Merge branch 'dev'

* ver bump
Merge pull request #704 from liamcottle/fix/wismesh-pocket-user-button
2026-03-30 14:55:46 +00:00 · 2025-09-01 19:32:54 +10:00 · 2025-09-01 19:32:15 +10:00 · 2025-09-01 21:09:54 +12:00 · 2025-09-01 21:04:41 +12:00 · 2025-09-01 17:11:55 +10:00
283 changed files with 13744 additions and 2783 deletions
--- a/.gitignore
+++ b/.gitignore
@@ -9,3 +9,8 @@ out/
 .DS_Store
 .vscode/settings.json
 .vscode/extensions.json
+.idea
+cmake-*
+.cache
+.ccls
+compile_commands.json
--- a/README.md
+++ b/README.md
@@ -74,17 +74,7 @@ They can also be managed via LoRa in the mobile app by using the Remote Manageme

 ## 🛠 Hardware Compatibility

-MeshCore is designed for use with:
-* Heltec V3 LoRa Boards
-* RAK4631
-* XiaoS3 WIO (sx1262 combo)
-* XiaoC3 (plus external sx126x module)
-* LilyGo T3S3
-* Heltec T114
-* Station G2
-* Sensecap T1000e
-* Heltec V2
-* LilyGo TLora32 v1.6
+MeshCore is designed for devices listed in the [MeshCore Flasher](https://flasher.meshcore.co.uk)

 ## 📜 License

@@ -104,7 +94,7 @@ Here are some general principals you should try to adhere to:

 - Report bugs and request features on the [GitHub Issues](https://github.com/ripplebiz/MeshCore/issues) page.
 - Find additional guides and components on [my site](https://buymeacoffee.com/ripplebiz).
- Join [Andy Kirby's Discord](https://discord.gg/GBxVx2JMAy) to chat with the developers and get help from the community.
+- Join [MeshCore Discord](https://discord.gg/BMwCtwHj5V) to chat with the developers and get help from the community.

 ## RAK Wireless Board Support in PlatformIO

--- a/boards/heltec_mesh_solar.json
+++ b/boards/heltec_mesh_solar.json
@@ -0,0 +1,61 @@
+{
+  "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": "HT-n5262",
+    "mcu": "nrf52840",
+    "variant": "heltec_mesh_solar",
+    "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",
+    "openocd_target": "nrf52.cfg"
+  },
+  "frameworks": [
+    "arduino"
+  ],
+  "name": "Heltec Mesh Solar 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://heltec.org/",
+  "vendor": "Heltec"
+}
--- a/boards/heltec_vision_master_e213.json
+++ b/boards/heltec_vision_master_e213.json
@@ -0,0 +1,44 @@
+{
+  "build": {
+    "arduino": {
+      "ldscript": "esp32s3_out.ld",
+      "partitions": "default_16MB.csv",
+      "memory_type": "qio_opi"
+    },
+    "core": "esp32",
+    "extra_flags": [
+      "-DBOARD_HAS_PSRAM",
+      "-DARDUINO_USB_MODE=0",
+      "-DARDUINO_USB_CDC_ON_BOOT=1",
+      "-DARDUINO_RUNNING_CORE=1",
+      "-DARDUINO_EVENT_RUNNING_CORE=1"
+    ],
+    "f_cpu": "240000000L",
+    "f_flash": "80000000L",
+    "flash_mode": "qio",
+    "psram_type": "opi",
+    "hwids": [
+      ["0x303A", "0x1001"],
+      ["0x303A", "0x0002"]
+    ],
+    "mcu": "esp32s3",
+    "variant": "heltec_vision_master_e213"
+  },
+  "connectivity": ["wifi", "bluetooth", "lora"],
+  "debug": {
+    "openocd_target": "esp32s3.cfg"
+  },
+  "frameworks": ["arduino", "espidf"],
+  "name": "Heltec Vision Master E213",
+  "upload": {
+    "flash_size": "16MB",
+    "maximum_ram_size": 8388608,
+    "maximum_size": 16777216,
+    "use_1200bps_touch": true,
+    "wait_for_upload_port": true,
+    "require_upload_port": true,
+    "speed": 921600
+  },
+  "url": "https://heltec.org/project/vision-master-e213/",
+  "vendor": "Heltec"
+}
--- a/boards/heltec_vision_master_e290.json
+++ b/boards/heltec_vision_master_e290.json
@@ -0,0 +1,44 @@
+{
+  "build": {
+    "arduino": {
+      "ldscript": "esp32s3_out.ld",
+      "partitions": "default_16MB.csv",
+      "memory_type": "qio_opi"
+    },
+    "core": "esp32",
+    "extra_flags": [
+      "-DBOARD_HAS_PSRAM",
+      "-DARDUINO_USB_MODE=0",
+      "-DARDUINO_USB_CDC_ON_BOOT=1",
+      "-DARDUINO_RUNNING_CORE=1",
+      "-DARDUINO_EVENT_RUNNING_CORE=1"
+    ],
+    "f_cpu": "240000000L",
+    "f_flash": "80000000L",
+    "flash_mode": "qio",
+    "psram_type": "opi",
+    "hwids": [
+      ["0x303A", "0x1001"],
+      ["0x303A", "0x0002"]
+    ],
+    "mcu": "esp32s3",
+    "variant": "heltec_vision_master_e290"
+  },
+  "connectivity": ["wifi", "bluetooth", "lora"],
+  "debug": {
+    "openocd_target": "esp32s3.cfg"
+  },
+  "frameworks": ["arduino", "espidf"],
+  "name": "Heltec Vision Master E290",
+  "upload": {
+    "flash_size": "16MB",
+    "maximum_ram_size": 8388608,
+    "maximum_size": 16777216,
+    "use_1200bps_touch": true,
+    "wait_for_upload_port": true,
+    "require_upload_port": true,
+    "speed": 921600
+  },
+  "url": "https://heltec.org/project/vision-master-e290/",
+  "vendor": "Heltec"
+}
--- a/boards/heltec_vision_master_t190.json
+++ b/boards/heltec_vision_master_t190.json
@@ -0,0 +1,44 @@
+{
+  "build": {
+    "arduino": {
+      "ldscript": "esp32s3_out.ld",
+      "partitions": "default_16MB.csv",
+      "memory_type": "qio_opi"
+    },
+    "core": "esp32",
+    "extra_flags": [
+      "-DBOARD_HAS_PSRAM",
+      "-DARDUINO_USB_MODE=0",
+      "-DARDUINO_USB_CDC_ON_BOOT=1",
+      "-DARDUINO_RUNNING_CORE=1",
+      "-DARDUINO_EVENT_RUNNING_CORE=1"
+    ],
+    "f_cpu": "240000000L",
+    "f_flash": "80000000L",
+    "flash_mode": "qio",
+    "psram_type": "opi",
+    "hwids": [
+      ["0x303A", "0x1001"],
+      ["0x303A", "0x0002"]
+    ],
+    "mcu": "esp32s3",
+    "variant": "heltec_vision_master_t190"
+  },
+  "connectivity": ["wifi", "bluetooth", "lora"],
+  "debug": {
+    "openocd_target": "esp32s3.cfg"
+  },
+  "frameworks": ["arduino", "espidf"],
+  "name": "Heltec Vision Master T190",
+  "upload": {
+    "flash_size": "16MB",
+    "maximum_ram_size": 8388608,
+    "maximum_size": 16777216,
+    "use_1200bps_touch": true,
+    "wait_for_upload_port": true,
+    "require_upload_port": true,
+    "speed": 921600
+  },
+  "url": "https://heltec.org/project/vision-master-t190/",
+  "vendor": "Heltec"
+}
--- a/boards/minewsemi_me25ls01.json
+++ b/boards/minewsemi_me25ls01.json
@@ -0,0 +1,59 @@
+{
+  "build": {
+    "arduino": {
+      "ldscript": "nrf52840_s140_v7.ld"
+    },
+    "core": "nRF5",
+    "cpu": "cortex-m4",
+    "extra_flags": "-DARDUINO_WIO_WM1110 -DNRF52840_XXAA",
+    "f_cpu": "64000000L",
+    "hwids": [
+      ["0x239A", "0x8029"],
+      ["0x239A", "0x0029"],
+      ["0x239A", "0x002A"],
+      ["0x239A", "0x802A"]
+    ],
+    "usb_product": "me25ls01-BOOT",
+    "mcu": "nrf52840",
+    "variant": "minewsemi_me25ls01",
+    "bsp": {
+      "name": "adafruit"
+    },
+    "softdevice": {
+      "sd_flags": "-DS140",
+      "sd_name": "s140",
+      "sd_version": "7.3.0",
+      "sd_fwid": "0x0123"
+    },
+    "bootloader": {
+      "settings_addr": "0xFF000"
+    }
+  },
+  "connectivity": ["bluetooth"],
+  "debug": {
+    "jlink_device": "nRF52840_xxAA",
+    "svd_path": "nrf52840.svd",
+    "openocd_target": "nrf52.cfg"
+  },
+  "frameworks": ["arduino"],
+  "name": "Minewsemi ME25LS01",
+  "upload": {
+    "maximum_ram_size": 248832,
+    "maximum_size": 815104,
+    "speed": 115200,
+    "protocol": "nrfutil",
+    "protocols": [
+      "jlink",
+      "nrfjprog",
+      "nrfutil",
+      "stlink",
+      "cmsis-dap",
+      "blackmagic"
+    ],
+    "use_1200bps_touch": true,
+    "require_upload_port": true,
+    "wait_for_upload_port": true
+  },
+  "url": "https://en.minewsemi.com/lora-module/lr1110-nrf52840-me25LS01",
+  "vendor": "MINEWSEMI"
+}
--- a/boards/nano-g2-ultra.json
+++ b/boards/nano-g2-ultra.json
@@ -46,7 +46,8 @@
    ],
    "debug": {
        "jlink_device": "nRF52840_xxAA",
-        "svd_path": "nrf52840.svd"
+        "svd_path": "nrf52840.svd",
+        "openocd_target": "nrf52.cfg"
    },
    "frameworks": [
        "arduino"
@@ -69,4 +70,4 @@
    },
    "url": "https://wiki.uniteng.com/en/meshtastic/nano-g2-ultra",
    "vendor": "BQ Consulting"
-}
+}
--- a/boards/seeed-wio-tracker-l1.json
+++ b/boards/seeed-wio-tracker-l1.json
@@ -0,0 +1,61 @@
+{
+  "build": {
+    "arduino": {
+    "ldscript": "nrf52840_s140_v7.ld"
+    },
+    "core": "nRF5",
+    "cpu": "cortex-m4",
+    "extra_flags": "-DARDUINO_SEEED_WIO_TRACKER_L1 -DNRF52840_XXAA -DSEEED_WIO_TRACKER_L1 ",
+    "f_cpu": "64000000L",
+    "hwids": [
+      [ "0x2886", "0x1667" ],
+      [ "0x2886", "0x1668" ]
+    ],
+    "mcu": "nrf52840",
+    "variant": "Seeed_Wio_Tracker_L1",
+    "softdevice": {
+      "sd_flags": "-DS140",
+      "sd_name": "s140",
+      "sd_version": "7.3.0",
+      "sd_fwid": "0x0123"
+    },
+    "bsp": {
+      "name": "adafruit"
+    },
+    "bootloader": {
+      "settings_addr": "0xFF000"
+    },
+    "usb_product": "Seeed Wio Tracker L1"
+  },
+  "connectivity": [
+    "bluetooth"
+  ],
+  "debug": {
+    "jlink_device": "nRF52840_xxAA",
+    "openocd_target": "nrf52.cfg",
+    "svd_path": "nrf52840.svd"
+  },
+  "frameworks": [
+    "arduino"
+  ],
+  "name": "Seeed Wio Tracker L1",
+  "upload": {
+    "maximum_ram_size": 237568,
+    "maximum_size": 811008,
+    "protocol": "nrfutil",
+    "speed": 115200,
+    "protocols": [
+      "jlink",
+      "nrfjprog",
+      "nrfutil",
+      "cmsis-dap",
+      "sam-ba",
+      "blackmagic"
+    ],
+    "use_1200bps_touch": true,
+    "require_upload_port": true,
+    "wait_for_upload_port": true
+  },
+  "url": "https://wiki.seeedstudio.com/wio_tracker_l1_node/",
+  "vendor": "Seeed Studio"
+}
--- a/boards/seeed_sensecap_solar.json
+++ b/boards/seeed_sensecap_solar.json
@@ -0,0 +1,60 @@
+{
+  "build": {
+    "arduino": {
+      "ldscript": "nrf52840_s140_v7.ld"
+    },
+    "core": "nRF5",
+    "cpu": "cortex-m4",
+    "extra_flags": "-DARDUINO_Seeed_XIAO_nRF52840 -DNRF52840_XXAA -DSEEED_XIAO_NRF52840 ",
+    "f_cpu": "64000000L",
+    "hwids": [
+      [ "0x2886", "0x0059" ]
+    ],
+    "mcu": "nrf52840",
+    "variant": "Seeed_XIAO_nRF52840",
+    "softdevice": {
+      "sd_flags": "-DS140",
+      "sd_name": "s140",
+      "sd_version": "7.3.0",
+      "sd_fwid": "0x0123"
+    },
+    "bsp": {
+      "name": "adafruit"
+    },
+    "bootloader": {
+      "settings_addr": "0xFF000"
+    },
+    "usb_product": "XIAO nRF52840"
+  },
+  "connectivity": [
+    "bluetooth"
+  ],
+  "debug": {
+    "jlink_device": "nRF52840_xxAA",
+    "openocd_target": "nrf52.cfg",
+    "svd_path": "nrf52840.svd"
+  },
+  "frameworks": [
+    "arduino"
+  ],
+  "name": "Seeed Studio XIAO nRF52840",
+  "upload": {
+    "maximum_ram_size": 248832,
+    "maximum_size": 815104,
+    "protocol": "nrfutil",
+    "speed": 115200,
+    "protocols": [
+      "jlink",
+      "nrfjprog",
+      "nrfutil",
+      "cmsis-dap",
+      "sam-ba",
+      "blackmagic"
+    ],
+    "use_1200bps_touch": true,
+    "require_upload_port": true,
+    "wait_for_upload_port": true
+  },
+  "url": "https://wiki.seeedstudio.com/meshtastic_solar_node/",
+  "vendor": "Seeed Studio"
+}
--- a/build.sh
+++ b/build.sh
@@ -3,6 +3,7 @@
 # usage
 # sh build.sh build-firmware RAK_4631_Repeater
 # sh build.sh build-firmwares
+# sh build.sh build-matching-firmwares RAK_4631
 # sh build.sh build-companion-firmwares
 # sh build.sh build-repeater-firmwares
 # sh build.sh build-room-server-firmwares
@@ -144,6 +145,16 @@ mkdir -p out
 if [[ $1 == "build-firmware" ]]; then
  if [ "$2" ]; then
    build_firmware $2
+  else
+    echo "usage: $0 build-firmware <target>"
+    exit 1
+  fi
+elif [[ $1 == "build-matching-firmwares" ]]; then
+  if [ "$2" ]; then
+     build_all_firmwares_matching $2
+  else
+     echo "usage: $0 build-matching-firmwares <build-match-spec>"
+    exit 1
  fi
 elif [[ $1 == "build-firmwares" ]]; then
  build_firmwares
--- a/build_as_lib.py
+++ b/build_as_lib.py
@@ -0,0 +1,64 @@
+from os.path import realpath
+
+Import("env") # type: ignore
+menv=env # type: ignore
+
+src_filter = [
+  '+<*.cpp>',
+  '+<helpers/*.cpp>',
+  '+<helpers/sensors>',
+  '+<helpers/radiolib/*.cpp>',
+  '+<helpers/ui/MomentaryButton.cpp>',
+  '+<helpers/ui/buzzer.cpp>',
+]
+
+# add build and include dirs according to CPPDEFINES
+for item in menv.get("CPPDEFINES", []):
+ 
+    # PLATFORM HANDLING
+    if item == "STM32_PLATFORM":
+        src_filter.append("+<helpers/stm32/*>")
+    elif item == "ESP32":
+        src_filter.append("+<helpers/esp32/*>")
+    elif item == "NRF52_PLATFORM":
+        src_filter.append("+<helpers/nrf52/*>")
+    elif item == "RP2040_PLATFORM":
+        src_filter.append("+<helpers/rp2040/*>")
+    
+    # DISPLAY HANDLING
+    elif isinstance(item, tuple) and item[0] == "DISPLAY_CLASS":
+        display_class = item[1]
+        src_filter.append(f"+<helpers/ui/{display_class}.cpp>")
+        if (display_class == "ST7789Display") :
+            src_filter.append(f"+<helpers/ui/OLEDDisplay.cpp>")
+            src_filter.append(f"+<helpers/ui/OLEDDisplayFonts.cpp>")
+
+    # VARIANTS HANDLING
+    elif isinstance(item, tuple) and item[0] == "MC_VARIANT":
+        variant_name = item[1]
+        src_filter.append(f"+<../variants/{variant_name}>")
+    
+    # INCLUDE EXAMPLE CODE IN BUILD (to provide your own support files without touching the tree)
+    elif isinstance(item, tuple) and item[0] == "BUILD_EXAMPLE":
+        example_name = item[1]
+        src_filter.append(f"+<../examples/{example_name}/*.cpp>")
+
+    # EXCLUDE A SOURCE FILE FROM AN EXAMPLE (must be placed after example name or boom)
+    elif isinstance(item, tuple) and item[0] == "EXCLUDE_FROM_EXAMPLE":
+        exclude_name = item[1]
+        if example_name is None:
+            print("***** PLEASE DEFINE EXAMPLE FIRST *****")
+            break
+        src_filter.append(f"-<../examples/{example_name}/{exclude_name}>")
+
+    # DEAL WITH UI VARIANT FOR AN EXAMPLE
+    elif isinstance(item, tuple) and item[0] == "MC_UI_FLAVOR":
+        ui_flavor = item[1]
+        if example_name is None:
+            print("***** PLEASE DEFINE EXAMPLE FIRST *****")
+            break
+        src_filter.append(f"+<../examples/{example_name}/{ui_flavor}/*.cpp>")
+        
+menv.Replace(SRC_FILTER=src_filter)
+
+#print (menv.Dump())
--- a/default.nix
+++ b/default.nix
@@ -4,6 +4,7 @@ in
  pkgs.mkShell {
    buildInputs = [
      pkgs.platformio
+      pkgs.python3
      # optional: needed as a programmer i.e. for esp32
      pkgs.avrdude
    ];
--- a/docs/faq.md
+++ b/docs/faq.md
@@ -1,7 +1,7 @@
 **MeshCore-FAQ**<!-- omit from toc -->
 A list of frequently-asked questions and answers for MeshCore

-The current version of this MeshCore FAQ is at https://github.com/ripplebiz/MeshCore/blob/main/docs/faq.md.  
+The current version of this MeshCore FAQ is at https://github.com/meshcore-dev/MeshCore/blob/main/docs/faq.md.  
 This MeshCore FAQ is also mirrored at https://github.com/LitBomb/MeshCore-FAQ and might have newer updates if pull requests on Scott's MeshCore repo are not approved yet.

 author: https://github.com/LitBomb<!-- omit from toc -->
@@ -27,17 +27,20 @@ author: https://github.com/LitBomb<!-- omit from toc -->
  - [3.3. Q: What is the password to administer a repeater or a room server?](#33-q-what-is-the-password-to-administer-a-repeater-or-a-room-server)
  - [3.4. Q: What is the password to join a room server?](#34-q-what-is-the-password-to-join-a-room-server)
 - [4. T-Deck Related](#4-t-deck-related)
-  - [4.1. Q: What are the steps to get a T-Deck into DFU (Device Firmware Update) mode?](#41-q-what-are-the-steps-to-get-a-t-deck-into-dfu-device-firmware-update-mode)
-  - [4.2. Q: Why is my T-Deck Plus not getting any satellite lock?](#42-q-why-is-my-t-deck-plus-not-getting-any-satellite-lock)
-  - [4.3. Q: Why is my OG (non-Plus) T-Deck not getting any satellite lock?](#43-q-why-is-my-og-non-plus-t-deck-not-getting-any-satellite-lock)
-  - [4.4. Q: What size of SD card does the T-Deck support?](#44-q-what-size-of-sd-card-does-the-t-deck-support)
-  - [4.5. Q: How do I get maps on T-Deck?](#45-q-how-do-i-get-maps-on-t-deck)
-  - [4.6. Q: Where do the map tiles go?](#46-q-where-do-the-map-tiles-go)
-  - [4.7. Q: How to unlock deeper map zoom and server management features on T-Deck?](#47-q-how-to-unlock-deeper-map-zoom-and-server-management-features-on-t-deck)
-  - [4.8. Q: How to decipher the diagnostics screen on T-Deck?](#48-q-how-to-decipher-the-diagnostics-screen-on-t-deck)
-  - [4.9. Q: The T-Deck sound is too loud?](#49-q-the-t-deck-sound-is-too-loud)
-  - [4.10. Q: Can you customize the sound?](#410-q-can-you-customize-the-sound)
-  - [4.11. Q: What is the 'Import from Clipboard' feature on the t-deck and is there a way to manually add nodes without having to receive adverts?](#411-q-what-is-the-import-from-clipboard-feature-on-the-t-deck-and-is-there-a-way-to-manually-add-nodes-without-having-to-receive-adverts)
+  - [4.1. Q: Is there a user guide for T-Deck, T-Pager, T-Watch, or T-Display Pro?](#41-q-is-there-a-user-guide-for-t-deck-t-pager-t-watch-or-t-display-pro)
+  - [4.2. Q: What are the steps to get a T-Deck into DFU (Device Firmware Update) mode?](#42-q-what-are-the-steps-to-get-a-t-deck-into-dfu-device-firmware-update-mode)
+  - [4.3. Q: Why is my T-Deck Plus not getting any satellite lock?](#43-q-why-is-my-t-deck-plus-not-getting-any-satellite-lock)
+  - [4.4. Q: Why is my OG (non-Plus) T-Deck not getting any satellite lock?](#44-q-why-is-my-og-non-plus-t-deck-not-getting-any-satellite-lock)
+  - [4.5. Q: What size of SD card does the T-Deck support?](#45-q-what-size-of-sd-card-does-the-t-deck-support)
+  - [4.6. Q: what is the public key for the default public channel?](#46-q-what-is-the-public-key-for-the-default-public-channel)
+  - [4.7. Q: How do I get maps on T-Deck?](#47-q-how-do-i-get-maps-on-t-deck)
+  - [4.8. Q: Where do the map tiles go?](#48-q-where-do-the-map-tiles-go)
+  - [4.9. Q: How to unlock deeper map zoom and server management features on T-Deck?](#49-q-how-to-unlock-deeper-map-zoom-and-server-management-features-on-t-deck)
+  - [4.10. Q: How to decipher the diagnostics screen on T-Deck?](#410-q-how-to-decipher-the-diagnostics-screen-on-t-deck)
+  - [4.11. Q: The T-Deck sound is too loud?](#411-q-the-t-deck-sound-is-too-loud)
+  - [4.12. Q: Can you customize the sound?](#412-q-can-you-customize-the-sound)
+  - [4.13. Q: What is the 'Import from Clipboard' feature on the t-deck and is there a way to manually add nodes without having to receive adverts?](#413-q-what-is-the-import-from-clipboard-feature-on-the-t-deck-and-is-there-a-way-to-manually-add-nodes-without-having-to-receive-adverts)
+  - [4.14. Q: How to capture a screenshot on T-Deck?](#414-q-how-to-capture-a-screenshot-on-t-deck)
 - [5. General](#5-general)
  - [5.1. Q: What are BW, SF, and CR?](#51-q-what-are-bw-sf-and-cr)
  - [5.2. Q: Do MeshCore clients repeat?](#52-q-do-meshcore-clients-repeat)
@@ -64,15 +67,23 @@ author: https://github.com/LitBomb<!-- omit from toc -->
  - [6.3. Q: How to connect to a repeater via BLE (Bluetooth)?](#63-q-how-to-connect-to-a-repeater-via-ble-bluetooth)
  - [6.4. Q: I can't connect via Bluetooth, what is the Bluetooth pairing code?](#64-q-i-cant-connect-via-bluetooth-what-is-the-bluetooth-pairing-code)
  - [6.5. Q: My Heltec V3 keeps disconnecting from my smartphone.  It can't hold a solid Bluetooth connection.](#65-q-my-heltec-v3-keeps-disconnecting-from-my-smartphone--it-cant-hold-a-solid-bluetooth-connection)
+  - [6.6. Q: My RAK/T1000-E/xiao\_nRF52 device seems to be corrupted, how do I wipe it clean to start fresh?](#66-q-my-rakt1000-exiao_nrf52-device-seems-to-be-corrupted-how-do-i-wipe-it-clean-to-start-fresh)
+  - [6.7. Q: WebFlasher fails on Linux with failed to open](#67-q-webflasher-fails-on-linux-with-failed-to-open)
 - [7. Other Questions:](#7-other-questions)
-  - [7.2 Q: How to update ESP32-based devices over the air?](#72-q-how-to-update-esp32-based-devices-over-the-air)
-  - [7.1 Q: How to update nRF (RAK, T114, Seed XIAO) repeater and room server firmware over the air using the new simpler DFU app?](#71-q-how-to-update-nrf-rak-t114-seed-xiao-repeater-and-room-server-firmware-over-the-air-using-the-new-simpler-dfu-app)
+  - [7.1. Q: How to update nRF (RAK, T114, Seed XIAO) repeater and room server firmware over the air using the new simpler DFU app?](#71-q-how-to-update-nrf-rak-t114-seed-xiao-repeater-and-room-server-firmware-over-the-air-using-the-new-simpler-dfu-app)
+  - [7.2. Q: How to update ESP32-based devices over the air?](#72-q-how-to-update-esp32-based-devices-over-the-air)
+  - [7.3. Q: Is there a way to lower the chance of a failed OTA device firmware update (DFU)?](#73-q-is-there-a-way-to-lower-the-chance-of-a-failed-ota-device-firmware-update-dfu)
+  - [7.4. Q: are the MeshCore logo and font available?](#74-q-are-the-meshcore-logo-and-font-available)
+  - [7.5. Q: What is the format of a contact or channel QR code?](#75-q-what-is-the-format-of-a-contact-or-channel-qr-code)
+  - [7.6. Q: How do I connect to the comnpanion via WIFI, e.g. using a heltec v3?](#76-q-how-do-i-connect-to-the-comnpanion-via-wifi-eg-using-a-heltec-v3)

 ## 1. Introduction

 ### 1.1. Q: What is MeshCore?

-**A:** MeshCore is free and open source
+**A:** MeshCore is a multi platform system for enabling secure text based communications utilising LoRa radio hardware. It can be used for Off-Grid Communication, Emergency Response & Disaster Recovery, Outdoor Activities, Tactical Security including law enforcement and private security and also IoT sensor networks. ([source](https://meshcore.co.uk/))
+
+MeshCore is free and open source:
 * MeshCore is the routing and firmware etc, available on GitHub under MIT license
 * There are clients made by the community, such as the web clients, these are free to use, and some are open source too
 * The cross platform mobile app developed by [Liam Cottle](https://liamcottle.net) for Android/iOS/PC etc is free to download and use
@@ -98,9 +109,11 @@ Anyone is able to build anything they like on top of MeshCore without paying any
 You need LoRa hardware devices to run MeshCore firmware as clients or server (repeater and room server).

 #### 1.2.1. Hardware
-To use MeshCore without using a phone as the client interface, you can run MeshCore on a T-Deck or T-Deck Plus. It is a complete off-grid secure communication solution.  
+MeshCore is available on a variety of 433MHz, 868MHz and 915MHz LoRa devices. For example, Lilygo T-Deck, T-Pager, RAK Wireless WisBlock RAK4631 devices (e.g. 19003, 19007, 19026), Heltec V3, Xiao S3 WIO, Xiao C3, Heltec T114, Station G2, Nano G2 Ultra, Seeed Studio T1000-E. More devices are being added regularly.

-MeshCore is also available on a variety of 868MHz and 915MHz LoRa devices. For example, RAK4631 devices (19003, 19007, 19026), Heltec V3, Xiao S3 WIO, Xiao C3, Heltec T114, Station G2, Seeed Studio T1000-E. More devices will be supported later.
+For an up-to-date list of supported devices, please go to https://flasher.meshcore.co.uk/
+
+To use MeshCore without using a phone as the client interface, you can run MeshCore on a LiLygo's T-Deck, T-Deck Plus, T-Pager, T-Watch, or T-Display Pro. MeshCore Ultra firmware running on these devices are a complete off-grid secure communication solution.  

 #### 1.2.2. Firmware
 MeshCore has four firmware types that are not available on other LoRa systems. MeshCore has the following:
@@ -109,7 +122,7 @@ MeshCore has four firmware types that are not available on other LoRa systems. M
 Companion radios are for connecting to the Android app or web app as a messenger client. There are two different companion radio firmware versions:

 1. **BLE Companion**  
-   BLE Companion firmware runs on a supported LoRa device and connects to a smart device running the Android MeshCore client over BLE (iOS MeshCore client will be available soon)  
+   BLE Companion firmware runs on a supported LoRa device and connects to a smart device running the Android or iOS MeshCore client over BLE 
   <https://meshcore.co.uk/apps.html>

 2. **USB Serial Companion**  
@@ -131,16 +144,18 @@ A room server can be remotely administered using a T-Deck running the MeshCore f

 When a client logs into a room server, the client will receive the previously 32 unseen messages.

-A room server can also take on the repeater role.  To enable repeater role on a room server, use this command:
+Although room server can also repeat with the command line command `set repeat on`, it is not recommended nor encouraged.  A room server with repeat set to `on` lacks the full set of repeater and remote administration features that are only available in the repeater firmware.  
+
+The recommendation is to run repeater and room server on separate devices for the best experience.
+

-`set repeat {on|off}`

 ---

 ## 2. Initial Setup

 ### 2.1. Q: How many devices do I need to start using MeshCore?
-**A:** If you have one supported device, flash the BLE Companion firmware and use your device as a client.  You can connect to the device using the Android client via Bluetooth (iOS client will be available later).  You can start communicating with other MeshCore users near you.
+**A:** If you have one supported device, flash the BLE Companion firmware and use your device as a client.  You can connect to the device using the Android or iOS client via Bluetooth.  You can start communicating with other MeshCore users near you.

 If you have two supported devices, and there are not many MeshCore users near you, flash both to BLE Companion firmware so you can use your devices to communicate with your near-by friends and family.

@@ -150,7 +165,7 @@ After you flashed the latest firmware onto your repeater device, keep the device

 `set freq {frequency}`

-The repeater and room server CLI reference is here: https://github.com/ripplebiz/MeshCore/wiki/Repeater-&-Room-Server-CLI-Reference
+The repeater and room server CLI reference is here: https://github.com/meshcore-dev/MeshCore/wiki/Repeater-&-Room-Server-CLI-Reference

 If you have more supported devices, you can use your additional devices with the room server firmware.  

@@ -172,7 +187,7 @@ The T-Deck firmware is free to download and most features are available without

 In UK and EU, 867.5MHz is not allowed to use 250kHz bandwidth and it only allows 2.5% duty cycle for clients.  869.525Mhz allows an airtime of 10%, 250KHz bandwidth, and a higher EIRP, therefore MeshCore nodes can send more often and with more power. That is why this frequency is chosen for UK and EU.  This is also why Meshtastic also uses this frequency.  

-[Source]([https://](https://discord.com/channels/826570251612323860/1330643963501351004/1356540643853209641))
+[Source](https://discord.com/channels/826570251612323860/1330643963501351004/1356540643853209641)

 the rest of the radio settings are the same for all frequencies:  
 - Spread Factor (SF): 11  
@@ -190,10 +205,12 @@ MeshCore allows you to manually broadcast your name, position and public encrypt
 * Zero hop means your advert is broadcasted out to anyone that can hear it, and that's it.
 * Flooded means it's broadcasted out and then repeated by all the repeaters that hear it.

-MeshCore clients only advertise themselves when the user initiates it. A repeater (and room server?) advertises its presence once every 240 minutes. This interval can be configured using the following command:
+MeshCore clients only advertise themselves when the user initiates it. A repeater sends a flood advert once every 3 hours by default. This interval can be configured using the following command:

 `set advert.interval {minutes}`

+As of Aug 20 2025, a pending PR on github will change the flood advert to 12 hours to minimize airtime utilization caused by repeaters' flood adverts.
+
 ### 2.5. Q: Is there a hop limit?

 **A:** Internally the firmware has maximum limit of 64 hops.  In real world settings it will be difficult to get close to the limit due to the environments and timing as packets travel further and further.  We want to hear how far your MeshCore conversations go. 
@@ -248,7 +265,11 @@ You can get the latitude and longitude from Google Maps by right-clicking the lo

 ## 4. T-Deck Related

-### 4.1. Q: What are the steps to get a T-Deck into DFU (Device Firmware Update) mode?
+### 4.1. Q: Is there a user guide for T-Deck, T-Pager, T-Watch, or T-Display Pro?
+
+**A:** Yes, it is available on https://buymeacoffee.com/ripplebiz/ultra-v7-7-guide-meshcore-users
+
+### 4.2. Q: What are the steps to get a T-Deck into DFU (Device Firmware Update) mode?
 **A:**  
 1. Device off  
 2. Connect USB cable to device  
@@ -259,20 +280,31 @@ You can get the latitude and longitude from Google Maps by right-clicking the lo
 7. T-Deck in DFU mode now  
 8. At this point you can begin flashing using <https://flasher.meshcore.co.uk/>

-### 4.2. Q: Why is my T-Deck Plus not getting any satellite lock?
+### 4.3. Q: Why is my T-Deck Plus not getting any satellite lock?
 **A:** For T-Deck Plus, the GPS baud rate should be set to **38400**. Also, some T-Deck Plus devices were found to have the GPS module installed upside down, with the GPS antenna facing down instead of up. If your T-Deck Plus still doesn't get any satellite lock after setting the baud rate to 38400, you might need to open the device to check the GPS orientation.

 GPS on T-Deck is always enabled.  You can skip the "GPS clock sync" and the T-Deck will continue to try to get a GPS lock.  You can go to the `GPS Info` screen; you should see the `Sentences:` counter increasing if the baud rate is correct.

-[Source]([https://](https://discord.com/channels/826570251612323860/1330643963501351004/1356609240302616689))
+[Source](https://discord.com/channels/826570251612323860/1330643963501351004/1356609240302616689)

-### 4.3. Q: Why is my OG (non-Plus) T-Deck not getting any satellite lock?
+### 4.4. Q: Why is my OG (non-Plus) T-Deck not getting any satellite lock?
 **A:** The OG (non-Plus) T-Deck doesn't come with a GPS. If you added a GPS to your OG T-Deck, please refer to the manual of your GPS to see what baud rate it requires. Alternatively, you can try to set the baud rate from 9600, 19200, etc., and up to 115200 to see which one works.

-### 4.4. Q: What size of SD card does the T-Deck support?
+### 4.5. Q: What size of SD card does the T-Deck support?
 **A:** Users have had no issues using 16GB or 32GB SD cards. Format the SD card to **FAT32**.

-### 4.5. Q: How do I get maps on T-Deck?
+### 4.6. Q: what is the public key for the default public channel?
+**A:** 
+T-Deck uses the same key the smartphone apps use but in base64 
+`izOH6cXN6mrJ5e26oRXNcg==`
+The third character is the capital letter 'O', not zero `0`
+
+The smartphone app key is in hex:
+` 8b3387e9c5cdea6ac9e5edbaa115cd72`
+
+[Source](https://discord.com/channels/826570251612323860/1330643963501351004/1354194409213792388)
+
+### 4.7. Q: How do I get maps on T-Deck?
 **A:** You need map tiles. You can get pre-downloaded map tiles here (a good way to support development):  
 - <https://buymeacoffee.com/ripplebiz/e/342543> (Europe)  
 - <https://buymeacoffee.com/ripplebiz/e/342542> (US)
@@ -286,19 +318,20 @@ There is also a modified script that adds additional error handling and parallel
 UK map tiles are available separately from Andy Kirby on his discord server:  
 <https://discord.com/channels/826570251612323860/1330643963501351004/1331346597367386224>

-### 4.6. Q: Where do the map tiles go?
+### 4.8. Q: Where do the map tiles go?
 Once you have the tiles downloaded, copy the `\tiles` folder to the root of your T-Deck's SD card.

-### 4.7. Q: How to unlock deeper map zoom and server management features on T-Deck?
+### 4.9. Q: How to unlock deeper map zoom and server management features on T-Deck?
 **A:** You can download, install, and use the T-Deck firmware for free, but it has some features (map zoom, server administration) that are enabled if you purchase an unlock code for \$10 per T-Deck device.  
 Unlock page: <https://buymeacoffee.com/ripplebiz/e/249834>

-### 4.8. Q: How to decipher the diagnostics screen on T-Deck?
+### 4.10. Q: How to decipher the diagnostics screen on T-Deck?

 **A: ** Space is tight on T-Deck's screen, so the information is a bit cryptic.  The format is :
 `{hops} l:{packet-length}({payload-len}) t:{packet-type} snr:{n} rssi:{n}`

-See here for packet-type: [https://github.com/ripplebiz/MeshCore/blob/main/src/Packet.h#L19](https://github.com/ripplebiz/MeshCore/blob/main/src/Packet.h#L19 "https://github.com/ripplebiz/MeshCore/blob/main/src/Packet.h#L19")
+See here for packet-type: 
+https://github.com/meshcore-dev/MeshCore/blob/main/src/Packet.h#L19
 

    #define PAYLOAD_TYPE_REQ 0x00 // request (prefixed with dest/src hashes, MAC) (enc data: timestamp, blob) 
@@ -312,15 +345,25 @@ See here for packet-type: [https://github.com/ripplebiz/MeshCore/blob/main/src/P

 [Source](https://discord.com/channels/1343693475589263471/1343693475589263474/1350611321040932966)

-### 4.9. Q: The T-Deck sound is too loud?
-### 4.10. Q: Can you customize the sound?
+### 4.11. Q: The T-Deck sound is too loud?
+### 4.12. Q: Can you customize the sound?

-**A:** You can customise the sounds on the T-Deck, just by placing `.mp3` files onto the `root` dir of the SD card. `startup.mp3`, `alert.mp3` and `new-advert.mp3`
+**A:** You can customise the sounds on the T-Deck, by placing `.mp3` files onto the `root` dir of the SD card. The files are:

-### 4.11. Q: What is the 'Import from Clipboard' feature on the t-deck and is there a way to manually add nodes without having to receive adverts?
+* `startup.mp3`
+* `error.mp3`
+* `alert.mp3`
+* `new-advert.mp3`
+* `existing-advert.mp3`
+
+### 4.13. Q: What is the 'Import from Clipboard' feature on the t-deck and is there a way to manually add nodes without having to receive adverts?

 **A:** 'Import from Clipboard' is for importing a contact via a file named 'clipboard.txt' on the SD card. The opposite, is in the Identity screen, the 'Card to Clipboard' menu, which writes to 'clipboard.txt' so you can share yourself (call these 'biz cards', that start with "meshcore://...")

+### 4.14. Q: How to capture a screenshot on T-Deck?
+
+**A:** To capture a screenshot on a T-Deck, long press the top-left corner of the screen.  The screenshot is saved to the microSD card, if one is inserted into the device.
+
 ---

 ## 5. General
@@ -375,10 +418,10 @@ The third character is the capital letter 'O', not zero `0`

 ### 5.7. Q: Is MeshCore open source?
 **A:** Most of the firmware is freely available. Everything is open source except the T-Deck firmware and Liam's native mobile apps.  
- Firmware repo: <https://github.com/ripplebiz/MeshCore>  
+- Firmware repo: https://github.com/meshcore-dev/MeshCore  

 ### 5.8. Q: How can I support MeshCore?
-**A:** Provide your honest feedback on GitHub and on AndyKirby's Discord server <http://discord.com/invite/H62Re4DCeD>. Spread the word of MeshCore to your friends and communities; help them get started with MeshCore. Support Scott's MeshCore development at <https://buymeacoffee.com/ripplebiz>.
+**A:** Provide your honest feedback on GitHub and on [MeshCore Discord server](https://discord.gg/BMwCtwHj5V). Spread the word of MeshCore to your friends and communities; help them get started with MeshCore. Support Scott's MeshCore development at <https://buymeacoffee.com/ripplebiz>.

 Support Liam Cottle's smartphone client development by unlocking the server administration wait gate with in-app purchase

@@ -439,52 +482,76 @@ This could change in the future if MeshCore develops a client firmware that repe
 [Source](https://discord.com/channels/826570251612323860/1330643963501351004/1354780032140054659)

 ### 5.12. Q: How do I add a node to the [MeshCore Map]([url](https://meshcore.co.uk/map.html))
-**A:** From the smartphone app, connect to a BLE Companion radio
- To add the BLE Companion radio your smartphone is connected to to the map, tap the `advert` icon, then tap `Advert (To Clipboard)`.  
- To add a Repeater or Room Server to the map, tap the 3 dots next to the Repeater or Room Server you want to add to the map, then tap `Share (To Clipboard)`.  
- Go to the [MeshCore Map web site]([url](https://meshcore.co.uk/map.html)), tap the plus sign on the lower right corner and paste in the meshcore://... blob, then tap `Add Node`
+**A:** 
+
+To add a BLE Companion radio, connect to the BLE Companion radio from the MeshCore smartphone app.  In the app, tap the `3 dot` menu icon at the top right corner, then tap `Internet Map`.  Tap the `3 dot` menu icon again and choose `Add me to the Map`
+
+To add a Repeater or Room Server to the map, go to the Contact List, tap the `3 dot` next to the Repeater or Room Server you want to add to the Internet Map, tap `Share`, then tap `Upload to Internet Map`.
+
+You can use the same companion (same public key) that you used to add your repeaters or room servers to remove them from the Internet Map.
+

 ### 5.13. Q: Can I use a Raspberry Pi to update a MeshCore radio?
 ** A:** Yes.
-You will need to install picocom on the pi.
-`sudo apt install picocom`
+Below are the instructions to flash firmware onto a supported LoRa device using a Raspberry Pi over USB serial.

-Then run the following commands to setup the repeater.
-```
-picocom -b 115200 /dev/ttyUSB0 --imap lfcrlf
-set name your_repeater_name
-time epoch_time
-password your_unique_password
-set advert.interval 240
-advert
-```
-Note: If using a RAK the path will most likely be /dev/ttyACM0
+> Instructions for nRF devices like RAK, T1000-E, T114 are immediately after the ESP instructions

-Epoch time comes from https://www.epochconverter.com/
+For ESP-based devices (e.g. Heltec V3) you need:
+- Download firmware file from flasher.meshcore.co.uk
+    - Go to the web site on a browser, find the section that has the firmware up need
+    - Click the Download button, right click on the file you need, for example,
+        - `Heltec_V3_companion_radio_ble-v1.7.1-165fb33.bin` 
+            - Non-merged bin keeps the existing Bluetooth pairing database
+        - `Heltec_v3_companion_radio_usb-v1.7.1-165fb33-merged.bin`
+            - Merged bin overwrites everything including the bootloader, existing Bluetooth pairing database, but keeps configurations.
+        - Right click on the file name and copy the link and note it for later use here is an example: `https://flasher.meshcore.dev/releases/download/companion-v1.7.1/Heltec_v3_companion_radio_ble-v1.7.1-165fb33.bin`
+        - Run:
+            - `wget https://flasher.meshcore.dev/releases/download/companion-v1.7.1/Heltec_v3_companion_radio_ble-v1.7.1-165fb33.bin` to download the firmware file for your device type. or the version you need  - USB, BLE, Repeater, Room Server, merged bin or non-merged bin
+            - If the above wget command only downloads a very small file (10K bytes instead of more than 100K byte, use this command instead:
+                - `wget --user-agent="Mozilla/5.0" --content-disposition "https://flasher.meshcore.dev/releases/download/companion-v1.7.1/Heltec_v3_companion_radio_usb-v1.7.1-165fb33.bin"`
+    - Confirm the `ttyXXXX` device path on your Raspberry Pi:
+        - Go to `/dev` directory, run ls command to find confirm your device path
+        - They are usually `/dev/ttyUSB0` for ESP devices
+        - For ESP-based devices, install esptool from the shell:
+            - `pip install esptool --break-system-packages`
+    - To flash, use the following command:
+        - For non-merged bin:
+            - `esptool.py -p /dev/ttyUSB0 --chip esp32-s3 write_flash 0x10000 <non-merged_firmware>.bin`
+        - For merged bin:
+            - `esptool.py -p /dev/ttyUSB0 --chip esp32-s3 write_flash 0x00000 <merged_firmware>.bin`
+	

-You can also flash the repeater using esptool.  You will need to install esptool with the following command...

-`pip install esptool --break-system-packages`
+**Instructions for nRF devices:**

-Then to flash the firmware to Heltec, obtain the .bin file from https://flasher.meshcore.co.uk/ (download all firmware link)
+For nRF devices (e.g. RAK, Heltec T114) you need the following:
+- Download firmware file from flasher.meshcore.co.uk
+    - Go to the web site on a browser, find the section that has the firmware up need
+    - You need the ZIP version for the adafruit flash tool (below)
+    - Click the Download button, right click on the ZIP file, for example:
+        - `RAK_4631_companion_radio_ble-v1.7.1-165fb33.zip`
+        - Right click on the file name and copy the link and note it for later use here is an example: `https://flasher.meshcore.dev/releases/download/companion-v1.7.1/RAK_4631_companion_radio_ble-v1.7.1-165fb33.zip`
+        - Run:
+        - `wget https://flasher.meshcore.dev/releases/download/companion-v1.7.1/RAK_4631_companion_radio_ble-v1.7.1-165fb33.zip` to download the firmware file for your device type. or the version you need  - USB, BLE, Repeater, Room Server, ZIP file only
+    - Confirm the `ttyXXXX` device path on your Raspberry Pi:
+        - Go to `/dev` directory, run ls command to find confirm your device path
+        - They are usually `/dev/ttyACM0` for nRF devices
+    - For nRF-based devices, install adafruit-nrfutil
+        - `pip install adafruit-nrfutil --break-system-packages`
+        - Use this command to flash the nRF device:
+            - `adafruit-nrfutil --verbose dfu serial --package RAK_4631_companion_radio_usb-v1.7.1-165fb33.zip -p /dev/ttyACM0 -b 115200 --singlebank --touch 1200`
+		
+		
+To manage a repeater or room server connected to a Pi over USB serial using shell commands, you need to install `picocom`.  To install `picocom`, run the following command:
+- `sudo apt install picocom`

-For Heltec:
-`esptool.py -p /dev/ttyUSB0 --chip esp32-s3 write_flash 0x00000 firmware.bin`
+To start managing your USB serial-connected device using picocom, use the following command:
+    - `picocom -b 115200 /dev/ttyUSB0 --imap lfcrlf`

-If flashing a visual studio code build bin file, flash with the following offset:
-`esptool.py -p /dev/ttyUSB0 --chip esp32-s3 write_flash 0x10000 firmware.bin`
+From here, reference repeater and room server command line commands on MeshCore github wiki here: 
+    - https://github.com/meshcore-dev/MeshCore/wiki/Repeater-&-Room-Server-CLI-Reference

-For Pi
-Download the zip from the online flasher website and use the following command:
-
-Note: Requires adafruit-nrfutil command which can be installed as follows.
-`pip install adafruit-nrfutil --break-system-packages`
-
-```
-adafruit-nrfutil --verbose dfu serial --package t1000_e_bootloader-0.9.1-5-g488711a_s140_7.3.0.zip -p /dev/ttyACM0 -b 115200 --singlebank --touch 1200
-```
-
-[Source](https://discord.com/channels/826570251612323860/1330643963501351004/1342120825251299388)
  
 ### 5.14. Q: Are there are projects built around MeshCore?

@@ -533,10 +600,58 @@ You can get the epoch time on <https://www.epochconverter.com/> and use it to se

 **A:** Heltec V3 has a very small coil antenna on its PCB for Wi-Fi and Bluetooth connectivity.  It has a very short range, only a few feet.  It is possible to remove the coil antenna  and replace it with a 31mm wire.  The BT range is much improved with the modification.

