azure/k8s-deploy
1
0
Fork 0
mirror of https://github.com/Azure/k8s-deploy.git synced 2026-06-27 15:19:27 +08:00
Code Issues Packages Projects Releases Wiki Activity

Compare commits

base: azure/k8s-deploy:addSupportMessage
Branches Tags
azure/k8s-deploy:main azure/k8s-deploy:dependabot/npm_and_yarn/actions-800da858a2 azure/k8s-deploy:releases/v6.0.0 azure/k8s-deploy:releases/v5.1.0 azure/k8s-deploy:releases/v5.0.4 azure/k8s-deploy:releases/v5.0.3 azure/k8s-deploy:davidgamero/release-v5.0.3 azure/k8s-deploy:releases/v5.0.2 azure/k8s-deploy:davidgamero/release-v5.0.2 azure/k8s-deploy:davidgamero/update-linkerd-install azure/k8s-deploy:releases/v5.0.1 azure/k8s-deploy:brfole/dependabot azure/k8s-deploy:davidgamero/typescript-5 azure/k8s-deploy:davidgamero/private-cluster-integration-multifile azure/k8s-deploy:fix-private-cluster-file-flag azure/k8s-deploy:releases/v5.0.0 azure/k8s-deploy:v5-node20-release azure/k8s-deploy:releases/v4.10.0 azure/k8s-deploy:releases/4.10.0 azure/k8s-deploy:releases/v4 azure/k8s-deploy:create-pull-request/patch azure/k8s-deploy:OliverMKing-patch-4 azure/k8s-deploy:create-release azure/k8s-deploy:kingoliver/privatebug azure/k8s-deploy:addSupportMessage azure/k8s-deploy:revert-247-jkatariya/debug-canary-and-tests azure/k8s-deploy:OliverMKing-patch-3 azure/k8s-deploy:OliverMKing-patch-2 azure/k8s-deploy:Vidyareddy/issueFormTemplate azure/k8s-deploy:Vidyareddy/docker-image azure/k8s-deploy:releases/v4.2.1 azure/k8s-deploy:Vidyareddy/annotaion-keyPrefix azure/k8s-deploy:Vidyareddy/traffic-split azure/k8s-deploy:annotation azure/k8s-deploy:OliverMKing-patch-1 azure/k8s-deploy:Vidyareddy/varcel-ncc azure/k8s-deploy:hari/beautify-logs azure/k8s-deploy:releases/v3 azure/k8s-deploy:releases/v2 azure/k8s-deploy:releases/v1.5 azure/k8s-deploy:build-js azure/k8s-deploy:kingoliver/smi-bug azure/k8s-deploy:releases/v1 azure/k8s-deploy:releases/v1.2 azure/k8s-deploy:releases/v1.3 azure/k8s-deploy:releases/v1.4
azure/k8s-deploy:v6 azure/k8s-deploy:v6.0.0 azure/k8s-deploy:v5 azure/k8s-deploy:v5.1.0 azure/k8s-deploy:v5.0.4 azure/k8s-deploy:v5.0.3 azure/k8s-deploy:v5.0.2 azure/k8s-deploy:v5.0.1 azure/k8s-deploy:v5.0.0 azure/k8s-deploy:v4.10.0 azure/k8s-deploy:4.10.0 azure/k8s-deploy:v4.10 azure/k8s-deploy:v4 azure/k8s-deploy:v4.9 azure/k8s-deploy:v4.8 azure/k8s-deploy:v4.7 azure/k8s-deploy:v4.6 azure/k8s-deploy:v4.5 azure/k8s-deploy:v4.4 azure/k8s-deploy:v4.3 azure/k8s-deploy:v4.2 azure/k8s-deploy:v4.1 azure/k8s-deploy:v4.0 azure/k8s-deploy:v3 azure/k8s-deploy:v3.3 azure/k8s-deploy:v3.2 azure/k8s-deploy:v3.1 azure/k8s-deploy:v3.0 azure/k8s-deploy:v2.0 azure/k8s-deploy:1.5 azure/k8s-deploy:v1.5 azure/k8s-deploy:v1.3 azure/k8s-deploy:v1.2 azure/k8s-deploy:v1 azure/k8s-deploy:v1.1 azure/k8s-deploy:v1.4 azure/k8s-deploy:v1.1.0
..
compare: azure/k8s-deploy:OliverMKing-patch-1
Branches Tags
azure/k8s-deploy:dependabot/npm_and_yarn/actions-800da858a2 azure/k8s-deploy:main azure/k8s-deploy:releases/v6.0.0 azure/k8s-deploy:releases/v5.1.0 azure/k8s-deploy:releases/v5.0.4 azure/k8s-deploy:releases/v5.0.3 azure/k8s-deploy:davidgamero/release-v5.0.3 azure/k8s-deploy:releases/v5.0.2 azure/k8s-deploy:davidgamero/release-v5.0.2 azure/k8s-deploy:davidgamero/update-linkerd-install azure/k8s-deploy:releases/v5.0.1 azure/k8s-deploy:brfole/dependabot azure/k8s-deploy:davidgamero/typescript-5 azure/k8s-deploy:davidgamero/private-cluster-integration-multifile azure/k8s-deploy:fix-private-cluster-file-flag azure/k8s-deploy:releases/v5.0.0 azure/k8s-deploy:v5-node20-release azure/k8s-deploy:releases/v4.10.0 azure/k8s-deploy:releases/4.10.0 azure/k8s-deploy:releases/v4 azure/k8s-deploy:create-pull-request/patch azure/k8s-deploy:OliverMKing-patch-4 azure/k8s-deploy:create-release azure/k8s-deploy:kingoliver/privatebug azure/k8s-deploy:addSupportMessage azure/k8s-deploy:revert-247-jkatariya/debug-canary-and-tests azure/k8s-deploy:OliverMKing-patch-3 azure/k8s-deploy:OliverMKing-patch-2 azure/k8s-deploy:Vidyareddy/issueFormTemplate azure/k8s-deploy:Vidyareddy/docker-image azure/k8s-deploy:releases/v4.2.1 azure/k8s-deploy:Vidyareddy/annotaion-keyPrefix azure/k8s-deploy:Vidyareddy/traffic-split azure/k8s-deploy:annotation azure/k8s-deploy:OliverMKing-patch-1 azure/k8s-deploy:Vidyareddy/varcel-ncc azure/k8s-deploy:hari/beautify-logs azure/k8s-deploy:releases/v3 azure/k8s-deploy:releases/v2 azure/k8s-deploy:releases/v1.5 azure/k8s-deploy:build-js azure/k8s-deploy:kingoliver/smi-bug azure/k8s-deploy:releases/v1 azure/k8s-deploy:releases/v1.2 azure/k8s-deploy:releases/v1.3 azure/k8s-deploy:releases/v1.4
azure/k8s-deploy:v6 azure/k8s-deploy:v6.0.0 azure/k8s-deploy:v5 azure/k8s-deploy:v5.1.0 azure/k8s-deploy:v5.0.4 azure/k8s-deploy:v5.0.3 azure/k8s-deploy:v5.0.2 azure/k8s-deploy:v5.0.1 azure/k8s-deploy:v5.0.0 azure/k8s-deploy:v4.10.0 azure/k8s-deploy:4.10.0 azure/k8s-deploy:v4.10 azure/k8s-deploy:v4 azure/k8s-deploy:v4.9 azure/k8s-deploy:v4.8 azure/k8s-deploy:v4.7 azure/k8s-deploy:v4.6 azure/k8s-deploy:v4.5 azure/k8s-deploy:v4.4 azure/k8s-deploy:v4.3 azure/k8s-deploy:v4.2 azure/k8s-deploy:v4.1 azure/k8s-deploy:v4.0 azure/k8s-deploy:v3 azure/k8s-deploy:v3.3 azure/k8s-deploy:v3.2 azure/k8s-deploy:v3.1 azure/k8s-deploy:v3.0 azure/k8s-deploy:v2.0 azure/k8s-deploy:1.5 azure/k8s-deploy:v1.5 azure/k8s-deploy:v1.3 azure/k8s-deploy:v1.2 azure/k8s-deploy:v1 azure/k8s-deploy:v1.1 azure/k8s-deploy:v1.4 azure/k8s-deploy:v1.1.0

