It is an early stage beta product. Please refer to the known limitations section.
⚠️ Important: before cloning the repo, please ensure you use line separator format compatible with this repo.
If you are using Windows, ensure you git config option core.autocrlf set to false (can be checked with git config core.autocrlf). To set correct value, execute command:
git config --global core.autocrlf falseHere you can read more about configuring Git to handle line endings.
Everynet operates a Neutral-Host Cloud RAN, which is agnostic to the LoRaWAN Network Server. Everynet's main product is carrier-grade coverage that can be connected to any LNS available on the market and ChirpStack in particular.
Everynet coverage is available via Everynet RAN Routing API that let customers control message routing table (subscribe to devices). It also allows to send and receive LoRaWAN messages.
This integration is designed to simplify the connection between the Everynet RAN Routing API and ChirpStack installation.
With this software, you can connect your ChirpStack Application to Everynet RAN coverage.
Before we start it is important to mention that Everynet RAN main functionality is LoRaWAN traffic routing, while ChirpStack is doing the rest of the job: device and key management, payload parsing and so on...
Everynet RAN does not store any device-related cryptographic keys and is not capable of decrypting customer traffic.
This software works similar to the standard ChirpStack gateway bridge component which receives packets from real gateways.
Everynet RAN to ChirpStack bridge receives messages from RAN Routing API and translates it to a virtual gateway messages that are then served to the ChirpStack installation.
The integration periodically fetches devices from the ChirpStack API and add these device to the Everynet RAN routing table (subscribe to these devices).
Before using this software you should configure the following parameters. Make sure that you correctly set all the required parameters.
Parameters are read from environment variables and/or settings.cfg and .env files.
For docker-compose deployment you can use config template from .env-dist-docker. Copy this file contents into .env before following docker-compose deployment guide below.
cp .env-dist-docker .envTemplate with all config variables with their default can be found at .env-dist.
| Parameter | Required | Default value | Description |
|---|---|---|---|
| CHIRPSTACK_API_TOKEN | Yes | You can generate an API Token using the corresponding menu item in the Сhirpstack Application Server Web UI | |
| CHIRPSTACK_API_GRPC_HOST | Yes | ChirpStack host name (IP address can also be used). This address is used by the ran-chirpstack-bridge to make gRPC calls to the ChirpStack Application. e.g. my-chirpstack-server.com | |
| CHIRPSTACK_API_GRPC_PORT | 433 | ChirpStack gRPC API port | |
| CHIRPSTACK_API_GRPC_SECURE | True | ChirpStack gRPC API connection secure on not | |
| CHIRPSTACK_API_GRPC_CERT_PATH | If you are using custom certificates for a secure connection, you must specify certificate path here | ||
| CHIRPSTACK_MQTT_SERVER_URI | Yes | ChirpStack MQTT server URI e.g. mqtt://my-chirpstack-server.com. URI support username, password and secure connecton e.g. mqtts://admin:pass@my-chirpstack-server.com | |
| CHIRPSTACK_UPLINK_TOPIC_TEMPLATE | gateway/{}/event/up | ChirpStack uplink topic template. The single positional variable will be subsituted with CHIRPSTACK_GATEWAY_ID | |
| CHIRPSTACK_DOWNLINK_TOPIC_TEMPLATE | gateway/{}/command/down | ChirpStack downlink topic template. The single positional variable will be subsituted with CHIRPSTACK_GATEWAY_ID | |
| CHIRPSTACK_DOWNLINK_ACK_TOPIC_TEMPLATE | gateway/{}/event/ack | ChirpStack downlink ack topic template. The single positional variable will be subsituted with CHIRPSTACK_GATEWAY_ID | |
| CHIRPSTACK_APPLICATION_ID | ChirpStack application ID that could be found in the UI. May be used for single-application deployment. If not provided, bridge will operate in multi-application mode | ||
| CHIRPSTACK_MATCH_TAGS | everynet=true | Mark devices (or device profiles) with the "everynet" tag to connect them to Everynet coverage. Here you need to set these tags. e.g. ran-device=yes tag. | |
| CHIRPSTACK_GATEWAY_ID | Yes | 000000000000C0DE | MAC address of the virtual gateway from which messages will be arriving to the ChripStack |
| CHIRPSTACK_ORGANIZATION_ID | ChirpStack organization identifier. May be used for single-organization deployment. If not provided, bridge will operate in multi-organization mode | ||
| CHIRPSTACK_DEVICES_REFRESH_PERIOD | 300 | Period in seconds to fetch device list from the ChirpStack and sync it with Everynet RAN | |
| RAN_TOKEN | Yes | RAN Routing API token | |
| RAN_API_URL | Yes | RAN Routing API endpoint URL | |
| HEALTHCHECK_SERVER_HOST | 0.0.0.0 | Internal healthcheck http server bind host | |
| HEALTHCHECK_SERVER_PORT | 9090 | Internal healtcheck http server port http://[host]:[port]/health/live http://[host]:[port]/health/ready | |
| LOG_LEVEL | info | Logging level. Allowed values: info, warning, error, debug | |
| LOG_COLORS | True | Enable/disable ascii color-codes for textual log output. | |
| SKIP_RAN_ORPHANED_DEVICES | False | By default, the bridge removes devices in Ran-Routing that are not listed in the ChirpStack database. Set this flag to true to keep these devices instead of removing them. |
For now it is only possible to deploy this bridge using docker and docker-compose. If you don't have any installation of ChirpStack first you need to deploy it. For reference you can use docker-compose files from this repository.
