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Implement docker-compose file for ChirpStack v4.0.0-test.1.

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Orne Brocaar 2022-04-19 10:42:48 +01:00
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35
README.md
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@ -9,19 +9,22 @@ but keep in mind that for production usage it might need modifications.
## Directory layout
* `docker-compose.yml`: the docker-compose file containing the services
* `docker-compose-env.yml`: alternate docker-compose file using environment variables, can be run with the docker-compose `-f` flag
* `configuration/chirpstack*`: directory containing the ChirpStack configuration files, see:
* https://www.chirpstack.io/gateway-bridge/install/config/
* https://www.chirpstack.io/network-server/install/config/
* https://www.chirpstack.io/application-server/install/config/
* `configuration/chirpstack`: directory containing the ChirpStack configuration files
* `configuration/chirpstack-gateway-bridge`: directory containing the ChirpStack Gateway Bridge configuration
* `configuration/postgresql/initdb/`: directory containing PostgreSQL initialization scripts
## Configuration
The ChirpStack stack components components are pre-configured to work with the provided
`docker-compose.yml` file and defaults to the EU868 LoRaWAN band. Please refer
to the `configuration/chirpstack-network-server/examples` directory for more configuration
examples.
This setup is pre-configured for all regions. You can either connect a ChirpStack Gateway Bridge
instance to the MQTT broker (port 1883). Please note that:
* You must prefix the MQTT topic with the region
Please see the region configuration files in the `configuration/chirpstack` for a list
of topic prefixes (e.g. eu868, us915_0, au915, as923_2, ...).
* The protobuf marshaler is configured.
This setup also comes with a ChirpStack Gateway Bridge instance which is configured to the
eu868 topic prefix. You can connect your UDP packet-forwarder based gateway to port 1700.
# Data persistence
@ -35,23 +38,11 @@ installed.
## Usage
To start the ChirpStack open-source LoRaWAN Network Server stack, simply run:
To start the ChirpStack simply run:
```bash
$ docker-compose up
```
**Note:** during the startup of services, it is normal to see the following errors:
* ping database error, will retry in 2s: dial tcp 172.20.0.4:5432: connect: connection refused
* ping database error, will retry in 2s: pq: the database system is starting up
After all the components have been initialized and started, you should be able
to open http://localhost:8080/ in your browser.
### Add Network Server
When adding the Network Server in the ChirpStack Application Server web-interface
(see [Network Servers](https://www.chirpstack.io/application-server/use/network-servers/)),
you must enter `chirpstack-network-server:8000` as the Network Server `hostname:IP`.

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configuration/chirpstack-application-server/chirpstack-application-server.toml
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@ -1,18 +0,0 @@
# See https://www.chirpstack.io/application-server/install/config/ for a full
# configuration example and documentation.
[postgresql]
dsn="postgres://chirpstack_as:chirpstack_as@postgresql/chirpstack_as?sslmode=disable"
[redis]
url="redis://redis:6379"
[application_server.integration.mqtt]
server="tcp://mosquitto:1883"
[application_server.api]
public_host="chirpstack-application-server:8001"
[application_server.external_api]
bind="0.0.0.0:8080"
jwt_secret="verysecret"

3
configuration/chirpstack-gateway-bridge/chirpstack-gateway-bridge.toml
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@ -3,5 +3,8 @@
[integration.mqtt.auth.generic]
servers=["tcp://mosquitto:1883"]
event_topic_template="eu868/gateway/{{ .GatewayID }}/event/{{ .EventType }}"
state_topic_template="eu868/gateway/{{ .GatewayID }}/state/{{ .StateType }}"
command_topic_template="eu868/gateway/{{ .GatewayID }}/command/#"
username=""
password=""