2 Commits
addSupportMessage .. OliverMKing-patch-1

Author SHA1 Message Date
Oliver King 0b0b5178d5 fix broken yaml 2022-07-06 10:27:14 -04:00
Oliver King d43ff40a3e fix typo 2022-06-13 12:57:31 -04:00
95 changed files with 15980 additions and 18224 deletions
Expand all files Collapse all files
.github/ISSUE_TEMPLATE/bugReportForm.yml
-36
View File
@@ -1,36 +0,0 @@
name: Bug Report
description: File a bug report specifying all inputs you provided for the action, we will respond to this thread with any questions.
title: 'Bug: '
labels: ['bug', 'triage']
assignees: '@Azure/aks-atlanta'
body:
- type: textarea
id: What-happened
attributes:
label: What happened?
description: Tell us what happened and how is it different from the expected?
placeholder: Tell us what you see!
validations:
required: true
- type: checkboxes
id: Version
attributes:
label: Version
options:
- label: I am using the latest version
required: true
- type: input
id: Runner
attributes:
label: Runner
description: What runner are you using?
placeholder: Mention the runner info (self-hosted, operating system)
validations:
required: true
- type: textarea
id: Logs
attributes:
label: Relevant log output
description: Run in debug mode for the most verbose logs. Please feel free to attach a screenshot of the logs
validations:
required: true
.github/ISSUE_TEMPLATE/config.yml
-6
View File
@@ -1,6 +0,0 @@
blank_issues_enabled: false
contact_links:
- name: GitHub Action "k8s-deploy" Support
url: https://github.com/Azure/k8s-deploy
security: https://github.com/Azure/k8s-deploy/blob/main/SECURITY.md
about: Please ask and answer questions here.
.github/ISSUE_TEMPLATE/featureRequestForm.yml
-13
View File
@@ -1,13 +0,0 @@
name: Feature Request
description: File a Feature Request form, we will respond to this thread with any questions.
title: 'Feature Request: '
labels: ['Feature']
assignees: '@Azure/aks-atlanta'
body:
- type: textarea
id: Feature_request
attributes:
label: Feature request
description: Provide example functionality and links to relevant docs
validations:
required: true
.github/workflows/codeql.yml
+2 -1
View File
@@ -1,4 +1,4 @@
name: 'Code scanning - action'
name: "Code scanning - action"
on:
push:
@@ -8,6 +8,7 @@ on:
jobs:
CodeQL-Build:
# CodeQL runs on ubuntu-latest and windows-latest
runs-on: ubuntu-latest
.github/workflows/defaultLabels.yml
+2 -1
View File
@@ -3,7 +3,7 @@ name: setting-default-labels
# Controls when the action will run.
on:
schedule:
- cron: '0 0/3 * * *'
- cron: "0 0/3 * * *"
# A workflow run is made up of one or more jobs that can run sequentially or in parallel
jobs:
@@ -13,6 +13,7 @@ jobs:
# Steps represent a sequence of tasks that will be executed as part of the job
steps:
- uses: actions/stale@v3
name: Setting issue as idle
with:
.github/workflows/prettify-code.yml
-18
View File
@@ -1,18 +0,0 @@
name: 'Run prettify'
on:
pull_request:
push:
branches: [main]
jobs:
prettier:
name: Prettier Check
runs-on: ubuntu-latest
steps:
- name: Checkout Repository
uses: actions/checkout@v2
- name: Enforce Prettier
uses: actionsx/prettier@v2
with:
args: --check .
.github/workflows/release-pr.yml
+1 -1
View File
@@ -4,7 +4,7 @@ on:
workflow_dispatch:
inputs:
release:
description: 'Define release version (ex: v1, v2, v3)'
description: "Define release version (ex: v1, v2, v3)"
required: true
jobs:
.github/workflows/run-integration-tests.yml
+6 -6
View File
@@ -4,12 +4,12 @@ on:
branches:
- master
- main
- 'releases/*'
- "releases/*"
push:
branches:
- master
- main
- 'releases/*'
- "releases/*"
workflow_dispatch:
jobs:
@@ -43,9 +43,9 @@ jobs:
name: Setup Minikube
uses: manusa/actions-setup-minikube@v2.4.2
with:
minikube version: 'v1.24.0'
kubernetes version: 'v1.17.8'
driver: 'none'
minikube version: "v1.24.0"
kubernetes version: "v1.17.8"
driver: "none"
timeout-minutes: 3
- name: Create namespace to run tests
@@ -54,7 +54,7 @@ jobs:
- uses: actions/setup-python@v2
name: Install Python
with:
python-version: '3.x'
python-version: "3.x"
- name: Cleaning any previously created items
run: |
.github/workflows/unit-tests.yml
+5 -5
View File
@@ -1,13 +1,13 @@
name: 'Run unit tests.'
name: "Run unit tests."
on: # rebuild any PRs and main branch changes
pull_request:
branches:
- main
- 'releases/*'
- master
- "releases/*"
push:
branches:
- main
- 'releases/*'
- master
- "releases/*"
jobs:
build: # make sure build/ci works properly
.gitignore
-2
View File
@@ -3,5 +3,3 @@ node_modules
.DS_Store
.idea
lib/
coverage/
.prettierignore
-4
View File
@@ -1,4 +0,0 @@
# dependencies
/node_modules
coverage
/lib
.prettierrc.json
-8
View File
@@ -1,8 +0,0 @@
{
"trailingComma": "none",
"bracketSpacing": false,
"semi": false,
"tabWidth": 3,
"singleQuote": true,
"printWidth": 80
}
README.md
+27 -70
View File
@@ -4,15 +4,6 @@ This action is used to deploy manifests to Kubernetes clusters. It requires that
If you are looking to automate your workflows to deploy to [Azure Web Apps](https://azure.microsoft.com/en-us/services/app-service/web/) and [Azure Web App for Containers](https://azure.microsoft.com/en-us/services/app-service/containers/), consider using [`Azure/webapps-deploy`](https://github.com/Azure/webapps-deploy) action.
