CTL_TYPE_NODE_DISCOVER_REQ && packet->payload_len >= 6) {
    // TODO: apply rate limiting to these!
    int i = 1;
    uint8_t  filter = packet->payload[i++];
    uint32_t tag;
    memcpy(&tag, &packet->payload[i], 4); i += 4;
    uint32_t since;
    if (packet->payload_len >= i+4) {   // optional since field
      memcpy(&since, &packet->payload[i], 4); i += 4;
    } else {
      since = 0;
    }
    if ((filter & (1 << ADV_TYPE_SENSOR)) != 0 && _prefs.discovery_mod_timestamp >= since) {
      bool prefix_only = packet->payload[0] & 1;
      uint8_t data[6 + PUB_KEY_SIZE];
      data[0] = CTL_TYPE_NODE_DISCOVER_RESP | ADV_TYPE_SENSOR;   // low 4-bits for node type
      data[1] = packet->_snr;   // let sender know the inbound SNR ( x 4)
      memcpy(&data[2], &tag, 4);     // include tag from request, for client to match to
      memcpy(&data[6], self_id.pub_key, PUB_KEY_SIZE);
      auto resp = createControlData(data,  prefix_only ? 6 + 8 : 6 + PUB_KEY_SIZE);
      if (resp) {
        sendZeroHop(resp, getRetransmitDelay(resp)*4);  // apply random delay (widened x4), as multiple nodes can respond to this
      }
    }
  }
 }
 bool SensorMesh::onPeerPathRecv(mesh::Packet* packet, int sender_idx, const uint8_t* secret, uint8_t* path, uint8_t path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len) {
  int i = matching_peer_indexes[sender_idx];
  if (i < 0 || i >= acl.getNumClients()) {
@ -655,7 +691,7 @@ void SensorMesh::onAckRecv(mesh::Packet* packet, uint32_t ack_crc) {
 SensorMesh::SensorMesh(mesh::MainBoard& board, mesh::Radio& radio, mesh::MillisecondClock& ms, mesh::RNG& rng, mesh::RTCClock& rtc, mesh::MeshTables& tables)
     : mesh::Mesh(radio, ms, rng, rtc, *new StaticPoolPacketManager(32), tables),
-      _cli(board, rtc, &_prefs, this), telemetry(MAX_PACKET_PAYLOAD - 4)
+      _cli(board, rtc, sensors, &_prefs, this), telemetry(MAX_PACKET_PAYLOAD - 4)
 {
  next_local_advert = next_flood_advert = 0;
  dirty_contacts_expiry = 0;
@ -668,6 +704,7 @@ SensorMesh::SensorMesh(mesh::MainBoard& board, mesh::Radio& radio, mesh::Millise
  _prefs.airtime_factor = 1.0;    // one half
  _prefs.rx_delay_base =   0.0f;  // turn off by default, was 10.0;
  _prefs.tx_delay_factor = 0.5f;   // was 0.25f
  _prefs.direct_tx_delay_factor = 0.2f; // was zero
  StrHelper::strncpy(_prefs.node_name, ADVERT_NAME, sizeof(_prefs.node_name));
  _prefs.node_lat = ADVERT_LAT;
  _prefs.node_lon = ADVERT_LON;
@ -682,6 +719,11 @@ SensorMesh::SensorMesh(mesh::MainBoard& board, mesh::Radio& radio, mesh::Millise
  _prefs.disable_fwd = true;
  _prefs.flood_max = 64;
  _prefs.interference_threshold = 0;  // disabled
  // GPS defaults
  _prefs.gps_enabled = 0;
  _prefs.gps_interval = 0;
  _prefs.advert_loc_policy = ADVERT_LOC_PREFS;
 }
 void SensorMesh::begin(FILESYSTEM* fs) {
@ -697,6 +739,10 @@ void SensorMesh::begin(FILESYSTEM* fs) {
  updateAdvertTimer();
  updateFloodAdvertTimer();
 #if ENV_INCLUDE_GPS == 1
  applyGpsPrefs();
 #endif
 }
 bool SensorMesh::formatFileSystem() {
@ -764,6 +810,19 @@ void SensorMesh::setTxPower(uint8_t power_dbm) {
  radio_set_tx_power(power_dbm);
 }
 void SensorMesh::formatStatsReply(char *reply) {
  StatsFormatHelper::formatCoreStats(reply, board, *_ms, _err_flags, _mgr);
 }
 void SensorMesh::formatRadioStatsReply(char *reply) {
  StatsFormatHelper::formatRadioStats(reply, _radio, radio_driver, getTotalAirTime(), getReceiveAirTime());
 }
 void SensorMesh::formatPacketStatsReply(char *reply) {
  StatsFormatHelper::formatPacketStats(reply, radio_driver, getNumSentFlood(), getNumSentDirect(), 
                                       getNumRecvFlood(), getNumRecvDirect());
 }
 float SensorMesh::getTelemValue(uint8_t channel, uint8_t type) {
  auto buf = telemetry.getBuffer();
  uint8_t size = telemetry.getSize();
--- a/examples/simple_sensor/SensorMesh.h
+++ b/examples/simple_sensor/SensorMesh.h
@ -20,6 +20,7 @@
 #include <helpers/AdvertDataHelpers.h>
 #include <helpers/TxtDataHelpers.h>
 #include <helpers/CommonCLI.h>
 #include <helpers/StatsFormatHelper.h>
 #include <helpers/ClientACL.h>
 #include <RTClib.h>
 #include <target.h>
@ -32,11 +33,11 @@
 #define PERM_RECV_ALERTS_HI    (1 << 7)   // high priority alerts
 #ifndef FIRMWARE_BUILD_DATE
-  #define FIRMWARE_BUILD_DATE   "2 Oct 2025"
+  #define FIRMWARE_BUILD_DATE   "13 Nov 2025"
 #endif
 #ifndef FIRMWARE_VERSION
-  #define FIRMWARE_VERSION   "v1.9.1"
+  #define FIRMWARE_VERSION   "v1.10.0"
 #endif
 #define FIRMWARE_ROLE "sensor"
@ -69,6 +70,9 @@ public:
  void formatNeighborsReply(char *reply) override {
    strcpy(reply, "not supported");
  }
  void formatStatsReply(char *reply) override;
  void formatRadioStatsReply(char *reply) override;
  void formatPacketStatsReply(char *reply) override;
  mesh::LocalIdentity& getSelfId() override { return self_id; }
  void saveIdentity(const mesh::LocalIdentity& new_id) override;
  void clearStats() override { }
@ -121,6 +125,7 @@ protected:
  void getPeerSharedSecret(uint8_t* dest_secret, int peer_idx) override;
  void onPeerDataRecv(mesh::Packet* packet, uint8_t type, int sender_idx, const uint8_t* secret, uint8_t* data, size_t len) override;
  bool onPeerPathRecv(mesh::Packet* packet, int sender_idx, const uint8_t* secret, uint8_t* path, uint8_t path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len) override;
  void onControlDataRecv(mesh::Packet* packet) override;
  void onAckRecv(mesh::Packet* packet, uint32_t ack_crc) override;
  virtual bool handleIncomingMsg(ClientInfo& from, uint32_t timestamp, uint8_t* data, uint flags, size_t len);
  void sendAckTo(const ClientInfo& dest, uint32_t ack_hash);
@ -149,4 +154,9 @@ private:
  void sendAlert(const ClientInfo* c, Trigger* t);
  #if ENV_INCLUDE_GPS == 1
  void applyGpsPrefs() {
    sensors.setSettingValue("gps", _prefs.gps_enabled?"1":"0");
  }
 #endif
 };
--- a/examples/simple_sensor/main.cpp
+++ b/examples/simple_sensor/main.cpp
@ -144,4 +144,5 @@ void loop() {
 #ifdef DISPLAY_CLASS
  ui_task.loop();
 #endif
  rtc_clock.tick();
 }
--- a/library.json
+++ b/library.json
@ -1,14 +1,14 @@
 {
    "name": "MeshCore",
-    "version" : "1.8.0",
+    "version" : "1.10.0",
    "dependencies": {
        "SPI": "*",
        "Wire": "*",
-        "jgromes/RadioLib": "^7.1.2",
+        "jgromes/RadioLib": "^7.3.0",
        "rweather/Crypto": "^0.4.0",
        "adafruit/RTClib": "^2.1.3",
        "melopero/Melopero RV3028": "^1.1.0",
-        "electroniccats/CayenneLPP": "1.4.0"
+        "electroniccats/CayenneLPP": "1.6.1"
    },
    "build": {
        "extraScript": "build_as_lib.py"
--- a/platformio.ini
+++ b/platformio.ini
@ -18,11 +18,11 @@ monitor_speed = 115200
 lib_deps =
  SPI
  Wire
-  jgromes/RadioLib @ ^7.1.2
+  jgromes/RadioLib @ ^7.3.0
  rweather/Crypto @ ^0.4.0
  adafruit/RTClib @ ^2.1.3
  melopero/Melopero RV3028 @ ^1.1.0
-  electroniccats/CayenneLPP @ 1.4.0
+  electroniccats/CayenneLPP @ 1.6.1
 build_flags = -w -DNDEBUG -DRADIOLIB_STATIC_ONLY=1 -DRADIOLIB_GODMODE=1
  -D LORA_FREQ=869.525
  -D LORA_BW=250
@ -67,6 +67,7 @@ lib_deps =
  file://arch/esp32/AsyncElegantOTA
 ; esp32c6 uses arduino framework 3.x
 ; WARNING: experimental. pioarduino on esp32c6 needs work - it's not considered stable and has issues.
 [esp32c6_base]
 extends = esp32_base
 platform = https://github.com/pioarduino/platform-espressif32/releases/download/53.03.12/platform-espressif32.zip
@ -76,6 +77,9 @@ platform = https://github.com/pioarduino/platform-espressif32/releases/download/
 [nrf52_base]
 extends = arduino_base
 platform = nordicnrf52
 platform_packages =
  framework-arduinoadafruitnrf52 @ 1.10700.0
 extra_scripts = create-uf2.py
 build_flags = ${arduino_base.build_flags}
  -D NRF52_PLATFORM
  -D LFS_NO_ASSERT=1
@ -124,6 +128,8 @@ build_flags =
  -D ENV_INCLUDE_INA260=1
  -D ENV_INCLUDE_MLX90614=1
  -D ENV_INCLUDE_VL53L0X=1
  -D ENV_INCLUDE_BME680=1
  -D ENV_INCLUDE_BMP085=1
 lib_deps =
  adafruit/Adafruit INA3221 Library @ ^1.0.1
  adafruit/Adafruit INA219 @ ^1.2.3
@ -138,3 +144,5 @@ lib_deps =
  adafruit/Adafruit MLX90614 Library @ ^2.1.5
  adafruit/Adafruit_VL53L0X @ ^1.2.4
  stevemarple/MicroNMEA @ ^2.0.6
  adafruit/Adafruit BME680 Library @ ^2.0.4
  adafruit/Adafruit BMP085 Library @ ^1.2.4
--- a/src/Mesh.cpp
+++ b/src/Mesh.cpp
@ -68,6 +68,14 @@ DispatcherAction Mesh::onRecvPacket(Packet* pkt) {
    return ACTION_RELEASE;
  }
  if (pkt->isRouteDirect() && pkt->getPayloadType() == PAYLOAD_TYPE_CONTROL && (pkt->payload[0] & 0x80) != 0) {
    if (pkt->path_len == 0) {
      onControlDataRecv(pkt);
    }
    // just zero-hop control packets allowed (for this subset of payloads)
    return ACTION_RELEASE;
  }
  if (pkt->isRouteDirect() && pkt->path_len >= PATH_HASH_SIZE) {
    if (self_id.isHashMatch(pkt->path) && allowPacketForward(pkt)) {
      if (pkt->getPayloadType() == PAYLOAD_TYPE_MULTIPART) {
@ -90,6 +98,8 @@ DispatcherAction Mesh::onRecvPacket(Packet* pkt) {
    return ACTION_RELEASE;   // this node is NOT the next hop (OR this packet has already been forwarded), so discard.
  }
  if (pkt->isRouteFlood() && filterRecvFloodPacket(pkt)) return ACTION_RELEASE;
  DispatcherAction action = ACTION_RELEASE;
  switch (pkt->getPayloadType()) {
@ -201,9 +211,9 @@ DispatcherAction Mesh::onRecvPacket(Packet* pkt) {
      if (i + 2 >= pkt->payload_len) {
        MESH_DEBUG_PRINTLN("%s Mesh::onRecvPacket(): incomplete data packet", getLogDateTime());
      } else if (!_tables->hasSeen(pkt)) {
-        // scan channels DB, for all matching hashes of 'channel_hash' (max 2 matches supported ATM)
+        // scan channels DB, for all matching hashes of 'channel_hash' (max 4 matches supported ATM)
-        GroupChannel channels[2];
+        GroupChannel channels[4];
-        int num = searchChannelsByHash(&channel_hash, channels, 2);
+        int num = searchChannelsByHash(&channel_hash, channels, 4);
        // for each matching channel, try to decrypt data
        for (int j = 0; j < num; j++) {
          // decrypt, checking MAC is valid
@ -587,6 +597,22 @@ Packet* Mesh::createTrace(uint32_t tag, uint32_t auth_code, uint8_t flags) {
  return packet;
 }
 Packet* Mesh::createControlData(const uint8_t* data, size_t len) {
  if (len > sizeof(Packet::payload)) return NULL;  // invalid arg
  Packet* packet = obtainNewPacket();
  if (packet == NULL) {
    MESH_DEBUG_PRINTLN("%s Mesh::createControlData(): error, packet pool empty", getLogDateTime());
    return NULL;
  }
  packet->header = (PAYLOAD_TYPE_CONTROL << PH_TYPE_SHIFT);  // ROUTE_TYPE_* set later
  memcpy(packet->payload, data, len);
  packet->payload_len = len;
  return packet;
 }
 void Mesh::sendFlood(Packet* packet, uint32_t delay_millis) {
  if (packet->getPayloadType() == PAYLOAD_TYPE_TRACE) {
    MESH_DEBUG_PRINTLN("%s Mesh::sendFlood(): TRACE type not suspported", getLogDateTime());
@ -610,6 +636,31 @@ void Mesh::sendFlood(Packet* packet, uint32_t delay_millis) {
  sendPacket(packet, pri, delay_millis);
 }
 void Mesh::sendFlood(Packet* packet, uint16_t* transport_codes, uint32_t delay_millis) {
  if (packet->getPayloadType() == PAYLOAD_TYPE_TRACE) {
    MESH_DEBUG_PRINTLN("%s Mesh::sendFlood(): TRACE type not suspported", getLogDateTime());
    return;
  }
  packet->header &= ~PH_ROUTE_MASK;
  packet->header |= ROUTE_TYPE_TRANSPORT_FLOOD;
  packet->transport_codes[0] = transport_codes[0];
  packet->transport_codes[1] = transport_codes[1];
  packet->path_len = 0;
  _tables->hasSeen(packet); // mark this packet as already sent in case it is rebroadcast back to us
  uint8_t pri;
  if (packet->getPayloadType() == PAYLOAD_TYPE_PATH) {
    pri = 2;
  } else if (packet->getPayloadType() == PAYLOAD_TYPE_ADVERT) {
    pri = 3;   // de-prioritie these
  } else {
    pri = 1;
  }
  sendPacket(packet, pri, delay_millis);
 }
 void Mesh::sendDirect(Packet* packet, const uint8_t* path, uint8_t path_len, uint32_t delay_millis) {
  packet->header &= ~PH_ROUTE_MASK;
  packet->header |= ROUTE_TYPE_DIRECT;
@ -645,4 +696,17 @@ void Mesh::sendZeroHop(Packet* packet, uint32_t delay_millis) {
  sendPacket(packet, 0, delay_millis);
 }
 void Mesh::sendZeroHop(Packet* packet, uint16_t* transport_codes, uint32_t delay_millis) {
  packet->header &= ~PH_ROUTE_MASK;
  packet->header |= ROUTE_TYPE_TRANSPORT_DIRECT;
  packet->transport_codes[0] = transport_codes[0];
  packet->transport_codes[1] = transport_codes[1];
  packet->path_len = 0;  // path_len of zero means Zero Hop
  _tables->hasSeen(packet); // mark this packet as already sent in case it is rebroadcast back to us
  sendPacket(packet, 0, delay_millis);
 }
 }
--- a/src/Mesh.h
+++ b/src/Mesh.h
@ -43,6 +43,12 @@ protected:
   */
  DispatcherAction routeRecvPacket(Packet* packet);
  /**
   * \brief    Called _before_ the packet is dispatched to the on..Recv() methods.
   * \returns  true, if given packet should be NOT be processed.
   */
  virtual bool filterRecvFloodPacket(Packet* packet) { return false; }
  /**
   * \brief  Check whether this packet should be forwarded (re-transmitted) or not.
   *     Is sub-classes responsibility to make sure given packet is only transmitted ONCE (by this node)
@ -128,6 +134,11 @@ protected:
  */
  virtual void onPathRecv(Packet* packet, Identity& sender, uint8_t* path, uint8_t path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len) { }
  /**
   * \brief  A control packet has been received.
  */
  virtual void onControlDataRecv(Packet* packet) { }
  /**
   * \brief  A packet with PAYLOAD_TYPE_RAW_CUSTOM has been received.
  */
@ -180,12 +191,19 @@ public:
  Packet* createPathReturn(const Identity& dest, const uint8_t* secret, const uint8_t* path, uint8_t path_len, uint8_t extra_type, const uint8_t*extra, size_t extra_len);
  Packet* createRawData(const uint8_t* data, size_t len);
  Packet* createTrace(uint32_t tag, uint32_t auth_code, uint8_t flags = 0);
  Packet* createControlData(const uint8_t* data, size_t len);
  /**
   * \brief  send a locally-generated Packet with flood routing
  */
  void sendFlood(Packet* packet, uint32_t delay_millis=0);
  /**
   * \brief  send a locally-generated Packet with flood routing
   * \param transport_codes   array of 2 codes to attach to packet
  */
  void sendFlood(Packet* packet, uint16_t* transport_codes, uint32_t delay_millis=0);
  /**
   * \brief  send a locally-generated Packet with Direct routing
  */
@ -196,6 +214,12 @@ public:
  */
  void sendZeroHop(Packet* packet, uint32_t delay_millis=0);
  /**
   * \brief  send a locally-generated Packet to just neigbor nodes (zero hops), with specific transort codes
   * \param transport_codes   array of 2 codes to attach to packet
  */
  void sendZeroHop(Packet* packet, uint16_t* transport_codes, uint32_t delay_millis=0);
 };
 }
--- a/src/MeshCore.h
+++ b/src/MeshCore.h
@ -28,6 +28,12 @@
  #define MESH_DEBUG_PRINTLN(...) {}
 #endif
 #if BRIDGE_DEBUG && ARDUINO
 #define BRIDGE_DEBUG_PRINTLN(F, ...) Serial.printf("%s BRIDGE: " F, getLogDateTime(), ##__VA_ARGS__)
 #else
 #define BRIDGE_DEBUG_PRINTLN(...) {}
 #endif
 namespace mesh {
 #define  BD_STARTUP_NORMAL     0  // getStartupReason() codes
@ -66,6 +72,11 @@ public:
  */
  virtual void setCurrentTime(uint32_t time) = 0;
  /**
   * override in classes that need to periodically update internal state
   */
  virtual void tick() { /* no op */}
  uint32_t getCurrentTimeUnique() {
    uint32_t t = getCurrentTime();
    if (t <= last_unique) {
--- a/src/Packet.h
+++ b/src/Packet.h
@ -27,6 +27,7 @@ namespace mesh {
 #define PAYLOAD_TYPE_PATH        0x08    // returned path (prefixed with dest/src hashes, MAC) (enc data: path, extra)
 #define PAYLOAD_TYPE_TRACE       0x09    // trace a path, collecting SNI for each hop
 #define PAYLOAD_TYPE_MULTIPART   0x0A    // packet is one of a set of packets
 #define PAYLOAD_TYPE_CONTROL     0x0B    // a control/discovery packet
 //...
 #define PAYLOAD_TYPE_RAW_CUSTOM   0x0F    // custom packet as raw bytes, for applications with custom encryption, payloads, etc
--- a/src/helpers/AbstractBridge.h
+++ b/src/helpers/AbstractBridge.h
@ -11,6 +11,18 @@ public:
   */
  virtual void begin() = 0;
  /**
   * @brief Stops the bridge.
   */
  virtual void end() = 0;
  /**
   * @brief Gets the current state of the bridge.
   *
   * @return true if the bridge is initialized and running, false otherwise.
   */
  virtual bool isRunning() const = 0;
  /**
   * @brief A method to be called on every main loop iteration.
   *        Used for tasks like checking for incoming data.
@ -20,14 +32,14 @@ public:
  /**
   * @brief A callback that is triggered when the mesh transmits a packet.
   *        The bridge can use this to forward the packet.
-   * 
+   *
   * @param packet The packet that was transmitted.
   */
-  virtual void onPacketTransmitted(mesh::Packet* packet) = 0;
+  virtual void sendPacket(mesh::Packet* packet) = 0;
  /**
   * @brief Processes a received packet from the bridge's medium.
-   * 
+   *
   * @param packet The packet that was received.
   */
  virtual void onPacketReceived(mesh::Packet* packet) = 0;
--- a/src/helpers/ArduinoHelpers.h
+++ b/src/helpers/ArduinoHelpers.h
@ -4,11 +4,19 @@
 #include <Arduino.h>
 class VolatileRTCClock : public mesh::RTCClock {
-  long millis_offset;
+  uint32_t base_time;
  uint64_t accumulator;
  unsigned long prev_millis;
 public:
-  VolatileRTCClock() { millis_offset = 1715770351; } // 15 May 2024, 8:50pm
+  VolatileRTCClock() { base_time = 1715770351; accumulator = 0; prev_millis = millis(); }   // 15 May 2024, 8:50pm
-  uint32_t getCurrentTime() override { return (millis()/1000 + millis_offset); }
+  uint32_t getCurrentTime() override { return base_time + accumulator/1000; }
-  void setCurrentTime(uint32_t time) override { millis_offset = time - millis()/1000; }
+  void setCurrentTime(uint32_t time) override { base_time = time; accumulator = 0; prev_millis = millis(); }
  void tick() override {
    unsigned long now = millis();
    accumulator += (now - prev_millis);
    prev_millis = now;
  }
 };
 class ArduinoMillis : public mesh::MillisecondClock {
--- a/src/helpers/AutoDiscoverRTCClock.h
+++ b/src/helpers/AutoDiscoverRTCClock.h
@ -14,4 +14,8 @@ public:
  void begin(TwoWire& wire);
  uint32_t getCurrentTime() override;
  void setCurrentTime(uint32_t time) override;
  void tick() override {
    _fallback->tick();   // is typically VolatileRTCClock, which now needs tick()
  }
 };
--- a/src/helpers/BaseChatMesh.cpp
+++ b/src/helpers/BaseChatMesh.cpp
@ -9,6 +9,13 @@
  #define TXT_ACK_DELAY     200
 #endif
 void BaseChatMesh::sendFloodScoped(const ContactInfo& recipient, mesh::Packet* pkt, uint32_t delay_millis) {
  sendFlood(pkt, delay_millis);
 }
 void BaseChatMesh::sendFloodScoped(const mesh::GroupChannel& channel, mesh::Packet* pkt, uint32_t delay_millis) {
  sendFlood(pkt, delay_millis);
 }
 mesh::Packet* BaseChatMesh::createSelfAdvert(const char* name) {
  uint8_t app_data[MAX_ADVERT_DATA_SIZE];
  uint8_t app_data_len;
@ -34,7 +41,7 @@ mesh::Packet* BaseChatMesh::createSelfAdvert(const char* name, double lat, doubl
 void BaseChatMesh::sendAckTo(const ContactInfo& dest, uint32_t ack_hash) {
  if (dest.out_path_len < 0) {
    mesh::Packet* ack = createAck(ack_hash);
-    if (ack) sendFlood(ack, TXT_ACK_DELAY);
+    if (ack) sendFloodScoped(dest, ack, TXT_ACK_DELAY);
  } else {
    uint32_t d = TXT_ACK_DELAY;
    if (getExtraAckTransmitCount() > 0) {
@ -68,9 +75,16 @@ void BaseChatMesh::onAdvertRecv(mesh::Packet* packet, const mesh::Identity& id,
  }
  // save a copy of raw advert packet (to support "Share..." function)
-  int plen = packet->writeTo(temp_buf);
+  int plen;
  {
    uint8_t save = packet->header;
    packet->header &= ~PH_ROUTE_MASK;
    packet->header |= ROUTE_TYPE_FLOOD;   // make sure transport codes are NOT saved
    plen = packet->writeTo(temp_buf);
    packet->header = save;
  }
  putBlobByKey(id.pub_key, PUB_KEY_SIZE, temp_buf, plen);
-  
+
  bool is_new = false;
  if (from == NULL) {
    if (!isAutoAddEnabled()) {
@ -168,7 +182,7 @@ void BaseChatMesh::onPeerDataRecv(mesh::Packet* packet, uint8_t type, int sender
        // let this sender know path TO here, so they can use sendDirect(), and ALSO encode the ACK
        mesh::Packet* path = createPathReturn(from.id, secret, packet->path, packet->path_len,
                                                PAYLOAD_TYPE_ACK, (uint8_t *) &ack_hash, 4);
-        if (path) sendFlood(path, TXT_ACK_DELAY);
+        if (path) sendFloodScoped(from, path, TXT_ACK_DELAY);
      } else {
        sendAckTo(from, ack_hash);
      }
@ -179,7 +193,7 @@ void BaseChatMesh::onPeerDataRecv(mesh::Packet* packet, uint8_t type, int sender
      if (packet->isRouteFlood()) {
        // let this sender know path TO here, so they can use sendDirect() (NOTE: no ACK as extra)
        mesh::Packet* path = createPathReturn(from.id, secret, packet->path, packet->path_len, 0, NULL, 0);
-        if (path) sendFlood(path);
+        if (path) sendFloodScoped(from, path);
      }
    } else if (flags == TXT_TYPE_SIGNED_PLAIN) {
      if (timestamp > from.sync_since) {  // make sure 'sync_since' is up-to-date
@ -195,7 +209,7 @@ void BaseChatMesh::onPeerDataRecv(mesh::Packet* packet, uint8_t type, int sender
        // let this sender know path TO here, so they can use sendDirect(), and ALSO encode the ACK
        mesh::Packet* path = createPathReturn(from.id, secret, packet->path, packet->path_len,
                                                PAYLOAD_TYPE_ACK, (uint8_t *) &ack_hash, 4);
-        if (path) sendFlood(path, TXT_ACK_DELAY);
+        if (path) sendFloodScoped(from, path, TXT_ACK_DELAY);
      } else {
        sendAckTo(from, ack_hash);
      }
@ -211,14 +225,14 @@ void BaseChatMesh::onPeerDataRecv(mesh::Packet* packet, uint8_t type, int sender
        // let this sender know path TO here, so they can use sendDirect(), and ALSO encode the response
        mesh::Packet* path = createPathReturn(from.id, secret, packet->path, packet->path_len,
                                              PAYLOAD_TYPE_RESPONSE, temp_buf, reply_len);
-        if (path) sendFlood(path, SERVER_RESPONSE_DELAY);
+        if (path) sendFloodScoped(from, path, SERVER_RESPONSE_DELAY);
      } else {
        mesh::Packet* reply = createDatagram(PAYLOAD_TYPE_RESPONSE, from.id, secret, temp_buf, reply_len);
        if (reply) {
          if (from.out_path_len >= 0) {  // we have an out_path, so send DIRECT
            sendDirect(reply, from.out_path, from.out_path_len, SERVER_RESPONSE_DELAY);
          } else {
-            sendFlood(reply, SERVER_RESPONSE_DELAY);
+            sendFloodScoped(from, reply, SERVER_RESPONSE_DELAY);
          }
        }
      }
@ -339,7 +353,7 @@ int  BaseChatMesh::sendMessage(const ContactInfo& recipient, uint32_t timestamp,
  int rc;
  if (recipient.out_path_len < 0) {
-    sendFlood(pkt);
+    sendFloodScoped(recipient, pkt);
    txt_send_timeout = futureMillis(est_timeout = calcFloodTimeoutMillisFor(t));
    rc = MSG_SEND_SENT_FLOOD;
  } else {
@ -365,7 +379,7 @@ int  BaseChatMesh::sendCommandData(const ContactInfo& recipient, uint32_t timest
  uint32_t t = _radio->getEstAirtimeFor(pkt->getRawLength());
  int rc;
  if (recipient.out_path_len < 0) {
-    sendFlood(pkt);
+    sendFloodScoped(recipient, pkt);
    txt_send_timeout = futureMillis(est_timeout = calcFloodTimeoutMillisFor(t));
    rc = MSG_SEND_SENT_FLOOD;
  } else {
@ -391,7 +405,7 @@ bool BaseChatMesh::sendGroupMessage(uint32_t timestamp, mesh::GroupChannel& chan
  auto pkt = createGroupDatagram(PAYLOAD_TYPE_GRP_TXT, channel, temp, 5 + prefix_len + text_len);
  if (pkt) {
-    sendFlood(pkt);
+    sendFloodScoped(channel, pkt);
    return true;
  }
  return false;
@ -405,7 +419,9 @@ bool BaseChatMesh::shareContactZeroHop(const ContactInfo& contact) {
  if (packet == NULL) return false;  // no Packets available
  packet->readFrom(temp_buf, plen);  // restore Packet from 'blob'
-  sendZeroHop(packet);
+  uint16_t codes[2];
  codes[0] = codes[1] = 0;   // { 0, 0 } means 'send this nowhere'
  sendZeroHop(packet, codes);
  return true;  // success
 }
@ -451,7 +467,7 @@ int BaseChatMesh::sendLogin(const ContactInfo& recipient, const char* password,
  if (pkt) {
    uint32_t t = _radio->getEstAirtimeFor(pkt->getRawLength());
    if (recipient.out_path_len < 0) {
-      sendFlood(pkt);
+      sendFloodScoped(recipient, pkt);
      est_timeout = calcFloodTimeoutMillisFor(t);
      return MSG_SEND_SENT_FLOOD;
    } else {
@ -478,7 +494,7 @@ int  BaseChatMesh::sendRequest(const ContactInfo& recipient, const uint8_t* req_
  if (pkt) {
    uint32_t t = _radio->getEstAirtimeFor(pkt->getRawLength());
    if (recipient.out_path_len < 0) {
-      sendFlood(pkt);
+      sendFloodScoped(recipient, pkt);
      est_timeout = calcFloodTimeoutMillisFor(t);
      return MSG_SEND_SENT_FLOOD;
    } else {
@ -505,7 +521,7 @@ int  BaseChatMesh::sendRequest(const ContactInfo& recipient, uint8_t req_type, u
  if (pkt) {
    uint32_t t = _radio->getEstAirtimeFor(pkt->getRawLength());
    if (recipient.out_path_len < 0) {
-      sendFlood(pkt);
+      sendFloodScoped(recipient, pkt);
      est_timeout = calcFloodTimeoutMillisFor(t);
      return MSG_SEND_SENT_FLOOD;
    } else {
--- a/src/helpers/BaseChatMesh.h
+++ b/src/helpers/BaseChatMesh.h
@ -107,6 +107,9 @@ protected:
  virtual void onContactResponse(const ContactInfo& contact, const uint8_t* data, uint8_t len) = 0;
  virtual void handleReturnPathRetry(const ContactInfo& contact, const uint8_t* path, uint8_t path_len);
  virtual void sendFloodScoped(const ContactInfo& recipient, mesh::Packet* pkt, uint32_t delay_millis=0);
  virtual void sendFloodScoped(const mesh::GroupChannel& channel, mesh::Packet* pkt, uint32_t delay_millis=0);
  // storage concepts, for sub-classes to override/implement
  virtual int  getBlobByKey(const uint8_t key[], int key_len, uint8_t dest_buf[]) { return 0; }  // not implemented
  virtual bool putBlobByKey(const uint8_t key[], int key_len, const uint8_t src_buf[], int len) { return false; }
--- a/src/helpers/CommonCLI.cpp
+++ b/src/helpers/CommonCLI.cpp
@ -1,6 +1,7 @@
 #include <Arduino.h>
 #include "CommonCLI.h"
 #include "TxtDataHelpers.h"
 #include "AdvertDataHelpers.h"
 #include <RTClib.h>
 // Believe it or not, this std C function is busted on some platforms!