+### 6.6. Q: My RAK/T1000-E/xiao_nRF52 device seems to be corrupted, how do I wipe it clean to start fresh?
+
+**A:** 
+1. Connect USB-C cable to your device, per your device's instruction, get it to flash mode:
+    - For RAK, click the reset button **TWICE**
+    - For T1000-e, quickly disconnect and reconnect the magnetic side of the cable from the device **TWICE**
+    - For Heltec T114, click the reset button **TWICE** (the bottom button)
+    - For Xiao nRF52, click the reset button once.  If that doesn't work, quickly double click the reset button twice.  If that doesn't work, disconnection the board from your PC and reconnect again ([seeed studio wiki](https://wiki.seeedstudio.com/XIAO_BLE/#access-the-swd-pins-for-debugging-and-reflashing-bootloader))
+5. A new folder will appear on your computer's desktop
+6. Download the `flash_erase*.uf2` file for your device on flasher.meshcore.co.uk 
+    - RAK WisBlock and Heltec T114: `Flash_erase-nRF32_softdevice_v6.uf2`
+    - Seeed Studio Xiao nRF52 WIO: `Flash_erase-nRF52_softdevice_v7.uf2`
+8. drag and drop the uf2 file for your device to the root of the new folder
+9. Wait for the copy to complete.  You might get an error dialog, you can ignore it
+10. Go to https://flasher.meshcore.co.uk/, click `Console` and select the serial port for your connected device 
+11. In the console, press enter.  Your flash should now be erased
+12. You may now flash the latest MeshCore firmware onto your device
+
+Separately, starting in firmware version 1.7.0, there is a CLI Rescue mode.  If your device has a user button (e.g. some RAK, T114), you can activate the rescue mode by hold down the user button of the device within 8 seconds of boot.  Then you can use the 'Console' on flasher.meshcore.co.uk 
+
+
+### 6.7. Q: WebFlasher fails on Linux with failed to open
+
+**A:** If the usb port doesn't have the right ownership for this task, the process fails with the following error:
+`NetworkError: Failed to execute 'open' on 'SerialPort': Failed to open serial port.`
+
+Allow the browser user on it:
+`# setfacl -m u:YOUR_USER_HERE:rw /dev/ttyUSB0`
+
 ---
 ## 7. Other Questions:

-### 7.2 Q: How to update ESP32-based devices over the air?
+### 7.1. Q: How to update nRF (RAK, T114, Seed XIAO) repeater and room server firmware over the air using the new simpler DFU app?
+
+**A:** The steps below work on both Android and iOS as nRF has made both apps' user interface the same on both platforms:
+
+1. Download nRF's DFU app from iOS App Store or Android's Play Store, you can find the app by searching for `nrf dfu`, the app's full name is `nRF Device Firmware Update`
+2. On flasher.meshcore.co.uk, download the **ZIP** version of the firmware for your nRF device (e.g. RAK or Heltec T114 or Seeed Studio's Xiao)
+3. From the MeshCore app, login remotely to the repeater you want to update with admin priviledge
+4. Go to the Command Line tab, type `start ota` and hit enter.
+5. you should see `OK` to confirm the repeater device is now in OTA mode
+6. Run the DFU app,tab `Settings` on the top right corner
+7. Enable `Packets receipt notifications`, and change `Number of Packets` to 10 for RAK, 8 for T114.  8 also works for RAK.  
+9. Select the firmware zip file you downloaded
+10. Select the device you want to update. If the device you want to updat is not on the list, try enabling`OTA` on the device again
+11. If the device is not found, enable `Force Scanning` in the DFU app
+12. Tab the `Upload` to begin OTA update
+13. If it fails, try turning off and on Bluetooth on your phone.  If that doesn't work, try rebooting your phone.  
+14. Wait for the update to complete.  It can take a few minutes.
+
+
+### 7.2. Q: How to update ESP32-based devices over the air?

 **A:** For ESP32-based devices (e.g. Heltec V3):
 1. On flasher.meshcore.co.uk, download the **non-merged** version of the firmware for your ESP32 device (e.g. `Heltec_v3_repeater-v1.6.2-4449fd3.bin`, no `"merged"` in the file name)
@@ -548,22 +663,41 @@ You can get the epoch time on <https://www.epochconverter.com/> and use it to se
 8. From a browser, go to http://192.168.4.1/update and upload the non-merged bin from the flasher


-### 7.1 Q: How to update nRF (RAK, T114, Seed XIAO) repeater and room server firmware over the air using the new simpler DFU app?
+### 7.3. Q: Is there a way to lower the chance of a failed OTA device firmware update (DFU)?

-**A:** The steps below work on both Android and iOS as nRF has made both apps' user interface the same on both platforms:
+**A:** Yes, developer `che aporeps` has an enhanced OTA DFU bootloader for nRF52 based devices.  With this bootloader, if it detects that the application firmware is invalid, it falls back to OTA DFU mode so you can attempt to flash again to recover.  This bootloader has other changes to make the OTA DFU process more fault tolerant. 

-1. Download nRF's DFU app from iOS App Store or Android's Play Store, you can find the app by searching for `nrf dfu`, the app's full name is `nRF Device Firmware Update`
-2. On flasher.meshcore.co.uk, download the **ZIP** version of the firmware for your nRF device (e.g. RAK or Heltec T114 or Seeed Studio's Xiao)
-3. From the MeshCore app, login remotely to the repeater you want to update with admin priviledge
-4. Go to the Command Line tab, type `start ota` and hit enter.
-5. you should see `OK` to confirm the repeater device is now in OTA mode
-6. Run the DFU app,tab `Settings` on the top right corner
-7. Enable `Packets receipt notifications` and change `Number of Packets` to 10 for RAK, 8 for T114.  8 also works for RAK.  
-8. Select the firmware zip file you downloaded
-9. Select the device you want to update. If the device you want to updat is not on the list, try enabling`OTA` on the device again
-10. Tab the `Upload` to begin OTA update
-11. If it fails, try turning off and on Bluetooth on your phone.  If that doesn't work, try rebooting your phone.  
-12. Wait for the update to complete.  It can take a few minutes.
+Refer to https://github.com/oltaco/Adafruit_nRF52_Bootloader_OTAFIX for the latest information.

+Currently, the following boards are supported:
+- Nologo ProMicro
+- Seeed Studio XIAO nRF52840 BLE
+- Seeed Studio XIAO nRF52840 BLE SENSE
+- RAK 4631
+
+### 7.4. Q: are the MeshCore logo and font available?
+
+**A:** Yes, it is on the MeshCore github repo here: 
+https://github.com/meshcore-dev/MeshCore/tree/main/logo
+
+### 7.5. Q: What is the format of a contact or channel QR code?
+
+**A:**
+Channel:
+`meshcore://channel/add?name=<name>&secret=<secret>`
+
+Contact:
+`meshcore://contact/add?name=<name>&public_key=<secret>&type=<type>`
+
+where `&type` is:
+`chat = 1`
+`repeater = 2`
+`room = 3`
+`sensor = 4`
+
+### 7.6. Q: How do I connect to the comnpanion via WIFI, e.g. using a heltec v3?
+ **A:** 
+WiFi firmware requires you to compile it yourself, as you need to set the wifi ssid and password.
+Edit WIFI_SSID and WIFI_PWD in `./variants/heltec_v3/platformio.ini` and then flash it to your device.

 ---
--- a/docs/packet_structure.md
+++ b/docs/packet_structure.md
@@ -1,30 +1,33 @@
 # Packet Structure

-| Field    | Size (bytes)                     | Description                                               |
-|----------|----------------------------------|-----------------------------------------------------------|
-| header   | 1                                | Contains routing type, payload type, and payload version. |
-| path_len | 1                                | Length of the path field in bytes.                        |
-| path     | up to 64 (`MAX_PATH_SIZE`)       | Stores the routing path if applicable.                    |
-| payload  | up to 184 (`MAX_PACKET_PAYLOAD`) | The actual data being transmitted.                        |
+| Field           | Size (bytes)                     | Description                                               |
+|-----------------|----------------------------------|-----------------------------------------------------------|
+| header          | 1                                | Contains routing type, payload type, and payload version. |
+| transport_codes | 4 (optional)                     | 2x 16-bit transport codes (if ROUTE_TYPE_TRANSPORT_*)     |
+| path_len        | 1                                | Length of the path field in bytes.                        |
+| path            | up to 64 (`MAX_PATH_SIZE`)       | Stores the routing path if applicable.                    |
+| payload         | up to 184 (`MAX_PACKET_PAYLOAD`) | The actual data being transmitted.                        |

 Note: see the [payloads doc](./payloads.md) for more information about the content of payload.

 ## Header Breakdown

+bit 0 means the lowest bit (1s place)
+
 | Bits  | Mask   | Field           | Description                                   |
 |-------|--------|-----------------|-----------------------------------------------|
 | 0-1   | `0x03` | Route Type      | Flood, Direct, Reserved - see below.          |
-| 2-5   | `0x0F` | Payload Type    | Request, Response, ACK, etc. - see below.     |
-| 6-7   | `0x03` | Payload Version | Versioning of the payload format - see below. |
+| 2-5   | `0x3C` | Payload Type    | Request, Response, ACK, etc. - see below.     |
+| 6-7   | `0xC0` | Payload Version | Versioning of the payload format - see below. |

 ## Route Type Values

-| Value  | Name                   | Description                          |
-|--------|------------------------|--------------------------------------|
-| `0x00` | `ROUTE_TYPE_RESERVED1` | Reserved for future use.             |
-| `0x01` | `ROUTE_TYPE_FLOOD`     | Flood routing mode (builds up path). |
-| `0x02` | `ROUTE_TYPE_DIRECT`    | Direct route (path is supplied).     |
-| `0x03` | `ROUTE_TYPE_RESERVED2` | Reserved for future use.             |
+| Value  | Name                          | Description                          |
+|--------|-------------------------------|--------------------------------------|
+| `0x00` | `ROUTE_TYPE_TRANSPORT_FLOOD`  | Flood routing mode + transport codes |
+| `0x01` | `ROUTE_TYPE_FLOOD`            | Flood routing mode (builds up path). |
+| `0x02` | `ROUTE_TYPE_DIRECT`           | Direct route (path is supplied).     |
+| `0x03` | `ROUTE_TYPE_TRANSPORT_DIRECT` | direct route + transport codes       |

 ## Payload Type Values

@@ -39,6 +42,8 @@ Note: see the [payloads doc](./payloads.md) for more information about the conte
 | `0x06` | `PAYLOAD_TYPE_GRP_DATA`   | Group datagram (unverified).                  |
 | `0x07` | `PAYLOAD_TYPE_ANON_REQ`   | Anonymous request.                            |
 | `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.      |
 | `0x0F` | `PAYLOAD_TYPE_RAW_CUSTOM` | Custom packet (raw bytes, custom encryption). |

 ## Payload Version Values
--- a/docs/payloads.md
+++ b/docs/payloads.md
@@ -1,25 +1,32 @@
 # Meshcore payloads
 Inside of each [meshcore packet](./packet_structure.md) is a payload, identified by the payload type in the packet header. The types of payloads are:

+* Node advertisement.
+* Acknowledgment.
+* Returned path.
 * Request (destination/source hashes + MAC).
 * Response to REQ or ANON_REQ.
 * Plain text message.
-* Acknowledgment.
-* Node advertisement.
+* Anonymous request.
 * Group text message (unverified).
 * Group datagram (unverified).
-* Anonymous request.
-* Returned path.
+* Multi-part packet
 * Custom packet (raw bytes, custom encryption).

-This document defines the structure of each of these payload types
+This document defines the structure of each of these payload types.
+
+NOTE: all 16 and 32-bit integer fields are Little Endian.
+
+## Important concepts:
+
+* Node hash: the first byte of the node's public key

 # Node advertisement
 This kind of payload notifies receivers that a node exists, and gives information about the node

 | Field         | Size (bytes)    | Description                                              |
 |---------------|-----------------|----------------------------------------------------------|
-| public key    | 32              | Ed25519 public key                                       |
+| public key    | 32              | Ed25519 public key of the node                           |
 | timestamp     | 4               | unix timestamp of advertisement                          |
 | signature     | 64              | Ed25519 signature of public key, timestamp, and app data |
 | appdata       | rest of payload | optional, see below                                      |
@@ -29,28 +36,38 @@ Appdata
 | Field         | Size (bytes)    | Description                                           |
 |---------------|-----------------|-------------------------------------------------------|
 | flags         | 1               | specifies which of the fields are present, see below  |
-| latitude      | 4               | decimal latitude multiplied by 1000000, integer       |
-| longitude     | 4               | decimal longitude multiplied by 1000000, integer      |
-| feature 1     | 2               | reserved for future use                               |
-| feature 2     | 2               | reserved for future use                               |
+| latitude      | 4 (optional)    | decimal latitude multiplied by 1000000, integer       |
+| longitude     | 4 (optional)    | decimal longitude multiplied by 1000000, integer      |
+| feature 1     | 2  (optional)   | reserved for future use                               |
+| feature 2     | 2  (optional)   | reserved for future use                               |
 | name          | rest of appdata | name of the node                                      |

 Appdata Flags

-| Value  | Name      | Description                           |
-|--------|-----------|---------------------------------------|
-| `0x10` | location  | appdata contains lat/long information |
-| `0x20` | feature 1 | Reserved for future use.              |
-| `0x40` | feature 2 | Reserved for future use.              |
-| `0x80` | name      | appdata contains a node name          |
+| Value  | Name           | Description                           |
+|--------|----------------|---------------------------------------|
+| `0x01` | is chat node   | advert is for a chat node             |
+| `0x02` | is repeater    | advert is for a repeater              |
+| `0x03` | is room server | advert is for a room server           |
+| `0x04` | is sensor      | advert is for a sensor server         |
+| `0x10` | has location   | appdata contains lat/long information |
+| `0x20` | has feature 1  | Reserved for future use.              |
+| `0x40` | has feature 2  | Reserved for future use.              |
+| `0x80` | has name       | appdata contains a node name          |

 # 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 ackowledgement. CLI commands do not require an acknowledgement, neither discrete nor extra.
+
 | Field    | Size (bytes) | Description                                                |
 |----------|--------------|------------------------------------------------------------|
 | checksum | 4            | CRC checksum of message timestamp, text, and sender pubkey |


 # Returned path, request, response, and plain text message
+
+Returned path, request, response, and plain text messages are all formatted in the same way. See the subsection for more details about the ciphertext's associated plaintext representation.
+
 | Field            | Size (bytes)    | Description                                          |
 |------------------|-----------------|------------------------------------------------------|
 | destination hash | 1               | first byte of destination node public key            |
@@ -60,11 +77,13 @@ Appdata Flags

 ## Returned path

+Returned path messages provide a description of the route a packet took from the original author. Receivers will send returned path messages to the author of the original message.
+
 | Field       | Size (bytes) | Description                                                                                  |
 |-------------|--------------|----------------------------------------------------------------------------------------------|
 | path length | 1            | length of next field                                                                         |
-| path        | see above    | a list of node hashes (one byte each) describing the route from us to the packet author      |
-| extra type  | 1            | extra, bundled payload type, eg., acknowledgement or response. See packet structure spec     |
+| path        | see above    | a list of node hashes (one byte each) |
+| extra type  | 1            | extra, bundled payload type, eg., acknowledgement or response. Same values as in [packet structure](./packet_structure.md) |
 | extra       | rest of data | extra, bundled payload content, follows same format as main content defined by this document |

 ## Request
@@ -77,13 +96,15 @@ Appdata Flags

 Request type

-| Value  | Name               | Description                           |
-|--------|--------------------|---------------------------------------|
-| `0x01` | get status         | get status of repeater or room server |
-| `0x02` | keepalive          | TODO |
-| `0x03` | get telemetry data | TODO |
+| Value  | Name                 | Description                           |
+|--------|----------------------|---------------------------------------|
+| `0x01` | get stats            | get stats of repeater or room server  |
+| `0x02` | keepalive            | (deprecated) |
+| `0x03` | get telemetry data   | TODO |
+| `0x04` | get min,max,avg data | sensor nodes - get min, max, average for given time span |
+| `0x05` | get access list      | get node's approved access list       |

-### Get status
+### Get stats

 Gets information about the node, possibly including the following:

@@ -106,10 +127,6 @@ Gets information about the node, possibly including the following:
 * Number posted (?)
 * Number of post pushes (?)

-### Keepalive
-
-No-op request.
-
 ### Get telemetry data

 Request data about sensors on the node, including battery level.
@@ -123,11 +140,11 @@ Request data about sensors on the node, including battery level.

 ## Plain text message

-| Field        | Size (bytes)    | Description                                                  |
-|--------------|-----------------|--------------------------------------------------------------|
-| timestamp    | 4               | send time (unix timestamp)                                   |
-| flags + TODO | 1               | first six bits are flags (see below), last two bits are TODO |
-| message      | rest of payload | the message content, see next table                          |
+| Field           | Size (bytes)    | Description                                                  |
+|-----------------|-----------------|--------------------------------------------------------------|
+| timestamp       | 4               | send time (unix timestamp)                                   |
+| flags + attempt | 1               | upper six bits are flags (see below), lower two bits are attempt number (0..3) |
+| message         | rest of payload | the message content, see next table                          |

 Flags

@@ -135,7 +152,7 @@ Flags
 |--------|---------------------------|------------------------------------------------------------|
 | `0x00` | plain text message        | the plain text of the message                              |
 | `0x01` | CLI command               | the command text of the message                            |
-| `0x02` | signed plain text message | two bytes of sender prefix, followed by plain text message |
+| `0x02` | signed plain text message | first four bytes is sender pubkey prefix, followed by plain text message |

 # Anonymous request

@@ -151,23 +168,19 @@ Plaintext message
 | Field          | Size (bytes)    | Description                                                                   |
 |----------------|-----------------|-------------------------------------------------------------------------------|
 | timestamp      | 4               | send time (unix timestamp)                                                    |
-| sync timestamp | 4               | for room server, otherwise absent: sender's "sync messages SINCE x" timestamp |
+| sync timestamp | 4               | NOTE: room server only! - sender's "sync messages SINCE x" timestamp |
 | password       | rest of message | password for repeater/room                                                    |

 # Group text message / datagram

-| Field        | Size (bytes)    | Description                              |
-|--------------|-----------------|------------------------------------------|
-| channel hash | 1               | TODO                                     | 
-| cipher MAC   | 2               | MAC for encrypted data in next field     |
-| ciphertext   | rest of payload | encrypted message, see below for details |
+| Field        | Size (bytes)    | Description                                |
+|--------------|-----------------|--------------------------------------------|
+| channel hash | 1               | first byte of SHA256 of channel's shared key  |
+| cipher MAC   | 2               | MAC for encrypted data in next field       |
+| ciphertext   | rest of payload | encrypted message, see below for details   |

-Plaintext for text 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`).

-| Field     | Size (bytes)    | Description                      |
-|-----------|-----------------|----------------------------------|
-| timestamp | 4               | send time (unix timestamp)       |
-| content   | rest of message | plain group text message content |

 TODO: describe what datagram looks like

--- a/examples/companion_radio/AbstractUITask.h
+++ b/examples/companion_radio/AbstractUITask.h
@@ -0,0 +1,46 @@
+#pragma once
+
+#include <MeshCore.h>
+#include <helpers/ui/DisplayDriver.h>
+#include <helpers/ui/UIScreen.h>
+#include <helpers/SensorManager.h>
+#include <helpers/BaseSerialInterface.h>
+#include <Arduino.h>
+
+#ifdef PIN_BUZZER
+  #include <helpers/ui/buzzer.h>
+#endif
+
+#include "NodePrefs.h"
+
+enum class UIEventType {
+    none,
+    contactMessage,
+    channelMessage,
+    roomMessage,
+    newContactMessage,
+    ack
+};
+
+class AbstractUITask {
+protected:
+  mesh::MainBoard* _board;
+  BaseSerialInterface* _serial;
+  bool _connected;
+
+  AbstractUITask(mesh::MainBoard* board, BaseSerialInterface* serial) : _board(board), _serial(serial) {
+    _connected = false;
+  }
+
+public:
+  void setHasConnection(bool connected) { _connected = connected; }
+  bool hasConnection() const { return _connected; }
+  uint16_t getBattMilliVolts() const { return _board->getBattMilliVolts(); }
+  bool isSerialEnabled() const { return _serial->isEnabled(); }
+  void enableSerial() { _serial->enable(); }
+  void disableSerial() { _serial->disable(); }
+  virtual void msgRead(int msgcount) = 0;
+  virtual void newMsg(uint8_t path_len, const char* from_name, const char* text, int msgcount) = 0;
+  virtual void soundBuzzer(UIEventType bet = UIEventType::none) = 0;
+  virtual void loop() = 0;
+};
--- a/examples/companion_radio/DataStore.cpp
+++ b/examples/companion_radio/DataStore.cpp
@@ -40,8 +40,59 @@ void DataStore::begin() {
  #include <SPIFFS.h>
 #elif defined(RP2040_PLATFORM)
  #include <LittleFS.h>
+#elif defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+  #include <InternalFileSystem.h>
 #endif

+#if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+int _countLfsBlock(void *p, lfs_block_t block){
+  lfs_size_t *size = (lfs_size_t*) p;
+  *size += 1;
+  return 0;
+}
+
+lfs_ssize_t _getLfsUsedBlockCount() {
+  lfs_size_t size = 0;
+  lfs_traverse(InternalFS._getFS(), _countLfsBlock, &size);
+  return size;
+}
+#endif
+
+uint32_t DataStore::getStorageUsedKb() const {
+#if defined(ESP32)
+  return SPIFFS.usedBytes() / 1024;
+#elif defined(RP2040_PLATFORM)
+  FSInfo info;
+  info.usedBytes = 0;
+  _fs->info(info);
+  return info.usedBytes / 1024;
+#elif defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+  const lfs_config* config = InternalFS._getFS()->cfg;
+  int usedBlockCount = _getLfsUsedBlockCount();
+  int usedBytes = config->block_size * usedBlockCount;
+  return usedBytes / 1024;
+#else
+  return 0;
+#endif
+}
+
+uint32_t DataStore::getStorageTotalKb() const {
+#if defined(ESP32)
+  return SPIFFS.totalBytes() / 1024;
+#elif defined(RP2040_PLATFORM)
+  FSInfo info;
+  info.totalBytes = 0;
+  _fs->info(info);
+  return info.totalBytes / 1024;
+#elif defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+  const lfs_config* config = InternalFS._getFS()->cfg;
+  int totalBytes = config->block_size * config->block_count;
+  return totalBytes / 1024;
+#else
+  return 0;
+#endif
+}
+
 File DataStore::openRead(const char* filename) {
 #if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
  return _fs->open(filename, FILE_O_READ);
@@ -103,7 +154,7 @@ void DataStore::loadPrefsInt(const char *filename, NodePrefs& _prefs, double& no
    file.read((uint8_t *)&_prefs.freq, sizeof(_prefs.freq));                               // 56
    file.read((uint8_t *)&_prefs.sf, sizeof(_prefs.sf));                                   // 60
    file.read((uint8_t *)&_prefs.cr, sizeof(_prefs.cr));                                   // 61
-    file.read((uint8_t *)&_prefs.reserved1, sizeof(_prefs.reserved1));                     // 62
+    file.read(pad, 1);                                                                     // 62
    file.read((uint8_t *)&_prefs.manual_add_contacts, sizeof(_prefs.manual_add_contacts)); // 63
    file.read((uint8_t *)&_prefs.bw, sizeof(_prefs.bw));                                   // 64
    file.read((uint8_t *)&_prefs.tx_power_dbm, sizeof(_prefs.tx_power_dbm));               // 68
@@ -111,7 +162,9 @@ void DataStore::loadPrefsInt(const char *filename, NodePrefs& _prefs, double& no
    file.read((uint8_t *)&_prefs.telemetry_mode_loc, sizeof(_prefs.telemetry_mode_loc));   // 70
    file.read((uint8_t *)&_prefs.telemetry_mode_env, sizeof(_prefs.telemetry_mode_env));   // 71
    file.read((uint8_t *)&_prefs.rx_delay_base, sizeof(_prefs.rx_delay_base));             // 72
-    file.read(pad, 4);                                                                     // 76
+    file.read((uint8_t *)&_prefs.advert_loc_policy, sizeof(_prefs.advert_loc_policy));     // 76
+    file.read((uint8_t *)&_prefs.multi_acks, sizeof(_prefs.multi_acks));                   // 77
+    file.read(pad, 2);                                                                     // 78
    file.read((uint8_t *)&_prefs.ble_pin, sizeof(_prefs.ble_pin));                         // 80

    file.close();
@@ -132,7 +185,7 @@ void DataStore::savePrefs(const NodePrefs& _prefs, double node_lat, double node_
    file.write((uint8_t *)&_prefs.freq, sizeof(_prefs.freq));                               // 56
    file.write((uint8_t *)&_prefs.sf, sizeof(_prefs.sf));                                   // 60
    file.write((uint8_t *)&_prefs.cr, sizeof(_prefs.cr));                                   // 61
-    file.write((uint8_t *)&_prefs.reserved1, sizeof(_prefs.reserved1));                     // 62
+    file.write(pad, 1);                                                                     // 62
    file.write((uint8_t *)&_prefs.manual_add_contacts, sizeof(_prefs.manual_add_contacts)); // 63
    file.write((uint8_t *)&_prefs.bw, sizeof(_prefs.bw));                                   // 64
    file.write((uint8_t *)&_prefs.tx_power_dbm, sizeof(_prefs.tx_power_dbm));               // 68
@@ -140,7 +193,9 @@ void DataStore::savePrefs(const NodePrefs& _prefs, double node_lat, double node_
    file.write((uint8_t *)&_prefs.telemetry_mode_loc, sizeof(_prefs.telemetry_mode_loc));   // 70
    file.write((uint8_t *)&_prefs.telemetry_mode_env, sizeof(_prefs.telemetry_mode_env));   // 71
    file.write((uint8_t *)&_prefs.rx_delay_base, sizeof(_prefs.rx_delay_base));             // 72
-    file.write(pad, 4);                                                                     // 76
+    file.write((uint8_t *)&_prefs.advert_loc_policy, sizeof(_prefs.advert_loc_policy));     // 76
+    file.write((uint8_t *)&_prefs.multi_acks, sizeof(_prefs.multi_acks));                   // 77
+    file.write(pad, 2);                                                                     // 78
    file.write((uint8_t *)&_prefs.ble_pin, sizeof(_prefs.ble_pin));                         // 80

    file.close();
--- a/examples/companion_radio/DataStore.h
+++ b/examples/companion_radio/DataStore.h
@@ -39,4 +39,6 @@ public:
  bool putBlobByKey(const uint8_t key[], int key_len, const uint8_t src_buf[], uint8_t len);
  File openRead(const char* filename);
  bool removeFile(const char* filename);
+  uint32_t getStorageUsedKb() const;
+  uint32_t getStorageTotalKb() const;
 };
--- a/examples/companion_radio/MyMesh.cpp
+++ b/examples/companion_radio/MyMesh.cpp
@@ -22,7 +22,7 @@
 #define CMD_EXPORT_CONTACT            17
 #define CMD_IMPORT_CONTACT            18
 #define CMD_REBOOT                    19
-#define CMD_GET_BATTERY_VOLTAGE       20
+#define CMD_GET_BATT_AND_STORAGE      20   // was CMD_GET_BATTERY_VOLTAGE
 #define CMD_SET_TUNING_PARAMS         21
 #define CMD_DEVICE_QEURY              22
 #define CMD_EXPORT_PRIVATE_KEY        23
@@ -41,9 +41,15 @@
 #define CMD_SEND_TRACE_PATH           36
 #define CMD_SET_DEVICE_PIN            37
 #define CMD_SET_OTHER_PARAMS          38
-#define CMD_SEND_TELEMETRY_REQ        39
+#define CMD_SEND_TELEMETRY_REQ        39  // can deprecate this
 #define CMD_GET_CUSTOM_VARS           40
 #define CMD_SET_CUSTOM_VAR            41
+#define CMD_GET_ADVERT_PATH           42
+#define CMD_GET_TUNING_PARAMS         43
+// NOTE: CMD range 44..49 parked, potentially for WiFi operations
+#define CMD_SEND_BINARY_REQ           50
+#define CMD_FACTORY_RESET             51
+#define CMD_SEND_PATH_DISCOVERY_REQ   52

 #define RESP_CODE_OK                  0
 #define RESP_CODE_ERR                 1
@@ -57,7 +63,7 @@
 #define RESP_CODE_CURR_TIME           9  // a reply to CMD_GET_DEVICE_TIME
 #define RESP_CODE_NO_MORE_MESSAGES    10 // a reply to CMD_SYNC_NEXT_MESSAGE
 #define RESP_CODE_EXPORT_CONTACT      11
-#define RESP_CODE_BATTERY_VOLTAGE     12 // a reply to a CMD_GET_BATTERY_VOLTAGE
+#define RESP_CODE_BATT_AND_STORAGE    12 // a reply to a CMD_GET_BATT_AND_STORAGE
 #define RESP_CODE_DEVICE_INFO         13 // a reply to CMD_DEVICE_QEURY
 #define RESP_CODE_PRIVATE_KEY         14 // a reply to CMD_EXPORT_PRIVATE_KEY
 #define RESP_CODE_DISABLED            15
@@ -67,6 +73,8 @@
 #define RESP_CODE_SIGN_START          19
 #define RESP_CODE_SIGNATURE           20
 #define RESP_CODE_CUSTOM_VARS         21
+#define RESP_CODE_ADVERT_PATH         22
+#define RESP_CODE_TUNING_PARAMS       23

 #define SEND_TIMEOUT_BASE_MILLIS        500
 #define FLOOD_SEND_TIMEOUT_FACTOR       16.0f
@@ -89,6 +97,8 @@
 #define PUSH_CODE_TRACE_DATA            0x89
 #define PUSH_CODE_NEW_ADVERT            0x8A
 #define PUSH_CODE_TELEMETRY_RESPONSE    0x8B
+#define PUSH_CODE_BINARY_RESPONSE       0x8C
+#define PUSH_CODE_PATH_DISCOVERY_RESPONSE 0x8D

 #define ERR_CODE_UNSUPPORTED_CMD        1
 #define ERR_CODE_NOT_FOUND              2
@@ -99,10 +109,6 @@

 #define MAX_SIGN_DATA_LEN               (8 * 1024) // 8K

-#ifdef DISPLAY_CLASS
-#include "UITask.h"
-#endif
-
 void MyMesh::writeOKFrame() {
  uint8_t buf[1];
  buf[0] = RESP_CODE_OK;
@@ -144,7 +150,7 @@ void MyMesh::writeContactRespFrame(uint8_t code, const ContactInfo &contact) {
  _serial->writeFrame(out_frame, i);
 }

-void MyMesh::updateContactFromFrame(ContactInfo &contact, const uint8_t *frame, int len) {
+void MyMesh::updateContactFromFrame(ContactInfo &contact, uint32_t& last_mod, const uint8_t *frame, int len) {
  int i = 0;
  uint8_t code = frame[i++]; // eg. CMD_ADD_UPDATE_CONTACT
  memcpy(contact.id.pub_key, &frame[i], PUB_KEY_SIZE);
@@ -158,11 +164,14 @@ void MyMesh::updateContactFromFrame(ContactInfo &contact, const uint8_t *frame,
  i += 32;
  memcpy(&contact.last_advert_timestamp, &frame[i], 4);
  i += 4;
-  if (i + 8 >= len) { // optional fields
+  if (len >= i + 8) { // optional fields
    memcpy(&contact.gps_lat, &frame[i], 4);
    i += 4;
    memcpy(&contact.gps_lon, &frame[i], 4);
    i += 4;
+    if (len >= i + 4) {
+      memcpy(&last_mod, &frame[i], 4);
+    }
  }
 }

@@ -202,6 +211,10 @@ int MyMesh::calcRxDelay(float score, uint32_t air_time) const {
  return (int)((pow(_prefs.rx_delay_base, 0.85f - score) - 1.0) * air_time);
 }

+uint8_t MyMesh::getExtraAckTransmitCount() const {
+  return _prefs.multi_acks;
+}
+
 void MyMesh::logRxRaw(float snr, float rssi, const uint8_t raw[], int len) {
  if (_serial->isConnected() && len + 3 <= MAX_FRAME_SIZE) {
    int i = 0;
@@ -219,7 +232,7 @@ bool MyMesh::isAutoAddEnabled() const {
  return (_prefs.manual_add_contacts & 1) == 0;
 }

-void MyMesh::onDiscoveredContact(ContactInfo &contact, bool is_new) {
+void MyMesh::onDiscoveredContact(ContactInfo &contact, bool is_new, uint8_t path_len, const uint8_t* path) {
  if (_serial->isConnected()) {
    if (!isAutoAddEnabled() && is_new) {
      writeContactRespFrame(PUSH_CODE_NEW_ADVERT, contact);
@@ -230,13 +243,49 @@ void MyMesh::onDiscoveredContact(ContactInfo &contact, bool is_new) {
    }
  } else {
 #ifdef DISPLAY_CLASS
-    ui_task.soundBuzzer(UIEventType::newContactMessage);
+    if (_ui) _ui->soundBuzzer(UIEventType::newContactMessage);
 #endif
  }

+  // add inbound-path to mem cache
+  if (path && path_len <= sizeof(AdvertPath::path)) {  // check path is valid
+    AdvertPath* p = advert_paths;
+    uint32_t oldest = 0xFFFFFFFF;
+    for (int i = 0; i < ADVERT_PATH_TABLE_SIZE; i++) {   // check if already in table, otherwise evict oldest
+      if (memcmp(advert_paths[i].pubkey_prefix, contact.id.pub_key, sizeof(AdvertPath::pubkey_prefix)) == 0) {
+        p = &advert_paths[i];   // found
+        break;
+      }
+      if (advert_paths[i].recv_timestamp < oldest) {
+        oldest = advert_paths[i].recv_timestamp;
+        p = &advert_paths[i];
+      }
+    }
+
+    memcpy(p->pubkey_prefix, contact.id.pub_key, sizeof(p->pubkey_prefix));
+    strcpy(p->name, contact.name);
+    p->recv_timestamp = getRTCClock()->getCurrentTime();
+    p->path_len = path_len;
+    memcpy(p->path, path, p->path_len);
+  }
+
  dirty_contacts_expiry = futureMillis(LAZY_CONTACTS_WRITE_DELAY);
 }

+static int sort_by_recent(const void *a, const void *b) {
+  return ((AdvertPath *) b)->recv_timestamp - ((AdvertPath *) a)->recv_timestamp;
+}
+
+int MyMesh::getRecentlyHeard(AdvertPath dest[], int max_num) {
+  if (max_num > ADVERT_PATH_TABLE_SIZE) max_num = ADVERT_PATH_TABLE_SIZE;
+  qsort(advert_paths, ADVERT_PATH_TABLE_SIZE, sizeof(advert_paths[0]), sort_by_recent);
+
+  for (int i = 0; i < max_num; i++) {
+    dest[i] = advert_paths[i];
+  }
+  return max_num;
+}
+
 void MyMesh::onContactPathUpdated(const ContactInfo &contact) {
  out_frame[0] = PUSH_CODE_PATH_UPDATED;
  memcpy(&out_frame[1], contact.id.pub_key, PUB_KEY_SIZE);
@@ -296,13 +345,17 @@ void MyMesh::queueMessage(const ContactInfo &from, uint8_t txt_type, mesh::Packe
    uint8_t frame[1];
    frame[0] = PUSH_CODE_MSG_WAITING; // send push 'tickle'
    _serial->writeFrame(frame, 1);
-  } else {
-#ifdef DISPLAY_CLASS
-    ui_task.soundBuzzer(UIEventType::contactMessage);
-#endif
  }
+
 #ifdef DISPLAY_CLASS
-  ui_task.newMsg(path_len, from.name, text, offline_queue_len);
+  // we only want to show text messages on display, not cli data
+  bool should_display = txt_type == TXT_TYPE_PLAIN || txt_type == TXT_TYPE_SIGNED_PLAIN;
+  if (should_display && _ui) {
+    _ui->newMsg(path_len, from.name, text, offline_queue_len);
+    if (!_serial->isConnected()) {
+      _ui->soundBuzzer(UIEventType::contactMessage);
+    }
+  }
 #endif
 }

@@ -359,7 +412,7 @@ void MyMesh::onChannelMessageRecv(const mesh::GroupChannel &channel, mesh::Packe
    _serial->writeFrame(frame, 1);
  } else {
 #ifdef DISPLAY_CLASS
-    ui_task.soundBuzzer(UIEventType::channelMessage);
+    if (_ui) _ui->soundBuzzer(UIEventType::channelMessage);
 #endif
  }
 #ifdef DISPLAY_CLASS
@@ -369,7 +422,7 @@ void MyMesh::onChannelMessageRecv(const mesh::GroupChannel &channel, mesh::Packe
  if (getChannel(channel_idx, channel_details)) {
    channel_name = channel_details.name;
  }
-  ui_task.newMsg(path_len, channel_name, text, offline_queue_len);
+  if (_ui) _ui->newMsg(path_len, channel_name, text, offline_queue_len);
 #endif
 }

@@ -397,6 +450,9 @@ uint8_t MyMesh::onContactRequest(const ContactInfo &contact, uint32_t sender_tim
      permissions |= cp & TELEM_PERM_ENVIRONMENT;
    }

+    uint8_t perm_mask = ~(data[1]);    // NEW: first reserved byte (of 4), is now inverse mask to apply to permissions
+    permissions &= perm_mask;
+
    if (permissions & TELEM_PERM_BASE) { // only respond if base permission bit is set
      telemetry.reset();
      telemetry.addVoltage(TELEM_CHANNEL_SELF, (float)board.getBattMilliVolts() / 1000.0f);
@@ -439,6 +495,7 @@ void MyMesh::onContactResponse(const ContactInfo &contact, const uint8_t *data,
      i += 6; // pub_key_prefix
      memcpy(&out_frame[i], &tag, 4);
      i += 4; // NEW: include server timestamp
+      out_frame[i++] = data[7]; // NEW (v7): ACL permissions
    } else {
      out_frame[i++] = PUSH_CODE_LOGIN_FAIL;
      out_frame[i++] = 0; // reserved
@@ -461,7 +518,7 @@ void MyMesh::onContactResponse(const ContactInfo &contact, const uint8_t *data,
    memcpy(&out_frame[i], &data[4], len - 4);
    i += (len - 4);
    _serial->writeFrame(out_frame, i);
-  } else if (len > 4 && tag == pending_telemetry) { // check for telemetry response
+  } else if (len > 4 && tag == pending_telemetry) {  // check for matching response tag
    pending_telemetry = 0;

    int i = 0;
@@ -472,9 +529,53 @@ void MyMesh::onContactResponse(const ContactInfo &contact, const uint8_t *data,
    memcpy(&out_frame[i], &data[4], len - 4);
    i += (len - 4);
    _serial->writeFrame(out_frame, i);
+  } else if (len > 4 && tag == pending_req) {  // check for matching response tag
+    pending_req = 0;
+
+    int i = 0;
+    out_frame[i++] = PUSH_CODE_BINARY_RESPONSE;
+    out_frame[i++] = 0; // reserved
+    memcpy(&out_frame[i], &tag, 4);   // app needs to match this to RESP_CODE_SENT.tag
+    i += 4;
+    memcpy(&out_frame[i], &data[4], len - 4);
+    i += (len - 4);
+    _serial->writeFrame(out_frame, i);
  }
 }

+bool MyMesh::onContactPathRecv(ContactInfo& contact, uint8_t* in_path, uint8_t in_path_len, uint8_t* out_path, uint8_t out_path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len) {
+  if (extra_type == PAYLOAD_TYPE_RESPONSE && extra_len > 4) {
+    uint32_t tag;
+    memcpy(&tag, extra, 4);
+
+    if (tag == pending_discovery) {  // check for matching response tag)
+      pending_discovery = 0;
+
+      if (in_path_len > MAX_PATH_SIZE || out_path_len > MAX_PATH_SIZE) {
+        MESH_DEBUG_PRINTLN("onContactPathRecv, invalid path sizes: %d, %d", in_path_len, out_path_len);
+      } else {
+        int i = 0;
+        out_frame[i++] = PUSH_CODE_PATH_DISCOVERY_RESPONSE;
+        out_frame[i++] = 0; // reserved
+        memcpy(&out_frame[i], contact.id.pub_key, 6);
+        i += 6; // pub_key_prefix
+        out_frame[i++] = out_path_len;
+        memcpy(&out_frame[i], out_path, out_path_len);
+        i += out_path_len;
+        out_frame[i++] = in_path_len;
+        memcpy(&out_frame[i], in_path, in_path_len);
+        i += in_path_len;
+        // NOTE: telemetry data in 'extra' is discarded at present
+
+        _serial->writeFrame(out_frame, i);
+      }
+      return false;  // DON'T send reciprocal path!
+    }
+  }
+  // let base class handle received path and data
+  return BaseChatMesh::onContactPathRecv(contact, in_path, in_path_len, out_path, out_path_len, extra_type, extra, extra_len);
+}
+
 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);
@@ -530,17 +631,18 @@ uint32_t MyMesh::calcDirectTimeoutMillisFor(uint32_t pkt_airtime_millis, uint8_t

 void MyMesh::onSendTimeout() {}

-MyMesh::MyMesh(mesh::Radio &radio, mesh::RNG &rng, mesh::RTCClock &rtc, SimpleMeshTables &tables, DataStore& store)
+MyMesh::MyMesh(mesh::Radio &radio, mesh::RNG &rng, mesh::RTCClock &rtc, SimpleMeshTables &tables, DataStore& store, AbstractUITask* ui)
    : BaseChatMesh(radio, *new ArduinoMillis(), rng, rtc, *new StaticPoolPacketManager(16), tables),
-      _serial(NULL), telemetry(MAX_PACKET_PAYLOAD - 4), _store(&store) {
+      _serial(NULL), telemetry(MAX_PACKET_PAYLOAD - 4), _store(&store), _ui(ui) {
  _iter_started = false;
  _cli_rescue = false;
  offline_queue_len = 0;
  app_target_ver = 0;
-  pending_login = pending_status = pending_telemetry = 0;
+  clearPendingReqs();
  next_ack_idx = 0;
  sign_data = NULL;
  dirty_contacts_expiry = 0;
+  memset(advert_paths, 0, sizeof(advert_paths));

  // defaults
  memset(&_prefs, 0, sizeof(_prefs));
@@ -589,10 +691,10 @@ void MyMesh::begin(bool has_display) {
  _prefs.cr = constrain(_prefs.cr, 5, 8);
  _prefs.tx_power_dbm = constrain(_prefs.tx_power_dbm, 1, MAX_LORA_TX_POWER);

-#ifdef BLE_PIN_CODE
+#ifdef BLE_PIN_CODE // 123456 by default
  if (_prefs.ble_pin == 0) {
 #ifdef DISPLAY_CLASS
-    if (has_display) {
+    if (has_display && BLE_PIN_CODE == 123456) {
      StdRNG rng;
      _active_ble_pin = rng.nextInt(100000, 999999); // random pin each session
    } else {
@@ -608,6 +710,7 @@ void MyMesh::begin(bool has_display) {
  _active_ble_pin = 0;
 #endif

+  resetContacts();
  _store->loadContacts(this);
  addChannel("Public", PUBLIC_GROUP_PSK); // pre-configure Andy's public channel
  _store->loadChannels(this);
@@ -673,8 +776,8 @@ void MyMesh::handleCmdFrame(size_t len) {
    i += 4;
    memcpy(&out_frame[i], &lon, 4);
    i += 4;
-    out_frame[i++] = 0; // reserved
-    out_frame[i++] = 0; // reserved
+    out_frame[i++] = _prefs.multi_acks; // new v7+
+    out_frame[i++] = _prefs.advert_loc_policy;
    out_frame[i++] = (_prefs.telemetry_mode_env << 4) | (_prefs.telemetry_mode_loc << 2) |
                     (_prefs.telemetry_mode_base); // v5+
    out_frame[i++] = _prefs.manual_add_contacts;
@@ -816,7 +919,12 @@ void MyMesh::handleCmdFrame(size_t len) {
      writeErrFrame(ERR_CODE_ILLEGAL_ARG);
    }
  } else if (cmd_frame[0] == CMD_SEND_SELF_ADVERT) {
-    auto pkt = createSelfAdvert(_prefs.node_name, sensors.node_lat, sensors.node_lon);
+    mesh::Packet* pkt;
+    if (_prefs.advert_loc_policy == ADVERT_LOC_NONE) {
+      pkt = createSelfAdvert(_prefs.node_name);
+    } else {
+      pkt = createSelfAdvert(_prefs.node_name, sensors.node_lat, sensors.node_lon);
+    }
    if (pkt) {
      if (len >= 2 && cmd_frame[1] == 1) { // optional param (1 = flood, 0 = zero hop)
        sendFlood(pkt);
@@ -841,15 +949,16 @@ void MyMesh::handleCmdFrame(size_t len) {
  } else if (cmd_frame[0] == CMD_ADD_UPDATE_CONTACT && len >= 1 + 32 + 2 + 1) {
    uint8_t *pub_key = &cmd_frame[1];
    ContactInfo *recipient = lookupContactByPubKey(pub_key, PUB_KEY_SIZE);
+    uint32_t last_mod = getRTCClock()->getCurrentTime();  // fallback value if not present in cmd_frame
    if (recipient) {
-      updateContactFromFrame(*recipient, cmd_frame, len);
-      // recipient->lastmod = ??   shouldn't be needed, app already has this version of contact
+      updateContactFromFrame(*recipient, last_mod, cmd_frame, len);
+      recipient->lastmod = last_mod;
      dirty_contacts_expiry = futureMillis(LAZY_CONTACTS_WRITE_DELAY);
      writeOKFrame();
    } else {
      ContactInfo contact;
-      updateContactFromFrame(contact, cmd_frame, len);
-      contact.lastmod = getRTCClock()->getCurrentTime();
+      updateContactFromFrame(contact, last_mod, cmd_frame, len);
+      contact.lastmod = last_mod;
      contact.sync_since = 0;
      if (addContact(contact)) {
        dirty_contacts_expiry = futureMillis(LAZY_CONTACTS_WRITE_DELAY);
@@ -890,7 +999,12 @@ void MyMesh::handleCmdFrame(size_t len) {
  } else if (cmd_frame[0] == CMD_EXPORT_CONTACT) {
    if (len < 1 + PUB_KEY_SIZE) {
      // export SELF
-      auto pkt = createSelfAdvert(_prefs.node_name, sensors.node_lat, sensors.node_lon);
+      mesh::Packet* pkt;
+      if (_prefs.advert_loc_policy == ADVERT_LOC_NONE) {
+        pkt = createSelfAdvert(_prefs.node_name);
+      } else {
+        pkt = createSelfAdvert(_prefs.node_name, sensors.node_lat, sensors.node_lon);
+      }
      if (pkt) {
        pkt->header |= ROUTE_TYPE_FLOOD; // would normally be sent in this mode

