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9 changed files with 11 additions and 109 deletions

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@ -1,28 +0,0 @@
# This workflow will install Python dependencies, run tests and lint with a single version of Python
# For more information see: https://docs.github.com/en/actions/automating-builds-and-tests/building-and-testing-python
name: Test suite
on:
push:
branches: [ "master" ]
pull_request:
branches: [ "master" ]
permissions:
contents: read
jobs:
build:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- name: Set up Python 3.10
uses: actions/setup-python@v3
with:
python-version: "3.10"
- name: Test
run: |
make test

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@ -1,31 +1,6 @@
### 2024-09-09: RNS β 0.7.7
This release adds support for automatic encryption key ratcheting for all packets, not just those sent over Reticulum links. In practical terms, this adds forward secrecy to packets sent with the raw `Packet` API.
In this release, the ratchets feature must be enabled on a per-destination basis by calling the `enable_ratchets` method on the relevant destination. In a future release, ratchets may become the default option, but for backwards-compatibility, it is currently optional. For more information, read the API documentation.
**Please note!** Versions of RNS prior to `0.7.7` will not be able to pass announces for destinations with ratchets enabled! If you use applications that can use ratchets (for example, LXMF version `0.5.0` and up), it is important that you update all transport instances on your network to `0.7.7`.
Thanks to @deavmi, @faragher, @jacobeva, @jeremy and @jeremybox for contributing to this release!
**Changes**
- Added key ratchet rotation and signalling
- Added ratchet API to documentation
- Added initial support for flashing T-Echo devices to `rnodeconf`
- Added remote management config options to example config
- Added automtic integration tests to source repository
- Fixed a regression that caused RNS not to work on Python versions lower than 3.10
- Fixed missing `establishment_rate` property init on Link objects
**Release Hashes**
```
0a3ab6dc82567a19adabe737358daee3002b60beda8ac0bf228f2a0c134ff6d8 rns-0.7.7-py3-none-any.whl
89b33fe9ab923139d3f5d43726d92817642be05a8c9d328c3becfc3c409e4b4b rnspure-0.7.7-py3-none-any.whl
```
### 2024-05-18: RNS β 0.7.6
This release adds support for RNodes with multiple radio transceivers, courtesy of @jacobeva. It also brings a number of functionality and performance improvements, and fixes several bugs.
This release add support for RNodes with multiple radio transceivers, courtesy of @jacobeva. It also brings a number of functionality and performance improvements, and fixes several bugs.
Thanks to @jacobeva, @faragher, @nathmo, @jschulthess and @liamcottle for contributing to this release!

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@ -2,7 +2,7 @@ all: release
test:
@echo Running tests...
python3 -m tests.all
python -m tests.all
clean:
@echo Cleaning...

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@ -1,4 +1,4 @@
Reticulum Network Stack β <img align="right" src="https://static.pepy.tech/personalized-badge/rns?period=total&units=international_system&left_color=grey&right_color=blue&left_text=Installs" style="padding-left:10px"/><a href="https://github.com/markqvist/reticulum/actions/workflows/python-app.yml"><img align="right" src="https://github.com/markqvist/reticulum/actions/workflows/python-app.yml/badge.svg"/></a>
Reticulum Network Stack β <img align="right" src="https://static.pepy.tech/personalized-badge/rns?period=total&units=international_system&left_color=grey&right_color=blue&left_text=Installs"/>
==========
<p align="center"><img width="200" src="https://raw.githubusercontent.com/markqvist/Reticulum/master/docs/source/graphics/rns_logo_512.png"></p>

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@ -622,6 +622,7 @@ class RNodeInterface(Interface):
self.r_state = byte
if self.r_state:
pass
#RNS.log(str(self)+" Radio reporting state is online", RNS.LOG_DEBUG)
else:
RNS.log(str(self)+" Radio reporting state is offline", RNS.LOG_DEBUG)