@ -32,32 +33,44 @@ void CommonCLI::loadPrefsInt(FILESYSTEM* fs, const char* filename) {
  if (file) {
    uint8_t pad[8];
-    file.read((uint8_t *) &_prefs->airtime_factor, sizeof(_prefs->airtime_factor));  // 0
+    file.read((uint8_t *)&_prefs->airtime_factor, sizeof(_prefs->airtime_factor));    // 0
-    file.read((uint8_t *) &_prefs->node_name, sizeof(_prefs->node_name));  // 4
+    file.read((uint8_t *)&_prefs->node_name, sizeof(_prefs->node_name));              // 4
-    file.read(pad, 4);   // 36
+    file.read(pad, 4);                                                                // 36
-    file.read((uint8_t *) &_prefs->node_lat, sizeof(_prefs->node_lat));  // 40
+    file.read((uint8_t *)&_prefs->node_lat, sizeof(_prefs->node_lat));                // 40
-    file.read((uint8_t *) &_prefs->node_lon, sizeof(_prefs->node_lon));  // 48
+    file.read((uint8_t *)&_prefs->node_lon, sizeof(_prefs->node_lon));                // 48
-    file.read((uint8_t *) &_prefs->password[0], sizeof(_prefs->password));  // 56
+    file.read((uint8_t *)&_prefs->password[0], sizeof(_prefs->password));             // 56
-    file.read((uint8_t *) &_prefs->freq, sizeof(_prefs->freq));   // 72
+    file.read((uint8_t *)&_prefs->freq, sizeof(_prefs->freq));                        // 72
-    file.read((uint8_t *) &_prefs->tx_power_dbm, sizeof(_prefs->tx_power_dbm));  // 76
+    file.read((uint8_t *)&_prefs->tx_power_dbm, sizeof(_prefs->tx_power_dbm));        // 76
-    file.read((uint8_t *) &_prefs->disable_fwd, sizeof(_prefs->disable_fwd));  // 77
+    file.read((uint8_t *)&_prefs->disable_fwd, sizeof(_prefs->disable_fwd));          // 77
-    file.read((uint8_t *) &_prefs->advert_interval, sizeof(_prefs->advert_interval));  // 78
+    file.read((uint8_t *)&_prefs->advert_interval, sizeof(_prefs->advert_interval));  // 78
-    file.read((uint8_t *) pad, 1);  // 79  was 'unused'
+    file.read((uint8_t *)pad, 1);                                                     // 79  was 'unused'
-    file.read((uint8_t *) &_prefs->rx_delay_base, sizeof(_prefs->rx_delay_base));  // 80
+    file.read((uint8_t *)&_prefs->rx_delay_base, sizeof(_prefs->rx_delay_base));      // 80
-    file.read((uint8_t *) &_prefs->tx_delay_factor, sizeof(_prefs->tx_delay_factor));  // 84
+    file.read((uint8_t *)&_prefs->tx_delay_factor, sizeof(_prefs->tx_delay_factor));  // 84
-    file.read((uint8_t *) &_prefs->guest_password[0], sizeof(_prefs->guest_password));  // 88
+    file.read((uint8_t *)&_prefs->guest_password[0], sizeof(_prefs->guest_password)); // 88
-    file.read((uint8_t *) &_prefs->direct_tx_delay_factor, sizeof(_prefs->direct_tx_delay_factor));  // 104
+    file.read((uint8_t *)&_prefs->direct_tx_delay_factor, sizeof(_prefs->direct_tx_delay_factor)); // 104
-    file.read(pad, 4);   // 108
+    file.read(pad, 4);                                                                             // 108
-    file.read((uint8_t *) &_prefs->sf, sizeof(_prefs->sf));  // 112
+    file.read((uint8_t *)&_prefs->sf, sizeof(_prefs->sf));                                         // 112
-    file.read((uint8_t *) &_prefs->cr, sizeof(_prefs->cr));  // 113
+    file.read((uint8_t *)&_prefs->cr, sizeof(_prefs->cr));                                         // 113
-    file.read((uint8_t *) &_prefs->allow_read_only, sizeof(_prefs->allow_read_only));  // 114
+    file.read((uint8_t *)&_prefs->allow_read_only, sizeof(_prefs->allow_read_only));               // 114
-    file.read((uint8_t *) &_prefs->multi_acks, sizeof(_prefs->multi_acks));  // 115
+    file.read((uint8_t *)&_prefs->multi_acks, sizeof(_prefs->multi_acks));                         // 115
-    file.read((uint8_t *) &_prefs->bw, sizeof(_prefs->bw));  // 116
+    file.read((uint8_t *)&_prefs->bw, sizeof(_prefs->bw));                                         // 116
-    file.read((uint8_t *) &_prefs->agc_reset_interval, sizeof(_prefs->agc_reset_interval));  // 120
+    file.read((uint8_t *)&_prefs->agc_reset_interval, sizeof(_prefs->agc_reset_interval));         // 120
-    file.read(pad, 3);   // 121
+    file.read(pad, 3);                                                                             // 121
-    file.read((uint8_t *) &_prefs->flood_max, sizeof(_prefs->flood_max));   // 124
+    file.read((uint8_t *)&_prefs->flood_max, sizeof(_prefs->flood_max));                           // 124
-    file.read((uint8_t *) &_prefs->flood_advert_interval, sizeof(_prefs->flood_advert_interval));  // 125
+    file.read((uint8_t *)&_prefs->flood_advert_interval, sizeof(_prefs->flood_advert_interval));   // 125
-    file.read((uint8_t *) &_prefs->interference_threshold, sizeof(_prefs->interference_threshold));  // 126
+    file.read((uint8_t *)&_prefs->interference_threshold, sizeof(_prefs->interference_threshold)); // 126
    file.read((uint8_t *)&_prefs->bridge_enabled, sizeof(_prefs->bridge_enabled));                 // 127
    file.read((uint8_t *)&_prefs->bridge_delay, sizeof(_prefs->bridge_delay));                     // 128
    file.read((uint8_t *)&_prefs->bridge_pkt_src, sizeof(_prefs->bridge_pkt_src));                 // 130
    file.read((uint8_t *)&_prefs->bridge_baud, sizeof(_prefs->bridge_baud));                       // 131
    file.read((uint8_t *)&_prefs->bridge_channel, sizeof(_prefs->bridge_channel));                 // 135
    file.read((uint8_t *)&_prefs->bridge_secret, sizeof(_prefs->bridge_secret));                   // 136
    file.read(pad, 4);                                                                             // 152
    file.read((uint8_t *)&_prefs->gps_enabled, sizeof(_prefs->gps_enabled));                       // 156
    file.read((uint8_t *)&_prefs->gps_interval, sizeof(_prefs->gps_interval));                     // 157
    file.read((uint8_t *)&_prefs->advert_loc_policy, sizeof (_prefs->advert_loc_policy));          // 161
    file.read((uint8_t *)&_prefs->discovery_mod_timestamp, sizeof(_prefs->discovery_mod_timestamp)); // 162
    // 166
    // sanitise bad pref values
    _prefs->rx_delay_base = constrain(_prefs->rx_delay_base, 0, 20.0f);
@ -65,12 +78,22 @@ void CommonCLI::loadPrefsInt(FILESYSTEM* fs, const char* filename) {
    _prefs->direct_tx_delay_factor = constrain(_prefs->direct_tx_delay_factor, 0, 2.0f);
    _prefs->airtime_factor = constrain(_prefs->airtime_factor, 0, 9.0f);
    _prefs->freq = constrain(_prefs->freq, 400.0f, 2500.0f);
-    _prefs->bw = constrain(_prefs->bw, 62.5f, 500.0f);
+    _prefs->bw = constrain(_prefs->bw, 7.8f, 500.0f);
-    _prefs->sf = constrain(_prefs->sf, 7, 12);
+    _prefs->sf = constrain(_prefs->sf, 5, 12);
    _prefs->cr = constrain(_prefs->cr, 5, 8);
    _prefs->tx_power_dbm = constrain(_prefs->tx_power_dbm, 1, 30);
    _prefs->multi_acks = constrain(_prefs->multi_acks, 0, 1);
    // sanitise bad bridge pref values
    _prefs->bridge_enabled = constrain(_prefs->bridge_enabled, 0, 1);
    _prefs->bridge_delay = constrain(_prefs->bridge_delay, 0, 10000);
    _prefs->bridge_pkt_src = constrain(_prefs->bridge_pkt_src, 0, 1);
    _prefs->bridge_baud = constrain(_prefs->bridge_baud, 9600, 115200);
    _prefs->bridge_channel = constrain(_prefs->bridge_channel, 0, 14);
    _prefs->gps_enabled = constrain(_prefs->gps_enabled, 0, 1);
    _prefs->advert_loc_policy = constrain(_prefs->advert_loc_policy, 0, 2);
    file.close();
  }
 }
@ -88,32 +111,44 @@ void CommonCLI::savePrefs(FILESYSTEM* fs) {
    uint8_t pad[8];
    memset(pad, 0, sizeof(pad));
-    file.write((uint8_t *) &_prefs->airtime_factor, sizeof(_prefs->airtime_factor));  // 0
+    file.write((uint8_t *)&_prefs->airtime_factor, sizeof(_prefs->airtime_factor));    // 0
-    file.write((uint8_t *) &_prefs->node_name, sizeof(_prefs->node_name));  // 4
+    file.write((uint8_t *)&_prefs->node_name, sizeof(_prefs->node_name));              // 4
-    file.write(pad, 4);   // 36
+    file.write(pad, 4);                                                                // 36
-    file.write((uint8_t *) &_prefs->node_lat, sizeof(_prefs->node_lat));  // 40
+    file.write((uint8_t *)&_prefs->node_lat, sizeof(_prefs->node_lat));                // 40
-    file.write((uint8_t *) &_prefs->node_lon, sizeof(_prefs->node_lon));  // 48
+    file.write((uint8_t *)&_prefs->node_lon, sizeof(_prefs->node_lon));                // 48
-    file.write((uint8_t *) &_prefs->password[0], sizeof(_prefs->password));  // 56
+    file.write((uint8_t *)&_prefs->password[0], sizeof(_prefs->password));             // 56
-    file.write((uint8_t *) &_prefs->freq, sizeof(_prefs->freq));   // 72
+    file.write((uint8_t *)&_prefs->freq, sizeof(_prefs->freq));                        // 72
-    file.write((uint8_t *) &_prefs->tx_power_dbm, sizeof(_prefs->tx_power_dbm));  // 76
+    file.write((uint8_t *)&_prefs->tx_power_dbm, sizeof(_prefs->tx_power_dbm));        // 76
-    file.write((uint8_t *) &_prefs->disable_fwd, sizeof(_prefs->disable_fwd));  // 77
+    file.write((uint8_t *)&_prefs->disable_fwd, sizeof(_prefs->disable_fwd));          // 77
-    file.write((uint8_t *) &_prefs->advert_interval, sizeof(_prefs->advert_interval));  // 78
+    file.write((uint8_t *)&_prefs->advert_interval, sizeof(_prefs->advert_interval));  // 78
-    file.write((uint8_t *) pad, 1);  // 79  was 'unused'
+    file.write((uint8_t *)pad, 1);                                                     // 79  was 'unused'
-    file.write((uint8_t *) &_prefs->rx_delay_base, sizeof(_prefs->rx_delay_base));  // 80
+    file.write((uint8_t *)&_prefs->rx_delay_base, sizeof(_prefs->rx_delay_base));      // 80
-    file.write((uint8_t *) &_prefs->tx_delay_factor, sizeof(_prefs->tx_delay_factor));  // 84
+    file.write((uint8_t *)&_prefs->tx_delay_factor, sizeof(_prefs->tx_delay_factor));  // 84
-    file.write((uint8_t *) &_prefs->guest_password[0], sizeof(_prefs->guest_password));  // 88
+    file.write((uint8_t *)&_prefs->guest_password[0], sizeof(_prefs->guest_password)); // 88
-    file.write((uint8_t *) &_prefs->direct_tx_delay_factor, sizeof(_prefs->direct_tx_delay_factor));  // 104
+    file.write((uint8_t *)&_prefs->direct_tx_delay_factor, sizeof(_prefs->direct_tx_delay_factor)); // 104
-    file.write(pad, 4);   // 108
+    file.write(pad, 4);                                                                             // 108
-    file.write((uint8_t *) &_prefs->sf, sizeof(_prefs->sf));  // 112
+    file.write((uint8_t *)&_prefs->sf, sizeof(_prefs->sf));                                         // 112
-    file.write((uint8_t *) &_prefs->cr, sizeof(_prefs->cr));  // 113
+    file.write((uint8_t *)&_prefs->cr, sizeof(_prefs->cr));                                         // 113
-    file.write((uint8_t *) &_prefs->allow_read_only, sizeof(_prefs->allow_read_only));  // 114
+    file.write((uint8_t *)&_prefs->allow_read_only, sizeof(_prefs->allow_read_only));               // 114
-    file.write((uint8_t *) &_prefs->multi_acks, sizeof(_prefs->multi_acks));  // 115
+    file.write((uint8_t *)&_prefs->multi_acks, sizeof(_prefs->multi_acks));                         // 115
-    file.write((uint8_t *) &_prefs->bw, sizeof(_prefs->bw));  // 116
+    file.write((uint8_t *)&_prefs->bw, sizeof(_prefs->bw));                                         // 116
-    file.write((uint8_t *) &_prefs->agc_reset_interval, sizeof(_prefs->agc_reset_interval));  // 120
+    file.write((uint8_t *)&_prefs->agc_reset_interval, sizeof(_prefs->agc_reset_interval));         // 120
-    file.write(pad, 3);   // 121
+    file.write(pad, 3);                                                                             // 121
-    file.write((uint8_t *) &_prefs->flood_max, sizeof(_prefs->flood_max));   // 124
+    file.write((uint8_t *)&_prefs->flood_max, sizeof(_prefs->flood_max));                           // 124
-    file.write((uint8_t *) &_prefs->flood_advert_interval, sizeof(_prefs->flood_advert_interval));  // 125
+    file.write((uint8_t *)&_prefs->flood_advert_interval, sizeof(_prefs->flood_advert_interval));   // 125
-    file.write((uint8_t *) &_prefs->interference_threshold, sizeof(_prefs->interference_threshold));  // 126
+    file.write((uint8_t *)&_prefs->interference_threshold, sizeof(_prefs->interference_threshold)); // 126
    file.write((uint8_t *)&_prefs->bridge_enabled, sizeof(_prefs->bridge_enabled));                 // 127
    file.write((uint8_t *)&_prefs->bridge_delay, sizeof(_prefs->bridge_delay));                     // 128
    file.write((uint8_t *)&_prefs->bridge_pkt_src, sizeof(_prefs->bridge_pkt_src));                 // 130
    file.write((uint8_t *)&_prefs->bridge_baud, sizeof(_prefs->bridge_baud));                       // 131
    file.write((uint8_t *)&_prefs->bridge_channel, sizeof(_prefs->bridge_channel));                 // 135
    file.write((uint8_t *)&_prefs->bridge_secret, sizeof(_prefs->bridge_secret));                   // 136
    file.write(pad, 4);                                                                             // 152
    file.write((uint8_t *)&_prefs->gps_enabled, sizeof(_prefs->gps_enabled));                       // 156
    file.write((uint8_t *)&_prefs->gps_interval, sizeof(_prefs->gps_interval));                     // 157
    file.write((uint8_t *)&_prefs->advert_loc_policy, sizeof(_prefs->advert_loc_policy));           // 161
    file.write((uint8_t *)&_prefs->discovery_mod_timestamp, sizeof(_prefs->discovery_mod_timestamp)); // 162
    // 166
    file.close();
  }
@ -128,6 +163,19 @@ void CommonCLI::savePrefs() {
  _callbacks->savePrefs();
 }
 uint8_t CommonCLI::buildAdvertData(uint8_t node_type, uint8_t* app_data) {
  if (_prefs->advert_loc_policy == ADVERT_LOC_NONE) {
    AdvertDataBuilder builder(node_type, _prefs->node_name);
    return builder.encodeTo(app_data);
  } else if (_prefs->advert_loc_policy == ADVERT_LOC_SHARE) {
    AdvertDataBuilder builder(node_type, _prefs->node_name, _sensors->node_lat, _sensors->node_lon);
    return builder.encodeTo(app_data);
  } else {
    AdvertDataBuilder builder(node_type, _prefs->node_name, _prefs->node_lat, _prefs->node_lon);
    return builder.encodeTo(app_data);
  }
 }
 void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, char* reply) {
    if (memcmp(command, "reboot", 6) == 0) {
      _board->reboot();  // doesn't return
@ -199,6 +247,9 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
    } else if (memcmp(command, "clear stats", 11) == 0) {
      _callbacks->clearStats();
      strcpy(reply, "(OK - stats reset)");
    /*
     * GET commands
     */
    } else if (memcmp(command, "get ", 4) == 0) {
      const char* config = &command[4];
      if (memcmp(config, "af", 2) == 0) {
@ -252,9 +303,40 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
        mesh::Utils::toHex(&reply[2], _callbacks->getSelfId().pub_key, PUB_KEY_SIZE);
      } else if (memcmp(config, "role", 4) == 0) {
        sprintf(reply, "> %s", _callbacks->getRole());
      } else if (memcmp(config, "bridge.type", 11) == 0) {
        sprintf(reply, "> %s",
 #ifdef WITH_RS232_BRIDGE
                "rs232"
 #elif WITH_ESPNOW_BRIDGE
                "espnow"
 #else
                "none"
 #endif
        );
 #ifdef WITH_BRIDGE
      } else if (memcmp(config, "bridge.enabled", 14) == 0) {
        sprintf(reply, "> %s", _prefs->bridge_enabled ? "on" : "off");
      } else if (memcmp(config, "bridge.delay", 12) == 0) {
        sprintf(reply, "> %d", (uint32_t)_prefs->bridge_delay);
      } else if (memcmp(config, "bridge.source", 13) == 0) {
        sprintf(reply, "> %s", _prefs->bridge_pkt_src ? "logRx" : "logTx");
 #endif
 #ifdef WITH_RS232_BRIDGE
      } else if (memcmp(config, "bridge.baud", 11) == 0) {
        sprintf(reply, "> %d", (uint32_t)_prefs->bridge_baud);
 #endif
 #ifdef WITH_ESPNOW_BRIDGE
      } else if (memcmp(config, "bridge.channel", 14) == 0) {
        sprintf(reply, "> %d", (uint32_t)_prefs->bridge_channel);
      } else if (memcmp(config, "bridge.secret", 13) == 0) {
        sprintf(reply, "> %s", _prefs->bridge_secret);
 #endif
      } else {
        sprintf(reply, "??: %s", config);
      }
    /*
     * SET commands
     */
    } else if (memcmp(command, "set ", 4) == 0) {
      const char* config = &command[4];
      if (memcmp(config, "af ", 3) == 0) {
@ -301,7 +383,8 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
        StrHelper::strncpy(_prefs->guest_password, &config[15], sizeof(_prefs->guest_password));
        savePrefs();
        strcpy(reply, "OK");
-      } else if (sender_timestamp == 0 && memcmp(config, "prv.key ", 8) == 0) {  // from serial command line only
+      } else if (sender_timestamp == 0 &&
                 memcmp(config, "prv.key ", 8) == 0) { // from serial command line only
        uint8_t prv_key[PRV_KEY_SIZE];
        bool success = mesh::Utils::fromHex(prv_key, PRV_KEY_SIZE, &config[8]);
        if (success) {
@ -391,6 +474,55 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
        _prefs->freq = atof(&config[5]);
        savePrefs();
        strcpy(reply, "OK - reboot to apply");
 #ifdef WITH_BRIDGE
      } else if (memcmp(config, "bridge.enabled ", 15) == 0) {
        _prefs->bridge_enabled = memcmp(&config[15], "on", 2) == 0;
        _callbacks->setBridgeState(_prefs->bridge_enabled);
        savePrefs();
        strcpy(reply, "OK");
      } else if (memcmp(config, "bridge.delay ", 13) == 0) {
        int delay = _atoi(&config[13]);
        if (delay >= 0 && delay <= 10000) {
          _prefs->bridge_delay = (uint16_t)delay;
          savePrefs();
          strcpy(reply, "OK");
        } else {
          strcpy(reply, "Error: delay must be between 0-10000 ms");
        }
      } else if (memcmp(config, "bridge.source ", 14) == 0) {
        _prefs->bridge_pkt_src = memcmp(&config[14], "rx", 2) == 0;
        savePrefs();
        strcpy(reply, "OK");
 #endif
 #ifdef WITH_RS232_BRIDGE
      } else if (memcmp(config, "bridge.baud ", 12) == 0) {
        uint32_t baud = atoi(&config[12]);
        if (baud >= 9600 && baud <= 115200) {
          _prefs->bridge_baud = (uint32_t)baud;
          _callbacks->restartBridge();
          savePrefs();
          strcpy(reply, "OK");
        } else {
          strcpy(reply, "Error: baud rate must be between 9600-115200");
        }
 #endif
 #ifdef WITH_ESPNOW_BRIDGE
      } else if (memcmp(config, "bridge.channel ", 15) == 0) {
        int ch = atoi(&config[15]);
        if (ch > 0 && ch < 15) {
          _prefs->bridge_channel = (uint8_t)ch;
          _callbacks->restartBridge();
          savePrefs();
          strcpy(reply, "OK");
        } else {
          strcpy(reply, "Error: channel must be between 1-14");
        }
      } else if (memcmp(config, "bridge.secret ", 14) == 0) {
        StrHelper::strncpy(_prefs->bridge_secret, &config[14], sizeof(_prefs->bridge_secret));
        _callbacks->restartBridge();
        savePrefs();
        strcpy(reply, "OK");
 #endif
      } else {
        sprintf(reply, "unknown config: %s", config);
      }
@ -401,6 +533,126 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
      sprintf(reply, "%s (Build: %s)", _callbacks->getFirmwareVer(), _callbacks->getBuildDate());
    } else if (memcmp(command, "board", 5) == 0) {
      sprintf(reply, "%s", _board->getManufacturerName());
    } else if (memcmp(command, "sensor get ", 11) == 0) {
      const char* key = command + 11;
      const char* val = _sensors->getSettingByKey(key);
      if (val != NULL) {
        sprintf(reply, "> %s", val);
      } else {
        strcpy(reply, "null");
      }
    } else if (memcmp(command, "sensor set ", 11) == 0) {
      strcpy(tmp, &command[11]);
      const char *parts[2]; 
      int num = mesh::Utils::parseTextParts(tmp, parts, 2, ' ');
      const char *key = (num > 0) ? parts[0] : "";
      const char *value = (num > 1) ? parts[1] : "null";
      if (_sensors->setSettingValue(key, value)) {
        strcpy(reply, "ok");
      } else {
        strcpy(reply, "can't find custom var");
      }
    } else if (memcmp(command, "sensor list", 11) == 0) {
      char* dp = reply;
      int start = 0;
      int end = _sensors->getNumSettings();
      if (strlen(command) > 11) {
        start = _atoi(command+12);
      }
      if (start >= end) {
        strcpy(reply, "no custom var");
      } else {
        sprintf(dp, "%d vars\n", end);
        dp = strchr(dp, 0);
        int i;
        for (i = start; i < end && (dp-reply < 134); i++) {
          sprintf(dp, "%s=%s\n", 
            _sensors->getSettingName(i),
            _sensors->getSettingValue(i));
          dp = strchr(dp, 0);
        }
        if (i < end) {
          sprintf(dp, "... next:%d", i);
        } else {
          *(dp-1) = 0; // remove last CR
        }
      }
 #if ENV_INCLUDE_GPS == 1
    } else if (memcmp(command, "gps on", 6) == 0) {
      if (_sensors->setSettingValue("gps", "1")) {
        _prefs->gps_enabled = 1;
        savePrefs();
        strcpy(reply, "ok");
      } else {
        strcpy(reply, "gps toggle not found");
      }
    } else if (memcmp(command, "gps off", 7) == 0) {
      if (_sensors->setSettingValue("gps", "0")) {
        _prefs->gps_enabled = 0;
        savePrefs();
        strcpy(reply, "ok");
      } else {
        strcpy(reply, "gps toggle not found");
      }
    } else if (memcmp(command, "gps sync", 8) == 0) {
      LocationProvider * l = _sensors->getLocationProvider();
      if (l != NULL) {
        l->syncTime();
      }
    } else if (memcmp(command, "gps setloc", 10) == 0) {
      _prefs->node_lat = _sensors->node_lat;
      _prefs->node_lon = _sensors->node_lon;
      savePrefs();
      strcpy(reply, "ok");
    } else if (memcmp(command, "gps advert", 10) == 0) {
      if (strlen(command) == 10) {
        switch (_prefs->advert_loc_policy) {
          case ADVERT_LOC_NONE:
            strcpy(reply, "> none");
            break;
          case ADVERT_LOC_PREFS:
            strcpy(reply, "> prefs");
            break;
          case ADVERT_LOC_SHARE:
            strcpy(reply, "> share");
            break;
          default:
            strcpy(reply, "error");
        }
      } else if (memcmp(command+11, "none", 4) == 0) {
        _prefs->advert_loc_policy = ADVERT_LOC_NONE;
        savePrefs();
        strcpy(reply, "ok");
      } else if (memcmp(command+11, "share", 5) == 0) {
        _prefs->advert_loc_policy = ADVERT_LOC_SHARE;
        savePrefs();
        strcpy(reply, "ok");
      } else if (memcmp(command+11, "prefs", 4) == 0) {
        _prefs->advert_loc_policy = ADVERT_LOC_PREFS;
        savePrefs();
        strcpy(reply, "ok");
      } else {
        strcpy(reply, "error");
      }
    } else if (memcmp(command, "gps", 3) == 0) {
      LocationProvider * l = _sensors->getLocationProvider();
      if (l != NULL) {
        bool enabled = l->isEnabled(); // is EN pin on ?