@@ -923,7 +1037,7 @@ void MyMesh::handleCmdFrame(size_t len) {
    if ((out_len = getFromOfflineQueue(out_frame)) > 0) {
      _serial->writeFrame(out_frame, out_len);
 #ifdef DISPLAY_CLASS
-      ui_task.msgRead(offline_queue_len);
+      if (_ui) _ui->msgRead(offline_queue_len);
 #endif
    } else {
      out_frame[0] = RESP_CODE_NO_MORE_MESSAGES;
@@ -978,12 +1092,26 @@ void MyMesh::handleCmdFrame(size_t len) {
    _prefs.airtime_factor = ((float)af) / 1000.0f;
    savePrefs();
    writeOKFrame();
+  } else if (cmd_frame[0] == CMD_GET_TUNING_PARAMS) {
+    uint32_t rx = _prefs.rx_delay_base * 1000, af = _prefs.airtime_factor * 1000;
+    int i = 0;
+    out_frame[i++] = RESP_CODE_TUNING_PARAMS;
+    memcpy(&out_frame[i], &rx, 4); i += 4;
+    memcpy(&out_frame[i], &af, 4); i += 4;
+    _serial->writeFrame(out_frame, i);
  } else if (cmd_frame[0] == CMD_SET_OTHER_PARAMS) {
    _prefs.manual_add_contacts = cmd_frame[1];
    if (len >= 3) {
      _prefs.telemetry_mode_base = cmd_frame[2] & 0x03; // v5+
      _prefs.telemetry_mode_loc = (cmd_frame[2] >> 2) & 0x03;
      _prefs.telemetry_mode_env = (cmd_frame[2] >> 4) & 0x03;
+
+      if (len >= 4) {
+        _prefs.advert_loc_policy = cmd_frame[3];
+        if (len >= 5) {
+          _prefs.multi_acks = cmd_frame[4];
+        }
+      }
    }
    savePrefs();
    writeOKFrame();
@@ -992,12 +1120,17 @@ void MyMesh::handleCmdFrame(size_t len) {
      saveContacts();
    }
    board.reboot();
-  } else if (cmd_frame[0] == CMD_GET_BATTERY_VOLTAGE) {
-    uint8_t reply[3];
-    reply[0] = RESP_CODE_BATTERY_VOLTAGE;
+  } else if (cmd_frame[0] == CMD_GET_BATT_AND_STORAGE) {
+    uint8_t reply[11];
+    int i = 0;
+    reply[i++] = RESP_CODE_BATT_AND_STORAGE;
    uint16_t battery_millivolts = board.getBattMilliVolts();
-    memcpy(&reply[1], &battery_millivolts, 2);
-    _serial->writeFrame(reply, 3);
+    uint32_t used = _store->getStorageUsedKb();
+    uint32_t total = _store->getStorageTotalKb();
+    memcpy(&reply[i], &battery_millivolts, 2); i += 2;
+    memcpy(&reply[i], &used, 4); i += 4;
+    memcpy(&reply[i], &total, 4); i += 4;
+    _serial->writeFrame(reply, i);
  } else if (cmd_frame[0] == CMD_EXPORT_PRIVATE_KEY) {
 #if ENABLE_PRIVATE_KEY_EXPORT
    uint8_t reply[65];
@@ -1014,6 +1147,9 @@ void MyMesh::handleCmdFrame(size_t len) {
    if (_store->saveMainIdentity(identity)) {
      self_id = identity;
      writeOKFrame();
+      // re-load contacts, to recalc shared secrets
+      resetContacts();
+      _store->loadContacts(this);
    } else {
      writeErrFrame(ERR_CODE_FILE_IO_ERROR);
    }
@@ -1047,7 +1183,7 @@ void MyMesh::handleCmdFrame(size_t len) {
      if (result == MSG_SEND_FAILED) {
        writeErrFrame(ERR_CODE_TABLE_FULL);
      } else {
-        pending_telemetry = pending_status = 0;
+        clearPendingReqs();
        memcpy(&pending_login, recipient->id.pub_key, 4); // match this to onContactResponse()
        out_frame[0] = RESP_CODE_SENT;
        out_frame[1] = (result == MSG_SEND_SENT_FLOOD) ? 1 : 0;
@@ -1067,7 +1203,7 @@ void MyMesh::handleCmdFrame(size_t len) {
      if (result == MSG_SEND_FAILED) {
        writeErrFrame(ERR_CODE_TABLE_FULL);
      } else {
-        pending_telemetry = pending_login = 0;
+        clearPendingReqs();
        // FUTURE:  pending_status = tag;  // match this in onContactResponse()
        memcpy(&pending_status, recipient->id.pub_key, 4); // legacy matching scheme
        out_frame[0] = RESP_CODE_SENT;
@@ -1079,7 +1215,36 @@ void MyMesh::handleCmdFrame(size_t len) {
    } else {
      writeErrFrame(ERR_CODE_NOT_FOUND); // contact not found
    }
-  } else if (cmd_frame[0] == CMD_SEND_TELEMETRY_REQ && len >= 4 + PUB_KEY_SIZE) {
+  } else if (cmd_frame[0] == CMD_SEND_PATH_DISCOVERY_REQ && cmd_frame[1] == 0 && len >= 2 + PUB_KEY_SIZE) {
+    uint8_t *pub_key = &cmd_frame[2];
+    ContactInfo *recipient = lookupContactByPubKey(pub_key, PUB_KEY_SIZE);
+    if (recipient) {
+      uint32_t tag, est_timeout;
+      // 'Path Discovery' is just a special case of flood + Telemetry req
+      uint8_t req_data[9];
+      req_data[0] = REQ_TYPE_GET_TELEMETRY_DATA;
+      req_data[1] = ~(TELEM_PERM_BASE);  // NEW: inverse permissions mask (ie. we only want BASE telemetry)
+      memset(&req_data[2], 0, 3);  // reserved
+      getRNG()->random(&req_data[5], 4);   // random blob to help make packet-hash unique
+      auto save = recipient->out_path_len;    // temporarily force sendRequest() to flood
+      recipient->out_path_len = -1;
+      int result = sendRequest(*recipient, req_data, sizeof(req_data), tag, est_timeout);
+      recipient->out_path_len = save;
+      if (result == MSG_SEND_FAILED) {
+        writeErrFrame(ERR_CODE_TABLE_FULL);
+      } else {
+        clearPendingReqs();
+        pending_discovery = tag; // match this in onContactResponse()
+        out_frame[0] = RESP_CODE_SENT;
+        out_frame[1] = (result == MSG_SEND_SENT_FLOOD) ? 1 : 0;
+        memcpy(&out_frame[2], &tag, 4);
+        memcpy(&out_frame[6], &est_timeout, 4);
+        _serial->writeFrame(out_frame, 10);
+      }
+    } else {
+      writeErrFrame(ERR_CODE_NOT_FOUND); // contact not found
+    }
+  } else if (cmd_frame[0] == CMD_SEND_TELEMETRY_REQ && len >= 4 + PUB_KEY_SIZE) {  // can deprecate, in favour of CMD_SEND_BINARY_REQ
    uint8_t *pub_key = &cmd_frame[4];
    ContactInfo *recipient = lookupContactByPubKey(pub_key, PUB_KEY_SIZE);
    if (recipient) {
@@ -1088,7 +1253,7 @@ void MyMesh::handleCmdFrame(size_t len) {
      if (result == MSG_SEND_FAILED) {
        writeErrFrame(ERR_CODE_TABLE_FULL);
      } else {
-        pending_status = pending_login = 0;
+        clearPendingReqs();
        pending_telemetry = tag; // match this in onContactResponse()
        out_frame[0] = RESP_CODE_SENT;
        out_frame[1] = (result == MSG_SEND_SENT_FLOOD) ? 1 : 0;
@@ -1114,6 +1279,27 @@ void MyMesh::handleCmdFrame(size_t len) {
    memcpy(&out_frame[i], telemetry.getBuffer(), tlen);
    i += tlen;
    _serial->writeFrame(out_frame, i);
+  } else if (cmd_frame[0] == CMD_SEND_BINARY_REQ && len >= 2 + PUB_KEY_SIZE) {
+    uint8_t *pub_key = &cmd_frame[1];
+    ContactInfo *recipient = lookupContactByPubKey(pub_key, PUB_KEY_SIZE);
+    if (recipient) {
+      uint8_t *req_data = &cmd_frame[1 + PUB_KEY_SIZE];
+      uint32_t tag, est_timeout;
+      int result = sendRequest(*recipient, req_data, len - (1 + PUB_KEY_SIZE), tag, est_timeout);
+      if (result == MSG_SEND_FAILED) {
+        writeErrFrame(ERR_CODE_TABLE_FULL);
+      } else {
+        clearPendingReqs();
+        pending_req = tag; // match this in onContactResponse()
+        out_frame[0] = RESP_CODE_SENT;
+        out_frame[1] = (result == MSG_SEND_SENT_FLOOD) ? 1 : 0;
+        memcpy(&out_frame[2], &tag, 4);
+        memcpy(&out_frame[6], &est_timeout, 4);
+        _serial->writeFrame(out_frame, 10);
+      }
+    } else {
+      writeErrFrame(ERR_CODE_NOT_FOUND); // contact not found
+    }
  } else if (cmd_frame[0] == CMD_HAS_CONNECTION && len >= 1 + PUB_KEY_SIZE) {
    uint8_t *pub_key = &cmd_frame[1];
    if (hasConnectionTo(pub_key)) {
@@ -1249,6 +1435,35 @@ void MyMesh::handleCmdFrame(size_t len) {
    } else {
      writeErrFrame(ERR_CODE_ILLEGAL_ARG);
    }
+  } else if (cmd_frame[0] == CMD_GET_ADVERT_PATH && len >= PUB_KEY_SIZE+2) {
+    // FUTURE use:  uint8_t reserved = cmd_frame[1];
+    uint8_t *pub_key = &cmd_frame[2];
+    AdvertPath* found = NULL;
+    for (int i = 0; i < ADVERT_PATH_TABLE_SIZE; i++) {
+      auto p = &advert_paths[i];
+      if (memcmp(p->pubkey_prefix, pub_key, sizeof(p->pubkey_prefix)) == 0) {
+        found = p;
+        break;
+      }
+    }
+    if (found) {
+      out_frame[0] = RESP_CODE_ADVERT_PATH;
+      memcpy(&out_frame[1], &found->recv_timestamp, 4);
+      out_frame[5] = found->path_len;
+      memcpy(&out_frame[6], found->path, found->path_len);
+      _serial->writeFrame(out_frame, 6 + found->path_len);
+    } else {
+      writeErrFrame(ERR_CODE_NOT_FOUND);
+    }
+  } else if (cmd_frame[0] == CMD_FACTORY_RESET && memcmp(&cmd_frame[1], "reset", 5) == 0) {
+    bool success = _store->formatFileSystem();
+    if (success) {
+      writeOKFrame();
+      delay(1000);
+      board.reboot();  // doesn't return
+    } else {
+      writeErrFrame(ERR_CODE_FILE_IO_ERROR);
+    }
  } else {
    writeErrFrame(ERR_CODE_UNSUPPORTED_CMD);
    MESH_DEBUG_PRINTLN("ERROR: unknown command: %02X", cmd_frame[0]);
@@ -1424,13 +1639,17 @@ void MyMesh::loop() {
  }

 #ifdef DISPLAY_CLASS
-  ui_task.setHasConnection(_serial->isConnected());
-  ui_task.loop();
+  if (_ui) _ui->setHasConnection(_serial->isConnected());
 #endif
 }

 bool MyMesh::advert() {
-  auto pkt = createSelfAdvert(_prefs.node_name, sensors.node_lat, sensors.node_lon);
+  mesh::Packet* pkt;
+  if (_prefs.advert_loc_policy == ADVERT_LOC_NONE) {
+    pkt = createSelfAdvert(_prefs.node_name);
+  } else {
+    pkt = createSelfAdvert(_prefs.node_name, sensors.node_lat, sensors.node_lon);
+  }
  if (pkt) {
    sendZeroHop(pkt);
    return true;
--- a/examples/companion_radio/MyMesh.h
+++ b/examples/companion_radio/MyMesh.h
@@ -2,19 +2,17 @@

 #include <Arduino.h>
 #include <Mesh.h>
-#ifdef DISPLAY_CLASS
-#include "UITask.h"
-#endif
+#include "AbstractUITask.h"

 /*------------ Frame Protocol --------------*/
-#define FIRMWARE_VER_CODE 5
+#define FIRMWARE_VER_CODE 7

 #ifndef FIRMWARE_BUILD_DATE
-#define FIRMWARE_BUILD_DATE "7 Jun 2025"
+#define FIRMWARE_BUILD_DATE "1 Sep 2025"
 #endif

 #ifndef FIRMWARE_VERSION
-#define FIRMWARE_VERSION "v1.7.0"
+#define FIRMWARE_VERSION "v1.8.1"
 #endif

 #if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
@@ -77,9 +75,17 @@
 #define REQ_TYPE_KEEP_ALIVE             0x02
 #define REQ_TYPE_GET_TELEMETRY_DATA     0x03

+struct AdvertPath {
+  uint8_t pubkey_prefix[7];
+  uint8_t path_len;
+  char    name[32];
+  uint32_t recv_timestamp;
+  uint8_t path[MAX_PATH_SIZE];
+};
+
 class MyMesh : public BaseChatMesh, public DataStoreHost {
 public:
-  MyMesh(mesh::Radio &radio, mesh::RNG &rng, mesh::RTCClock &rtc, SimpleMeshTables &tables, DataStore& store);
+  MyMesh(mesh::Radio &radio, mesh::RNG &rng, mesh::RTCClock &rtc, SimpleMeshTables &tables, DataStore& store, AbstractUITask* ui=NULL);

  void begin(bool has_display);
  void startInterface(BaseSerialInterface &serial);
@@ -93,14 +99,18 @@ public:
  bool advert();
  void enterCLIRescue();

+  int  getRecentlyHeard(AdvertPath dest[], int max_num);
+
 protected:
  float getAirtimeBudgetFactor() const override;
  int getInterferenceThreshold() const override;
  int calcRxDelay(float score, uint32_t air_time) const override;
+  uint8_t getExtraAckTransmitCount() const override;

  void logRxRaw(float snr, float rssi, const uint8_t raw[], int len) override;
  bool isAutoAddEnabled() const override;
-  void onDiscoveredContact(ContactInfo &contact, bool is_new) override;
+  bool onContactPathRecv(ContactInfo& from, uint8_t* in_path, uint8_t in_path_len, uint8_t* out_path, uint8_t out_path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len) override;
+  void onDiscoveredContact(ContactInfo &contact, bool is_new, uint8_t path_len, const uint8_t* path) override;
  void onContactPathUpdated(const ContactInfo &contact) override;
  bool processAck(const uint8_t *data) override;
  void queueMessage(const ContactInfo &from, uint8_t txt_type, mesh::Packet *pkt, uint32_t sender_timestamp,
@@ -132,12 +142,16 @@ protected:
  bool onChannelLoaded(uint8_t channel_idx, const ChannelDetails& ch) override { return setChannel(channel_idx, ch); }
  bool getChannelForSave(uint8_t channel_idx, ChannelDetails& ch) override { return getChannel(channel_idx, ch); }

+  void clearPendingReqs() {
+    pending_login = pending_status = pending_telemetry = pending_discovery = pending_req = 0;
+  }
+
 private:
  void writeOKFrame();
  void writeErrFrame(uint8_t err_code);
  void writeDisabledFrame();
  void writeContactRespFrame(uint8_t code, const ContactInfo &contact);
-  void updateContactFromFrame(ContactInfo &contact, const uint8_t *frame, int len);
+  void updateContactFromFrame(ContactInfo &contact, uint32_t& last_mod, const uint8_t *frame, int len);
  void addToOfflineQueue(const uint8_t frame[], int len);
  int getFromOfflineQueue(uint8_t frame[]);
  int getBlobByKey(const uint8_t key[], int key_len, uint8_t dest_buf[]) override { 
@@ -160,8 +174,10 @@ private:
  NodePrefs _prefs;
  uint32_t pending_login;
  uint32_t pending_status;
-  uint32_t pending_telemetry;
+  uint32_t pending_telemetry, pending_discovery;   // pending _TELEMETRY_REQ
+  uint32_t pending_req;   // pending _BINARY_REQ
  BaseSerialInterface *_serial;
+  AbstractUITask* _ui;

  ContactsIterator _iter;
  uint32_t _iter_filter_since;
@@ -190,12 +206,12 @@ private:
    unsigned long msg_sent;
    uint32_t ack;
  };
-#define EXPECTED_ACK_TABLE_SIZE 8
+  #define EXPECTED_ACK_TABLE_SIZE 8
  AckTableEntry expected_ack_table[EXPECTED_ACK_TABLE_SIZE]; // circular table
  int next_ack_idx;
+
+  #define ADVERT_PATH_TABLE_SIZE   16
+  AdvertPath advert_paths[ADVERT_PATH_TABLE_SIZE]; // circular table
 };

 extern MyMesh the_mesh;
-#ifdef DISPLAY_CLASS
-extern UITask ui_task;
-#endif
--- a/examples/companion_radio/NodePrefs.h
+++ b/examples/companion_radio/NodePrefs.h
@@ -5,13 +5,16 @@
 #define TELEM_MODE_ALLOW_FLAGS     1     // use contact.flags
 #define TELEM_MODE_ALLOW_ALL       2

+#define ADVERT_LOC_NONE       0
+#define ADVERT_LOC_SHARE      1
+
 struct NodePrefs {  // persisted to file
  float airtime_factor;
  char node_name[32];
  float freq;
  uint8_t sf;
  uint8_t cr;
-  uint8_t reserved1;
+  uint8_t multi_acks;
  uint8_t manual_add_contacts;
  float bw;
  uint8_t tx_power_dbm;
@@ -20,4 +23,5 @@ struct NodePrefs {  // persisted to file
  uint8_t telemetry_mode_env;
  float rx_delay_base;
  uint32_t ble_pin;
+  uint8_t  advert_loc_policy;
 };
--- a/examples/companion_radio/main.cpp
+++ b/examples/companion_radio/main.cpp
@@ -75,14 +75,19 @@ static uint32_t _atoi(const char* sp) {
 #endif

 /* GLOBAL OBJECTS */
-StdRNG fast_rng;
-SimpleMeshTables tables;
-MyMesh the_mesh(radio_driver, fast_rng, rtc_clock, tables, store);
-
 #ifdef DISPLAY_CLASS
  #include "UITask.h"
-  UITask ui_task(&board);
+  UITask ui_task(&board, &serial_interface);
 #endif
+
+StdRNG fast_rng;
+SimpleMeshTables tables;
+MyMesh the_mesh(radio_driver, fast_rng, rtc_clock, tables, store
+   #ifdef DISPLAY_CLASS
+      , &ui_task
+   #endif
+);
+
 /* END GLOBAL OBJECTS */

 void halt() {
@@ -99,7 +104,10 @@ void setup() {
  if (display.begin()) {
    disp = &display;
    disp->startFrame();
-    disp->print("Please wait...");
+  #ifdef ST7789
+    disp->setTextSize(2);
+  #endif
+    disp->drawTextCentered(disp->width() / 2, 28, "Loading...");
    disp->endFrame();
  }
 #endif
@@ -186,11 +194,14 @@ void setup() {
  sensors.begin();

 #ifdef DISPLAY_CLASS
-  ui_task.begin(disp, the_mesh.getNodePrefs());  // still want to pass this in as dependency, as prefs might be moved
+  ui_task.begin(disp, &sensors, the_mesh.getNodePrefs());  // still want to pass this in as dependency, as prefs might be moved
 #endif
 }

 void loop() {
  the_mesh.loop();
  sensors.loop();
+#ifdef DISPLAY_CLASS
+  ui_task.loop();
+#endif
 }
--- a/examples/companion_radio/ui-new/UITask.cpp
+++ b/examples/companion_radio/ui-new/UITask.cpp
@@ -0,0 +1,623 @@
+#include "UITask.h"
+#include <helpers/TxtDataHelpers.h>
+#include "../MyMesh.h"
+#include "target.h"
+
+#define AUTO_OFF_MILLIS     15000   // 15 seconds
+#define BOOT_SCREEN_MILLIS   3000   // 3 seconds
+
+#ifdef PIN_STATUS_LED
+#define LED_ON_MILLIS     20
+#define LED_ON_MSG_MILLIS 200
+#define LED_CYCLE_MILLIS  4000
+#endif
+
+#define LONG_PRESS_MILLIS   1200
+
+#ifndef UI_RECENT_LIST_SIZE
+  #define UI_RECENT_LIST_SIZE 4
+#endif
+
+#define PRESS_LABEL "long press"
+
+#include "icons.h"
+
+class SplashScreen : public UIScreen {
+  UITask* _task;
+  unsigned long dismiss_after;
+  char _version_info[12];
+
+public:
+  SplashScreen(UITask* task) : _task(task) {
+    // strip off dash and commit hash by changing dash to null terminator
+    // e.g: v1.2.3-abcdef -> v1.2.3
+    const char *ver = FIRMWARE_VERSION;
+    const char *dash = strchr(ver, '-');
+
+    int len = dash ? dash - ver : strlen(ver);
+    if (len >= sizeof(_version_info)) len = sizeof(_version_info) - 1;
+    memcpy(_version_info, ver, len);
+    _version_info[len] = 0;
+
+    dismiss_after = millis() + BOOT_SCREEN_MILLIS;
+  }
+
+  int render(DisplayDriver& display) override {
+    // meshcore logo
+    display.setColor(DisplayDriver::BLUE);
+    int logoWidth = 128;
+    display.drawXbm((display.width() - logoWidth) / 2, 3, meshcore_logo, logoWidth, 13);
+
+    // version info
+    display.setColor(DisplayDriver::LIGHT);
+    display.setTextSize(2);
+    display.drawTextCentered(display.width()/2, 22, _version_info);
+
+    display.setTextSize(1);
+    display.drawTextCentered(display.width()/2, 42, FIRMWARE_BUILD_DATE);
+
+    return 1000;
+  }
+
+  void poll() override {
+    if (millis() >= dismiss_after) {
+      _task->gotoHomeScreen();
+    }
+  }
+};
+
+class HomeScreen : public UIScreen {
+  enum HomePage {
+    FIRST,
+    RECENT,
+    RADIO,
+    BLUETOOTH,
+    ADVERT,
+    SHUTDOWN,
+    Count    // keep as last
+  };
+
+  UITask* _task;
+  mesh::RTCClock* _rtc;
+  SensorManager* _sensors;
+  NodePrefs* _node_prefs;
+  uint8_t _page;
+  bool _shutdown_init;
+  AdvertPath recent[UI_RECENT_LIST_SIZE];
+
+  void renderBatteryIndicator(DisplayDriver& display, uint16_t batteryMilliVolts) {
+    // Convert millivolts to percentage
+    const int minMilliVolts = 3000; // Minimum voltage (e.g., 3.0V)
+    const int maxMilliVolts = 4200; // Maximum voltage (e.g., 4.2V)
+    int batteryPercentage = ((batteryMilliVolts - minMilliVolts) * 100) / (maxMilliVolts - minMilliVolts);
+    if (batteryPercentage < 0) batteryPercentage = 0; // Clamp to 0%
+    if (batteryPercentage > 100) batteryPercentage = 100; // Clamp to 100%
+
+    // battery icon
+    int iconWidth = 24;
+    int iconHeight = 10;
+    int iconX = display.width() - iconWidth - 5; // Position the icon near the top-right corner
+    int iconY = 0;
+    display.setColor(DisplayDriver::GREEN);
+
+    // battery outline
+    display.drawRect(iconX, iconY, iconWidth, iconHeight);
+
+    // battery "cap"
+    display.fillRect(iconX + iconWidth, iconY + (iconHeight / 4), 3, iconHeight / 2);
+
+    // fill the battery based on the percentage
+    int fillWidth = (batteryPercentage * (iconWidth - 4)) / 100;
+    display.fillRect(iconX + 2, iconY + 2, fillWidth, iconHeight - 4);
+  }
+
+public:
+  HomeScreen(UITask* task, mesh::RTCClock* rtc, SensorManager* sensors, NodePrefs* node_prefs)
+     : _task(task), _rtc(rtc), _sensors(sensors), _node_prefs(node_prefs), _page(0), _shutdown_init(false) { }
+
+  void poll() override {
+    if (_shutdown_init && !_task->isButtonPressed()) {  // must wait for USR button to be released
+      _task->shutdown();
+    }
+  }
+
+  int render(DisplayDriver& display) override {
+    char tmp[80];
+    // node name
+    display.setCursor(0, 0);
+    display.setTextSize(1);
+    display.setColor(DisplayDriver::GREEN);
+    display.print(_node_prefs->node_name);
+
+    // battery voltage
+    renderBatteryIndicator(display, _task->getBattMilliVolts());
+
+    // curr page indicator
+    int y = 14;
+    int x = display.width() / 2 - 25;
+    for (uint8_t i = 0; i < HomePage::Count; i++, x += 10) {
+      if (i == _page) {
+        display.fillRect(x-1, y-1, 3, 3);
+      } else {
+        display.fillRect(x, y, 1, 1);
+      }
+    }
+
+    if (_page == HomePage::FIRST) {
+      display.setColor(DisplayDriver::YELLOW);
+      display.setTextSize(2);
+      sprintf(tmp, "MSG: %d", _task->getMsgCount());
+      display.drawTextCentered(display.width() / 2, 20, tmp);
+
+      if (_task->hasConnection()) {
+        display.setColor(DisplayDriver::GREEN);
+        display.setTextSize(1);
+        display.drawTextCentered(display.width() / 2, 43, "< Connected >");
+      } else if (the_mesh.getBLEPin() != 0) { // BT pin
+        display.setColor(DisplayDriver::RED);
+        display.setTextSize(2);
+        sprintf(tmp, "Pin:%d", the_mesh.getBLEPin());
+        display.drawTextCentered(display.width() / 2, 43, tmp);
+      }
+    } else if (_page == HomePage::RECENT) {
+      the_mesh.getRecentlyHeard(recent, UI_RECENT_LIST_SIZE);
+      display.setColor(DisplayDriver::GREEN);
+      int y = 20;
+      for (int i = 0; i < UI_RECENT_LIST_SIZE; i++, y += 11) {
+        auto a = &recent[i];
+        if (a->name[0] == 0) continue;  // empty slot
+        display.setCursor(0, y);
+        display.print(a->name);
+        int secs = _rtc->getCurrentTime() - a->recv_timestamp;
+        if (secs < 60) {
+          sprintf(tmp, "%ds", secs);
+        } else if (secs < 60*60) {
+          sprintf(tmp, "%dm", secs / 60);
+        } else {
+          sprintf(tmp, "%dh", secs / (60*60));
+        }
+        display.setCursor(display.width() - display.getTextWidth(tmp) - 1, y);
+        display.print(tmp);
+      }
+    } else if (_page == HomePage::RADIO) {
+      display.setColor(DisplayDriver::YELLOW);
+      display.setTextSize(1);
+      // freq / sf
+      display.setCursor(0, 20);
+      sprintf(tmp, "FQ: %06.3f   SF: %d", _node_prefs->freq, _node_prefs->sf);
+      display.print(tmp);
+
+      display.setCursor(0, 31);
+      sprintf(tmp, "BW: %03.2f     CR: %d", _node_prefs->bw, _node_prefs->cr);
+      display.print(tmp);
+
+      // tx power,  noise floor
+      display.setCursor(0, 42);
+      sprintf(tmp, "TX: %ddBm", _node_prefs->tx_power_dbm);
+      display.print(tmp);
+      display.setCursor(0, 53);
+      sprintf(tmp, "Noise floor: %d", radio_driver.getNoiseFloor());
+      display.print(tmp);
+    } else if (_page == HomePage::BLUETOOTH) {
+      display.setColor(DisplayDriver::GREEN);
+      display.drawXbm((display.width() - 32) / 2, 18, 
+          _task->isSerialEnabled() ? bluetooth_on : bluetooth_off, 
+          32, 32);
+      display.setTextSize(1);
+      display.drawTextCentered(display.width() / 2, 64 - 11, "toggle: " PRESS_LABEL);
+    } else if (_page == HomePage::ADVERT) {
+      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);
+    } else if (_page == HomePage::SHUTDOWN) {
+      display.setColor(DisplayDriver::GREEN);
+      display.setTextSize(1);
+      if (_shutdown_init) {
+        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);
+      }
+    }
+    return 5000;   // next render after 5000 ms
+  }
+
+  bool handleInput(char c) override {
+    if (c == KEY_LEFT) {
+      _page = (_page + HomePage::Count - 1) % HomePage::Count;
+      return true;
+    }
+    if (c == KEY_RIGHT || c == KEY_SELECT) {
+      _page = (_page + 1) % HomePage::Count;
+      if (_page == HomePage::RECENT) {
+        _task->showAlert("Recent adverts", 800);
+      }
+      return true;
+    }
+    if (c == KEY_ENTER && _page == HomePage::BLUETOOTH) {
+      if (_task->isSerialEnabled()) {  // toggle Bluetooth on/off
+        _task->disableSerial();
+      } else {
+        _task->enableSerial();
+      }
+      return true;
+    }
+    if (c == KEY_ENTER && _page == HomePage::ADVERT) {
+  #ifdef PIN_BUZZER
+      _task->soundBuzzer(UIEventType::ack);
+  #endif
+      if (the_mesh.advert()) {
+        _task->showAlert("Advert sent!", 1000);
+      } else {
+        _task->showAlert("Advert failed..", 1000);
+      }
+      return true;
+    }
+    if (c == KEY_ENTER && _page == HomePage::SHUTDOWN) {
+      _shutdown_init = true;  // need to wait for button to be released
+      return true;
+    }
+    return false;
+  }
+};
+
+class MsgPreviewScreen : public UIScreen {
+  UITask* _task;
+  mesh::RTCClock* _rtc;
+
+  struct MsgEntry {
+    uint32_t timestamp;
+    char origin[62];
+    char msg[78];
+  };
+  #define MAX_UNREAD_MSGS   32
+  int num_unread;
+  MsgEntry unread[MAX_UNREAD_MSGS];
+
+public:
+  MsgPreviewScreen(UITask* task, mesh::RTCClock* rtc) : _task(task), _rtc(rtc) { num_unread = 0; }
+
+  void addPreview(uint8_t path_len, const char* from_name, const char* msg) {
+    if (num_unread >= MAX_UNREAD_MSGS) return;  // full
+
+    auto p = &unread[num_unread++];
+    p->timestamp = _rtc->getCurrentTime();
+    if (path_len == 0xFF) {
+      sprintf(p->origin, "(D) %s:", from_name);
+    } else {
+      sprintf(p->origin, "(%d) %s:", (uint32_t) path_len, from_name);
+    }
+    StrHelper::strncpy(p->msg, msg, sizeof(p->msg));
+  }
+
+  int render(DisplayDriver& display) override {
+    char tmp[16];
+    display.setCursor(0, 0);
+    display.setTextSize(1);
+    display.setColor(DisplayDriver::GREEN);
+    sprintf(tmp, "Unread: %d", num_unread);
+    display.print(tmp);
+
+    auto p = &unread[0];
+
+    int secs = _rtc->getCurrentTime() - p->timestamp;
+    if (secs < 60) {
+      sprintf(tmp, "%ds", secs);
+    } else if (secs < 60*60) {
+      sprintf(tmp, "%dm", secs / 60);
+    } else {
+      sprintf(tmp, "%dh", secs / (60*60));
+    }
+    display.setCursor(display.width() - display.getTextWidth(tmp) - 2, 0);
+    display.print(tmp);
+
+    display.drawRect(0, 11, display.width(), 1);  // horiz line
+
+    display.setCursor(0, 14);
+    display.setColor(DisplayDriver::YELLOW);
+    display.print(p->origin);
+
+    display.setCursor(0, 25);
+    display.setColor(DisplayDriver::LIGHT);
+    display.printWordWrap(p->msg, display.width());
+
+    return 1000;  // next render after 1000 ms
+  }
+
+  bool handleInput(char c) override {
+    if (c == KEY_SELECT || c == KEY_RIGHT) {
+      num_unread--;
+      if (num_unread == 0) {
+        _task->gotoHomeScreen();
+      } else {
+        // delete first/curr item from unread queue
+        for (int i = 0; i < num_unread; i++) {
+          unread[i] = unread[i + 1];
+        }
+      }
+      return true;
+    }
+    if (c == KEY_ENTER) {
+      num_unread = 0;  // clear unread queue
+      _task->gotoHomeScreen();
+      return true;
+    }
+    return false;
+  }
+};
+
+void UITask::begin(DisplayDriver* display, SensorManager* sensors, NodePrefs* node_prefs) {
+  _display = display;
+  _sensors = sensors;
+  _auto_off = millis() + AUTO_OFF_MILLIS;
+
+#if defined(PIN_USER_BTN)
+  user_btn.begin();
+#endif
+#if defined(PIN_USER_BTN_ANA)
+  analog_btn.begin();
+#endif
+
+  _node_prefs = node_prefs;
+  if (_display != NULL) {
+    _display->turnOn();
+  }
+
+#ifdef PIN_BUZZER
+  buzzer.begin();
+#endif
+
+  ui_started_at = millis();
+  _alert_expiry = 0;
+
+  splash = new SplashScreen(this);
+  home = new HomeScreen(this, &rtc_clock, sensors, node_prefs);
+  msg_preview = new MsgPreviewScreen(this, &rtc_clock);
+  setCurrScreen(splash);
+}
+
+void UITask::showAlert(const char* text, int duration_millis) {
+  strcpy(_alert, text);
+  _alert_expiry = millis() + duration_millis;
+}
+
+void UITask::soundBuzzer(UIEventType bet) {
+#if defined(PIN_BUZZER)
+switch(bet){
+  case UIEventType::contactMessage:
+    // gemini's pick
+    buzzer.play("MsgRcv3:d=4,o=6,b=200:32e,32g,32b,16c7");
+    break;
+  case UIEventType::channelMessage:
+    buzzer.play("kerplop:d=16,o=6,b=120:32g#,32c#");
+    break;
+  case UIEventType::ack:
+    buzzer.play("ack:d=32,o=8,b=120:c");
+    break;
+  case UIEventType::roomMessage:
+  case UIEventType::newContactMessage:
+  case UIEventType::none:
+  default:
+    break;
+}
+#endif
+}
+
+void UITask::msgRead(int msgcount) {
+  _msgcount = msgcount;
+  if (msgcount == 0) {
+    gotoHomeScreen();
+  }
+}
+
+void UITask::newMsg(uint8_t path_len, const char* from_name, const char* text, int msgcount) {
+  _msgcount = msgcount;
+
+  ((MsgPreviewScreen *) msg_preview)->addPreview(path_len, from_name, text);
+  setCurrScreen(msg_preview);
+
+  if (_display != NULL) {
+    if (!_display->isOn()) _display->turnOn();
+    _auto_off = millis() + AUTO_OFF_MILLIS;  // extend the auto-off timer
+    _next_refresh = 0;  // trigger refresh
+  }
+}
+
+void UITask::userLedHandler() {
+#ifdef PIN_STATUS_LED
+  static int state = 0;
+  static int next_change = 0;
+  static int last_increment = 0;
+
+  int cur_time = millis();
+  if (cur_time > next_change) {
+    if (state == 0) {
+      state = 1;
+      if (_msgcount > 0) {
+        last_increment = LED_ON_MSG_MILLIS;
+      } else {
+        last_increment = LED_ON_MILLIS;
+      }
+      next_change = cur_time + last_increment;
+    } else {
+      state = 0;
+      next_change = cur_time + LED_CYCLE_MILLIS - last_increment;
+    }
+    digitalWrite(PIN_STATUS_LED, state);
+  }
+#endif
+}
+
+void UITask::setCurrScreen(UIScreen* c) {
+  curr = c;
+  _next_refresh = 0;
+}
+
+/* 
+  hardware-agnostic pre-shutdown activity should be done here 
+*/
+void UITask::shutdown(bool restart){
+
+  #ifdef PIN_BUZZER
+  /* note: we have a choice here -
+     we can do a blocking buzzer.loop() with non-deterministic consequences
+     or we can set a flag and delay the shutdown for a couple of seconds
+     while a non-blocking buzzer.loop() plays out in UITask::loop()
+  */
+  buzzer.shutdown();
+  uint32_t buzzer_timer = millis(); // fail-safe shutdown
+  while (buzzer.isPlaying() && (millis() - 2500) < buzzer_timer)
+    buzzer.loop();
+
+  #endif // PIN_BUZZER
+
+  if (restart) {
+    _board->reboot();
+  } else {
+    _display->turnOff();
+    _board->powerOff();
+  }
+}
+
+bool UITask::isButtonPressed() const {
+#ifdef PIN_USER_BTN
+  return user_btn.isPressed();
+#else
+  return false;
+#endif
+}
+
+void UITask::loop() {
+  char c = 0;
+#if defined(PIN_USER_BTN)
+  int ev = user_btn.check();
+  if (ev == BUTTON_EVENT_CLICK) {
+    c = checkDisplayOn(KEY_SELECT);
+  } else if (ev == BUTTON_EVENT_LONG_PRESS) {
+    c = handleLongPress(KEY_ENTER);
+  }
+#endif
+#if defined(WIO_TRACKER_L1)
+  ev = joystick_left.check();
+  if (ev == BUTTON_EVENT_CLICK) {
+    c = checkDisplayOn(KEY_LEFT);
+  } else if (ev == BUTTON_EVENT_LONG_PRESS) {
+    c = handleLongPress(KEY_LEFT);
+  }
+  ev = joystick_right.check();
+  if (ev == BUTTON_EVENT_CLICK) {
+    c = checkDisplayOn(KEY_RIGHT);
+  } else if (ev == BUTTON_EVENT_LONG_PRESS) {
+    c = handleLongPress(KEY_RIGHT);
+  }
+#endif
+#if defined(PIN_USER_BTN_ANA)
+  ev = analog_btn.check();
+  if (ev == BUTTON_EVENT_CLICK) {
+    c = checkDisplayOn(KEY_SELECT);
+  } else if (ev == BUTTON_EVENT_LONG_PRESS) {
+    c = handleLongPress(KEY_ENTER);
+  }
+#endif
+
+  if (c != 0 && curr) {
+    curr->handleInput(c);
+    _auto_off = millis() + AUTO_OFF_MILLIS;   // extend auto-off timer
+    _next_refresh = 0;  // trigger refresh
+  }
+
+  userLedHandler();
+
+#ifdef PIN_BUZZER
+  if (buzzer.isPlaying())  buzzer.loop();
+#endif
+
+  if (curr) curr->poll();
+
+  if (_display != NULL && _display->isOn()) {
+    if (millis() >= _next_refresh && curr) {
+      _display->startFrame();
+      int delay_millis = curr->render(*_display);
+      if (millis() < _alert_expiry) {  // render alert popup
+        _display->setTextSize(1);
+        int y = _display->height() / 3;
+        int p = _display->height() / 32;
+        _display->setColor(DisplayDriver::DARK);
+        _display->fillRect(p, y, _display->width() - p*2, y);
+        _display->setColor(DisplayDriver::LIGHT);  // draw box border
+        _display->drawRect(p, y, _display->width() - p*2, y);
+        _display->drawTextCentered(_display->width() / 2, y + p*3, _alert);
+        _next_refresh = _alert_expiry;   // will need refresh when alert is dismissed
+      } else {
+        _next_refresh = millis() + delay_millis;
+      }
+      _display->endFrame();
+    }
+    if (millis() > _auto_off) {
+      _display->turnOff();
+    }
+  }
+
+#ifdef AUTO_SHUTDOWN_MILLIVOLTS
+  if (millis() > next_batt_chck) {
+    uint16_t milliVolts = getBattMilliVolts();
+    if (milliVolts > 0 && milliVolts < AUTO_SHUTDOWN_MILLIVOLTS) {
+
+      // show low battery shutdown alert
+      // we should only do this for eink displays, which will persist after power loss
+      #ifdef THINKNODE_M1
+      if (_display != NULL) {
+        _display->startFrame();
+        _display->setTextSize(2);
+        _display->setColor(DisplayDriver::RED);
+        _display->drawTextCentered(_display->width() / 2, 20, "Low Battery.");
+        _display->drawTextCentered(_display->width() / 2, 40, "Shutting Down!");
+        _display->endFrame();
+      }
+      #endif
+
+      shutdown();
+
+    }
+    next_batt_chck = millis() + 8000;
+  }
+#endif
+}
+
+char UITask::checkDisplayOn(char c) {
+  if (_display != NULL) {
+    if (!_display->isOn()) {
+      _display->turnOn();   // turn display on and consume event
+      c = 0;
+    }
+    _auto_off = millis() + AUTO_OFF_MILLIS;   // extend auto-off timer
+    _next_refresh = 0;  // trigger refresh
+  }
+  return c;
+}
+
+char UITask::handleLongPress(char c) {
+  if (millis() - ui_started_at < 8000) {   // long press in first 8 seconds since startup -> CLI/rescue
+    the_mesh.enterCLIRescue();
+    c = 0;   // consume event
+  }
+  return c;
+}
+
+/*
+void UITask::handleButtonTriplePress() {
+  MESH_DEBUG_PRINTLN("UITask: triple press triggered");
+  // Toggle buzzer quiet mode
+  #ifdef PIN_BUZZER
+    if (buzzer.isQuiet()) {
+      buzzer.quiet(false);
+      soundBuzzer(UIEventType::ack);
+      showAlert("Buzzer: ON", 600);
+    } else {
+      buzzer.quiet(true);
+      showAlert("Buzzer: OFF", 600);
+    }
+    _next_refresh = 0;  // trigger refresh
+  #endif
+}
+*/
--- a/examples/companion_radio/ui-new/UITask.h
+++ b/examples/companion_radio/ui-new/UITask.h
@@ -0,0 +1,65 @@
+#pragma once
+
+#include <MeshCore.h>
+#include <helpers/ui/DisplayDriver.h>
+#include <helpers/ui/UIScreen.h>
+#include <helpers/SensorManager.h>
+#include <helpers/BaseSerialInterface.h>
+#include <Arduino.h>
+
+#ifdef PIN_BUZZER
+  #include <helpers/ui/buzzer.h>
+#endif
+
+#include "../AbstractUITask.h"
+#include "../NodePrefs.h"
+
+class UITask : public AbstractUITask {
+  DisplayDriver* _display;
+  SensorManager* _sensors;
+#ifdef PIN_BUZZER
+  genericBuzzer buzzer;
+#endif
+  unsigned long _next_refresh, _auto_off;
+  NodePrefs* _node_prefs;
+  char _alert[80];
+  unsigned long _alert_expiry;
+  int _msgcount;
+  unsigned long ui_started_at, next_batt_chck;
+
+  UIScreen* splash;
+  UIScreen* home;
+  UIScreen* msg_preview;
+  UIScreen* curr;
+
+  void userLedHandler();
+  
+  // Button action handlers
+  char checkDisplayOn(char c);
+  char handleLongPress(char c);
+
+  void setCurrScreen(UIScreen* c);
+
+public:
+
+  UITask(mesh::MainBoard* board, BaseSerialInterface* serial) : AbstractUITask(board, serial), _display(NULL), _sensors(NULL) {
+    next_batt_chck = _next_refresh = 0;
+    ui_started_at = 0;
+    curr = NULL;
+  }
+  void begin(DisplayDriver* display, SensorManager* sensors, NodePrefs* node_prefs);
+
+  void gotoHomeScreen() { setCurrScreen(home); }
+  void showAlert(const char* text, int duration_millis);
+  int  getMsgCount() const { return _msgcount; }
+  bool hasDisplay() const { return _display != NULL; }
+  bool isButtonPressed() const;
+
+  // from AbstractUITask
+  void msgRead(int msgcount) override;
+  void newMsg(uint8_t path_len, const char* from_name, const char* text, int msgcount) override;
+  void soundBuzzer(UIEventType bet = UIEventType::none) override;
+  void loop() override;
+
+  void shutdown(bool restart = false);
+};
--- a/examples/companion_radio/ui-new/icons.h
+++ b/examples/companion_radio/ui-new/icons.h
@@ -0,0 +1,118 @@
+#pragma once
+
+#include <stdint.h>
+
+// 'meshcore', 128x13px
+static const uint8_t meshcore_logo [] = {
+    0x3c, 0x01, 0xe3, 0xff, 0xc7, 0xff, 0x8f, 0x03, 0x87, 0xfe, 0x1f, 0xfe, 0x1f, 0xfe, 0x1f, 0xfe, 
+    0x3c, 0x03, 0xe3, 0xff, 0xc7, 0xff, 0x8e, 0x03, 0x8f, 0xfe, 0x3f, 0xfe, 0x1f, 0xff, 0x1f, 0xfe, 
+    0x3e, 0x03, 0xc3, 0xff, 0x8f, 0xff, 0x0e, 0x07, 0x8f, 0xfe, 0x7f, 0xfe, 0x1f, 0xff, 0x1f, 0xfc, 
+    0x3e, 0x07, 0xc7, 0x80, 0x0e, 0x00, 0x0e, 0x07, 0x9e, 0x00, 0x78, 0x0e, 0x3c, 0x0f, 0x1c, 0x00, 
+    0x3e, 0x0f, 0xc7, 0x80, 0x1e, 0x00, 0x0e, 0x07, 0x1e, 0x00, 0x70, 0x0e, 0x38, 0x0f, 0x3c, 0x00, 
+    0x7f, 0x0f, 0xc7, 0xfe, 0x1f, 0xfc, 0x1f, 0xff, 0x1c, 0x00, 0x70, 0x0e, 0x38, 0x0e, 0x3f, 0xf8, 
+    0x7f, 0x1f, 0xc7, 0xfe, 0x0f, 0xff, 0x1f, 0xff, 0x1c, 0x00, 0xf0, 0x0e, 0x38, 0x0e, 0x3f, 0xf8, 
+    0x7f, 0x3f, 0xc7, 0xfe, 0x0f, 0xff, 0x1f, 0xff, 0x1c, 0x00, 0xf0, 0x1e, 0x3f, 0xfe, 0x3f, 0xf0, 
+    0x77, 0x3b, 0x87, 0x00, 0x00, 0x07, 0x1c, 0x0f, 0x3c, 0x00, 0xe0, 0x1c, 0x7f, 0xfc, 0x38, 0x00, 
+    0x77, 0xfb, 0x8f, 0x00, 0x00, 0x07, 0x1c, 0x0f, 0x3c, 0x00, 0xe0, 0x1c, 0x7f, 0xf8, 0x38, 0x00, 
+    0x73, 0xf3, 0x8f, 0xff, 0x0f, 0xff, 0x1c, 0x0e, 0x3f, 0xf8, 0xff, 0xfc, 0x70, 0x78, 0x7f, 0xf8, 
+    0xe3, 0xe3, 0x8f, 0xff, 0x1f, 0xfe, 0x3c, 0x0e, 0x3f, 0xf8, 0xff, 0xfc, 0x70, 0x3c, 0x7f, 0xf8, 
+    0xe3, 0xe3, 0x8f, 0xff, 0x1f, 0xfc, 0x3c, 0x0e, 0x1f, 0xf8, 0xff, 0xf8, 0x70, 0x3c, 0x7f, 0xf8, 
+};
+
+static const uint8_t bluetooth_on[] = {
+  0x00, 0x00, 0x00, 0x00, 
+  0x00, 0x00, 0x00, 0x00, 
+  0x00, 0x00, 0x00, 0x00, 
+  0x00, 0x30, 0x00, 0x00, 
+  0x00, 0x3C, 0x00, 0x00, 
+  0x00, 0x3E, 0x00, 0x00, 
+  0x00, 0x3F, 0x80, 0x00, 
+  0x00, 0x3F, 0xC0, 0x00, 
+  0x00, 0x3B, 0xE0, 0x00, 
+  0x30, 0x38, 0xF8, 0x00, 
+  0x3C, 0x38, 0x7C, 0x00, 
+  0x3E, 0x38, 0x7C, 0x00, 
+  0x1F, 0xB8, 0xF8, 0x70, 
+  0x07, 0xF9, 0xF0, 0x78, 
+  0x03, 0xFF, 0xC0, 0x78, 
+  0x00, 0xFF, 0x80, 0x3C, 
+  0x00, 0x7F, 0x07, 0x1C, 
+  0x00, 0x7E, 0x07, 0x1C, 
+  0x03, 0xFF, 0x82, 0x1C, 
+  0x03, 0xFF, 0xC0, 0x78, 
+  0x07, 0xFB, 0xE0, 0x78, 
+  0x0F, 0xB8, 0xF8, 0x70, 
+  0x3E, 0x38, 0x7C, 0x00, 
+  0x3C, 0x38, 0x7C, 0x00, 
+  0x38, 0x38, 0xF8, 0x00, 
+  0x00, 0x39, 0xF0, 0x00, 
+  0x00, 0x3F, 0xC0, 0x00, 
+  0x00, 0x3F, 0x80, 0x00, 
+  0x00, 0x3E, 0x00, 0x00, 
+  0x00, 0x3C, 0x00, 0x00, 
+  0x00, 0x38, 0x00, 0x00, 
+  0x00, 0x00, 0x00, 0x00, 
+};
+
+static const uint8_t bluetooth_off[] = {
+  0x00, 0x00, 0x00, 0x00, 
+  0x00, 0x00, 0x00, 0x00, 
+  0x00, 0x03, 0x80, 0x00, 
+  0x00, 0x03, 0xC0, 0x00, 
+  0x00, 0x03, 0xE0, 0x00, 
+  0x38, 0x03, 0xF8, 0x00, 
+  0x3C, 0x03, 0xFC, 0x00, 
+  0x3E, 0x03, 0xBF, 0x00, 
+  0x0F, 0x83, 0x8F, 0x80, 
+  0x07, 0xC3, 0x87, 0xC0, 
+  0x03, 0xF0, 0x03, 0xC0, 
+  0x00, 0xF8, 0x0F, 0x80, 
+  0x00, 0x7C, 0x0F, 0x00, 
+  0x00, 0x1F, 0x0E, 0x00, 
+  0x00, 0x0F, 0x80, 0x00, 
+  0x00, 0x07, 0xE0, 0x00, 
+  0x00, 0x07, 0xF0, 0x00, 
+  0x00, 0x0F, 0xF8, 0x00, 
+  0x00, 0x3F, 0xBE, 0x00, 
+  0x00, 0x7F, 0x9F, 0x00, 
+  0x00, 0xFB, 0x8F, 0xC0, 
+  0x03, 0xE3, 0x83, 0xE0, 
+  0x03, 0xC3, 0x87, 0xF0, 
+  0x03, 0x83, 0x8F, 0xFC, 
+  0x00, 0x03, 0xBF, 0x3C, 
+  0x00, 0x03, 0xFC, 0x1C, 
+  0x00, 0x03, 0xF8, 0x00, 
+  0x00, 0x03, 0xE0, 0x00, 
+  0x00, 0x03, 0xC0, 0x00, 
+  0x00, 0x03, 0x80, 0x00, 
+  0x00, 0x00, 0x00, 0x00, 
+  0x00, 0x00, 0x00, 0x00, 
+};
+
+static const uint8_t power_icon[] = {
+    0x00, 0x01, 0x80, 0x00, 0x00, 0x03, 0xC0, 0x00, 0x00, 0x03, 0xC0, 0x00,
+    0x00, 0x33, 0xCC, 0x00, 0x00, 0xF3, 0xCF, 0x00, 0x01, 0xF3, 0xCF, 0x80,
+    0x03, 0xF3, 0xCF, 0xC0, 0x07, 0xF3, 0xCF, 0xE0, 0x0F, 0xE3, 0xC7, 0xF0,
+    0x1F, 0xC3, 0xC3, 0xF8, 0x1F, 0x83, 0xC1, 0xF8, 0x3F, 0x03, 0xC0, 0xFC,
+    0x3E, 0x03, 0xC0, 0x7C, 0x3E, 0x03, 0xC0, 0x7C, 0x7E, 0x01, 0x80, 0x7E,
+    0x7C, 0x00, 0x00, 0x3E, 0x7C, 0x00, 0x00, 0x3E, 0x7C, 0x00, 0x00, 0x3E,
+    0x7C, 0x00, 0x00, 0x3E, 0x7C, 0x00, 0x00, 0x3E, 0x3E, 0x00, 0x00, 0x7C,
+    0x3E, 0x00, 0x00, 0x7C, 0x3F, 0x00, 0x00, 0xFC, 0x1F, 0x80, 0x01, 0xF8,
+    0x1F, 0xC0, 0x03, 0xF8, 0x0F, 0xE0, 0x07, 0xF0, 0x0F, 0xF8, 0x1F, 0xF0,
+    0x07, 0xFF, 0xFF, 0xE0, 0x03, 0xFF, 0xFF, 0xC0, 0x00, 0xFF, 0xFF, 0x00,
+    0x00, 0x3F, 0xFC, 0x00, 0x00, 0x0F, 0xF0, 0x00,
+};
+
+static const uint8_t advert_icon[] = {
+0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0C, 0x00, 0x00, 0x30,
+0x1C, 0x00, 0x00, 0x38, 0x18, 0x00, 0x00, 0x18, 0x30, 0x00, 0x00, 0x0C,
+0x30, 0x60, 0x06, 0x0C, 0x60, 0xE0, 0x07, 0x06, 0x61, 0xC0, 0x03, 0x86,
+0xE1, 0x81, 0x81, 0x87, 0xC3, 0x07, 0xE0, 0xC3, 0xC3, 0x0F, 0xF0, 0xC3,
+0xC3, 0x0F, 0xF0, 0xC3, 0xC3, 0x0F, 0xF0, 0xC3, 0xC3, 0x0F, 0xF0, 0xC3,
+0xC3, 0x07, 0xE0, 0xC3, 0xC1, 0x83, 0xC1, 0x83, 0x61, 0x80, 0x01, 0x86,
+0x60, 0xC0, 0x03, 0x06, 0x70, 0xE0, 0x07, 0x0E, 0x30, 0x40, 0x02, 0x0C,
+0x38, 0x00, 0x00, 0x1C, 0x18, 0x00, 0x00, 0x18, 0x0C, 0x00, 0x00, 0x30,
+0x04, 0x00, 0x00, 0x20, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+};
--- a/examples/companion_radio/ui-orig/Button.cpp
+++ b/examples/companion_radio/ui-orig/Button.cpp
@@ -50,9 +50,12 @@ void Button::update() {
            triggerEvent(SHORT_PRESS);
        } else if (_clickCount == 2) {
            triggerEvent(DOUBLE_PRESS);
-        } else if (_clickCount >= 3) {
+        } else if (_clickCount == 3) {
            triggerEvent(TRIPLE_PRESS);
+        } else if (_clickCount >= 4) {
+            triggerEvent(QUADRUPLE_PRESS);
        }
+
        _clickCount = 0;
        _state = IDLE;
    }
@@ -116,6 +119,9 @@ void Button::triggerEvent(EventType event) {
        case TRIPLE_PRESS:
            if (_onTriplePress) _onTriplePress();
            break;
+        case QUADRUPLE_PRESS:
+            if (_onQuadruplePress) _onQuadruplePress();
+            break;
        case LONG_PRESS:
            if (_onLongPress) _onLongPress();
            break;
--- a/examples/companion_radio/ui-orig/Button.h
+++ b/examples/companion_radio/ui-orig/Button.h
@@ -16,6 +16,7 @@ public:
        SHORT_PRESS,
        DOUBLE_PRESS,
        TRIPLE_PRESS,
+        QUADRUPLE_PRESS,
        LONG_PRESS,
        ANY_PRESS
    };
@@ -32,6 +33,7 @@ public:
    void onShortPress(EventCallback callback) { _onShortPress = callback; }
    void onDoublePress(EventCallback callback) { _onDoublePress = callback; }
    void onTriplePress(EventCallback callback) { _onTriplePress = callback; }
+    void onQuadruplePress(EventCallback callback) { _onQuadruplePress = callback; }
    void onLongPress(EventCallback callback) { _onLongPress = callback; }
    void onAnyPress(EventCallback callback) { _onAnyPress = callback; }
    