This action requires the following permissions from your workflow:
```yaml
permissions:
id-token: write
contents: read
actions: read
```
## Action capabilities
Following are the key capabilities of this action:
@@ -52,14 +43,6 @@ Following are the key capabilities of this action:
<tr>
<td>manifests </br></br>(Required)</td>
<td>Path to the manifest files to be used for deployment. These can also be directories containing manifest files, in which case, all manifest files in the referenced directory at every depth will be deployed. Files not ending in .yml or .yaml will be ignored.</td>
</tr>
<tr>
<td>strategy </br></br>(Required)</td>
<td>Acceptable values: basic/canary/blue-green. <br>
Default value: basic
<br>Deployment strategy to be used while applying manifest files on the cluster.
<br>basic - Template is force applied to all pods when deploying to cluster. NOTE: Can only be used with action == deploy
<br>canary - Canary deployment strategy is used when deploying to the cluster.<br>blue-green - Blue-Green deployment strategy is used when deploying to cluster.</td>
</tr>
<tr>
<td>namespace </br></br>(Optional)
@@ -79,20 +62,22 @@ Following are the key capabilities of this action:
<td>pull-images</br></br>(Optional)</td>
<td>Acceptable values: true/false</br>Default value: true</br>Switch whether to pull the images from the registry before deployment to find out Dockerfile's path in order to add it to the annotations</td>
</tr>
<tr>
<td>strategy </br></br>(Optional)</td>
<td>Acceptable values: none/canary/blue-green. <br>
Deployment strategy to be used while applying manifest files on the cluster.<br>none - No deployment strategy is used when deploying.<br>canary - Canary deployment strategy is used when deploying to the cluster.<br>blue-green - Blue-Green deployment strategy is used when deploying to cluster.</td>
</tr>
<tr>
<td>traffic-split-method </br></br>(Optional)</td>
<td>Acceptable values: pod/smi.<br> Default value: pod <br>SMI: Percentage traffic split is done at request level using service mesh. Service mesh has to be setup by cluster admin. Orchestration of <a href="https://github.com/servicemeshinterface/smi-spec/blob/master/apis/traffic-split/v1alpha3/traffic-split.md" data-raw-source="TrafficSplit](https://github.com/deislabs/smi-spec/blob/master/traffic-split.md)">TrafficSplit</a> objects of SMI is handled by this action. <br>Pod: Percentage split not possible at request level in the absence of service mesh. Percentage input is used to calculate the replicas for baseline and canary as a percentage of replicas specified in the input manifests for the stable variant.</td>
</tr>
<tr>
<td>traffic-split-annotations </br></br>(Optional)</td>
<td>Annotations in the form of key/value pair to be added to TrafficSplit.</td>
<tr>
<td>percentage </br></br>(Optional but required if strategy is canary)</td>
<td>Used to compute the number of replicas of &#39;-baseline&#39; and &#39;-canary&#39; variants of the workloads found in manifest files. For the specified percentage input, if (percentage * numberOfDesirerdReplicas)/100 is not a round number, the floor of this number is used while creating &#39;-baseline&#39; and &#39;-canary&#39;.<br/><br/>For example, if Deployment hello-world was found in the input manifest file with &#39;replicas: 4&#39; and if &#39;strategy: canary&#39; and &#39;percentage: 25&#39; are given as inputs to the action, then the Deployments hello-world-baseline and hello-world-canary are created with 1 replica each. The &#39;-baseline&#39; variant is created with the same image and tag as the stable version (4 replica variant prior to deployment) while the &#39;-canary&#39; variant is created with the image and tag corresponding to the new changes being deployed</td>
</tr>
<tr>
<td>baseline-and-canary-replicas </br></br> (Optional and relevant only if strategy is canary and traffic-split-method is smi)</td>
<td>The number of baseline and canary replicas. Percentage traffic split is controlled in the service mesh plane, the actual number of replicas for canary and baseline variants could be controlled independently of the traffic split. For example, assume that the input Deployment manifest desired 30 replicas to be used for stable and that the following inputs were specified for the action </br></br><code>&nbsp;&nbsp;&nbsp;&nbsp;strategy: canary<br>&nbsp;&nbsp;&nbsp;&nbsp;trafficSplitMethod: smi<br>&nbsp;&nbsp;&nbsp;&nbsp;percentage: 20<br>&nbsp;&nbsp;&nbsp;&nbsp;baselineAndCanaryReplicas: 1</code></br></br> In this case, stable variant will receive 80% traffic while baseline and canary variants will receive 10% each (20% split equally between baseline and canary). However, instead of creating baseline and canary with 3 replicas each, the explicit count of baseline and canary replicas is honored. That is, only 1 replica each is created for baseline and canary variants.</td>
<td>baseline-and-canary-replicas </br></br> (Optional and relevant only if traffic-split-method is canary)</td>
<td>The number of baseline and canary replicas. Percentage traffic split is controlled in the service mesh plane, the actual number of replicas for canary and baseline variants could be controlled independently of the traffic split. For example, assume that the input Deployment manifest desired 30 replicas to be used for stable and that the following inputs were specified for the action </br></br><code>&nbsp;&nbsp;&nbsp;&nbsp;strategy: canary<br>&nbsp;&nbsp;&nbsp;&nbsp;trafficSplitMethod: smi<br>&nbsp;&nbsp;&nbsp;&nbsp;percentage: 20<br>&nbsp;&nbsp;&nbsp;&nbsp;baselineAndCanaryReplicas: 1</code></br></br> In this case, stable variant will receive 80% traffic while baseline and canary variants will receive 10% each (20% split equally between baseline and canary). However, instead of creating baseline and canary with 3 replicas, the explicit count of baseline and canary replicas is honored. That is, only 1 replica each is created for baseline and canary variants.</td>
</tr>
<tr>
<td>route-method </br></br>(Optional and relevant only if strategy is blue-green)</td>