        bool fix = l->isValid();       // has fix ?
        int sats = l->satellitesCount();
        bool active = !strcmp(_sensors->getSettingByKey("gps"), "1");
        if (enabled) {
          sprintf(reply, "on, %s, %s, %d sats",
            active?"active":"deactivated", 
            fix?"fix":"no fix", 
            sats);
        } else {
          strcpy(reply, "off");
        }
      } else {
        strcpy(reply, "Can't find GPS");
      }
 #endif
    } else if (memcmp(command, "log start", 9) == 0) {
      _callbacks->setLoggingOn(true);
      strcpy(reply, "   logging on");
@ -413,6 +665,12 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
    } else if (sender_timestamp == 0 && memcmp(command, "log", 3) == 0) {
      _callbacks->dumpLogFile();
      strcpy(reply, "   EOF");
    } else if (sender_timestamp == 0 && memcmp(command, "stats-packets", 13) == 0 && (command[13] == 0 || command[13] == ' ')) {
      _callbacks->formatPacketStatsReply(reply);
    } else if (sender_timestamp == 0 && memcmp(command, "stats-radio", 11) == 0 && (command[11] == 0 || command[11] == ' ')) {
      _callbacks->formatRadioStatsReply(reply);
    } else if (sender_timestamp == 0 && memcmp(command, "stats-core", 10) == 0 && (command[10] == 0 || command[10] == ' ')) {
      _callbacks->formatStatsReply(reply);
    } else {
      strcpy(reply, "Unknown command");
    }
--- a/src/helpers/CommonCLI.h
+++ b/src/helpers/CommonCLI.h
@ -2,30 +2,51 @@
 #include "Mesh.h"
 #include <helpers/IdentityStore.h>
 #include <helpers/SensorManager.h>
-struct NodePrefs {  // persisted to file
+#if defined(WITH_RS232_BRIDGE) || defined(WITH_ESPNOW_BRIDGE)
-    float airtime_factor;
+#define WITH_BRIDGE
-    char node_name[32];
+#endif
-    double node_lat, node_lon;
+
-    char password[16];
+#define ADVERT_LOC_NONE       0
-    float freq;
+#define ADVERT_LOC_SHARE      1
-    uint8_t tx_power_dbm;
+#define ADVERT_LOC_PREFS      2
-    uint8_t disable_fwd;
+
-    uint8_t advert_interval;   // minutes / 2
+struct NodePrefs { // persisted to file
-    uint8_t flood_advert_interval;   // hours
+  float airtime_factor;
-    float rx_delay_base;
+  char node_name[32];
-    float tx_delay_factor;
+  double node_lat, node_lon;
-    char guest_password[16];
+  char password[16];
-    float direct_tx_delay_factor;
+  float freq;
-    uint32_t guard;
+  uint8_t tx_power_dbm;
-    uint8_t sf;
+  uint8_t disable_fwd;
-    uint8_t cr;
+  uint8_t advert_interval;       // minutes / 2
-    uint8_t allow_read_only;
+  uint8_t flood_advert_interval; // hours
-    uint8_t multi_acks;
+  float rx_delay_base;
-    float bw;
+  float tx_delay_factor;
-    uint8_t flood_max;
+  char guest_password[16];
-    uint8_t interference_threshold;
+  float direct_tx_delay_factor;
-    uint8_t agc_reset_interval;   // secs / 4
+  uint32_t guard;
  uint8_t sf;
  uint8_t cr;
  uint8_t allow_read_only;
  uint8_t multi_acks;
  float bw;
  uint8_t flood_max;
  uint8_t interference_threshold;
  uint8_t agc_reset_interval; // secs / 4
  // Bridge settings
  uint8_t bridge_enabled; // boolean
  uint16_t bridge_delay;  // milliseconds (default 500 ms)
  uint8_t bridge_pkt_src; // 0 = logTx, 1 = logRx (default logTx)
  uint32_t bridge_baud;   // 9600, 19200, 38400, 57600, 115200 (default 115200)
  uint8_t bridge_channel; // 1-14 (ESP-NOW only)
  char bridge_secret[16]; // for XOR encryption of bridge packets (ESP-NOW only)
  // Gps settings
  uint8_t gps_enabled;
  uint32_t gps_interval; // in seconds
  uint8_t advert_loc_policy;
  uint32_t discovery_mod_timestamp;
 };
 class CommonCLICallbacks {
@ -46,10 +67,21 @@ public:
  virtual void removeNeighbor(const uint8_t* pubkey, int key_len) {
    // no op by default
  };
  virtual void formatStatsReply(char *reply) = 0;
  virtual void formatRadioStatsReply(char *reply) = 0;
  virtual void formatPacketStatsReply(char *reply) = 0;
  virtual mesh::LocalIdentity& getSelfId() = 0;
  virtual void saveIdentity(const mesh::LocalIdentity& new_id) = 0;
  virtual void clearStats() = 0;
  virtual void applyTempRadioParams(float freq, float bw, uint8_t sf, uint8_t cr, int timeout_mins) = 0;
  virtual void setBridgeState(bool enable) {
    // no op by default
  };
  virtual void restartBridge() {
    // no op by default
  };
 };
 class CommonCLI {
@ -57,6 +89,7 @@ class CommonCLI {
  NodePrefs* _prefs;
  CommonCLICallbacks* _callbacks;
  mesh::MainBoard* _board;
  SensorManager* _sensors;
  char tmp[PRV_KEY_SIZE*2 + 4];
  mesh::RTCClock* getRTCClock() { return _rtc; }
@ -64,10 +97,11 @@ class CommonCLI {
  void loadPrefsInt(FILESYSTEM* _fs, const char* filename);
 public:
-  CommonCLI(mesh::MainBoard& board, mesh::RTCClock& rtc, NodePrefs* prefs, CommonCLICallbacks* callbacks)
+  CommonCLI(mesh::MainBoard& board, mesh::RTCClock& rtc, SensorManager& sensors, NodePrefs* prefs, CommonCLICallbacks* callbacks)
-      : _board(&board), _rtc(&rtc), _prefs(prefs), _callbacks(callbacks) { }
+      : _board(&board), _rtc(&rtc), _sensors(&sensors), _prefs(prefs), _callbacks(callbacks) { }
  void loadPrefs(FILESYSTEM* _fs);
  void savePrefs(FILESYSTEM* _fs);
  void handleCommand(uint32_t sender_timestamp, const char* command, char* reply);
  uint8_t buildAdvertData(uint8_t node_type, uint8_t* app_data);
 };
--- a/src/helpers/RegionMap.cpp
+++ b/src/helpers/RegionMap.cpp
@ -0,0 +1,237 @@
 #include "RegionMap.h"
 #include <helpers/TxtDataHelpers.h>
 #include <SHA256.h>
 RegionMap::RegionMap(TransportKeyStore& store) : _store(&store) {
  next_id = 1; num_regions = 0; home_id = 0;
  wildcard.id = wildcard.parent = 0;
  wildcard.flags = 0;  // default behaviour, allow flood and direct
  strcpy(wildcard.name, "*");
 }
 bool RegionMap::is_name_char(char c) {
  return (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || (c >= '0' && c <= '9') || c == '-' || c == '.' || c == '_' || c == '#';
 }
 static File openWrite(FILESYSTEM* _fs, const char* filename) {
  #if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
    _fs->remove(filename);
    return _fs->open(filename, FILE_O_WRITE);
  #elif defined(RP2040_PLATFORM)
    return _fs->open(filename, "w");
  #else
    return _fs->open(filename, "w", true);
  #endif
 }
 bool RegionMap::load(FILESYSTEM* _fs) {
  if (_fs->exists("/regions2")) {
  #if defined(RP2040_PLATFORM)
    File file = _fs->open("/regions2", "r");
  #else
    File file = _fs->open("/regions2");
  #endif
    if (file) {
      uint8_t pad[128];
      num_regions = 0; next_id = 1; home_id = 0;
      bool success = file.read(pad, 5) == 5;  // reserved header
      success = success && file.read((uint8_t *) &home_id, sizeof(home_id)) == sizeof(home_id);
      success = success && file.read((uint8_t *) &wildcard.flags, sizeof(wildcard.flags)) == sizeof(wildcard.flags);
      success = success && file.read((uint8_t *) &next_id, sizeof(next_id)) == sizeof(next_id);
      if (success) {
        while (num_regions < MAX_REGION_ENTRIES) {
          auto r = &regions[num_regions];
          success = file.read((uint8_t *) &r->id, sizeof(r->id)) == sizeof(r->id);
          success = success && file.read((uint8_t *) &r->parent, sizeof(r->parent)) == sizeof(r->parent);
          success = success && file.read((uint8_t *) r->name, sizeof(r->name)) == sizeof(r->name);
          success = success && file.read((uint8_t *) &r->flags, sizeof(r->flags)) == sizeof(r->flags);
          success = success && file.read(pad, sizeof(pad)) == sizeof(pad);
          if (!success) break; // EOF
          if (r->id >= next_id) {    // make sure next_id is valid
            next_id = r->id + 1;
          }
          num_regions++;
        }
      }
      file.close();
      return true;
    }
  }
  return false;  // failed
 }
 bool RegionMap::save(FILESYSTEM* _fs) {
  File file = openWrite(_fs, "/regions2");
  if (file) {
    uint8_t pad[128];
    memset(pad, 0, sizeof(pad));
    bool success = file.write(pad, 5) == 5;  // reserved header
    success = success && file.write((uint8_t *) &home_id, sizeof(home_id)) == sizeof(home_id);
    success = success && file.write((uint8_t *) &wildcard.flags, sizeof(wildcard.flags)) == sizeof(wildcard.flags);
    success = success && file.write((uint8_t *) &next_id, sizeof(next_id)) == sizeof(next_id);
    if (success) {
      for (int i = 0; i < num_regions; i++) {
        auto r = &regions[i];
        success = file.write((uint8_t *) &r->id, sizeof(r->id)) == sizeof(r->id);
        success = success && file.write((uint8_t *) &r->parent, sizeof(r->parent)) == sizeof(r->parent);
        success = success && file.write((uint8_t *) r->name, sizeof(r->name)) == sizeof(r->name);
        success = success && file.write((uint8_t *) &r->flags, sizeof(r->flags)) == sizeof(r->flags);
        success = success && file.write(pad, sizeof(pad)) == sizeof(pad);
        if (!success) break; // write failed
      }
    }
    file.close();
    return true;
  }
  return false;  // failed
 }
 RegionEntry* RegionMap::putRegion(const char* name, uint16_t parent_id, uint16_t id) {
  const char* sp = name;  // check for illegal name chars
  while (*sp) {
    if (!is_name_char(*sp)) return NULL;   // error
    sp++;
  }
  auto region = findByName(name);
  if (region) {
    if (region->id == parent_id) return NULL;   // ERROR: invalid parent!
    region->parent = parent_id;   // re-parent / move this region in the hierarchy
  } else {
    if (id == 0 && num_regions >= MAX_REGION_ENTRIES) return NULL;  // full!
    region = &regions[num_regions++];   // alloc new RegionEntry
    region->flags = REGION_DENY_FLOOD;     // DENY by default
    region->id = id == 0 ? next_id++ : id;
    StrHelper::strncpy(region->name, name, sizeof(region->name));
    region->parent = parent_id;
  }
  return region;
 }
 RegionEntry* RegionMap::findMatch(mesh::Packet* packet, uint8_t mask) {
  for (int i = 0; i < num_regions; i++) {
    auto region = &regions[i];
    if ((region->flags & mask) == 0) {   // does region allow this? (per 'mask' param)
      TransportKey keys[4];
      int num;
      if (region->name[0] == '#') {   // auto hashtag region
        _store->getAutoKeyFor(region->id, region->name, keys[0]);
        num = 1;
      } else {
        num = _store->loadKeysFor(region->id, keys, 4);
      }
      for (int j = 0; j < num; j++) {
        uint16_t code = keys[j].calcTransportCode(packet);
        if (packet->transport_codes[0] == code) {   // a match!!
          return region;
        }
      }
    }
  }
  return NULL;  // no matches
 }
 RegionEntry* RegionMap::findByName(const char* name) {
  if (strcmp(name, "*") == 0) return &wildcard;
  for (int i = 0; i < num_regions; i++) {
    auto region = &regions[i];
    if (strcmp(name, region->name) == 0) return region;
  }
  return NULL;  // not found
 }
 RegionEntry* RegionMap::findByNamePrefix(const char* prefix) {
  if (strcmp(prefix, "*") == 0) return &wildcard;
  RegionEntry* partial = NULL;
  for (int i = 0; i < num_regions; i++) {
    auto region = &regions[i];
    if (strcmp(prefix, region->name) == 0) return region;  // is a complete match, preference this one
    if (memcmp(prefix, region->name, strlen(prefix)) == 0) {
      partial = region;
    }
  }
  return partial;
 }
 RegionEntry* RegionMap::findById(uint16_t id) {
  if (id == 0) return &wildcard;   // special root Region
  for (int i = 0; i < num_regions; i++) {
    auto region = &regions[i];
    if (region->id == id) return region;
  }
  return NULL;  // not found
 }
 RegionEntry* RegionMap::getHomeRegion() {
  return findById(home_id);
 }
 void RegionMap::setHomeRegion(const RegionEntry* home) {
  home_id = home ? home->id : 0;
 }
 bool RegionMap::removeRegion(const RegionEntry& region) {
  if (region.id == 0) return false;  // failed (cannot remove the wildcard Region)
  int i;     // first check region has no child regions
  for (i = 0; i < num_regions; i++) {
    if (regions[i].parent == region.id) return false;   // failed (must remove child Regions first)
  }
  i = 0;
  while (i < num_regions) {
    if (region.id == regions[i].id) break;
    i++;
  }
  if (i >= num_regions) return false;  // failed (not found)
  num_regions--;    // remove from regions array
  while (i < num_regions) {
    regions[i] = regions[i + 1];
    i++;
  }
  return true;  // success
 }
 bool RegionMap::clear() {
  num_regions = 0;
  return true;  // success
 }
 void RegionMap::printChildRegions(int indent, const RegionEntry* parent, Stream& out) const {
  for (int i = 0; i < indent; i++) {
    out.print(' ');
  }
  if (parent->flags & REGION_DENY_FLOOD) {
    out.printf("%s%s\n", parent->name, parent->id == home_id ? "^" : "");
  } else {
    out.printf("%s%s F\n", parent->name, parent->id == home_id ? "^" : "");
  }
  for (int i = 0; i < num_regions; i++) {
    auto r = &regions[i];
    if (r->parent == parent->id) {
      printChildRegions(indent + 1, r, out);
    }
  }
 }
 void RegionMap::exportTo(Stream& out) const {
  printChildRegions(0, &wildcard, out);   // recursive
 }
--- a/src/helpers/RegionMap.h
+++ b/src/helpers/RegionMap.h
@ -0,0 +1,52 @@
 #pragma once
 #include <Arduino.h>   // needed for PlatformIO
 #include <Packet.h>
 #include "TransportKeyStore.h"
 #ifndef MAX_REGION_ENTRIES
  #define MAX_REGION_ENTRIES  32
 #endif
 #define REGION_DENY_FLOOD   0x01
 #define REGION_DENY_DIRECT  0x02   // reserved for future
 struct RegionEntry {
  uint16_t id;
  uint16_t parent;
  uint8_t flags;
  char name[31];
 };
 class RegionMap {
  TransportKeyStore* _store;
  uint16_t next_id, home_id;
  uint16_t num_regions;
  RegionEntry regions[MAX_REGION_ENTRIES];
  RegionEntry wildcard;
  void printChildRegions(int indent, const RegionEntry* parent, Stream& out) const;
 public:
  RegionMap(TransportKeyStore& store);
  static bool is_name_char(char c);
  bool load(FILESYSTEM* _fs);
  bool save(FILESYSTEM* _fs);
  RegionEntry* putRegion(const char* name, uint16_t parent_id, uint16_t id = 0);
  RegionEntry* findMatch(mesh::Packet* packet, uint8_t mask);
  RegionEntry& getWildcard() { return wildcard; }
  RegionEntry* findByName(const char* name);
  RegionEntry* findByNamePrefix(const char* prefix);
  RegionEntry* findById(uint16_t id);
  RegionEntry* getHomeRegion();   // NOTE: can be NULL
  void setHomeRegion(const RegionEntry* home);
  bool removeRegion(const RegionEntry& region);
  bool clear();
  void resetFrom(const RegionMap& src) { num_regions = 0; next_id = src.next_id; }
  int getCount() const { return num_regions; }
  void exportTo(Stream& out) const;
 };
--- a/src/helpers/SensorManager.h
+++ b/src/helpers/SensorManager.h
@ -1,6 +1,7 @@
 #pragma once
 #include <CayenneLPP.h>
 #include "sensors/LocationProvider.h"
 #define TELEM_PERM_BASE         0x01   // 'base' permission includes battery
 #define TELEM_PERM_LOCATION     0x02
@ -21,4 +22,16 @@ public:
  virtual const char* getSettingName(int i) const { return NULL; }
  virtual const char* getSettingValue(int i) const { return NULL; }
  virtual bool setSettingValue(const char* name, const char* value) { return false; }
  virtual LocationProvider* getLocationProvider() { return NULL; }
  // Helper functions to manage setting by keys (useful in many places ...)
  const char* getSettingByKey(const char* key) {
    int num = getNumSettings();
    for (int i = 0; i < num; i++) {
      if (strcmp(getSettingName(i), key) == 0) {
        return getSettingValue(i);
      }
    }
    return NULL;
  }
 };
--- a/src/helpers/StatsFormatHelper.h
+++ b/src/helpers/StatsFormatHelper.h
@ -0,0 +1,54 @@
 #pragma once
 #include "Mesh.h"
 class StatsFormatHelper {
 public:
  static void formatCoreStats(char* reply, 
                             mesh::MainBoard& board, 
                             mesh::MillisecondClock& ms, 
                             uint16_t err_flags,
                             mesh::PacketManager* mgr) {
    sprintf(reply, 
      "{\"battery_mv\":%u,\"uptime_secs\":%u,\"errors\":%u,\"queue_len\":%u}",
      board.getBattMilliVolts(),
      ms.getMillis() / 1000,
      err_flags,
      mgr->getOutboundCount(0xFFFFFFFF)
    );
  }
  template<typename RadioDriverType>
  static void formatRadioStats(char* reply,
                              mesh::Radio* radio,
                              RadioDriverType& driver,
                              uint32_t total_air_time_ms,
                              uint32_t total_rx_air_time_ms) {
    sprintf(reply, 
      "{\"noise_floor\":%d,\"last_rssi\":%d,\"last_snr\":%.2f,\"tx_air_secs\":%u,\"rx_air_secs\":%u}",
      (int16_t)radio->getNoiseFloor(),
      (int16_t)driver.getLastRSSI(),
      driver.getLastSNR(),
      total_air_time_ms / 1000,
      total_rx_air_time_ms / 1000
    );
  }
  template<typename RadioDriverType>
  static void formatPacketStats(char* reply,
                               RadioDriverType& driver,
                               uint32_t n_sent_flood,
                               uint32_t n_sent_direct,
                               uint32_t n_recv_flood,
                               uint32_t n_recv_direct) {
    sprintf(reply, 
      "{\"recv\":%u,\"sent\":%u,\"flood_tx\":%u,\"direct_tx\":%u,\"flood_rx\":%u,\"direct_rx\":%u}",
      driver.getPacketsRecv(),
      driver.getPacketsSent(),
      n_sent_flood,
      n_sent_direct,
      n_recv_flood,
      n_recv_direct
    );
  }
 };
--- a/src/helpers/TransportKeyStore.cpp
+++ b/src/helpers/TransportKeyStore.cpp
@ -0,0 +1,92 @@
 #include "TransportKeyStore.h"
 #include <SHA256.h>
 uint16_t TransportKey::calcTransportCode(const mesh::Packet* packet) const {
  uint16_t code;
  SHA256 sha;
  sha.resetHMAC(key, sizeof(key));
  uint8_t type = packet->getPayloadType();
  sha.update(&type, 1);
  sha.update(packet->payload, packet->payload_len);
  sha.finalizeHMAC(key, sizeof(key), &code, 2);
  if (code == 0) {     // reserve codes 0000 and FFFF
    code++;
  } else if (code == 0xFFFF) {
    code--;
  }
  return code;
 }
 bool TransportKey::isNull() const {
  for (int i = 0; i < sizeof(key); i++) {
    if (key[i]) return false;
  }
  return true;  // key is all zeroes
 }
 void TransportKeyStore::putCache(uint16_t id, const TransportKey& key) {
  if (num_cache < MAX_TKS_ENTRIES) {
    cache_ids[num_cache] = id;
    cache_keys[num_cache] = key;
    num_cache++;
  } else {
    // TODO: evict oldest cache entry
  }
 }
 void TransportKeyStore::getAutoKeyFor(uint16_t id, const char* name, TransportKey& dest) {
  for (int i = 0; i < num_cache; i++) {  // first, check cache
    if (cache_ids[i] == id) {   // cache hit!
      dest = cache_keys[i];
      return;
    }
  }
  // calc key for publicly-known hashtag region name
  SHA256 sha;
  sha.update(name, strlen(name));
  sha.finalize(&dest.key, sizeof(dest.key));
  putCache(id, dest);
 }
 int TransportKeyStore::loadKeysFor(uint16_t id, TransportKey keys[], int max_num) {
  int n = 0;
  for (int i = 0; i < num_cache && n < max_num; i++) {  // first, check cache
    if (cache_ids[i] == id) {
      keys[n++] = cache_keys[i];
    }
  }
  if (n > 0) return n;   // cache hit!
  // TODO:  retrieve from difficult-to-copy keystore
  // store in cache (if room)
  for (int i = 0; i < n; i++) {
    putCache(id, keys[i]);
  }
  return n;
 }
 bool TransportKeyStore::saveKeysFor(uint16_t id, const TransportKey keys[], int num) {
  invalidateCache();
  // TODO: update hardware keystore
  return false;  // failed
 }
 bool TransportKeyStore::removeKeys(uint16_t id) {
  invalidateCache();
  // TODO: remove from hardware keystore
  return false;  // failed
 }
 bool TransportKeyStore::clear() {
  invalidateCache();
  // TODO: clear hardware keystore
  return false;  // failed
 }
--- a/src/helpers/TransportKeyStore.h
+++ b/src/helpers/TransportKeyStore.h
@ -0,0 +1,31 @@
 #pragma once
 #include <Arduino.h>   // needed for PlatformIO
 #include <Packet.h>
 #include <helpers/IdentityStore.h>
 struct TransportKey {
  uint8_t key[16];
  uint16_t calcTransportCode(const mesh::Packet* packet) const;
  bool isNull() const;
 };
 #define MAX_TKS_ENTRIES   16
 class TransportKeyStore {
  uint16_t     cache_ids[MAX_TKS_ENTRIES];
  TransportKey cache_keys[MAX_TKS_ENTRIES];
  int num_cache;
  void putCache(uint16_t id, const TransportKey& key);
  void invalidateCache() { num_cache = 0; }
 public:
  TransportKeyStore() { num_cache = 0; }
  void getAutoKeyFor(uint16_t id, const char* name, TransportKey& dest);
  int loadKeysFor(uint16_t id, TransportKey keys[], int max_num);
  bool saveKeysFor(uint16_t id, const TransportKey keys[], int num);
  bool removeKeys(uint16_t id);
  bool clear();
 };
--- a/src/helpers/TxtDataHelpers.cpp
+++ b/src/helpers/TxtDataHelpers.cpp
@ -19,6 +19,13 @@ void StrHelper::strzcpy(char* dest, const char* src, size_t buf_sz) {
  }
 }
 bool StrHelper::isBlank(const char* str) {
  while (*str) {
    if (*str++ != ' ') return false;
  }
  return true;
 }
 #include <Arduino.h>
 union int32_Float_t 
@ -132,3 +139,23 @@ const char* StrHelper::ftoa(float f) {
  }
  return tmp;
 }
 uint32_t StrHelper::fromHex(const char* src) {
  uint32_t n = 0;
  while (*src) {
    if (*src >= '0' && *src <= '9') {
      n <<= 4;
      n |= (*src - '0');
    } else if (*src >= 'A' && *src <= 'F') {
      n <<= 4;
      n |= (*src - 'A' + 10);
    } else if (*src >= 'a' && *src <= 'f') {
      n <<= 4;
      n |= (*src - 'a' + 10);
    } else {
      break;  // non-hex char encountered, stop parsing
    }
    src++;
  }
  return n;
 }
--- a/src/helpers/TxtDataHelpers.h
+++ b/src/helpers/TxtDataHelpers.h
@ -12,4 +12,6 @@ public:
  static void strncpy(char* dest, const char* src, size_t buf_sz);
  static void strzcpy(char* dest, const char* src, size_t buf_sz);   // pads with trailing nulls
  static const char* ftoa(float f);
  static bool isBlank(const char* str);
  static uint32_t fromHex(const char* src);
 };
--- a/src/helpers/bridges/BridgeBase.cpp
+++ b/src/helpers/bridges/BridgeBase.cpp
@ -2,6 +2,10 @@
 #include <Arduino.h>
 bool BridgeBase::isRunning() const {
  return _initialized;
 }
 const char *BridgeBase::getLogDateTime() {
  static char tmp[32];
  uint32_t now = _rtc->getCurrentTime();
@ -28,8 +32,16 @@ bool BridgeBase::validateChecksum(const uint8_t *data, size_t len, uint16_t rece
 }
 void BridgeBase::handleReceivedPacket(mesh::Packet *packet) {
  // Guard against uninitialized state
  if (_initialized == false) {
    BRIDGE_DEBUG_PRINTLN("RX packet received before initialization\n");
    _mgr->free(packet);
    return;
  }
  if (!_seen_packets.hasSeen(packet)) {
-    _mgr->queueInbound(packet, millis() + BRIDGE_DELAY);
+    // bridge_delay provides a buffer to prevent immediate processing conflicts in the mesh network.
    _mgr->queueInbound(packet, millis() + _prefs->bridge_delay);
  } else {
    _mgr->free(packet);
  }
--- a/src/helpers/bridges/BridgeBase.h
+++ b/src/helpers/bridges/BridgeBase.h
@ -1,6 +1,7 @@
 #pragma once
 #include "helpers/AbstractBridge.h"
 #include "helpers/CommonCLI.h"
 #include "helpers/SimpleMeshTables.h"
 #include <RTClib.h>
@ -21,6 +22,13 @@ class BridgeBase : public AbstractBridge {
 public:
  virtual ~BridgeBase() = default;
  /**
   * @brief Gets the current state of the bridge.