@@ -68,6 +70,7 @@ private:
    EventCallback _onShortPress = nullptr;
    EventCallback _onDoublePress = nullptr;
    EventCallback _onTriplePress = nullptr;
+    EventCallback _onQuadruplePress = nullptr;
    EventCallback _onLongPress = nullptr;
    EventCallback _onAnyPress = nullptr;
    
--- a/examples/companion_radio/ui-orig/UITask.cpp
+++ b/examples/companion_radio/ui-orig/UITask.cpp
@@ -1,11 +1,10 @@
 #include "UITask.h"
 #include <Arduino.h>
 #include <helpers/TxtDataHelpers.h>
-#include "NodePrefs.h"
-#include "MyMesh.h"
+#include "../MyMesh.h"

 #define AUTO_OFF_MILLIS     15000   // 15 seconds
-#define BOOT_SCREEN_MILLIS   4000   // 4 seconds
+#define BOOT_SCREEN_MILLIS   3000   // 3 seconds

 #ifdef PIN_STATUS_LED
 #define LED_ON_MILLIS     20
@@ -34,8 +33,9 @@ static const uint8_t meshcore_logo [] PROGMEM = {
    0xe3, 0xe3, 0x8f, 0xff, 0x1f, 0xfc, 0x3c, 0x0e, 0x1f, 0xf8, 0xff, 0xf8, 0x70, 0x3c, 0x7f, 0xf8, 
 };

-void UITask::begin(DisplayDriver* display, NodePrefs* node_prefs) {
+void UITask::begin(DisplayDriver* display, SensorManager* sensors, NodePrefs* node_prefs) {
  _display = display;
+  _sensors = sensors;
  _auto_off = millis() + AUTO_OFF_MILLIS;
  clearMsgPreview();
  _node_prefs = node_prefs;
@@ -58,23 +58,33 @@ void UITask::begin(DisplayDriver* display, NodePrefs* node_prefs) {
  buzzer.begin();
 #endif

-  // Initialize button with appropriate configuration
-#if defined(PIN_USER_BTN) || defined(PIN_USER_BTN_ANA)
-  #ifdef PIN_USER_BTN
-    _userButton = new Button(PIN_USER_BTN, USER_BTN_PRESSED);
-  #else
-    _userButton = new Button(PIN_USER_BTN_ANA, USER_BTN_PRESSED, true, 20);
-  #endif
-  
+  // Initialize digital button if available
+#ifdef PIN_USER_BTN
+  _userButton = new Button(PIN_USER_BTN, USER_BTN_PRESSED);
  _userButton->begin();
  
-  // Set up button callbacks
+  // Set up digital button callbacks
  _userButton->onShortPress([this]() { handleButtonShortPress(); });
  _userButton->onDoublePress([this]() { handleButtonDoublePress(); });
  _userButton->onTriplePress([this]() { handleButtonTriplePress(); });
+  _userButton->onQuadruplePress([this]() { handleButtonQuadruplePress(); });
  _userButton->onLongPress([this]() { handleButtonLongPress(); });
  _userButton->onAnyPress([this]() { handleButtonAnyPress(); });
 #endif
+
+  // Initialize analog button if available
+#ifdef PIN_USER_BTN_ANA
+  _userButtonAnalog = new Button(PIN_USER_BTN_ANA, USER_BTN_PRESSED, true, 20);
+  _userButtonAnalog->begin();
+  
+  // Set up analog button callbacks
+  _userButtonAnalog->onShortPress([this]() { handleButtonShortPress(); });
+  _userButtonAnalog->onDoublePress([this]() { handleButtonDoublePress(); });
+  _userButtonAnalog->onTriplePress([this]() { handleButtonTriplePress(); });
+  _userButtonAnalog->onQuadruplePress([this]() { handleButtonQuadruplePress(); });
+  _userButtonAnalog->onLongPress([this]() { handleButtonLongPress(); });
+  _userButtonAnalog->onAnyPress([this]() { handleButtonAnyPress(); });
+#endif
  ui_started_at = millis();
 }

@@ -163,9 +173,9 @@ void UITask::renderCurrScreen() {

  char tmp[80];
  if (_alert[0]) {
+    _display->setTextSize(1.4);
    uint16_t textWidth = _display->getTextWidth(_alert);
    _display->setCursor((_display->width() - textWidth) / 2, 22);
-    _display->setTextSize(1.4);
    _display->setColor(DisplayDriver::GREEN);
    _display->print(_alert);
    _alert[0] = 0;
@@ -191,7 +201,7 @@ void UITask::renderCurrScreen() {
    sprintf(tmp, "%d", _msgcount);
    _display->print(tmp);
    _display->setColor(DisplayDriver::YELLOW); // last color will be kept on T114
-  } else if (millis() < BOOT_SCREEN_MILLIS) { // boot screen
+  } else if ((millis() - ui_started_at) < BOOT_SCREEN_MILLIS) { // boot screen
    // meshcore logo
    _display->setColor(DisplayDriver::BLUE);
    int logoWidth = 128;
@@ -289,11 +299,16 @@ void UITask::shutdown(bool restart){
 }

 void UITask::loop() {
-  #if defined(PIN_USER_BTN) || defined(PIN_USER_BTN_ANA)
+  #ifdef PIN_USER_BTN
    if (_userButton) {
      _userButton->update();
    }
  #endif
+  #ifdef PIN_USER_BTN_ANA
+    if (_userButtonAnalog) {
+      _userButtonAnalog->update();
+    }
+  #endif
  userLedHandler();

 #ifdef PIN_BUZZER
@@ -302,7 +317,7 @@ void UITask::loop() {

  if (_display != NULL && _display->isOn()) {
    static bool _firstBoot = true;
-    if(_firstBoot && millis() >= BOOT_SCREEN_MILLIS) {
+    if(_firstBoot && (millis() - ui_started_at) >= BOOT_SCREEN_MILLIS) {
      _need_refresh = true;
      _firstBoot = false;
    }
@@ -344,6 +359,8 @@ void UITask::handleButtonShortPress() {
        // Otherwise, refresh the display
        _need_refresh = true;
      }
+    } else {
+      _need_refresh = true; // display just turned on, so we need to refresh
    }
    // Note: Display turn-on and auto-off timer extension are handled by handleButtonAnyPress
  }
@@ -372,13 +389,38 @@ void UITask::handleButtonTriplePress() {
    if (buzzer.isQuiet()) {
      buzzer.quiet(false);
      soundBuzzer(UIEventType::ack);
+      sprintf(_alert, "Buzzer: ON");
    } else {
-      soundBuzzer(UIEventType::ack);
      buzzer.quiet(true);
+      sprintf(_alert, "Buzzer: OFF");
    }
+    _need_refresh = true;
  #endif
 }

+void UITask::handleButtonQuadruplePress() {
+  MESH_DEBUG_PRINTLN("UITask: quad press triggered");
+  if (_sensors != NULL) {
+    // toggle GPS onn/off
+    int num = _sensors->getNumSettings();
+    for (int i = 0; i < num; i++) {
+      if (strcmp(_sensors->getSettingName(i), "gps") == 0) {
+        if (strcmp(_sensors->getSettingValue(i), "1") == 0) {
+          _sensors->setSettingValue("gps", "0");
+          soundBuzzer(UIEventType::ack);
+          sprintf(_alert, "GPS: Disabled");
+        } else {
+          _sensors->setSettingValue("gps", "1");
+          soundBuzzer(UIEventType::ack);
+          sprintf(_alert, "GPS: Enabled");
+        }
+        break;
+      }
+    }
+  }
+  _need_refresh = true;
+}
+
 void UITask::handleButtonLongPress() {
  MESH_DEBUG_PRINTLN("UITask: long press triggered");
  if (millis() - ui_started_at < 8000) {   // long press in first 8 seconds since startup -> CLI/rescue
--- a/examples/companion_radio/ui-orig/UITask.h
+++ b/examples/companion_radio/ui-orig/UITask.h
@@ -2,33 +2,25 @@

 #include <MeshCore.h>
 #include <helpers/ui/DisplayDriver.h>
+#include <helpers/SensorManager.h>
 #include <stddef.h>

 #ifdef PIN_BUZZER
  #include <helpers/ui/buzzer.h>
 #endif

-#include "NodePrefs.h"
+#include "../AbstractUITask.h"
+#include "../NodePrefs.h"
+
 #include "Button.h"

- enum class UIEventType
-{
-    none,
-    contactMessage,
-    channelMessage,
-    roomMessage,
-    newContactMessage,
-    ack
-};
-
-class UITask {
+class UITask : public AbstractUITask {
  DisplayDriver* _display;
-  mesh::MainBoard* _board;
+  SensorManager* _sensors;
 #ifdef PIN_BUZZER
  genericBuzzer buzzer;
 #endif
  unsigned long _next_refresh, _auto_off;
-  bool _connected;
  NodePrefs* _node_prefs;
  char _version_info[32];
  char _origin[62];
@@ -40,9 +32,12 @@ class UITask {
  unsigned long ui_started_at;

  // Button handlers
-#if defined(PIN_USER_BTN) || defined(PIN_USER_BTN_ANA)
+#ifdef PIN_USER_BTN
  Button* _userButton = nullptr;
 #endif
+#ifdef PIN_USER_BTN_ANA
+  Button* _userButtonAnalog = nullptr;
+#endif

  void renderCurrScreen();
  void userLedHandler();
@@ -53,24 +48,26 @@ class UITask {
  void handleButtonShortPress();
  void handleButtonDoublePress();
  void handleButtonTriplePress();
+  void handleButtonQuadruplePress();
  void handleButtonLongPress();

 
 public:

-  UITask(mesh::MainBoard* board) : _board(board), _display(NULL) {
+  UITask(mesh::MainBoard* board, BaseSerialInterface* serial) : AbstractUITask(board, serial), _display(NULL), _sensors(NULL) {
      _next_refresh = 0;
      ui_started_at = 0;
-      _connected = false;
  }
-  void begin(DisplayDriver* display, NodePrefs* node_prefs);
+  void begin(DisplayDriver* display, SensorManager* sensors, NodePrefs* node_prefs);

-  void setHasConnection(bool connected) { _connected = connected; }
  bool hasDisplay() const { return _display != NULL; }
  void clearMsgPreview();
-  void msgRead(int msgcount);
-  void newMsg(uint8_t path_len, const char* from_name, const char* text, int msgcount);
-  void soundBuzzer(UIEventType bet = UIEventType::none);
+
+  // from AbstractUITask
+  void msgRead(int msgcount) override;
+  void newMsg(uint8_t path_len, const char* from_name, const char* text, int msgcount) override;
+  void soundBuzzer(UIEventType bet = UIEventType::none) override;
+  void loop() override;
+
  void shutdown(bool restart = false);
-  void loop();
 };
--- a/examples/simple_repeater/main.cpp
+++ b/examples/simple_repeater/main.cpp
@@ -22,11 +22,11 @@
 /* ------------------------------ Config -------------------------------- */

 #ifndef FIRMWARE_BUILD_DATE
-  #define FIRMWARE_BUILD_DATE   "7 Jun 2025"
+  #define FIRMWARE_BUILD_DATE   "1 Sep 2025"
 #endif

 #ifndef FIRMWARE_VERSION
-  #define FIRMWARE_VERSION   "v1.7.0"
+  #define FIRMWARE_VERSION   "v1.8.1"
 #endif

 #ifndef LORA_FREQ
@@ -98,6 +98,7 @@ struct RepeaterStats {
  uint16_t err_events;                // was 'n_full_events'
  int16_t  last_snr;   // x 4
  uint16_t n_direct_dups, n_flood_dups;
+  uint32_t total_rx_air_time_secs;
 };

 struct ClientInfo {
@@ -120,7 +121,7 @@ struct NeighbourInfo {
  int8_t snr; // multiplied by 4, user should divide to get float value
 };

-#define CLI_REPLY_DELAY_MILLIS  1000
+#define CLI_REPLY_DELAY_MILLIS  600

 class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
  FILESYSTEM* _fs;
@@ -134,6 +135,11 @@ class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
  NeighbourInfo neighbours[MAX_NEIGHBOURS];
 #endif
  CayenneLPP telemetry;
+  unsigned long set_radio_at, revert_radio_at;
+  float pending_freq;
+  float pending_bw;
+  uint8_t pending_sf;
+  uint8_t pending_cr;

  ClientInfo* putClient(const mesh::Identity& id) {
    uint32_t min_time = 0xFFFFFFFF;
@@ -149,12 +155,11 @@ class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
    oldest->id = id;
    oldest->out_path_len = -1;  // initially out_path is unknown
    oldest->last_timestamp = 0;
-    self_id.calcSharedSecret(oldest->secret, id);   // calc ECDH shared secret
    return oldest;
  }

  void putNeighbour(const mesh::Identity& id, uint32_t timestamp, float snr) {
-  #if MAX_NEIGHBOURS    // check if neighbours enabled    
+  #if MAX_NEIGHBOURS    // check if neighbours enabled
    // find existing neighbour, else use least recently updated
    uint32_t oldest_timestamp = 0xFFFFFFFF;
    NeighbourInfo* neighbour = &neighbours[0];
@@ -204,16 +209,19 @@ class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
        stats.last_snr = (int16_t)(radio_driver.getLastSNR() * 4);
        stats.n_direct_dups = ((SimpleMeshTables *)getTables())->getNumDirectDups();
        stats.n_flood_dups = ((SimpleMeshTables *)getTables())->getNumFloodDups();
+        stats.total_rx_air_time_secs = getReceiveAirTime() / 1000;

        memcpy(&reply_data[4], &stats, sizeof(stats));

        return 4 + sizeof(stats);  //  reply_len
      }
      case REQ_TYPE_GET_TELEMETRY_DATA: {
+        uint8_t perm_mask = ~(payload[1]);    // NEW: first reserved byte (of 4), is now inverse mask to apply to permissions
+
        telemetry.reset();
        telemetry.addVoltage(TELEM_CHANNEL_SELF, (float)board.getBattMilliVolts() / 1000.0f);
        // query other sensors -- target specific
-        sensors.querySensors(sender->is_admin ? 0xFF : 0x00, telemetry);
+        sensors.querySensors((sender->is_admin ? 0xFF : 0x00) & perm_mask, telemetry);

        uint8_t tlen = telemetry.getSize();
        memcpy(&reply_data[4], telemetry.getBuffer(), tlen);
@@ -337,9 +345,15 @@ protected:
  int getInterferenceThreshold() const override {
    return _prefs.interference_threshold;
  }
+  int getAGCResetInterval() const override {
+    return ((int)_prefs.agc_reset_interval) * 4000;   // milliseconds
+  }
+  uint8_t getExtraAckTransmitCount() const override {
+    return _prefs.multi_acks;
+  }

-  void onAnonDataRecv(mesh::Packet* packet, uint8_t type, const mesh::Identity& sender, uint8_t* data, size_t len) override {
-    if (type == PAYLOAD_TYPE_ANON_REQ) {  // received an initial request by a possible admin client (unknown at this stage)
+  void onAnonDataRecv(mesh::Packet* packet, const uint8_t* secret, const mesh::Identity& sender, uint8_t* data, size_t len) override {
+    if (packet->getPayloadType() == PAYLOAD_TYPE_ANON_REQ) {  // received an initial request by a possible admin client (unknown at this stage)
      uint32_t timestamp;
      memcpy(&timestamp, data, 4);

@@ -366,6 +380,7 @@ protected:
      client->last_timestamp = timestamp;
      client->last_activity = getRTCClock()->getCurrentTime();
      client->is_admin = is_admin;
+      memcpy(client->secret, secret, PUB_KEY_SIZE);

      uint32_t now = getRTCClock()->getCurrentTimeUnique();
      memcpy(reply_data, &now, 4);   // response packets always prefixed with timestamp
@@ -497,12 +512,12 @@ protected:
        }

        uint8_t temp[166];
-        const char *command = (const char *) &data[5];
+        char *command = (char *) &data[5];
        char *reply = (char *) &temp[5];
        if (is_retry) {
          *reply = 0;
        } else {
-          _cli.handleCommand(sender_timestamp, command, reply);
+          handleCommand(sender_timestamp, command, reply);
        }
        int text_len = strlen(reply);
        if (text_len > 0) {
@@ -552,6 +567,7 @@ public:
  {
    memset(known_clients, 0, sizeof(known_clients));
    next_local_advert = next_flood_advert = 0;
+    set_radio_at = revert_radio_at = 0;
    _logging = false;

  #if MAX_NEIGHBOURS
@@ -573,13 +589,11 @@ public:
    _prefs.cr = LORA_CR;
    _prefs.tx_power_dbm = LORA_TX_POWER;
    _prefs.advert_interval = 1;  // default to 2 minutes for NEW installs
-    _prefs.flood_advert_interval = 3;   // 3 hours
+    _prefs.flood_advert_interval = 12;   // 12 hours
    _prefs.flood_max = 64;
-    _prefs.interference_threshold = 14;  // DB
+    _prefs.interference_threshold = 0;  // disabled
  }

-  CommonCLI* getCLI() { return &_cli; }
-
  void begin(FILESYSTEM* fs) {
    mesh::Mesh::begin();
    _fs = fs;
@@ -597,14 +611,24 @@ public:
  const char* getBuildDate() override { return FIRMWARE_BUILD_DATE; }
  const char* getRole() override { return FIRMWARE_ROLE; }
  const char* getNodeName() { return _prefs.node_name; }
-  NodePrefs* getNodePrefs() { 
-    return &_prefs; 
+  NodePrefs* getNodePrefs() {
+    return &_prefs;
  }

  void savePrefs() override {
    _cli.savePrefs(_fs);
  }

+  void applyTempRadioParams(float freq, float bw, uint8_t sf, uint8_t cr, int timeout_mins) override {
+    set_radio_at = futureMillis(2000);   // give CLI reply some time to be sent back, before applying temp radio params
+    pending_freq = freq;
+    pending_bw = bw;
+    pending_sf = sf;
+    pending_cr = cr;
+
+    revert_radio_at = futureMillis(2000 + timeout_mins*60*1000);   // schedule when to revert radio params
+  }
+
  bool formatFileSystem() override {
 #if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
    return InternalFS.format();
@@ -695,7 +719,32 @@ public:
    *dp = 0;  // null terminator
  }

-  const uint8_t* getSelfIdPubKey() override { return self_id.pub_key; }
+  void removeNeighbor(const uint8_t* pubkey, int key_len) override {
+#if MAX_NEIGHBOURS
+    for (int i = 0; i < MAX_NEIGHBOURS; i++) {
+      NeighbourInfo* neighbour = &neighbours[i];
+      if(memcmp(neighbour->id.pub_key, pubkey, key_len) == 0){
+        neighbours[i] = NeighbourInfo(); // clear neighbour entry
+      }
+    }
+#endif
+  }
+
+  mesh::LocalIdentity& getSelfId() override { return self_id; }
+
+  void saveIdentity(const mesh::LocalIdentity& new_id) override {
+    self_id = new_id;
+#if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+    IdentityStore store(*_fs, "");
+#elif defined(ESP32)
+    IdentityStore store(*_fs, "/identity");
+#elif defined(RP2040_PLATFORM)
+    IdentityStore store(*_fs, "/identity");
+#else
+    #error "need to define saveIdentity()"
+#endif
+    store.save("_main", self_id);
+  }

  void clearStats() override {
    radio_driver.resetStats();
@@ -703,6 +752,18 @@ public:
    ((SimpleMeshTables *)getTables())->resetStats();
  }

+  void handleCommand(uint32_t sender_timestamp, char* command, char* reply) {
+    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
+      reply += 3;
+      command += 3;
+    }
+
+    _cli.handleCommand(sender_timestamp, command, reply);  // common CLI commands
+  }
+
  void loop() {
    mesh::Mesh::loop();

@@ -718,6 +779,19 @@ public:

      updateAdvertTimer();   // schedule next local advert
    }
+
+    if (set_radio_at && millisHasNowPassed(set_radio_at)) {   // apply pending (temporary) radio params
+      set_radio_at = 0;  // clear timer
+      radio_set_params(pending_freq, pending_bw, pending_sf, pending_cr);
+      MESH_DEBUG_PRINTLN("Temp radio params");
+    }
+
+    if (revert_radio_at && millisHasNowPassed(revert_radio_at)) {   // revert radio params to orig
+      revert_radio_at = 0;  // clear timer
+      radio_set_params(_prefs.freq, _prefs.bw, _prefs.sf, _prefs.cr);
+      MESH_DEBUG_PRINTLN("Radio params restored");
+    }
+
  #ifdef DISPLAY_CLASS
    ui_task.loop();
  #endif
@@ -733,7 +807,7 @@ void halt() {
  while (1) ;
 }

-static char command[80];
+static char command[160];

 void setup() {
  Serial.begin(115200);
@@ -814,7 +888,7 @@ void loop() {
  if (len > 0 && command[len - 1] == '\r') {  // received complete line
    command[len - 1] = 0;  // replace newline with C string null terminator
    char reply[160];
-    the_mesh.getCLI()->handleCommand(0, command, reply);  // NOTE: there is no sender_timestamp via serial!
+    the_mesh.handleCommand(0, command, reply);  // NOTE: there is no sender_timestamp via serial!
    if (reply[0]) {
      Serial.print("  -> "); Serial.println(reply);
    }
--- a/examples/simple_room_server/main.cpp
+++ b/examples/simple_room_server/main.cpp
@@ -22,11 +22,11 @@
 /* ------------------------------ Config -------------------------------- */

 #ifndef FIRMWARE_BUILD_DATE
-  #define FIRMWARE_BUILD_DATE   "7 Jun 2025"
+  #define FIRMWARE_BUILD_DATE   "1 Sep 2025"
 #endif

 #ifndef FIRMWARE_VERSION
-  #define FIRMWARE_VERSION   "v1.7.0"
+  #define FIRMWARE_VERSION   "v1.8.1"
 #endif

 #ifndef LORA_FREQ
@@ -123,7 +123,9 @@ struct PostInfo {
 #define PUSH_TIMEOUT_BASE          4000
 #define PUSH_ACK_TIMEOUT_FACTOR    2000

-#define CLIENT_KEEP_ALIVE_SECS   128
+#define POST_SYNC_DELAY_SECS       6
+
+#define CLIENT_KEEP_ALIVE_SECS     0     // Now Disabled (was 128)

 #define REQ_TYPE_GET_STATUS          0x01   // same as _GET_STATS
 #define REQ_TYPE_KEEP_ALIVE          0x02
@@ -163,6 +165,11 @@ class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
  int next_post_idx;
  PostInfo posts[MAX_UNSYNCED_POSTS];   // cyclic queue
  CayenneLPP telemetry;
+  unsigned long set_radio_at, revert_radio_at;
+  float pending_freq;
+  float pending_bw;
+  uint8_t pending_sf;
+  uint8_t pending_cr;

  ClientInfo* putClient(const mesh::Identity& id) {
    for (int i = 0; i < num_clients; i++) {
@@ -186,7 +193,6 @@ class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
    newClient->id = id;
    newClient->out_path_len = -1;  // initially out_path is unknown
    newClient->last_timestamp = 0;
-    self_id.calcSharedSecret(newClient->secret, id);   // calc ECDH shared secret
    return newClient;
  }

@@ -292,7 +298,7 @@ class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
    // uint32_t now = getRTCClock()->getCurrentTimeUnique();
    // memcpy(reply_data, &now, 4);   // response packets always prefixed with timestamp
    memcpy(reply_data, &sender_timestamp, 4);   // reflect sender_timestamp back in response packet (kind of like a 'tag')
-   
+
    switch (payload[0]) {
      case REQ_TYPE_GET_STATUS: {
        ServerStats stats;
@@ -320,10 +326,12 @@ class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
      }

      case REQ_TYPE_GET_TELEMETRY_DATA: {
+        uint8_t perm_mask = ~(payload[1]);    // NEW: first reserved byte (of 4), is now inverse mask to apply to permissions
+
        telemetry.reset();
        telemetry.addVoltage(TELEM_CHANNEL_SELF, (float)board.getBattMilliVolts() / 1000.0f);
        // query other sensors -- target specific
-        sensors.querySensors(sender->permission == RoomPermission::ADMIN ? 0xFF : 0x00, telemetry);
+        sensors.querySensors((sender->permission == RoomPermission::ADMIN ? 0xFF : 0x00) & perm_mask, telemetry);

        uint8_t tlen = telemetry.getSize();
        memcpy(&reply_data[4], telemetry.getBuffer(), tlen);
@@ -332,7 +340,7 @@ class MyMesh : public mesh::Mesh, public CommonCLICallbacks {
    }
    return 0;  // unknown command
  }
-   
+
 protected:
  float getAirtimeBudgetFactor() const override {
    return _prefs.airtime_factor;
@@ -420,6 +428,12 @@ protected:
  int getInterferenceThreshold() const override {
    return _prefs.interference_threshold;
  }
+  int getAGCResetInterval() const override {
+    return ((int)_prefs.agc_reset_interval) * 4000;   // milliseconds
+  }
+  uint8_t getExtraAckTransmitCount() const override {
+    return _prefs.multi_acks;
+  }

  bool allowPacketForward(const mesh::Packet* packet) override {
    if (_prefs.disable_fwd) return false;
@@ -427,8 +441,8 @@ protected:
    return true;
  }

-  void onAnonDataRecv(mesh::Packet* packet, uint8_t type, const mesh::Identity& sender, uint8_t* data, size_t len) override {
-    if (type == PAYLOAD_TYPE_ANON_REQ) {  // received an initial request by a possible admin client (unknown at this stage)
+  void onAnonDataRecv(mesh::Packet* packet, const uint8_t* secret, const mesh::Identity& sender, uint8_t* data, size_t len) override {
+    if (packet->getPayloadType() == PAYLOAD_TYPE_ANON_REQ) {  // received an initial request by a possible admin client (unknown at this stage)
      uint32_t sender_timestamp, sender_sync_since;
      memcpy(&sender_timestamp, data, 4);
      memcpy(&sender_sync_since, &data[4], 4);  // sender's "sync messags SINCE x" timestamp
@@ -460,6 +474,7 @@ protected:
      client->sync_since = sender_sync_since;
      client->pending_ack = 0;
      client->push_failures = 0;
+      memcpy(client->secret, secret, PUB_KEY_SIZE);

      uint32_t now = getRTCClock()->getCurrentTime();
      client->last_activity = now;
@@ -550,7 +565,7 @@ protected:
            if (is_retry) {
              temp[5] = 0;  // no reply
            } else {
-              _cli.handleCommand(sender_timestamp, (const char *) &data[5], (char *) &temp[5]);
+              handleCommand(sender_timestamp, (char *) &data[5], (char *) &temp[5]);
              temp[4] = (TXT_TYPE_CLI_DATA << 2);  // attempt and flags,  (NOTE: legacy was: TXT_TYPE_PLAIN)
            }
            send_ack = false;
@@ -573,15 +588,22 @@ protected:

        uint32_t delay_millis;
        if (send_ack) {
-          mesh::Packet* ack = createAck(ack_hash);
-          if (ack) {
-            if (client->out_path_len < 0) {
-              sendFlood(ack, TXT_ACK_DELAY);
-            } else {
-              sendDirect(ack, client->out_path, client->out_path_len, TXT_ACK_DELAY);
+          if (client->out_path_len < 0) {
+            mesh::Packet* ack = createAck(ack_hash);
+            if (ack) sendFlood(ack, TXT_ACK_DELAY);
+            delay_millis = TXT_ACK_DELAY + REPLY_DELAY_MILLIS;
+          } else {
+            uint32_t d = TXT_ACK_DELAY;
+            if (getExtraAckTransmitCount() > 0) {
+              mesh::Packet* a1 = createMultiAck(ack_hash, 1);
+              if (a1) sendDirect(a1, client->out_path, client->out_path_len, d);
+              d += 300;
            }
+
+            mesh::Packet* a2 = createAck(ack_hash);
+            if (a2) sendDirect(a2, client->out_path, client->out_path_len, d);
+            delay_millis = d + REPLY_DELAY_MILLIS;
          }
-          delay_millis = TXT_ACK_DELAY + REPLY_DELAY_MILLIS;
        } else {
          delay_millis = 0;
        }
@@ -706,6 +728,7 @@ public:
  {
    next_local_advert = next_flood_advert = 0;
    _logging = false;
+    set_radio_at = revert_radio_at = 0;

    // defaults
    memset(&_prefs, 0, sizeof(_prefs));
@@ -723,9 +746,9 @@ public:
    _prefs.tx_power_dbm = LORA_TX_POWER;
    _prefs.disable_fwd = 1;
    _prefs.advert_interval = 1;  // default to 2 minutes for NEW installs
-    _prefs.flood_advert_interval = 3;   // 3 hours
+    _prefs.flood_advert_interval = 12;   // 12 hours
    _prefs.flood_max = 64;
-    _prefs.interference_threshold = 14;  // DB
+    _prefs.interference_threshold = 0;  // disabled
  #ifdef ROOM_PASSWORD
    StrHelper::strncpy(_prefs.guest_password, ROOM_PASSWORD, sizeof(_prefs.guest_password));
  #endif
@@ -738,8 +761,6 @@ public:
    _num_posted = _num_post_pushes = 0;
  }

-  CommonCLI* getCLI() { return &_cli; }
-
  void begin(FILESYSTEM* fs) {
    mesh::Mesh::begin();
    _fs = fs;
@@ -757,14 +778,24 @@ public:
  const char* getBuildDate() override { return FIRMWARE_BUILD_DATE; }
  const char* getRole() override { return FIRMWARE_ROLE; }
  const char* getNodeName() { return _prefs.node_name; }
-  NodePrefs* getNodePrefs() { 
-    return &_prefs; 
+  NodePrefs* getNodePrefs() {
+    return &_prefs;
  }

  void savePrefs() override {
    _cli.savePrefs(_fs);
  }

+  void applyTempRadioParams(float freq, float bw, uint8_t sf, uint8_t cr, int timeout_mins) override {
+    set_radio_at = futureMillis(2000);   // give CLI reply some time to be sent back, before applying temp radio params
+    pending_freq = freq;
+    pending_bw = bw;
+    pending_sf = sf;
+    pending_cr = cr;
+
+    revert_radio_at = futureMillis(2000 + timeout_mins*60*1000);   // schedule when to revert radio params
+  }
+
  bool formatFileSystem() override {
    #if defined(NRF52_PLATFORM)
      return InternalFS.format();
@@ -832,7 +863,21 @@ public:
    strcpy(reply, "not supported");
  }

-  const uint8_t* getSelfIdPubKey() override { return self_id.pub_key; }
+  mesh::LocalIdentity& getSelfId() override { return self_id; }
+
+  void saveIdentity(const mesh::LocalIdentity& new_id) override {
+    self_id = new_id;
+#if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+    IdentityStore store(*_fs, "");
+#elif defined(ESP32)
+    IdentityStore store(*_fs, "/identity");
+#elif defined(RP2040_PLATFORM)
+    IdentityStore store(*_fs, "/identity");
+#else
+    #error "need to define saveIdentity()"
+#endif
+    store.save("_main", self_id);
+  }

  void clearStats() override {
    radio_driver.resetStats();
@@ -840,6 +885,18 @@ public:
    ((SimpleMeshTables *)getTables())->resetStats();
  }

+  void handleCommand(uint32_t sender_timestamp, char* command, char* reply) {
+    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
+      reply += 3;
+      command += 3;
+    }
+
+    _cli.handleCommand(sender_timestamp, command, reply);  // common CLI commands
+  }
+
  void loop() {
    mesh::Mesh::loop();

@@ -858,13 +915,15 @@ public:
      bool did_push = false;
      if (client->pending_ack == 0 && client->last_activity != 0 && client->push_failures < 3) {  // not already waiting for ACK, AND not evicted, AND retries not max
        MESH_DEBUG_PRINTLN("loop - checking for client %02X", (uint32_t) client->id.pub_key[0]);
+        uint32_t now = getRTCClock()->getCurrentTime();
        for (int k = 0, idx = next_post_idx; k < MAX_UNSYNCED_POSTS; k++) {
-          if (posts[idx].post_timestamp > client->sync_since   // is new post for this Client?
-            && !posts[idx].author.matches(client->id)) {    // don't push posts to the author
+          auto p = &posts[idx];
+          if (now >= p->post_timestamp + POST_SYNC_DELAY_SECS && p->post_timestamp > client->sync_since   // is new post for this Client?
+            && !p->author.matches(client->id)) {    // don't push posts to the author
            // push this post to Client, then wait for ACK
-            pushPostToClient(client, posts[idx]);
+            pushPostToClient(client, *p);
            did_push = true;
-            MESH_DEBUG_PRINTLN("loop - pushed to client %02X: %s", (uint32_t) client->id.pub_key[0], posts[idx].text);
+            MESH_DEBUG_PRINTLN("loop - pushed to client %02X: %s", (uint32_t) client->id.pub_key[0], p->text);
            break;
          }
          idx = (idx + 1) % MAX_UNSYNCED_POSTS;   // wrap to start of cyclic queue
@@ -895,6 +954,18 @@ public:
      updateAdvertTimer();   // schedule next local advert
    }

+    if (set_radio_at && millisHasNowPassed(set_radio_at)) {   // apply pending (temporary) radio params
+      set_radio_at = 0;  // clear timer
+      radio_set_params(pending_freq, pending_bw, pending_sf, pending_cr);
+      MESH_DEBUG_PRINTLN("Temp radio params");
+    }
+
+    if (revert_radio_at && millisHasNowPassed(revert_radio_at)) {   // revert radio params to orig
+      revert_radio_at = 0;  // clear timer
+      radio_set_params(_prefs.freq, _prefs.bw, _prefs.sf, _prefs.cr);
+      MESH_DEBUG_PRINTLN("Radio params restored");
+    }
+
  #ifdef DISPLAY_CLASS
    ui_task.loop();
  #endif
@@ -991,7 +1062,7 @@ void loop() {
  if (len > 0 && command[len - 1] == '\r') {  // received complete line
    command[len - 1] = 0;  // replace newline with C string null terminator
    char reply[160];
-    the_mesh.getCLI()->handleCommand(0, command, reply);  // NOTE: there is no sender_timestamp via serial!
+    the_mesh.handleCommand(0, command, reply);  // NOTE: there is no sender_timestamp via serial!
    if (reply[0]) {
      Serial.print("  -> "); Serial.println(reply);
    }
--- a/examples/simple_secure_chat/main.cpp
+++ b/examples/simple_secure_chat/main.cpp
@@ -202,7 +202,7 @@ protected:
    return true;
  }

-  void onDiscoveredContact(ContactInfo& contact, bool is_new) override {
+  void onDiscoveredContact(ContactInfo& contact, bool is_new, uint8_t path_len, const uint8_t* path) override {
    // TODO: if not in favs,  prompt to add as fav(?)