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@ -128,6 +128,10 @@ class ROM():
MCU_ESP32 = 0x81
MCU_NRF52 = 0x71
PRODUCT_RAK4631 = 0x10
MODEL_11 = 0x11
MODEL_12 = 0x12
PRODUCT_RNODE = 0x03
MODEL_A1 = 0xA1
MODEL_A6 = 0xA6
@ -166,14 +170,6 @@ class ROM():
MODEL_E9 = 0xE9
MODEL_E3 = 0xE3
MODEL_E8 = 0xE8
PRODUCT_RAK4631 = 0x10
MODEL_11 = 0x11
MODEL_12 = 0x12
PRODUCT_TECHO = 0x15
MODEL_T4 = 0x16
MODEL_T9 = 0x17
PRODUCT_HMBRW = 0xF0
MODEL_FF = 0xFF
@ -204,7 +200,6 @@ class ROM():
BOARD_GENERIC_ESP32 = 0x35
BOARD_LORA32_V2_0 = 0x36
BOARD_LORA32_V2_1 = 0x37
BOARD_TECHO = 0x43
BOARD_RAK4631 = 0x51
MANUAL_FLASH_MODELS = [MODEL_A1, MODEL_A6]
@ -219,7 +214,6 @@ products = {
ROM.PRODUCT_T32_21: "LilyGO LoRa32 v2.1",
ROM.PRODUCT_H32_V2: "Heltec LoRa32 v2",
ROM.PRODUCT_H32_V3: "Heltec LoRa32 v3",
ROM.PRODUCT_TECHO: "LilyGO T-Echo",
ROM.PRODUCT_RAK4631: "RAK4631",
}
@ -237,6 +231,8 @@ mcus = {
}
models = {
0x11: [430000000, 510000000, 22, "430 - 510 MHz", "rnode_firmware_rak4631.zip", "SX1262"],
0x12: [779000000, 928000000, 22, "779 - 928 MHz", "rnode_firmware_rak4631.zip", "SX1262"],
0xA4: [410000000, 525000000, 14, "410 - 525 MHz", "rnode_firmware.hex", "SX1278"],
0xA9: [820000000, 1020000000, 17, "820 - 1020 MHz", "rnode_firmware.hex", "SX1276"],
0xA1: [410000000, 525000000, 22, "410 - 525 MHz", "rnode_firmware_t3s3.zip", "SX1268"],
@ -261,10 +257,6 @@ models = {
0xE9: [850000000, 950000000, 17, "850 - 950 MHz", "rnode_firmware_tbeam.zip", "SX1276"],
0xE3: [420000000, 520000000, 22, "420 - 520 MHz", "rnode_firmware_tbeam_sx1262.zip", "SX1268"],
0xE8: [850000000, 950000000, 22, "850 - 950 MHz", "rnode_firmware_tbeam_sx1262.zip", "SX1262"],
0x11: [430000000, 510000000, 22, "430 - 510 MHz", "rnode_firmware_rak4631.zip", "SX1262"],
0x12: [779000000, 928000000, 22, "779 - 928 MHz", "rnode_firmware_rak4631.zip", "SX1262"],
0x16: [779000000, 928000000, 22, "430 - 510 Mhz", "rnode_firmware_techo.zip", "SX1262"],
0x17: [779000000, 928000000, 22, "779 - 928 Mhz", "rnode_firmware_techo.zip", "SX1262"],
0xFE: [100000000, 1100000000, 17, "(Band capabilities unknown)", None, "Unknown"],
0xFF: [100000000, 1100000000, 14, "(Band capabilities unknown)", None, "Unknown"],
}
@ -1611,7 +1603,6 @@ def main():
print("[8] Heltec LoRa32 v3")
print("[9] LilyGO LoRa T3S3")
print("[10] RAK4631")
print("[11] LilyGo T-Echo")
print(" .")
print(" / \\ Select one of these options if you want to easily turn")
print(" | a supported development board into an RNode.")
@ -1623,7 +1614,7 @@ def main():
try:
c_dev = int(input())
c_mod = False
if c_dev < 1 or c_dev > 11:
if c_dev < 1 or c_dev > 10:
raise ValueError()
elif c_dev == 1:
selected_product = ROM.PRODUCT_RNODE
@ -1765,19 +1756,6 @@ def main():
print("who would like to experiment with it. Hit enter to continue.")
print("---------------------------------------------------------------------------")
input()
elif c_dev == 11:
selected_product = ROM.PRODUCT_TECHO
clear()
print("")
print("---------------------------------------------------------------------------")
print(" LilyGo T-Echo RNode Installer")
print("")
print("Important! Using RNode firmware on LilyGo T-Echo devices should currently be")
print("considered experimental. It is not intended for production or critical use.")
print("The currently supplied firmware is provided AS-IS as a courtesey to those")
print("who would like to experiment with it. Hit enter to continue.")
print("---------------------------------------------------------------------------")
input()
except Exception as e:
print("That device type does not exist, exiting now.")
graceful_exit()
@ -2064,27 +2042,6 @@ def main():
except Exception as e:
print("That band does not exist, exiting now.")
graceful_exit()
elif selected_product == ROM.PRODUCT_TECHO:
selected_mcu = ROM.MCU_NRF52
print("\nWhat band is this T-Echo for?\n")
print("[1] 433 MHz")
print("[2] 868 MHz")
print("[3] 915 MHz")
print("[4] 923 MHz")
print("\n? ", end="")
try:
c_model = int(input())
if c_model < 1 or c_model > 1:
raise ValueError()
elif c_model == 1:
selected_model = ROM.MODEL_T4
selected_platform = ROM.PLATFORM_NRF52
elif c_model > 1:
selected_model = ROM.MODEL_T9
selected_platform = ROM.PLATFORM_NRF52
except Exception as e:
print("That band does not exist, exiting now.")
graceful_exit()
if selected_model != ROM.MODEL_FF and selected_model != ROM.MODEL_FE:
fw_filename = models[selected_model][4]

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@ -15,9 +15,6 @@ This document outlines the currently established development roadmap for Reticul
For each release cycle of Reticulum, improvements and additions from the five [Primary Efforts](#primary-efforts) are selected as active work areas, and can be expected to be included in the upcoming releases within that cycle. While not entirely set in stone for each release cycle, they serve as a pointer of what to expect in the near future.
- The current `0.7.x` release cycle aims at completing
- [x] Automatic asynchronous key ratcheting for non-link traffic
- [ ] API improvements based on real-world usage and feedback
- [ ] Expanded hardware support
- [ ] Overhauling and updating the documentation
- [ ] Distributed Destination Naming System
- [ ] Create a standalone RNS Daemon app for Android

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