50
configuration/chirpstack-network-server/chirpstack-network-server.toml
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@ -1,50 +0,0 @@
# See https://www.chirpstack.io/network-server/install/config/ for a full
# configuration example and documentation.
#
# This file is for the EU868 band. See the examples/ folder for more
# configuration examples.
[postgresql]
dsn="postgres://chirpstack_ns:chirpstack_ns@postgresql/chirpstack_ns?sslmode=disable"
[redis]
url="redis://redis:6379"
[network_server]
net_id="000000"
[network_server.band]
name="EU868"
[network_server.network_settings]
[[network_server.network_settings.extra_channels]]
frequency=867100000
min_dr=0
max_dr=5
[[network_server.network_settings.extra_channels]]
frequency=867300000
min_dr=0
max_dr=5
[[network_server.network_settings.extra_channels]]
frequency=867500000
min_dr=0
max_dr=5
[[network_server.network_settings.extra_channels]]
frequency=867700000
min_dr=0
max_dr=5
[[network_server.network_settings.extra_channels]]
frequency=867900000
min_dr=0
max_dr=5
[network_server.gateway.backend.mqtt]
server="tcp://mosquitto:1883"
[join_server.default]
server="http://chirpstack-application-server:8003"

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configuration/chirpstack-network-server/examples/chirpstack-network-server.eu868.toml
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@ -1,50 +0,0 @@
# See https://www.chirpstack.io/network-server/install/config/ for a full
# configuration example and documentation.
#
# This file is for the EU868 band. See the examples/ folder for more
# configuration examples.
[postgresql]
dsn="postgres://chirpstack_ns:chirpstack_ns@postgresql/chirpstack_ns?sslmode=disable"
[redis]
url="redis://redis:6379"
[network_server]
net_id="000000"
[network_server.band]
name="EU868"
[network_server.network_settings]
[[network_server.network_settings.extra_channels]]
frequency=867100000
min_dr=0
max_dr=5
[[network_server.network_settings.extra_channels]]
frequency=867300000
min_dr=0
max_dr=5
[[network_server.network_settings.extra_channels]]
frequency=867500000
min_dr=0
max_dr=5
[[network_server.network_settings.extra_channels]]
frequency=867700000
min_dr=0
max_dr=5
[[network_server.network_settings.extra_channels]]
frequency=867900000
min_dr=0
max_dr=5
[network_server.gateway.backend.mqtt]
server="tcp://mosquitto:1883"
[join_server.default]
server="http://chirpstack-application-server:8003"

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configuration/chirpstack-network-server/examples/chirpstack-network-server.us915.0.toml
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@ -1,26 +0,0 @@
# See https://www.chirpstack.io/network-server/install/config/ for a full
# configuration example and documentation.
#
# This file is for the US915 band (channels 0-7). See the examples/ folder for more
# configuration examples.
[postgresql]
dsn="postgres://chirpstack_ns:chirpstack_ns@postgresql/chirpstack_ns?sslmode=disable"
[redis]
url="redis://redis:6379"
[network_server]
net_id="000000"
[network_server.band]
name="US915"
[network_server.network_settings]
enabled_uplink_channels=[0, 1, 2, 3, 4, 5, 6, 7, 64]
[network_server.gateway.backend.mqtt]
server="tcp://mosquitto:1883"
[join_server.default]
server="http://chirpstack-application-server:8003"

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configuration/chirpstack-network-server/examples/chirpstack-network-server.us915.1.toml
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@ -1,28 +0,0 @@
# See https://www.chirpstack.io/network-server/install/config/ for a full
# configuration example and documentation.
#
# This file is for the US915 band (channels 8-15). See the examples/ folder for more
# configuration examples.
#
# Note: these channels are also used by TTN.
[postgresql]
dsn="postgres://chirpstack_ns:chirpstack_ns@postgresql/chirpstack_ns?sslmode=disable"
[redis]
url="redis://redis:6379"
[network_server]
net_id="000000"
[network_server.band]
name="US915"
[network_server.network_settings]
enabled_uplink_channels=[8, 9, 10, 11, 12, 13, 14, 15, 65]
[network_server.gateway.backend.mqtt]
server="tcp://mosquitto:1883"
[join_server.default]
server="http://chirpstack-application-server:8003"