@@ -105,10 +90,6 @@ Following are the key capabilities of this action:
<td>version-switch-buffer </br></br>(Optional and relevant only if strategy is blue-green)</td>
<td>Acceptable values: 1-300.</br>Default value: 0.</br>Waits for the given input in minutes before routing traffic to '-green' workloads.</td>
</tr>
<tr>
<td>private-cluster </br></br>(Optional and relevant only using K8's deploy for a cluster with private cluster enabled)</td>
<td>Acceptable values: true, false</br>Default value: false.</td>
</tr>
<tr>
<td>force </br></br>(Optional)</td>
<td>Deploy when a previous deployment already exists. If true then '--force' argument is added to the apply command. Using '--force' argument is not recommended in production.</td>
@@ -126,42 +107,22 @@ Following are the key capabilities of this action:
```yaml
- uses: Azure/k8s-deploy@v3.1
with:
namespace: 'myapp'
namespace: "myapp"
manifests: |
dir/manifestsDirectory
images: 'contoso.azurecr.io/myapp:${{ event.run_id }}'
images: "contoso.azurecr.io/myapp:${{ event.run_id }}"
imagepullsecrets: |
image-pull-secret1
image-pull-secret2
```
### Private cluster deployment
```yaml
- uses: Azure/k8s-deploy@v4
with:
resource-group: yourResourceGroup
name: yourClusterName
action: deploy
strategy: basic
private-cluster: true
manifests: |
manifests/azure-vote-backend-deployment.yaml
manifests/azure-vote-backend-service.yaml
manifests/azure-vote-frontend-deployment.yaml
manifests/azure-vote-frontend-service.yaml
images: |
registry.azurecr.io/containername
```
### Canary deployment without service mesh
```yaml
- uses: Azure/k8s-deploy@v3.1
with:
namespace: 'myapp'
images: 'contoso.azurecr.io/myapp:${{ event.run_id }}'
namespace: "myapp"
images: "contoso.azurecr.io/myapp:${{ event.run_id }}"
imagepullsecrets: |
image-pull-secret1
image-pull-secret2
@@ -179,8 +140,8 @@ To promote/reject the canary created by the above snippet, the following YAML sn
```yaml
- uses: Azure/k8s-deploy@v3.1
with:
namespace: 'myapp'
images: 'contoso.azurecr.io/myapp:${{ event.run_id }}'
namespace: "myapp"
images: "contoso.azurecr.io/myapp:${{ event.run_id }}"
imagepullsecrets: |
image-pull-secret1
image-pull-secret2
@@ -197,8 +158,8 @@ To promote/reject the canary created by the above snippet, the following YAML sn
```yaml
- uses: Azure/k8s-deploy@v3.1
with:
namespace: 'myapp'
images: 'contoso.azurecr.io/myapp:${{ event.run_id }}'
namespace: "myapp"
images: "contoso.azurecr.io/myapp:${{ event.run_id }}"
imagepullsecrets: |
image-pull-secret1
image-pull-secret2
@@ -218,8 +179,8 @@ To promote/reject the canary created by the above snippet, the following YAML sn
```yaml
- uses: Azure/k8s-deploy@v3.1
with:
namespace: 'myapp'
images: 'contoso.azurecr.io/myapp:${{ event.run_id }} '
namespace: "myapp"
images: "contoso.azurecr.io/myapp:${{ event.run_id }} "
imagepullsecrets: |
image-pull-secret1
image-pull-secret2
@@ -237,8 +198,8 @@ To promote/reject the canary created by the above snippet, the following YAML sn
```yaml
- uses: Azure/k8s-deploy@v3.1
with:
namespace: 'myapp'
images: 'contoso.azurecr.io/myapp:${{ event.run_id }}'
namespace: "myapp"
images: "contoso.azurecr.io/myapp:${{ event.run_id }}"
imagepullsecrets: |
image-pull-secret1
image-pull-secret2
@@ -257,8 +218,8 @@ To promote/reject the green workload created by the above snippet, the following
```yaml
- uses: Azure/k8s-deploy@v3.1
with:
namespace: 'myapp'
images: 'contoso.azurecr.io/myapp:${{ event.run_id }}'
namespace: "myapp"
images: "contoso.azurecr.io/myapp:${{ event.run_id }}"
imagepullsecrets: |
image-pull-secret1
image-pull-secret2
@@ -301,7 +262,7 @@ jobs:
# Set the target AKS cluster.
- uses: Azure/aks-set-context@v1
with:
creds: '${{ secrets.AZURE_CREDENTIALS }}'
creds: "${{ secrets.AZURE_CREDENTIALS }}"
cluster-name: contoso
resource-group: contoso-rg
@@ -420,7 +381,7 @@ jobs:
# Set the target AKS cluster.
- uses: Azure/aks-set-context@v1
with:
creds: '${{ secrets.AZURE_CREDENTIALS }}'
creds: "${{ secrets.AZURE_CREDENTIALS }}"
cluster-name: contoso
resource-group: contoso-rg
@@ -434,12 +395,12 @@ jobs:
- uses: azure/k8s-bake@v2
with:
renderEngine: 'helm'
helmChart: './aks-helloworld/'
overrideFiles: './aks-helloworld/values-override.yaml'
renderEngine: "helm"
helmChart: "./aks-helloworld/"
overrideFiles: "./aks-helloworld/values-override.yaml"
overrides: |
replicas:2
helm-version: 'latest'
helm-version: "latest"
id: bake
- uses: Azure/k8s-deploy@v1.2
@@ -471,7 +432,3 @@ provided by the bot. You will only need to do this once across all repos using o
This project has adopted the [Microsoft Open Source Code of Conduct](https://opensource.microsoft.com/codeofconduct/).
For more information see the [Code of Conduct FAQ](https://opensource.microsoft.com/codeofconduct/faq/) or
contact [opencode@microsoft.com](mailto:opencode@microsoft.com) with any additional questions or comments.
## Support
k8s-deploy is an open source project that is [**not** covered by the Microsoft Azure support policy](https://support.microsoft.com/en-us/help/2941892/support-for-linux-and-open-source-technology-in-azure). [Please search open issues here](https://github.com/Azure/k8s-deploy/issues), and if your issue isn't already represented please [open a new one](https://github.com/Azure/k8s-deploy/issues/new/choose). The project maintainers will respond to the best of their abilities.
SECURITY.md
+8 -8
View File
@@ -4,7 +4,7 @@
Microsoft takes the security of our software products and services seriously, which includes all source code repositories managed through our GitHub organizations, which include [Microsoft](https://github.com/Microsoft), [Azure](https://github.com/Azure), [DotNet](https://github.com/dotnet), [AspNet](https://github.com/aspnet), [Xamarin](https://github.com/xamarin), and [many more](https://opensource.microsoft.com/).
If you believe you have found a security vulnerability in any Microsoft-owned repository that meets Microsoft's [definition](<https://docs.microsoft.com/en-us/previous-versions/tn-archive/cc751383(v=technet.10)>) of a security vulnerability, please report it to us as described below.