   *
   * @return true if the bridge is initialized and running, false otherwise.
   */
  bool isRunning() const override;
  /**
   * @brief Common magic number used by all bridge implementations for packet identification
   *
@ -41,31 +49,31 @@ public:
  static constexpr uint16_t BRIDGE_LENGTH_SIZE = sizeof(uint16_t);
  static constexpr uint16_t BRIDGE_CHECKSUM_SIZE = sizeof(uint16_t);
  /**
   * @brief Default delay in milliseconds for scheduling inbound packet processing
   *
   * It provides a buffer to prevent immediate processing conflicts in the mesh network.
   * Used in handleReceivedPacket() as: millis() + BRIDGE_DELAY
   */
  static constexpr uint16_t BRIDGE_DELAY = 500; // TODO: maybe too high ?
 protected:
  /** Tracks bridge state */
  bool _initialized = false;
  /** Packet manager for allocating and queuing mesh packets */
  mesh::PacketManager *_mgr;
  /** RTC clock for timestamping debug messages */
  mesh::RTCClock *_rtc;
  /** Node preferences for configuration settings */
  NodePrefs *_prefs;
  /** Tracks seen packets to prevent loops in broadcast communications */
  SimpleMeshTables _seen_packets;
  /**
   * @brief Constructs a BridgeBase instance
   *
   * @param prefs Node preferences for configuration settings
   * @param mgr PacketManager for allocating and queuing packets
   * @param rtc RTCClock for timestamping debug messages
   */
-  BridgeBase(mesh::PacketManager *mgr, mesh::RTCClock *rtc) : _mgr(mgr), _rtc(rtc) {}
+  BridgeBase(NodePrefs *prefs, mesh::PacketManager *mgr, mesh::RTCClock *rtc)
      : _prefs(prefs), _mgr(mgr), _rtc(rtc) {}
  /**
   * @brief Gets formatted date/time string for logging
--- a/src/helpers/bridges/ESPNowBridge.cpp
+++ b/src/helpers/bridges/ESPNowBridge.cpp
@ -21,18 +21,26 @@ void ESPNowBridge::send_cb(const uint8_t *mac, esp_now_send_status_t status) {
  }
 }
-ESPNowBridge::ESPNowBridge(mesh::PacketManager *mgr, mesh::RTCClock *rtc)
+ESPNowBridge::ESPNowBridge(NodePrefs *prefs, mesh::PacketManager *mgr, mesh::RTCClock *rtc)
-    : BridgeBase(mgr, rtc), _rx_buffer_pos(0) {
+    : BridgeBase(prefs, mgr, rtc), _rx_buffer_pos(0) {
  _instance = this;
 }
 void ESPNowBridge::begin() {
  BRIDGE_DEBUG_PRINTLN("Initializing...\n");
  // Initialize WiFi in station mode
  WiFi.mode(WIFI_STA);
  // Set wifi channel
  if (esp_wifi_set_channel(_prefs->bridge_channel, WIFI_SECOND_CHAN_NONE) != ESP_OK) {
    BRIDGE_DEBUG_PRINTLN("Error setting WIFI channel to %d\n", _prefs->bridge_channel);
    return;
  }
  // Initialize ESP-NOW
  if (esp_now_init() != ESP_OK) {
-    Serial.printf("%s: ESPNOW BRIDGE: Error initializing ESP-NOW\n", getLogDateTime());
+    BRIDGE_DEBUG_PRINTLN("Error initializing ESP-NOW\n");
    return;
  }
@ -44,13 +52,41 @@ void ESPNowBridge::begin() {
  esp_now_peer_info_t peerInfo = {};
  memset(&peerInfo, 0, sizeof(peerInfo));
  memset(peerInfo.peer_addr, 0xFF, ESP_NOW_ETH_ALEN); // Broadcast address
-  peerInfo.channel = 0;
+  peerInfo.channel = _prefs->bridge_channel;
  peerInfo.encrypt = false;
  if (esp_now_add_peer(&peerInfo) != ESP_OK) {
-    Serial.printf("%s: ESPNOW BRIDGE: Failed to add broadcast peer\n", getLogDateTime());
+    BRIDGE_DEBUG_PRINTLN("Failed to add broadcast peer\n");
    return;
  }
  // Update bridge state
  _initialized = true;
 }
 void ESPNowBridge::end() {
  BRIDGE_DEBUG_PRINTLN("Stopping...\n");
  // Remove broadcast peer
  uint8_t broadcastAddress[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
  if (esp_now_del_peer(broadcastAddress) != ESP_OK) {
    BRIDGE_DEBUG_PRINTLN("Error removing broadcast peer\n");
  }
  // Unregister callbacks
  esp_now_register_recv_cb(nullptr);
  esp_now_register_send_cb(nullptr);
  // Deinitialize ESP-NOW
  if (esp_now_deinit() != ESP_OK) {
    BRIDGE_DEBUG_PRINTLN("Error deinitializing ESP-NOW\n");
  }
  // Turn off WiFi
  WiFi.mode(WIFI_OFF);
  // Update bridge state
  _initialized = false;
 }
 void ESPNowBridge::loop() {
@ -58,35 +94,29 @@ void ESPNowBridge::loop() {
 }
 void ESPNowBridge::xorCrypt(uint8_t *data, size_t len) {
-  size_t keyLen = strlen(_secret);
+  size_t keyLen = strlen(_prefs->bridge_secret);
  for (size_t i = 0; i < len; i++) {
-    data[i] ^= _secret[i % keyLen];
+    data[i] ^= _prefs->bridge_secret[i % keyLen];
  }
 }
 void ESPNowBridge::onDataRecv(const uint8_t *mac, const uint8_t *data, int32_t len) {
  // Ignore packets that are too small to contain header + checksum
  if (len < (BRIDGE_MAGIC_SIZE + BRIDGE_CHECKSUM_SIZE)) {
-#if MESH_PACKET_LOGGING
+    BRIDGE_DEBUG_PRINTLN("RX packet too small, len=%d\n", len);
    Serial.printf("%s: ESPNOW BRIDGE: RX packet too small, len=%d\n", getLogDateTime(), len);
 #endif
    return;
  }
  // Validate total packet size
  if (len > MAX_ESPNOW_PACKET_SIZE) {
-#if MESH_PACKET_LOGGING
+    BRIDGE_DEBUG_PRINTLN("RX packet too large, len=%d\n", len);
    Serial.printf("%s: ESPNOW BRIDGE: RX packet too large, len=%d\n", getLogDateTime(), len);
 #endif
    return;
  }
  // Check packet header magic
  uint16_t received_magic = (data[0] << 8) | data[1];
  if (received_magic != BRIDGE_PACKET_MAGIC) {
-#if MESH_PACKET_LOGGING
+    BRIDGE_DEBUG_PRINTLN("RX invalid magic 0x%04X\n", received_magic);
    Serial.printf("%s: ESPNOW BRIDGE: RX invalid magic 0x%04X\n", getLogDateTime(), received_magic);
 #endif
    return;
  }
@ -104,16 +134,11 @@ void ESPNowBridge::onDataRecv(const uint8_t *mac, const uint8_t *data, int32_t l
  if (!validateChecksum(decrypted + BRIDGE_CHECKSUM_SIZE, payloadLen, received_checksum)) {
    // Failed to decrypt - likely from a different network
-#if MESH_PACKET_LOGGING
+    BRIDGE_DEBUG_PRINTLN("RX checksum mismatch, rcv=0x%04X\n", received_checksum);
    Serial.printf("%s: ESPNOW BRIDGE: RX checksum mismatch, rcv=0x%04X\n", getLogDateTime(),
                  received_checksum);
 #endif
    return;
  }
-#if MESH_PACKET_LOGGING
+  BRIDGE_DEBUG_PRINTLN("RX, payload_len=%d\n", payloadLen);
  Serial.printf("%s: ESPNOW BRIDGE: RX, payload_len=%d\n", getLogDateTime(), payloadLen);
 #endif
  // Create mesh packet
  mesh::Packet *pkt = _instance->_mgr->allocNew();
@ -130,31 +155,27 @@ void ESPNowBridge::onDataSent(const uint8_t *mac_addr, esp_now_send_status_t sta
  // Could add transmission error handling here if needed
 }
-void ESPNowBridge::onPacketReceived(mesh::Packet *packet) {
+void ESPNowBridge::sendPacket(mesh::Packet *packet) {
-  handleReceivedPacket(packet);
+  // Guard against uninitialized state
-}
+  if (_initialized == false) {
    return;
  }
 void ESPNowBridge::onPacketTransmitted(mesh::Packet *packet) {
  // First validate the packet pointer
  if (!packet) {
-#if MESH_PACKET_LOGGING
+    BRIDGE_DEBUG_PRINTLN("TX invalid packet pointer\n");
    Serial.printf("%s: ESPNOW BRIDGE: TX invalid packet pointer\n", getLogDateTime());
 #endif
    return;
  }
  if (!_seen_packets.hasSeen(packet)) {
    // Create a temporary buffer just for size calculation and reuse for actual writing
    uint8_t sizingBuffer[MAX_PAYLOAD_SIZE];
    uint16_t meshPacketLen = packet->writeTo(sizingBuffer);
    // Check if packet fits within our maximum payload size
    if (meshPacketLen > MAX_PAYLOAD_SIZE) {
-#if MESH_PACKET_LOGGING
+      BRIDGE_DEBUG_PRINTLN("TX packet too large (payload=%d, max=%d)\n", meshPacketLen,
-      Serial.printf("%s: ESPNOW BRIDGE: TX packet too large (payload=%d, max=%d)\n", getLogDateTime(),
+                           MAX_PAYLOAD_SIZE);
                    meshPacketLen, MAX_PAYLOAD_SIZE);
 #endif
      return;
    }
@ -183,14 +204,16 @@ void ESPNowBridge::onPacketTransmitted(mesh::Packet *packet) {
    uint8_t broadcastAddress[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
    esp_err_t result = esp_now_send(broadcastAddress, buffer, totalPacketSize);
 #if MESH_PACKET_LOGGING
    if (result == ESP_OK) {
-      Serial.printf("%s: ESPNOW BRIDGE: TX, len=%d\n", getLogDateTime(), meshPacketLen);
+      BRIDGE_DEBUG_PRINTLN("TX, len=%d\n", meshPacketLen);
    } else {
-      Serial.printf("%s: ESPNOW BRIDGE: TX FAILED!\n", getLogDateTime());
+      BRIDGE_DEBUG_PRINTLN("TX FAILED!\n");
    }
 #endif
  }
 }
 void ESPNowBridge::onPacketReceived(mesh::Packet *packet) {
  handleReceivedPacket(packet);
 }
 #endif
--- a/src/helpers/bridges/ESPNowBridge.h
+++ b/src/helpers/bridges/ESPNowBridge.h
@ -6,10 +6,6 @@
 #ifdef WITH_ESPNOW_BRIDGE
 #ifndef WITH_ESPNOW_BRIDGE_SECRET
 #error WITH_ESPNOW_BRIDGE_SECRET must be defined to use ESPNowBridge
 #endif
 /**
 * @brief Bridge implementation using ESP-NOW protocol for packet transport
 *
@ -36,11 +32,11 @@
 *
 * Configuration:
 * - Define WITH_ESPNOW_BRIDGE to enable this bridge
- * - Define WITH_ESPNOW_BRIDGE_SECRET with a string to set the network encryption key
+ * - Define _prefs->bridge_secret with a string to set the network encryption key
 *
 * Network Isolation:
 * Multiple independent mesh networks can coexist by using different
- * WITH_ESPNOW_BRIDGE_SECRET values. Packets encrypted with a different key will
+ * _prefs->bridge_secret values. Packets encrypted with a different key will
 * fail the checksum validation and be discarded.
 */
 class ESPNowBridge : public BridgeBase {
@ -73,17 +69,11 @@ private:
  /** Current position in receive buffer */
  size_t _rx_buffer_pos;
  /**
   * Network encryption key from build define
   * Must be defined with WITH_ESPNOW_BRIDGE_SECRET
   * Used for XOR encryption to isolate different mesh networks
   */
  const char *_secret = WITH_ESPNOW_BRIDGE_SECRET;
  /**
   * Performs XOR encryption/decryption of data
   * Used to isolate different mesh networks
   *
-   * Uses WITH_ESPNOW_BRIDGE_SECRET as the key in a simple XOR operation.
+   * Uses _prefs->bridge_secret as the key in a simple XOR operation.
   * The same operation is used for both encryption and decryption.
   * While not cryptographically secure, it provides basic network isolation.
   *
@ -115,10 +105,11 @@ public:
  /**
   * Constructs an ESPNowBridge instance
   *
   * @param prefs Node preferences for configuration settings
   * @param mgr PacketManager for allocating and queuing packets
   * @param rtc RTCClock for timestamping debug messages
   */
-  ESPNowBridge(mesh::PacketManager *mgr, mesh::RTCClock *rtc);
+  ESPNowBridge(NodePrefs *prefs, mesh::PacketManager *mgr, mesh::RTCClock *rtc);
  /**
   * Initializes the ESP-NOW bridge
@ -130,6 +121,16 @@ public:
   */
  void begin() override;
  /**
   * Stops the ESP-NOW bridge
   *
   * - Removes broadcast peer
   * - Unregisters callbacks
   * - Deinitializes ESP-NOW protocol
   * - Turns off WiFi to release radio resources
   */
  void end() override;
  /**
   * Main loop handler
   * ESP-NOW is callback-based, so this is currently empty
@ -150,7 +151,7 @@ public:
   *
   * @param packet The mesh packet to transmit
   */
-  void onPacketTransmitted(mesh::Packet *packet) override;
+  void sendPacket(mesh::Packet *packet) override;
 };
 #endif
--- a/src/helpers/bridges/RS232Bridge.cpp
+++ b/src/helpers/bridges/RS232Bridge.cpp
@ -4,10 +4,11 @@
 #ifdef WITH_RS232_BRIDGE
-RS232Bridge::RS232Bridge(Stream &serial, mesh::PacketManager *mgr, mesh::RTCClock *rtc)
+RS232Bridge::RS232Bridge(NodePrefs *prefs, Stream &serial, mesh::PacketManager *mgr, mesh::RTCClock *rtc)
-    : BridgeBase(mgr, rtc), _serial(&serial) {}
+    : BridgeBase(prefs, mgr, rtc), _serial(&serial) {}
 void RS232Bridge::begin() {
  BRIDGE_DEBUG_PRINTLN("Initializing at %d baud...\n", _prefs->bridge_baud);
 #if !defined(WITH_RS232_BRIDGE_RX) || !defined(WITH_RS232_BRIDGE_TX)
 #error "WITH_RS232_BRIDGE_RX and WITH_RS232_BRIDGE_TX must be defined"
 #endif
@ -25,53 +26,26 @@ void RS232Bridge::begin() {
 #else
 #error RS232Bridge was not tested on the current platform
 #endif
-  ((HardwareSerial *)_serial)->begin(115200);
+  ((HardwareSerial *)_serial)->begin(_prefs->bridge_baud);
 }
 void RS232Bridge::onPacketTransmitted(mesh::Packet *packet) {
  // First validate the packet pointer
  if (!packet) {
 #if MESH_PACKET_LOGGING
    Serial.printf("%s: RS232 BRIDGE: TX invalid packet pointer\n", getLogDateTime());
 #endif
    return;
  }
  if (!_seen_packets.hasSeen(packet)) {
    uint8_t buffer[MAX_SERIAL_PACKET_SIZE];
    uint16_t len = packet->writeTo(buffer + 4);
    // Check if packet fits within our maximum payload size
    if (len > (MAX_TRANS_UNIT + 1)) {
 #if MESH_PACKET_LOGGING
      Serial.printf("%s: RS232 BRIDGE: TX packet too large (payload=%d, max=%d)\n", getLogDateTime(), len,
                    MAX_TRANS_UNIT + 1);
 #endif
      return;
    }
    // Build packet header
    buffer[0] = (BRIDGE_PACKET_MAGIC >> 8) & 0xFF; // Magic high byte
    buffer[1] = BRIDGE_PACKET_MAGIC & 0xFF;        // Magic low byte
    buffer[2] = (len >> 8) & 0xFF;                 // Length high byte
    buffer[3] = len & 0xFF;                        // Length low byte
-    // Calculate checksum over the payload
+  // Update bridge state
-    uint16_t checksum = fletcher16(buffer + 4, len);
+  _initialized = true;
-    buffer[4 + len] = (checksum >> 8) & 0xFF; // Checksum high byte
+}
    buffer[5 + len] = checksum & 0xFF;        // Checksum low byte
-    // Send complete packet
+void RS232Bridge::end() {
-    _serial->write(buffer, len + SERIAL_OVERHEAD);
+  BRIDGE_DEBUG_PRINTLN("Stopping...\n");
  ((HardwareSerial *)_serial)->end();
-#if MESH_PACKET_LOGGING
+  // Update bridge state
-    Serial.printf("%s: RS232 BRIDGE: TX, len=%d crc=0x%04x\n", getLogDateTime(), len, checksum);
+  _initialized = false;
 #endif
  }
 }
 void RS232Bridge::loop() {
  // Guard against uninitialized state
  if (_initialized == false) {
    return;
  }
  while (_serial->available()) {
    uint8_t b = _serial->read();
@ -97,9 +71,7 @@ void RS232Bridge::loop() {
        // Validate length field
        if (len > (MAX_TRANS_UNIT + 1)) {
-#if MESH_PACKET_LOGGING
+          BRIDGE_DEBUG_PRINTLN("RX invalid length %d, resetting\n", len);
          Serial.printf("%s: RS232 BRIDGE: RX invalid length %d, resetting\n", getLogDateTime(), len);
 #endif
          _rx_buffer_pos = 0; // Invalid length, reset
          continue;
        }
@ -108,30 +80,20 @@ void RS232Bridge::loop() {
          uint16_t received_checksum = (_rx_buffer[4 + len] << 8) | _rx_buffer[5 + len];
          if (validateChecksum(_rx_buffer + 4, len, received_checksum)) {
-#if MESH_PACKET_LOGGING
+            BRIDGE_DEBUG_PRINTLN("RX, len=%d crc=0x%04x\n", len, received_checksum);
            Serial.printf("%s: RS232 BRIDGE: RX, len=%d crc=0x%04x\n", getLogDateTime(), len,
                          received_checksum);
 #endif
            mesh::Packet *pkt = _mgr->allocNew();
            if (pkt) {
              if (pkt->readFrom(_rx_buffer + 4, len)) {
                onPacketReceived(pkt);
              } else {
-#if MESH_PACKET_LOGGING
+                BRIDGE_DEBUG_PRINTLN("RX failed to parse packet\n");
                Serial.printf("%s: RS232 BRIDGE: RX failed to parse packet\n", getLogDateTime());
 #endif
                _mgr->free(pkt);
              }
            } else {
-#if MESH_PACKET_LOGGING
+              BRIDGE_DEBUG_PRINTLN("RX failed to allocate packet\n");
              Serial.printf("%s: RS232 BRIDGE: RX failed to allocate packet\n", getLogDateTime());
 #endif
            }
          } else {
-#if MESH_PACKET_LOGGING
+            BRIDGE_DEBUG_PRINTLN("RX checksum mismatch, rcv=0x%04x\n", received_checksum);
            Serial.printf("%s: RS232 BRIDGE: RX checksum mismatch, rcv=0x%04x\n", getLogDateTime(),
                          received_checksum);
 #endif
          }
          _rx_buffer_pos = 0; // Reset for next packet
        }
@ -140,6 +102,48 @@ void RS232Bridge::loop() {
  }
 }
 void RS232Bridge::sendPacket(mesh::Packet *packet) {
  // Guard against uninitialized state
  if (_initialized == false) {
    return;
  }
  // First validate the packet pointer
  if (!packet) {
    BRIDGE_DEBUG_PRINTLN("TX invalid packet pointer\n");
    return;
  }
  if (!_seen_packets.hasSeen(packet)) {
    uint8_t buffer[MAX_SERIAL_PACKET_SIZE];
    uint16_t len = packet->writeTo(buffer + 4);
    // Check if packet fits within our maximum payload size
    if (len > (MAX_TRANS_UNIT + 1)) {
      BRIDGE_DEBUG_PRINTLN("TX packet too large (payload=%d, max=%d)\n", len,
                           MAX_TRANS_UNIT + 1);
      return;
    }
    // Build packet header
    buffer[0] = (BRIDGE_PACKET_MAGIC >> 8) & 0xFF; // Magic high byte
    buffer[1] = BRIDGE_PACKET_MAGIC & 0xFF;        // Magic low byte
    buffer[2] = (len >> 8) & 0xFF;                 // Length high byte
    buffer[3] = len & 0xFF;                        // Length low byte
    // Calculate checksum over the payload
    uint16_t checksum = fletcher16(buffer + 4, len);
    buffer[4 + len] = (checksum >> 8) & 0xFF; // Checksum high byte
    buffer[5 + len] = checksum & 0xFF;        // Checksum low byte
    // Send complete packet
    _serial->write(buffer, len + SERIAL_OVERHEAD);
    BRIDGE_DEBUG_PRINTLN("TX, len=%d crc=0x%04x\n", len, checksum);
  }
 }
 void RS232Bridge::onPacketReceived(mesh::Packet *packet) {
  handleReceivedPacket(packet);
 }
--- a/src/helpers/bridges/RS232Bridge.h
+++ b/src/helpers/bridges/RS232Bridge.h
@ -49,11 +49,12 @@ public:
  /**
   * @brief Constructs an RS232Bridge instance
   *
   * @param prefs Node preferences for configuration settings
   * @param serial The hardware serial port to use
   * @param mgr PacketManager for allocating and queuing packets
   * @param rtc RTCClock for timestamping debug messages
   */
-  RS232Bridge(Stream &serial, mesh::PacketManager *mgr, mesh::RTCClock *rtc);
+  RS232Bridge(NodePrefs *prefs, Stream &serial, mesh::PacketManager *mgr, mesh::RTCClock *rtc);
  /**
   * Initializes the RS232 bridge
@ -65,6 +66,12 @@ public:
   */
  void begin() override;
  /**
   * Stops the RS232 bridge
   *
   */
  void end() override;
  /**
   * @brief Main loop handler for processing incoming serial data
   *
@ -90,7 +97,7 @@ public:
   *
   * @param packet The mesh packet to transmit
   */
-  void onPacketTransmitted(mesh::Packet *packet) override;
+  void sendPacket(mesh::Packet *packet) override;
  /**
   * @brief Called when a complete valid packet has been received from serial
--- a/src/helpers/radiolib/CustomLR1110.h
+++ b/src/helpers/radiolib/CustomLR1110.h
@ -1,70 +1,28 @@
 #pragma once
 #include <RadioLib.h>
-
+#include "MeshCore.h"
 #define LR1110_IRQ_HAS_PREAMBLE                     0b0000000100  //  4     4     valid LoRa header received
 #define LR1110_IRQ_HEADER_VALID                     0b0000010000  //  4     4     valid LoRa header received
 class CustomLR1110 : public LR1110 {
  public:
    CustomLR1110(Module *mod) : LR1110(mod) { }
-    RadioLibTime_t getTimeOnAir(size_t len) override {
+    size_t getPacketLength(bool update) override {
-  // calculate number of symbols
+      size_t len = LR1110::getPacketLength(update);
-  float N_symbol = 0;
+      if (len == 0 && getIrqStatus() & RADIOLIB_LR11X0_IRQ_HEADER_ERR) {
-  if(this->codingRate <= RADIOLIB_LR11X0_LORA_CR_4_8_SHORT) {
+        // we've just recieved a corrupted packet
-    // legacy coding rate - nice and simple
+        // this may have triggered a bug causing subsequent packets to be shifted
-    // get SF coefficients
+        // call standby() to return radio to known-good state
-    float coeff1 = 0;
+        // recvRaw will call startReceive() to restart rx
-    int16_t coeff2 = 0;
+        MESH_DEBUG_PRINTLN("LR1110: got header err, calling standby()");
-    int16_t coeff3 = 0;
+        standby();
-    if(this->spreadingFactor < 7) {
+      }
-      // SF5, SF6
+      return len;
      coeff1 = 6.25;
      coeff2 = 4*this->spreadingFactor;
      coeff3 = 4*this->spreadingFactor;
    } else if(this->spreadingFactor < 11) {
      // SF7. SF8, SF9, SF10
      coeff1 = 4.25;
      coeff2 = 4*this->spreadingFactor + 8;
      coeff3 = 4*this->spreadingFactor;
    } else {
      // SF11, SF12
      coeff1 = 4.25;
      coeff2 = 4*this->spreadingFactor + 8;
      coeff3 = 4*(this->spreadingFactor - 2);
    }
    // get CRC length
    int16_t N_bitCRC = 16;
    if(this->crcTypeLoRa == RADIOLIB_LR11X0_LORA_CRC_DISABLED) {
      N_bitCRC = 0;
    }
    // get header length
    int16_t N_symbolHeader = 20;
    if(this->headerType == RADIOLIB_LR11X0_LORA_HEADER_IMPLICIT) {
      N_symbolHeader = 0;
    }
-
+    
    // calculate number of LoRa preamble symbols - NO! Lora preamble is already in symbols
    // uint32_t N_symbolPreamble = (this->preambleLengthLoRa & 0x0F) * (uint32_t(1) << ((this->preambleLengthLoRa & 0xF0) >> 4));
    // calculate the number of symbols - nope
    // N_symbol = (float)N_symbolPreamble + coeff1 + 8.0f + ceilf((float)RADIOLIB_MAX((int16_t)(8 * len + N_bitCRC - coeff2 + N_symbolHeader), (int16_t)0) / (float)coeff3) * (float)(this->codingRate + 4);
    // calculate the number of symbols - using only preamblelora because it's already in symbols
    N_symbol = (float)preambleLengthLoRa + coeff1 + 8.0f + ceilf((float)RADIOLIB_MAX((int16_t)(8 * len + N_bitCRC - coeff2 + N_symbolHeader), (int16_t)0) / (float)coeff3) * (float)(this->codingRate + 4);
  } else {
    // long interleaving - not needed for this modem
  }
  // get time-on-air in us
  return(((uint32_t(1) << this->spreadingFactor) / this->bandwidthKhz) * N_symbol * 1000.0f);
 }
    bool isReceiving() {
      uint16_t irq = getIrqStatus();
-      bool detected = ((irq & LR1110_IRQ_HEADER_VALID) || (irq & LR1110_IRQ_HAS_PREAMBLE));
+      bool detected = ((irq & RADIOLIB_LR11X0_IRQ_SYNC_WORD_HEADER_VALID) || (irq & RADIOLIB_LR11X0_IRQ_PREAMBLE_DETECTED));
      return detected;
    }
 };
--- a/src/helpers/sensors/EnvironmentSensorManager.cpp
+++ b/src/helpers/sensors/EnvironmentSensorManager.cpp
@ -6,6 +6,21 @@
 #define TELEM_WIRE &Wire  // Use default I2C bus for Environment Sensors
 #endif
 #ifdef ENV_INCLUDE_BME680
 #ifndef TELEM_BME680_ADDRESS
 #define TELEM_BME680_ADDRESS 0x76
 #endif
 #define TELEM_BME680_SEALEVELPRESSURE_HPA (1013.25)
 #include <Adafruit_BME680.h>
 static Adafruit_BME680 BME680;
 #endif
 #ifdef ENV_INCLUDE_BMP085
 #define TELEM_BMP085_SEALEVELPRESSURE_HPA (1013.25)
 #include <Adafruit_BMP085.h>
 static Adafruit_BMP085 BMP085;
 #endif
 #if ENV_INCLUDE_AHTX0
 #define TELEM_AHTX_ADDRESS      0x38      // AHT10, AHT20 temperature and humidity sensor I2C address
 #include <Adafruit_AHTX0.h>
@ -96,6 +111,41 @@ static bool serialGPSFlag = false;
 #define TELEM_RAK12500_ADDRESS   0x42     //RAK12500 Ublox GPS via i2c
 #include <SparkFun_u-blox_GNSS_Arduino_Library.h>
 static SFE_UBLOX_GNSS ublox_GNSS;
 class RAK12500LocationProvider : public LocationProvider {
  long _lat = 0;
  long _lng = 0;
  long _alt = 0;
  int _sats = 0;
  long _epoch = 0;
  bool _fix = false;
 public:
  long getLatitude() override { return _lat; }
  long getLongitude() override { return _lng; }
  long getAltitude() override { return _alt; }
  long satellitesCount() override { return _sats; }
  bool isValid() override { return _fix; }
  long getTimestamp() override { return _epoch; }
  void sendSentence(const char * sentence) override { }
  void reset() override { }
  void begin() override { }
  void stop() override { }
  void loop() override {
    if (ublox_GNSS.getGnssFixOk(8)) {
      _fix = true;
      _lat = ublox_GNSS.getLatitude(2) / 10;
      _lng = ublox_GNSS.getLongitude(2) / 10;
      _alt = ublox_GNSS.getAltitude(2);
      _sats = ublox_GNSS.getSIV(2);
    } else {
      _fix = false;
    }
    _epoch = ublox_GNSS.getUnixEpoch(2);
  }
  bool isEnabled() override { return true; }
 };
 static RAK12500LocationProvider RAK12500_provider;
 #endif
 bool EnvironmentSensorManager::begin() {
@ -251,6 +301,28 @@ bool EnvironmentSensorManager::begin() {
  }
  #endif
  #if ENV_INCLUDE_BME680
  if (BME680.begin(TELEM_BME680_ADDRESS, TELEM_WIRE)) {
    MESH_DEBUG_PRINTLN("Found BME680 at address: %02X", TELEM_BME680_ADDRESS);
    BME680_initialized = true;
  } else {
    BME680_initialized = false;
    MESH_DEBUG_PRINTLN("BME680 was not found at I2C address %02X", TELEM_BME680_ADDRESS);
  }
  #endif
  #if ENV_INCLUDE_BMP085
  // First argument is  MODE (aka oversampling)
  // choose ULTRALOWPOWER
  if (BMP085.begin(0, TELEM_WIRE)) {
    MESH_DEBUG_PRINTLN("Found sensor BMP085");
    BMP085_initialized = true;
  } else {
    BMP085_initialized = false;
    MESH_DEBUG_PRINTLN("BMP085 was not found at I2C address %02X", 0x77);
  }
  #endif
  return true;
 }
@ -380,6 +452,27 @@ bool EnvironmentSensorManager::querySensors(uint8_t requester_permissions, Cayen
    }
    #endif
    #if ENV_INCLUDE_BME680
    if (BME680_initialized) {
      if (BME680.performReading()) {
        telemetry.addTemperature(TELEM_CHANNEL_SELF, BME680.temperature);
        telemetry.addRelativeHumidity(TELEM_CHANNEL_SELF, BME680.humidity);
        telemetry.addBarometricPressure(TELEM_CHANNEL_SELF, BME680.pressure / 100);
        telemetry.addAltitude(TELEM_CHANNEL_SELF, 44330.0 * (1.0 - pow((BME680.pressure / 100) / TELEM_BME680_SEALEVELPRESSURE_HPA, 0.1903)));
        telemetry.addAnalogInput(next_available_channel, BME680.gas_resistance);
        next_available_channel++;
      }
    }
    #endif
    #if ENV_INCLUDE_BMP085
    if (BMP085_initialized) {
        telemetry.addTemperature(TELEM_CHANNEL_SELF, BMP085.readTemperature());
        telemetry.addBarometricPressure(TELEM_CHANNEL_SELF, BMP085.readPressure() / 100);
        telemetry.addAltitude(TELEM_CHANNEL_SELF, BMP085.readAltitude(TELEM_BMP085_SEALEVELPRESSURE_HPA * 100));
    }
    #endif
  }
  return true;
@ -387,27 +480,34 @@ bool EnvironmentSensorManager::querySensors(uint8_t requester_permissions, Cayen
 int EnvironmentSensorManager::getNumSettings() const {
  int settings = 0;
  #if ENV_INCLUDE_GPS
-    return gps_detected ? 1 : 0;  // only show GPS setting if GPS is detected
+    if (gps_detected) settings++;  // only show GPS setting if GPS is detected
  #else
    return 0;
  #endif
  return settings;
 }
 const char* EnvironmentSensorManager::getSettingName(int i) const {
  int settings = 0;
  #if ENV_INCLUDE_GPS
-    return (gps_detected && i == 0) ? "gps" : NULL;
+    if (gps_detected && i == settings++) {
-  #else
+      return "gps";
-    return NULL;
+    }
  #endif
  // convenient way to add params (needed for some tests)
 //  if (i == settings++) return "param.2";
  return NULL;
 }
 const char* EnvironmentSensorManager::getSettingValue(int i) const {
  int settings = 0;
  #if ENV_INCLUDE_GPS
-  if (gps_detected && i == 0) {
+    if (gps_detected && i == settings++) {
-    return gps_active ? "1" : "0";
+      return gps_active ? "1" : "0";
-  }
+    }
  #endif
  // convenient way to add params ...