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configuration/chirpstack/as923.toml Normal file
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# This file contains an example AS923 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="as923"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AS923"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="as923/gateway/+/event/+"
# Command topic template.
command_topic="as923/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=923200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=923400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=2
# RX2 frequency (Hz)
rx2_frequency=923200000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/as923_2.toml Normal file
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# This file contains an example AS923_2 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="as923_2"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AS923_2"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="as923_2/gateway/+/event/+"
# Command topic template.
command_topic="as923_2/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=921400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=921600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=0
# RX2 frequency (Hz)
rx2_frequency=921400000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/as923_3.toml Normal file
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# This file contains an example AS923_3 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="as923_3"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AS923_3"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="as923_3/gateway/+/event/+"
# Command topic template.
command_topic="as923_3/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=916600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=916800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=2
# RX2 frequency (Hz)
rx2_frequency=916600000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/as923_4.toml Normal file
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# This file contains an example AS923_4 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="as923_4"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AS923_4"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="as923_4/gateway/+/event/+"
# Command topic template.
command_topic="as923_4/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=917300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=917500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=2
# RX2 frequency (Hz)
rx2_frequency=917300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# This file contains an example AU915 example (channels 0-7 + 64).
[[regions]]
# Name is an use-defined identifier for this region.
name="au915_0"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AU915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="au915_0/gateway/+/event/+"
# Command topic template.
command_topic="au915_0/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=915200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=915400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=915600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=915800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=916000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=916200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=916400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=916600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=915900000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[0, 1, 2, 3, 4, 5, 6, 7, 64]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/au915_1.toml Normal file
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# This file contains an example AU915 example (channels 8-15 + 65).
[[regions]]
# Name is an use-defined identifier for this region.
name="au915_1"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AU915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="au915_1/gateway/+/event/+"
# Command topic template.
command_topic="au915_1/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=916800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=917000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=917200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=917400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=917600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=917800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=918000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=918200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=917500000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[8, 9, 10, 11, 12, 13, 14, 15, 65]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/au915_2.toml Normal file
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# This file contains an example AU915 example (channels 16-23 + 66).
[[regions]]
# Name is an use-defined identifier for this region.
name="au915_2"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AU915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="au915_2/gateway/+/event/+"
# Command topic template.
command_topic="au915_2/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=918400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=918600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=918800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=919000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=919200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=919400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=919600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=919800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=919100000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[16, 17, 18, 19, 20, 21, 22, 23, 65]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# This file contains an example AU915 example (channels 24-31 + 67).
[[regions]]
# Name is an use-defined identifier for this region.
name="au915_3"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AU915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="au915_3/gateway/+/event/+"
# Command topic template.
command_topic="au915_3/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=920000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=920200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=920400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=920600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=920800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=921000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=921200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=921400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=920700000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[24, 25, 26, 27, 28, 29, 30, 31, 67]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# This file contains an example AU915 example (channels 32-39 + 68).
[[regions]]
# Name is an use-defined identifier for this region.
name="au915_4"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AU915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="au915_4/gateway/+/event/+"
# Command topic template.
command_topic="au915_4/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=921600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=921800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=922000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=922200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=922400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=922600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=922800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=923000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=922300000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[32, 33, 34, 35, 36, 37, 38, 39, 68]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/au915_5.toml Normal file
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# This file contains an example AU915 example (channels 40-47 + 69).
[[regions]]
# Name is an use-defined identifier for this region.
name="au915_5"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AU915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="au915_5/gateway/+/event/+"
# Command topic template.
command_topic="au915_5/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=923200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=923400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=923600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=923800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=924000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=924200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=924400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=924600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=923900000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[40, 41, 42, 43, 44, 45, 46, 47, 69]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/au915_6.toml Normal file
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# This file contains an example AU915 example (channels 48-55 + 70).
[[regions]]
# Name is an use-defined identifier for this region.
name="au915_6"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AU915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="au915_6/gateway/+/event/+"
# Command topic template.
command_topic="au915_6/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=924800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=925000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=925200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=925400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=925600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=925800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=926000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=926200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=925500000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[48, 49, 50, 51, 52, 53, 54, 55, 70]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# This file contains an example AU915 example (channels 56-63 + 71).
[[regions]]
# Name is an use-defined identifier for this region.
name="au915_7"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="AU915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="au915_7/gateway/+/event/+"
# Command topic template.
command_topic="au915_7/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=926400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=926600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=926800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=927000000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=927200000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=927400000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=927600000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=927800000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=927100000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[56, 57, 58, 59, 60, 61, 62, 63, 71]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# Logging.
[logging]
# Log level.
#
# Options are: trace, debug, info, warn error.
level="info"
# PostgreSQL configuration.
[postgresql]
# PostgreSQL DSN.
#
# Format example: postgres://<USERNAME>:<PASSWORD>@<HOSTNAME>/<DATABASE>?sslmode=<SSLMODE>.
#
# SSL mode options:
# * disable - no SSL
# * require - Always SSL (skip verification)
# * verify-ca - Always SSL (verify that the certificate presented by the server was signed by a trusted CA)
# * verify-full - Always SSL (verify that the certification presented by the server was signed by a trusted CA and the server host name matches the one in the certificate)
dsn="postgres://chirpstack:chirpstack@postgres/chirpstack?sslmode=disable"
# Max open connections.
#
# This sets the max. number of open connections that are allowed in the
# PostgreSQL connection pool.
max_open_connections=10
# Min idle connections.
#
# This sets the min. number of idle connections in the PostgreSQL connection
# pool (0 = equal to max_open_connections).
min_idle_connections=0
# Redis configuration.
[redis]
# Server address or addresses.
#
# Set multiple addresses when connecting to a cluster.
servers=[
"redis://redis/",
]
# TLS enabled.
tls_enabled=false
# Redis Cluster.
#
# Set this to true when the provided URLs are pointing to a Redis Cluster
# instance.
cluster=false
# Network related configuration.
[network]
# Network identifier (NetID, 3 bytes) encoded as HEX (e.g. 010203).
net_id="000000"
# Enabled regions.
#
# Multiple regions can be enabled simultaneously. Each region must match
# the 'name' parameter of the region configuration in '[[regions]]'.
enabled_regions=[
"as923",
"as923_2",
"as923_3",
"as923_4",
"au915_0",
"cn779",
"eu433",
"eu868",
"in865",
"ism2400",
"kr920",
"ru864",
"us915_0",
"us915_1",
]
# API interface configuration.
[api]
# interface:port to bind the API interface to.
bind="0.0.0.0:8080"
# Secret.
#
# This secret is used for generating login and API tokens, make sure this
# is never exposed. Changing this secret will invalidate all login and API
# tokens. The following command can be used to generate a random secret:
# openssl rand -base64 32
secret="you-must-replace-this"
[gateway]
client_cert_lifetime="365days"
ca_cert="configuration/certs/ca.crt"
ca_key="configuration/certs/ca.key"
[integration]
enabled=["mqtt"]
[integration.mqtt]
server="tcp://mosquitto:1883/"
json=true
[integration.mqtt.client]
client_cert_lifetime="365days"
ca_cert="configuration/certs/ca.crt"
ca_key="configuration/certs/ca.key"