If you believe you have found a security vulnerability in any Microsoft-owned repository that meets Microsoft's [definition](https://docs.microsoft.com/en-us/previous-versions/tn-archive/cc751383(v=technet.10)) of a security vulnerability, please report it to us as described below.
## Reporting Security Issues
@@ -14,13 +14,13 @@ You should receive a response within 24 hours. If for some reason you do not, pl
Please include the requested information listed below (as much as you can provide) to help us better understand the nature and scope of the possible issue:
- Type of issue (e.g. buffer overflow, SQL injection, cross-site scripting, etc.)
- Full paths of source file(s) related to the manifestation of the issue
- The location of the affected source code (tag/branch/commit or direct URL)
- Any special configuration required to reproduce the issue
- Step-by-step instructions to reproduce the issue
- Proof-of-concept or exploit code (if possible)
- Impact of the issue, including how an attacker might exploit the issue
* Type of issue (e.g. buffer overflow, SQL injection, cross-site scripting, etc.)
* Full paths of source file(s) related to the manifestation of the issue
* The location of the affected source code (tag/branch/commit or direct URL)
* Any special configuration required to reproduce the issue
* Step-by-step instructions to reproduce the issue
* Proof-of-concept or exploit code (if possible)
* Impact of the issue, including how an attacker might exploit the issue
This information will help us triage your report more quickly.
action.yml
+26 -39
View File
@@ -1,80 +1,67 @@
name: 'Deploy to Kubernetes cluster'
description: 'Deploy to a Kubernetes cluster including, but not limited to Azure Kubernetes Service (AKS) clusters'
name: "Deploy to Kubernetes cluster"
description: "Deploy to a Kubernetes cluster including, but not limited to Azure Kubernetes Service (AKS) clusters"
inputs:
# Please ensure you have used either azure/k8s-actions/aks-set-context or azure/k8s-actions/k8s-set-context in the workflow before this action
# You also need to have kubectl installed (azure/setup-kubectl)
namespace:
description: 'Choose the target Kubernetes namespace. If the namespace is not provided, the commands will run in the default namespace.'
description: "Choose the target Kubernetes namespace. If the namespace is not provided, the commands will run in the default namespace."
required: false
manifests:
description: 'Path to the manifest files which will be used for deployment.'
description: "Path to the manifest files which will be used for deployment."
required: true
images:
description: 'Fully qualified resource URL of the image(s) to be used for substitutions on the manifest files Example: contosodemo.azurecr.io/helloworld:test'
description: "Fully qualified resource URL of the image(s) to be used for substitutions on the manifest files Example: contosodemo.azurecr.io/helloworld:test"
required: false
imagepullsecrets:
description: 'Name of a docker-registry secret that has already been set up within the cluster. Each of these secret names are added under imagePullSecrets field for the workloads found in the input manifest files'
description: "Name of a docker-registry secret that has already been set up within the cluster. Each of these secret names are added under imagePullSecrets field for the workloads found in the input manifest files"
required: false
pull-images:
description: "Switch whether to pull the images from the registry before deployment to find out Dockerfile's path in order to add it to the annotations"
required: false
default: true
strategy:
description: 'Deployment strategy to be used. Allowed values are basic, canary and blue-green'
required: true
default: 'basic'
route-method:
description: 'Route based on service, ingress or SMI for blue-green strategy'
description: "Deployment strategy to be used. Allowed values are none, canary and blue-green"
required: false
default: 'service'
default: "none"
route-method:
description: "Route based on service, ingress or SMI for blue-green strategy"
required: false
default: "service"
version-switch-buffer:
description: 'Indicates the buffer time in minutes before the switch is made to the green version (max is 300 min ie. 5hrs)'
description: "Indicates the buffer time in minutes before the switch is made to the green version (max is 300 min ie. 5hrs)"
required: false
default: 0
traffic-split-method:
description: 'Traffic split method to be used. Allowed values are pod and smi'
required: false
default: 'pod'
traffic-split-annotations:
description: 'Annotations in the form of key/value pair to be added to TrafficSplit. Relevant only if deployement strategy is blue-green or canary'
description: "Traffic split method to be used. Allowed values are pod and smi"
required: false
default: "pod"
baseline-and-canary-replicas:
description: 'Baseline and canary replicas count. Valid value between 0 to 100 (inclusive)'
description: "Baseline and canary replicas count. Valid value between 0 to 100 (inclusive)"
required: false
default: ''
default: 0
percentage:
description: 'Percentage of traffic redirect to canary deployment'
description: "Percentage of traffic redirect to canary deployment"
required: false
default: 0
action:
description: 'deploy, promote, or reject'
description: "deploy, promote, or reject"
required: true
default: 'deploy'
default: "deploy"
force:
description: 'Deploy when a previous deployment already exists. If true then --force argument is added to the apply command'
description: "Deploy when a previous deployment already exists. If true then --force argument is added to the apply command"
required: false
default: false
token:
description: 'Github token'
description: "Github token"
default: ${{ github.token }}
required: true
annotate-namespace:
description: 'Annotate the target namespace'
description: "Annotate the target namespace"
required: false
default: true
private-cluster:
description: 'True if cluster is AKS private cluster'
required: false
default: false
resource-group:
description: 'Name of resource group - Only required if using private cluster'
required: false
name:
description: 'Resource group name - Only required if using private cluster'
required: false
branding:
color: 'green'
color: "green"
runs:
using: 'node16'
main: 'lib/index.js'
using: "node12"
main: "lib/index.js"
jest.config.js
+1 -1
View File
@@ -7,4 +7,4 @@ module.exports = {
'^.+\\.ts$': 'ts-jest'
},
verbose: true
}
}
package-lock.json
Generated
+1986 -2477
View File
File diff suppressed because it is too large Load Diff
package.json
+4 -8
View File
@@ -4,14 +4,11 @@
"author": "Deepak Sattiraju",
"license": "MIT",
"scripts": {
"build": "ncc build src/run.ts -o lib",
"test": "jest",
"coverage": "jest --coverage=true",
"format": "prettier --write .",
"format-check": "prettier --check ."
