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build(deps): Bump google.golang.org/protobuf from 1.33.0 to 1.34.1 in /simapp #1108

build(deps): Bump google.golang.org/protobuf from 1.33.0 to 1.34.1 in /simapp

build(deps): Bump google.golang.org/protobuf from 1.33.0 to 1.34.1 in /simapp #1108

Workflow file for this run

# This workflow uses actions that are not certified by GitHub.
# They are provided by a third-party and are governed by
# separate terms of service, privacy policy, and support
# documentation.
# This workflow performs a static analysis of your source code using
# Red Hat CodeReady Dependency Analytics.
# Scans are triggered:
# 1. On every push to default and protected branches
# 2. On every Pull Request targeting the default branch
# 3. On a weekly schedule
# 4. Manually, on demand, via the "workflow_dispatch" event
# 💁 The CRDA Starter workflow will:
# - Checkout your repository
# - Setup the required tool stack
# - Install the CRDA command line tool
# - Auto detect the manifest file and install the project's dependencies
# - Perform the security scan using CRDA
# - Upload the SARIF result to the GitHub Code Scanning which can be viewed under the security tab
# - Optionally upload the SARIF file as an artifact for the future reference
# ℹ️ Configure your repository and the workflow with the following steps:
# 1. Setup the tool stack based on the project's requirement.
# Refer to: https://github.com/redhat-actions/crda/#1-set-up-the-tool-stack
# 2. (Optional) CRDA action attempt to detect the language and install the
# required dependencies for your project. If your project doesn't aligns
# with the default dependency installation command mentioned here
# https://github.com/redhat-actions/crda/#3-installing-dependencies.
# Use the required inputs to setup the same
# 3. (Optional) CRDA action attempts to detect the manifest file if it is
# present in the root of the project and named as per the default mentioned
# here https://github.com/redhat-actions/crda/#3-installing-dependencies.
# If it deviates from the default, use the required inputs to setup the same
# 4. Setup Authentication - Create the CRDA_KEY or SNYK_TOKEN.
# Refer to: https://github.com/redhat-actions/crda/#4-set-up-authentication
# 5. (Optional) Upload SARIF file as an Artifact to download and view
# 6. Commit and push the workflow file to your default branch to trigger a workflow run.
# 👋 Visit our GitHub organization at https://github.com/redhat-actions/ to see our actions and provide feedback.
name: CRDA Scan
# Controls when the workflow will run
on:
# TODO: Customize trigger events based on your DevSecOps processes
#
# This workflow is made to run with OpenShift starter workflow
# https://github.com/actions/starter-workflows/blob/main/deployments/openshift.yml
# However, if you want to run this workflow as a standalone workflow, please
# uncomment the 'push' trigger below and configure it based on your requirements.
#
workflow_call:
secrets:
CRDA_KEY:
required: false
SNYK_TOKEN:
required: false
workflow_dispatch:
# push:
# branches: [ "main" ]
# pull_request_target is used to securely share secret to the PR's workflow run.
# For more info visit: https://docs.github.com/en/actions/using-workflows/events-that-trigger-workflows#pull_request_target
pull_request_target:
branches: [ "main" ]
types: [ assigned, opened, synchronize, reopened, labeled, edited ]
permissions:
contents: read
jobs:
crda-scan:
permissions:
contents: read # for actions/checkout to fetch code
security-events: write # for redhat-actions/crda to upload SARIF results
name: Scan project vulnerabilities with CRDA
runs-on: ubuntu-20.04
steps:
- name: Check out repository
uses: actions/checkout@v4
# *******************************************************************
# Required: Instructions to setup project
# 1. Setup Go, Java, Node.js or Python depending on your project type
# 2. Setup Actions are listed below, choose one from them:
# - Go: https://github.com/actions/setup-go
# - Java: https://github.com/actions/setup-java
# - Node.js: https://github.com/actions/setup-node
# - Python: https://github.com/actions/setup-python
#
# Example:
# - name: Setup Node
# uses: actions/setup-node@v2
# with:
# node-version: '14'
# https://github.com/redhat-actions/openshift-tools-installer/blob/main/README.md
- name: Install CRDA CLI
uses: redhat-actions/openshift-tools-installer@v1
with:
source: github
github_pat: ${{ github.token }}
# Choose the desired version of the CRDA CLI
crda: "latest"
######################################################################################
# https://github.com/redhat-actions/crda/blob/main/README.md
#
# By default, CRDA will detect the manifest file and install the required dependencies
# using the standard command for the project type.
# If your project doesn't aligns with the defaults mentioned in this action, you will
# need to set few inputs that are described here:
# https://github.com/redhat-actions/crda/blob/main/README.md#3-installing-dependencies
# Visit https://github.com/redhat-actions/crda/#4-set-up-authentication to understand
# process to get a SNYK_TOKEN or a CRDA_KEY
- name: CRDA Scan
id: scan
uses: redhat-actions/crda@v1
with:
crda_key: ${{ secrets.CRDA_KEY }} # Either use crda_key or snyk_token
# snyk_token: ${{ secrets.SNYK_TOKEN }}
# upload_artifact: false # Set this to false to skip artifact upload