200
configuration/chirpstack/cn779.toml Normal file
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# This file contains an example CN779 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="cn779"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="CN779"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="cn779/gateway/+/event/+"
# Command topic template.
command_topic="cn779/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=779500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=779700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=779900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=0
# RX2 frequency (Hz)
rx2_frequency=786000000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# This file contains an example EU433 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="eu433"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="EU433"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="eu433/gateway/+/event/+"
# Command topic template.
command_topic="eu433/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=433175000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=433375000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=433575000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=0
# RX2 frequency (Hz)
rx2_frequency=434665000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# This file contains an example EU868 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="eu868"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="EU868"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="eu868/gateway/+/event/+"
# Command topic template.
command_topic="eu868/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=868100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=868300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=868500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=867100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=867300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=867500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=867700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=867900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=868300000
bandwidth=250000
modulation="LORA"
spreading_factors=[7]
[[regions.gateway.channels]]
frequency=868800000
bandwidth=125000
modulation="FSK"
datarate=50000
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=0
# RX2 frequency (Hz)
rx2_frequency=869525000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0
# Below is the common set of extra channels. Please make sure that these
# channels are also supported by the gateways.
[[regions.network.extra_channels]]
frequency=867100000
min_dr=0
max_dr=5
[[regions.network.extra_channels]]
frequency=867300000
min_dr=0
max_dr=5
[[regions.network.extra_channels]]
frequency=867500000
min_dr=0
max_dr=5
[[regions.network.extra_channels]]
frequency=867700000
min_dr=0
max_dr=5
[[regions.network.extra_channels]]
frequency=867900000
min_dr=0
max_dr=5