 //  if (i == settings++) return "2";
  return NULL;
 }
@ -514,12 +614,22 @@ bool EnvironmentSensorManager::gpsIsAwake(uint8_t ioPin){
  //Try to init RAK12500 on I2C
  if (ublox_GNSS.begin(Wire) == true){
    MESH_DEBUG_PRINTLN("RAK12500 GPS init correctly with pin %i",ioPin);
-    ublox_GNSS.setI2COutput(COM_TYPE_NMEA);
+    ublox_GNSS.setI2COutput(COM_TYPE_UBX);
    ublox_GNSS.enableGNSS(true, SFE_UBLOX_GNSS_ID_GPS);
    ublox_GNSS.enableGNSS(true, SFE_UBLOX_GNSS_ID_GALILEO);
    ublox_GNSS.enableGNSS(true, SFE_UBLOX_GNSS_ID_GLONASS);
    ublox_GNSS.enableGNSS(true, SFE_UBLOX_GNSS_ID_SBAS);
    ublox_GNSS.enableGNSS(true, SFE_UBLOX_GNSS_ID_BEIDOU);
    ublox_GNSS.enableGNSS(true, SFE_UBLOX_GNSS_ID_IMES);
    ublox_GNSS.enableGNSS(true, SFE_UBLOX_GNSS_ID_QZSS);
    ublox_GNSS.setMeasurementRate(1000);
    ublox_GNSS.saveConfigSelective(VAL_CFG_SUBSEC_IOPORT);
    gpsResetPin = ioPin;
    i2cGPSFlag = true;
    gps_active = true;
    gps_detected = true;
    _location = &RAK12500_provider;
    return true;
  }
  else if(Serial1){
@ -571,19 +681,13 @@ void EnvironmentSensorManager::stop_gps() {
 void EnvironmentSensorManager::loop() {
  static long next_gps_update = 0;
  #if ENV_INCLUDE_GPS
  _location->loop();
  if (millis() > next_gps_update) {
    if(gps_active){
    #ifdef RAK_WISBLOCK_GPS
-    if(i2cGPSFlag){
+    if ((i2cGPSFlag || serialGPSFlag) && _location->isValid()) {
      node_lat = ((double)ublox_GNSS.getLatitude())/10000000.;
      node_lon = ((double)ublox_GNSS.getLongitude())/10000000.;
      MESH_DEBUG_PRINTLN("lat %f lon %f", node_lat, node_lon);
      node_altitude = ((double)ublox_GNSS.getAltitude()) / 1000.0;
      MESH_DEBUG_PRINTLN("lat %f lon %f alt %f", node_lat, node_lon, node_altitude);
    }
    else if (serialGPSFlag && _location->isValid()) {
      node_lat = ((double)_location->getLatitude())/1000000.;
      node_lon = ((double)_location->getLongitude())/1000000.;
      MESH_DEBUG_PRINTLN("lat %f lon %f", node_lat, node_lon);
@ -602,5 +706,6 @@ void EnvironmentSensorManager::loop() {
    }
    next_gps_update = millis() + 1000;
  }
  #endif
 }
 #endif
--- a/src/helpers/sensors/EnvironmentSensorManager.h
+++ b/src/helpers/sensors/EnvironmentSensorManager.h
@ -20,6 +20,8 @@ protected:
  bool MLX90614_initialized = false;
  bool VL53L0X_initialized = false;
  bool SHT4X_initialized = false;
  bool BME680_initialized = false;
  bool BMP085_initialized = false;
  bool gps_detected = false;
  bool gps_active = false;
@ -39,6 +41,7 @@ protected:
 public:
  #if ENV_INCLUDE_GPS
  EnvironmentSensorManager(LocationProvider &location): _location(&location){};
  LocationProvider* getLocationProvider() { return _location; }
  #else
  EnvironmentSensorManager(){};
  #endif
--- a/src/helpers/sensors/LocationProvider.h
+++ b/src/helpers/sensors/LocationProvider.h
@ -17,8 +17,9 @@ public:
    virtual bool isValid() = 0;
    virtual long getTimestamp() = 0;
    virtual void sendSentence(const char * sentence);
-    virtual void reset();
+    virtual void reset() = 0;
-    virtual void begin();
+    virtual void begin() = 0;
-    virtual void stop();
+    virtual void stop() = 0;
-    virtual void loop();
+    virtual void loop() = 0;
    virtual bool isEnabled() = 0;
 };
--- a/src/helpers/sensors/MicroNMEALocationProvider.h
+++ b/src/helpers/sensors/MicroNMEALocationProvider.h
@ -3,6 +3,7 @@
 #include "LocationProvider.h"
 #include <MicroNMEA.h>
 #include <RTClib.h>
 #include <helpers/RefCountedDigitalPin.h>
 #ifndef GPS_EN
    #ifdef PIN_GPS_EN
@ -37,14 +38,15 @@ class MicroNMEALocationProvider : public LocationProvider {
    MicroNMEA nmea;
    mesh::RTCClock* _clock;
    Stream* _gps_serial;
    RefCountedDigitalPin* _peripher_power;
    int _pin_reset;
    int _pin_en;
    long next_check = 0;
    long time_valid = 0;
 public :
-    MicroNMEALocationProvider(Stream& ser, mesh::RTCClock* clock = NULL, int pin_reset = GPS_RESET, int pin_en = GPS_EN) :
+    MicroNMEALocationProvider(Stream& ser, mesh::RTCClock* clock = NULL, int pin_reset = GPS_RESET, int pin_en = GPS_EN,RefCountedDigitalPin* peripher_power=NULL) :
-    _gps_serial(&ser), nmea(_nmeaBuffer, sizeof(_nmeaBuffer)), _pin_reset(pin_reset), _pin_en(pin_en), _clock(clock) {
+    _gps_serial(&ser), nmea(_nmeaBuffer, sizeof(_nmeaBuffer)), _pin_reset(pin_reset), _pin_en(pin_en), _clock(clock), _peripher_power(peripher_power) {
        if (_pin_reset != -1) {
            pinMode(_pin_reset, OUTPUT);
            digitalWrite(_pin_reset, GPS_RESET_FORCE);
@ -56,6 +58,7 @@ public :
    }
    void begin() override {
        if (_peripher_power) _peripher_power->claim();
        if (_pin_en != -1) {
            digitalWrite(_pin_en, PIN_GPS_EN_ACTIVE);
        }
@ -75,7 +78,18 @@ public :
    void stop() override {
        if (_pin_en != -1) {
            digitalWrite(_pin_en, !PIN_GPS_EN_ACTIVE);
-        }        
+        }
        if (_peripher_power) _peripher_power->release();  
    }
    bool isEnabled() override {
        // directly read the enable pin if present as gps can be
        // activated/deactivated outside of here ...
        if (_pin_en != -1) {
            return digitalRead(_pin_en) == PIN_GPS_EN_ACTIVE;
        } else {
            return true; // no enable so must be active
        }
    }
    void syncTime() override { nmea.clear(); LocationProvider::syncTime(); }
--- a/src/helpers/ui/DisplayDriver.h
+++ b/src/helpers/ui/DisplayDriver.h
@ -32,6 +32,15 @@ public:
    setCursor(mid_x - w/2, y);
    print(str);
  }
  virtual void drawTextRightAlign(int x_anch, int y, const char* str) {
    int w = getTextWidth(str);
    setCursor(x_anch - w, y);
    print(str);
  }
  virtual void drawTextLeftAlign(int x_anch, int y, const char* str) {
    setCursor(x_anch, y);
    print(str);
  }
  // convert UTF-8 characters to displayable block characters for compatibility
  virtual void translateUTF8ToBlocks(char* dest, const char* src, size_t dest_size) {
--- a/src/helpers/ui/LGFXDisplay.cpp
+++ b/src/helpers/ui/LGFXDisplay.cpp
@ -0,0 +1,125 @@
 #include "LGFXDisplay.h"
 bool LGFXDisplay::begin() {
  turnOn();
  display->init();
  display->setRotation(1);
  display->setBrightness(64);
  display->setColorDepth(8);
  display->setTextColor(TFT_WHITE);
  buffer.setColorDepth(8);
  buffer.setPsram(true);
  buffer.createSprite(width(), height());
  return true;
 }
 void LGFXDisplay::turnOn() {
 //  display->wakeup();
  if (!_isOn) {
    display->wakeup();
  }
  _isOn = true;
 }
 void LGFXDisplay::turnOff() {
  if (_isOn) {
    display->sleep();
  }
  _isOn = false;
 }
 void LGFXDisplay::clear() {
 //  display->clearDisplay();
  buffer.clearDisplay();
 }
 void LGFXDisplay::startFrame(Color bkg) {
 //  display->startWrite();
 //  display->getScanLine();
  buffer.clearDisplay();
  buffer.setTextColor(TFT_WHITE);
 }
 void LGFXDisplay::setTextSize(int sz) {
  buffer.setTextSize(sz);
 }
 void LGFXDisplay::setColor(Color c) {
  // _color = (c != 0) ? ILI9342_WHITE : ILI9342_BLACK;
  switch (c) {
    case DARK:
      _color = TFT_BLACK;
      break;
    case LIGHT:
      _color = TFT_WHITE;
      break;
    case RED:
      _color = TFT_RED;
      break;
    case GREEN:
      _color = TFT_GREEN;
      break;
    case BLUE:
      _color = TFT_BLUE;
      break;
    case YELLOW:
      _color = TFT_YELLOW;
      break;
    case ORANGE:
      _color = TFT_ORANGE;
      break;
    default:
      _color = TFT_WHITE;
  }
  buffer.setTextColor(_color);
 }
 void LGFXDisplay::setCursor(int x, int y) {
  buffer.setCursor(x, y);
 }
 void LGFXDisplay::print(const char* str) {
  buffer.println(str);
 //  Serial.println(str);
 }
 void LGFXDisplay::fillRect(int x, int y, int w, int h) {
  buffer.fillRect(x, y, w, h, _color);
 }
 void LGFXDisplay::drawRect(int x, int y, int w, int h) {
  buffer.drawRect(x, y, w, h, _color);
 }
 void LGFXDisplay::drawXbm(int x, int y, const uint8_t* bits, int w, int h) {
  buffer.drawBitmap(x, y, bits, w, h, _color);
 }
 uint16_t LGFXDisplay::getTextWidth(const char* str) {
  return buffer.textWidth(str);
 }
 void LGFXDisplay::endFrame() {
  display->startWrite();
  if (UI_ZOOM != 1) {
    buffer.pushRotateZoom(display, display->width()/2, display->height()/2 , 0, UI_ZOOM, UI_ZOOM);
  } else {
    buffer.pushSprite(display, 0, 0);
  }
  display->endWrite();
 }
 bool LGFXDisplay::getTouch(int *x, int *y) {
  lgfx::v1::touch_point_t point;
  display->getTouch(&point);
  if (UI_ZOOM != 1) {
    *x = point.x / UI_ZOOM;
    *y = point.y / UI_ZOOM;
  } else {
    *x = point.x;
    *y = point.y;
  }
  return (*x >= 0) && (*y >= 0);
 }
--- a/src/helpers/ui/LGFXDisplay.h
+++ b/src/helpers/ui/LGFXDisplay.h
@ -0,0 +1,39 @@
 #pragma once
 #include <helpers/ui/DisplayDriver.h>
 #define LGFX_USE_V1
 #include <LovyanGFX.hpp>
 #ifndef UI_ZOOM
  #define UI_ZOOM 1
 #endif
 class LGFXDisplay : public DisplayDriver {
 protected:
  LGFX_Device* display;
  LGFX_Sprite buffer;
  bool _isOn = false;
  int _color = TFT_WHITE;
 public:
  LGFXDisplay(int w, int h, LGFX_Device &disp)
    : DisplayDriver(w/UI_ZOOM, h/UI_ZOOM), display(&disp) {}
  bool begin();
  bool isOn() override { return _isOn; }
  void turnOn() override;
  void turnOff() override;
  void clear() override;
  void startFrame(Color bkg = DARK) override;
  void setTextSize(int sz) override;
  void setColor(Color c) override;
  void setCursor(int x, int y) override;
  void print(const char* str) override;
  void fillRect(int x, int y, int w, int h) override;
  void drawRect(int x, int y, int w, int h) override;
  void drawXbm(int x, int y, const uint8_t* bits, int w, int h) override;
  uint16_t getTextWidth(const char* str) override;
  void endFrame() override;
  virtual bool getTouch(int *x, int *y);
 };
--- a/src/helpers/ui/MomentaryButton.cpp
+++ b/src/helpers/ui/MomentaryButton.cpp
@ -2,7 +2,7 @@
 #define MULTI_CLICK_WINDOW_MS  280
-MomentaryButton::MomentaryButton(int8_t pin, int long_press_millis, bool reverse, bool pulldownup) { 
+MomentaryButton::MomentaryButton(int8_t pin, int long_press_millis, bool reverse, bool pulldownup, bool multiclick) { 
  _pin = pin;
  _reverse = reverse;
  _pull = pulldownup;
@ -13,7 +13,7 @@ MomentaryButton::MomentaryButton(int8_t pin, int long_press_millis, bool reverse
  _threshold = 0;
  _click_count = 0;
  _last_click_time = 0;
-  _multi_click_window = MULTI_CLICK_WINDOW_MS;
+  _multi_click_window = multiclick ? MULTI_CLICK_WINDOW_MS : 0;
  _pending_click = false;
 }
--- a/src/helpers/ui/MomentaryButton.h
+++ b/src/helpers/ui/MomentaryButton.h
@ -23,7 +23,7 @@ class MomentaryButton {
  bool isPressed(int level) const;
 public:
-  MomentaryButton(int8_t pin, int long_press_mills=0, bool reverse=false, bool pulldownup=false);
+  MomentaryButton(int8_t pin, int long_press_mills=0, bool reverse=false, bool pulldownup=false, bool multiclick=true);
  MomentaryButton(int8_t pin, int long_press_mills, int analog_threshold);
  void begin();
  int check(bool repeat_click=false);  // returns one of BUTTON_EVENT_*
--- a/src/helpers/ui/ST7735Display.cpp
+++ b/src/helpers/ui/ST7735Display.cpp
@ -24,14 +24,21 @@ bool ST7735Display::begin() {
    digitalWrite(PIN_TFT_LEDA_CTL, HIGH);
    digitalWrite(PIN_TFT_RST, HIGH);
 #if defined(HELTEC_TRACKER_V2)
    display.initR(INITR_MINI160x80);
    display.setRotation(DISPLAY_ROTATION);
    uint8_t madctl = ST77XX_MADCTL_MY | ST77XX_MADCTL_MV |ST7735_MADCTL_BGR;//Adjust color to BGR
    display.sendCommand(ST77XX_MADCTL, &madctl, 1);
 #else
    display.initR(INITR_MINI160x80_PLUGIN);
    display.setRotation(DISPLAY_ROTATION);
 #endif
    display.setSPISpeed(40000000);
    display.fillScreen(ST77XX_BLACK);
    display.setTextColor(ST77XX_WHITE);
    display.setTextSize(2); 
    display.cp437(true);         // Use full 256 char 'Code Page 437' font
-  
+    
    _isOn = true;
  }
  return true;
--- a/src/helpers/ui/ST7789LCDDisplay.cpp
+++ b/src/helpers/ui/ST7789LCDDisplay.cpp
@ -39,7 +39,7 @@ bool ST7789LCDDisplay::begin() {
    display.fillScreen(ST77XX_BLACK);
    display.setTextColor(ST77XX_WHITE);
-    display.setTextSize(2); 
+    display.setTextSize(2 * DISPLAY_SCALE_X); 
    display.cp437(true); // Use full 256 char 'Code Page 437' font
    _isOn = true;
@ -70,12 +70,12 @@ void ST7789LCDDisplay::clear() {
 void ST7789LCDDisplay::startFrame(Color bkg) {
  display.fillScreen(ST77XX_BLACK);
  display.setTextColor(ST77XX_WHITE);
-  display.setTextSize(1); // This one affects size of Please wait... message
+  display.setTextSize(1 * DISPLAY_SCALE_X); // This one affects size of Please wait... message
  display.cp437(true); // Use full 256 char 'Code Page 437' font
 }
 void ST7789LCDDisplay::setTextSize(int sz) {
-  display.setTextSize(sz);
+  display.setTextSize(sz * DISPLAY_SCALE_X);
 }
 void ST7789LCDDisplay::setColor(Color c) {
@ -125,7 +125,22 @@ void ST7789LCDDisplay::drawRect(int x, int y, int w, int h) {
 }
 void ST7789LCDDisplay::drawXbm(int x, int y, const uint8_t* bits, int w, int h) {
-  display.drawBitmap(x * DISPLAY_SCALE_X, y * DISPLAY_SCALE_Y, bits, w, h, _color);
+  uint8_t byteWidth = (w + 7) / 8;
  for (int j = 0; j < h; j++) {
    for (int i = 0; i < w; i++) {
      uint8_t byte = bits[j * byteWidth + i / 8];
      bool pixelOn = byte & (0x80 >> (i & 7));
      if (pixelOn) {
        for (int dy = 0; dy < DISPLAY_SCALE_X; dy++) {
          for (int dx = 0; dx < DISPLAY_SCALE_X; dx++) {
            display.drawPixel(x * DISPLAY_SCALE_X + i * DISPLAY_SCALE_X + dx, y * DISPLAY_SCALE_Y + j * DISPLAY_SCALE_X + dy, _color);
          }
        }
      }
    }
  }
 }
 uint16_t ST7789LCDDisplay::getTextWidth(const char* str) {
@ -138,4 +153,4 @@ uint16_t ST7789LCDDisplay::getTextWidth(const char* str) {
 void ST7789LCDDisplay::endFrame() {
  // display.display();
-}
+}
--- a/variants/ebyte_eora_s3/platformio.ini
+++ b/variants/ebyte_eora_s3/platformio.ini
@ -64,7 +64,7 @@ lib_deps =
 extends = Ebyte_EoRa-S3
 build_flags =
  ${Ebyte_EoRa-S3.build_flags}
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
@ -99,8 +99,8 @@ build_flags =
  ${Ebyte_EoRa-S3.build_flags}
  -I examples/companion_radio/ui-new
  -D DISPLAY_CLASS=SSD1306Display
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
 ; NOTE: DO NOT ENABLE -->  -D MESH_PACKET_LOGGING=1
 ; NOTE: DO NOT ENABLE -->  -D MESH_DEBUG=1
 build_src_filter = ${Ebyte_EoRa-S3.build_src_filter}
@ -118,8 +118,8 @@ build_flags =
  ${Ebyte_EoRa-S3.build_flags}
  -I examples/companion_radio/ui-new
  -D DISPLAY_CLASS=SSD1306Display
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D BLE_PIN_CODE=123456
  -D BLE_DEBUG_LOGGING=1
  -D OFFLINE_QUEUE_SIZE=256
--- a/variants/generic-e22/platformio.ini
+++ b/variants/generic-e22/platformio.ini
@ -65,6 +65,7 @@ lib_deps =
 ;   -D WITH_RS232_BRIDGE=Serial2
 ;   -D WITH_RS232_BRIDGE_RX=5
 ;   -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ; ;  -D MESH_PACKET_LOGGING=1
 ; ;  -D MESH_DEBUG=1
 ; lib_deps =
@ -87,7 +88,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 lib_deps =
@ -132,6 +133,7 @@ lib_deps =
 ;   -D WITH_RS232_BRIDGE=Serial2
 ;   -D WITH_RS232_BRIDGE_RX=5
 ;   -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ; ;  -D MESH_PACKET_LOGGING=1
 ; ;  -D MESH_DEBUG=1
 ; lib_deps =
@ -154,7 +156,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 lib_deps =
--- a/variants/generic_espnow/platformio.ini
+++ b/variants/generic_espnow/platformio.ini
@ -26,7 +26,7 @@ build_src_filter = ${esp32_base.build_src_filter}
 extends = Generic_ESPNOW
 build_flags =
  ${Generic_ESPNOW.build_flags}
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=1
 build_src_filter = ${Generic_ESPNOW.build_src_filter}
  +<../examples/simple_secure_chat/main.cpp>
@ -54,7 +54,7 @@ lib_deps =
 extends = Generic_ESPNOW
 build_flags =
  ${Generic_ESPNOW.build_flags}
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=8
 ; NOTE: DO NOT ENABLE -->  -D MESH_PACKET_LOGGING=1
 ; NOTE: DO NOT ENABLE -->  -D MESH_DEBUG=1
--- a/variants/heltec_ct62/platformio.ini
+++ b/variants/heltec_ct62/platformio.ini
@ -61,6 +61,7 @@ lib_deps =
 ;   -D WITH_RS232_BRIDGE=Serial2
 ;   -D WITH_RS232_BRIDGE_RX=5
 ;   -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ; ;  -D MESH_PACKET_LOGGING=1
 ; ;  -D MESH_DEBUG=1
 ; build_src_filter = ${Heltec_ct62.build_src_filter}
@ -80,7 +81,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_ct62.build_src_filter}
@ -96,8 +97,8 @@ build_flags =
  ${Heltec_ct62.build_flags}
 ;  -D ARDUINO_USB_MODE=1
 ;  -D ARDUINO_USB_CDC_ON_BOOT=1
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D OFFLINE_QUEUE_SIZE=256
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
@ -114,8 +115,8 @@ build_flags =
  ${Heltec_ct62.build_flags}
 ;  -D ARDUINO_USB_MODE=1
 ;  -D ARDUINO_USB_CDC_ON_BOOT=1
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D OFFLINE_QUEUE_SIZE=256
  -D BLE_PIN_CODE=123456
 ;  -D MESH_PACKET_LOGGING=1
--- a/variants/heltec_e213/platformio.ini
