@jupiterone/graph-esper
v1.0.0
Published
A JupiterOne Integration for ingesting data of the Esper
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Readme
JupiterOne Integration
Learn about the data ingested, benefits of this integration, and how to use it with JupiterOne in the integration documentation.
Development
Prerequisites
Install Node.js using the installer or a version manager such as nvm or fnm.
Install dependencies with
yarn install
.Register an account in the system this integration targets for ingestion and obtain API credentials.
cp .env.example .env
and add necessary values for runtime configuration.When an integration executes, it needs API credentials and any other configuration parameters necessary for its work (provider API credentials, data ingestion parameters, etc.). The names of these parameters are defined by the
IntegrationInstanceConfigFieldMap
insrc/config.ts
. When the integration is executed outside the JupiterOne managed environment (local development or on-prem), values for these parameters are read from Node'sprocess.env
by converting config field names to constant case. For example,clientId
is read fromprocess.env.CLIENT_ID
.The
.env
file is loaded intoprocess.env
before the integration code is executed. This file is not required should you configure the environment another way..gitignore
is configured to to avoid commiting the.env
file.
Running the integration
yarn start
to collect datayarn graph
to show a visualization of the collected datayarn j1-integration -h
for additional commands
Making Contributions
Start by taking a look at the source code. The integration is basically a set of functions called steps, each of which ingests a collection of resources and relationships. The goal is to limit each step to as few resource types as possible so that should the ingestion of one type of data fail, it does not necessarily prevent the ingestion of other, unrelated data. That should be enough information to allow you to get started coding!
See the SDK development documentation for a deep dive into the mechanics of how integrations work.
See docs/development.md for any additional details about developing this integration.
Testing the integation
Ideally, all major calls to the API and converter functions would be tested. You
can run the tests with yarn test
, and you can run the tests as they execute in
the CI/CD environment with yarn test:ci
(adds linting and type-checking to
yarn test
). If you have a valid runtime configuration, you can run the tests
with your credentials using yarn test:env
.
For more details on setting up tests, and specifically on using recordings to
simulate API responses, see test/README.md
.
Changelog
The history of this integration's development can be viewed at CHANGELOG.md.
Versioning this project
To version this project and tag the repo with a new version number, run the
following (where major.minor.patch
is the version you expect to move to):
git checkout -b release-<major>.<minor>.<patch>
vim CHANGELOG.md # remember to update CHANGELOG.md with version & date!
git add CHANGELOG.md
yarn version --new-version <major>.<minor>.<patch>
git push --follow-tags -u origin release-<major>.<minor>.<patch>
NOTE: It is critical that the tagged commit is the last commit before merging to main. If any commit is added after the tagged commit, the project will not be published to NPM.
NOTE: Make sure you select the Create a merge commit option when merging the PR for your release branch. Otherwise the publishing workflow will error out.
TIP: We recommend updating your global ~/.gitconfig
with the
push.followTags = true
property. This will automatically add the
--follow-tags
flag to any new commits. See
https://git-scm.com/docs/git-config#Documentation/git-config.txt-pushfollowTags
[push]
followTags = true
After the PR is merged to the main branch, the Build github workflow should run the Publish step to publish this project to NPM.