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# This file contains an example IN865 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="in865"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="IN865"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="in865/gateway/+/event/+"
# Command topic template.
command_topic="in865/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=865062500
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=865402500
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=865985000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=2
# RX2 frequency (Hz)
rx2_frequency=866550000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# This file contains an example ISM2400 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="ism2400"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="ISM2400"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="ism2400/gateway/+/event/+"
# Command topic template.
command_topic="ism2400/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=2403000000
bandwidth=812000
modulation="LORA"
spreading_factors=[12]
[[regions.gateway.channels]]
frequency=2479000000
bandwidth=812000
modulation="LORA"
spreading_factors=[12]
[[regions.gateway.channels]]
frequency=2425000000
bandwidth=812000
modulation="LORA"
spreading_factors=[12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=0
# RX2 frequency (Hz)
rx2_frequency=2423000000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=7
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# This file contains an example KR920 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="kr920"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="KR920"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="kr920/gateway/+/event/+"
# Command topic template.
command_topic="kr920/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=922100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=922300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=922500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=0
# RX2 frequency (Hz)
rx2_frequency=921900000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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# This file contains an example RU864 configuration.
[[regions]]
# Name is an user-defined identifier for this region.
name="ru864"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="RU864"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="ru864/gateway/+/event/+"
# Command topic template.
command_topic="ru864/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=868900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
[[regions.gateway.channels]]
frequency=869100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10, 11, 12]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=0
# RX2 frequency (Hz)
rx2_frequency=869100000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=5
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=0
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/us915_0.toml Normal file
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# This file contains an example US915 example (channels 0-7 + 64).
[[regions]]
# Name is an use-defined identifier for this region.
name="us915_0"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="US915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="us915_0/gateway/+/event/+"
# Command topic template.
command_topic="us915_0/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=902300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=902500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=902700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=902900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=903100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=903300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=903500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=903700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=903000000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=3
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[0, 1, 2, 3, 4, 5, 6, 7, 64]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

243
configuration/chirpstack/us915_1.toml Normal file
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# This file contains an example US915 example (channels 8-15 + 65).
[[regions]]
# Name is an use-defined identifier for this region.
name="us915_1"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="US915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="us915_1/gateway/+/event/+"
# Command topic template.
command_topic="us915_1/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=903900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=904100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=904300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=904500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=904700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=904900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=905100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=905300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=904600000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=3
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[8, 9, 10, 11, 12, 13, 14, 15, 65]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/us915_2.toml Normal file
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# This file contains an example US915 example (channels 16-23 + 66).
[[regions]]
# Name is an use-defined identifier for this region.
name="us915_2"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="US915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="us915_2/gateway/+/event/+"
# Command topic template.
command_topic="us915_2/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=905500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=905700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=905900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=906100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=906300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=906500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=906700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=906900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=906200000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=3
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[16, 17, 18, 19, 20, 21, 22, 23, 66]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/us915_3.toml Normal file
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# This file contains an example US915 example (channels 24-31 + 67).
[[regions]]
# Name is an use-defined identifier for this region.
name="us915_3"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="US915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="us915_3/gateway/+/event/+"
# Command topic template.
command_topic="us915_3/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=907100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=907300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=907500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=907700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=907900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=908100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=908300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=908500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=907800000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=3
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[24, 25, 26, 27, 28, 29, 30, 31, 67]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

