This plugins adopts some conventions in addition to or in place of conventions in Kibana (at the time of the plugin's creation):
common/
constants/ // constants used across client and server
lib/ // helpers used across client and server
types/ // TS definitions
public/
components/ // common React components
constants/ // constants used on the client
lib/ // helpers used on the client
models/ // client models
sections/ // Sections of the app with corresponding React components
watch_edit
watch_list
watch_status
server/
lib/
screenshots/
screenshots.js
index.js // ONLY exposes screenshots service
screenshot.js // helper service, not exposed in index.js
__tests__/
screenshots.js
screenshot.js
say_hello/
index.js
say_hello.js
We have a layered architecture in the Watcher UI codebase, with each layer performing a specific function to the data as it flows through it.
Elasticsearch APIs <---> Kibana server models <---> Kibana APIs <---> Kibana client services <---> Kibana client models <---> Kibana client code
Each of these layers is described below.
This the ultimate source or destination of any persisted data: watches, watch history, etc.
These set of classes translate data coming from Elasticsearch into a shape required by the Watcher UI codebase. Conversely, they translate data generated by the Watcher UI into a shape required by Elasticsearch APIs.
This layer is responsible for transporting data between the Kibana server and Kibana client (browser).
This layer is responsible for calling Kibana APIs, using client models to parse responses from APIs or create requests for APIs.
Service methods should consume models as arguments and return models as much as possible. The exception to this might be services that perform an initial load of a piece of data from the API; in this case the service method may consume a scalar ID as it argument.
Much like their server counterparts, these set of classes translate data coming from the Kibana APIs into in-memory representations for use in the Kibana client-side code or vice-versa. Unlike their server counterparts they typically don't change the shape of the data (as that is typically done by the server models already).
They do, however, serve as a consistent place in the data path for translating wire representations of certain types of data into more suitable in-memory representations, for example: converting an ISO8601-formatted timestamp into a moment instance.
They are also the right place for establishing relationships between models — for example, a watch contains many actions — and for encapsulating operations around such relationships — for example, updating the status of a watch's action.
This layer deals almost exclusively with data in the form of client models. The one exception to this rule is when the client code needs
to bootstrap a model instance from a bare JS object — for example, creating a new Watch model from the contents of the Add/Edit Watch Form.