    Serial.printf("ADVERT from -> %s\n", contact.name);
--- a/examples/simple_sensor/SensorMesh.cpp
+++ b/examples/simple_sensor/SensorMesh.cpp
--- a/examples/simple_sensor/SensorMesh.h
+++ b/examples/simple_sensor/SensorMesh.h
@@ -0,0 +1,177 @@
+#pragma once
+
+#include <Arduino.h>   // needed for PlatformIO
+#include <Mesh.h>
+
+#include "TimeSeriesData.h"
+
+#if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+#include <InternalFileSystem.h>
+#elif defined(RP2040_PLATFORM)
+#include <LittleFS.h>
+#elif defined(ESP32)
+#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/CommonCLI.h>
+#include <RTClib.h>
+#include <target.h>
+
+#define PERM_ACL_ROLE_MASK     3   // lower 2 bits
+#define PERM_ACL_GUEST         0
+#define PERM_ACL_READ_ONLY     1
+#define PERM_ACL_READ_WRITE    2
+#define PERM_ACL_ADMIN         3
+
+#define PERM_RESERVED1         (1 << 2)
+#define PERM_RESERVED2         (1 << 3)
+#define PERM_RESERVED3         (1 << 4)
+#define PERM_RESERVED4         (1 << 5)
+#define PERM_RECV_ALERTS_LO    (1 << 6)   // low priority alerts
+#define PERM_RECV_ALERTS_HI    (1 << 7)   // high priority alerts
+
+struct ContactInfo {
+  mesh::Identity id;
+  uint8_t permissions;
+  int8_t out_path_len;
+  uint8_t out_path[MAX_PATH_SIZE];
+  uint8_t shared_secret[PUB_KEY_SIZE];
+  uint32_t last_timestamp;   // by THEIR clock  (transient)
+  uint32_t last_activity;    // by OUR clock    (transient)
+
+  bool isAdmin() const { return (permissions & PERM_ACL_ROLE_MASK) == PERM_ACL_ADMIN; }
+};
+
+#ifndef FIRMWARE_BUILD_DATE
+  #define FIRMWARE_BUILD_DATE   "1 Sep 2025"
+#endif
+
+#ifndef FIRMWARE_VERSION
+  #define FIRMWARE_VERSION   "v1.8.1"
+#endif
+
+#define FIRMWARE_ROLE "sensor"
+
+#define MAX_CONTACTS           20
+
+#define MAX_SEARCH_RESULTS      8
+#define MAX_CONCURRENT_ALERTS   4
+
+class SensorMesh : public mesh::Mesh, public CommonCLICallbacks {
+public:
+  SensorMesh(mesh::MainBoard& board, mesh::Radio& radio, mesh::MillisecondClock& ms, mesh::RNG& rng, mesh::RTCClock& rtc, mesh::MeshTables& tables);
+  void begin(FILESYSTEM* fs);
+  void loop();
+  void handleCommand(uint32_t sender_timestamp, char* command, char* reply);
+
+  // CommonCLI callbacks
+  const char* getFirmwareVer() override { return FIRMWARE_VERSION; }
+  const char* getBuildDate() override { return FIRMWARE_BUILD_DATE; }
+  const char* getRole() override { return FIRMWARE_ROLE; }
+  const char* getNodeName() { return _prefs.node_name; }
+  NodePrefs* getNodePrefs() { return &_prefs; }
+  void savePrefs() override { _cli.savePrefs(_fs); }
+  bool formatFileSystem() override;
+  void sendSelfAdvertisement(int delay_millis) override;
+  void updateAdvertTimer() override;
+  void updateFloodAdvertTimer() override;
+  void setLoggingOn(bool enable) override {  }
+  void eraseLogFile() override { }
+  void dumpLogFile() override { }
+  void setTxPower(uint8_t power_dbm) override;
+  void formatNeighborsReply(char *reply) override {
+    strcpy(reply, "not supported");
+  }
+  mesh::LocalIdentity& getSelfId() override { return self_id; }
+  void saveIdentity(const mesh::LocalIdentity& new_id) override;
+  void clearStats() override { }
+  void applyTempRadioParams(float freq, float bw, uint8_t sf, uint8_t cr, int timeout_mins) override;
+
+  float getTelemValue(uint8_t channel, uint8_t type);
+
+protected:
+  // current telemetry data queries
+  float getVoltage(uint8_t channel) { return getTelemValue(channel, LPP_VOLTAGE); }
+  float getCurrent(uint8_t channel) { return getTelemValue(channel, LPP_CURRENT); }
+  float getPower(uint8_t channel) { return getTelemValue(channel, LPP_POWER); }
+  float getTemperature(uint8_t channel) { return getTelemValue(channel, LPP_TEMPERATURE); }
+  float getRelativeHumidity(uint8_t channel) { return getTelemValue(channel, LPP_RELATIVE_HUMIDITY); }
+  float getBarometricPressure(uint8_t channel) { return getTelemValue(channel, LPP_BAROMETRIC_PRESSURE); }
+  float getAltitude(uint8_t channel) { return getTelemValue(channel, LPP_ALTITUDE); }
+  bool  getGPS(uint8_t channel, float& lat, float& lon, float& alt);
+
+  // alerts
+  enum AlertPriority { LOW_PRI_ALERT, HIGH_PRI_ALERT };
+
+  struct Trigger {
+    uint32_t timestamp;
+    AlertPriority pri;
+    uint32_t expected_acks[4];
+    int8_t   curr_contact_idx;
+    uint8_t  attempt;
+    unsigned long send_expiry;
+    char text[MAX_PACKET_PAYLOAD];
+
+    Trigger() { text[0] = 0; }
+    bool isTriggered() const { return text[0] != 0; }
+  };
+  void alertIf(bool condition, Trigger& t, AlertPriority pri, const char* text);
+
+  virtual void onSensorDataRead() = 0;   // for app to implement
+  virtual int querySeriesData(uint32_t start_secs_ago, uint32_t end_secs_ago, MinMaxAvg dest[], int max_num) = 0;  // for app to implement
+  virtual bool handleCustomCommand(uint32_t sender_timestamp, char* command, char* reply) { return false; }
+
+  // Mesh overrides
+  float getAirtimeBudgetFactor() const override;
+  bool allowPacketForward(const mesh::Packet* packet) override;
+  int calcRxDelay(float score, uint32_t air_time) const override;
+  uint32_t getRetransmitDelay(const mesh::Packet* packet) override;
+  uint32_t getDirectRetransmitDelay(const mesh::Packet* packet) override;
+  int getInterferenceThreshold() const override;
+  int getAGCResetInterval() const 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 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 onAckRecv(mesh::Packet* packet, uint32_t ack_crc) override;
+  virtual bool handleIncomingMsg(ContactInfo& from, uint32_t timestamp, uint8_t* data, uint flags, size_t len);
+  void sendAckTo(const ContactInfo& dest, uint32_t ack_hash);
+private:
+  FILESYSTEM* _fs;
+  unsigned long next_local_advert, next_flood_advert;
+  NodePrefs _prefs;
+  CommonCLI _cli;
+  uint8_t reply_data[MAX_PACKET_PAYLOAD];
+  ContactInfo contacts[MAX_CONTACTS];
+  int num_contacts;
+  unsigned long dirty_contacts_expiry;
+  CayenneLPP telemetry;
+  uint32_t last_read_time;
+  int matching_peer_indexes[MAX_SEARCH_RESULTS];
+  int num_alert_tasks;
+  Trigger* alert_tasks[MAX_CONCURRENT_ALERTS];
+  unsigned long set_radio_at, revert_radio_at;
+  float pending_freq;
+  float pending_bw;
+  uint8_t pending_sf;
+  uint8_t pending_cr;
+
+  void loadContacts();
+  void saveContacts();
+  uint8_t handleLoginReq(const mesh::Identity& sender, const uint8_t* secret, uint32_t sender_timestamp, const uint8_t* data);
+  uint8_t handleRequest(uint8_t perms, uint32_t sender_timestamp, uint8_t req_type, uint8_t* payload, size_t payload_len);
+  mesh::Packet* createSelfAdvert();
+  ContactInfo* getContact(const uint8_t* pubkey, int key_len);
+  ContactInfo* putContact(const mesh::Identity& id, uint8_t init_perms);
+  bool applyContactPermissions(const uint8_t* pubkey, int key_len, uint8_t perms);
+
+  void sendAlert(ContactInfo* c, Trigger* t);
+
+};
--- a/examples/simple_sensor/TimeSeriesData.cpp
+++ b/examples/simple_sensor/TimeSeriesData.cpp
@@ -0,0 +1,45 @@
+#include "TimeSeriesData.h"
+
+void TimeSeriesData::recordData(mesh::RTCClock* clock, float value) {
+  uint32_t now = clock->getCurrentTime();
+  if (now >= last_timestamp + interval_secs) {
+    last_timestamp = now;
+
+    data[next] = value;   // append to cycle table
+    next = (next + 1) % num_slots;
+  }
+}
+
+void TimeSeriesData::calcMinMaxAvg(mesh::RTCClock* clock, uint32_t start_secs_ago, uint32_t end_secs_ago, MinMaxAvg* dest, uint8_t channel, uint8_t lpp_type) const {
+  int i = next, n = num_slots;
+  uint32_t ago = clock->getCurrentTime() - last_timestamp;
+  int num_values = 0;
+  float total = 0.0f;
+
+  dest->_channel = channel;
+  dest->_lpp_type = lpp_type;
+
+  // start at most recet recording, back-track through to oldest
+  while (n > 0) {
+    n--;
+    i = (i + num_slots - 1) % num_slots;  // go back by one
+    if (ago >= end_secs_ago && ago < start_secs_ago) {   // filter by the desired time range
+      float v = data[i];
+      num_values++;
+      total += v;
+      if (num_values == 1) {
+        dest->_max = dest->_min = v;
+      } else {
+        if (v < dest->_min) dest->_min = v;
+        if (v > dest->_max) dest->_max = v;
+      }
+    }
+    ago += interval_secs;
+  }
+  // calc average
+  if (num_values > 0) {
+    dest->_avg = total / num_values;
+  } else {
+    dest->_max = dest->_min = dest->_avg = NAN;
+  }
+}
--- a/examples/simple_sensor/TimeSeriesData.h
+++ b/examples/simple_sensor/TimeSeriesData.h
@@ -0,0 +1,29 @@
+#pragma once
+
+#include <Arduino.h>
+#include <Mesh.h>
+
+struct MinMaxAvg {
+  float _min, _max, _avg;
+  uint8_t _lpp_type, _channel;
+};
+
+class TimeSeriesData {
+  float* data;
+  int num_slots, next;
+  uint32_t last_timestamp;
+  uint32_t interval_secs;
+
+public:
+  TimeSeriesData(float* array, int num, uint32_t secs) : num_slots(num), data(array), last_timestamp(0), next(0), interval_secs(secs) { 
+    memset(data, 0, sizeof(float)*num);
+  }
+  TimeSeriesData(int num, uint32_t secs) : num_slots(num), last_timestamp(0), next(0), interval_secs(secs) {
+    data = new float[num];
+    memset(data, 0, sizeof(float)*num);
+  }
+
+  void recordData(mesh::RTCClock* clock, float value);
+  void calcMinMaxAvg(mesh::RTCClock* clock, uint32_t start_secs_ago, uint32_t end_secs_ago, MinMaxAvg* dest, uint8_t channel, uint8_t lpp_type) const;
+};
+
--- a/examples/simple_sensor/UITask.cpp
+++ b/examples/simple_sensor/UITask.cpp
@@ -0,0 +1,114 @@
+#include "UITask.h"
+#include <Arduino.h>
+#include <helpers/CommonCLI.h>
+
+#define AUTO_OFF_MILLIS      20000  // 20 seconds
+#define BOOT_SCREEN_MILLIS   4000   // 4 seconds
+
+// 'meshcore', 128x13px
+static const uint8_t meshcore_logo [] PROGMEM = {
+    0x3c, 0x01, 0xe3, 0xff, 0xc7, 0xff, 0x8f, 0x03, 0x87, 0xfe, 0x1f, 0xfe, 0x1f, 0xfe, 0x1f, 0xfe, 
+    0x3c, 0x03, 0xe3, 0xff, 0xc7, 0xff, 0x8e, 0x03, 0x8f, 0xfe, 0x3f, 0xfe, 0x1f, 0xff, 0x1f, 0xfe, 
+    0x3e, 0x03, 0xc3, 0xff, 0x8f, 0xff, 0x0e, 0x07, 0x8f, 0xfe, 0x7f, 0xfe, 0x1f, 0xff, 0x1f, 0xfc, 
+    0x3e, 0x07, 0xc7, 0x80, 0x0e, 0x00, 0x0e, 0x07, 0x9e, 0x00, 0x78, 0x0e, 0x3c, 0x0f, 0x1c, 0x00, 
+    0x3e, 0x0f, 0xc7, 0x80, 0x1e, 0x00, 0x0e, 0x07, 0x1e, 0x00, 0x70, 0x0e, 0x38, 0x0f, 0x3c, 0x00, 
+    0x7f, 0x0f, 0xc7, 0xfe, 0x1f, 0xfc, 0x1f, 0xff, 0x1c, 0x00, 0x70, 0x0e, 0x38, 0x0e, 0x3f, 0xf8, 
+    0x7f, 0x1f, 0xc7, 0xfe, 0x0f, 0xff, 0x1f, 0xff, 0x1c, 0x00, 0xf0, 0x0e, 0x38, 0x0e, 0x3f, 0xf8, 
+    0x7f, 0x3f, 0xc7, 0xfe, 0x0f, 0xff, 0x1f, 0xff, 0x1c, 0x00, 0xf0, 0x1e, 0x3f, 0xfe, 0x3f, 0xf0, 
+    0x77, 0x3b, 0x87, 0x00, 0x00, 0x07, 0x1c, 0x0f, 0x3c, 0x00, 0xe0, 0x1c, 0x7f, 0xfc, 0x38, 0x00, 
+    0x77, 0xfb, 0x8f, 0x00, 0x00, 0x07, 0x1c, 0x0f, 0x3c, 0x00, 0xe0, 0x1c, 0x7f, 0xf8, 0x38, 0x00, 
+    0x73, 0xf3, 0x8f, 0xff, 0x0f, 0xff, 0x1c, 0x0e, 0x3f, 0xf8, 0xff, 0xfc, 0x70, 0x78, 0x7f, 0xf8, 
+    0xe3, 0xe3, 0x8f, 0xff, 0x1f, 0xfe, 0x3c, 0x0e, 0x3f, 0xf8, 0xff, 0xfc, 0x70, 0x3c, 0x7f, 0xf8, 
+    0xe3, 0xe3, 0x8f, 0xff, 0x1f, 0xfc, 0x3c, 0x0e, 0x1f, 0xf8, 0xff, 0xf8, 0x70, 0x3c, 0x7f, 0xf8, 
+};
+
+void UITask::begin(NodePrefs* node_prefs, const char* build_date, const char* firmware_version) {
+  _prevBtnState = HIGH;
+  _auto_off = millis() + AUTO_OFF_MILLIS;
+  _node_prefs = node_prefs;
+  _display->turnOn();
+
+  // strip off dash and commit hash by changing dash to null terminator
+  // e.g: v1.2.3-abcdef -> v1.2.3
+  char *version = strdup(firmware_version);
+  char *dash = strchr(version, '-');
+  if(dash){
+    *dash = 0;
+  }
+
+  // v1.2.3 (1 Jan 2025)
+  sprintf(_version_info, "%s (%s)", version, build_date);
+}
+
+void UITask::renderCurrScreen() {
+  char tmp[80];
+  if (millis() < BOOT_SCREEN_MILLIS) { // boot screen
+    // meshcore logo
+    _display->setColor(DisplayDriver::BLUE);
+    int logoWidth = 128;
+    _display->drawXbm((_display->width() - logoWidth) / 2, 3, meshcore_logo, logoWidth, 13);
+
+    // version info
+    _display->setColor(DisplayDriver::LIGHT);
+    _display->setTextSize(1);
+    uint16_t versionWidth = _display->getTextWidth(_version_info);
+    _display->setCursor((_display->width() - versionWidth) / 2, 22);
+    _display->print(_version_info);
+
+    // node type
+    const char* node_type = "< Sensor >";
+    uint16_t typeWidth = _display->getTextWidth(node_type);
+    _display->setCursor((_display->width() - typeWidth) / 2, 35);
+    _display->print(node_type);
+  } else {  // home screen
+    // node name
+    _display->setCursor(0, 0);
+    _display->setTextSize(1);
+    _display->setColor(DisplayDriver::GREEN);
+    _display->print(_node_prefs->node_name);
+
+    // freq / sf
+    _display->setCursor(0, 20);
+    _display->setColor(DisplayDriver::YELLOW);
+    sprintf(tmp, "FREQ: %06.3f SF%d", _node_prefs->freq, _node_prefs->sf);
+    _display->print(tmp);
+
+    // bw / cr
+    _display->setCursor(0, 30);
+    sprintf(tmp, "BW: %03.2f CR: %d", _node_prefs->bw, _node_prefs->cr);
+    _display->print(tmp);
+  }
+}
+
+void UITask::loop() {
+#ifdef PIN_USER_BTN
+  if (millis() >= _next_read) {
+    int btnState = digitalRead(PIN_USER_BTN);
+    if (btnState != _prevBtnState) {
+      if (btnState == LOW) {  // pressed?
+        if (_display->isOn()) {
+          // TODO: any action ?
+        } else {
+          _display->turnOn();
+        }
+        _auto_off = millis() + AUTO_OFF_MILLIS;   // extend auto-off timer
+      }
+      _prevBtnState = btnState;
+    }
+    _next_read = millis() + 200;  // 5 reads per second
+  }
+#endif
+
+  if (_display->isOn()) {
+    if (millis() >= _next_refresh) {
+      _display->startFrame();
+      renderCurrScreen();
+      _display->endFrame();
+
+      _next_refresh = millis() + 1000;   // refresh every second
+    }
+    if (millis() > _auto_off) {
+      _display->turnOff();
+    }
+  }
+}
--- a/examples/simple_sensor/UITask.h
+++ b/examples/simple_sensor/UITask.h
@@ -0,0 +1,19 @@
+#pragma once
+
+#include <helpers/ui/DisplayDriver.h>
+#include <helpers/CommonCLI.h>
+
+class UITask {
+  DisplayDriver* _display;
+  unsigned long _next_read, _next_refresh, _auto_off;
+  int _prevBtnState;
+  NodePrefs* _node_prefs;
+  char _version_info[32];
+
+  void renderCurrScreen();
+public:
+  UITask(DisplayDriver& display) : _display(&display) { _next_read = _next_refresh = 0; }
+  void begin(NodePrefs* node_prefs, const char* build_date, const char* firmware_version);
+
+  void loop();
+};
--- a/examples/simple_sensor/main.cpp
+++ b/examples/simple_sensor/main.cpp
@@ -0,0 +1,147 @@
+#include "SensorMesh.h"
+
+#ifdef DISPLAY_CLASS
+  #include "UITask.h"
+  static UITask ui_task(display);
+#endif
+
+class MyMesh : public SensorMesh {
+public:
+  MyMesh(mesh::MainBoard& board, mesh::Radio& radio, mesh::MillisecondClock& ms, mesh::RNG& rng, mesh::RTCClock& rtc, mesh::MeshTables& tables)
+     : SensorMesh(board, radio, ms, rng, rtc, tables), 
+       battery_data(12*24, 5*60)    // 24 hours worth of battery data, every 5 minutes
+  {
+  }
+
+protected:
+  /* ========================== custom logic here ========================== */
+  Trigger low_batt, critical_batt;
+  TimeSeriesData  battery_data;
+
+  void onSensorDataRead() override {
+    float batt_voltage = getVoltage(TELEM_CHANNEL_SELF);
+
+    battery_data.recordData(getRTCClock(), batt_voltage);   // record battery
+    alertIf(batt_voltage < 3.4f, critical_batt, HIGH_PRI_ALERT, "Battery is critical!");
+    alertIf(batt_voltage < 3.6f, low_batt, LOW_PRI_ALERT, "Battery is low");
+  }
+
+  int querySeriesData(uint32_t start_secs_ago, uint32_t end_secs_ago, MinMaxAvg dest[], int max_num) override {
+    battery_data.calcMinMaxAvg(getRTCClock(), start_secs_ago, end_secs_ago, &dest[0], TELEM_CHANNEL_SELF, LPP_VOLTAGE);
+    return 1;
+  }
+
+  bool handleCustomCommand(uint32_t sender_timestamp, char* command, char* reply) override {
+    if (strcmp(command, "magic") == 0) {    // example 'custom' command handling
+      strcpy(reply, "**Magic now done**");
+      return true;   // handled
+    }
+    return false;  // not handled
+  }
+  /* ======================================================================= */
+};
+
+StdRNG fast_rng;
+SimpleMeshTables tables;
+
+MyMesh the_mesh(board, radio_driver, *new ArduinoMillis(), fast_rng, rtc_clock, tables);
+
+void halt() {
+  while (1) ;
+}
+
+static char command[160];
+
+void setup() {
+  Serial.begin(115200);
+  delay(1000);
+
+  board.begin();
+
+#ifdef DISPLAY_CLASS
+  if (display.begin()) {
+    display.startFrame();
+    display.print("Please wait...");
+    display.endFrame();
+  }
+#endif
+
+  if (!radio_init()) { halt(); }
+
+  fast_rng.begin(radio_get_rng_seed());
+
+  FILESYSTEM* fs;
+#if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
+  InternalFS.begin();
+  fs = &InternalFS;
+  IdentityStore store(InternalFS, "");
+#elif defined(ESP32)
+  SPIFFS.begin(true);
+  fs = &SPIFFS;
+  IdentityStore store(SPIFFS, "/identity");
+#elif defined(RP2040_PLATFORM)
+  LittleFS.begin();
+  fs = &LittleFS;
+  IdentityStore store(LittleFS, "/identity");
+  store.begin();
+#else
+  #error "need to define filesystem"
+#endif
+  if (!store.load("_main", the_mesh.self_id)) {
+    MESH_DEBUG_PRINTLN("Generating new keypair");
+    the_mesh.self_id = radio_new_identity();   // create new random identity
+    int count = 0;
+    while (count < 10 && (the_mesh.self_id.pub_key[0] == 0x00 || the_mesh.self_id.pub_key[0] == 0xFF)) {  // reserved id hashes
+      the_mesh.self_id = radio_new_identity(); count++;
+    }
+    store.save("_main", the_mesh.self_id);
+  }
+
+  Serial.print("Sensor ID: ");
+  mesh::Utils::printHex(Serial, the_mesh.self_id.pub_key, PUB_KEY_SIZE); Serial.println();
+
+  command[0] = 0;
+
+  sensors.begin();
+
+  the_mesh.begin(fs);
+
+#ifdef DISPLAY_CLASS
+  ui_task.begin(the_mesh.getNodePrefs(), FIRMWARE_BUILD_DATE, FIRMWARE_VERSION);
+#endif
+
+  // send out initial Advertisement to the mesh
+  the_mesh.sendSelfAdvertisement(16000);
+}
+
+void loop() {
+  int len = strlen(command);
+  while (Serial.available() && len < sizeof(command)-1) {
+    char c = Serial.read();
+    if (c != '\n') {
+      command[len++] = c;
+      command[len] = 0;
+    }
+    Serial.print(c);
+  }
+  if (len == sizeof(command)-1) {  // command buffer full
+    command[sizeof(command)-1] = '\r';
+  }
+
+  if (len > 0 && command[len - 1] == '\r') {  // received complete line
+    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!
+    if (reply[0]) {
+      Serial.print("  -> "); Serial.println(reply);
+    }
+
+    command[0] = 0;  // reset command buffer
+  }
+
+  the_mesh.loop();
+  sensors.loop();
+#ifdef DISPLAY_CLASS
+  ui_task.loop();
+#endif
+}
--- a/library.json
+++ b/library.json
@@ -0,0 +1,16 @@
+{
+    "name": "MeshCore",
+    "version" : "1.8.0",
+    "dependencies": {
+        "SPI": "*",
+        "Wire": "*",
+        "jgromes/RadioLib": "^7.1.2",
+        "rweather/Crypto": "^0.4.0",
+        "adafruit/RTClib": "^2.1.3",
+        "melopero/Melopero RV3028": "^1.1.0",
+        "electroniccats/CayenneLPP": "1.4.0"
+    },
+    "build": {
+        "extraScript": "build_as_lib.py"
+    }
+}
--- a/platformio.ini
+++ b/platformio.ini
@@ -29,15 +29,31 @@ build_flags = -w -DNDEBUG -DRADIOLIB_STATIC_ONLY=1 -DRADIOLIB_GODMODE=1
  -D LORA_SF=11
  -D ENABLE_PRIVATE_KEY_IMPORT=1   ; NOTE: comment these out for more secure firmware
  -D ENABLE_PRIVATE_KEY_EXPORT=1
+  -D RADIOLIB_EXCLUDE_CC1101=1
+  -D RADIOLIB_EXCLUDE_RF69=1
+  -D RADIOLIB_EXCLUDE_SX1231=1
+  -D RADIOLIB_EXCLUDE_SI443X=1
+  -D RADIOLIB_EXCLUDE_RFM2X=1
+  -D RADIOLIB_EXCLUDE_SX128X=1
+  -D RADIOLIB_EXCLUDE_AFSK=1
+  -D RADIOLIB_EXCLUDE_AX25=1
+  -D RADIOLIB_EXCLUDE_HELLSCHREIBER=1
+  -D RADIOLIB_EXCLUDE_MORSE=1
+  -D RADIOLIB_EXCLUDE_APRS=1
+  -D RADIOLIB_EXCLUDE_BELL=1
+  -D RADIOLIB_EXCLUDE_RTTY=1
+  -D RADIOLIB_EXCLUDE_SSTV=1
 build_src_filter =
  +<*.cpp>
  +<helpers/*.cpp>
+  +<helpers/radiolib/*.cpp>
+  +<helpers/ui/MomentaryButton.cpp>

 ; ----------------- ESP32 ---------------------

 [esp32_base]
 extends = arduino_base
-platform = espressif32
+platform = platformio/espressif32@6.11.0
 monitor_filters = esp32_exception_decoder
 extra_scripts = merge-bin.py
 build_flags = ${arduino_base.build_flags}
@@ -49,6 +65,11 @@ lib_deps =
  me-no-dev/ESPAsyncWebServer @ ^3.6.0
  file://arch/esp32/AsyncElegantOTA

+; esp32c6 uses arduino framework 3.x
+[esp32c6_base]
+extends = esp32_base
+platform = https://github.com/pioarduino/platform-espressif32/releases/download/53.03.12/platform-espressif32.zip
+
 ; ----------------- NRF52 ---------------------

 [nrf52_base]
@@ -58,18 +79,13 @@ build_flags = ${arduino_base.build_flags}
  -D NRF52_PLATFORM
  -D LFS_NO_ASSERT=1

-[nrf52840_base]
-extends = nrf52_base
-build_flags = ${nrf52_base.build_flags}
-lib_deps =
-  ${nrf52_base.lib_deps}
-  rweather/Crypto @ ^0.4.0
-  https://github.com/adafruit/Adafruit_nRF52_Arduino
-
 ; ----------------- RP2040 ---------------------

 [rp2040_base]
 extends = arduino_base
+upload_protocol = picotool
+board_build.core = earlephilhower
+platform = https://github.com/maxgerhardt/platform-raspberrypi.git
 build_flags = ${arduino_base.build_flags}
  -D RP2040_PLATFORM

@@ -87,3 +103,33 @@ build_src_filter = ${arduino_base.build_src_filter}
  +<helpers/stm32>
 lib_deps = ${arduino_base.lib_deps}
  file://arch/stm32/Adafruit_LittleFS_stm32
+
+[sensor_base]
+build_flags =
+  -D ENV_INCLUDE_GPS=1
+  -D ENV_INCLUDE_AHTX0=1
+  -D ENV_INCLUDE_BME280=1
+  -D ENV_INCLUDE_BMP280=1
+  -D ENV_INCLUDE_SHTC3=1
+  -D ENV_INCLUDE_SHT4X=1
+  -D ENV_INCLUDE_LPS22HB=1
+  -D ENV_INCLUDE_INA3221=1
+  -D ENV_INCLUDE_INA219=1
+  -D ENV_INCLUDE_INA226=1
+  -D ENV_INCLUDE_INA260=1
+  -D ENV_INCLUDE_MLX90614=1
+  -D ENV_INCLUDE_VL53L0X=1
+lib_deps =
+  adafruit/Adafruit INA3221 Library @ ^1.0.1
+  adafruit/Adafruit INA219 @ ^1.2.3
+  robtillaart/INA226 @ ^0.6.4
+  adafruit/Adafruit INA260 Library @ ^1.5.3
+  adafruit/Adafruit AHTX0 @ ^2.0.5
+  adafruit/Adafruit BME280 Library @ ^2.3.0
+  adafruit/Adafruit BMP280 Library @ ^2.6.8
+  adafruit/Adafruit SHTC3 Library @ ^1.0.1
+  sensirion/Sensirion I2C SHT4x @ ^1.1.2
+  arduino-libraries/Arduino_LPS22HB @ ^1.0.2
+  adafruit/Adafruit MLX90614 Library @ ^2.1.5
+  adafruit/Adafruit_VL53L0X @ ^1.2.4
+  stevemarple/MicroNMEA @ ^2.0.6
--- a/src/Dispatcher.cpp
+++ b/src/Dispatcher.cpp
@@ -87,6 +87,14 @@ void Dispatcher::loop() {
    } else {
      return;  // can't do any more radio activity until send is complete or timed out
    }
+
+    // going back into receive mode now...
+    next_agc_reset_time = futureMillis(getAGCResetInterval());
+  }
+
+  if (getAGCResetInterval() > 0 && millisHasNowPassed(next_agc_reset_time)) {
+    _radio->resetAGC();
+    next_agc_reset_time = futureMillis(getAGCResetInterval());
  }

  // check inbound (delayed) queue
@@ -151,6 +159,7 @@ void Dispatcher::checkRecv() {
            pkt->_snr = _radio->getLastSNR() * 4.0f;
            score = _radio->packetScore(_radio->getLastSNR(), len);
            air_time = _radio->getEstAirtimeFor(len);
+            rx_air_time += air_time;
          }
        }
      }
@@ -161,9 +170,9 @@ void Dispatcher::checkRecv() {
  if (pkt) {
    #if MESH_PACKET_LOGGING
    Serial.print(getLogDateTime());
-    Serial.printf(": RX, len=%d (type=%d, route=%s, payload_len=%d) SNR=%d RSSI=%d score=%d", 
+    Serial.printf(": RX, len=%d (type=%d, route=%s, payload_len=%d) SNR=%d RSSI=%d score=%d time=%d", 
            pkt->getRawLength(), pkt->getPayloadType(), pkt->isRouteDirect() ? "D" : "F", pkt->payload_len,
-            (int)pkt->getSNR(), (int)_radio->getLastRSSI(), (int)(score*1000));
+            (int)pkt->getSNR(), (int)_radio->getLastRSSI(), (int)(score*1000), air_time);

    static uint8_t packet_hash[MAX_HASH_SIZE];
    pkt->calculatePacketHash(packet_hash);
--- a/src/Dispatcher.h
+++ b/src/Dispatcher.h
@@ -65,6 +65,8 @@ public:

  virtual void triggerNoiseFloorCalibrate(int threshold) { }

+  virtual void resetAGC() { }
+
  virtual bool isInRecvMode() const = 0;

  /**
@@ -112,11 +114,11 @@ typedef uint32_t  DispatcherAction;
 */
 class Dispatcher {
  Packet* outbound;  // current outbound packet
-  unsigned long outbound_expiry, outbound_start, total_air_time;
+  unsigned long outbound_expiry, outbound_start, total_air_time, rx_air_time;
  unsigned long next_tx_time;
  unsigned long cad_busy_start;
  unsigned long radio_nonrx_start;
-  unsigned long next_floor_calib_time;
+  unsigned long next_floor_calib_time, next_agc_reset_time;
  bool  prev_isrecv_mode;
  uint32_t n_sent_flood, n_sent_direct;
  uint32_t n_recv_flood, n_recv_direct;
@@ -132,9 +134,11 @@ protected:
  Dispatcher(Radio& radio, MillisecondClock& ms, PacketManager& mgr)
    : _radio(&radio), _ms(&ms), _mgr(&mgr)
  {
-    outbound = NULL; total_air_time = 0; next_tx_time = 0;
+    outbound = NULL;
+    total_air_time = rx_air_time = 0;
+    next_tx_time = 0;
    cad_busy_start = 0;
-    next_floor_calib_time = 0;
+    next_floor_calib_time = next_agc_reset_time = 0;
    _err_flags = 0;
    radio_nonrx_start = 0;
    prev_isrecv_mode = true;
@@ -154,6 +158,7 @@ protected:
  virtual uint32_t getCADFailRetryDelay() const;
  virtual uint32_t getCADFailMaxDuration() const;
  virtual int getInterferenceThreshold() const { return 0; }    // disabled by default
+  virtual int getAGCResetInterval() const { return 0; }    // disabled by default

 public:
  void begin();
@@ -164,6 +169,7 @@ public:
  void sendPacket(Packet* packet, uint8_t priority, uint32_t delay_millis=0);

  unsigned long getTotalAirTime() const { return total_air_time; }  // in milliseconds
+  unsigned long getReceiveAirTime() const {return rx_air_time; }
  uint32_t getNumSentFlood() const { return n_sent_flood; }
  uint32_t getNumSentDirect() const { return n_sent_direct; }
  uint32_t getNumRecvFlood() const { return n_recv_flood; }
--- a/src/Mesh.cpp
+++ b/src/Mesh.cpp
@@ -22,6 +22,9 @@ uint32_t Mesh::getRetransmitDelay(const mesh::Packet* packet) {
 uint32_t Mesh::getDirectRetransmitDelay(const Packet* packet) {
  return 0;  // by default, no delay
 }
+uint8_t Mesh::getExtraAckTransmitCount() const {
+  return 0;
+}

 uint32_t Mesh::getCADFailRetryDelay() const {
  return _rng->nextInt(1, 4)*120;
@@ -67,22 +70,22 @@ DispatcherAction Mesh::onRecvPacket(Packet* pkt) {

  if (pkt->isRouteDirect() && pkt->path_len >= PATH_HASH_SIZE) {
    if (self_id.isHashMatch(pkt->path) && allowPacketForward(pkt)) {
-      if (_tables->hasSeen(pkt)) return ACTION_RELEASE;  // don't retransmit!
-
-      // remove our hash from 'path', then re-broadcast
-      pkt->path_len -= PATH_HASH_SIZE;
-  #if 0
-      memcpy(pkt->path, &pkt->path[PATH_HASH_SIZE], pkt->path_len);
-  #elif PATH_HASH_SIZE == 1
-      for (int k = 0; k < pkt->path_len; k++) {  // shuffle bytes by 1
-        pkt->path[k] = pkt->path[k + 1];
+      if (pkt->getPayloadType() == PAYLOAD_TYPE_MULTIPART) {
+        return forwardMultipartDirect(pkt);
+      } else if (pkt->getPayloadType() == PAYLOAD_TYPE_ACK) {
+        if (!_tables->hasSeen(pkt)) {  // don't retransmit!
+          removeSelfFromPath(pkt);
+          routeDirectRecvAcks(pkt, 0);
+        }
+        return ACTION_RELEASE;
      }
-  #else
-      #error "need path remove impl"
-  #endif

-      uint32_t d = getDirectRetransmitDelay(pkt);
-      return ACTION_RETRANSMIT_DELAYED(0, d);  // Routed traffic is HIGHEST priority 
+      if (!_tables->hasSeen(pkt)) {
+        removeSelfFromPath(pkt);
+
+        uint32_t d = getDirectRetransmitDelay(pkt);
+        return ACTION_RETRANSMIT_DELAYED(0, d);  // Routed traffic is HIGHEST priority 
+      }
    }
    return ACTION_RELEASE;   // this node is NOT the next hop (OR this packet has already been forwarded), so discard.
  }
@@ -135,7 +138,7 @@ DispatcherAction Mesh::onRecvPacket(Packet* pkt) {
                int k = 0;
                uint8_t path_len = data[k++];
                uint8_t* path = &data[k]; k += path_len;
-                uint8_t extra_type = data[k++];
+                uint8_t extra_type = data[k++] & 0x0F;   // upper 4 bits reserved for future use
                uint8_t* extra = &data[k];
                uint8_t extra_len = len - k;   // remainder of packet (may be padded with zeroes!)
                if (onPeerPathRecv(pkt, j, secret, path, path_len, extra_type, extra, extra_len)) {
@@ -181,7 +184,7 @@ DispatcherAction Mesh::onRecvPacket(Packet* pkt) {
          uint8_t data[MAX_PACKET_PAYLOAD];
          int len = Utils::MACThenDecrypt(secret, data, macAndData, pkt->payload_len - i);
          if (len > 0) {  // success!
-            onAnonDataRecv(pkt, pkt->getPayloadType(), sender, data, len);
+            onAnonDataRecv(pkt, secret, sender, data, len);
            pkt->markDoNotRetransmit();
          }
        }
@@ -261,6 +264,32 @@ DispatcherAction Mesh::onRecvPacket(Packet* pkt) {
      }
      break;
    }
+    case PAYLOAD_TYPE_MULTIPART:
+      if (pkt->payload_len > 2) {
+        uint8_t remaining = pkt->payload[0] >> 4;  // num of packets in this multipart sequence still to be sent
+        uint8_t type = pkt->payload[0] & 0x0F;
+
+        if (type == PAYLOAD_TYPE_ACK && pkt->payload_len >= 5) {    // a multipart ACK
+          Packet tmp;
+          tmp.header = pkt->header;
+          tmp.path_len = pkt->path_len;
+          memcpy(tmp.path, pkt->path, pkt->path_len);
+          tmp.payload_len = pkt->payload_len - 1;
+          memcpy(tmp.payload, &pkt->payload[1], tmp.payload_len);
+
+          if (!_tables->hasSeen(&tmp)) {
+            uint32_t ack_crc;
+            memcpy(&ack_crc, tmp.payload, 4);
+
+            onAckRecv(&tmp, ack_crc);
+            //action = routeRecvPacket(&tmp);  // NOTE: currently not needed, as multipart ACKs not sent Flood
+          }
+        } else {
+          // FUTURE: other multipart types??
+        }
+      }
+      break;
+
    default:
      MESH_DEBUG_PRINTLN("%s Mesh::onRecvPacket(): unknown payload type, header: %d", getLogDateTime(), (int) pkt->header);
      // Don't flood route unknown packet types!   action = routeRecvPacket(pkt);
@@ -269,6 +298,20 @@ DispatcherAction Mesh::onRecvPacket(Packet* pkt) {
  return action;
 }

+void Mesh::removeSelfFromPath(Packet* pkt) {
+  // remove our hash from 'path'
+  pkt->path_len -= PATH_HASH_SIZE;
+#if 0
+  memcpy(pkt->path, &pkt->path[PATH_HASH_SIZE], pkt->path_len);
+#elif PATH_HASH_SIZE == 1
+  for (int k = 0; k < pkt->path_len; k++) {  // shuffle bytes by 1
+    pkt->path[k] = pkt->path[k + 1];
+  }
+#else
+  #error "need path remove impl"
+#endif
+}
+
 DispatcherAction Mesh::routeRecvPacket(Packet* packet) {
  if (packet->isRouteFlood() && !packet->isMarkedDoNotRetransmit()
    && packet->path_len + PATH_HASH_SIZE <= MAX_PATH_SIZE && allowPacketForward(packet)) {
@@ -282,6 +325,54 @@ DispatcherAction Mesh::routeRecvPacket(Packet* packet) {
  return ACTION_RELEASE;
 }

+DispatcherAction Mesh::forwardMultipartDirect(Packet* pkt) {
+  uint8_t remaining = pkt->payload[0] >> 4;  // num of packets in this multipart sequence still to be sent
+  uint8_t type = pkt->payload[0] & 0x0F;
+
+  if (type == PAYLOAD_TYPE_ACK && pkt->payload_len >= 5) {    // a multipart ACK
+    Packet tmp;
+    tmp.header = pkt->header;
+    tmp.path_len = pkt->path_len;
+    memcpy(tmp.path, pkt->path, pkt->path_len);
+    tmp.payload_len = pkt->payload_len - 1;
+    memcpy(tmp.payload, &pkt->payload[1], tmp.payload_len);
+
+    if (!_tables->hasSeen(&tmp)) {   // don't retransmit!
+      removeSelfFromPath(&tmp);
+      routeDirectRecvAcks(&tmp, ((uint32_t)remaining + 1) * 300);  // expect multipart ACKs 300ms apart (x2)
+    }
+  }
+  return ACTION_RELEASE;
+}
+
+void Mesh::routeDirectRecvAcks(Packet* packet, uint32_t delay_millis) {
+  if (!packet->isMarkedDoNotRetransmit()) {
+    uint32_t crc;
+    memcpy(&crc, packet->payload, 4);
+
+    uint8_t extra = getExtraAckTransmitCount();
+    while (extra > 0) {
+      delay_millis += getDirectRetransmitDelay(packet) + 300;
+      auto a1 = createMultiAck(crc, extra);
+      if (a1) {
+        memcpy(a1->path, packet->path, a1->path_len = packet->path_len);
+        a1->header &= ~PH_ROUTE_MASK;
+        a1->header |= ROUTE_TYPE_DIRECT;
+        sendPacket(a1, 0, delay_millis);
+      }
+      extra--;
+    }
+
+    auto a2 = createAck(crc);
+    if (a2) {
+      memcpy(a2->path, packet->path, a2->path_len = packet->path_len);
+      a2->header &= ~PH_ROUTE_MASK;
+      a2->header |= ROUTE_TYPE_DIRECT;
+      sendPacket(a2, 0, delay_millis);
+    }
+  }
+}
+
 Packet* Mesh::createAdvert(const LocalIdentity& id, const uint8_t* app_data, size_t app_data_len) {
  if (app_data_len > MAX_ADVERT_DATA_SIZE) return NULL;

@@ -449,6 +540,21 @@ Packet* Mesh::createAck(uint32_t ack_crc) {
  return packet;
 }

+Packet* Mesh::createMultiAck(uint32_t ack_crc, uint8_t remaining) {
+  Packet* packet = obtainNewPacket();
+  if (packet == NULL) {
+    MESH_DEBUG_PRINTLN("%s Mesh::createMultiAck(): error, packet pool empty", getLogDateTime());
+    return NULL;
+  }
+  packet->header = (PAYLOAD_TYPE_MULTIPART << PH_TYPE_SHIFT);  // ROUTE_TYPE_* set later
+
+  packet->payload[0] = (remaining << 4) | PAYLOAD_TYPE_ACK;
+  memcpy(&packet->payload[1], &ack_crc, 4);
+  packet->payload_len = 5;
+
+  return packet;
+}
+
 Packet* Mesh::createRawData(const uint8_t* data, size_t len) {
  if (len > sizeof(Packet::payload)) return NULL;  // invalid arg

--- a/src/Mesh.h
+++ b/src/Mesh.h
@@ -28,6 +28,11 @@ class Mesh : public Dispatcher {
  RNG* _rng;
  MeshTables* _tables;

+  void removeSelfFromPath(Packet* packet);
+  void routeDirectRecvAcks(Packet* packet, uint32_t delay_millis);
+  //void routeRecvAcks(Packet* packet, uint32_t delay_millis);
+  DispatcherAction forwardMultipartDirect(Packet* pkt);
+
 protected:
  DispatcherAction onRecvPacket(Packet* pkt) override;

@@ -54,6 +59,11 @@ protected:
   */
  virtual uint32_t getDirectRetransmitDelay(const Packet* packet);

+  /**
+   * \returns  number of extra (Direct) ACK transmissions wanted.
+   */
+  virtual uint8_t getExtraAckTransmitCount() const;
+
  /**
   * \brief  Perform search of local DB of peers/contacts.
   * \returns  Number of peers with matching hash
@@ -107,10 +117,10 @@ protected:
  /**
   * \brief  A (now decrypted) data packet has been received.
   *         NOTE: these can be received multiple times (per sender/contents), via different routes
-   * \param  type  one of: PAYLOAD_TYPE_ANON_REQ
+   * \param  secret  ECDH shared secret
   * \param  sender  public key provided by sender
  */
-  virtual void onAnonDataRecv(Packet* packet, uint8_t type, const Identity& sender, uint8_t* data, size_t len) { }
+  virtual void onAnonDataRecv(Packet* packet, const uint8_t* secret, const Identity& sender, uint8_t* data, size_t len) { }

  /**
   * \brief  A path TO 'sender' has been received. (also with optional 'extra' data encoded)
@@ -165,6 +175,7 @@ public:
  Packet* createAnonDatagram(uint8_t type, const LocalIdentity& sender, const Identity& dest, const uint8_t* secret, const uint8_t* data, size_t data_len);
  Packet* createGroupDatagram(uint8_t type, const GroupChannel& channel, const uint8_t* data, size_t data_len);
  Packet* createAck(uint32_t ack_crc);
+  Packet* createMultiAck(uint32_t ack_crc, uint8_t remaining);
  Packet* createPathReturn(const uint8_t* dest_hash, 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* 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);
--- a/src/MeshCore.h
+++ b/src/MeshCore.h
@@ -41,6 +41,8 @@ public:
  virtual void onAfterTransmit() { }
  virtual void reboot() = 0;
  virtual void powerOff() { /* no op */ }
+  virtual uint32_t getGpio() { return 0; }
+  virtual void setGpio(uint32_t values) {}
  virtual uint8_t getStartupReason() const = 0;
  virtual bool startOTAUpdate(const char* id, char reply[]) { return false; }   // not supported
 };
--- a/src/Packet.h
+++ b/src/Packet.h
@@ -26,6 +26,7 @@ namespace mesh {
 #define PAYLOAD_TYPE_ANON_REQ    0x07    // generic request (prefixed with dest_hash, ephemeral pub_key, MAC) (enc data: ...)
 #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_RAW_CUSTOM   0x0F    // custom packet as raw bytes, for applications with custom encryption, payloads, etc

--- a/src/helpers/AdvertDataHelpers.cpp
+++ b/src/helpers/AdvertDataHelpers.cpp
@@ -3,7 +3,7 @@
  uint8_t AdvertDataBuilder::encodeTo(uint8_t app_data[]) {
    app_data[0] = _type;
    int i = 1;
-    if (!(_lat == 0 && _lon == 0)) {
+    if (_has_loc) {
      app_data[0] |= ADV_LATLON_MASK;
      memcpy(&app_data[i], &_lat, 4); i += 4;
      memcpy(&app_data[i], &_lon, 4); i += 4;
--- a/src/helpers/AdvertDataHelpers.h
+++ b/src/helpers/AdvertDataHelpers.h
@@ -8,7 +8,8 @@
 #define ADV_TYPE_CHAT         1
 #define ADV_TYPE_REPEATER     2
 #define ADV_TYPE_ROOM         3
-//FUTURE: 4..15
+#define ADV_TYPE_SENSOR       4
+//FUTURE: 5..15