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configuration/chirpstack/us915_4.toml Normal file
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# This file contains an example US915 example (channels 32-39 + 68).
[[regions]]
# Name is an use-defined identifier for this region.
name="us915_4"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="US915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="us915_4/gateway/+/event/+"
# Command topic template.
command_topic="us915_4/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=908700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=908900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=909100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=909300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=909500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=909700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=909900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=910100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=909400000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=3
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[32, 33, 34, 35, 36, 37, 38, 39, 68]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

243
configuration/chirpstack/us915_5.toml Normal file
View File

@ -0,0 +1,243 @@
# This file contains an example US915 example (channels 40-47 + 69).
[[regions]]
# Name is an use-defined identifier for this region.
name="us915_5"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="US915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="us915_5/gateway/+/event/+"
# Command topic template.
command_topic="us915_5/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=910300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=910500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=910700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=910900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=911100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=911300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=911500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=911700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=911000000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=3
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[40, 41, 42, 43, 44, 45, 46, 47, 69]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

243
configuration/chirpstack/us915_6.toml Normal file
View File

@ -0,0 +1,243 @@
# This file contains an example US915 example (channels 48-55 + 70).
[[regions]]
# Name is an use-defined identifier for this region.
name="us915_6"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="US915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="us915_6/gateway/+/event/+"
# Command topic template.
command_topic="us915_6/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=911900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=912100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=912300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=912500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=912700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=912900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=913100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=913300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=912600000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=3
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[48, 49, 50, 51, 52, 53, 54, 55, 70]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