+++ b/variants/heltec_e213/platformio.ini
@ -40,13 +40,13 @@ lib_deps =
  ${esp32_base.lib_deps}
  https://github.com/Quency-D/heltec-eink-modules/archive/563dd41fd850a1bc3039b8723da4f3a20fe1c800.zip
-[env:Heltec_E213_companion_radio_ble]
+[env:Heltec_E213_companion_radio_ble_]
 extends = Heltec_E213_base
 build_flags =
  ${Heltec_E213_base.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=E213Display
  -D BLE_PIN_CODE=123456   ; dynamic, random PIN
  -D BLE_DEBUG_LOGGING=1
@ -60,13 +60,13 @@ lib_deps =
  ${Heltec_E213_base.lib_deps}
  densaugeo/base64 @ ~1.4.0
-[env:Heltec_E213_companion_radio_usb]
+[env:Heltec_E213_companion_radio_usb_]
 extends = Heltec_E213_base
 build_flags =
  ${Heltec_E213_base.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=E213Display
  -D OFFLINE_QUEUE_SIZE=256
 build_src_filter = ${Heltec_E213_base.build_src_filter}
@ -78,7 +78,7 @@ lib_deps =
  ${Heltec_E213_base.lib_deps}
  densaugeo/base64 @ ~1.4.0
-[env:Heltec_E213_repeater]
+[env:Heltec_E213_repeater_]
 extends = Heltec_E213_base
 build_flags =
  ${Heltec_E213_base.build_flags}
@ -95,7 +95,7 @@ lib_deps =
  ${Heltec_E213_base.lib_deps}
  ${esp32_ota.lib_deps}
-; [env:Heltec_E213_repeater_bridge_rs232]
+; [env:Heltec_E213_repeater_bridge_rs232_]
 ; extends = Heltec_E213_base
 ; build_flags =
 ;   ${Heltec_E213_base.build_flags}
@ -108,6 +108,7 @@ lib_deps =
 ;   -D WITH_RS232_BRIDGE=Serial2
 ;   -D WITH_RS232_BRIDGE_RX=5
 ;   -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ; ;  -D MESH_PACKET_LOGGING=1
 ; ;  -D MESH_DEBUG=1
 ; build_src_filter = ${Heltec_E213_base.build_src_filter}
@ -118,7 +119,7 @@ lib_deps =
 ;   ${Heltec_E213_base.lib_deps}
 ;   ${esp32_ota.lib_deps}
-[env:Heltec_E213_repeater_bridge_espnow]
+[env:Heltec_E213_repeater_bridge_espnow_]
 extends = Heltec_E213_base
 build_flags =
  ${Heltec_E213_base.build_flags}
@ -129,7 +130,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_E213_base.build_src_filter}
@ -140,7 +141,7 @@ lib_deps =
  ${Heltec_E213_base.lib_deps}
  ${esp32_ota.lib_deps}
-[env:Heltec_E213_room_server]
+[env:Heltec_E213_room_server_]
 extends = Heltec_E213_base
 build_flags =
  ${Heltec_E213_base.build_flags}
--- a/variants/heltec_e290/platformio.ini
+++ b/variants/heltec_e290/platformio.ini
@ -34,13 +34,13 @@ lib_deps =
  ${esp32_base.lib_deps}
  https://github.com/Quency-D/heltec-eink-modules/archive/563dd41fd850a1bc3039b8723da4f3a20fe1c800.zip
-[env:Heltec_E290_companion_radio_ble]
+[env:Heltec_E290_companion_ble_]
 extends = Heltec_E290_base
 build_flags =
  ${Heltec_E290_base.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=E290Display
  -D BLE_PIN_CODE=123456   ; dynamic, random PIN
  -D BLE_DEBUG_LOGGING=1
@ -54,13 +54,13 @@ lib_deps =
  ${Heltec_E290_base.lib_deps}
  densaugeo/base64 @ ~1.4.0
-[env:Heltec_E290_companion_radio_usb]
+[env:Heltec_E290_companion_usb_]
 extends = Heltec_E290_base
 build_flags =
  ${Heltec_E290_base.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=E290Display
  -D BLE_PIN_CODE=123456   ; dynamic, random PIN
  -D BLE_DEBUG_LOGGING=1
@ -74,7 +74,7 @@ lib_deps =
  ${Heltec_E290_base.lib_deps}
  densaugeo/base64 @ ~1.4.0
-[env:Heltec_E290_repeater]
+[env:Heltec_E290_repeater_]
 extends = Heltec_E290_base
 build_flags =
  ${Heltec_E290_base.build_flags}
@ -91,7 +91,7 @@ lib_deps =
  ${Heltec_E290_base.lib_deps}
  ${esp32_ota.lib_deps}
-; [env:Heltec_E290_repeater_bridge_rs232]
+; [env:Heltec_E290_repeater_bridge_rs232_]
 ; extends = Heltec_E290_base
 ; build_flags =
 ;   ${Heltec_E290_base.build_flags}
@ -104,6 +104,7 @@ lib_deps =
 ;   -D WITH_RS232_BRIDGE=Serial2
 ;   -D WITH_RS232_BRIDGE_RX=5
 ;   -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ; ;  -D MESH_PACKET_LOGGING=1
 ; ;  -D MESH_DEBUG=1
 ; build_src_filter = ${Heltec_E290_base.build_src_filter}
@ -114,7 +115,7 @@ lib_deps =
 ;   ${Heltec_E290_base.lib_deps}
 ;   ${esp32_ota.lib_deps}
-[env:Heltec_E290_repeater_bridge_espnow]
+[env:Heltec_E290_repeater_bridge_espnow_]
 extends = Heltec_E290_base
 build_flags =
  ${Heltec_E290_base.build_flags}
@ -125,7 +126,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_E290_base.build_src_filter}
@ -136,7 +137,7 @@ lib_deps =
  ${Heltec_E290_base.lib_deps}
  ${esp32_ota.lib_deps}
-[env:Heltec_E290_room_server]
+[env:Heltec_E290_room_server_]
 extends = Heltec_E290_base
 build_flags =
  ${Heltec_E290_base.build_flags}
--- a/variants/heltec_t114/T114Board.cpp
+++ b/variants/heltec_t114/T114Board.cpp
@ -24,45 +24,6 @@ void T114Board::begin() {
  pinMode(PIN_VBAT_READ, INPUT);
  // Enable SoftDevice low-power mode
  sd_power_mode_set(NRF_POWER_MODE_LOWPWR);
  // Enable DC/DC converter for better efficiency (REG1 stage)
  NRF_POWER->DCDCEN = 1;
  // Power down unused communication peripherals
  // UART1 - Not used on T114
  NRF_UARTE1->ENABLE = 0;
  // SPIM2/SPIS2 - Not used (SPI is on SPIM0)
  NRF_SPIM2->ENABLE = 0;
  NRF_SPIS2->ENABLE = 0;
  // TWI1 (I2C1) - Not used (I2C is on TWI0)
  NRF_TWIM1->ENABLE = 0;
  NRF_TWIS1->ENABLE = 0;
  // PWM modules - Not used for standard T114 functions
  NRF_PWM1->ENABLE = 0;
  NRF_PWM2->ENABLE = 0;
  NRF_PWM3->ENABLE = 0;
  // PDM (Digital Microphone Interface) - Not used
  NRF_PDM->ENABLE = 0;
  // I2S - Not used
  NRF_I2S->ENABLE = 0;
  // QSPI - Not used (no external flash)
  NRF_QSPI->ENABLE = 0;
  // Disable unused analog peripherals
  // SAADC channels - only keep what's needed for battery monitoring
  NRF_SAADC->ENABLE = 0; // Re-enable only when needed for measurements
  // COMP - Comparator not used
  NRF_COMP->ENABLE = 0;
 #if defined(PIN_BOARD_SDA) && defined(PIN_BOARD_SCL)
  Wire.setPins(PIN_BOARD_SDA, PIN_BOARD_SCL);
 #endif
--- a/variants/heltec_t114/T114Board.h
+++ b/variants/heltec_t114/T114Board.h
@ -27,9 +27,6 @@ public:
  uint16_t getBattMilliVolts() override {
    int adcvalue = 0;
    NRF_SAADC->ENABLE = 1;
    analogReadResolution(12);
    analogReference(AR_INTERNAL_3_0);
    pinMode(PIN_BAT_CTL, OUTPUT);          // battery adc can be read only ctrl pin 6 set to high
@ -39,8 +36,6 @@ public:
    adcvalue = analogRead(PIN_VBAT_READ);
    digitalWrite(6, 0);
    NRF_SAADC->ENABLE = 0;
    return (uint16_t)((float)adcvalue * MV_LSB * 4.9);
  }
--- a/variants/heltec_t114/platformio.ini
+++ b/variants/heltec_t114/platformio.ini
@ -170,6 +170,7 @@ build_flags =
  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=40
  -D BLE_PIN_CODE=123456
  -D ENV_INCLUDE_GPS=1   ; enable the GPS page in UI
 ;  -D BLE_DEBUG_LOGGING=1
  -D OFFLINE_QUEUE_SIZE=256
 ;  -D MESH_PACKET_LOGGING=1
--- a/variants/heltec_t114/target.cpp
+++ b/variants/heltec_t114/target.cpp
@ -74,11 +74,10 @@ bool T114SensorManager::begin() {
  if (gps_detected) {
    MESH_DEBUG_PRINTLN("GPS detected");
    digitalWrite(GPS_EN, LOW);  // Power off GPS until the setting is changed
  } else {
    MESH_DEBUG_PRINTLN("No GPS detected");
    digitalWrite(GPS_EN, LOW);
  }
  digitalWrite(GPS_EN, LOW);  // Power off GPS until the setting is changed
  return true;
 }
--- a/variants/heltec_t114/target.h
+++ b/variants/heltec_t114/target.h
@ -30,6 +30,7 @@ public:
  bool begin() override;
  bool querySensors(uint8_t requester_permissions, CayenneLPP& telemetry) override;
  void loop() override;
  LocationProvider* getLocationProvider() override { return gps_detected ? _location : NULL; }
  int getNumSettings() const override;
  const char* getSettingName(int i) const override;
  const char* getSettingValue(int i) const override;
--- a/variants/heltec_t190/platformio.ini
+++ b/variants/heltec_t190/platformio.ini
@ -47,13 +47,13 @@ lib_deps =
  ${esp32_base.lib_deps}
  adafruit/Adafruit GFX Library @ ^1.12.1
-[env:Heltec_T190_companion_radio_ble]
+[env:Heltec_T190_companion_radio_ble_]
 extends = Heltec_T190_base
 build_flags =
  ${Heltec_T190_base.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D BLE_PIN_CODE=123456   ; dynamic, random PIN
  -D BLE_DEBUG_LOGGING=1
  -D OFFLINE_QUEUE_SIZE=256
@ -65,13 +65,13 @@ lib_deps =
  ${Heltec_T190_base.lib_deps}
  densaugeo/base64 @ ~1.4.0
-[env:Heltec_T190_companion_radio_usb]
+[env:Heltec_T190_companion_radio_usb_]
 extends = Heltec_T190_base
 build_flags =
  ${Heltec_T190_base.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D OFFLINE_QUEUE_SIZE=256
 build_src_filter = ${Heltec_T190_base.build_src_filter}
  +<helpers/esp32/*.cpp>
@ -81,7 +81,7 @@ lib_deps =
  ${Heltec_T190_base.lib_deps}
  densaugeo/base64 @ ~1.4.0
-[env:Heltec_T190_repeater]
+[env:Heltec_T190_repeater_]
 extends = Heltec_T190_base
 build_flags =
  ${Heltec_T190_base.build_flags}
@ -96,7 +96,7 @@ lib_deps =
  ${Heltec_T190_base.lib_deps}
  ${esp32_ota.lib_deps}
-; [env:Heltec_T190_repeater_bridge_rs232]
+; [env:Heltec_T190_repeater_bridge_rs232_]
 ; extends = Heltec_T190_base
 ; build_flags =
 ;   ${Heltec_T190_base.build_flags}
@ -108,6 +108,7 @@ lib_deps =
 ;   -D WITH_RS232_BRIDGE=Serial2
 ;   -D WITH_RS232_BRIDGE_RX=5
 ;   -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ; ;  -D MESH_PACKET_LOGGING=1
 ; ;  -D MESH_DEBUG=1
 ; build_src_filter = ${Heltec_T190_base.build_src_filter}
@ -117,7 +118,7 @@ lib_deps =
 ;   ${Heltec_T190_base.lib_deps}
 ;   ${esp32_ota.lib_deps}
-[env:Heltec_T190_repeater_bridge_espnow]
+[env:Heltec_T190_repeater_bridge_espnow_]
 extends = Heltec_T190_base
 build_flags =
  ${Heltec_T190_base.build_flags}
@ -127,7 +128,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_T190_base.build_src_filter}
@ -137,7 +138,7 @@ lib_deps =
  ${Heltec_T190_base.lib_deps}
  ${esp32_ota.lib_deps}
-[env:Heltec_T190_room_server]
+[env:Heltec_T190_room_server_]
 extends = Heltec_T190_base
 build_flags =
  ${Heltec_T190_base.build_flags}
--- a/variants/heltec_tracker/platformio.ini
+++ b/variants/heltec_tracker/platformio.ini
@ -5,6 +5,7 @@ build_flags =
  ${esp32_base.build_flags}
  -I variants/heltec_tracker
  -D HELTEC_LORA_V3
  -D ARDUINO_USB_CDC_ON_BOOT=1      ; need for Serial
  -D RADIO_CLASS=CustomSX1262
  -D WRAPPER_CLASS=CustomSX1262Wrapper
  -D LORA_TX_POWER=22
@ -40,11 +41,10 @@ build_flags =
  ${Heltec_tracker_base.build_flags}
  -I src/helpers/ui
  -I examples/companion_radio/ui-new
  -D ARDUINO_USB_CDC_ON_BOOT=1      ; need for Serial
  -D DISPLAY_ROTATION=1
  -D DISPLAY_CLASS=ST7735Display
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D BLE_PIN_CODE=123456 ; HWT will use display for pin
  -D OFFLINE_QUEUE_SIZE=256
 ;  -D BLE_DEBUG_LOGGING=1
@ -94,6 +94,7 @@ lib_deps =
 ;   -D WITH_RS232_BRIDGE=Serial2
 ;   -D WITH_RS232_BRIDGE_RX=5
 ;   -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ; ;  -D MESH_PACKET_LOGGING=1
 ; ;  -D MESH_DEBUG=1
 ; build_src_filter = ${Heltec_tracker_base.build_src_filter}
@ -116,7 +117,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_tracker_base.build_src_filter}
--- a/variants/heltec_tracker_v2/HeltecTrackerV2Board.cpp
+++ b/variants/heltec_tracker_v2/HeltecTrackerV2Board.cpp
@ -0,0 +1,88 @@
 #include "HeltecTrackerV2Board.h"
 void HeltecTrackerV2Board::begin() {
    ESP32Board::begin();
    pinMode(PIN_ADC_CTRL, OUTPUT);
    digitalWrite(PIN_ADC_CTRL, LOW); // Initially inactive
    pinMode(P_LORA_PA_POWER, OUTPUT);
    digitalWrite(P_LORA_PA_POWER,HIGH);
    rtc_gpio_hold_dis((gpio_num_t)P_LORA_PA_EN);
    pinMode(P_LORA_PA_EN, OUTPUT);
    digitalWrite(P_LORA_PA_EN,HIGH);
    pinMode(P_LORA_PA_TX_EN, OUTPUT);
    digitalWrite(P_LORA_PA_TX_EN,LOW);
    periph_power.begin();
    esp_reset_reason_t reason = esp_reset_reason();
    if (reason == ESP_RST_DEEPSLEEP) {
      long wakeup_source = esp_sleep_get_ext1_wakeup_status();
      if (wakeup_source & (1 << P_LORA_DIO_1)) {  // received a LoRa packet (while in deep sleep)
        startup_reason = BD_STARTUP_RX_PACKET;
      }
      rtc_gpio_hold_dis((gpio_num_t)P_LORA_NSS);
      rtc_gpio_deinit((gpio_num_t)P_LORA_DIO_1);
    }
  }
  void HeltecTrackerV2Board::onBeforeTransmit(void) {
    digitalWrite(P_LORA_TX_LED, HIGH);   // turn TX LED on
    digitalWrite(P_LORA_PA_TX_EN,HIGH);
  }
  void HeltecTrackerV2Board::onAfterTransmit(void) {
    digitalWrite(P_LORA_TX_LED, LOW);   // turn TX LED off
    digitalWrite(P_LORA_PA_TX_EN,LOW);
  }
  void HeltecTrackerV2Board::enterDeepSleep(uint32_t secs, int pin_wake_btn) {
    esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_PERIPH, ESP_PD_OPTION_ON);
    // Make sure the DIO1 and NSS GPIOs are hold on required levels during deep sleep
    rtc_gpio_set_direction((gpio_num_t)P_LORA_DIO_1, RTC_GPIO_MODE_INPUT_ONLY);
    rtc_gpio_pulldown_en((gpio_num_t)P_LORA_DIO_1);
    rtc_gpio_hold_en((gpio_num_t)P_LORA_NSS);
    rtc_gpio_hold_en((gpio_num_t)P_LORA_PA_EN); //It also needs to be enabled in receive mode
    if (pin_wake_btn < 0) {
      esp_sleep_enable_ext1_wakeup( (1L << P_LORA_DIO_1), ESP_EXT1_WAKEUP_ANY_HIGH);  // wake up on: recv LoRa packet
    } else {
      esp_sleep_enable_ext1_wakeup( (1L << P_LORA_DIO_1) | (1L << pin_wake_btn), ESP_EXT1_WAKEUP_ANY_HIGH);  // wake up on: recv LoRa packet OR wake btn
    }
    if (secs > 0) {
      esp_sleep_enable_timer_wakeup(secs * 1000000);
    }
    // Finally set ESP32 into sleep
    esp_deep_sleep_start();   // CPU halts here and never returns!
  }
  void HeltecTrackerV2Board::powerOff()  {
    enterDeepSleep(0);
  }
  uint16_t HeltecTrackerV2Board::getBattMilliVolts()  {
    analogReadResolution(10);
    digitalWrite(PIN_ADC_CTRL, HIGH);
    delay(10);
    uint32_t raw = 0;
    for (int i = 0; i < 8; i++) {
      raw += analogRead(PIN_VBAT_READ);
    }
    raw = raw / 8;
    digitalWrite(PIN_ADC_CTRL, LOW);
    return (5.42 * (3.3 / 1024.0) * raw) * 1000;
  }
  const char* HeltecTrackerV2Board::getManufacturerName() const {
    return "Heltec Tracker V2";
  }
--- a/variants/heltec_tracker_v2/HeltecTrackerV2Board.h
+++ b/variants/heltec_tracker_v2/HeltecTrackerV2Board.h
@ -0,0 +1,23 @@
 #pragma once
 #include <Arduino.h>
 #include <helpers/RefCountedDigitalPin.h>
 #include <helpers/ESP32Board.h>
 #include <driver/rtc_io.h>
 class HeltecTrackerV2Board : public ESP32Board {
 public:
  RefCountedDigitalPin periph_power;
  HeltecTrackerV2Board() : periph_power(PIN_VEXT_EN,PIN_VEXT_EN_ACTIVE) { }
  void begin();
  void onBeforeTransmit(void) override;
  void onAfterTransmit(void) override;
  void enterDeepSleep(uint32_t secs, int pin_wake_btn = -1);
  void powerOff() override;
  uint16_t getBattMilliVolts() override;
  const char* getManufacturerName() const override ;
 };
--- a/variants/heltec_tracker_v2/pins_arduino.h
+++ b/variants/heltec_tracker_v2/pins_arduino.h
@ -0,0 +1,60 @@
 #ifndef Pins_Arduino_h
 #define Pins_Arduino_h
 #include <stdint.h>
 static const uint8_t LED_BUILTIN = 18;
 #define BUILTIN_LED  LED_BUILTIN // backward compatibility
 #define LED_BUILTIN LED_BUILTIN  // allow testing #ifdef LED_BUILTIN
 static const uint8_t TX = 43;
 static const uint8_t RX = 44;
 static const uint8_t SDA = 5;
 static const uint8_t SCL = 6;
 static const uint8_t SS    = 8;
 static const uint8_t MOSI  = 10;
 static const uint8_t MISO  = 11;
 static const uint8_t SCK   = 9;
 static const uint8_t A0 = 1;
 static const uint8_t A1 = 2;
 static const uint8_t A2 = 3;
 static const uint8_t A3 = 4;
 static const uint8_t A4 = 5;
 static const uint8_t A5 = 6;
 static const uint8_t A6 = 7;
 static const uint8_t A7 = 8;
 static const uint8_t A8 = 9;
 static const uint8_t A9 = 10;
 static const uint8_t A10 = 11;
 static const uint8_t A11 = 12;
 static const uint8_t A12 = 13;
 static const uint8_t A13 = 14;
 static const uint8_t A14 = 15;
 static const uint8_t A15 = 16;
 static const uint8_t A16 = 17;
 static const uint8_t A17 = 18;
 static const uint8_t A18 = 19;
 static const uint8_t A19 = 20;
 static const uint8_t T1 = 1;
 static const uint8_t T2 = 2;
 static const uint8_t T3 = 3;
 static const uint8_t T4 = 4;
 static const uint8_t T5 = 5;
 static const uint8_t T6 = 6;
 static const uint8_t T7 = 7;
 static const uint8_t T8 = 8;
 static const uint8_t T9 = 9;
 static const uint8_t T10 = 10;
 static const uint8_t T11 = 11;
 static const uint8_t T12 = 12;
 static const uint8_t T13 = 13;
 static const uint8_t T14 = 14;
 static const uint8_t Vext = 3;
 static const uint8_t LED  = 18;
 #endif /* Pins_Arduino_h */
--- a/variants/heltec_tracker_v2/platformio.ini
+++ b/variants/heltec_tracker_v2/platformio.ini
@ -0,0 +1,218 @@
 [Heltec_tracker_v2]
 extends = esp32_base
 board = heltec_tracker_v2
 build_flags =
  ${esp32_base.build_flags}
  ${sensor_base.build_flags}
  -I variants/heltec_tracker_v2
  -D HELTEC_TRACKER_V2
  -D ESP32_CPU_FREQ=160
  -D RADIO_CLASS=CustomSX1262
  -D WRAPPER_CLASS=CustomSX1262Wrapper
  -D P_LORA_TX_LED=18
  -D P_LORA_DIO_1=14
  -D P_LORA_NSS=8
  -D P_LORA_RESET=12
  -D P_LORA_BUSY=13
  -D P_LORA_SCLK=9
  -D P_LORA_MISO=11
  -D P_LORA_MOSI=10
  -D P_LORA_PA_POWER=7 ;power en
  -D P_LORA_PA_EN=4
  -D P_LORA_PA_TX_EN=46  ;enable tx
  -D LORA_TX_POWER=10 ;If it is configured as 10 here, the final output will be 22 dbm.
