Single Service Updates
One of the key features of Chef Habitat is the ability to define an immutable package with a default configuration which can then be updated dynamically at runtime. You can update service configuration on two levels: individual services (for testing purposes), or a service group.
Apply Configuration Updates to an Individual Service
When starting a single service, you can provide alternate configuration values to those specified in default.toml
.
Using a user.toml File
You can supply a user.toml
containing any configuration data that you want to override default values. This file should be placed in the Chef Habitat user
directory under the config
subdirectory of the specific service directory that owns the configuration data. For example, to override the default configuration of the myservice
service, this user.toml
would be located at /hab/user/myservice/config/user.toml
.
Using an Environment Variable
Override default configuration data through the use of an environment variable with the following format:
HAB_PACKAGENAME='{"keyname1":"newvalue1", "tablename1":{"keyname2":"newvalue2"}}'
HAB_MYTUTORIALAPP='{"message":"Chef Habitat rocks!"}' hab run <origin>/<packagename>
Note
Note
For multiline environment variables, such as those in a TOML table or nested key value pairs, it can be easier to place your changes in a file and pass the file in. For example:
HAB_MYTUTORIALAPP="$(cat my-env-stuff.toml)" hab run
hab svc load <origin>/mytutorialapp
Or, for testing scenarios and containerized workflows:
HAB_MYTUTORIALAPP="$(cat my-env-stuff.toml)" hab run <origin>/mytutorialapp
The main advantage of applying configuration updates to an individual service through an environment variable is that you can quickly test configuration settings to see how your service behaves at runtime. The disadvantages of this method are that configuration changes have to be applied when the Supervisor itself starts up, and you have to restart a running Supervisor (and thus, all services it may be running) in order to change these settings again.
Apply Configuration Updates to all Services in a Service Group
Similar to specifying updates to individual settings at runtime, you can apply multiple configuration changes to an entire service group at runtime. These configuration updates can be sent in the clear or encrypted in gossip messages through wire encryption. Configuration updates to a service group will trigger a restart of the services as new changes are applied throughout the group.
Usage
When submitting a configuration update to a service group, you must specify the following:
- a Supervisor to connect to
- the version number of the configuration update
- the new configuration
Configuration updates can be either TOML passed into stdin, or passed in a TOML
file that is referenced in hab config apply
.
Note
Here are some examples of how to apply configuration changes through both the shell and through a TOML file.
Stdin
echo 'buffersize = 16384' | hab config apply --remote-sup=hab1.mycompany.com myapp.prod 1
TOML file
hab config apply --remote-sup=hab1.mycompany.com myapp.prod 1 /tmp/newconfig.toml
Your output would look something like this:
» Setting new configuration version 1 for myapp.prod
Ω Creating service configuration
↑ Applying via peer 172.18.0.2:9632
★ Applied configuration
The services in the myapp.prod service group will restart.
myapp.prod(SR): Service configuration updated from butterfly: acd2c21580748d38f64a014f964f19a0c1547955e4c86e63bf641a4e142b2200
hab-sup(SC): Updated myapp.conf a85c2ed271620f895abd3f8065f265e41f198973317cc548a016f3eb60c7e13c
myapp.prod(SV): Stopping
...
myapp.prod(SV): Starting
Note
--remote-sup
, hab config apply
will attempt to connect to a Supervisor running on the same host.
Encryption
Configuration updates can be encrypted for the service group they are intended. To do so, pass the --user
option with the name of your user key, and the --org
option with the organization of the service group. If you have the public key for the service group, the data will be encrypted for that key, signed with your user key, and sent to the ring.
It will then be stored encrypted in memory, and decrypted on disk.
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