243
configuration/chirpstack/us915_7.toml Normal file
View File

@ -0,0 +1,243 @@
# This file contains an example US915 example (channels 56-63 + 71).
[[regions]]
# Name is an use-defined identifier for this region.
name="us915_7"
# Common-name refers to the common-name of this region as defined by
# the LoRa Alliance.
common_name="US915"
# Gateway configuration.
[regions.gateway]
# Force gateways as private.
#
# If enabled, gateways can only be used by devices under the same tenant.
force_gws_private=false
# Gateway backend configuration.
[regions.gateway.backend]
# The enabled backend type.
enabled="mqtt"
# MQTT configuration.
[regions.gateway.backend.mqtt]
# Event topic template.
event_topic="us915_7/gateway/+/event/+"
# Command topic template.
command_topic="us915_7/gateway/{{ gateway_id }}/command/{{ command }}"
# MQTT server (e.g. scheme://host:port where scheme is tcp, ssl or ws)
server="tcp://mosquitto:1883"
# Connect with the given username (optional)
username=""
# Connect with the given password (optional)
password=""
# Quality of service level
#
# 0: at most once
# 1: at least once
# 2: exactly once
#
# Note: an increase of this value will decrease the performance.
# For more information: https://www.hivemq.com/blog/mqtt-essentials-part-6-mqtt-quality-of-service-levels
qos=0
# Clean session
#
# Set the "clean session" flag in the connect message when this client
# connects to an MQTT broker. By setting this flag you are indicating
# that no messages saved by the broker for this client should be delivered.
clean_session=true
# Client ID
#
# Set the client id to be used by this client when connecting to the MQTT
# broker. A client id must be no longer than 23 characters. When left blank,
# a random id will be generated. This requires clean_session=true.
client_id=""
# CA certificate file (optional)
#
# Use this when setting up a secure connection (when server uses ssl://...)
# but the certificate used by the server is not trusted by any CA certificate
# on the server (e.g. when self generated).
ca_cert=""
# TLS certificate file (optional)
tls_cert=""
# TLS key file (optional)
tls_key=""
# Gateway channel configuration.
#
# Note: this configuration is only used in case the gateway is using the
# ChirpStack Concentratord daemon. In any other case, this configuration
# is ignored.
[[regions.gateway.channels]]
frequency=913500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=913700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=913900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=914100000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=914300000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=914500000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=914700000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=914900000
bandwidth=125000
modulation="LORA"
spreading_factors=[7, 8, 9, 10]
[[regions.gateway.channels]]
frequency=914200000
bandwidth=500000
modulation="LORA"
spreading_factors=[8]
# Region specific network configuration.
[regions.network]
# Installation margin (dB) used by the ADR engine.
#
# A higher number means that the network-server will keep more margin,
# resulting in a lower data-rate but decreasing the chance that the
# device gets disconnected because it is unable to reach one of the
# surrounded gateways.
installation_margin=10
# RX window (Class-A).
#
# Set this to:
# 0: RX1 / RX2
# 1: RX1 only
# 2: RX2 only
rx_window=0
# RX1 delay (1 - 15 seconds).
rx1_delay=1
# RX1 data-rate offset
rx1_dr_offset=0
# RX2 data-rate
rx2_dr=8
# RX2 frequency (Hz)
rx2_frequency=923300000
# Prefer RX2 on RX1 data-rate less than.
#
# Prefer RX2 over RX1 based on the RX1 data-rate. When the RX1 data-rate
# is smaller than the configured value, then the Network Server will
# first try to schedule the downlink for RX2, failing that (e.g. the gateway
# has already a payload scheduled at the RX2 timing) it will try RX1.
rx2_prefer_on_rx1_dr_lt=0
# Prefer RX2 on link budget.
#
# When the link-budget is better for RX2 than for RX1, the Network Server will first
# try to schedule the downlink in RX2, failing that it will try RX1.
rx2_prefer_on_link_budget=false
# Downlink TX Power (dBm)
#
# When set to -1, the downlink TX Power from the configured band will
# be used.
#
# Please consult the LoRaWAN Regional Parameters and local regulations
# for valid and legal options. Note that the configured TX Power must be
# supported by your gateway(s).
downlink_tx_power=-1
# ADR is disabled.
adr_disabled=false
# Minimum data-rate.
min_dr=0
# Maximum data-rate.
max_dr=3
# Enabled uplink channels.
#
# Use this when ony a sub-set of the by default enabled channels are being
# used. For example when only using the first 8 channels of the US band.
# Note: when left blank / empty array, all channels will be enabled.
enabled_uplink_channels=[56, 57, 58, 59, 60, 61, 62, 63, 71]
# Rejoin-request configuration (LoRaWAN 1.1)
[regions.network.rejoin_request]
# Request devices to periodically send rejoin-requests.
enabled=false
# The device must send a rejoin-request type 0 at least every 2^(max_count_n + 4)
# uplink messages. Valid values are 0 to 15.
max_count_n=0
# The device must send a rejoin-request type 0 at least every 2^(max_time_n + 10)
# seconds. Valid values are 0 to 15.
#
# 0 = roughly 17 minutes
# 15 = about 1 year
max_time_n=0
# Class-B configuration.
[regions.network.class_b]
# Ping-slot data-rate.
ping_slot_dr=8
# Ping-slot frequency (Hz)
#
# set this to 0 to use the default frequency plan for the configured region
# (which could be frequency hopping).
ping_slot_frequency=0

7
configuration/postgresql/initdb/001-init-chirpstack.sh Normal file
View File

@ -0,0 +1,7 @@
#!/bin/bash
set -e
psql -v ON_ERROR_STOP=1 --username "$POSTGRES_USER" <<-EOSQL
create role chirpstack with login password 'chirpstack';
create database chirpstack with owner chirpstack;
EOSQL

7
configuration/postgresql/initdb/001-init-chirpstack_ns.sh
View File

@ -1,7 +0,0 @@
#!/bin/bash
set -e
psql -v ON_ERROR_STOP=1 --username "$POSTGRES_USER" <<-EOSQL
create role chirpstack_ns with login password 'chirpstack_ns';
create database chirpstack_ns with owner chirpstack_ns;
EOSQL

2
configuration/postgresql/initdb/003-chirpstack_as_extensions.sh → configuration/postgresql/initdb/002-chirpstack_extensions.sh
View File

@ -1,7 +1,7 @@
#!/bin/bash
set -e
psql -v ON_ERROR_STOP=1 --username "$POSTGRES_USER" --dbname="chirpstack_as" <<-EOSQL
psql -v ON_ERROR_STOP=1 --username "$POSTGRES_USER" --dbname="chirpstack" <<-EOSQL
create extension pg_trgm;
create extension hstore;
EOSQL