  -D MAX_LORA_TX_POWER=22 ;Max SX1262 output
  -D SX126X_DIO2_AS_RF_SWITCH=true
  -D SX126X_DIO3_TCXO_VOLTAGE=1.8
  -D SX126X_CURRENT_LIMIT=140
  -D SX126X_RX_BOOSTED_GAIN=1
  -D PIN_BOARD_SDA=5
  -D PIN_BOARD_SCL=6
  -D PIN_USER_BTN=0
  -D PIN_TFT_SDA=42   ; SDIN
  -D PIN_TFT_SCL=41   ; SCLK
  -D PIN_TFT_DC=40    ; RS (register select)
  -D PIN_TFT_RST=39   ; RES
  -D PIN_TFT_CS=38
  -D USE_PIN_TFT=1
  -D PIN_VEXT_EN=3   ; Vext is connected to VDD which is also connected to OLED & GPS
  -D PIN_VEXT_EN_ACTIVE=HIGH
  -D PIN_TFT_LEDA_CTL=21 ; LEDK (switches on/off via mosfet to create the ground)
  -D DISPLAY_ROTATION=1
  -D PIN_GPS_RX=34
  -D PIN_GPS_TX=33
  -D PIN_GPS_RESET=35
  -D PIN_GPS_RESET_ACTIVE=LOW
  -D GPS_BAUD_RATE=115200
  -D ENV_INCLUDE_GPS=1
  -D PIN_ADC_CTRL=2
  -D PIN_VBAT_READ=1
 build_src_filter = ${esp32_base.build_src_filter}
  +<../variants/heltec_tracker_v2>
  +<helpers/sensors>
 lib_deps =
  ${esp32_base.lib_deps}
  ${sensor_base.lib_deps}
  adafruit/Adafruit ST7735 and ST7789 Library @ ^1.11.0
 [env:heltec_tracker_v2_repeater]
 extends = Heltec_tracker_v2
 build_flags =
  ${Heltec_tracker_v2.build_flags}
  -D DISPLAY_CLASS=ST7735Display
  -D ADVERT_NAME='"Heltec Repeater"'
  -D ADVERT_LAT=0.0
  -D ADVERT_LON=0.0
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_tracker_v2.build_src_filter}
  +<helpers/ui/ST7735Display.cpp>
  +<../examples/simple_repeater>
 lib_deps =
  ${Heltec_tracker_v2.lib_deps}
  ${esp32_ota.lib_deps}
  bakercp/CRC32 @ ^2.0.0
 [env:heltec_tracker_v2_repeater_bridge_espnow]
 extends = Heltec_tracker_v2
 build_flags =
  ${Heltec_tracker_v2.build_flags}
  -D DISPLAY_CLASS=ST7735Display
  -D ADVERT_NAME='"ESPNow Bridge"'
  -D ADVERT_LAT=0.0
  -D ADVERT_LON=0.0
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
 ;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_tracker_v2.build_src_filter}
  +<helpers/bridges/ESPNowBridge.cpp>
  +<helpers/ui/ST7735Display.cpp>
  +<../examples/simple_repeater>
 lib_deps =
  ${Heltec_tracker_v2.lib_deps}
  ${esp32_ota.lib_deps}
 [env:heltec_tracker_v2_room_server]
 extends = Heltec_tracker_v2
 build_flags =
  ${Heltec_tracker_v2.build_flags}
  -D DISPLAY_CLASS=ST7735Display
  -D ADVERT_NAME='"Heltec Room"'
  -D ADVERT_LAT=0.0
  -D ADVERT_LON=0.0
  -D ADMIN_PASSWORD='"password"'
  -D ROOM_PASSWORD='"hello"'
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_tracker_v2.build_src_filter}
  +<helpers/ui/ST7735Display.cpp>
  +<../examples/simple_room_server>
 lib_deps =
  ${Heltec_tracker_v2.lib_deps}
  ${esp32_ota.lib_deps}
 [env:heltec_tracker_v2_terminal_chat]
 extends = Heltec_tracker_v2
 build_flags =
  ${Heltec_tracker_v2.build_flags}
  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_tracker_v2.build_src_filter}
  +<../examples/simple_secure_chat/main.cpp>
 lib_deps =
  ${Heltec_tracker_v2.lib_deps}
  densaugeo/base64 @ ~1.4.0
 [env:heltec_tracker_v2_companion_radio_usb]
 extends = Heltec_tracker_v2
 build_flags =
  ${Heltec_tracker_v2.build_flags}
  -I examples/companion_radio/ui-new
  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=ST7735Display
 ; NOTE: DO NOT ENABLE -->  -D MESH_PACKET_LOGGING=1
 ; NOTE: DO NOT ENABLE -->  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_tracker_v2.build_src_filter}
  +<helpers/ui/ST7735Display.cpp>
  +<helpers/ui/MomentaryButton.cpp>
  +<../examples/companion_radio/*.cpp>
  +<../examples/companion_radio/ui-new/*.cpp>
 lib_deps =
  ${Heltec_tracker_v2.lib_deps}
  densaugeo/base64 @ ~1.4.0
 [env:heltec_tracker_v2_companion_radio_ble]
 extends = Heltec_tracker_v2
 build_flags =
  ${Heltec_tracker_v2.build_flags}
  -I examples/companion_radio/ui-new
  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=ST7735Display
  -D BLE_PIN_CODE=123456   ; dynamic, random PIN
  -D AUTO_SHUTDOWN_MILLIVOLTS=3400
  -D BLE_DEBUG_LOGGING=1
  -D OFFLINE_QUEUE_SIZE=256
  ; -D BLE_DEBUG_LOGGING=1
  ; -D MESH_PACKET_LOGGING=1
  ; -D MESH_DEBUG=1
 build_src_filter = ${Heltec_tracker_v2.build_src_filter}
  +<helpers/ui/ST7735Display.cpp>
  +<helpers/ui/MomentaryButton.cpp>
  +<helpers/esp32/*.cpp>
  +<../examples/companion_radio/*.cpp>
  +<../examples/companion_radio/ui-new/*.cpp>
 lib_deps =
  ${Heltec_tracker_v2.lib_deps}
  densaugeo/base64 @ ~1.4.0
 [env:heltec_tracker_v2_companion_radio_wifi]
 extends = Heltec_tracker_v2
 build_flags =
  ${Heltec_tracker_v2.build_flags}
  -I examples/companion_radio/ui-new
  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=ST7735Display
  -D WIFI_DEBUG_LOGGING=1
  -D WIFI_SSID='"myssid"'
  -D WIFI_PWD='"mypwd"'
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_tracker_v2.build_src_filter}
  +<helpers/ui/ST7735Display.cpp>
  +<helpers/ui/MomentaryButton.cpp>
  +<helpers/esp32/*.cpp>
  +<../examples/companion_radio/*.cpp>
  +<../examples/companion_radio/ui-new/*.cpp>
 lib_deps =
  ${Heltec_tracker_v2.lib_deps}
  densaugeo/base64 @ ~1.4.0
 [env:heltec_tracker_v2_sensor]
 extends = Heltec_tracker_v2
 build_flags =
  ${Heltec_tracker_v2.build_flags}
  -D ADVERT_NAME='"Heltec Tracker V2 Sensor"'
  -D ADVERT_LAT=0.0
  -D ADVERT_LON=0.0
  -D ADMIN_PASSWORD='"password"'
  -D ENV_PIN_SDA=3
  -D ENV_PIN_SCL=4
  -D DISPLAY_CLASS=ST7735Display
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_tracker_v2.build_src_filter}
  +<helpers/ui/ST7735Display.cpp>
  +<../examples/simple_sensor>
 lib_deps =
  ${Heltec_tracker_v2.lib_deps}
  ${esp32_ota.lib_deps}
--- a/variants/heltec_tracker_v2/target.cpp
+++ b/variants/heltec_tracker_v2/target.cpp
@ -0,0 +1,60 @@
 #include <Arduino.h>
 #include "target.h"
 HeltecTrackerV2Board board;
 #if defined(P_LORA_SCLK)
  static SPIClass spi;
  RADIO_CLASS radio = new Module(P_LORA_NSS, P_LORA_DIO_1, P_LORA_RESET, P_LORA_BUSY, spi);
 #else
  RADIO_CLASS radio = new Module(P_LORA_NSS, P_LORA_DIO_1, P_LORA_RESET, P_LORA_BUSY);
 #endif
 WRAPPER_CLASS radio_driver(radio, board);
 ESP32RTCClock fallback_clock;
 AutoDiscoverRTCClock rtc_clock(fallback_clock);
 #if ENV_INCLUDE_GPS
  #include <helpers/sensors/MicroNMEALocationProvider.h>
  MicroNMEALocationProvider nmea = MicroNMEALocationProvider(Serial1, NULL, GPS_RESET, GPS_EN, &board.periph_power);
  EnvironmentSensorManager sensors = EnvironmentSensorManager(nmea);
 #else
  EnvironmentSensorManager sensors;
 #endif
 #ifdef DISPLAY_CLASS
  DISPLAY_CLASS display(&board.periph_power);   // peripheral power pin is shared
  MomentaryButton user_btn(PIN_USER_BTN, 1000, true);
 #endif
 bool radio_init() {
  fallback_clock.begin();
  rtc_clock.begin(Wire);
 #if defined(P_LORA_SCLK)
  return radio.std_init(&spi);
 #else
  return radio.std_init();
 #endif
 }
 uint32_t radio_get_rng_seed() {
  return radio.random(0x7FFFFFFF);
 }
 void radio_set_params(float freq, float bw, uint8_t sf, uint8_t cr) {
  radio.setFrequency(freq);
  radio.setSpreadingFactor(sf);
  radio.setBandwidth(bw);
  radio.setCodingRate(cr);
 }
 void radio_set_tx_power(uint8_t dbm) {
  radio.setOutputPower(dbm);
 }
 mesh::LocalIdentity radio_new_identity() {
  RadioNoiseListener rng(radio);
  return mesh::LocalIdentity(&rng);  // create new random identity
 }
--- a/variants/heltec_tracker_v2/target.h
+++ b/variants/heltec_tracker_v2/target.h
@ -0,0 +1,30 @@
 #pragma once
 #define RADIOLIB_STATIC_ONLY 1
 #include <RadioLib.h>
 #include <helpers/radiolib/RadioLibWrappers.h>
 #include <HeltecTrackerV2Board.h>
 #include <helpers/radiolib/CustomSX1262Wrapper.h>
 #include <helpers/AutoDiscoverRTCClock.h>
 #include <helpers/SensorManager.h>
 #include <helpers/sensors/EnvironmentSensorManager.h>
 #ifdef DISPLAY_CLASS
  #include <helpers/ui/ST7735Display.h>
  #include <helpers/ui/MomentaryButton.h>
 #endif
 extern HeltecTrackerV2Board board;
 extern WRAPPER_CLASS radio_driver;
 extern AutoDiscoverRTCClock rtc_clock;
 extern EnvironmentSensorManager sensors;
 #ifdef DISPLAY_CLASS
  extern DISPLAY_CLASS display;
  extern MomentaryButton user_btn;
 #endif
 bool radio_init();
 uint32_t radio_get_rng_seed();
 void radio_set_params(float freq, float bw, uint8_t sf, uint8_t cr);
 void radio_set_tx_power(uint8_t dbm);
 mesh::LocalIdentity radio_new_identity();
--- a/variants/heltec_v2/HeltecV2Board.h
+++ b/variants/heltec_v2/HeltecV2Board.h
@ -1,22 +1,12 @@
 #pragma once
 #include <Arduino.h>
-
+#include <helpers/ESP32Board.h>
 // LoRa radio module pins for Heltec V2
 #define  P_LORA_DIO_1   26    // DIO0
 #define  P_LORA_NSS     18
 #define  P_LORA_RESET   RADIOLIB_NC  // 14
 #define  P_LORA_BUSY    RADIOLIB_NC
 #define  P_LORA_SCLK     5
 #define  P_LORA_MISO    19
 #define  P_LORA_MOSI    27
 // built-ins
 #define  PIN_VBAT_READ   37
 #define  PIN_LED_BUILTIN 25
 #include "ESP32Board.h"
 #include <driver/rtc_io.h>
 class HeltecV2Board : public ESP32Board {
@ -39,7 +29,7 @@ public:
  void enterDeepSleep(uint32_t secs, int pin_wake_btn = -1) {
    esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_PERIPH, ESP_PD_OPTION_ON);
-    // Make sure the DIO1 and NSS GPIOs are hold on required levels during deep sleep 
+    // Make sure the DIO1 and NSS GPIOs are hold on required levels during deep sleep
    rtc_gpio_set_direction((gpio_num_t)P_LORA_DIO_1, RTC_GPIO_MODE_INPUT_ONLY);
    rtc_gpio_pulldown_en((gpio_num_t)P_LORA_DIO_1);
--- a/variants/heltec_v2/platformio.ini
+++ b/variants/heltec_v2/platformio.ini
@ -7,13 +7,20 @@ build_flags =
  -D HELTEC_LORA_V2
  -D RADIO_CLASS=CustomSX1276
  -D WRAPPER_CLASS=CustomSX1276Wrapper
  -D P_LORA_DIO_1=26
  -D P_LORA_NSS=18
  -D P_LORA_RESET=RADIOLIB_NC
  -D P_LORA_BUSY=RADIOLIB_NC
  -D P_LORA_SCLK=5
  -D P_LORA_MISO=19
  -D P_LORA_MOSI=27
  -D P_LORA_TX_LED=25
  -D SX127X_CURRENT_LIMIT=120
  -D LORA_TX_POWER=20
  -D PIN_BOARD_SDA=4
  -D PIN_BOARD_SCL=15
  -D PIN_USER_BTN=0
  -D PIN_OLED_RESET=16
  -D P_LORA_TX_LED=25
 build_src_filter = ${esp32_base.build_src_filter}
  +<../variants/heltec_v2>
 lib_deps =
@ -53,6 +60,7 @@ lib_deps =
 ;   -D WITH_RS232_BRIDGE=Serial2
 ;   -D WITH_RS232_BRIDGE_RX=5
 ;   -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ; ;  -D MESH_PACKET_LOGGING=1
 ; ;  -D MESH_DEBUG=1
 ; build_src_filter = ${Heltec_lora32_v2.build_src_filter}
@ -75,7 +83,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_lora32_v2.build_src_filter}
@ -111,7 +119,7 @@ lib_deps =
 extends = Heltec_lora32_v2
 build_flags =
  ${Heltec_lora32_v2.build_flags}
-  -D MAX_CONTACTS=170
+  -D MAX_CONTACTS=160
  -D MAX_GROUP_CHANNELS=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
@ -127,7 +135,7 @@ build_flags =
  ${Heltec_lora32_v2.build_flags}
  -I examples/companion_radio/ui-new
  -D DISPLAY_CLASS=SSD1306Display
-  -D MAX_CONTACTS=170
+  -D MAX_CONTACTS=160
  -D MAX_GROUP_CHANNELS=8
 ; NOTE: DO NOT ENABLE -->  -D MESH_PACKET_LOGGING=1
 ; NOTE: DO NOT ENABLE -->  -D MESH_DEBUG=1
@ -147,7 +155,7 @@ build_flags =
  ${Heltec_lora32_v2.build_flags}
  -I examples/companion_radio/ui-new
  -D DISPLAY_CLASS=SSD1306Display
-  -D MAX_CONTACTS=170
+  -D MAX_CONTACTS=160
  -D MAX_GROUP_CHANNELS=8
  -D BLE_PIN_CODE=123456
  -D BLE_DEBUG_LOGGING=1
@ -163,3 +171,26 @@ build_src_filter = ${Heltec_lora32_v2.build_src_filter}
 lib_deps =
  ${Heltec_lora32_v2.lib_deps}
  densaugeo/base64 @ ~1.4.0
 [env:Heltec_v2_companion_radio_wifi]
 extends = Heltec_lora32_v2
 build_flags =
  ${Heltec_lora32_v2.build_flags}
  -I examples/companion_radio/ui-new
  -D DISPLAY_CLASS=SSD1306Display
  -D MAX_CONTACTS=160
  -D MAX_GROUP_CHANNELS=8
  -D WIFI_DEBUG_LOGGING=1
  -D WIFI_SSID='"myssid"'
  -D WIFI_PWD='"mypwd"'
 ; -D MESH_PACKET_LOGGING=1
 ; -D MESH_DEBUG=1
 build_src_filter = ${Heltec_lora32_v2.build_src_filter}
  +<helpers/esp32/*.cpp>
  +<helpers/ui/SSD1306Display.cpp>
  +<helpers/ui/MomentaryButton.cpp>
  +<../examples/companion_radio/*.cpp>
  +<../examples/companion_radio/ui-new/*.cpp>
 lib_deps =
  ${Heltec_lora32_v2.lib_deps}
  densaugeo/base64 @ ~1.4.0
--- a/variants/heltec_v2/target.h
+++ b/variants/heltec_v2/target.h
@ -3,7 +3,7 @@
 #define RADIOLIB_STATIC_ONLY 1
 #include <RadioLib.h>
 #include <helpers/radiolib/RadioLibWrappers.h>
-#include <helpers/HeltecV2Board.h>
+#include <HeltecV2Board.h>
 #include <helpers/radiolib/CustomSX1276Wrapper.h>
 #include <helpers/AutoDiscoverRTCClock.h>
 #include <helpers/SensorManager.h>
--- a/variants/heltec_v3/HeltecV3Board.h
+++ b/variants/heltec_v3/HeltecV3Board.h
@ -2,16 +2,7 @@
 #include <Arduino.h>
 #include <helpers/RefCountedDigitalPin.h>
-
+#include <helpers/ESP32Board.h>
 // LoRa radio module pins for Heltec V3
 // Also for Heltec Wireless Tracker/Paper
 #define  P_LORA_DIO_1   14
 #define  P_LORA_NSS      8
 #define  P_LORA_RESET   RADIOLIB_NC
 #define  P_LORA_BUSY    13
 #define  P_LORA_SCLK     9
 #define  P_LORA_MISO    11
 #define  P_LORA_MOSI    10
 // built-ins
 #ifndef PIN_VBAT_READ              // set in platformio.ini for boards like Heltec Wireless Paper (20)
@ -22,9 +13,6 @@
 #endif
 #define  PIN_ADC_CTRL_ACTIVE    LOW
 #define  PIN_ADC_CTRL_INACTIVE  HIGH
 //#define  PIN_LED_BUILTIN 35
 #include "ESP32Board.h"
 #include <driver/rtc_io.h>
@ -43,7 +31,7 @@ public:
    // Auto-detect correct ADC_CTRL pin polarity (different for boards >3.2)
    pinMode(PIN_ADC_CTRL, INPUT);
    adc_active_state = !digitalRead(PIN_ADC_CTRL);
-    
+
    pinMode(PIN_ADC_CTRL, OUTPUT);
    digitalWrite(PIN_ADC_CTRL, !adc_active_state); // Initially inactive
@ -64,7 +52,7 @@ public:
  void enterDeepSleep(uint32_t secs, int pin_wake_btn = -1) {
    esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_PERIPH, ESP_PD_OPTION_ON);
-    // Make sure the DIO1 and NSS GPIOs are hold on required levels during deep sleep 
+    // Make sure the DIO1 and NSS GPIOs are hold on required levels during deep sleep
    rtc_gpio_set_direction((gpio_num_t)P_LORA_DIO_1, RTC_GPIO_MODE_INPUT_ONLY);
    rtc_gpio_pulldown_en((gpio_num_t)P_LORA_DIO_1);
--- a/variants/heltec_v3/platformio.ini
+++ b/variants/heltec_v3/platformio.ini
@ -7,6 +7,13 @@ build_flags =
  -I variants/heltec_v3
  -D HELTEC_LORA_V3
  -D ESP32_CPU_FREQ=80
  -D P_LORA_DIO_1=14
  -D P_LORA_NSS=8
  -D P_LORA_RESET=RADIOLIB_NC
  -D P_LORA_BUSY=13
  -D P_LORA_SCLK=9
  -D P_LORA_MISO=11
  -D P_LORA_MOSI=10
  -D RADIO_CLASS=CustomSX1262
  -D WRAPPER_CLASS=CustomSX1262Wrapper
  -D LORA_TX_POWER=22
@ -62,6 +69,7 @@ build_flags =
  -D WITH_RS232_BRIDGE=Serial2
  -D WITH_RS232_BRIDGE_RX=5
  -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_lora32_v3.build_src_filter}
@ -83,7 +91,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_lora32_v3.build_src_filter}
@ -117,7 +125,7 @@ lib_deps =
 extends = Heltec_lora32_v3
 build_flags =
  ${Heltec_lora32_v3.build_flags}
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
@ -132,8 +140,8 @@ extends = Heltec_lora32_v3
 build_flags =
  ${Heltec_lora32_v3.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=SSD1306Display
 ; NOTE: DO NOT ENABLE -->  -D MESH_PACKET_LOGGING=1
 ; NOTE: DO NOT ENABLE -->  -D MESH_DEBUG=1
@ -151,8 +159,8 @@ extends = Heltec_lora32_v3
 build_flags =
  ${Heltec_lora32_v3.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=SSD1306Display
  -D BLE_PIN_CODE=123456   ; dynamic, random PIN
  -D AUTO_SHUTDOWN_MILLIVOLTS=3400
@ -175,8 +183,8 @@ extends = Heltec_lora32_v3
 build_flags =
  ${Heltec_lora32_v3.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=SSD1306Display
  -D WIFI_DEBUG_LOGGING=1
  -D WIFI_SSID='"myssid"'
@ -243,6 +251,7 @@ build_flags =
  -D WITH_RS232_BRIDGE=Serial2
  -D WITH_RS232_BRIDGE_RX=5
  -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_lora32_v3.build_src_filter}
@ -263,7 +272,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_lora32_v3.build_src_filter}
@ -295,8 +304,8 @@ lib_deps =
 extends = Heltec_lora32_v3
 build_flags =
  ${Heltec_lora32_v3.build_flags}
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D BLE_PIN_CODE=123456
  -D BLE_DEBUG_LOGGING=1
  -D OFFLINE_QUEUE_SIZE=256
@ -314,7 +323,7 @@ extends = Heltec_lora32_v3
 build_flags =
  ${Heltec_lora32_v3.build_flags}
  -D MAX_CONTACTS=140
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
 ; NOTE: DO NOT ENABLE -->  -D MESH_PACKET_LOGGING=1
 ; NOTE: DO NOT ENABLE -->  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_lora32_v3.build_src_filter}
@ -323,6 +332,24 @@ lib_deps =
  ${Heltec_lora32_v3.lib_deps}
  densaugeo/base64 @ ~1.4.0
 [env:Heltec_WSL3_companion_radio_wifi]
 extends = Heltec_lora32_v3
 build_flags =
  ${Heltec_lora32_v3.build_flags}
  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=40
  -D WIFI_DEBUG_LOGGING=1
  -D WIFI_SSID='"myssid"'
  -D WIFI_PWD='"mypwd"'
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_lora32_v3.build_src_filter}
  +<helpers/esp32/*.cpp>
  +<../examples/companion_radio/*.cpp>
 lib_deps =
  ${Heltec_lora32_v3.lib_deps}
  densaugeo/base64 @ ~1.4.0
 [env:Heltec_WSL3_sensor]
 extends = Heltec_lora32_v3
 build_flags =
--- a/variants/heltec_v3/target.h
+++ b/variants/heltec_v3/target.h
@ -3,7 +3,7 @@
 #define RADIOLIB_STATIC_ONLY 1
 #include <RadioLib.h>
 #include <helpers/radiolib/RadioLibWrappers.h>
-#include <helpers/HeltecV3Board.h>
+#include <HeltecV3Board.h>
 #include <helpers/radiolib/CustomSX1262Wrapper.h>
 #include <helpers/AutoDiscoverRTCClock.h>
 #include <helpers/SensorManager.h>
--- a/variants/heltec_v4/platformio.ini
+++ b/variants/heltec_v4/platformio.ini
@ -26,6 +26,7 @@ build_flags =
  -D PIN_VEXT_EN=36
  -D PIN_VEXT_EN_ACTIVE=HIGH
  -D LORA_TX_POWER=10 ;If it is configured as 10 here, the final output will be 22 dbm.
  -D MAX_LORA_TX_POWER=22 ; Max SX1262 output
  -D SX126X_DIO2_AS_RF_SWITCH=true
  -D SX126X_DIO3_TCXO_VOLTAGE=1.8
  -D SX126X_CURRENT_LIMIT=140
@ -77,7 +78,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_lora32_v4.build_src_filter}
@ -111,7 +112,7 @@ lib_deps =
 extends = Heltec_lora32_v4
 build_flags =
  ${Heltec_lora32_v4.build_flags}
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
@ -126,8 +127,8 @@ extends = Heltec_lora32_v4
 build_flags =
  ${Heltec_lora32_v4.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=SSD1306Display
 ; NOTE: DO NOT ENABLE -->  -D MESH_PACKET_LOGGING=1
 ; NOTE: DO NOT ENABLE -->  -D MESH_DEBUG=1
@ -145,8 +146,8 @@ extends = Heltec_lora32_v4
 build_flags =
  ${Heltec_lora32_v4.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=SSD1306Display
  -D BLE_PIN_CODE=123456   ; dynamic, random PIN
  -D AUTO_SHUTDOWN_MILLIVOLTS=3400
@ -169,8 +170,8 @@ extends = Heltec_lora32_v4
 build_flags =
  ${Heltec_lora32_v4.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=SSD1306Display
  -D WIFI_DEBUG_LOGGING=1
  -D WIFI_SSID='"myssid"'
--- a/variants/heltec_wireless_paper/platformio.ini
+++ b/variants/heltec_wireless_paper/platformio.ini
@ -38,8 +38,8 @@ extends = Heltec_Wireless_Paper_base
 build_flags =
  ${Heltec_Wireless_Paper_base.build_flags}
  -I examples/companion_radio/ui-new
-  -D MAX_CONTACTS=300
+  -D MAX_CONTACTS=350
-  -D MAX_GROUP_CHANNELS=8
+  -D MAX_GROUP_CHANNELS=40
  -D DISPLAY_CLASS=E213Display
  -D BLE_PIN_CODE=123456   ; dynamic, random PIN
  -D BLE_DEBUG_LOGGING=1
@ -83,6 +83,7 @@ lib_deps =
 ;   -D WITH_RS232_BRIDGE=Serial2
 ;   -D WITH_RS232_BRIDGE_RX=5
 ;   -D WITH_RS232_BRIDGE_TX=6
 ;  -D BRIDGE_DEBUG=1
 ; ;  -D MESH_PACKET_LOGGING=1
 ; ;  -D MESH_DEBUG=1
 ; build_src_filter = ${Heltec_Wireless_Paper_base.build_src_filter}
@ -104,7 +105,7 @@ build_flags =
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
  -D WITH_ESPNOW_BRIDGE=1
-  -D WITH_ESPNOW_BRIDGE_SECRET='"shared-secret"'
+;  -D BRIDGE_DEBUG=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${Heltec_Wireless_Paper_base.build_src_filter}
--- a/variants/ikoka_stick_nrf/ikoka_stick_nrf_board.cpp
+++ b/variants/ikoka_stick_nrf/ikoka_stick_nrf_board.cpp
@ -1,28 +1,26 @@
 #ifdef XIAO_NRF52
 #include <Arduino.h>
-#include "ikoka_stick_nrf_board.h"
+#include "IkokaNanoNRFBoard.h"
 #include <bluefruit.h>
 #include <Wire.h>
 static BLEDfu bledfu;
-static void connect_callback(uint16_t conn_handle)
+static void connect_callback(uint16_t conn_handle) {
 {
  (void)conn_handle;
  MESH_DEBUG_PRINTLN("BLE client connected");
 }
-static void disconnect_callback(uint16_t conn_handle, uint8_t reason)
+static void disconnect_callback(uint16_t conn_handle, uint8_t reason) {
 {
  (void)conn_handle;
  (void)reason;
  MESH_DEBUG_PRINTLN("BLE client disconnected");
 }
-void ikoka_stick_nrf_board::begin() {
+void IkokaNanoNRFBoard::begin() {
  // for future use, sub-classes SHOULD call this from their begin()
  startup_reason = BD_STARTUP_NORMAL;
@ -50,7 +48,7 @@ void ikoka_stick_nrf_board::begin() {
  delay(10);   // give sx1262 some time to power up
 }
-bool ikoka_stick_nrf_board::startOTAUpdate(const char* id, char reply[]) {
+bool IkokaNanoNRFBoard::startOTAUpdate(const char *id, char reply[]) {
  // Config the peripheral connection with maximum bandwidth
  // more SRAM required by SoftDevice
  // Note: All config***() function must be called before begin()
@ -91,9 +89,6 @@ bool ikoka_stick_nrf_board::startOTAUpdate(const char* id, char reply[]) {
  strcpy(reply, "OK - started");
  return true;
  return false;
 }
 #endif
--- a/variants/ikoka_stick_nrf/ikoka_stick_nrf_board.h
+++ b/variants/ikoka_stick_nrf/ikoka_stick_nrf_board.h
@ -5,7 +5,7 @@
 #ifdef XIAO_NRF52
-class ikoka_stick_nrf_board : public mesh::MainBoard {
+class IkokaNanoNRFBoard : public mesh::MainBoard {
 protected:
  uint8_t startup_reason;
@ -16,9 +16,17 @@ public:
 #if defined(P_LORA_TX_LED)
  void onBeforeTransmit() override {
    digitalWrite(P_LORA_TX_LED, LOW);   // turn TX LED on
    #if defined(LED_BLUE)
       // turn off that annoying blue LED before transmitting
       digitalWrite(LED_BLUE, HIGH);
    #endif
  }
  void onAfterTransmit() override {
    digitalWrite(P_LORA_TX_LED, HIGH);   // turn TX LED off
    #if defined(LED_BLUE)
       // do it after transmitting too, just in case
       digitalWrite(LED_BLUE, HIGH);
    #endif
  }
 #endif
@ -38,15 +46,15 @@ public:
    return (adcvalue * ADC_MULTIPLIER * AREF_VOLTAGE) / 4.096;
  }
-  const char* getManufacturerName() const override {
+  const char *getManufacturerName() const override {
-    return "Ikoka Stick (Xiao-nrf52)";
+    return MANUFACTURER_STRING;
  }
  void reboot() override {
    NVIC_SystemReset();
  }
-  bool startOTAUpdate(const char* id, char reply[]) override;
+  bool startOTAUpdate(const char *id, char reply[]) override;
 };
 #endif
--- a/variants/ikoka_nano_nrf/platformio.ini
+++ b/variants/ikoka_nano_nrf/platformio.ini
@ -0,0 +1,312 @@
 [nrf52840_xiao]
 extends = nrf52_base
 platform_packages =
  toolchain-gccarmnoneeabi@~1.100301.0
  framework-arduinoadafruitnrf52
 board = seeed-xiao-afruitnrf52-nrf52840
 board_build.ldscript = boards/nrf52840_s140_v7.ld
 build_flags = ${nrf52_base.build_flags}
  -D NRF52_PLATFORM -D XIAO_NRF52
  -I lib/nrf52/s140_nrf52_7.3.0_API/include
  -I lib/nrf52/s140_nrf52_7.3.0_API/include/nrf52
 lib_ignore =
  BluetoothOTA
  lvgl
  lib5b4
 lib_deps =
  ${nrf52_base.lib_deps}
  rweather/Crypto @ ^0.4.0
  adafruit/Adafruit INA3221 Library @ ^1.0.1
  adafruit/Adafruit INA219 @ ^1.2.3
  adafruit/Adafruit AHTX0 @ ^2.0.5
  adafruit/Adafruit BME280 Library @ ^2.3.0
  adafruit/Adafruit SSD1306 @ ^2.5.13
 [ikoka_nano_nrf_baseboard]
 extends = nrf52840_xiao
 ;board_build.ldscript = boards/nrf52840_s140_v7.ld
 build_flags = ${nrf52840_xiao.build_flags}
  -D P_LORA_TX_LED=11
  -I variants/ikoka_nano_nrf
  -I src/helpers/nrf52
  -D DISPLAY_CLASS=NullDisplayDriver
  -D RADIO_CLASS=CustomSX1262
  -D WRAPPER_CLASS=CustomSX1262Wrapper
  -D P_LORA_DIO_1=D1
 ;  -D P_LORA_BUSY=D3
  -D P_LORA_BUSY=D2 ; specific to ikoka nano variant.
 ;  -D P_LORA_RESET=D2
  -D P_LORA_RESET=D3 ; specific to ikoka nano variant.
 ;  -D P_LORA_NSS=D4
  -D P_LORA_NSS=D0 ; specific to ikoka nano variant.
 ;  -D SX126X_RXEN=D5
  -D SX126X_RXEN=D7
  -D SX126X_TXEN=RADIOLIB_NC
  -D SX126X_DIO2_AS_RF_SWITCH=1
  -D SX126X_DIO3_TCXO_VOLTAGE=1.8
  -D SX126X_CURRENT_LIMIT=140
  -D SX126X_RX_BOOSTED_GAIN=1
  -D PIN_WIRE_SCL=5 ; specific to ikoka nano variant.
  -D PIN_WIRE_SDA=4 ; specific to ikoka nano variant.
