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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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commit 19c7c53e38
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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 ## Directory layout
* `docker-compose.yml`: the docker-compose file containing the services * `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
* `configuration/chirpstack*`: directory containing the ChirpStack configuration files, see: * `configuration/chirpstack-gateway-bridge`: directory containing the ChirpStack Gateway Bridge configuration
* 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/postgresql/initdb/`: directory containing PostgreSQL initialization scripts * `configuration/postgresql/initdb/`: directory containing PostgreSQL initialization scripts
## Configuration ## Configuration
The ChirpStack stack components components are pre-configured to work with the provided This setup is pre-configured for all regions. You can either connect a ChirpStack Gateway Bridge
`docker-compose.yml` file and defaults to the EU868 LoRaWAN band. Please refer instance to the MQTT broker (port 1883). Please note that:
to the `configuration/chirpstack-network-server/examples` directory for more configuration
examples. * 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 # Data persistence
@ -35,23 +38,11 @@ installed.
## Usage ## Usage
To start the ChirpStack open-source LoRaWAN Network Server stack, simply run: To start the ChirpStack simply run:
```bash ```bash
$ docker-compose up $ 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 After all the components have been initialized and started, you should be able
to open http://localhost:8080/ in your browser. 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`.

18
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] [integration.mqtt.auth.generic]
servers=["tcp://mosquitto:1883"] 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="" username=""
password="" 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"

50
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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@ -0,0 +1,194 @@
# 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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@ -0,0 +1,194 @@
# 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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configuration/chirpstack/au915_0.toml Normal file
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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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configuration/chirpstack/au915_4.toml Normal file
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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
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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 #!/bin/bash
set -e 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 pg_trgm;
create extension hstore; create extension hstore;
EOSQL 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" version: "3"
services: services:
chirpstack-network-server: chirpstack:
image: chirpstack/chirpstack-network-server:3 image: chirpstack/chirpstack:4.0.0-test.1
command: -c /etc/chirpstack
restart: unless-stopped
volumes: volumes:
- ./configuration/chirpstack-network-server:/etc/chirpstack-network-server - ./configuration/chirpstack:/etc/chirpstack
depends_on: depends_on:
- postgresql - postgres
- mosquitto - mosquitto
- redis
chirpstack-application-server:
image: chirpstack/chirpstack-application-server:3
ports: ports:
- 8080:8080 - 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 image: chirpstack/chirpstack-gateway-bridge:3
ports: ports:
- 1700:1700/udp - 1700:1700/udp
@ -27,16 +23,16 @@ services:
depends_on: depends_on:
- mosquitto - mosquitto
postgresql: postgres:
image: postgres:9.6-alpine image: postgres:11-alpine
environment:
- POSTGRES_PASSWORD=root
volumes: volumes:
- ./configuration/postgresql/initdb:/docker-entrypoint-initdb.d - ./configuration/postgresql/initdb:/docker-entrypoint-initdb.d
- postgresqldata:/var/lib/postgresql/data - postgresqldata:/var/lib/postgresql/data
environment:
- POSTGRES_PASSWORD=root
redis: redis:
image: redis:5-alpine image: redis:6-alpine
volumes: volumes:
- redisdata:/data - redisdata:/data