7
configuration/postgresql/initdb/002-init-chirpstack_as.sh
View File

@ -1,7 +0,0 @@
#!/bin/bash
set -e
psql -v ON_ERROR_STOP=1 --username "$POSTGRES_USER" <<-EOSQL
create role chirpstack_as with login password 'chirpstack_as';
create database chirpstack_as with owner chirpstack_as;
EOSQL

58
docker-compose-env.yml
View File

@ -1,58 +0,0 @@
version: "3"
services:
chirpstack-network-server:
image: chirpstack/chirpstack-network-server:3
environment:
- POSTGRESQL__DSN=postgres://chirpstack_ns:chirpstack_ns@postgresql/chirpstack_ns?sslmode=disable
- REDIS__URL=redis://redis:6379
- NETWORK_SERVER__BAND__NAME=EU868
- NETWORK_SERVER__GATEWAY__BACKEND__MQTT__SERVER=tcp://mosquitto:1883
- JOIN_SERVER__DEFAULT__SERVER=http://chirpstack-application-server:8003
depends_on:
- postgresql
- mosquitto
chirpstack-application-server:
image: chirpstack/chirpstack-application-server:3
ports:
- 8080:8080
environment:
- POSTGRESQL__DSN=postgres://chirpstack_as:chirpstack_as@postgresql/chirpstack_as?sslmode=disable
- REDIS__URL=redis://redis:6379
- APPLICATION_SERVER__INTEGRATION__MQTT__SERVER=tcp://mosquitto:1883
- APPLICATION_SERVER__API__PUBLIC_HOST=chirpstack-application-server:8001
- APPLICATION_SERVER__EXTERNAL_API__JWT_SECRET=verysecret
depends_on:
- chirpstack-network-server
chirpstack-gateway-bridge:
image: chirpstack/chirpstack-gateway-bridge:3
ports:
- 1700:1700/udp
environment:
- INTEGRATION__MQTT__AUTH__GENERIC__SERVERS=tcp://mosquitto:1883
depends_on:
- mosquitto
postgresql:
image: postgres:9.6-alpine
environment:
- POSTGRES_PASSWORD=root
volumes:
- ./configuration/postgresql/initdb:/docker-entrypoint-initdb.d
- postgresqldata:/var/lib/postgresql/data
redis:
image: redis:5-alpine
volumes:
- redisdata:/data
mosquitto:
image: eclipse-mosquitto:1.6
ports:
- 1883:1883
volumes:
postgresqldata:
redisdata:

30
docker-compose.yml
View File

@ -1,24 +1,20 @@
version: "3"
services:
chirpstack-network-server:
image: chirpstack/chirpstack-network-server:3
chirpstack:
image: chirpstack/chirpstack:4.0.0-test.1
command: -c /etc/chirpstack
restart: unless-stopped
volumes:
- ./configuration/chirpstack-network-server:/etc/chirpstack-network-server
- ./configuration/chirpstack:/etc/chirpstack
depends_on:
- postgresql
- postgres
- mosquitto
chirpstack-application-server:
image: chirpstack/chirpstack-application-server:3
- redis
ports:
- 8080:8080
volumes:
- ./configuration/chirpstack-application-server:/etc/chirpstack-application-server
depends_on:
- chirpstack-network-server
chirpstack-gateway-bridge:
chirpstack-gateway-bridge-eu868:
image: chirpstack/chirpstack-gateway-bridge:3
ports:
- 1700:1700/udp
@ -27,16 +23,16 @@ services:
depends_on:
- mosquitto
postgresql:
image: postgres:9.6-alpine
environment:
- POSTGRES_PASSWORD=root
postgres:
image: postgres:11-alpine
volumes:
- ./configuration/postgresql/initdb:/docker-entrypoint-initdb.d
- postgresqldata:/var/lib/postgresql/data
environment:
- POSTGRES_PASSWORD=root
redis:
image: redis:5-alpine
image: redis:6-alpine
volumes:
- redisdata:/data