  -D ENV_INCLUDE_AHTX0=1
  -D ENV_INCLUDE_BME280=1
  -D ENV_INCLUDE_INA3221=1
  -D ENV_INCLUDE_INA219=1
 debug_tool = jlink
 upload_protocol = nrfutil
 ;;; abstracted hardware variants
 [ikoka_nano_nrf_e22_22dbm]
 extends = ikoka_nano_nrf_baseboard
 ; No PA in this model, full 22dBm
 build_flags =
  ${ikoka_nano_nrf_baseboard.build_flags}
  -D MANUFACTURER_STRING='"Ikoka Nano-E22-22dBm (Xiao_nrf52)"'
  -D LORA_TX_POWER=22
 build_src_filter = ${nrf52840_xiao.build_src_filter}
  +<helpers/*.cpp>
  +<helpers/sensors>
  +<helpers/ui/NullDisplayDriver.cpp>
  +<../variants/ikoka_nano_nrf>
 [ikoka_nano_nrf_e22_30dbm]
 extends = ikoka_nano_nrf_baseboard
 ; limit txpower to 20dBm on E22-900M30S. Anything higher will
 ; cause distortion in the PA output. 20dBm in -> 30dBm out
 build_flags =
  ${ikoka_nano_nrf_baseboard.build_flags}
  -D MANUFACTURER_STRING='"Ikoka Nano-E22-30dBm (Xiao_nrf52)"'
  -D LORA_TX_POWER=20
 build_src_filter = ${nrf52840_xiao.build_src_filter}
  +<helpers/*.cpp>
  +<helpers/sensors>
  +<helpers/ui/NullDisplayDriver.cpp>
  +<../variants/ikoka_nano_nrf>
 [ikoka_nano_nrf_e22_33dbm]
 extends = ikoka_nano_nrf_baseboard
 ; limit txpower to 9dBm on E22-900M33S to avoid hardware damage
 ; to the rf amplifier frontend. 9dBm in -> 33dBm out
 build_flags =
  ${ikoka_nano_nrf_baseboard.build_flags}
  -D MANUFACTURER_STRING='"Ikoka Nano-E22-33dBm (Xiao_nrf52)"'
  -D LORA_TX_POWER=9
 build_src_filter = ${nrf52840_xiao.build_src_filter}
  +<helpers/*.cpp>
  +<helpers/sensors>
  +<helpers/ui/NullDisplayDriver.cpp>
  +<../variants/ikoka_nano_nrf>
 ;;; abstracted firmware roles
 [ikoka_nano_nrf_companion_radio_ble]
 extends = ikoka_nano_nrf_baseboard
 board_build.ldscript = boards/nrf52840_s140_v7_extrafs.ld
 board_upload.maximum_size = 708608
 build_flags =
  ${ikoka_nano_nrf_baseboard.build_flags}
  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=40
  -D BLE_PIN_CODE=123456
  -D OFFLINE_QUEUE_SIZE=256
  -I examples/companion_radio/ui-new
 ;  -D BLE_DEBUG_LOGGING=1
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${ikoka_nano_nrf_baseboard.build_src_filter}
  +<helpers/nrf52/SerialBLEInterface.cpp>
  +<../examples/companion_radio/*.cpp>
  +<../examples/companion_radio/ui-new/*.cpp>
 lib_deps =
  ${ikoka_nano_nrf_baseboard.lib_deps}
  densaugeo/base64 @ ~1.4.0
 [ikoka_nano_nrf_companion_radio_usb]
 extends = ikoka_nano_nrf_baseboard
 board_build.ldscript = boards/nrf52840_s140_v7_extrafs.ld
 board_upload.maximum_size = 708608
 build_flags =
  ${ikoka_nano_nrf_baseboard.build_flags}
  -D MAX_CONTACTS=350
  -D MAX_GROUP_CHANNELS=40
  -I examples/companion_radio/ui-new
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${ikoka_nano_nrf_baseboard.build_src_filter}
  +<helpers/nrf52/SerialBLEInterface.cpp>
  +<../examples/companion_radio/*.cpp>
  +<../examples/companion_radio/ui-new/*.cpp>
 lib_deps =
  ${ikoka_nano_nrf_baseboard.lib_deps}
  densaugeo/base64 @ ~1.4.0
 [ikoka_nano_nrf_repeater]
 extends = ikoka_nano_nrf_baseboard
 build_flags =
  ${ikoka_nano_nrf_baseboard.build_flags}
  -D ADVERT_NAME='"Ikoka Nano Repeater"'
  -D ADVERT_LAT=0.0
  -D ADVERT_LON=0.0
  -D ADMIN_PASSWORD='"password"'
  -D MAX_NEIGHBOURS=50
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${ikoka_nano_nrf_baseboard.build_src_filter}
  +<../examples/simple_repeater/*.cpp>
 [ikoka_nano_nrf_room_server]
 extends = ikoka_nano_nrf_baseboard
 build_flags =
  ${ikoka_nano_nrf_baseboard.build_flags}
  -D ADVERT_NAME='"Ikoka Nano Room"'
  -D ADVERT_LAT=0.0
  -D ADVERT_LON=0.0
  -D ADMIN_PASSWORD='"password"'
 ;  -D MESH_PACKET_LOGGING=1
 ;  -D MESH_DEBUG=1
 build_src_filter = ${ikoka_nano_nrf_baseboard.build_src_filter}
  +<../examples/simple_room_server/*.cpp>
 ;;; hardware + firmware variants
 ;;;    22dBm EBYTE E22-900M22 variants
 [env:ikoka_nano_nrf_22dbm_companion_radio_usb]
 extends =
   ikoka_nano_nrf_e22_22dbm
   ikoka_nano_nrf_companion_radio_usb
 build_flags =
   ${ikoka_nano_nrf_companion_radio_usb.build_flags}
   ${ikoka_nano_nrf_e22_22dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_companion_radio_usb.build_src_filter}
   ${ikoka_nano_nrf_e22_22dbm.build_src_filter}
 [env:ikoka_nano_nrf_22dbm_companion_radio_ble]
 extends =
   ikoka_nano_nrf_e22_22dbm
   ikoka_nano_nrf_companion_radio_ble
 build_flags =
   ${ikoka_nano_nrf_companion_radio_ble.build_flags}
   ${ikoka_nano_nrf_e22_22dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_companion_radio_ble.build_src_filter}
   ${ikoka_nano_nrf_e22_22dbm.build_src_filter}
 [env:ikoka_nano_nrf_22dbm_repeater]
 extends =
   ikoka_nano_nrf_e22_22dbm
   ikoka_nano_nrf_repeater
 build_flags =
   ${ikoka_nano_nrf_repeater.build_flags}
   ${ikoka_nano_nrf_e22_22dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_repeater.build_src_filter}
   ${ikoka_nano_nrf_e22_22dbm.build_src_filter}
 [env:ikoka_nano_nrf_22dbm_room_server]
 extends =
   ikoka_nano_nrf_e22_22dbm
   ikoka_nano_nrf_room_server
 build_flags =
   ${ikoka_nano_nrf_room_server.build_flags}
   ${ikoka_nano_nrf_e22_22dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_room_server.build_src_filter}
   ${ikoka_nano_nrf_e22_22dbm.build_src_filter}
 ;;;    30dBm EBYTE E22-900M30 variants
 [env:ikoka_nano_nrf_30dbm_companion_radio_usb]
 extends =
   ikoka_nano_nrf_e22_30dbm
   ikoka_nano_nrf_companion_radio_usb
 build_flags =
   ${ikoka_nano_nrf_companion_radio_usb.build_flags}
   ${ikoka_nano_nrf_e22_30dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_companion_radio_usb.build_src_filter}
   ${ikoka_nano_nrf_e22_30dbm.build_src_filter}
 [env:ikoka_nano_nrf_30dbm_companion_radio_ble]
 extends =
   ikoka_nano_nrf_e22_30dbm
   ikoka_nano_nrf_companion_radio_ble
 build_flags =
   ${ikoka_nano_nrf_companion_radio_ble.build_flags}
   ${ikoka_nano_nrf_e22_30dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_companion_radio_ble.build_src_filter}
   ${ikoka_nano_nrf_e22_30dbm.build_src_filter}
 [env:ikoka_nano_nrf_30dbm_repeater]
 extends =
   ikoka_nano_nrf_e22_30dbm
   ikoka_nano_nrf_repeater
 build_flags =
   ${ikoka_nano_nrf_repeater.build_flags}
   ${ikoka_nano_nrf_e22_30dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_repeater.build_src_filter}
   ${ikoka_nano_nrf_e22_30dbm.build_src_filter}
 [env:ikoka_nano_nrf_30dbm_room_server]
 extends =
   ikoka_nano_nrf_e22_30dbm
   ikoka_nano_nrf_room_server
 build_flags =
   ${ikoka_nano_nrf_room_server.build_flags}
   ${ikoka_nano_nrf_e22_30dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_room_server.build_src_filter}
   ${ikoka_nano_nrf_e22_30dbm.build_src_filter}
 ;;;    33dBm EBYTE E22-900M33 variants
 [env:ikoka_nano_nrf_33dbm_companion_radio_usb]
 extends =
   ikoka_nano_nrf_e22_33dbm
   ikoka_nano_nrf_companion_radio_usb
 build_flags =
   ${ikoka_nano_nrf_companion_radio_usb.build_flags}
   ${ikoka_nano_nrf_e22_33dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_companion_radio_usb.build_src_filter}
   ${ikoka_nano_nrf_e22_33dbm.build_src_filter}
 [env:ikoka_nano_nrf_33dbm_companion_radio_ble]
 extends =
   ikoka_nano_nrf_e22_33dbm
   ikoka_nano_nrf_companion_radio_ble
 build_flags =
   ${ikoka_nano_nrf_companion_radio_ble.build_flags}
   ${ikoka_nano_nrf_e22_33dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_companion_radio_ble.build_src_filter}
   ${ikoka_nano_nrf_e22_33dbm.build_src_filter}
 [env:ikoka_nano_nrf_33dbm_repeater]
 extends =
   ikoka_nano_nrf_e22_33dbm
   ikoka_nano_nrf_repeater
 build_flags =
   ${ikoka_nano_nrf_repeater.build_flags}
   ${ikoka_nano_nrf_e22_33dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_repeater.build_src_filter}
   ${ikoka_nano_nrf_e22_33dbm.build_src_filter}
 [env:ikoka_nano_nrf_33dbm_room_server]
 extends =
   ikoka_nano_nrf_e22_33dbm
   ikoka_nano_nrf_room_server
 build_flags =
   ${ikoka_nano_nrf_room_server.build_flags}
   ${ikoka_nano_nrf_e22_33dbm.build_flags}
 build_src_filter =
   ${ikoka_nano_nrf_room_server.build_src_filter}
   ${ikoka_nano_nrf_e22_33dbm.build_src_filter}
--- a/variants/ikoka_nano_nrf/target.cpp
+++ b/variants/ikoka_nano_nrf/target.cpp
@ -0,0 +1,44 @@
 #include <Arduino.h>
 #include "target.h"
 #include <helpers/ArduinoHelpers.h>
 IkokaNanoNRFBoard board;
 #ifdef DISPLAY_CLASS
  DISPLAY_CLASS display;
  // MomentaryButton user_btn(PIN_USER_BTN, 1000, true);
 #endif
 RADIO_CLASS radio = new Module(P_LORA_NSS, P_LORA_DIO_1, P_LORA_RESET, P_LORA_BUSY, SPI);
 WRAPPER_CLASS radio_driver(radio, board);
 VolatileRTCClock fallback_clock;
 AutoDiscoverRTCClock rtc_clock(fallback_clock);
 EnvironmentSensorManager sensors;
 bool radio_init() {
    rtc_clock.begin(Wire);
    return radio.std_init(&SPI);
 }
 uint32_t radio_get_rng_seed() {
  return radio.random(0x7FFFFFFF);
 }
 void radio_set_params(float freq, float bw, uint8_t sf, uint8_t cr) {
  radio.setFrequency(freq);
  radio.setSpreadingFactor(sf);
  radio.setBandwidth(bw);
  radio.setCodingRate(cr);
 }
 void radio_set_tx_power(uint8_t dbm) {
  radio.setOutputPower(dbm);
 }
 mesh::LocalIdentity radio_new_identity() {
  RadioNoiseListener rng(radio);
  return mesh::LocalIdentity(&rng);  // create new random identity
 }
--- a/variants/ikoka_nano_nrf/target.h
+++ b/variants/ikoka_nano_nrf/target.h
@ -0,0 +1,28 @@
 #pragma once
 #define RADIOLIB_STATIC_ONLY 1
 #include <RadioLib.h>
 #include <helpers/radiolib/RadioLibWrappers.h>
 #include <IkokaNanoNRFBoard.h>
 #include <helpers/radiolib/CustomSX1262Wrapper.h>
 #include <helpers/AutoDiscoverRTCClock.h>
 #include <helpers/ArduinoHelpers.h>
 #include <helpers/sensors/EnvironmentSensorManager.h>
 #ifdef DISPLAY_CLASS
  #include <helpers/ui/NullDisplayDriver.h>
  #include <helpers/ui/MomentaryButton.h>
  extern DISPLAY_CLASS display;
  // extern MomentaryButton user_btn;
 #endif
 extern IkokaNanoNRFBoard board;
 extern WRAPPER_CLASS radio_driver;
 extern AutoDiscoverRTCClock rtc_clock;
 extern EnvironmentSensorManager sensors;
 bool radio_init();
 uint32_t radio_get_rng_seed();
 void radio_set_params(float freq, float bw, uint8_t sf, uint8_t cr);
 void radio_set_tx_power(uint8_t dbm);
 mesh::LocalIdentity radio_new_identity();
--- a/variants/ikoka_nano_nrf/variant.cpp
+++ b/variants/ikoka_nano_nrf/variant.cpp
@ -0,0 +1,86 @@
 #include "variant.h"
 #include "wiring_constants.h"
 #include "wiring_digital.h"
 #include "nrf.h"
 const uint32_t g_ADigitalPinMap[] =
 {
    // D0 .. D10
     2, // D0  is P0.02 (A0)
     3, // D1  is P0.03 (A1)
    28, // D2  is P0.28 (A2)
    29, // D3  is P0.29 (A3)
     4, // D4  is P0.04 (A4,SDA)
     5, // D5  is P0.05 (A5,SCL)
    43, // D6  is P1.11 (TX)
    44, // D7  is P1.12 (RX)
    45, // D8  is P1.13 (SCK)
    46, // D9  is P1.14 (MISO)
    47, // D10 is P1.15 (MOSI)
    // LEDs
    26, // D11 is P0.26 (LED RED)
     6, // D12 is P0.06 (LED BLUE)
    30, // D13 is P0.30 (LED GREEN)
    14, // D14 is P0.14 (READ_BAT)
    // LSM6DS3TR
    40, // D15 is P1.08 (6D_PWR)
    27, // D16 is P0.27 (6D_I2C_SCL)
     7, // D17 is P0.07 (6D_I2C_SDA)
    11, // D18 is P0.11 (6D_INT1)
    // MIC
    42, // D19 is P1.10 (MIC_PWR)
    32, // D20 is P1.00 (PDM_CLK)
    16, // D21 is P0.16 (PDM_DATA)
    // BQ25100
    13, // D22 is P0.13 (HICHG)
    17, // D23 is P0.17 (~CHG)
    //
    21, // D24 is P0.21 (QSPI_SCK)
    25, // D25 is P0.25 (QSPI_CSN)
    20, // D26 is P0.20 (QSPI_SIO_0 DI)
    24, // D27 is P0.24 (QSPI_SIO_1 DO)
    22, // D28 is P0.22 (QSPI_SIO_2 WP)
    23, // D29 is P0.23 (QSPI_SIO_3 HOLD)
    // NFC
     9, // D30 is P0.09 (NFC1)
    10, // D31 is P0.10 (NFC2)
    // VBAT
    31, // D32 is P0.31 (VBAT)
 };
 void initVariant()
 {
    // Disable reading of the BAT voltage.
    // https://wiki.seeedstudio.com/XIAO_BLE#q3-what-are-the-considerations-when-using-xiao-nrf52840-sense-for-battery-charging
    pinMode(VBAT_ENABLE, OUTPUT);
    //digitalWrite(VBAT_ENABLE, HIGH); 
    // This was taken from Seeed github butis not coherent with the doc, 
    // VBAT_ENABLE should be kept to LOW to protect P0.14, (1500/500)*(4.2-3.3)+3.3 = 3.9V > 3.6V
    // This induces a 3mA current in the resistors :( but it's better than burning the nrf
    digitalWrite(VBAT_ENABLE, LOW);
    // Low charging current (50mA)
    // https://wiki.seeedstudio.com/XIAO_BLE#battery-charging-current
    //pinMode(PIN_CHARGING_CURRENT, INPUT);
    // High charging current (100mA)
    pinMode(PIN_CHARGING_CURRENT, OUTPUT);
    digitalWrite(PIN_CHARGING_CURRENT, LOW);
    pinMode(PIN_QSPI_CS, OUTPUT);
    digitalWrite(PIN_QSPI_CS, HIGH);
    pinMode(LED_RED, OUTPUT);
    digitalWrite(LED_RED, HIGH);
    pinMode(LED_GREEN, OUTPUT);
    digitalWrite(LED_GREEN, HIGH);
    pinMode(LED_BLUE, OUTPUT);
    digitalWrite(LED_BLUE, HIGH);
 }
--- a/variants/ikoka_nano_nrf/variant.h
+++ b/variants/ikoka_nano_nrf/variant.h
@ -0,0 +1,149 @@
 #ifndef _IKOKA_NANO_NRF_H_
 #define _IKOKA_NANO_NRF_H_
 /** Master clock frequency */
 #define VARIANT_MCK       (64000000ul)
 #define USE_LFXO      // Board uses 32khz crystal for LF
 //#define USE_LFRC    // Board uses RC for LF
 /*----------------------------------------------------------------------------
 *        Headers
 *----------------------------------------------------------------------------*/
 #include "WVariant.h"
 #ifdef __cplusplus
 extern "C"
 {
 #endif // __cplusplus
 #define PINS_COUNT              (33)
 #define NUM_DIGITAL_PINS        (33)
 #define NUM_ANALOG_INPUTS       (8)
 #define NUM_ANALOG_OUTPUTS      (0)
 // LEDs
 #define PIN_LED                 (LED_RED)
 #define LED_PWR                 (PINS_COUNT)
 #define PIN_NEOPIXEL            (PINS_COUNT)
 #define NEOPIXEL_NUM            (0)
 #define LED_BUILTIN             (PIN_LED)
 #define LED_RED                 (11)
 #define LED_GREEN               (13)
 #define LED_BLUE                (12)
 #define LED_STATE_ON            (0)     // State when LED is litted
 // Buttons
 // #define PIN_BUTTON1             (PINS_COUNT)
 // Digital PINs
 static const uint8_t D0  = 0 ;
 static const uint8_t D1  = 1 ;
 static const uint8_t D2  = 2 ;
 static const uint8_t D3  = 3 ;
 static const uint8_t D4  = 4 ;
 static const uint8_t D5  = 5 ;
 static const uint8_t D6  = 6 ;
 static const uint8_t D7  = 7 ;
 static const uint8_t D8  = 8 ;
 static const uint8_t D9  = 9 ;
 static const uint8_t D10 = 10;
 #define VBAT_ENABLE             (14)    // Output LOW to enable reading of the BAT voltage.
                                        // https://wiki.seeedstudio.com/XIAO_BLE#q3-what-are-the-considerations-when-using-xiao-nrf52840-sense-for-battery-charging
 #define PIN_CHARGING_CURRENT    (22)    // Battery Charging current
                                        // https://wiki.seeedstudio.com/XIAO_BLE#battery-charging-current
 // Analog pins
 #define PIN_A0                  (0)
 #define PIN_A1                  (1)
 #define PIN_A2                  (2)
 #define PIN_A3                  (3)
 #define PIN_A4                  (4)
 #define PIN_A5                  (5)
 #define PIN_VBAT                (32)    // Read the BAT voltage.
                                        // https://wiki.seeedstudio.com/XIAO_BLE#q3-what-are-the-considerations-when-using-xiao-nrf52840-sense-for-battery-charging
 #define BAT_NOT_CHARGING        (23)    // LOW when charging
 #define AREF_VOLTAGE            (3.0)
 #define ADC_MULTIPLIER          (3.0F) // 1M, 512k divider bridge
 static const uint8_t A0  = PIN_A0;
 static const uint8_t A1  = PIN_A1;
 static const uint8_t A2  = PIN_A2;
 static const uint8_t A3  = PIN_A3;
 static const uint8_t A4  = PIN_A4;
 static const uint8_t A5  = PIN_A5;
 #define ADC_RESOLUTION          (12)
 // Other pins
 #define PIN_NFC1                (30)
 #define PIN_NFC2                (31)
 // Serial interfaces
 #define PIN_SERIAL1_RX          (7)
 #define PIN_SERIAL1_TX          (6)
 // SPI Interfaces
 #define SPI_INTERFACES_COUNT    (2)
 #define PIN_SPI_MISO            (9)
 #define PIN_SPI_MOSI            (10)
 #define PIN_SPI_SCK             (8)
 #define PIN_SPI1_MISO           (25)
 #define PIN_SPI1_MOSI           (26)
 #define PIN_SPI1_SCK            (29)
 // Lora SPI is on SPI0
 #define  P_LORA_SCLK            PIN_SPI_SCK
 #define  P_LORA_MISO            PIN_SPI_MISO
 #define  P_LORA_MOSI            PIN_SPI_MOSI
 // Wire Interfaces
 #define WIRE_INTERFACES_COUNT   (1)
 // #define PIN_WIRE_SDA            (17) // 4 and 5 are used for the sx1262 !
 // #define PIN_WIRE_SCL            (16) // use WIRE1_SDA
 static const uint8_t SDA = PIN_WIRE_SDA;
 static const uint8_t SCL = PIN_WIRE_SCL;
 //#define PIN_WIRE1_SDA           (17)
 //#define PIN_WIRE1_SCL           (16)
 #define PIN_LSM6DS3TR_C_POWER   (15)
 #define PIN_LSM6DS3TR_C_INT1    (18)
 // PDM Interfaces
 #define PIN_PDM_PWR	            (19)
 #define PIN_PDM_CLK	            (20)
 #define PIN_PDM_DIN	            (21)
 // QSPI Pins
 #define PIN_QSPI_SCK            (24)
 #define PIN_QSPI_CS             (25)
 #define PIN_QSPI_IO0            (26)
 #define PIN_QSPI_IO1            (27)
 #define PIN_QSPI_IO2            (28)
 #define PIN_QSPI_IO3            (29)
 // On-board QSPI Flash
 #define EXTERNAL_FLASH_DEVICES  (P25Q16H)
 #define EXTERNAL_FLASH_USE_QSPI
 #ifdef __cplusplus
 }
 #endif
 /*----------------------------------------------------------------------------
 *        Arduino objects - C++ only
 *----------------------------------------------------------------------------*/
 #endif
--- a/variants/ikoka_stick_nrf/IkokaStickNRFBoard.cpp
+++ b/variants/ikoka_stick_nrf/IkokaStickNRFBoard.cpp
@ -0,0 +1,94 @@
 #ifdef XIAO_NRF52
 #include <Arduino.h>
 #include "IkokaStickNRFBoard.h"
 #include <bluefruit.h>
 #include <Wire.h>
 static BLEDfu bledfu;
 static void connect_callback(uint16_t conn_handle) {
  (void)conn_handle;
  MESH_DEBUG_PRINTLN("BLE client connected");
 }
 static void disconnect_callback(uint16_t conn_handle, uint8_t reason) {
  (void)conn_handle;
  (void)reason;
  MESH_DEBUG_PRINTLN("BLE client disconnected");
 }
 void IkokaStickNRFBoard::begin() {
  // for future use, sub-classes SHOULD call this from their begin()
  startup_reason = BD_STARTUP_NORMAL;
  pinMode(PIN_VBAT, INPUT);
  pinMode(VBAT_ENABLE, OUTPUT);
  digitalWrite(VBAT_ENABLE, HIGH);
 #ifdef PIN_USER_BTN
  pinMode(PIN_USER_BTN, INPUT_PULLUP);
 #endif
 #if defined(PIN_WIRE_SDA) && defined(PIN_WIRE_SCL)
  Wire.setPins(PIN_WIRE_SDA, PIN_WIRE_SCL);
 #endif
  Wire.begin();
 #ifdef P_LORA_TX_LED
  pinMode(P_LORA_TX_LED, OUTPUT);
  digitalWrite(P_LORA_TX_LED, HIGH);
 #endif
 //  pinMode(SX126X_POWER_EN, OUTPUT);
 //  digitalWrite(SX126X_POWER_EN, HIGH);
  delay(10);   // give sx1262 some time to power up
 }
 bool IkokaStickNRFBoard::startOTAUpdate(const char *id, char reply[]) {
  // Config the peripheral connection with maximum bandwidth
  // more SRAM required by SoftDevice
  // Note: All config***() function must be called before begin()
  Bluefruit.configPrphBandwidth(BANDWIDTH_MAX);
  Bluefruit.configPrphConn(92, BLE_GAP_EVENT_LENGTH_MIN, 16, 16);
  Bluefruit.begin(1, 0);
  // Set max power. Accepted values are: -40, -30, -20, -16, -12, -8, -4, 0, 4
  Bluefruit.setTxPower(4);
  // Set the BLE device name
  Bluefruit.setName("XIAO_NRF52_OTA");
  Bluefruit.Periph.setConnectCallback(connect_callback);
  Bluefruit.Periph.setDisconnectCallback(disconnect_callback);
  // To be consistent OTA DFU should be added first if it exists
  bledfu.begin();
  // Set up and start advertising
  // Advertising packet
  Bluefruit.Advertising.addFlags(BLE_GAP_ADV_FLAGS_LE_ONLY_GENERAL_DISC_MODE);
  Bluefruit.Advertising.addTxPower();
  Bluefruit.Advertising.addName();
  /* Start Advertising
    - Enable auto advertising if disconnected
    - Interval:  fast mode = 20 ms, slow mode = 152.5 ms
    - Timeout for fast mode is 30 seconds
    - Start(timeout) with timeout = 0 will advertise forever (until connected)
    For recommended advertising interval
    https://developer.apple.com/library/content/qa/qa1931/_index.html
  */
  Bluefruit.Advertising.restartOnDisconnect(true);
  Bluefruit.Advertising.setInterval(32, 244); // in unit of 0.625 ms
  Bluefruit.Advertising.setFastTimeout(30);   // number of seconds in fast mode
  Bluefruit.Advertising.start(0);             // 0 = Don't stop advertising after n seconds
  strcpy(reply, "OK - started");
  return true;
 }
 #endif
--- a/variants/ikoka_stick_nrf/IkokaStickNRFBoard.h
+++ b/variants/ikoka_stick_nrf/IkokaStickNRFBoard.h
@ -0,0 +1,60 @@
 #pragma once
 #include <MeshCore.h>
 #include <Arduino.h>
 #ifdef XIAO_NRF52
 class IkokaStickNRFBoard : public mesh::MainBoard {
 protected:
  uint8_t startup_reason;
 public:
  void begin();
  uint8_t getStartupReason() const override { return startup_reason; }
 #if defined(P_LORA_TX_LED)
  void onBeforeTransmit() override {
    digitalWrite(P_LORA_TX_LED, LOW);   // turn TX LED on
    #if defined(LED_BLUE)
       // turn off that annoying blue LED before transmitting
       digitalWrite(LED_BLUE, HIGH);
    #endif
  }
  void onAfterTransmit() override {
    digitalWrite(P_LORA_TX_LED, HIGH);   // turn TX LED off
    #if defined(LED_BLUE)
       // do it after transmitting too, just in case
       digitalWrite(LED_BLUE, HIGH);
    #endif
  }
 #endif
  uint16_t getBattMilliVolts() override {
    // Please read befor going further ;)
    // https://wiki.seeedstudio.com/XIAO_BLE#q3-what-are-the-considerations-when-using-xiao-nrf52840-sense-for-battery-charging
    // We can't drive VBAT_ENABLE to HIGH as long 
    // as we don't know wether we are charging or not ...
    // this is a 3mA loss (4/1500)
    digitalWrite(VBAT_ENABLE, LOW);
    int adcvalue = 0;
    analogReadResolution(12);
    analogReference(AR_INTERNAL_3_0);  
    delay(10);
    adcvalue = analogRead(PIN_VBAT);
    return (adcvalue * ADC_MULTIPLIER * AREF_VOLTAGE) / 4.096;
  }
  const char *getManufacturerName() const override {
    return MANUFACTURER_STRING;
  }
  void reboot() override {
    NVIC_SystemReset();
  }
  bool startOTAUpdate(const char *id, char reply[]) override;
 };
 #endif
--- a/variants/ikoka_stick_nrf/platformio.ini
+++ b/variants/ikoka_stick_nrf/platformio.ini
@ -61,6 +61,7 @@ extends = ikoka_stick_nrf_baseboard
 ; No PA in this model, full 22dBm
 build_flags =
  ${ikoka_stick_nrf_baseboard.build_flags}
  -D MANUFACTURER_STRING='"Ikoka Stick-E22-22dBm (Xiao_nrf52)"'
  -D LORA_TX_POWER=22
 build_src_filter = ${nrf52840_xiao.build_src_filter}
  +<helpers/*.cpp>
@ -75,6 +76,7 @@ extends = ikoka_stick_nrf_baseboard
 ; cause distortion in the PA output. 20dBm in -> 30dBm out
 build_flags =
  ${ikoka_stick_nrf_baseboard.build_flags}
  -D MANUFACTURER_STRING='"Ikoka Stick-E22-30dBm (Xiao_nrf52)"'
  -D LORA_TX_POWER=20
 build_src_filter = ${nrf52840_xiao.build_src_filter}
  +<helpers/*.cpp>
@ -89,6 +91,7 @@ extends = ikoka_stick_nrf_baseboard
 ; to the rf amplifier frontend. 9dBm in -> 33dBm out
 build_flags =
  ${ikoka_stick_nrf_baseboard.build_flags}
  -D MANUFACTURER_STRING='"Ikoka Stick-E22-33dBm (Xiao_nrf52)"'
  -D LORA_TX_POWER=9
 build_src_filter = ${nrf52840_xiao.build_src_filter}
  +<helpers/*.cpp>