Docker-compose files from this repo will configure EU868 region network settings for ChirpStack network server. If you want to change this behavior, check Bands and regional parameters section.
docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml build
docker-compose -f docker-compose.chirpstack.yml up -d
RanBridge in multi-organization mode requires ChirpStack privileged (global) API access token, obtained for admin user.
You can create api-token manually under "API keys" section of chirpstack UI, or use utility script:
docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python create-api-key.py --admin
Example
$ docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python create-api-key.py --admin
CHIRPSTACK_API_TOKEN="eyJhbGciOiJIUzI1NiIsInR5c<...>5Fm5yAEGqsdh6FOcCE2cSVQ1idro-ZTee3O_Y"
Set CHIRPSTACK_API_TOKEN variable with obtained token in .env file.
You need to create new gateway in ChirpStack. You can do it under "Gateways" section of UI, or use utility script:
docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python create-gateway.py --gateway-id 000000000000c0de
You can customize chirpstack url by providing --chirpstack-url argument to this utility. Example:
python create-gateway.py --gateway-id 000000000000c0de --chirpstack-url http://localhost:8080/
Set CHIRPSTACK_GATEWAY_ID variable with identifier of created gateway in .env file.
Example
$ docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python create-gateway.py --gateway-id 000000000000C0DE
CHIRPSTACK_GATEWAY_ID="000000000000c0de"
Edit .env file and set your RAN token in RAN_TOKEN variable and api URL in RAN_API_URL variable.
You can obtain this values from RAN cloud UI.
On this step, your .env file must contain several required values, example:
CHIRPSTACK_API_TOKEN="<...>"
CHIRPSTACK_GATEWAY_ID="000000000000c0de"
RAN_TOKEN="<...>"
RAN_API_URL="https://dev.cloud.everynet.io/api/v1"Now, you can start configured RAN-bridge.
docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml up -d
ChirpStack with ran-chirpstack-bridge will be available at http://<YOUR DOMAIN>:8080
docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml build
docker-compose -f docker-compose.chirpstack.yml up -d
Decide required organization id. You can find this id in chirpstack UI, or use utility script:
docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python query-organizations.py
Select organization and copy it's org id value into .env file as CHIRPSTACK_ORGANIZATION_ID variable. Ensure this organization can have gateways.
Example
$ docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python query-organizations.py
| org id | name | display name | can have gateways
-----------------------------------------------------------------
| 1 | chirpstack | ChirpStack | yes
| 2 | org2 | org2 | yes
Single-Organization bridge can operate with unprivileged token, obtained "per organization".
You can create this api access token manually under Org. API keys section of chirpstack UI, or by using utility script:
⚠️ Important: You can also use privileged API token for single-organization mode. In this case you can create token as described in "Multi-Organization Bridge" step 3.
docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python create-api-key.py --no-admin --organization-id 1
In this case provide --organization-id flag with same org_id, you set as .env variable CHIRPSTACK_ORGANIZATION_ID on step 3.
Example
$ docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python create-api-key.py --no-admin --organization-id 1
CHIRPSTACK_API_TOKEN="eyJhbGciOiJIUzI1NiI<...>_ahiJctO0w-9Lix6gSXKEEvHOdaU"
You need to create new gateway in ChirpStack. You can do it under "Gateways" section of UI, or use utility script:
docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python create-gateway.py --gateway-id 000000000000c0de --organization-id 1
Set CHIRPSTACK_GATEWAY_ID variable with identifier of created gateway in .env file.
In this case provide --organization-id flag with same org_id, you set as .env variable CHIRPSTACK_ORGANIZATION_ID on step 3.
Example
$ docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml run --rm chirpstack-ran-bridge python create-gateway.py --gateway-id 000000000000C0DE --organization-id 1
CHIRPSTACK_GATEWAY_ID="000000000000c0de"
Edit .env file and set your RAN token in RAN_TOKEN variable and api URL in RAN_API_URL variable.
You can obtain this values from RAN cloud UI.
On this step, your .env file must contain several required values, example:
CHIRPSTACK_API_TOKEN="<...>"
CHIRPSTACK_GATEWAY_ID="000000000000c0de"
RAN_TOKEN="<...>"
CHIRPSTACK_ORGANIZATION_ID=1
RAN_API_URL="https://dev.cloud.everynet.io/api/v1"Now, you can run configured RAN-bridge.
docker-compose -f docker-compose.chirpstack.yml -f docker-compose.chirpstack-ran-bridge.yml up -d
ChirpStack with ran-chirpstack-bridge will be available at http://<YOUR DOMAIN>:8080
Ran-Bridge has pre-builded docker images. You must have an existing ChirpStack v3 installation or you can install ChirpStack using docker-compose from section above.