 #define ADV_LATLON_MASK       0x10
 #define ADV_FEAT1_MASK        0x20   // FUTURE
@@ -17,15 +18,16 @@

 class AdvertDataBuilder {
  uint8_t _type;
+  bool _has_loc;
  const char* _name;
  int32_t _lat, _lon;
  uint16_t _extra1 = 0;
  uint16_t _extra2 = 0;
 public:
-  AdvertDataBuilder(uint8_t adv_type) : _type(adv_type), _name(NULL), _lat(0), _lon(0) { }
-  AdvertDataBuilder(uint8_t adv_type, const char* name) : _type(adv_type), _name(name), _lat(0), _lon(0)  { }
+  AdvertDataBuilder(uint8_t adv_type) : _type(adv_type), _name(NULL), _has_loc(false) { }
+  AdvertDataBuilder(uint8_t adv_type, const char* name) : _type(adv_type), _name(name), _has_loc(false) { }
  AdvertDataBuilder(uint8_t adv_type, const char* name, double lat, double lon) : 
-      _type(adv_type), _name(name), _lat(lat * 1E6), _lon(lon * 1E6)  { }
+      _type(adv_type), _name(name), _has_loc(true), _lat(lat * 1E6), _lon(lon * 1E6)  { }

  void setFeat1(uint16_t extra) { _extra1 = extra; }
  void setFeat2(uint16_t extra) { _extra2 = extra; }
@@ -56,7 +58,7 @@ public:
  bool hasName() const { return _name[0] != 0; }
  const char* getName() const { return _name; }

-  bool hasLatLon() const { return !(_lat == 0 && _lon == 0); }
+  bool hasLatLon() const { return (_flags & ADV_LATLON_MASK) != 0; }
  int32_t getIntLat() const { return _lat; }
  int32_t getIntLon() const { return _lon; }
  double getLat() const { return ((double)_lat) / 1000000.0; }
--- a/src/helpers/BaseChatMesh.cpp
+++ b/src/helpers/BaseChatMesh.cpp
@@ -9,6 +9,17 @@
  #define TXT_ACK_DELAY     200
 #endif

+mesh::Packet* BaseChatMesh::createSelfAdvert(const char* name) {
+  uint8_t app_data[MAX_ADVERT_DATA_SIZE];
+  uint8_t app_data_len;
+  {
+    AdvertDataBuilder builder(ADV_TYPE_CHAT, name);
+    app_data_len = builder.encodeTo(app_data);
+  }
+
+  return createAdvert(self_id, app_data, app_data_len);
+}
+
 mesh::Packet* BaseChatMesh::createSelfAdvert(const char* name, double lat, double lon) {
  uint8_t app_data[MAX_ADVERT_DATA_SIZE];
  uint8_t app_data_len;
@@ -20,6 +31,23 @@ mesh::Packet* BaseChatMesh::createSelfAdvert(const char* name, double lat, doubl
  return createAdvert(self_id, app_data, app_data_len);
 }

+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);
+  } else {
+    uint32_t d = TXT_ACK_DELAY;
+    if (getExtraAckTransmitCount() > 0) {
+      mesh::Packet* a1 = createMultiAck(ack_hash, 1);
+      if (a1) sendDirect(a1, dest.out_path, dest.out_path_len, d);
+      d += 300;
+    }
+
+    mesh::Packet* a2 = createAck(ack_hash);
+    if (a2) sendDirect(a2, dest.out_path, dest.out_path_len, d);
+  }
+}
+
 void BaseChatMesh::onAdvertRecv(mesh::Packet* packet, const mesh::Identity& id, uint32_t timestamp, const uint8_t* app_data, size_t app_data_len) {
  AdvertDataParser parser(app_data, app_data_len);
  if (!(parser.isValid() && parser.hasName())) {
@@ -58,7 +86,7 @@ void BaseChatMesh::onAdvertRecv(mesh::Packet* packet, const mesh::Identity& id,
      }
      ci.last_advert_timestamp = timestamp;
      ci.lastmod = getRTCClock()->getCurrentTime();
-      onDiscoveredContact(ci, true);       // let UI know
+      onDiscoveredContact(ci, true, packet->path_len, packet->path);       // let UI know
      return;
    }

@@ -89,7 +117,7 @@ void BaseChatMesh::onAdvertRecv(mesh::Packet* packet, const mesh::Identity& id,
  from->last_advert_timestamp = timestamp;
  from->lastmod = getRTCClock()->getCurrentTime();

-  onDiscoveredContact(*from, is_new);       // let UI know
+  onDiscoveredContact(*from, is_new, packet->path_len, packet->path);       // let UI know
 }

 int BaseChatMesh::searchPeersByHash(const uint8_t* hash) {
@@ -141,14 +169,7 @@ void BaseChatMesh::onPeerDataRecv(mesh::Packet* packet, uint8_t type, int sender
                                                PAYLOAD_TYPE_ACK, (uint8_t *) &ack_hash, 4);
        if (path) sendFlood(path, TXT_ACK_DELAY);
      } else {
-        mesh::Packet* ack = createAck(ack_hash);
-        if (ack) {
-          if (from.out_path_len < 0) {
-            sendFlood(ack, TXT_ACK_DELAY);
-          } else {
-            sendDirect(ack, from.out_path, from.out_path_len, TXT_ACK_DELAY);
-          }
-        }
+        sendAckTo(from, ack_hash);
      }
    } else if (flags == TXT_TYPE_CLI_DATA) {
      onCommandDataRecv(from, packet, timestamp, (const char *) &data[5]);  // let UI know
@@ -174,14 +195,7 @@ void BaseChatMesh::onPeerDataRecv(mesh::Packet* packet, uint8_t type, int sender
                                                PAYLOAD_TYPE_ACK, (uint8_t *) &ack_hash, 4);
        if (path) sendFlood(path, TXT_ACK_DELAY);
      } else {
-        mesh::Packet* ack = createAck(ack_hash);
-        if (ack) {
-          if (from.out_path_len < 0) {
-            sendFlood(ack, TXT_ACK_DELAY);
-          } else {
-            sendDirect(ack, from.out_path, from.out_path_len, TXT_ACK_DELAY);
-          }
-        }
+        sendAckTo(from, ack_hash);
      }
    } else {
      MESH_DEBUG_PRINTLN("onPeerDataRecv: unsupported message type: %u", (uint32_t) flags);
@@ -221,9 +235,13 @@ bool BaseChatMesh::onPeerPathRecv(mesh::Packet* packet, int sender_idx, const ui

  ContactInfo& from = contacts[i];

-  // NOTE: for this impl, we just replace the current 'out_path' regardless, whenever sender sends us a new out_path.
+  return onContactPathRecv(from, packet->path, packet->path_len, path, path_len, extra_type, extra, extra_len);
+}
+
+bool BaseChatMesh::onContactPathRecv(ContactInfo& from, uint8_t* in_path, uint8_t in_path_len, uint8_t* out_path, uint8_t out_path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len) {
+  // NOTE: default impl, we just replace the current 'out_path' regardless, whenever sender sends us a new out_path.
  // FUTURE: could store multiple out_paths per contact, and try to find which is the 'best'(?)
-  memcpy(from.out_path, path, from.out_path_len = path_len);  // store a copy of path, for sendDirect()
+  memcpy(from.out_path, out_path, from.out_path_len = out_path_len);  // store a copy of path, for sendDirect()
  from.lastmod = getRTCClock()->getCurrentTime();

  onContactPathUpdated(from);
@@ -392,22 +410,52 @@ bool BaseChatMesh::importContact(const uint8_t src_buf[], uint8_t len) {
 }

 int BaseChatMesh::sendLogin(const ContactInfo& recipient, const char* password, uint32_t& est_timeout) {
-  int tlen;
-  uint8_t temp[24];
-  uint32_t now = getRTCClock()->getCurrentTimeUnique();
-  memcpy(temp, &now, 4);   // mostly an extra blob to help make packet_hash unique
-  if (recipient.type == ADV_TYPE_ROOM) {
-    memcpy(&temp[4], &recipient.sync_since, 4);
-    int len = strlen(password); if (len > 15) len = 15;  // max 15 chars currently
-    memcpy(&temp[8], password, len);
-    tlen = 8 + len;
-  } else {
-    int len = strlen(password); if (len > 15) len = 15;  // max 15 chars currently
-    memcpy(&temp[4], password, len);
-    tlen = 4 + len;
-  }
+  mesh::Packet* pkt;
+  {
+    int tlen;
+    uint8_t temp[24];
+    uint32_t now = getRTCClock()->getCurrentTimeUnique();
+    memcpy(temp, &now, 4);   // mostly an extra blob to help make packet_hash unique
+    if (recipient.type == ADV_TYPE_ROOM) {
+      memcpy(&temp[4], &recipient.sync_since, 4);
+      int len = strlen(password); if (len > 15) len = 15;  // max 15 chars currently
+      memcpy(&temp[8], password, len);
+      tlen = 8 + len;
+    } else {
+      int len = strlen(password); if (len > 15) len = 15;  // max 15 chars currently
+      memcpy(&temp[4], password, len);
+      tlen = 4 + len;
+    }

-  auto pkt = createAnonDatagram(PAYLOAD_TYPE_ANON_REQ, self_id, recipient.id, recipient.shared_secret, temp, tlen);
+    pkt = createAnonDatagram(PAYLOAD_TYPE_ANON_REQ, self_id, recipient.id, recipient.shared_secret, temp, tlen);
+  }
+  if (pkt) {
+    uint32_t t = _radio->getEstAirtimeFor(pkt->getRawLength());
+    if (recipient.out_path_len < 0) {
+      sendFlood(pkt);
+      est_timeout = calcFloodTimeoutMillisFor(t);
+      return MSG_SEND_SENT_FLOOD;
+    } else {
+      sendDirect(pkt, recipient.out_path, recipient.out_path_len);
+      est_timeout = calcDirectTimeoutMillisFor(t, recipient.out_path_len);
+      return MSG_SEND_SENT_DIRECT;
+    }
+  }
+  return MSG_SEND_FAILED;
+}
+
+int  BaseChatMesh::sendRequest(const ContactInfo& recipient, const uint8_t* req_data, uint8_t data_len, uint32_t& tag, uint32_t& est_timeout) {
+  if (data_len > MAX_PACKET_PAYLOAD - 16) return MSG_SEND_FAILED;
+
+  mesh::Packet* pkt;
+  {
+    uint8_t temp[MAX_PACKET_PAYLOAD];
+    tag = getRTCClock()->getCurrentTimeUnique();
+    memcpy(temp, &tag, 4);   // mostly an extra blob to help make packet_hash unique
+    memcpy(&temp[4], req_data, data_len);
+
+    pkt = createDatagram(PAYLOAD_TYPE_REQ, recipient.id, recipient.shared_secret, temp, 4 + data_len);
+  }
  if (pkt) {
    uint32_t t = _radio->getEstAirtimeFor(pkt->getRawLength());
    if (recipient.out_path_len < 0) {
@@ -424,14 +472,17 @@ int BaseChatMesh::sendLogin(const ContactInfo& recipient, const char* password,
 }

 int  BaseChatMesh::sendRequest(const ContactInfo& recipient, uint8_t req_type, uint32_t& tag, uint32_t& est_timeout) {
-  uint8_t temp[13];
-  tag = getRTCClock()->getCurrentTimeUnique();
-  memcpy(temp, &tag, 4);   // mostly an extra blob to help make packet_hash unique
-  temp[4] = req_type;
-  memset(&temp[5], 0, 4);  // reserved (possibly for 'since' param)
-  getRNG()->random(&temp[9], 4);   // random blob to help make packet-hash unique
+  mesh::Packet* pkt;
+  {
+    uint8_t temp[13];
+    tag = getRTCClock()->getCurrentTimeUnique();
+    memcpy(temp, &tag, 4);   // mostly an extra blob to help make packet_hash unique
+    temp[4] = req_type;
+    memset(&temp[5], 0, 4);  // reserved (possibly for 'since' param)
+    getRNG()->random(&temp[9], 4);   // random blob to help make packet-hash unique

-  auto pkt = createDatagram(PAYLOAD_TYPE_REQ, recipient.id, recipient.shared_secret, temp, sizeof(temp));
+    pkt = createDatagram(PAYLOAD_TYPE_REQ, recipient.id, recipient.shared_secret, temp, sizeof(temp));
+  }
  if (pkt) {
    uint32_t t = _radio->getEstAirtimeFor(pkt->getRawLength());
    if (recipient.out_path_len < 0) {
--- a/src/helpers/BaseChatMesh.h
+++ b/src/helpers/BaseChatMesh.h
@@ -72,6 +72,7 @@ class BaseChatMesh : public mesh::Mesh {
  ConnectionInfo connections[MAX_CONNECTIONS];

  mesh::Packet* composeMsgPacket(const ContactInfo& recipient, uint32_t timestamp, uint8_t attempt, const char *text, uint32_t& expected_ack);
+  void sendAckTo(const ContactInfo& dest, uint32_t ack_hash);

 protected:
  BaseChatMesh(mesh::Radio& radio, mesh::MillisecondClock& ms, mesh::RNG& rng, mesh::RTCClock& rtc, mesh::PacketManager& mgr, mesh::MeshTables& tables)
@@ -87,11 +88,14 @@ protected:
    memset(connections, 0, sizeof(connections));
  }

+  void resetContacts() { num_contacts = 0; }
+
  // 'UI' concepts, for sub-classes to implement
  virtual bool isAutoAddEnabled() const { return true; }
-  virtual void onDiscoveredContact(ContactInfo& contact, bool is_new) = 0;
+  virtual void onDiscoveredContact(ContactInfo& contact, bool is_new, uint8_t path_len, const uint8_t* path) = 0;
  virtual bool processAck(const uint8_t *data) = 0;
  virtual void onContactPathUpdated(const ContactInfo& contact) = 0;
+  virtual bool onContactPathRecv(ContactInfo& from, uint8_t* in_path, uint8_t in_path_len, uint8_t* out_path, uint8_t out_path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len);
  virtual void onMessageRecv(const ContactInfo& contact, mesh::Packet* pkt, uint32_t sender_timestamp, const char *text) = 0;
  virtual void onCommandDataRecv(const ContactInfo& contact, mesh::Packet* pkt, uint32_t sender_timestamp, const char *text) = 0;
  virtual void onSignedMessageRecv(const ContactInfo& contact, mesh::Packet* pkt, uint32_t sender_timestamp, const uint8_t *sender_prefix, const char *text) = 0;
@@ -127,12 +131,14 @@ protected:
  void checkConnections();

 public:
-  mesh::Packet* createSelfAdvert(const char* name, double lat=0.0, double lon=0.0);
+  mesh::Packet* createSelfAdvert(const char* name);
+  mesh::Packet* createSelfAdvert(const char* name, double lat, double lon);
  int  sendMessage(const ContactInfo& recipient, uint32_t timestamp, uint8_t attempt, const char* text, uint32_t& expected_ack, uint32_t& est_timeout);
  int  sendCommandData(const ContactInfo& recipient, uint32_t timestamp, uint8_t attempt, const char* text, uint32_t& est_timeout);
  bool sendGroupMessage(uint32_t timestamp, mesh::GroupChannel& channel, const char* sender_name, const char* text, int text_len);
  int  sendLogin(const ContactInfo& recipient, const char* password, uint32_t& est_timeout);
  int  sendRequest(const ContactInfo& recipient, uint8_t req_type, uint32_t& tag, uint32_t& est_timeout);
+  int  sendRequest(const ContactInfo& recipient, const uint8_t* req_data, uint8_t data_len, uint32_t& tag, uint32_t& est_timeout);
  bool shareContactZeroHop(const ContactInfo& contact);
  uint8_t exportContact(const ContactInfo& contact, uint8_t dest_buf[]);
  bool importContact(const uint8_t src_buf[], uint8_t len);
--- a/src/helpers/CommonCLI.cpp
+++ b/src/helpers/CommonCLI.cpp
@@ -51,9 +51,10 @@ void CommonCLI::loadPrefsInt(FILESYSTEM* fs, const char* filename) {
    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->allow_read_only, sizeof(_prefs->allow_read_only));  // 114
-    file.read((uint8_t *) &_prefs->reserved2, sizeof(_prefs->reserved2));  // 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(pad, 4);   // 120
+    file.read((uint8_t *) &_prefs->agc_reset_interval, sizeof(_prefs->agc_reset_interval));  // 120
+    file.read(pad, 3);   // 121
    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->interference_threshold, sizeof(_prefs->interference_threshold));  // 126
@@ -68,6 +69,7 @@ void CommonCLI::loadPrefsInt(FILESYSTEM* fs, const char* filename) {
    _prefs->sf = constrain(_prefs->sf, 7, 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);

    file.close();
  }
@@ -105,9 +107,10 @@ void CommonCLI::savePrefs(FILESYSTEM* fs) {
    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->allow_read_only, sizeof(_prefs->allow_read_only));  // 114
-    file.write((uint8_t *) &_prefs->reserved2, sizeof(_prefs->reserved2));  // 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(pad, 4);   // 120
+    file.write((uint8_t *) &_prefs->agc_reset_interval, sizeof(_prefs->agc_reset_interval));  // 120
+    file.write(pad, 3);   // 121
    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->interference_threshold, sizeof(_prefs->interference_threshold));  // 126
@@ -118,31 +121,26 @@ void CommonCLI::savePrefs(FILESYSTEM* fs) {

 #define MIN_LOCAL_ADVERT_INTERVAL   60

-void CommonCLI::checkAdvertInterval() {
+void CommonCLI::savePrefs() {
  if (_prefs->advert_interval * 2 < MIN_LOCAL_ADVERT_INTERVAL) {
    _prefs->advert_interval = 0;  // turn it off, now that device has been manually configured
  }
+  _callbacks->savePrefs();
 }

 void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, char* reply) {
-    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
-      reply += 3;
-      command += 3;
-    }
-
    if (memcmp(command, "reboot", 6) == 0) {
      _board->reboot();  // doesn't return
    } else if (memcmp(command, "advert", 6) == 0) {
-      _callbacks->sendSelfAdvertisement(400);
+      _callbacks->sendSelfAdvertisement(1500);  // longer delay, give CLI response time to be sent first
      strcpy(reply, "OK - Advert sent");
    } else if (memcmp(command, "clock sync", 10) == 0) {
      uint32_t curr = getRTCClock()->getCurrentTime();
      if (sender_timestamp > curr) {
        getRTCClock()->setCurrentTime(sender_timestamp + 1);
-        strcpy(reply, "OK - clock set");
+        uint32_t now = getRTCClock()->getCurrentTime();
+        DateTime dt = DateTime(now);
+        sprintf(reply, "OK - clock set: %02d:%02d - %d/%d/%d UTC", dt.hour(), dt.minute(), dt.day(), dt.month(), dt.year());
      } else {
        strcpy(reply, "ERR: clock cannot go backwards");
      }
@@ -159,16 +157,43 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
      uint32_t curr = getRTCClock()->getCurrentTime();
      if (secs > curr) {
        getRTCClock()->setCurrentTime(secs);
-        strcpy(reply, "(OK - clock set!)");
+        uint32_t now = getRTCClock()->getCurrentTime();
+        DateTime dt = DateTime(now);
+        sprintf(reply, "OK - clock set: %02d:%02d - %d/%d/%d UTC", dt.hour(), dt.minute(), dt.day(), dt.month(), dt.year());
      } else {
        strcpy(reply, "(ERR: clock cannot go backwards)");
      }
    } else if (memcmp(command, "neighbors", 9) == 0) {
      _callbacks->formatNeighborsReply(reply);
+    } else if (memcmp(command, "neighbor.remove ", 16) == 0) {
+      const char* hex = &command[16];
+      uint8_t pubkey[PUB_KEY_SIZE];
+      int hex_len = min((int)strlen(hex), PUB_KEY_SIZE*2);
+      int pubkey_len = hex_len / 2;
+      if (mesh::Utils::fromHex(pubkey, pubkey_len, hex)) {
+        _callbacks->removeNeighbor(pubkey, pubkey_len);
+        strcpy(reply, "OK");
+      } else {
+        strcpy(reply, "ERR: bad pubkey");
+      }
+    } else if (memcmp(command, "tempradio ", 10) == 0) {
+      strcpy(tmp, &command[10]);
+      const char *parts[5];
+      int num = mesh::Utils::parseTextParts(tmp, parts, 5);
+      float freq  = num > 0 ? atof(parts[0]) : 0.0f;
+      float bw    = num > 1 ? atof(parts[1]) : 0.0f;
+      uint8_t sf  = num > 2 ? atoi(parts[2]) : 0;
+      uint8_t cr  = num > 3 ? atoi(parts[3]) : 0;
+      int temp_timeout_mins  = num > 4 ? atoi(parts[4]) : 0;
+      if (freq >= 300.0f && freq <= 2500.0f && sf >= 7 && sf <= 12 && cr >= 5 && cr <= 8 && bw >= 7.0f && bw <= 500.0f && temp_timeout_mins > 0) {
+        _callbacks->applyTempRadioParams(freq, bw, sf, cr, temp_timeout_mins);
+        sprintf(reply, "OK - temp params for %d mins", temp_timeout_mins);
+      } else {
+        strcpy(reply, "Error, invalid params");
+      }
    } else if (memcmp(command, "password ", 9) == 0) {
      // change admin password
      StrHelper::strncpy(_prefs->password, &command[9], sizeof(_prefs->password));
-      checkAdvertInterval();
      savePrefs();
      sprintf(reply, "password now: %s", _prefs->password);   // echo back just to let admin know for sure!!
    } else if (memcmp(command, "clear stats", 11) == 0) {
@@ -180,6 +205,10 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
        sprintf(reply, "> %s", StrHelper::ftoa(_prefs->airtime_factor));
      } else if (memcmp(config, "int.thresh", 10) == 0) {
        sprintf(reply, "> %d", (uint32_t) _prefs->interference_threshold);
+      } else if (memcmp(config, "agc.reset.interval", 18) == 0) {
+        sprintf(reply, "> %d", ((uint32_t) _prefs->agc_reset_interval) * 4);
+      } else if (memcmp(config, "multi.acks", 10) == 0) {
+        sprintf(reply, "> %d", (uint32_t) _prefs->multi_acks);
      } else if (memcmp(config, "allow.read.only", 15) == 0) {
        sprintf(reply, "> %s", _prefs->allow_read_only ? "on" : "off");
      } else if (memcmp(config, "flood.advert.interval", 21) == 0) {
@@ -188,6 +217,11 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
        sprintf(reply, "> %d", ((uint32_t) _prefs->advert_interval) * 2);
      } else if (memcmp(config, "guest.password", 14) == 0) {
        sprintf(reply, "> %s", _prefs->guest_password);
+      } else if (sender_timestamp == 0 && memcmp(config, "prv.key", 7) == 0) {  // from serial command line only
+        uint8_t prv_key[PRV_KEY_SIZE];
+        int len = _callbacks->getSelfId().writeTo(prv_key, PRV_KEY_SIZE);
+        mesh::Utils::toHex(tmp, prv_key, len);
+        sprintf(reply, "> %s", tmp);
      } else if (memcmp(config, "name", 4) == 0) {
        sprintf(reply, "> %s", _prefs->node_name);
      } else if (memcmp(config, "repeat", 6) == 0) {
@@ -215,7 +249,7 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
        sprintf(reply, "> %s", StrHelper::ftoa(_prefs->freq));
      } else if (memcmp(config, "public.key", 10) == 0) {
        strcpy(reply, "> ");
-        mesh::Utils::toHex(&reply[2], _callbacks->getSelfIdPubKey(), PUB_KEY_SIZE);
+        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 {
@@ -231,16 +265,22 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
        _prefs->interference_threshold = atoi(&config[11]);
        savePrefs();
        strcpy(reply, "OK");
+      } else if (memcmp(config, "agc.reset.interval ", 19) == 0) {
+        _prefs->agc_reset_interval = atoi(&config[19]) / 4;
+        savePrefs();
+        sprintf(reply, "OK - interval rounded to %d", ((uint32_t) _prefs->agc_reset_interval) * 4);
+      } else if (memcmp(config, "multi.acks ", 11) == 0) {
+        _prefs->multi_acks = atoi(&config[11]);
+        savePrefs();
+        strcpy(reply, "OK");
      } else if (memcmp(config, "allow.read.only ", 16) == 0) {
        _prefs->allow_read_only = memcmp(&config[16], "on", 2) == 0;
        savePrefs();
        strcpy(reply, "OK");
      } else if (memcmp(config, "flood.advert.interval ", 22) == 0) {
        int hours = _atoi(&config[22]);
-        if (hours > 0 && hours < 3) {
-          sprintf(reply, "Error: min is 3 hours");
-        } else if (hours > 48) {
-          strcpy(reply, "Error: max is 48 hours");
+        if ((hours > 0 && hours < 3) || (hours > 48)) {
+          strcpy(reply, "Error: interval range is 3-48 hours");
        } else {
          _prefs->flood_advert_interval = (uint8_t)(hours);
          _callbacks->updateFloodAdvertTimer();
@@ -249,10 +289,8 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
        }
      } else if (memcmp(config, "advert.interval ", 16) == 0) {
        int mins = _atoi(&config[16]);
-        if (mins > 0 && mins < MIN_LOCAL_ADVERT_INTERVAL) {
-          sprintf(reply, "Error: min is %d mins", MIN_LOCAL_ADVERT_INTERVAL);
-        } else if (mins > 240) {
-          strcpy(reply, "Error: max is 240 mins");
+        if ((mins > 0 && mins < MIN_LOCAL_ADVERT_INTERVAL) || (mins > 240)) {
+          sprintf(reply, "Error: interval range is %d-240 minutes", MIN_LOCAL_ADVERT_INTERVAL);
        } else {
          _prefs->advert_interval = (uint8_t)(mins / 2);
          _callbacks->updateAdvertTimer();
@@ -263,9 +301,19 @@ 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
+        uint8_t prv_key[PRV_KEY_SIZE];
+        bool success = mesh::Utils::fromHex(prv_key, PRV_KEY_SIZE, &config[8]);
+        if (success) {
+          mesh::LocalIdentity new_id;
+          new_id.readFrom(prv_key, PRV_KEY_SIZE);
+          _callbacks->saveIdentity(new_id);
+          strcpy(reply, "OK");
+        } else {
+          strcpy(reply, "Error, invalid key");
+        }
      } else if (memcmp(config, "name ", 5) == 0) {
        StrHelper::strncpy(_prefs->node_name, &config[5], sizeof(_prefs->node_name));
-        checkAdvertInterval();
        savePrefs();
        strcpy(reply, "OK");
      } else if (memcmp(config, "repeat ", 7) == 0) {
@@ -292,12 +340,10 @@ void CommonCLI::handleCommand(uint32_t sender_timestamp, const char* command, ch
        }
      } else if (memcmp(config, "lat ", 4) == 0) {
        _prefs->node_lat = atof(&config[4]);
-        checkAdvertInterval();
        savePrefs();
        strcpy(reply, "OK");
      } else if (memcmp(config, "lon ", 4) == 0) {
        _prefs->node_lon = atof(&config[4]);
-        checkAdvertInterval();
        savePrefs();
        strcpy(reply, "OK");
      } else if (memcmp(config, "rxdelay ", 8) == 0) {
--- a/src/helpers/CommonCLI.h
+++ b/src/helpers/CommonCLI.h
@@ -21,10 +21,11 @@ struct NodePrefs {  // persisted to file
    uint8_t sf;
    uint8_t cr;
    uint8_t allow_read_only;
-    uint8_t reserved2;
+    uint8_t multi_acks;
    float bw;
    uint8_t flood_max;
    uint8_t interference_threshold;
+    uint8_t agc_reset_interval;   // secs / 4
 };

 class CommonCLICallbacks {
@@ -42,8 +43,13 @@ public:
  virtual void dumpLogFile() = 0;
  virtual void setTxPower(uint8_t power_dbm) = 0;
  virtual void formatNeighborsReply(char *reply) = 0;
-  virtual const uint8_t* getSelfIdPubKey() = 0;
+  virtual void removeNeighbor(const uint8_t* pubkey, int key_len) {
+    // no op by default
+  };
+  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;
 };

 class CommonCLI {
@@ -51,13 +57,10 @@ class CommonCLI {
  NodePrefs* _prefs;
  CommonCLICallbacks* _callbacks;
  mesh::MainBoard* _board;
-  char tmp[80];
+  char tmp[PRV_KEY_SIZE*2 + 4];

  mesh::RTCClock* getRTCClock() { return _rtc; }
-  void savePrefs() { _callbacks->savePrefs(); }
-
-  void checkAdvertInterval();
-
+  void savePrefs();
  void loadPrefsInt(FILESYSTEM* _fs, const char* filename);

 public:
--- a/src/helpers/CustomLLCC68.h
+++ b/src/helpers/CustomLLCC68.h
@@ -1,17 +0,0 @@
-#pragma once
-
-#include <RadioLib.h>
-
-#define SX126X_IRQ_HEADER_VALID                     0b0000010000  //  4     4     valid LoRa header received
-#define SX126X_IRQ_PREAMBLE_DETECTED           0x04
-
-class CustomLLCC68 : public LLCC68 {
-  public:
-    CustomLLCC68(Module *mod) : LLCC68(mod) { }
-
-    bool isReceiving() {
-      uint16_t irq = getIrqFlags();
-      bool detected = (irq & SX126X_IRQ_HEADER_VALID) || (irq & SX126X_IRQ_PREAMBLE_DETECTED);
-      return detected;
-    }
-};
--- a/src/helpers/CustomLR1110.h
+++ b/src/helpers/CustomLR1110.h
@@ -1,17 +0,0 @@
-#pragma once
-
-#include <RadioLib.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) { }
-
-    bool isReceiving() {
-      uint16_t irq = getIrqStatus();
-      bool detected = ((irq & LR1110_IRQ_HEADER_VALID) || (irq & LR1110_IRQ_HAS_PREAMBLE));
-      return detected;
-    }
-};
--- a/src/helpers/CustomSX1262.h
+++ b/src/helpers/CustomSX1262.h
@@ -1,17 +0,0 @@
-#pragma once
-
-#include <RadioLib.h>
-
-#define SX126X_IRQ_HEADER_VALID                     0b0000010000  //  4     4     valid LoRa header received
-#define SX126X_IRQ_PREAMBLE_DETECTED           0x04
-
-class CustomSX1262 : public SX1262 {
-  public:
-    CustomSX1262(Module *mod) : SX1262(mod) { }
-
-    bool isReceiving() {
-      uint16_t irq = getIrqFlags();
-      bool detected = (irq & SX126X_IRQ_HEADER_VALID) || (irq & SX126X_IRQ_PREAMBLE_DETECTED);
-      return detected;
-    }
-};
--- a/src/helpers/CustomSX1268.h
+++ b/src/helpers/CustomSX1268.h
@@ -1,17 +0,0 @@
-#pragma once
-
-#include <RadioLib.h>
-
-#define SX126X_IRQ_HEADER_VALID                     0b0000010000  //  4     4     valid LoRa header received
-#define SX126X_IRQ_PREAMBLE_DETECTED           0x04
-
-class CustomSX1268 : public SX1268 {
-  public:
-    CustomSX1268(Module *mod) : SX1268(mod) { }
-
-    bool isReceiving() {
-      uint16_t irq = getIrqFlags();
-      bool detected = (irq & SX126X_IRQ_HEADER_VALID) || (irq & SX126X_IRQ_PREAMBLE_DETECTED);
-      return detected;
-    }
-};
--- a/src/helpers/CustomSX1276.h
+++ b/src/helpers/CustomSX1276.h
@@ -1,37 +0,0 @@
-#pragma once
-
-#include <RadioLib.h>
-
-#define RH_RF95_MODEM_STATUS_CLEAR               0x10
-#define RH_RF95_MODEM_STATUS_HEADER_INFO_VALID   0x08
-#define RH_RF95_MODEM_STATUS_RX_ONGOING          0x04
-#define RH_RF95_MODEM_STATUS_SIGNAL_SYNCHRONIZED 0x02
-#define RH_RF95_MODEM_STATUS_SIGNAL_DETECTED     0x01
-
-class CustomSX1276 : public SX1276 {
-  public:
-    CustomSX1276(Module *mod) : SX1276(mod) { }
-
-    bool isReceiving() {
-      return (getModemStatus() &
-         (RH_RF95_MODEM_STATUS_SIGNAL_DETECTED 
-        | RH_RF95_MODEM_STATUS_SIGNAL_SYNCHRONIZED 
-        | RH_RF95_MODEM_STATUS_HEADER_INFO_VALID)) != 0;
-    }
-
-    int tryScanChannel() {
-      // start CAD
-      int16_t state = startChannelScan();
-      RADIOLIB_ASSERT(state);
- 
-      // wait for channel activity detected or timeout
-      unsigned long timeout = millis() + 16;
-      while(!this->mod->hal->digitalRead(this->mod->getIrq()) && millis() < timeout) {
-        this->mod->hal->yield();
-        if(this->mod->hal->digitalRead(this->mod->getGpio())) {
-          return(RADIOLIB_PREAMBLE_DETECTED);
-        }
-      }
-      return 0; // timed out
-    }
-};
--- a/src/helpers/ESP32Board.h
+++ b/src/helpers/ESP32Board.h
@@ -51,6 +51,15 @@ public:
  void onAfterTransmit() override {
    digitalWrite(P_LORA_TX_LED, LOW);   // turn TX LED off
  }
+#elif defined(P_LORA_TX_NEOPIXEL_LED)
+  #define NEOPIXEL_BRIGHTNESS    64  // white brightness (max 255)
+
+  void onBeforeTransmit() override {
+    neopixelWrite(P_LORA_TX_NEOPIXEL_LED, NEOPIXEL_BRIGHTNESS, NEOPIXEL_BRIGHTNESS, NEOPIXEL_BRIGHTNESS);   // turn TX neopixel on (White)
+  }
+  void onAfterTransmit() override {
+    neopixelWrite(P_LORA_TX_NEOPIXEL_LED, 0, 0, 0);   // turn TX neopixel off
+  }
 #endif

  uint16_t getBattMilliVolts() override {
--- a/src/helpers/HeltecV2Board.h
+++ b/src/helpers/HeltecV2Board.h
@@ -68,7 +68,7 @@ public:
    }
    raw = raw / 8;

-    return (1.883 * (2 / 1024.0) * raw) * 1000;
+    return (1.98 * (2 / 1024.0) * raw) * 1000;
  }

  const char* getManufacturerName() const override {
--- a/src/helpers/HeltecV3Board.h
+++ b/src/helpers/HeltecV3Board.h
@@ -4,7 +4,7 @@
 #include <helpers/RefCountedDigitalPin.h>

 // LoRa radio module pins for Heltec V3
-// Also for Heltec Wireless Tracker
+// Also for Heltec Wireless Tracker/Paper
 #define  P_LORA_DIO_1   14
 #define  P_LORA_NSS      8
 #define  P_LORA_RESET   RADIOLIB_NC
@@ -14,7 +14,9 @@
 #define  P_LORA_MOSI    10

 // built-ins
-#define  PIN_VBAT_READ    1
+#ifndef PIN_VBAT_READ              // set in platformio.ini for boards like Heltec Wireless Paper (20)
+  #define  PIN_VBAT_READ    1
+#endif
 #ifndef PIN_ADC_CTRL              // set in platformio.ini for Heltec Wireless Tracker (2)
  #define  PIN_ADC_CTRL    37
 #endif
@@ -99,7 +101,7 @@ public:

    digitalWrite(PIN_ADC_CTRL, !adc_active_state);

-    return (5.2 * (3.3 / 1024.0) * raw) * 1000;
+    return (5.42 * (3.3 / 1024.0) * raw) * 1000;
  }

  const char* getManufacturerName() const override {
--- a/src/helpers/MeshadventurerBoard.h
+++ b/src/helpers/MeshadventurerBoard.h
@@ -1,39 +1,28 @@
 #pragma once

-
-#include <Wire.h>
 #include <Arduino.h>
-#include "XPowersLib.h"

-#define XPOWERS_CHIP_AXP192
-
-// LoRa radio module pins for TBeam
-#define  P_LORA_DIO_1   33 // SX1262 IRQ pin
+// LoRa radio module pins for Meshadventurer
+#define  P_LORA_DIO_1   33
 #define  P_LORA_NSS     18
 #define  P_LORA_RESET   23
-#define  P_LORA_BUSY    32 // SX1262 Busy pin
+#define  P_LORA_BUSY    32
 #define  P_LORA_SCLK     5
 #define  P_LORA_MISO    19
 #define  P_LORA_MOSI    27

+#define  PIN_VBAT_READ    35
+
 #include "ESP32Board.h"

 #include <driver/rtc_io.h>

-class TBeamBoardSX1262 : public ESP32Board {
-  XPowersAXP192 power;
+class MeshadventurerBoard : public ESP32Board {

 public:
  void begin() {
    ESP32Board::begin();

-    power.setLDO2Voltage(3300);
-    power.enableLDO2();
-
-    power.enableBattVoltageMeasure();
-
-    pinMode(38, INPUT_PULLUP);
-
    esp_reset_reason_t reason = esp_reset_reason();
    if (reason == ESP_RST_DEEPSLEEP) {
      long wakeup_source = esp_sleep_get_ext1_wakeup_status();
@@ -49,7 +38,7 @@ 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 held 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);

@@ -69,11 +58,24 @@ public:
    esp_deep_sleep_start();   // CPU halts here and never returns!
  }

-  uint16_t getBattMilliVolts() override  {
-    return power.getBattVoltage();
+  void powerOff() override {
+    // TODO: re-enable this when there is a definite wake-up source pin:
+    //  enterDeepSleep(0);
+  }
+
+  uint16_t getBattMilliVolts() override {
+    analogReadResolution(12);
+
+    uint32_t raw = 0;
+    for (int i = 0; i < 4; i++) {
+      raw += analogReadMilliVolts(PIN_VBAT_READ);
+    }
+    raw = raw / 4;
+
+    return (2 * raw);
  }

  const char* getManufacturerName() const override {
-    return "LilyGo T-Beam SX1262";
+    return "Meshadventurer";
  }
 };
--- a/src/helpers/RefCountedDigitalPin.h
+++ b/src/helpers/RefCountedDigitalPin.h
@@ -5,25 +5,25 @@
 class RefCountedDigitalPin {
  uint8_t _pin;
  int8_t _claims = 0;
-
+  uint8_t _active = 0;
 public:
-  RefCountedDigitalPin(uint8_t pin): _pin(pin) { }
+  RefCountedDigitalPin(uint8_t pin,uint8_t active=HIGH): _pin(pin), _active(active) { }

  void begin() {
    pinMode(_pin, OUTPUT);
-    digitalWrite(_pin, LOW);  // initial state
+    digitalWrite(_pin, !_active);  // initial state
  }

  void claim() {
    _claims++;
    if (_claims > 0) {
-      digitalWrite(_pin, HIGH);
+      digitalWrite(_pin, _active);
    }
  }
  void release() {
    _claims--;
    if (_claims == 0) {
-      digitalWrite(_pin, LOW);
+      digitalWrite(_pin, !_active);
    }
  }
 };
--- a/src/helpers/TBeamS3SupremeBoard.h
+++ b/src/helpers/TBeamS3SupremeBoard.h
@@ -1,116 +0,0 @@
-#pragma once
-
-#include "ESP32Board.h"
-#include <driver/rtc_io.h>
-#include <Wire.h>
-#include <Arduino.h>
-#include "XPowersLib.h"
-
-// LoRa radio module pins for TBeam S3 Supreme
-#define  P_LORA_DIO_1   1   //SX1262 IRQ pin
-#define  P_LORA_NSS     10  //SX1262 SS pin
-#define  P_LORA_RESET   5   //SX1262 Rest pin
-#define  P_LORA_BUSY    4   //SX1262 Busy pin
-#define  P_LORA_SCLK    12  //SX1262 SCLK pin
-#define  P_LORA_MISO    13  //SX1262 MISO pin
-#define  P_LORA_MOSI    11  //SX1262 MOSI pin
-
-//#define PIN_BOARD_SDA 17  //SDA for OLED, BME280, and QMC6310U (0x1C)
-//#define PIN_BOARD_SCL 18  //SCL for OLED, BME280, and QMC6310U (0x1C)
-
-#define PIN_BOARD_SDA1 42  //SDA for PMU and PFC8563 (RTC)
-#define PIN_BOARD_SCL1 41  //SCL for PMU and PFC8563 (RTC)
-#define PIN_PMU_IRQ 40     //IRQ pin for PMU
-
-//#define PIN_USER_BTN 0
-
-#define P_BOARD_SPI_MOSI 35  //SPI for SD Card and QMI8653 (IMU)
-#define P_BOARD_SPI_MISO 37  //SPI for SD Card and QMI8653 (IMU)
-#define P_BOARD_SPI_SCK  36  //SPI for SD Card and QMI8653 (IMU)
-#define P_BPARD_SPI_CS   47  //Pin for SD Card CS
-#define P_BOARD_IMU_CS   34  //Pin for QMI8653 (IMU) CS
-
-#define P_BOARD_IMU_INT  33  //IMU Int pin
-#define P_BOARD_RTC_INT  14  //RTC Int pin
-
-#define P_GPS_RX    9   //GPS RX pin
-#define P_GPS_TX    8   //GPS TX pin
-#define P_GPS_WAKE  7   //GPS Wakeup pin
-//#define P_GPS_1PPS  6   //GPS 1PPS pin - repurposed for lora tx led
-#define GPS_BAUD_RATE 9600
-
-//I2C Wire addresses
-#define I2C_BME280_ADD    0x76  //BME280 sensor I2C address on Wire
-#define I2C_OLED_ADD      0x3C  //SH1106 OLED I2C address on Wire
-#define I2C_QMC6310U_ADD  0x1C  //QMC6310U mag sensor I2C address on Wire
-
-//I2C Wire1 addresses
-#define I2C_RTC_ADD       0x51  //RTC I2C address on Wire1
-#define I2C_PMU_ADD       0x34  //AXP2101 I2C address on Wire1
-
-#define PMU_WIRE_PORT               Wire1
-#define XPOWERS_CHIP_AXP2101
-
-class TBeamS3SupremeBoard : public ESP32Board {
-  XPowersAXP2101 PMU;
-public:
-#ifdef MESH_DEBUG
-  void printPMU();
-#endif
-  bool power_init();
-
-  void begin() {
-
-    ESP32Board::begin();
-
-    power_init();
-
-    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);
-    }
-    power_init();
-  }
-
-  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
-    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);
-
-    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!
-  }
-
-  uint16_t getBattMilliVolts() override {
-    return PMU.getBattVoltage();
-  }
-
-  uint16_t getBattPercent() {
-    //Read the PMU fuel guage for battery %
-    uint16_t battPercent = PMU.getBatteryPercent();
-    return battPercent;
-  }
-  const char* getManufacturerName() const override {
-    return "LilyGo T-Beam S3 Supreme SX1262";
-  }
-};
--- a/src/helpers/esp32/SerialBLEInterface.cpp
+++ b/src/helpers/esp32/SerialBLEInterface.cpp
@@ -83,6 +83,7 @@ void SerialBLEInterface::onConnect(BLEServer* pServer) {

 void SerialBLEInterface::onConnect(BLEServer* pServer, esp_ble_gatts_cb_param_t *param) {
  BLE_DEBUG_PRINTLN("onConnect(), conn_id=%d, mtu=%d", param->connect.conn_id, pServer->getPeerMTU(param->connect.conn_id));
+  last_conn_id = param->connect.conn_id;
 }

 void SerialBLEInterface::onMtuChanged(BLEServer* pServer, esp_ble_gatts_cb_param_t* param) {
@@ -143,6 +144,7 @@ void SerialBLEInterface::disable() {
  BLE_DEBUG_PRINTLN("SerialBLEInterface::disable");

  pServer->getAdvertising()->stop();
+  pServer->disconnect(last_conn_id);
  pService->stop();
  oldDeviceConnected = deviceConnected = false;
  adv_restart_time = 0;
--- a/src/helpers/esp32/SerialBLEInterface.h
+++ b/src/helpers/esp32/SerialBLEInterface.h
@@ -13,6 +13,7 @@ class SerialBLEInterface : public BaseSerialInterface, BLESecurityCallbacks, BLE
  bool deviceConnected;
  bool oldDeviceConnected;
  bool _isEnabled;
+  uint16_t last_conn_id;
  uint32_t _pin_code;
  unsigned long _last_write;
  unsigned long adv_restart_time;
@@ -56,6 +57,7 @@ public:
    adv_restart_time = 0;
    _isEnabled = false;
    _last_write = 0;
+    last_conn_id = 0;
    send_queue_len = recv_queue_len = 0;
  }