"build": "tsc --outDir ./lib --rootDir ./src",
"test": "jest"
},
"dependencies": {
"@actions/core": "^1.9.1",
"@actions/core": "^1.2.6",
"@actions/exec": "^1.0.0",
"@actions/io": "^1.0.0",
"@actions/tool-cache": "1.1.2",
@@ -25,8 +22,7 @@
"@types/js-yaml": "^3.12.7",
"@types/node": "^12.20.41",
"jest": "^26.0.0",
"prettier": "^2.7.1",
"ts-jest": "^26.0.0",
"ts-jest": "^25.5.1",
"typescript": "3.9.5"
}
}
src/actions/deploy.ts
+40 -34
View File
@@ -1,18 +1,20 @@
import * as core from '@actions/core'
import * as models from '../types/kubernetesTypes'
import * as KubernetesConstants from '../types/kubernetesTypes'
import {Kubectl, Resource} from '../types/kubectl'
import * as core from "@actions/core";
import * as models from "../types/kubernetesTypes";
import * as KubernetesConstants from "../types/kubernetesTypes";
import { Kubectl, Resource } from "../types/kubectl";
import {
getResources,
updateManifestFiles
} from '../utilities/manifestUpdateUtils'
updateManifestFiles,
} from "../utilities/manifestUpdateUtils";
import { routeBlueGreen } from "../strategyHelpers/blueGreen/blueGreenHelper";
import {
annotateAndLabelResources,
checkManifestStability,
deployManifests
} from '../strategyHelpers/deploymentHelper'
import {DeploymentStrategy} from '../types/deploymentStrategy'
import {parseTrafficSplitMethod} from '../types/trafficSplitMethod'
deployManifests,
} from "../strategyHelpers/deploymentHelper";
import { DeploymentStrategy } from "../types/deploymentStrategy";
import { parseTrafficSplitMethod } from "../types/trafficSplitMethod";
import { parseRouteStrategy } from "../types/routeStrategy";
export async function deploy(
kubectl: Kubectl,
@@ -20,60 +22,64 @@ export async function deploy(
deploymentStrategy: DeploymentStrategy
) {
// update manifests
const inputManifestFiles: string[] = updateManifestFiles(manifestFilePaths)
core.debug(`Input manifest files: ${inputManifestFiles}`)
const inputManifestFiles: string[] = updateManifestFiles(manifestFilePaths);
core.debug("Input manifest files: " + inputManifestFiles);
// deploy manifests
core.startGroup('Deploying manifests')
core.info("Deploying manifests");
const trafficSplitMethod = parseTrafficSplitMethod(
core.getInput('traffic-split-method', {required: true})
)
core.getInput("traffic-split-method", { required: true })
);
const deployedManifestFiles = await deployManifests(
inputManifestFiles,
deploymentStrategy,
kubectl,
trafficSplitMethod
)
core.debug(`Deployed manifest files: ${deployedManifestFiles}`)
core.endGroup()
);
core.debug("Deployed manifest files: " + deployedManifestFiles);
// check manifest stability
core.startGroup('Checking manifest stability')
core.info("Checking manifest stability");
const resourceTypes: Resource[] = getResources(
deployedManifestFiles,
models.DEPLOYMENT_TYPES.concat([
KubernetesConstants.DiscoveryAndLoadBalancerResource.SERVICE
KubernetesConstants.DiscoveryAndLoadBalancerResource.SERVICE,
])
)
await checkManifestStability(kubectl, resourceTypes)
core.endGroup()
);
await checkManifestStability(kubectl, resourceTypes);
if (deploymentStrategy == DeploymentStrategy.BLUE_GREEN) {
core.info("Routing blue green");
const routeStrategy = parseRouteStrategy(
core.getInput("route-method", { required: true })
);
await routeBlueGreen(kubectl, inputManifestFiles, routeStrategy);
}
// print ingresses
core.startGroup('Printing ingresses')
core.info("Printing ingresses");
const ingressResources: Resource[] = getResources(deployedManifestFiles, [
KubernetesConstants.DiscoveryAndLoadBalancerResource.INGRESS
])
KubernetesConstants.DiscoveryAndLoadBalancerResource.INGRESS,
]);
for (const ingressResource of ingressResources) {
await kubectl.getResource(
KubernetesConstants.DiscoveryAndLoadBalancerResource.INGRESS,
ingressResource.name
)
);
}
core.endGroup()
// annotate resources
core.startGroup('Annotating resources')
let allPods
core.info("Annotating resources");
let allPods;
try {
allPods = JSON.parse((await kubectl.getAllPods()).stdout)
allPods = JSON.parse((await kubectl.getAllPods()).stdout);
} catch (e) {
core.debug(`Unable to parse pods: ${e}`)
core.debug("Unable to parse pods: " + e);
}
await annotateAndLabelResources(
deployedManifestFiles,
kubectl,
resourceTypes,
allPods
)
core.endGroup()
);
}
src/actions/promote.ts
+89 -106
View File
@@ -1,41 +1,41 @@
import * as core from '@actions/core'
import * as canaryDeploymentHelper from '../strategyHelpers/canary/canaryHelper'
import * as SMICanaryDeploymentHelper from '../strategyHelpers/canary/smiCanaryHelper'
import * as PodCanaryHelper from '../strategyHelpers/canary/podCanaryHelper'
import * as core from "@actions/core";
import * as deploy from "./deploy";
import * as canaryDeploymentHelper from "../strategyHelpers/canary/canaryHelper";
import * as SMICanaryDeploymentHelper from "../strategyHelpers/canary/smiCanaryHelper";
import {
getResources,
updateManifestFiles
} from '../utilities/manifestUpdateUtils'
import * as models from '../types/kubernetesTypes'
import * as KubernetesManifestUtility from '../utilities/manifestStabilityUtils'
updateManifestFiles,
} from "../utilities/manifestUpdateUtils";
import * as models from "../types/kubernetesTypes";
import * as KubernetesManifestUtility from "../utilities/manifestStabilityUtils";
import {
deleteGreenObjects,
BlueGreenManifests,
deleteWorkloadsAndServicesWithLabel,
deleteWorkloadsWithLabel,
getManifestObjects,
NONE_LABEL_VALUE
} from '../strategyHelpers/blueGreen/blueGreenHelper'
import {BlueGreenManifests} from '../types/blueGreenTypes'
GREEN_LABEL_VALUE,
NONE_LABEL_VALUE,
} from "../strategyHelpers/blueGreen/blueGreenHelper";
import {
promoteBlueGreenService,
routeBlueGreenService,
} from "../strategyHelpers/blueGreen/serviceBlueGreenHelper";
import {
promoteBlueGreenIngress,
promoteBlueGreenService,
promoteBlueGreenSMI
} from '../strategyHelpers/blueGreen/promote'
routeBlueGreenIngress,
} from "../strategyHelpers/blueGreen/ingressBlueGreenHelper";
import {
routeBlueGreenService,
routeBlueGreenIngressUnchanged,
routeBlueGreenSMI
} from '../strategyHelpers/blueGreen/route'
import {cleanupSMI} from '../strategyHelpers/blueGreen/smiBlueGreenHelper'
import {Kubectl, Resource} from '../types/kubectl'
import {DeploymentStrategy} from '../types/deploymentStrategy'
cleanupSMI,
promoteBlueGreenSMI,
routeBlueGreenSMI,
} from "../strategyHelpers/blueGreen/smiBlueGreenHelper";