To run Ran-Bridge you must specify the required parameters listed above. Example command below shows the main required parameters and their typical values:
docker run -d --name=ran-bridge --restart=always \
-e CHIRPSTACK_API_TOKEN="eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzI1NiJ9.eyJhdWQiOi<...>CI6ImtleSJ9.HF2DwQL9jgUyXG0e5TfgvHpUteguSapeSsIvppIfRDE" \
-e CHIRPSTACK_API_GRPC_HOST=mydomain.com \
-e CHIRPSTACK_API_GRPC_PORT=8080 \
-e CHIRPSTACK_MQTT_SERVER_URI=mqtt://mydomain.com \
-e CHIRPSTACK_GATEWAY_ID=000000000000C0DE \
-e RAN_TOKEN="<...>" \
-e RAN_API_URL="https://dev.cloud.everynet.io/api/v1" \
everynethub/ran.routing.chirpstack.v3
Everynet Ran-Routing coverage uses some custom parameters for gateway's bands.
If you want to use Everynet coverage with "Ran-Routing to ChirpStack bridge", ensure your ChirpStack is configured properly.
This repository provides proper ChirpStack configurations for bands, used by Everynet:
- AS923
- AS923_2
- AU915_A
- EU868
- US915
- US915_A
- US915_AB
Those configurations are stored in docker-data/chirpstack-network-server/examples folder, and can be used as reference for ChirpStack configuration.
If you are deploying ChirpStack with docker-compose files from repository, you can choose desired region configuration by replacing contents of
docker-data/chirpstack-network-server/chirpstack-network-server.toml with contents from one of examples before deployment.
If you are using your own ChirpStack deployment and deploying bridge with pre-built docker images, check your ChirpStack regions configuration.
More information about ChirpStack configuration may be found on official website:
Sections below describes changes, applied to each band, used in Everynet's coverage.
| Frequency in Hz | Datarates | Description |
|---|---|---|
| 868100000 | 0..5 | |
| 868300000 | 0..5 | |
| 868500000 | 0..5 |
| Frequency in Hz | Datarates | Description |
|---|---|---|
| 867100000 | 0..5 | |
| 867300000 | 0..6 | |
| 867500000 | 0..5 | |
| 867700000 | 0..5 | |
| 867900000 | 0..5 |
The same as the LoRaWAN regional parameters.
The first 8 channels, the same as the LoRaWAN regional parameters.
| Index of channel | Frequency in Hz | Datarates | Description |
|---|---|---|---|
| 0 | 902300000 | 0..3 | |
| 1 | 902500000 | 0..3 | |
| 2 | 902700000 | 0..3 | |
| 3 | 902900000 | 0..3 | |
| 4 | 903100000 | 0..3 | |
| 5 | 903300000 | 0..3 | |
| 6 | 903500000 | 0..3 | |
| 7 | 903700000 | 0..3 |
| Index of channel | Frequency in Hz | Datarates | Description |
|---|---|---|---|
| 2 | 902700000 | 0..3 | |
| 3 | 902900000 | 0..3 | |
| 4 | 903100000 | 0..3 | |
| 5 | 903300000 | 0..3 | |
| 10 | 904300000 | 0..3 | |
| 11 | 904500000 | 0..3 | |
| 12 | 904700000 | 0..3 | |
| 13 | 904900000 | 0..3 | |
| 64 | 903000000 | 4 |
| Frequency in Hz | Datarates | Description |
|---|---|---|
| 923200000 | 0..5 | |
| 923400000 | 0..5 |
| Frequency in Hz | Datarates | Description |
|---|---|---|
| 923000000 | 0..5 | |
| 923600000 | 0..6 | |
| 923800000 | 0..5 | |
| 924000000 | 6 | |
| 924200000 | 0..5 | |
| 924400000 | 7 | Modulation FSK |
| Frequency in Hz | Datarates | Description |
|---|---|---|
| 921400000 | 0..5 | |
| 921600000 | 0..5 |
| Frequency in Hz | Datarates | Description |
|---|---|---|
| 921200000 | 0..5 | |
| 921800000 | 0..6 | |
| 922000000 | 0..5 | |
| 922200000 | 0..6 | |
| 922400000 | 0..5 | |
| 922600000 | 7 | Modulation FSK |
The first 8 channels, the same as the LoRaWAN regional parameters.
| Index of channel | Frequency in Hz | Datarates | Description |
|---|---|---|---|
| 0 | 915200000 | 0..5 | |
| 1 | 915400000 | 0..5 | |
| 2 | 915600000 | 0..5 | |
| 3 | 915800000 | 0..5 | |
| 4 | 916000000 | 0..5 | |
| 5 | 916200000 | 0..5 | |
| 6 | 916400000 | 0..5 | |
| 7 | 916600000 | 0..5 |
These are the known limitations that are going to be fixed in the next versions of this software:
- neither FSK, nor LR-FHSS modulations are supported