--- a/src/helpers/esp32/SerialWifiInterface.cpp
+++ b/src/helpers/esp32/SerialWifiInterface.cpp
@@ -44,7 +44,18 @@ bool SerialWifiInterface::isWriteBusy() const {
 }

 size_t SerialWifiInterface::checkRecvFrame(uint8_t dest[]) {
-  if (!client) client = server.available();
+  // check if new client connected
+  auto newClient = server.available();
+  if (newClient) {
+
+    // disconnect existing client
+    deviceConnected = false;
+    client.stop();
+
+    // switch active connection to new client
+    client = newClient;
+    
+  }

  if (client.connected()) {
    if (!deviceConnected) {
--- a/src/helpers/esp32/TBeamBoard.cpp
+++ b/src/helpers/esp32/TBeamBoard.cpp
@@ -0,0 +1,350 @@
+#if defined(TBEAM_SUPREME_SX1262) || defined(TBEAM_SX1262) || defined(TBEAM_SX1276)
+
+#include <Arduino.h>
+#include "TBeamBoard.h"
+//#include <RadioLib.h>
+
+uint32_t deviceOnline = 0x00;
+
+bool pmuInterrupt;
+static void setPmuFlag()
+{
+  pmuInterrupt = true;
+}
+
+void TBeamBoard::begin() {
+    
+    ESP32Board::begin();
+
+    power_init();
+
+    //Configure user button
+    pinMode(PIN_USER_BTN, INPUT);
+
+    #ifndef TBEAM_SUPREME_SX1262
+      digitalWrite(P_LORA_TX_LED, HIGH); //inverted pin for SX1276 - HIGH for off
+    #endif
+
+    //radiotype_detect();
+
+    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);
+    }
+}
+
+#ifdef MESH_DEBUG
+void TBeamBoard::scanDevices(TwoWire *w)
+{
+    uint8_t err, addr;
+    int nDevices = 0;
+    uint32_t start = 0;
+
+    Serial.println("Scanning I2C for Devices");
+    for (addr = 1; addr < 127; addr++) {
+        start = millis();
+        w->beginTransmission(addr); delay(2);
+        err = w->endTransmission();
+        if (err == 0) {
+            nDevices++;
+            switch (addr) {
+            case 0x77:
+            case 0x76:
+                Serial.println("\tFound BME280 Sensor");
+                deviceOnline |= BME280_ONLINE;
+                break;
+            case 0x34:
+                Serial.println("\tFound AXP192/AXP2101 PMU");
+                deviceOnline |= POWERMANAGE_ONLINE;
+                break;
+            case 0x3C:
+                Serial.println("\tFound SSD1306/SH1106 display");
+                deviceOnline |= DISPLAY_ONLINE;
+                break;
+            case 0x51:
+                Serial.println("\tFound PCF8563 RTC");
+                deviceOnline |= PCF8563_ONLINE;
+                break;
+            case 0x1C:
+                Serial.println("\tFound QMC6310 MAG Sensor");
+                deviceOnline |= QMC6310_ONLINE;
+                break;
+            default:
+                Serial.print("\tI2C device found at address 0x");
+                if (addr < 16) {
+                    Serial.print("0");
+                }
+                Serial.print(addr, HEX);
+                Serial.println(" !");
+                break;
+            }
+
+        } else if (err == 4) {
+            Serial.print("Unknow error at address 0x");
+            if (addr < 16) {
+                Serial.print("0");
+            }
+            Serial.println(addr, HEX);
+        }
+    }
+    if (nDevices == 0)
+        Serial.println("No I2C devices found\n");
+
+    Serial.println("Scan for devices is complete.");
+    Serial.println("\n");
+
+    Serial.printf("GPS RX pin: %d", PIN_GPS_RX);
+    Serial.printf(" GPS TX pin: %d", PIN_GPS_TX);
+    Serial.println();
+}
+void TBeamBoard::printPMU()
+{
+    Serial.print("isCharging:"); Serial.println(PMU->isCharging() ? "YES" : "NO");
+    Serial.print("isDischarge:"); Serial.println(PMU->isDischarge() ? "YES" : "NO");
+    Serial.print("isVbusIn:"); Serial.println(PMU->isVbusIn() ? "YES" : "NO");
+    Serial.print("getBattVoltage:"); Serial.print(PMU->getBattVoltage()); Serial.println("mV");
+    Serial.print("getVbusVoltage:"); Serial.print(PMU->getVbusVoltage()); Serial.println("mV");
+    Serial.print("getSystemVoltage:"); Serial.print(PMU->getSystemVoltage()); Serial.println("mV");
+
+    // The battery percentage may be inaccurate at first use, the PMU will automatically
+    // learn the battery curve and will automatically calibrate the battery percentage
+    // after a charge and discharge cycle
+    if (PMU->isBatteryConnect()) {
+        Serial.print("getBatteryPercent:"); Serial.print(PMU->getBatteryPercent()); Serial.println("%");
+    }
+
+    Serial.println();
+}
+#endif
+
+bool TBeamBoard::power_init()
+{
+  if (!PMU) {
+    #ifdef TBEAM_SUPREME_SX1262
+      PMU = new XPowersAXP2101(PMU_WIRE_PORT, PIN_BOARD_SDA1, PIN_BOARD_SCL1, I2C_PMU_ADD);
+    #else
+      PMU = new XPowersAXP2101(PMU_WIRE_PORT, PIN_BOARD_SDA, PIN_BOARD_SCL, I2C_PMU_ADD);
+    #endif
+    if (!PMU->init()) {
+        MESH_DEBUG_PRINTLN("Warning: Failed to find AXP2101 power management");
+        delete PMU;
+        PMU = NULL;
+    } else {
+        MESH_DEBUG_PRINTLN("AXP2101 PMU init succeeded, using AXP2101 PMU");
+    }
+  }
+  if (!PMU) {
+    PMU = new XPowersAXP192(PMU_WIRE_PORT, PIN_BOARD_SDA, PIN_BOARD_SCL, I2C_PMU_ADD);
+     if (!PMU->init()) {
+        MESH_DEBUG_PRINTLN("Warning: Failed to find AXP192 power management");
+        delete PMU;
+        PMU = NULL;
+    } else {
+        MESH_DEBUG_PRINTLN("AXP192 PMU init succeeded, using AXP192 PMU");
+    }
+  }
+
+  if (!PMU) {
+    return false;
+  }
+
+  deviceOnline |= POWERMANAGE_ONLINE;
+
+  PMU->setChargingLedMode(XPOWERS_CHG_LED_CTRL_CHG);
+
+  // Set up PMU interrupts
+  pinMode(PIN_PMU_IRQ, INPUT_PULLUP);
+  attachInterrupt(PIN_PMU_IRQ, setPmuFlag, FALLING);
+
+  if (PMU->getChipModel() == XPOWERS_AXP192) {
+
+    PMU->setPowerChannelVoltage(XPOWERS_LDO2, 3300);  //Set up LoRa power rail
+    PMU->enablePowerOutput(XPOWERS_LDO2);             //Enable the LoRa power rail
+
+    PMU->setPowerChannelVoltage(XPOWERS_DCDC1, 3300); //Set up OLED power rail
+    PMU->enablePowerOutput(XPOWERS_DCDC1);            //Enable the OLED power rail
+
+    PMU->setPowerChannelVoltage(XPOWERS_LDO3, 3300);  //Set up GPS power rail
+    PMU->enablePowerOutput(XPOWERS_LDO3);             //Enable the GPS power rail
+
+    PMU->setProtectedChannel(XPOWERS_DCDC1);          //Protect the OLED power rail
+    PMU->setProtectedChannel(XPOWERS_DCDC3);          //Protect the ESP32 power rail
+
+    PMU->disablePowerOutput(XPOWERS_DCDC2);           //Disable unsused power rail DC2
+
+    PMU->disableIRQ(XPOWERS_AXP192_ALL_IRQ);          //Disable PMU IRQ
+
+    PMU->setChargerConstantCurr(XPOWERS_AXP192_CHG_CUR_450MA);  //Set battery charging current
+    PMU->setChargeTargetVoltage(XPOWERS_AXP192_CHG_VOL_4V2);    //Set battery charge-stop voltage
+  }
+  else if(PMU->getChipModel() == XPOWERS_AXP2101){
+    #ifdef TBEAM_SUPREME_SX1262
+      //Set up the GPS power rail
+      PMU->setPowerChannelVoltage(XPOWERS_ALDO4, 3300);
+      PMU->enablePowerOutput(XPOWERS_ALDO4);
+
+      //Set up the LoRa power rail
+      PMU->setPowerChannelVoltage(XPOWERS_ALDO3, 3300);
+      PMU->enablePowerOutput(XPOWERS_ALDO3);
+
+      //Set up power rail for the M.2 interface
+      PMU->setPowerChannelVoltage(XPOWERS_DCDC3, 3300);
+      PMU->enablePowerOutput(XPOWERS_DCDC3);
+
+      if (ESP_SLEEP_WAKEUP_UNDEFINED == esp_sleep_get_wakeup_cause()) {
+        MESH_DEBUG_PRINTLN("Power off and restart ALDO BLDO..");
+        PMU->disablePowerOutput(XPOWERS_ALDO1);
+        PMU->disablePowerOutput(XPOWERS_ALDO2);
+        PMU->disablePowerOutput(XPOWERS_BLDO1);
+        delay(250);
+      }
+
+      //Set up power rail for QMC6310U
+      PMU->setPowerChannelVoltage(XPOWERS_ALDO2, 3300);
+      PMU->enablePowerOutput(XPOWERS_ALDO2);
+
+      //Set up power rail for BME280 and OLED
+      PMU->setPowerChannelVoltage(XPOWERS_ALDO1, 3300);
+      PMU->enablePowerOutput(XPOWERS_ALDO1);
+
+      //Set up pwer rail for SD Card
+      PMU->setPowerChannelVoltage(XPOWERS_BLDO1, 3300);
+      PMU->enablePowerOutput(XPOWERS_BLDO1);
+
+      //Set up power rail BLDO2 to headers
+      PMU->setPowerChannelVoltage(XPOWERS_BLDO2, 3300);
+      PMU->enablePowerOutput(XPOWERS_BLDO2);
+
+      //Set up power rail DCDC4 to headers
+      PMU->setPowerChannelVoltage(XPOWERS_DCDC4, XPOWERS_AXP2101_DCDC4_VOL2_MAX);
+      PMU->enablePowerOutput(XPOWERS_DCDC4);
+
+      //Set up power rail DCDC5 to headers
+      PMU->setPowerChannelVoltage(XPOWERS_DCDC5, 3300);
+      PMU->enablePowerOutput(XPOWERS_DCDC5);
+
+      //Disable unused power rails
+      PMU->disablePowerOutput(XPOWERS_DCDC2);
+      PMU->disablePowerOutput(XPOWERS_DLDO1);
+      PMU->disablePowerOutput(XPOWERS_DLDO2);
+      PMU->disablePowerOutput(XPOWERS_VBACKUP);
+    #else
+      //Turn off unused power rails
+      PMU->disablePowerOutput(XPOWERS_DCDC2);
+      PMU->disablePowerOutput(XPOWERS_DCDC3);
+      PMU->disablePowerOutput(XPOWERS_DCDC4);
+      PMU->disablePowerOutput(XPOWERS_DCDC5);
+      PMU->disablePowerOutput(XPOWERS_ALDO1);
+      PMU->disablePowerOutput(XPOWERS_ALDO4);
+      PMU->disablePowerOutput(XPOWERS_BLDO1);
+      PMU->disablePowerOutput(XPOWERS_BLDO2);
+      PMU->disablePowerOutput(XPOWERS_DLDO1);
+      PMU->disablePowerOutput(XPOWERS_DLDO2);
+      //PMU->disablePowerOutput(XPOWERS_CPULDO);
+
+      PMU->setPowerChannelVoltage(XPOWERS_VBACKUP, 3300);   //Set up GPS RTC power
+      PMU->enablePowerOutput(XPOWERS_VBACKUP);              //Turn on GPS RTC power
+
+      PMU->setPowerChannelVoltage(XPOWERS_ALDO2, 3300);     //Set up LoRa power rail
+      PMU->enablePowerOutput(XPOWERS_ALDO2);                //Enable LoRa power rail
+
+      PMU->setPowerChannelVoltage(XPOWERS_ALDO3, 3300);     //Set up GPS power rail
+      PMU->enablePowerOutput(XPOWERS_ALDO3);                //Enable GPS power rail
+  
+    #endif
+
+    PMU->disableIRQ(XPOWERS_AXP2101_ALL_IRQ);      //Disable all PMU interrupts
+
+    PMU->setChargerConstantCurr(XPOWERS_AXP2101_CHG_CUR_500MA);   //Set battery charging current to 500mA
+    PMU->setChargeTargetVoltage(XPOWERS_AXP2101_CHG_VOL_4V2);     //Set battery charging cutoff voltage to 4.2V
+
+  }
+
+  PMU->clearIrqStatus();        //Clear interrupt flags
+
+  PMU->disableTSPinMeasure();   //Disable TS detection, since it is not used
+
+  //Enable voltage measurements
+  PMU->enableSystemVoltageMeasure();
+  PMU->enableVbusVoltageMeasure();
+  PMU->enableBattVoltageMeasure();
+
+#ifdef MESH_DEBUG
+  scanDevices(&Wire);
+  printPMU();
+#endif
+
+  // Set the power key off press time
+  PMU->setPowerKeyPressOffTime(XPOWERS_POWEROFF_4S);
+  return true;
+}
+
+#pragma region "Debug code"
+// void TBeamBoard::radiotype_detect(){
+
+//   static SPIClass spi;
+//   char  chipTypeInfo;
+
+//   #if defined(P_LORA_SCLK)
+//     spi.begin(P_LORA_SCLK, P_LORA_MISO, P_LORA_MOSI);
+//   #endif
+
+//   for(int i = 0; i<radioVersions; i++){
+//     switch(i){
+//       case 0: 
+//         CustomSX1262 radio = new Module(P_LORA_NSS, P_LORA_DIO_0, P_LORA_RESET, P_LORA_DIO_1, spi);
+//         int status = radio.begin(LORA_FREQ, LORA_BW, LORA_SF, LORA_CR, RADIOLIB_SX126X_SYNC_WORD_PRIVATE, LORA_TX_POWER, 8);
+//         if (status != RADIOLIB_ERR_NONE) {
+//           Serial.print("ERROR: SX1262 not found: ");
+//           Serial.println(status);
+//           //delete radio;
+//           radio = NULL;
+//           break;
+//         }
+//         else{
+//           MESH_DEBUG_PRINTLN("SX1262 detected");
+//           P_LORA_BUSY = 32;
+//           RADIO_CLASS = CustomSX1262;
+//           WRAPPER_CLASS = CustomSX1262Wrapper;
+//           SX126X_RX_BOOSTED_GAIN = true;
+//           SX126X_CURRENT_LIMIT = 140;
+//           //delete radio;
+//           radio = NULL;
+//           break;
+//         }
+//       case 1:
+//         SX1276 radio = new Module(P_LORA_NSS, P_LORA_DIO_0, P_LORA_RESET, P_LORA_DIO_1, spi);
+//         int status1 = radio.begin(LORA_FREQ, LORA_BW, LORA_SF, LORA_CR, RADIOLIB_SX126X_SYNC_WORD_PRIVATE, LORA_TX_POWER, 8);
+//         if (status1 != RADIOLIB_ERR_NONE) {
+//           Serial.print("ERROR: SX1272 not found: ");
+//           Serial.println(status1);
+//           //delete radio;
+//           radio = NULL;
+//         }
+//         else{
+//           MESH_DEBUG_PRINTLN("SX1272 detected");
+//           P_LORA_BUSY = RADIOLIB_NC;
+//           P_LORA_DIO_2 = 32;
+//           RADIO_CLASS = CustomSX1272;
+//           WRAPPER_CLASS = CustomSX1272Wrapper;
+//           SX127X_CURRENT_LIMIT = 120;
+//           //delete radio;
+//           radio = NULL;
+//           return;
+//         }
+//         default:
+//     }
+//   }
+
+
+  
+// }
+#pragma endregion
+
+#endif
--- a/src/helpers/esp32/TBeamBoard.h
+++ b/src/helpers/esp32/TBeamBoard.h
@@ -0,0 +1,168 @@
+#pragma once
+
+#if defined(TBEAM_SUPREME_SX1262) || defined(TBEAM_SX1262) || defined(TBEAM_SX1276)
+
+#include <Wire.h>
+#include <Arduino.h>
+#include "XPowersLib.h"
+#include "helpers/ESP32Board.h"
+#include <driver/rtc_io.h>
+//#include <RadioLib.h>
+//#include <helpers/RadioLibWrappers.h>
+//#include <helpers/CustomSX1262Wrapper.h>
+//#include <helpers/CustomSX1276Wrapper.h>
+
+#ifdef TBEAM_SUPREME_SX1262
+  // LoRa radio module pins for TBeam S3 Supreme SX1262
+  #define  P_LORA_DIO_0   -1   //NC
+  #define  P_LORA_DIO_1    1   //SX1262 IRQ pin
+  #define  P_LORA_NSS      10  //SX1262 SS pin
+  #define  P_LORA_RESET    5   //SX1262 Rest pin
+  #define  P_LORA_BUSY     4   //SX1262 Busy pin
+  #define  P_LORA_SCLK     12   //SX1262 SCLK pin
+  #define  P_LORA_MISO     13   //SX1262 MISO pin
+  #define  P_LORA_MOSI     11   //SX1262 MOSI pin
+
+  #define PIN_BOARD_SDA1  42  //SDA for PMU and PFC8563 (RTC)
+  #define PIN_BOARD_SCL1  41  //SCL for PMU and PFC8563 (RTC)
+
+  #define PIN_PMU_IRQ  40     //IRQ pin for PMU
+
+  // #define PIN_GPS_RX      9
+  // #define PIN_GPS_TX      8
+  // #define PIN_GPS_EN      7
+
+  #define P_BOARD_SPI_MOSI  35  //SPI for SD Card and QMI8653 (IMU)
+  #define P_BOARD_SPI_MISO  37  //SPI for SD Card and QMI8653 (IMU)
+  #define P_BOARD_SPI_SCK   36  //SPI for SD Card and QMI8653 (IMU)
+  #define P_BPARD_SPI_CS    47  //Pin for SD Card CS
+  #define P_BOARD_IMU_CS    34  //Pin for QMI8653 (IMU) CS
+
+  #define P_BOARD_IMU_INT  33  //IMU Int pin
+  #define P_BOARD_RTC_INT  14  //RTC Int pin
+
+  //I2C Wire addresses
+  #define I2C_BME280_ADD     0x76  //BME280 sensor I2C address on Wire
+  #define I2C_OLED_ADD       0x3C  //SH1106 OLED I2C address on Wire
+  #define I2C_QMC6310U_ADD   0x1C  //QMC6310U mag sensor I2C address on Wire
+
+  //I2C Wire1 addresses
+  #define I2C_RTC_ADD  0x51  //RTC I2C address on Wire1
+  #define I2C_PMU_ADD  0x34  //AXP2101 I2C address on Wire1
+  
+  #define PMU_WIRE_PORT  Wire1
+  #define RTC_WIRE_PORT  Wire1
+#endif
+
+#ifdef TBEAM_SX1262
+  #define  P_LORA_BUSY    32
+#endif
+
+#ifdef TBEAM_SX1276
+  #define  P_LORA_DIO_2    32
+  #define  P_LORA_BUSY    RADIOLIB_NC
+#endif
+
+#if defined(TBEAM_SX1262) || defined(TBEAM_SX1276)
+  // LoRa radio module pins for TBeam
+  // uint32_t  P_LORA_BUSY  = 0;   //shared, so define at run
+  // uint32_t  P_LORA_DIO_2 = 0;   //SX1276 only, so define at run
+
+  #define  P_LORA_DIO_0  26
+  #define  P_LORA_DIO_1  33
+  #define  P_LORA_NSS    18
+  #define  P_LORA_RESET  23
+  #define  P_LORA_SCLK    5
+  #define  P_LORA_MISO   19
+  #define  P_LORA_MOSI   27
+
+  // #define PIN_GPS_RX      34
+  // #define PIN_GPS_TX      12
+
+  #define PIN_PMU_IRQ   35
+  #define PMU_WIRE_PORT  Wire
+  #define RTC_WIRE_PORT  Wire
+  #define I2C_PMU_ADD    0x34
+#endif
+
+// enum RadioType {
+//   SX1262, 
+//   SX1276
+// };
+
+class TBeamBoard : public ESP32Board {
+XPowersLibInterface *PMU = NULL;
+//PhysicalLayer * pl;
+//RadioType * radio = NULL;
+// int radioVersions = 2;
+
+enum {
+  POWERMANAGE_ONLINE  = _BV(0),
+  DISPLAY_ONLINE      = _BV(1),
+  RADIO_ONLINE        = _BV(2),
+  GPS_ONLINE          = _BV(3),
+  PSRAM_ONLINE        = _BV(4),
+  SDCARD_ONLINE       = _BV(5),
+  AXDL345_ONLINE      = _BV(6),
+  BME280_ONLINE       = _BV(7),
+  BMP280_ONLINE       = _BV(8),
+  BME680_ONLINE       = _BV(9),
+  QMC6310_ONLINE      = _BV(10),
+  QMI8658_ONLINE      = _BV(11),
+  PCF8563_ONLINE      = _BV(12),
+  OSC32768_ONLINE      = _BV(13),
+};
+
+bool power_init();
+//void radiotype_detect();
+
+public:
+
+#ifdef MESH_DEBUG
+  void printPMU();
+  void scanDevices(TwoWire *w);
+#endif
+  void begin();
+
+  #ifndef TBEAM_SUPREME_SX1262
+  void onBeforeTransmit() override{
+    digitalWrite(P_LORA_TX_LED, LOW);   // turn TX LED on - invert pin for SX1276
+  }
+  void onAfterTransmit() override{
+    digitalWrite(P_LORA_TX_LED, HIGH);   // turn TX LED off - invert pin for SX1276
+  }
+  #endif
+
+  void 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);
+
+  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!
+}
+
+  uint16_t getBattMilliVolts(){
+    return PMU->getBattVoltage();
+  }
+
+  const char* getManufacturerName() const{
+    return "LilyGo T-Beam";
+  }
+};
+
+#endif
--- a/src/helpers/nrf52/SerialBLEInterface.cpp
+++ b/src/helpers/nrf52/SerialBLEInterface.cpp
@@ -1,6 +1,27 @@
 #include "SerialBLEInterface.h"

+static SerialBLEInterface* instance;
+
+void SerialBLEInterface::onConnect(uint16_t connection_handle) {
+  BLE_DEBUG_PRINTLN("SerialBLEInterface: connected");
+  if(instance){
+    instance->_isDeviceConnected = true;
+    // no need to stop advertising on connect, as the ble stack does this automatically
+  }
+}
+
+void SerialBLEInterface::onDisconnect(uint16_t connection_handle, uint8_t reason) {
+  BLE_DEBUG_PRINTLN("SerialBLEInterface: disconnected reason=%d", reason);
+  if(instance){
+    instance->_isDeviceConnected = false;
+    instance->startAdv();
+  }
+}
+
 void SerialBLEInterface::begin(const char* device_name, uint32_t pin_code) {
+
+  instance = this;
+
  char charpin[20];
  sprintf(charpin, "%d", pin_code);

@@ -13,11 +34,31 @@ void SerialBLEInterface::begin(const char* device_name, uint32_t pin_code) {
  Bluefruit.Security.setMITM(true);
  Bluefruit.Security.setPIN(charpin);

+  Bluefruit.Periph.setConnectCallback(onConnect);
+  Bluefruit.Periph.setDisconnectCallback(onDisconnect);
+
  // To be consistent OTA DFU should be added first if it exists
  //bledfu.begin();
+
+  // Configure and start the BLE Uart service
+  bleuart.setPermission(SECMODE_ENC_WITH_MITM, SECMODE_ENC_WITH_MITM);
+  bleuart.begin();
+  
 }

 void SerialBLEInterface::startAdv() {
+
+  BLE_DEBUG_PRINTLN("SerialBLEInterface: starting advertising");
+  
+  // clean restart if already advertising
+  if(Bluefruit.Advertising.isRunning()){
+    BLE_DEBUG_PRINTLN("SerialBLEInterface: already advertising, stopping to allow clean restart");
+    Bluefruit.Advertising.stop();
+  }
+
+  Bluefruit.Advertising.clearData(); // clear advertising data
+  Bluefruit.ScanResponse.clearData(); // clear scan response data
+  
  // Advertising packet
  Bluefruit.Advertising.addFlags(BLE_GAP_ADV_FLAGS_LE_ONLY_GENERAL_DISC_MODE);
  Bluefruit.Advertising.addTxPower();
@@ -38,10 +79,25 @@ void SerialBLEInterface::startAdv() {
   * For recommended advertising interval
   * https://developer.apple.com/library/content/qa/qa1931/_index.html   
   */
-  Bluefruit.Advertising.restartOnDisconnect(true);
+  Bluefruit.Advertising.restartOnDisconnect(false); // don't restart automatically as we handle it in onDisconnect
  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 
+  Bluefruit.Advertising.start(0);                // 0 = Don't stop advertising after n seconds
+
+}
+
+void SerialBLEInterface::stopAdv() {
+
+  BLE_DEBUG_PRINTLN("SerialBLEInterface: stopping advertising");
+  
+  // we only want to stop advertising if it's running, otherwise an invalid state error is logged by ble stack
+  if(!Bluefruit.Advertising.isRunning()){
+    return;
+  }
+
+  // stop advertising
+  Bluefruit.Advertising.stop();
+
 }

 // ---------- public methods
@@ -52,25 +108,28 @@ void SerialBLEInterface::enable() {
  _isEnabled = true;
  clearBuffers();

-  // Configure and start the BLE Uart service
-  bleuart.setPermission(SECMODE_ENC_WITH_MITM, SECMODE_ENC_WITH_MITM);
-  bleuart.begin();
-
  // Start advertising
  startAdv();
-
-  checkAdvRestart = false;
 }

 void SerialBLEInterface::disable() {
  _isEnabled = false;
-
  BLE_DEBUG_PRINTLN("SerialBLEInterface::disable");

-  Bluefruit.Advertising.stop();
+#ifdef RAK_BOARD
+  Bluefruit.disconnect(Bluefruit.connHandle());
+#else
+  uint16_t conn_id;
+  if (Bluefruit.getConnectedHandles(&conn_id, 1) > 0) {
+    Bluefruit.disconnect(conn_id);
+  }
+#endif

-  oldDeviceConnected = deviceConnected = false;
-  checkAdvRestart = false;
+  Bluefruit.Advertising.restartOnDisconnect(false);
+  Bluefruit.Advertising.stop();
+  Bluefruit.Advertising.clearData();
+
+  stopAdv();
 }

 size_t SerialBLEInterface::writeFrame(const uint8_t src[], size_t len) {
@@ -79,7 +138,7 @@ size_t SerialBLEInterface::writeFrame(const uint8_t src[], size_t len) {
    return 0;
  }

-  if (deviceConnected && len > 0) {
+  if (_isDeviceConnected && len > 0) {
    if (send_queue_len >= FRAME_QUEUE_SIZE) {
      BLE_DEBUG_PRINTLN("writeFrame(), send_queue is full!");
      return 0;
@@ -115,44 +174,14 @@ size_t SerialBLEInterface::checkRecvFrame(uint8_t dest[]) {
  } else {
    int len = bleuart.available();
    if (len > 0) {
-      deviceConnected = true; // should probably use the callback to monitor cx 
      bleuart.readBytes(dest, len);
      BLE_DEBUG_PRINTLN("readBytes: sz=%d, hdr=%d", len, (uint32_t) dest[0]);
      return len;
    }
  }
-
-  if (Bluefruit.connected() == 0)  deviceConnected = false;
-
-  if (deviceConnected != oldDeviceConnected) {
-    if (!deviceConnected) {    // disconnecting
-      clearBuffers();
-
-      BLE_DEBUG_PRINTLN("SerialBLEInterface -> disconnecting...");
-      delay(500); // give the bluetooth stack the chance to get things ready
-
-      checkAdvRestart = true;
-    } else {
-      BLE_DEBUG_PRINTLN("SerialBLEInterface -> stopping advertising");
-      BLE_DEBUG_PRINTLN("SerialBLEInterface -> connecting...");
-      // connecting
-      // do stuff here on connecting
-      Bluefruit.Advertising.stop();
-      checkAdvRestart = false;
-    }
-    oldDeviceConnected = deviceConnected;
-  }
-
-  if (checkAdvRestart) {
-    if (Bluefruit.connected() == 0) {
-      BLE_DEBUG_PRINTLN("SerialBLEInterface -> re-starting advertising");
-      startAdv();
-    }
-    checkAdvRestart = false;
-  }
  return 0;
 }

 bool SerialBLEInterface::isConnected() const {
-  return deviceConnected;  //pServer != NULL && pServer->getConnectedCount() > 0;
+  return _isDeviceConnected;
 }
--- a/src/helpers/nrf52/SerialBLEInterface.h
+++ b/src/helpers/nrf52/SerialBLEInterface.h
@@ -5,10 +5,8 @@

 class SerialBLEInterface : public BaseSerialInterface {
  BLEUart bleuart;
-  bool deviceConnected;
-  bool oldDeviceConnected;
-  bool checkAdvRestart;
  bool _isEnabled;
+  bool _isDeviceConnected;
  unsigned long _last_write;

  struct Frame {
@@ -21,18 +19,19 @@ class SerialBLEInterface : public BaseSerialInterface {
  Frame send_queue[FRAME_QUEUE_SIZE];

  void clearBuffers() { send_queue_len = 0; }
-  void startAdv();
+  static void onConnect(uint16_t connection_handle);
+  static void onDisconnect(uint16_t connection_handle, uint8_t reason);

 public:
  SerialBLEInterface() {
-    deviceConnected = false;
-    oldDeviceConnected = false;
-    checkAdvRestart = false;
    _isEnabled = false;
+    _isDeviceConnected = false;
    _last_write = 0;
    send_queue_len = 0;
  }

+  void startAdv();
+  void stopAdv();
  void begin(const char* device_name, uint32_t pin_code);

  // BaseSerialInterface methods
--- a/src/helpers/nrf52/T114Board.cpp
+++ b/src/helpers/nrf52/T114Board.cpp
@@ -26,6 +26,45 @@ 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/src/helpers/nrf52/T114Board.h
+++ b/src/helpers/nrf52/T114Board.h
@@ -40,6 +40,9 @@ 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
@@ -49,6 +52,8 @@ public:
    adcvalue = analogRead(PIN_VBAT_READ);
    digitalWrite(6, 0);

+    NRF_SAADC->ENABLE = 0;
+
    return (uint16_t)((float)adcvalue * MV_LSB * 4.9);
  }

@@ -60,5 +65,9 @@ public:
    NVIC_SystemReset();
  }

+  void powerOff() override {
+    sd_power_system_off();
+  }
+
  bool startOTAUpdate(const char* id, char reply[]) override;
 };
--- a/src/helpers/nrf52/TechoBoard.h
+++ b/src/helpers/nrf52/TechoBoard.h
@@ -43,6 +43,25 @@ public:
    return "LilyGo T-Echo";
  }

+  void powerOff() override {
+    #ifdef LED_RED
+    digitalWrite(LED_RED, LOW);
+    #endif
+    #ifdef LED_GREEN
+    digitalWrite(LED_GREEN, LOW);
+    #endif
+    #ifdef LED_BLUE
+    digitalWrite(LED_BLUE, LOW);
+    #endif
+    #ifdef DISP_BACKLIGHT
+    digitalWrite(DISP_BACKLIGHT, LOW);
+    #endif
+    #ifdef PIN_PWR_EN
+    digitalWrite(PIN_PWR_EN, LOW);
+    #endif
+    sd_power_system_off();
+  }
+
  void reboot() override {
    NVIC_SystemReset();
  }
--- a/src/helpers/nrf52/ThinkNodeM1Board.cpp
+++ b/src/helpers/nrf52/ThinkNodeM1Board.cpp
@@ -26,6 +26,11 @@ void ThinkNodeM1Board::begin() {

  Wire.begin();

+  #ifdef P_LORA_TX_LED
+    pinMode(P_LORA_TX_LED, OUTPUT);
+    digitalWrite(P_LORA_TX_LED, LOW);
+  #endif
+
  pinMode(SX126X_POWER_EN, OUTPUT);
  digitalWrite(SX126X_POWER_EN, HIGH);
  delay(10);   // give sx1262 some time to power up
--- a/src/helpers/nrf52/ThinkNodeM1Board.h
+++ b/src/helpers/nrf52/ThinkNodeM1Board.h
@@ -39,6 +39,15 @@ public:
    return startup_reason;
  }

+  #if defined(P_LORA_TX_LED)
+  void onBeforeTransmit() override {
+    digitalWrite(P_LORA_TX_LED, HIGH);   // turn TX LED on
+  }
+  void onAfterTransmit() override {
+    digitalWrite(P_LORA_TX_LED, LOW);   // turn TX LED off
+  }
+  #endif
+
  const char* getManufacturerName() const override {
    return "Elecrow ThinkNode-M1";
  }
@@ -46,4 +55,16 @@ public:
  void reboot() override {
    NVIC_SystemReset();
  }
+
+  void powerOff() override {
+
+    // turn off all leds, sd_power_system_off will not do this for us
+    #ifdef P_LORA_TX_LED
+    digitalWrite(P_LORA_TX_LED, LOW);
+    #endif
+
+    // power off board
+    sd_power_system_off();
+
+  }
 };
--- a/src/helpers/radiolib/CustomLLCC68.h
+++ b/src/helpers/radiolib/CustomLLCC68.h
@@ -0,0 +1,87 @@
+#pragma once
+
+#include <RadioLib.h>
+
+#define SX126X_IRQ_HEADER_VALID                     0b0000010000  //  4     4     valid LoRa header received
+#define SX126X_IRQ_PREAMBLE_DETECTED           0x04
+
+class CustomLLCC68 : public LLCC68 {
+  public:
+    CustomLLCC68(Module *mod) : LLCC68(mod) { }
+
+  #ifdef RP2040_PLATFORM
+    bool std_init(SPIClassRP2040* spi = NULL)
+  #else
+    bool std_init(SPIClass* spi = NULL)
+  #endif
+    {
+  #ifdef SX126X_DIO3_TCXO_VOLTAGE
+      float tcxo = SX126X_DIO3_TCXO_VOLTAGE;
+  #else
+      float tcxo = 1.6f;
+  #endif
+
+  #ifdef LORA_CR
+      uint8_t cr = LORA_CR;
+  #else
+      uint8_t cr = 5;
+  #endif
+
+  #if defined(P_LORA_SCLK)
+    #ifdef NRF52_PLATFORM
+      if (spi) { spi->setPins(P_LORA_MISO, P_LORA_SCLK, P_LORA_MOSI); spi->begin(); }
+    #elif defined(RP2040_PLATFORM)
+      if (spi) {
+        spi->setMISO(P_LORA_MISO);
+        //spi->setCS(P_LORA_NSS); // Setting CS results in freeze
+        spi->setSCK(P_LORA_SCLK);
+        spi->setMOSI(P_LORA_MOSI);
+        spi->begin();
+      }
+    #else
+      if (spi) spi->begin(P_LORA_SCLK, P_LORA_MISO, P_LORA_MOSI);
+    #endif
+  #endif
+      int status = begin(LORA_FREQ, LORA_BW, LORA_SF, cr, RADIOLIB_SX126X_SYNC_WORD_PRIVATE, LORA_TX_POWER, 16, tcxo);
+      // if radio init fails with -707/-706, try again with tcxo voltage set to 0.0f
+      if (status == RADIOLIB_ERR_SPI_CMD_FAILED || status == RADIOLIB_ERR_SPI_CMD_INVALID) {
+        #define SX126X_DIO3_TCXO_VOLTAGE (0.0f);
+        tcxo = SX126X_DIO3_TCXO_VOLTAGE;
+        status = begin(LORA_FREQ, LORA_BW, LORA_SF, cr, RADIOLIB_SX126X_SYNC_WORD_PRIVATE, LORA_TX_POWER, 16, tcxo);
+      }
+      if (status != RADIOLIB_ERR_NONE) {
+        Serial.print("ERROR: radio init failed: ");
+        Serial.println(status);
+        return false;  // fail
+      }
+    
+      setCRC(1);
+  
+  #ifdef SX126X_CURRENT_LIMIT
+      setCurrentLimit(SX126X_CURRENT_LIMIT);
+  #endif
+  #ifdef SX126X_DIO2_AS_RF_SWITCH
+      setDio2AsRfSwitch(SX126X_DIO2_AS_RF_SWITCH);
+  #endif
+  #ifdef SX126X_RX_BOOSTED_GAIN
+      setRxBoostedGainMode(SX126X_RX_BOOSTED_GAIN);
+  #endif
+  #if defined(SX126X_RXEN) || defined(SX126X_TXEN)
+    #ifndef SX1262X_RXEN
+      #define SX1262X_RXEN RADIOLIB_NC
+    #endif
+    #ifndef SX1262X_TXEN
+      #define SX1262X_TXEN RADIOLIB_NC
+    #endif
+      setRfSwitchPins(SX126X_RXEN, SX126X_TXEN);
+  #endif 
+
+    return true;  // success
+  }
+
+    bool isReceiving() {
+      uint16_t irq = getIrqFlags();
+      bool detected = (irq & SX126X_IRQ_HEADER_VALID) || (irq & SX126X_IRQ_PREAMBLE_DETECTED);
+      return detected;
+    }
+};
--- a/src/helpers/radiolib/CustomLLCC68Wrapper.h
+++ b/src/helpers/radiolib/CustomLLCC68Wrapper.h
--- a/src/helpers/radiolib/CustomLR1110.h
+++ b/src/helpers/radiolib/CustomLR1110.h
@@ -0,0 +1,70 @@
+#pragma once
+
+#include <RadioLib.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 {
+  // calculate number of symbols
+  float N_symbol = 0;
+  if(this->codingRate <= RADIOLIB_LR11X0_LORA_CR_4_8_SHORT) {
+    // legacy coding rate - nice and simple
+    // get SF coefficients
+    float coeff1 = 0;
+    int16_t coeff2 = 0;
+    int16_t coeff3 = 0;
+    if(this->spreadingFactor < 7) {
+      // SF5, SF6
+      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));
+      return detected;
+    }
+};
--- a/src/helpers/radiolib/CustomLR1110Wrapper.h
+++ b/src/helpers/radiolib/CustomLR1110Wrapper.h
@@ -17,7 +17,7 @@ public:

  void onSendFinished() override {
    RadioLibWrapper::onSendFinished();
-    _radio->setPreambleLength(8); // overcomes weird issues with small and big pkts
+    _radio->setPreambleLength(16); // overcomes weird issues with small and big pkts
  }

  float getLastRSSI() const override { return ((CustomLR1110 *)_radio)->getRSSI(); }
--- a/src/helpers/radiolib/CustomSTM32WLx.h
+++ b/src/helpers/radiolib/CustomSTM32WLx.h
--- a/src/helpers/radiolib/CustomSTM32WLxWrapper.h
+++ b/src/helpers/radiolib/CustomSTM32WLxWrapper.h
--- a/src/helpers/radiolib/CustomSX1262.h
+++ b/src/helpers/radiolib/CustomSX1262.h
@@ -0,0 +1,87 @@
+#pragma once
+
+#include <RadioLib.h>
+
+#define SX126X_IRQ_HEADER_VALID                     0b0000010000  //  4     4     valid LoRa header received
+#define SX126X_IRQ_PREAMBLE_DETECTED           0x04
+
+class CustomSX1262 : public SX1262 {
+  public:
+    CustomSX1262(Module *mod) : SX1262(mod) { }
+
+  #ifdef RP2040_PLATFORM
+    bool std_init(SPIClassRP2040* spi = NULL)
+  #else
+    bool std_init(SPIClass* spi = NULL)
+  #endif
+    {
+  #ifdef SX126X_DIO3_TCXO_VOLTAGE
+      float tcxo = SX126X_DIO3_TCXO_VOLTAGE;
+  #else
+      float tcxo = 1.6f;
+  #endif
+
+  #ifdef LORA_CR
+      uint8_t cr = LORA_CR;
+  #else
+      uint8_t cr = 5;
+  #endif
+
+  #if defined(P_LORA_SCLK)
+    #ifdef NRF52_PLATFORM
+      if (spi) { spi->setPins(P_LORA_MISO, P_LORA_SCLK, P_LORA_MOSI); spi->begin(); }
+    #elif defined(RP2040_PLATFORM)
+      if (spi) {
+        spi->setMISO(P_LORA_MISO);
+        //spi->setCS(P_LORA_NSS); // Setting CS results in freeze
+        spi->setSCK(P_LORA_SCLK);
+        spi->setMOSI(P_LORA_MOSI);
+        spi->begin();
+      }
+    #else
+      if (spi) spi->begin(P_LORA_SCLK, P_LORA_MISO, P_LORA_MOSI);
+    #endif
+  #endif
+      int status = begin(LORA_FREQ, LORA_BW, LORA_SF, cr, RADIOLIB_SX126X_SYNC_WORD_PRIVATE, LORA_TX_POWER, 16, tcxo);
+      // if radio init fails with -707/-706, try again with tcxo voltage set to 0.0f
+      if (status == RADIOLIB_ERR_SPI_CMD_FAILED || status == RADIOLIB_ERR_SPI_CMD_INVALID) {
+        #define SX126X_DIO3_TCXO_VOLTAGE (0.0f);
+        tcxo = SX126X_DIO3_TCXO_VOLTAGE;
+        status = begin(LORA_FREQ, LORA_BW, LORA_SF, cr, RADIOLIB_SX126X_SYNC_WORD_PRIVATE, LORA_TX_POWER, 16, tcxo);
+      }
+      if (status != RADIOLIB_ERR_NONE) {
+        Serial.print("ERROR: radio init failed: ");
+        Serial.println(status);
+        return false;  // fail
+      }
+    
+      setCRC(1);
+  
+  #ifdef SX126X_CURRENT_LIMIT
+      setCurrentLimit(SX126X_CURRENT_LIMIT);
+  #endif
+  #ifdef SX126X_DIO2_AS_RF_SWITCH
+      setDio2AsRfSwitch(SX126X_DIO2_AS_RF_SWITCH);
+  #endif
+  #ifdef SX126X_RX_BOOSTED_GAIN
+      setRxBoostedGainMode(SX126X_RX_BOOSTED_GAIN);
+  #endif
+  #if defined(SX126X_RXEN) || defined(SX126X_TXEN)
+    #ifndef SX126X_RXEN
+      #define SX126X_RXEN RADIOLIB_NC
+    #endif
+    #ifndef SX126X_TXEN
+      #define SX126X_TXEN RADIOLIB_NC
+    #endif
+      setRfSwitchPins(SX126X_RXEN, SX126X_TXEN);
+  #endif 
+
+      return true;  // success
+    }
+
+    bool isReceiving() {
+      uint16_t irq = getIrqFlags();
+      bool detected = (irq & SX126X_IRQ_HEADER_VALID) || (irq & SX126X_IRQ_PREAMBLE_DETECTED);
+      return detected;
+    }
+};
--- a/src/helpers/radiolib/CustomSX1262Wrapper.h
+++ b/src/helpers/radiolib/CustomSX1262Wrapper.h
--- a/src/helpers/radiolib/CustomSX1268.h
+++ b/src/helpers/radiolib/CustomSX1268.h
@@ -0,0 +1,87 @@
+#pragma once
+
+#include <RadioLib.h>
+
+#define SX126X_IRQ_HEADER_VALID                     0b0000010000  //  4     4     valid LoRa header received
+#define SX126X_IRQ_PREAMBLE_DETECTED           0x04
+
+class CustomSX1268 : public SX1268 {
+  public:
+    CustomSX1268(Module *mod) : SX1268(mod) { }
+
+  #ifdef RP2040_PLATFORM
+    bool std_init(SPIClassRP2040* spi = NULL)
+  #else
+    bool std_init(SPIClass* spi = NULL)
+  #endif
+    {
+  #ifdef SX126X_DIO3_TCXO_VOLTAGE
+      float tcxo = SX126X_DIO3_TCXO_VOLTAGE;
+  #else
+      float tcxo = 1.6f;
+  #endif
+
+  #ifdef LORA_CR
+      uint8_t cr = LORA_CR;
+  #else
+      uint8_t cr = 5;
+  #endif
+
+  #if defined(P_LORA_SCLK)
+    #ifdef NRF52_PLATFORM
+      if (spi) { spi->setPins(P_LORA_MISO, P_LORA_SCLK, P_LORA_MOSI); spi->begin(); }
+    #elif defined(RP2040_PLATFORM)
+      if (spi) {
+        spi->setMISO(P_LORA_MISO);
+        //spi->setCS(P_LORA_NSS); // Setting CS results in freeze
+        spi->setSCK(P_LORA_SCLK);
+        spi->setMOSI(P_LORA_MOSI);
+        spi->begin();
+      }
+    #else
+      if (spi) spi->begin(P_LORA_SCLK, P_LORA_MISO, P_LORA_MOSI);
+    #endif
+  #endif
+      int status = begin(LORA_FREQ, LORA_BW, LORA_SF, cr, RADIOLIB_SX126X_SYNC_WORD_PRIVATE, LORA_TX_POWER, 16, tcxo);
+      // if radio init fails with -707/-706, try again with tcxo voltage set to 0.0f
+      if (status == RADIOLIB_ERR_SPI_CMD_FAILED || status == RADIOLIB_ERR_SPI_CMD_INVALID) {
+        #define SX126X_DIO3_TCXO_VOLTAGE (0.0f);
+        tcxo = SX126X_DIO3_TCXO_VOLTAGE;
+        status = begin(LORA_FREQ, LORA_BW, LORA_SF, cr, RADIOLIB_SX126X_SYNC_WORD_PRIVATE, LORA_TX_POWER, 16, tcxo);
+      }
+      if (status != RADIOLIB_ERR_NONE) {
+        Serial.print("ERROR: radio init failed: ");
+        Serial.println(status);
+        return false;  // fail
+      }
+    
+      setCRC(1);
+  
+  #ifdef SX126X_CURRENT_LIMIT
+      setCurrentLimit(SX126X_CURRENT_LIMIT);
+  #endif
+  #ifdef SX126X_DIO2_AS_RF_SWITCH
+      setDio2AsRfSwitch(SX126X_DIO2_AS_RF_SWITCH);
+  #endif
+  #ifdef SX126X_RX_BOOSTED_GAIN
+      setRxBoostedGainMode(SX126X_RX_BOOSTED_GAIN);
+  #endif
+  #if defined(SX126X_RXEN) || defined(SX126X_TXEN)
+    #ifndef SX1262X_RXEN
+      #define SX1262X_RXEN RADIOLIB_NC
+    #endif
+    #ifndef SX1262X_TXEN
+      #define SX1262X_TXEN RADIOLIB_NC
+    #endif
+      setRfSwitchPins(SX126X_RXEN, SX126X_TXEN);
+  #endif 
+
+      return true;  // success
+    }
+
+    bool isReceiving() {
+      uint16_t irq = getIrqFlags();
+      bool detected = (irq & SX126X_IRQ_HEADER_VALID) || (irq & SX126X_IRQ_PREAMBLE_DETECTED);
+      return detected;
+    }
+};
--- a/src/helpers/radiolib/CustomSX1268Wrapper.h
+++ b/src/helpers/radiolib/CustomSX1268Wrapper.h
--- a/src/helpers/radiolib/CustomSX1276.h
+++ b/src/helpers/radiolib/CustomSX1276.h
@@ -0,0 +1,90 @@
+#pragma once
+
+#include <RadioLib.h>
+
+#define RH_RF95_MODEM_STATUS_CLEAR               0x10
+#define RH_RF95_MODEM_STATUS_HEADER_INFO_VALID   0x08
+#define RH_RF95_MODEM_STATUS_RX_ONGOING          0x04
+#define RH_RF95_MODEM_STATUS_SIGNAL_SYNCHRONIZED 0x02
+#define RH_RF95_MODEM_STATUS_SIGNAL_DETECTED     0x01
+
+class CustomSX1276 : public SX1276 {
+  public:
+    CustomSX1276(Module *mod) : SX1276(mod) { }
+
+  #ifdef RP2040_PLATFORM
+    bool std_init(SPIClassRP2040* spi = NULL)
+  #else
+    bool std_init(SPIClass* spi = NULL)
+  #endif
+    {
+  #ifdef LORA_CR
+      uint8_t cr = LORA_CR;
+  #else
+      uint8_t cr = 5;
+  #endif
+
+  #if defined(P_LORA_SCLK)
+    #ifdef NRF52_PLATFORM
+      if (spi) { spi->setPins(P_LORA_MISO, P_LORA_SCLK, P_LORA_MOSI); spi->begin(); }
+    #elif defined(RP2040_PLATFORM)
+      if (spi) {
+        spi->setMISO(P_LORA_MISO);
+        //spi->setCS(P_LORA_NSS); // Setting CS results in freeze
+        spi->setSCK(P_LORA_SCLK);
+        spi->setMOSI(P_LORA_MOSI);
+        spi->begin();
+      }
+    #else
+      if (spi) spi->begin(P_LORA_SCLK, P_LORA_MISO, P_LORA_MOSI);
+    #endif
+  #endif
+      int status = begin(LORA_FREQ, LORA_BW, LORA_SF, cr, RADIOLIB_SX126X_SYNC_WORD_PRIVATE, LORA_TX_POWER, 16);
+      // if radio init fails with -707/-706, try again with tcxo voltage set to 0.0f
+      if (status != RADIOLIB_ERR_NONE) {
+        Serial.print("ERROR: radio init failed: ");
+        Serial.println(status);
+        return false;  // fail
+      }
+  #ifdef SX127X_CURRENT_LIMIT
+      setCurrentLimit(SX127X_CURRENT_LIMIT);
+  #endif
+
+  #if defined(SX176X_RXEN) || defined(SX176X_TXEN)
+    #ifndef SX176X_RXEN
+      #define SX176X_RXEN RADIOLIB_NC
+    #endif
+    #ifndef SX176X_TXEN
+      #define SX176X_TXEN RADIOLIB_NC
+    #endif
+      setRfSwitchPins(SX176X_RXEN, SX176X_TXEN);
+  #endif
+
+      setCRC(1);
+
+      return true;  // success
+    }
+
+    bool isReceiving() {
+      return (getModemStatus() &
+         (RH_RF95_MODEM_STATUS_SIGNAL_DETECTED
+        | RH_RF95_MODEM_STATUS_SIGNAL_SYNCHRONIZED
+        | RH_RF95_MODEM_STATUS_HEADER_INFO_VALID)) != 0;
+    }
+
+    int tryScanChannel() {
+      // start CAD
+      int16_t state = startChannelScan();
+      RADIOLIB_ASSERT(state);
+
+      // wait for channel activity detected or timeout
+      unsigned long timeout = millis() + 16;
+      while(!this->mod->hal->digitalRead(this->mod->getIrq()) && millis() < timeout) {
+        this->mod->hal->yield();
+        if(this->mod->hal->digitalRead(this->mod->getGpio())) {
+          return(RADIOLIB_PREAMBLE_DETECTED);
+        }
+      }
+      return 0; // timed out
+    }
+};
--- a/src/helpers/radiolib/CustomSX1276Wrapper.h
+++ b/src/helpers/radiolib/CustomSX1276Wrapper.h
--- a/src/helpers/radiolib/RadioLibWrappers.cpp
+++ b/src/helpers/radiolib/RadioLibWrappers.cpp
@@ -9,6 +9,7 @@
 #define STATE_INT_READY 16