import { Kubectl, Resource } from "../types/kubectl";
import { DeploymentStrategy } from "../types/deploymentStrategy";
import {
parseTrafficSplitMethod,
TrafficSplitMethod
} from '../types/trafficSplitMethod'
import {parseRouteStrategy, RouteStrategy} from '../types/routeStrategy'
TrafficSplitMethod,
} from "../types/trafficSplitMethod";
import { parseRouteStrategy, RouteStrategy } from "../types/routeStrategy";
export async function promote(
kubectl: Kubectl,
@@ -44,146 +44,129 @@ export async function promote(
) {
switch (deploymentStrategy) {
case DeploymentStrategy.CANARY:
await promoteCanary(kubectl, manifests)
break
await promoteCanary(kubectl, manifests);
break;
case DeploymentStrategy.BLUE_GREEN:
await promoteBlueGreen(kubectl, manifests)
break
await promoteBlueGreen(kubectl, manifests);
break;
default:
throw Error('Invalid promote deployment strategy')
throw Error("Invalid promote deployment strategy");
}
}
async function promoteCanary(kubectl: Kubectl, manifests: string[]) {
let includeServices = false
const manifestFilesForDeployment: string[] = updateManifestFiles(manifests)
let includeServices = false;
const trafficSplitMethod = parseTrafficSplitMethod(
core.getInput('traffic-split-method', {required: true})
)
core.getInput("traffic-split-method", { required: true })
);
if (trafficSplitMethod == TrafficSplitMethod.SMI) {
includeServices = true
includeServices = true;
// In case of SMI traffic split strategy when deployment is promoted, first we will redirect traffic to
// canary deployment, then update stable deployment and then redirect traffic to stable deployment
core.startGroup('Redirecting traffic to canary deployment')
core.info("Redirecting traffic to canary deployment");
await SMICanaryDeploymentHelper.redirectTrafficToCanaryDeployment(
kubectl,
manifests
)
core.endGroup()
);
core.startGroup(
'Deploying input manifests with SMI canary strategy from promote'
)
await SMICanaryDeploymentHelper.deploySMICanary(
manifestFilesForDeployment,
kubectl,
true
)
core.endGroup()
core.info("Deploying input manifests with SMI canary strategy");
await deploy.deploy(kubectl, manifests, DeploymentStrategy.CANARY);
core.startGroup('Redirecting traffic to stable deployment')
core.info("Redirecting traffic to stable deployment");
await SMICanaryDeploymentHelper.redirectTrafficToStableDeployment(
kubectl,
manifests
)
core.endGroup()
);
} else {
core.startGroup('Deploying input manifests from promote')
await PodCanaryHelper.deployPodCanary(
manifestFilesForDeployment,
kubectl,
true
)
core.endGroup()
core.info("Deploying input manifests");
await deploy.deploy(kubectl, manifests, DeploymentStrategy.CANARY);
}
core.startGroup('Deleting canary and baseline workloads')
core.info("Deleting canary and baseline workloads");
try {
await canaryDeploymentHelper.deleteCanaryDeployment(
kubectl,
manifests,
includeServices
)
);
} catch (ex) {
core.warning(
`Exception occurred while deleting canary and baseline workloads: ${ex}`
)
"Exception occurred while deleting canary and baseline workloads: " + ex
);
}
core.endGroup()
}
async function promoteBlueGreen(kubectl: Kubectl, manifests: string[]) {
// update container images and pull secrets
const inputManifestFiles: string[] = updateManifestFiles(manifests)
const inputManifestFiles: string[] = updateManifestFiles(manifests);
const manifestObjects: BlueGreenManifests =
getManifestObjects(inputManifestFiles)
getManifestObjects(inputManifestFiles);
const routeStrategy = parseRouteStrategy(
core.getInput('route-method', {required: true})
)
core.getInput("route-method", { required: true })
);
core.startGroup('Deleting old deployment and making new stable deployment')
const {deployResult} = await (async () => {
switch (routeStrategy) {
case RouteStrategy.INGRESS:
return await promoteBlueGreenIngress(kubectl, manifestObjects)
case RouteStrategy.SMI:
return await promoteBlueGreenSMI(kubectl, manifestObjects)
default:
return await promoteBlueGreenService(kubectl, manifestObjects)
core.info("Deleting old deployment and making new one");
let result;
if (routeStrategy == RouteStrategy.INGRESS) {
result = await promoteBlueGreenIngress(kubectl, manifestObjects);
} else if (routeStrategy == RouteStrategy.SMI) {
result = await promoteBlueGreenSMI(kubectl, manifestObjects);
} else {
result = await promoteBlueGreenService(kubectl, manifestObjects);
}
})()
core.endGroup()
// checking stability of newly created deployments
core.startGroup('Checking manifest stability')
const deployedManifestFiles = deployResult.manifestFiles
core.info("Checking manifest stability");
const deployedManifestFiles = result.newFilePaths;
const resources: Resource[] = getResources(
deployedManifestFiles,
models.DEPLOYMENT_TYPES.concat([
models.DiscoveryAndLoadBalancerResource.SERVICE
models.DiscoveryAndLoadBalancerResource.SERVICE,
])
)
await KubernetesManifestUtility.checkManifestStability(kubectl, resources)
core.endGroup()
);
await KubernetesManifestUtility.checkManifestStability(kubectl, resources);
core.startGroup(
'Routing to new deployments and deleting old workloads and services'
)
core.info(
"Routing to new deployments and deleting old workloads and services"
);
if (routeStrategy == RouteStrategy.INGRESS) {
await routeBlueGreenIngressUnchanged(
await routeBlueGreenIngress(
kubectl,
null,
manifestObjects.serviceNameMap,
manifestObjects.ingressEntityList
)
await deleteGreenObjects(
);
await deleteWorkloadsAndServicesWithLabel(
kubectl,
[].concat(
GREEN_LABEL_VALUE,
manifestObjects.deploymentEntityList,
manifestObjects.serviceEntityList
)
)
);
} else if (routeStrategy == RouteStrategy.SMI) {
await routeBlueGreenSMI(
kubectl,
NONE_LABEL_VALUE,
manifestObjects.serviceEntityList
)
await deleteGreenObjects(kubectl, manifestObjects.deploymentEntityList)
await cleanupSMI(kubectl, manifestObjects.serviceEntityList)
);
await deleteWorkloadsWithLabel(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.deploymentEntityList
);
await cleanupSMI(kubectl, manifestObjects.serviceEntityList);
} else {
await routeBlueGreenService(
kubectl,
NONE_LABEL_VALUE,
manifestObjects.serviceEntityList
)
await deleteGreenObjects(kubectl, manifestObjects.deploymentEntityList)
);
await deleteWorkloadsWithLabel(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.deploymentEntityList
);
}
core.endGroup()
}
src/actions/reject.ts
+31 -40
View File
@@ -1,20 +1,16 @@
import * as core from '@actions/core'
