Validation schema of config.yaml
¶
Why do we need to validate the config.yaml
?
Most of the key/values in the config.yaml
are constrained to a set of possible values or types. For example [TIME_SEGMENTS][TYPE]
can only be one of ["FREQUENCY", "PERIODIC", "EVENT"]
, and [TIMEZONE]
has to be a string.
We should show the user an error if that’s not the case. We could validate this in Python or R but since we reuse scripts and keys in multiple places, tracking these validations can be time consuming and get out of control. Thus, we do these validations through a schema and check that schema before RAPIDS starts processing any data so the user can see the error right away.
Keep in mind these validations can only cover certain base cases. Some validations that require more complex logic should still be done in the respective script. For example, we can check that a CSV file path actually ends in .csv
but we can only check that the file actually exists in a Python script.
The structure and values of the config.yaml
file are validated using a YAML schema stored in tools/config.schema.yaml
. Each key in config.yaml
, for example PIDS
, has a corresponding entry in the schema where we can validate its type, possible values, required properties, min and max values, among other things.
The config.yaml
is validated against the schema every time RAPIDS runs (see the top of the Snakefile
):
validate(config, "tools/config.schema.yaml")
Structure of the schema¶
The schema has three main sections required
, definitions
, and properties
. All of them are just nested key/value YAML pairs, where the value can be a primitive type (integer
, string
, boolean
, number
) or can be another key/value pair (object
).
required¶
required
lists properties
that should be present in the config.yaml
. We will almost always add every config.yaml
key to this list (meaning that the user cannot delete any of those keys like TIMEZONE
or PIDS
).
definitions¶
definitions
lists key/values that are common to different properties
so we can reuse them. You can define a key/value under definitions
and use $ref
to refer to it in any property
.
For example, every sensor like [PHONE_ACCELEROMETER]
has one or more providers like RAPIDS
and PANDA
, these providers have some common properties like the COMPUTE
flag or the SRC_SCRIPT
string. Therefore we define a shared provider “template” that is used by every provider and extended with properties exclusive to each one of them. For example:
The PROVIDER
definition will be used later on different properties
.
PROVIDER:
type: object
required: [COMPUTE, SRC_SCRIPT, FEATURES]
properties:
COMPUTE:
type: boolean
FEATURES:
type: [array, object]
SRC_SCRIPT:
type: string
pattern: "^.*\\.(py|R)$"
Notice that RAPIDS
(a provider) uses and extends the PROVIDER
template in this example. The FEATURES
key is overriding the FEATURES
key from the #/definitions/PROVIDER
template but is keeping the validation for COMPUTE
, and SRC_SCRIPT
. For more details about reusing properties, go to this link
PHONE_ACCELEROMETER:
type: object
# .. other properties
PROVIDERS:
type: ["null", object]
properties:
RAPIDS:
allOf:
- $ref: "#/definitions/PROVIDER"
- properties:
FEATURES:
type: array
uniqueItems: True
items:
type: string
enum: ["maxmagnitude", "minmagnitude", "avgmagnitude", "medianmagnitude", "stdmagnitude"]
properties¶
properties
are nested key/values that describe the different components of our config.yaml
file. Values can be of one or more primitive types like string
, number
, array
, boolean
and null
. Values can also be another key/value pair (of type object
) that are similar to a dictionary in Python.
For example, the following property validates the PIDS
of our config.yaml
. It checks that PIDS
is an array
with unique items of type string
.
PIDS:
type: array
uniqueItems: True
items:
type: string
Modifying the schema¶
Validating the config.yaml
during development
If you updated the schema and want to check the config.yaml
is compliant, you can run the command snakemake --list-params-changes
. You will see Building DAG of jobs...
if there are no problems or an error message otherwise (try setting any COMPUTE
flag to a string like test
instead of False/True
).
You can use this command without having to configure RAPIDS to process any participants or sensors.
You can validate different aspects of each key/value in our config.yaml
file:
Including min and max values
MINUTE_RATIO_THRESHOLD_FOR_VALID_YIELDED_HOURS:
type: number
minimum: 0
maximum: 1
FUSED_RESAMPLED_CONSECUTIVE_THRESHOLD:
type: integer
exclusiveMinimum: 0
Including valid values (enum
)
items:
type: string
enum: ["count", "maxlux", "minlux", "avglux", "medianlux", "stdlux"]
MINUTES_DATA_USED:
type: boolean
Including whether or not it should have unique values, the type of the array’s elements (strings
, numbers
) and valid values (enum
).
MESSAGES_TYPES:
type: array
uniqueItems: True
items:
type: string
enum: ["received", "sent"]
PARENT
is an object that has two properties. KID1
is one of those properties that are, in turn, another object that will reuse the "#/definitions/PROVIDER"
definition
AND also include (extend) two extra properties GRAND_KID1
of type array
and GRAND_KID2
of type number
. KID2
is another property of PARENT
of type boolean
.
The schema validation looks like this
PARENT:
type: object
properties:
KID1:
allOf:
- $ref: "#/definitions/PROVIDER"
- properties:
GRAND_KID1:
type: array
uniqueItems: True
GRAND_KID2:
type: number
KID2:
type: boolean
The config.yaml
key that the previous schema validates looks like this:
PARENT:
KID1:
# These four come from the `PROVIDER` definition (template)
COMPUTE: False
FEATURES: [x, y] # an array
SRC_SCRIPT: "a path to a py or R script"
# This two come from the extension
GRAND_KID1: [a, b] # an array
GRAND_KID2: 5.1 # an number
KID2: True # a boolean
Verifying the schema is correct¶
We recommend that before you start modifying the schema you modify the config.yaml
key that you want to validate with an invalid value. For example, if you want to validate that COMPUTE
is boolean, you set COMPUTE: 123
. Then create your validation, run snakemake --list-params-changes
and make sure your validation fails (123 is not boolean
), and then set the key to the correct value. In other words, make sure it’s broken first so that you know that your validation works.
Warning
Be careful. You can check that the schema config.schema.yaml
has a valid format by running python tools/check_schema.py
. You will see this message if its structure is correct: Schema is OK
. However, we don’t have a way to detect typos, for example allOf
will work but allOF
won’t (capital F
) and it won’t show any error. That’s why we recommend to start with an invalid key/value in your config.yaml
so that you can be sure the schema validation finds the problem.
Useful resources¶
Read the following links to learn more about what we can validate with schemas. They are based on JSON
instead of YAML
schemas but the same concepts apply.