 #define NUM_NOISE_FLOOR_SAMPLES  64
+#define SAMPLING_THRESHOLD  14

 static volatile uint8_t state = STATE_IDLE;

@@ -46,17 +47,26 @@ void RadioLibWrapper::idle() {

 void RadioLibWrapper::triggerNoiseFloorCalibrate(int threshold) {
  _threshold = threshold;
-  if (threshold > 0 && _num_floor_samples >= NUM_NOISE_FLOOR_SAMPLES) {  // ignore trigger if currently sampling
+  if (_num_floor_samples >= NUM_NOISE_FLOOR_SAMPLES) {  // ignore trigger if currently sampling
    _num_floor_samples = 0;
    _floor_sample_sum = 0;
  }
 }

+void RadioLibWrapper::resetAGC() {
+  // make sure we're not mid-receive of packet!
+  if ((state & STATE_INT_READY) != 0 || isReceivingPacket()) return;
+
+  // NOTE: according to higher powers, just issuing RadioLib's startReceive() will reset the AGC.
+  //      revisit this if a better impl is discovered.
+  state = STATE_IDLE;   // trigger a startReceive()
+}
+
 void RadioLibWrapper::loop() {
  if (state == STATE_RX && _num_floor_samples < NUM_NOISE_FLOOR_SAMPLES) {
    if (!isReceivingPacket()) {
      int rssi = getCurrentRSSI();
-      if (rssi < _noise_floor + _threshold) {  // only consider samples below current floor+THRESHOLD
+      if (rssi < _noise_floor + SAMPLING_THRESHOLD) {  // only consider samples below current floor + sampling THRESHOLD
        _num_floor_samples++;
        _floor_sample_sum += rssi;
      }
@@ -86,8 +96,9 @@ bool RadioLibWrapper::isInRecvMode() const {
 }

 int RadioLibWrapper::recvRaw(uint8_t* bytes, int sz) {
+  int len = 0;
  if (state & STATE_INT_READY) {
-    int len = _radio->getPacketLength();
+    len = _radio->getPacketLength();
    if (len > 0) {
      if (len > sz) { len = sz; }
      int err = _radio->readData(bytes, len);
@@ -100,7 +111,6 @@ int RadioLibWrapper::recvRaw(uint8_t* bytes, int sz) {
      }
    }
    state = STATE_IDLE;   // need another startReceive()
-    return len;
  }

  if (state != STATE_RX) {
@@ -111,7 +121,7 @@ int RadioLibWrapper::recvRaw(uint8_t* bytes, int sz) {
      MESH_DEBUG_PRINTLN("RadioLibWrapper: error: startReceive(%d)", err);
    }
  }
-  return 0;
+  return len;
 }

 uint32_t RadioLibWrapper::getEstAirtimeFor(int len_bytes) {
--- a/src/helpers/radiolib/RadioLibWrappers.h
+++ b/src/helpers/radiolib/RadioLibWrappers.h
@@ -39,6 +39,7 @@ public:

  int getNoiseFloor() const override { return _noise_floor; }
  void triggerNoiseFloorCalibrate(int threshold) override;
+  void resetAGC() override;

  void loop() override;

--- a/src/helpers/rp2040/WaveshareBoard.cpp
+++ b/src/helpers/rp2040/WaveshareBoard.cpp
@@ -0,0 +1,30 @@
+#include "WaveshareBoard.h"
+
+#include <Arduino.h>
+#include <Wire.h>
+
+void WaveshareBoard::begin() {
+  // for future use, sub-classes SHOULD call this from their begin()
+  startup_reason = BD_STARTUP_NORMAL;
+
+#ifdef P_LORA_TX_LED
+  pinMode(P_LORA_TX_LED, OUTPUT);
+#endif
+
+#ifdef PIN_VBAT_READ
+  pinMode(PIN_VBAT_READ, INPUT);
+#endif
+
+#if defined(PIN_BOARD_SDA) && defined(PIN_BOARD_SCL)
+  Wire.setSDA(PIN_BOARD_SDA);
+  Wire.setSCL(PIN_BOARD_SCL);
+#endif
+
+  Wire.begin();
+
+  delay(10); // give sx1262 some time to power up
+}
+
+bool WaveshareBoard::startOTAUpdate(const char *id, char reply[]) {
+  return false;
+}
--- a/src/helpers/rp2040/WaveshareBoard.h
+++ b/src/helpers/rp2040/WaveshareBoard.h
@@ -0,0 +1,73 @@
+#pragma once
+
+#include <Arduino.h>
+#include <MeshCore.h>
+
+// LoRa radio module pins for Waveshare RP2040-LoRa-HF/LF
+// https://files.waveshare.com/wiki/RP2040-LoRa/Rp2040-lora-sch.pdf
+
+#define P_LORA_DIO_1             16
+#define P_LORA_NSS               13 // CS
+#define P_LORA_RESET             23
+#define P_LORA_BUSY              18
+#define P_LORA_SCLK              14
+#define P_LORA_MISO              24
+#define P_LORA_MOSI              15
+#define P_LORA_TX_LED            25
+
+#define SX126X_DIO2_AS_RF_SWITCH true
+#define SX126X_DIO3_TCXO_VOLTAGE 0
+
+/*
+ * This board has no built-in way to read battery voltage.
+ * Nevertheless it's very easy to make it work, you only require two 1% resistors.
+ *
+ *    BAT+ -----+
+ *              |
+ *       VSYS --+ -/\/\/\/\- --+
+ *                   200k      |
+ *                             +-- GPIO28
+ *                             |
+ *        GND --+ -/\/\/\/\- --+
+ *              |    100k
+ *    BAT- -----+
+ */
+#define PIN_VBAT_READ            28
+#define BATTERY_SAMPLES          8
+#define ADC_MULTIPLIER           (3.0f * 3.3f * 1000)
+
+class WaveshareBoard : public mesh::MainBoard {
+protected:
+  uint8_t startup_reason;
+
+public:
+  void begin();
+  uint8_t getStartupReason() const override { return startup_reason; }
+
+#ifdef P_LORA_TX_LED
+  void onBeforeTransmit() override { digitalWrite(P_LORA_TX_LED, HIGH); }
+  void onAfterTransmit() override { digitalWrite(P_LORA_TX_LED, LOW); }
+#endif
+
+  uint16_t getBattMilliVolts() override {
+#if defined(PIN_VBAT_READ) && defined(ADC_MULTIPLIER)
+    analogReadResolution(12);
+
+    uint32_t raw = 0;
+    for (int i = 0; i < BATTERY_SAMPLES; i++) {
+      raw += analogRead(PIN_VBAT_READ);
+    }
+    raw = raw / BATTERY_SAMPLES;
+
+    return (ADC_MULTIPLIER * raw) / 4096;
+#else
+    return 0;
+#endif
+  }
+
+  const char *getManufacturerName() const override { return "Waveshare RP2040-LoRa"; }
+
+  void reboot() override { rp2040.reboot(); }
+
+  bool startOTAUpdate(const char *id, char reply[]) override;
+};
--- a/src/helpers/rp2040/XiaoRP2040Board.cpp
+++ b/src/helpers/rp2040/XiaoRP2040Board.cpp
@@ -0,0 +1,30 @@
+#include "XiaoRP2040Board.h"
+
+#include <Arduino.h>
+#include <Wire.h>
+
+void XiaoRP2040Board::begin() {
+  // for future use, sub-classes SHOULD call this from their begin()
+  startup_reason = BD_STARTUP_NORMAL;
+
+#ifdef P_LORA_TX_LED
+  pinMode(P_LORA_TX_LED, OUTPUT);
+#endif
+
+#ifdef PIN_VBAT_READ
+  pinMode(PIN_VBAT_READ, INPUT);
+#endif
+
+#if defined(PIN_BOARD_SDA) && defined(PIN_BOARD_SCL)
+  Wire.setSDA(PIN_BOARD_SDA);
+  Wire.setSCL(PIN_BOARD_SCL);
+#endif
+
+  Wire.begin();
+
+  delay(10); // give sx1262 some time to power up
+}
+
+bool XiaoRP2040Board::startOTAUpdate(const char *id, char reply[]) {
+  return false;
+}
--- a/src/helpers/rp2040/XiaoRP2040Board.h
+++ b/src/helpers/rp2040/XiaoRP2040Board.h
@@ -0,0 +1,75 @@
+#pragma once
+
+#include <Arduino.h>
+#include <MeshCore.h>
+
+// LoRa radio module pins for the Xiao RP2040
+// https://wiki.seeedstudio.com/XIAO-RP2040/
+
+#define P_LORA_DIO_1      27 // D1
+#define P_LORA_NSS        6  // D4
+#define P_LORA_RESET      28 // D2
+#define P_LORA_BUSY       29 // D3
+#define P_LORA_TX_LED     17
+
+#define SX126X_RXEN       7  // D5
+#define SX126X_TXEN       -1
+
+#define SX126X_DIO2_AS_RF_SWITCH true
+#define SX126X_DIO3_TCXO_VOLTAGE 1.8
+
+/*
+ * This board has no built-in way to read battery voltage.
+ * Nevertheless it's very easy to make it work, you only require two 1% resistors.
+ * If your using the WIO SX1262 Addon for xaio, make sure you dont connect D0!
+ *
+ *    BAT+ -----+
+ *              |
+ *       VSYS --+ -/\/\/\/\- --+
+ *                   200k      |
+ *                             +-- D0
+ *                             |
+ *        GND --+ -/\/\/\/\- --+
+ *              |    100k
+ *    BAT- -----+
+ */
+#define PIN_VBAT_READ     26 // D0
+#define BATTERY_SAMPLES   8
+#define ADC_MULTIPLIER    (3.0f * 3.3f * 1000)
+
+class XiaoRP2040Board : public mesh::MainBoard {
+protected:
+  uint8_t startup_reason;
+
+public:
+  void begin();
+  uint8_t getStartupReason() const override { return startup_reason; }
+
+#ifdef P_LORA_TX_LED
+  void onBeforeTransmit() override { digitalWrite(P_LORA_TX_LED, HIGH); }
+  void onAfterTransmit() override { digitalWrite(P_LORA_TX_LED, LOW); }
+#endif
+
+
+  uint16_t getBattMilliVolts() override {
+#if defined(PIN_VBAT_READ) && defined(ADC_MULTIPLIER)
+    analogReadResolution(12);
+
+    uint32_t raw = 0;
+    for (int i = 0; i < BATTERY_SAMPLES; i++) {
+      raw += analogRead(PIN_VBAT_READ);
+    }
+    raw = raw / BATTERY_SAMPLES;
+
+    return (ADC_MULTIPLIER * raw) / 4096;
+#else
+    return 0;
+#endif
+  }
+
+  const char *getManufacturerName() const override { return "Xiao RP2040"; }
+
+  void reboot() override { rp2040.reboot(); }
+
+  bool startOTAUpdate(const char *id, char reply[]) override;
+};
--- a/src/helpers/sensors/EnvironmentSensorManager.cpp
+++ b/src/helpers/sensors/EnvironmentSensorManager.cpp
@@ -1,5 +1,11 @@
 #include "EnvironmentSensorManager.h"

+#if ENV_PIN_SDA && ENV_PIN_SCL
+#define TELEM_WIRE &Wire1  // Use Wire1 as the I2C bus for Environment Sensors
+#else
+#define TELEM_WIRE &Wire  // Use default I2C bus for Environment Sensors
+#endif
+
 #if ENV_INCLUDE_AHTX0
 #define TELEM_AHTX_ADDRESS      0x38      // AHT10, AHT20 temperature and humidity sensor I2C address
 #include <Adafruit_AHTX0.h>
@@ -7,12 +13,38 @@ static Adafruit_AHTX0 AHTX0;
 #endif

 #if ENV_INCLUDE_BME280
+#ifndef TELEM_BME280_ADDRESS
 #define TELEM_BME280_ADDRESS    0x76      // BME280 environmental sensor I2C address
+#endif
 #define TELEM_BME280_SEALEVELPRESSURE_HPA (1013.25)    // Athmospheric pressure at sea level
 #include <Adafruit_BME280.h>
 static Adafruit_BME280 BME280;
 #endif

+#if ENV_INCLUDE_BMP280
+#ifndef TELEM_BMP280_ADDRESS
+#define TELEM_BMP280_ADDRESS    0x76      // BMP280 environmental sensor I2C address
+#endif
+#define TELEM_BMP280_SEALEVELPRESSURE_HPA (1013.25)    // Athmospheric pressure at sea level
+#include <Adafruit_BMP280.h>
+static Adafruit_BMP280 BMP280;
+#endif
+
+#if ENV_INCLUDE_SHTC3
+#include <Adafruit_SHTC3.h>
+static Adafruit_SHTC3 SHTC3;
+#endif
+
+#if ENV_INCLUDE_SHT4X
+#define TELEM_SHT4X_ADDRESS 0x44  //0x44 - 0x46
+#include <SensirionI2cSht4x.h>
+static SensirionI2cSht4x SHT4X;
+#endif
+
+#if ENV_INCLUDE_LPS22HB
+#include <Arduino_LPS22HB.h>
+#endif
+
 #if ENV_INCLUDE_INA3221
 #define TELEM_INA3221_ADDRESS   0x42      // INA3221 3 channel current sensor I2C address
 #define TELEM_INA3221_SHUNT_VALUE 0.100 // most variants will have a 0.1 ohm shunts
@@ -27,13 +59,57 @@ static Adafruit_INA3221 INA3221;
 static Adafruit_INA219 INA219(TELEM_INA219_ADDRESS);
 #endif

+#if ENV_INCLUDE_INA260
+#define TELEM_INA260_ADDRESS    0x41      // INA260 single channel current sensor I2C address
+#include <Adafruit_INA260.h>
+static Adafruit_INA260 INA260;
+#endif
+
+#if ENV_INCLUDE_INA226
+#define TELEM_INA226_ADDRESS    0x44 
+#define TELEM_INA226_SHUNT_VALUE 0.100 
+#define TELEM_INA226_MAX_AMP 0.8
+#include <INA226.h>
+static INA226 INA226(TELEM_INA226_ADDRESS);
+#endif
+
+#if ENV_INCLUDE_MLX90614
+#define TELEM_MLX90614_ADDRESS 0x5A      // MLX90614 IR temperature sensor I2C address
+#include <Adafruit_MLX90614.h>
+static Adafruit_MLX90614 MLX90614;
+#endif
+
+#if ENV_INCLUDE_VL53L0X
+#define TELEM_VL53L0X_ADDRESS 0x29      // VL53L0X time-of-flight distance sensor I2C address
+#include <Adafruit_VL53L0X.h>
+static Adafruit_VL53L0X VL53L0X;
+#endif
+
+#if ENV_INCLUDE_GPS && RAK_BOARD
+static uint32_t gpsResetPin = 0;
+static bool i2cGPSFlag = false;
+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;
+#endif
+
 bool EnvironmentSensorManager::begin() {
  #if ENV_INCLUDE_GPS
+  #if RAK_BOARD
+  rakGPSInit();   //probe base board/sockets for GPS
+  #else
  initBasicGPS();
  #endif
+  #endif
+
+  #if ENV_PIN_SDA && ENV_PIN_SCL
+  Wire1.begin(ENV_PIN_SDA, ENV_PIN_SCL, 100000);
+  MESH_DEBUG_PRINTLN("Second I2C initialized on pins SDA: %d SCL: %d", ENV_PIN_SDA, ENV_PIN_SCL);
+  #endif

  #if ENV_INCLUDE_AHTX0
-  if (AHTX0.begin(&Wire, 0, TELEM_AHTX_ADDRESS)) {
+  if (AHTX0.begin(TELEM_WIRE, 0, TELEM_AHTX_ADDRESS)) {
    MESH_DEBUG_PRINTLN("Found AHT10/AHT20 at address: %02X", TELEM_AHTX_ADDRESS);
    AHTX0_initialized = true;
  } else {
@@ -43,7 +119,7 @@ bool EnvironmentSensorManager::begin() {
  #endif

  #if ENV_INCLUDE_BME280
-  if (BME280.begin(TELEM_BME280_ADDRESS, &Wire)) {
+  if (BME280.begin(TELEM_BME280_ADDRESS, TELEM_WIRE)) {
    MESH_DEBUG_PRINTLN("Found BME280 at address: %02X", TELEM_BME280_ADDRESS);
    MESH_DEBUG_PRINTLN("BME sensor ID: %02X", BME280.sensorID());
    BME280_initialized = true;
@@ -53,28 +129,115 @@ bool EnvironmentSensorManager::begin() {
  }
  #endif

-  #if ENV_INCLUDE_INA3221
-  if (INA3221.begin(TELEM_INA3221_ADDRESS, &Wire)) {
-      MESH_DEBUG_PRINTLN("Found INA3221 at address: %02X", TELEM_INA3221_ADDRESS);
-      MESH_DEBUG_PRINTLN("%04X %04X", INA3221.getDieID(), INA3221.getManufacturerID());
-
-      for(int i = 0; i < 3; i++) {
-        INA3221.setShuntResistance(i, TELEM_INA3221_SHUNT_VALUE);
-      }
-      INA3221_initialized = true;
+  #if ENV_INCLUDE_BMP280
+  if (BMP280.begin(TELEM_BMP280_ADDRESS)) {
+    MESH_DEBUG_PRINTLN("Found BMP280 at address: %02X", TELEM_BMP280_ADDRESS);
+    MESH_DEBUG_PRINTLN("BMP sensor ID: %02X", BMP280.sensorID());
+    BMP280_initialized = true;
  } else {
-      INA3221_initialized = false;
-      MESH_DEBUG_PRINTLN("INA3221 was not found at I2C address %02X", TELEM_INA3221_ADDRESS);
+    BMP280_initialized = false;
+    MESH_DEBUG_PRINTLN("BMP280 was not found at I2C address %02X", TELEM_BMP280_ADDRESS);
+  }
+  #endif
+
+  #if ENV_INCLUDE_SHTC3
+  if (SHTC3.begin()) {
+    MESH_DEBUG_PRINTLN("Found sensor: SHTC3");
+    SHTC3_initialized = true;
+  } else {
+    SHTC3_initialized = false;
+    MESH_DEBUG_PRINTLN("SHTC3 was not found at I2C address %02X", 0x70);
+  }
+  #endif
+
+
+  #if ENV_INCLUDE_SHT4X
+  SHT4X.begin(*TELEM_WIRE, TELEM_SHT4X_ADDRESS);
+  uint32_t serialNumber = 0;
+  int16_t sht4x_error;
+  sht4x_error = SHT4X.serialNumber(serialNumber);
+  if (sht4x_error == 0) {
+    MESH_DEBUG_PRINTLN("Found SHT4X at address: %02X", TELEM_SHT4X_ADDRESS);
+    SHT4X_initialized = true;
+  } else {
+    SHT4X_initialized = false;
+    MESH_DEBUG_PRINTLN("SHT4X was not found at I2C address %02X", TELEM_SHT4X_ADDRESS);
+  }
+  #endif
+
+  #if ENV_INCLUDE_LPS22HB
+  if (BARO.begin()) {
+    MESH_DEBUG_PRINTLN("Found sensor: LPS22HB");
+    LPS22HB_initialized = true;
+  } else {
+    LPS22HB_initialized = false;
+    MESH_DEBUG_PRINTLN("LPS22HB was not found at I2C address %02X", 0x5C);
+  }
+  #endif
+
+  #if ENV_INCLUDE_INA3221
+  if (INA3221.begin(TELEM_INA3221_ADDRESS, TELEM_WIRE)) {
+    MESH_DEBUG_PRINTLN("Found INA3221 at address: %02X", TELEM_INA3221_ADDRESS);
+    MESH_DEBUG_PRINTLN("%04X %04X", INA3221.getDieID(), INA3221.getManufacturerID());
+
+    for(int i = 0; i < 3; i++) {
+      INA3221.setShuntResistance(i, TELEM_INA3221_SHUNT_VALUE);
+    }
+    INA3221_initialized = true;
+  } else {
+    INA3221_initialized = false;
+    MESH_DEBUG_PRINTLN("INA3221 was not found at I2C address %02X", TELEM_INA3221_ADDRESS);
  }
  #endif

  #if ENV_INCLUDE_INA219
-  if (INA219.begin(&Wire)) {
-      MESH_DEBUG_PRINTLN("Found INA219 at address: %02X", TELEM_INA219_ADDRESS);
-      INA219_initialized = true;
+  if (INA219.begin(TELEM_WIRE)) {
+    MESH_DEBUG_PRINTLN("Found INA219 at address: %02X", TELEM_INA219_ADDRESS);
+    INA219_initialized = true;
  } else {
-      INA219_initialized = false;
-      MESH_DEBUG_PRINTLN("INA219 was not found at I2C address %02X", TELEM_INA219_ADDRESS);
+    INA219_initialized = false;
+    MESH_DEBUG_PRINTLN("INA219 was not found at I2C address %02X", TELEM_INA219_ADDRESS);
+  }
+  #endif
+
+  #if ENV_INCLUDE_INA260
+  if (INA260.begin(TELEM_INA260_ADDRESS, TELEM_WIRE)) {
+    MESH_DEBUG_PRINTLN("Found INA260 at address: %02X", TELEM_INA260_ADDRESS);
+    INA260_initialized = true;
+  } else {
+    INA260_initialized = false;
+    MESH_DEBUG_PRINTLN("INA260 was not found at I2C address %02X", TELEM_INA219_ADDRESS);
+  }
+  #endif
+
+  #if ENV_INCLUDE_INA226
+  if (INA226.begin()) {
+    MESH_DEBUG_PRINTLN("Found INA226 at address: %02X", TELEM_INA226_ADDRESS);
+    INA226.setMaxCurrentShunt(TELEM_INA226_MAX_AMP, TELEM_INA226_SHUNT_VALUE);
+    INA226_initialized = true;
+  } else {
+    INA226_initialized = false;
+    MESH_DEBUG_PRINTLN("INA226 was not found at I2C address %02X", TELEM_INA226_ADDRESS);
+  }
+  #endif
+
+  #if ENV_INCLUDE_MLX90614
+  if (MLX90614.begin(TELEM_MLX90614_ADDRESS, TELEM_WIRE)) {
+    MESH_DEBUG_PRINTLN("Found MLX90614 at address: %02X", TELEM_MLX90614_ADDRESS);
+    MLX90614_initialized = true;
+  } else {
+    MLX90614_initialized = false;
+    MESH_DEBUG_PRINTLN("MLX90614 was not found at I2C address %02X", TELEM_MLX90614_ADDRESS);
+  }
+  #endif
+
+  #if ENV_INCLUDE_VL53L0X
+  if (VL53L0X.begin(TELEM_VL53L0X_ADDRESS, false, TELEM_WIRE)) {
+    MESH_DEBUG_PRINTLN("Found VL53L0X at address: %02X", TELEM_VL53L0X_ADDRESS);
+    VL53L0X_initialized = true;
+  } else {
+    VL53L0X_initialized = false;
+    MESH_DEBUG_PRINTLN("VL53L0X was not found at I2C address %02X", TELEM_VL53L0X_ADDRESS);
  }
  #endif

@@ -84,7 +247,7 @@ bool EnvironmentSensorManager::begin() {
 bool EnvironmentSensorManager::querySensors(uint8_t requester_permissions, CayenneLPP& telemetry) {
  next_available_channel = TELEM_CHANNEL_SELF + 1;

-  if (requester_permissions & TELEM_PERM_LOCATION) {
+  if (requester_permissions & TELEM_PERM_LOCATION && gps_active) {
    telemetry.addGPS(TELEM_CHANNEL_SELF, node_lat, node_lon, 0.0f); // allow lat/lon via telemetry even if no GPS is detected
  }

@@ -95,7 +258,7 @@ bool EnvironmentSensorManager::querySensors(uint8_t requester_permissions, Cayen
      sensors_event_t humidity, temp;
      AHTX0.getEvent(&humidity, &temp);
      telemetry.addTemperature(TELEM_CHANNEL_SELF, temp.temperature);
-      telemetry.addRelativeHumidity(TELEM_CHANNEL_SELF, humidity.relative_humidity);      
+      telemetry.addRelativeHumidity(TELEM_CHANNEL_SELF, humidity.relative_humidity);
    }
    #endif

@@ -103,11 +266,48 @@ bool EnvironmentSensorManager::querySensors(uint8_t requester_permissions, Cayen
    if (BME280_initialized) {
      telemetry.addTemperature(TELEM_CHANNEL_SELF, BME280.readTemperature());
      telemetry.addRelativeHumidity(TELEM_CHANNEL_SELF, BME280.readHumidity());
-      telemetry.addBarometricPressure(TELEM_CHANNEL_SELF, BME280.readPressure());
+      telemetry.addBarometricPressure(TELEM_CHANNEL_SELF, BME280.readPressure()/100);
      telemetry.addAltitude(TELEM_CHANNEL_SELF, BME280.readAltitude(TELEM_BME280_SEALEVELPRESSURE_HPA));
    }
    #endif

+    #if ENV_INCLUDE_BMP280
+    if (BMP280_initialized) {
+      telemetry.addTemperature(TELEM_CHANNEL_SELF, BMP280.readTemperature());
+      telemetry.addBarometricPressure(TELEM_CHANNEL_SELF, BMP280.readPressure()/100);
+      telemetry.addAltitude(TELEM_CHANNEL_SELF, BMP280.readAltitude(TELEM_BMP280_SEALEVELPRESSURE_HPA));
+    }
+    #endif
+
+    #if ENV_INCLUDE_SHTC3
+    if (SHTC3_initialized) {
+      sensors_event_t humidity, temp;
+      SHTC3.getEvent(&humidity, &temp);
+
+      telemetry.addTemperature(TELEM_CHANNEL_SELF, temp.temperature);
+      telemetry.addRelativeHumidity(TELEM_CHANNEL_SELF, humidity.relative_humidity);
+    }
+    #endif
+
+    #if ENV_INCLUDE_SHT4X
+    if (SHT4X_initialized) {
+      float sht4x_humidity, sht4x_temperature;
+      int16_t sht4x_error;
+      sht4x_error = SHT4X.measureLowestPrecision(sht4x_temperature, sht4x_humidity);
+      if (sht4x_error == 0) {
+        telemetry.addTemperature(TELEM_CHANNEL_SELF, sht4x_temperature);
+        telemetry.addRelativeHumidity(TELEM_CHANNEL_SELF, sht4x_humidity);
+      }
+    }
+    #endif
+
+    #if ENV_INCLUDE_LPS22HB
+    if (LPS22HB_initialized) {
+      telemetry.addTemperature(TELEM_CHANNEL_SELF, BARO.readTemperature());
+      telemetry.addBarometricPressure(TELEM_CHANNEL_SELF, BARO.readPressure());
+    }
+    #endif
+
    #if ENV_INCLUDE_INA3221
    if (INA3221_initialized) {
      for(int i = 0; i < TELEM_INA3221_NUM_CHANNELS; i++) {
@@ -126,10 +326,47 @@ bool EnvironmentSensorManager::querySensors(uint8_t requester_permissions, Cayen

    #if ENV_INCLUDE_INA219
    if (INA219_initialized) {
-        telemetry.addVoltage(next_available_channel, INA219.getBusVoltage_V());
-        telemetry.addCurrent(next_available_channel, INA219.getCurrent_mA() / 1000);
-        telemetry.addPower(next_available_channel, INA219.getPower_mW() / 1000);
-        next_available_channel++;
+      telemetry.addVoltage(next_available_channel, INA219.getBusVoltage_V());
+      telemetry.addCurrent(next_available_channel, INA219.getCurrent_mA() / 1000);
+      telemetry.addPower(next_available_channel, INA219.getPower_mW() / 1000);
+      next_available_channel++;
+    }
+    #endif
+
+    #if ENV_INCLUDE_INA260
+    if (INA260_initialized) {
+      telemetry.addVoltage(next_available_channel, INA260.readBusVoltage() / 1000);
+      telemetry.addCurrent(next_available_channel, INA260.readCurrent() / 1000);
+      telemetry.addPower(next_available_channel, INA260.readPower() / 1000);
+      next_available_channel++;
+    }
+    #endif
+
+    #if ENV_INCLUDE_INA226
+    if (INA226_initialized) {
+      telemetry.addVoltage(next_available_channel, INA226.getBusVoltage());
+      telemetry.addCurrent(next_available_channel, INA226.getCurrent_mA() / 1000.0);
+      telemetry.addPower(next_available_channel, INA226.getPower_mW() / 1000.0);
+      next_available_channel++;
+    }
+    #endif
+
+    #if ENV_INCLUDE_MLX90614
+    if (MLX90614_initialized) {
+      telemetry.addTemperature(TELEM_CHANNEL_SELF, MLX90614.readObjectTempC());
+      telemetry.addTemperature(TELEM_CHANNEL_SELF + 1, MLX90614.readAmbientTempC());
+    }
+    #endif
+
+    #if ENV_INCLUDE_VL53L0X
+    if (VL53L0X_initialized) {
+      VL53L0X_RangingMeasurementData_t measure;
+      VL53L0X.rangingTest(&measure, false); // pass in 'true' to get debug data
+      if (measure.RangeStatus != 4) { // phase failures
+        telemetry.addDistance(TELEM_CHANNEL_SELF, measure.RangeMilliMeter / 1000.0f); // convert mm to m
+      } else {
+        telemetry.addDistance(TELEM_CHANNEL_SELF, 0.0f); // no valid measurement
+      }
    }
    #endif

@@ -150,7 +387,7 @@ int EnvironmentSensorManager::getNumSettings() const {
 const char* EnvironmentSensorManager::getSettingName(int i) const {
  #if ENV_INCLUDE_GPS
    return (gps_detected && i == 0) ? "gps" : NULL;
-  #else  
+  #else
    return NULL;
  #endif
 }
@@ -180,12 +417,24 @@ bool EnvironmentSensorManager::setSettingValue(const char* name, const char* val

 #if ENV_INCLUDE_GPS
 void EnvironmentSensorManager::initBasicGPS() {
+
  Serial1.setPins(PIN_GPS_TX, PIN_GPS_RX);
+
+  #ifdef GPS_BAUD_RATE
+  Serial1.begin(GPS_BAUD_RATE);
+  #else
  Serial1.begin(9600);
+  #endif

  // Try to detect if GPS is physically connected to determine if we should expose the setting
-  pinMode(PIN_GPS_EN, OUTPUT);
-  digitalWrite(PIN_GPS_EN, HIGH);  // Power on GPS
+  #ifdef PIN_GPS_EN
+    pinMode(PIN_GPS_EN, OUTPUT);
+    digitalWrite(PIN_GPS_EN, HIGH);   // Power on GPS
+  #endif
+
+  #ifndef PIN_GPS_EN
+    MESH_DEBUG_PRINTLN("No GPS wake/reset pin found for this board. Continuing on...");
+  #endif

  // Give GPS a moment to power up and send data
  delay(1000);
@@ -195,23 +444,121 @@ void EnvironmentSensorManager::initBasicGPS() {

  if (gps_detected) {
    MESH_DEBUG_PRINTLN("GPS detected");
-    digitalWrite(PIN_GPS_EN, LOW);  // Power off GPS until the setting is changed
+    #ifdef PERSISTANT_GPS
+      gps_active = true;
+      return;
+    #endif
  } else {
    MESH_DEBUG_PRINTLN("No GPS detected");
-    digitalWrite(PIN_GPS_EN, LOW);
  }
+  #ifdef PIN_GPS_EN
+    digitalWrite(PIN_GPS_EN, LOW);  // Power off GPS until the setting is changed
+  #endif
+  gps_active = false; //Set GPS visibility off until setting is changed
 }

+#ifdef RAK_BOARD
+void EnvironmentSensorManager::rakGPSInit(){
+
+  Serial1.setPins(PIN_GPS_TX, PIN_GPS_RX);
+
+  #ifdef GPS_BAUD_RATE
+  Serial1.begin(GPS_BAUD_RATE);
+  #else
+  Serial1.begin(9600);
+  #endif
+
+  //search for the correct IO standby pin depending on socket used
+  if(gpsIsAwake(WB_IO2)){
+  //  MESH_DEBUG_PRINTLN("RAK base board is RAK19007/10");
+  //  MESH_DEBUG_PRINTLN("GPS is installed on Socket A");
+  }
+  else if(gpsIsAwake(WB_IO4)){
+  //  MESH_DEBUG_PRINTLN("RAK base board is RAK19003/9");
+  //  MESH_DEBUG_PRINTLN("GPS is installed on Socket C");
+  }
+  else if(gpsIsAwake(WB_IO5)){
+  //  MESH_DEBUG_PRINTLN("RAK base board is RAK19001/11");
+  //  MESH_DEBUG_PRINTLN("GPS is installed on Socket F");
+  }
+  else{
+    MESH_DEBUG_PRINTLN("No GPS found");
+    gps_active = false;
+    gps_detected = false;
+    return;
+  }
+
+  #ifndef FORCE_GPS_ALIVE // for use with repeaters, until GPS toggle is implimented
+  //Now that GPS is found and set up, set to sleep for initial state
+  stop_gps();
+  #endif
+}
+
+bool EnvironmentSensorManager::gpsIsAwake(uint8_t ioPin){
+
+  //set initial waking state
+  pinMode(ioPin,OUTPUT);
+  digitalWrite(ioPin,LOW);
+  delay(500);
+  digitalWrite(ioPin,HIGH);
+  delay(500);
+
+  //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.saveConfigSelective(VAL_CFG_SUBSEC_IOPORT);
+    gpsResetPin = ioPin;
+    i2cGPSFlag = true;
+    gps_active = true;
+    gps_detected = true;
+    return true;
+  }
+  else if(Serial1){
+    MESH_DEBUG_PRINTLN("Serial GPS init correctly and is turned on");
+    if(PIN_GPS_EN){
+      gpsResetPin = PIN_GPS_EN;
+    }
+    serialGPSFlag = true;
+    gps_active = true;
+    gps_detected = true;
+    return true;
+  }
+  MESH_DEBUG_PRINTLN("GPS did not init with this IO pin... try the next");
+  return false;
+}
+#endif
+
 void EnvironmentSensorManager::start_gps() {
  gps_active = true;
-  pinMode(PIN_GPS_EN, OUTPUT);
-  digitalWrite(PIN_GPS_EN, HIGH);
+  #ifdef RAK_BOARD
+    pinMode(gpsResetPin, OUTPUT);
+    digitalWrite(gpsResetPin, HIGH);
+    return;
+  #endif
+  #ifdef PIN_GPS_EN
+    pinMode(PIN_GPS_EN, OUTPUT);
+    digitalWrite(PIN_GPS_EN, HIGH);
+    return;
+  #endif
+
+  MESH_DEBUG_PRINTLN("Start GPS is N/A on this board. Actual GPS state unchanged");
 }

 void EnvironmentSensorManager::stop_gps() {
  gps_active = false;
-  pinMode(PIN_GPS_EN, OUTPUT);
-  digitalWrite(PIN_GPS_EN, LOW);
+  #ifdef RAK_BOARD
+    pinMode(gpsResetPin, OUTPUT);
+    digitalWrite(gpsResetPin, LOW);
+    return;
+  #endif
+  #ifdef PIN_GPS_EN
+    pinMode(PIN_GPS_EN, OUTPUT);
+    digitalWrite(PIN_GPS_EN, LOW);
+    return;
+  #endif
+
+  MESH_DEBUG_PRINTLN("Stop GPS is N/A on this board. Actual GPS state unchanged");
 }

 void EnvironmentSensorManager::loop() {
@@ -220,12 +567,29 @@ void EnvironmentSensorManager::loop() {
  _location->loop();

  if (millis() > next_gps_update) {
+    if(gps_active){
+    #ifndef RAK_BOARD
    if (_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);
    }
+    #else
+    if(i2cGPSFlag){
+      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);
+    }
+    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);
+    }
+    //else
+    //MESH_DEBUG_PRINTLN("No valid GPS data");
+    #endif
+    }
    next_gps_update = millis() + 1000;
  }
 }
-#endif
+#endif
--- a/src/helpers/sensors/EnvironmentSensorManager.h
+++ b/src/helpers/sensors/EnvironmentSensorManager.h
@@ -10,9 +10,17 @@ protected:

  bool AHTX0_initialized = false;
  bool BME280_initialized = false;
+  bool BMP280_initialized = false;
  bool INA3221_initialized = false;
  bool INA219_initialized = false;
-  
+  bool INA260_initialized = false;
+  bool INA226_initialized = false;
+  bool SHTC3_initialized = false;
+  bool LPS22HB_initialized = false;
+  bool MLX90614_initialized = false;
+  bool VL53L0X_initialized = false;
+  bool SHT4X_initialized = false;
+
  bool gps_detected = false;
  bool gps_active = false;

@@ -21,6 +29,10 @@ protected:
  void start_gps();
  void stop_gps();
  void initBasicGPS();
+  #ifdef RAK_BOARD
+  void rakGPSInit();
+  bool gpsIsAwake(uint8_t ioPin);
+  #endif
  #endif


@@ -31,7 +43,7 @@ public:
  EnvironmentSensorManager(){};
  #endif
  bool begin() override;
-  bool querySensors(uint8_t requester_permissions, CayenneLPP& telemetry) override;  
+  bool querySensors(uint8_t requester_permissions, CayenneLPP& telemetry) override;
  #if ENV_INCLUDE_GPS
  void loop() override;
  #endif
--- a/src/helpers/stm32/STM32Board.h
+++ b/src/helpers/stm32/STM32Board.h
@@ -8,7 +8,7 @@ protected:
  uint8_t startup_reason;

 public:
-  void begin() {
+  virtual void begin() {
    startup_reason = BD_STARTUP_NORMAL;
  }

@@ -23,7 +23,23 @@ public:
  }

  void reboot() override {
+    NVIC_SystemReset(); 
  }

+  void powerOff() override {
+    HAL_PWREx_DisableInternalWakeUpLine();
+    __disable_irq();
+    HAL_PWREx_EnterSHUTDOWNMode();
+  }
+
+#if defined(P_LORA_TX_LED)
+  void onBeforeTransmit() override {
+    digitalWrite(P_LORA_TX_LED, LOW);   // turn TX LED on
+  }
+  void onAfterTransmit() override {
+    digitalWrite(P_LORA_TX_LED, HIGH);   // turn TX LED off
+  }
+#endif
+
  bool startOTAUpdate(const char* id, char reply[]) override { return false; };
 };
--- a/src/helpers/ui/DisplayDriver.h
+++ b/src/helpers/ui/DisplayDriver.h
@@ -21,9 +21,15 @@ public:
  virtual void setColor(Color c) = 0;
  virtual void setCursor(int x, int y) = 0;
  virtual void print(const char* str) = 0;
+  virtual void printWordWrap(const char* str, int max_width) { print(str); }   // fallback to basic print() if no override
  virtual void fillRect(int x, int y, int w, int h) = 0;
  virtual void drawRect(int x, int y, int w, int h) = 0;
  virtual void drawXbm(int x, int y, const uint8_t* bits, int w, int h) = 0;
  virtual uint16_t getTextWidth(const char* str) = 0;
+  virtual void drawTextCentered(int mid_x, int y, const char* str) {   // helper method (override to optimise)
+    int w = getTextWidth(str);
+    setCursor(mid_x - w/2, y);
+    print(str);
+  }
  virtual void endFrame() = 0;
 };
--- a/src/helpers/ui/E213Display.cpp
+++ b/src/helpers/ui/E213Display.cpp
@@ -0,0 +1,164 @@
+#include "E213Display.h"
+
+#include "../../MeshCore.h"
+
+BaseDisplay* E213Display::detectEInk()
+{
+    // Test 1: Logic of BUSY pin
+
+    // Determines controller IC manufacturer
+    // Fitipower: busy when LOW
+    // Solomon Systech: busy when HIGH
+
+    // Force display BUSY by holding reset pin active
+    pinMode(DISP_RST, OUTPUT);
+    digitalWrite(DISP_RST, LOW);
+
+    delay(10);
+
+    // Read whether pin is HIGH or LOW while busy
+    pinMode(DISP_BUSY, INPUT);
+    bool busyLogic = digitalRead(DISP_BUSY);
+
+    // Test complete. Release pin
+    pinMode(DISP_RST, INPUT);
+
+    if (busyLogic == LOW) {
+#ifdef VISION_MASTER_E213
+      return new EInkDisplay_VisionMasterE213 ;
+#else
+      return new EInkDisplay_WirelessPaperV1_1 ;
+#endif
+    } else {// busy HIGH
+#ifdef VISION_MASTER_E213
+      return new EInkDisplay_VisionMasterE213V1_1 ;
+#else
+      return new EInkDisplay_WirelessPaperV1_1_1 ;
+#endif
+    }
+}
+
+bool E213Display::begin() {
+  if (_init) return true;
+
+  powerOn();
+  if(display==NULL) {
+    display = detectEInk();
+  }
+  display->begin();
+  // Set to landscape mode rotated 180 degrees
+  display->setRotation(3);
+
+  _init = true;
+  _isOn = true;
+
+  clear();
+  display->fastmodeOn(); // Enable fast mode for quicker (partial) updates
+
+  return true;
+}
+
+void E213Display::powerOn() {
+#ifdef PIN_VEXT_EN
+  pinMode(PIN_VEXT_EN, OUTPUT);
+#ifdef PIN_VEXT_EN_ACTIVE
+  digitalWrite(PIN_VEXT_EN, PIN_VEXT_EN_ACTIVE); 
+#else
+  digitalWrite(PIN_VEXT_EN, LOW); // Active low
+#endif
+  delay(50);                      // Allow power to stabilize
+#endif
+}
+
+void E213Display::powerOff() {
+#ifdef PIN_VEXT_EN
+#ifdef PIN_VEXT_EN_ACTIVE
+  digitalWrite(PIN_VEXT_EN, !PIN_VEXT_EN_ACTIVE); 
+#else
+  digitalWrite(PIN_VEXT_EN, HIGH); // Turn off power
+#endif
+#endif
+}
+
+void E213Display::turnOn() {
+  if (!_init) begin();
+  powerOn();
+  _isOn = true;
+}
+
+void E213Display::turnOff() {
+  powerOff();
+  _isOn = false;
+}
+
+void E213Display::clear() {
+  display->clear();
+
+}
+
+void E213Display::startFrame(Color bkg) {
+  // Fill screen with white first to ensure clean background
+  display->fillRect(0, 0, width(), height(), WHITE);
+
+  if (bkg == LIGHT) {
+    // Fill with black if light background requested (inverted for e-ink)
+    display->fillRect(0, 0, width(), height(), BLACK);
+  }
+}
+
+void E213Display::setTextSize(int sz) {
+  // The library handles text size internally
+    display->setTextSize(sz);
+}
+
+void E213Display::setColor(Color c) {
+  // implemented in individual display methods
+}
+
+void E213Display::setCursor(int x, int y) {
+    display->setCursor(x, y);
+}
+
+void E213Display::print(const char *str) {
+    display->print(str);
+}
+
+void E213Display::fillRect(int x, int y, int w, int h) {
+    display->fillRect(x, y, w, h, BLACK);
+}
+
+void E213Display::drawRect(int x, int y, int w, int h) {
+    display->drawRect(x, y, w, h, BLACK);
+}
+
+void E213Display::drawXbm(int x, int y, const uint8_t *bits, int w, int h) {
+  // Width in bytes for bitmap processing
+  uint16_t widthInBytes = (w + 7) / 8;
+
+  // Process the bitmap row by row
+  for (int by = 0; by < h; by++) {
+    // Scan across the row bit by bit
+    for (int bx = 0; bx < w; bx++) {
+      // Get the current bit using MSB ordering (like GxEPDDisplay)
+      uint16_t byteOffset = (by * widthInBytes) + (bx / 8);
+      uint8_t bitMask = 0x80 >> (bx & 7);
+      bool bitSet = bits[byteOffset] & bitMask;
+
+      // If the bit is set, draw the pixel
+      if (bitSet) {
+          display->drawPixel(x + bx, y + by, BLACK);
+      }
+    }
+  }
+}
+
+uint16_t E213Display::getTextWidth(const char *str) {
+  int16_t x1, y1;
+  uint16_t w, h;
+  display->getTextBounds(str, 0, 0, &x1, &y1, &w, &h);
+  return w;
+}
+
+void E213Display::endFrame() {
+    display->update();
+}
--- a/Show More
+++ b/Show More