import * as canaryDeploymentHelper from '../strategyHelpers/canary/canaryHelper'
import * as SMICanaryDeploymentHelper from '../strategyHelpers/canary/smiCanaryHelper'
import {Kubectl} from '../types/kubectl'
import {BlueGreenManifests} from '../types/blueGreenTypes'
import {
rejectBlueGreenIngress,
rejectBlueGreenService,
rejectBlueGreenSMI
} from '../strategyHelpers/blueGreen/reject'
import {getManifestObjects} from '../strategyHelpers/blueGreen/blueGreenHelper'
import {DeploymentStrategy} from '../types/deploymentStrategy'
import * as core from "@actions/core";
import * as canaryDeploymentHelper from "../strategyHelpers/canary/canaryHelper";
import * as SMICanaryDeploymentHelper from "../strategyHelpers/canary/smiCanaryHelper";
import { Kubectl } from "../types/kubectl";
import { rejectBlueGreenService } from "../strategyHelpers/blueGreen/serviceBlueGreenHelper";
import { rejectBlueGreenIngress } from "../strategyHelpers/blueGreen/ingressBlueGreenHelper";
import { rejectBlueGreenSMI } from "../strategyHelpers/blueGreen/smiBlueGreenHelper";
import { DeploymentStrategy } from "../types/deploymentStrategy";
import {
parseTrafficSplitMethod,
TrafficSplitMethod
} from '../types/trafficSplitMethod'
import {parseRouteStrategy, RouteStrategy} from '../types/routeStrategy'
TrafficSplitMethod,
} from "../types/trafficSplitMethod";
import { parseRouteStrategy, RouteStrategy } from "../types/routeStrategy";
export async function reject(
kubectl: Kubectl,
@@ -23,55 +19,50 @@ export async function reject(
) {
switch (deploymentStrategy) {
case DeploymentStrategy.CANARY:
await rejectCanary(kubectl, manifests)
break
await rejectCanary(kubectl, manifests);
break;
case DeploymentStrategy.BLUE_GREEN:
await rejectBlueGreen(kubectl, manifests)
break
await rejectBlueGreen(kubectl, manifests);
break;
default:
throw 'Invalid delete deployment strategy'
throw "Invalid delete deployment strategy";
}
}
async function rejectCanary(kubectl: Kubectl, manifests: string[]) {
let includeServices = false
let includeServices = false;
const trafficSplitMethod = parseTrafficSplitMethod(
core.getInput('traffic-split-method', {required: true})
)
core.getInput("traffic-split-method", { required: true })
);
if (trafficSplitMethod == TrafficSplitMethod.SMI) {
core.startGroup('Rejecting deployment with SMI canary strategy')
includeServices = true
core.info("Rejecting deployment with SMI canary strategy");
includeServices = true;
await SMICanaryDeploymentHelper.redirectTrafficToStableDeployment(
kubectl,
manifests
)
core.endGroup()
);
}
core.startGroup('Deleting baseline and canary workloads')
core.info("Deleting baseline and canary workloads");
await canaryDeploymentHelper.deleteCanaryDeployment(
kubectl,
manifests,
includeServices
)
core.endGroup()
);
}
async function rejectBlueGreen(kubectl: Kubectl, manifests: string[]) {
const routeStrategy = parseRouteStrategy(
core.getInput('route-method', {required: true})
)
core.startGroup('Rejecting deployment with blue green strategy')
core.info(`using routeMethod ${routeStrategy}`)
const manifestObjects: BlueGreenManifests = getManifestObjects(manifests)
core.info("Rejecting deployment with blue green strategy");
const routeStrategy = parseRouteStrategy(
core.getInput("route-method", { required: true })
);
if (routeStrategy == RouteStrategy.INGRESS) {
await rejectBlueGreenIngress(kubectl, manifestObjects)
await rejectBlueGreenIngress(kubectl, manifests);
} else if (routeStrategy == RouteStrategy.SMI) {
await rejectBlueGreenSMI(kubectl, manifestObjects)
await rejectBlueGreenSMI(kubectl, manifests);
} else {
await rejectBlueGreenService(kubectl, manifestObjects)
await rejectBlueGreenService(kubectl, manifests);
}
core.endGroup()
}
src/inputUtils.ts
-16
View File
@@ -1,16 +0,0 @@
import * as core from '@actions/core'
import {parseAnnotations} from './types/annotations'
export const inputAnnotations = parseAnnotations(
core.getInput('annotations', {required: false})
)
export function getBufferTime(): number {
const inputBufferTime = parseInt(
core.getInput('version-switch-buffer') || '0'
)
if (inputBufferTime < 0 || inputBufferTime > 300)
throw Error('Version switch buffer must be between 0 and 300 (inclusive)')
return inputBufferTime
}
src/run.ts
+28 -41
View File
@@ -1,69 +1,56 @@
import * as core from '@actions/core'
import {getKubectlPath, Kubectl} from './types/kubectl'
import {deploy} from './actions/deploy'
import {promote} from './actions/promote'
import {reject} from './actions/reject'
import {Action, parseAction} from './types/action'
import {parseDeploymentStrategy} from './types/deploymentStrategy'
import {getFilesFromDirectories} from './utilities/fileUtils'
import {PrivateKubectl} from './types/privatekubectl'
import * as core from "@actions/core";
import { getKubectlPath, Kubectl } from "./types/kubectl";
import { deploy } from "./actions/deploy";
import { promote } from "./actions/promote";
import { reject } from "./actions/reject";
import { Action, parseAction } from "./types/action";
import { parseDeploymentStrategy } from "./types/deploymentStrategy";
import { getFilesFromDirectories } from "./utilities/fileUtils";
export async function run() {
// verify kubeconfig is set
if (!process.env['KUBECONFIG'])
if (!process.env["KUBECONFIG"])
core.warning(
'KUBECONFIG env is not explicitly set. Ensure cluster context is set by using k8s-set-context action.'
)
"KUBECONFIG env is not explicitly set. Ensure cluster context is set by using k8s-set-context action."
);
// get inputs
const action: Action | undefined = parseAction(
core.getInput('action', {required: true})
)
const strategy = parseDeploymentStrategy(core.getInput('strategy'))
const manifestsInput = core.getInput('manifests', {required: true})
core.getInput("action", { required: true })
);
const strategy = parseDeploymentStrategy(core.getInput("strategy"));
const manifestsInput = core.getInput("manifests", { required: true });
const manifestFilePaths = manifestsInput
.split(/[\n,;]+/) // split into each individual manifest
.map((manifest) => manifest.trim()) // remove surrounding whitespace
.filter((manifest) => manifest.length > 0) // remove any blanks
.filter((manifest) => manifest.length > 0); // remove any blanks
const fullManifestFilePaths = getFilesFromDirectories(manifestFilePaths)
const kubectlPath = await getKubectlPath()
const namespace = core.getInput('namespace') || 'default'
const isPrivateCluster =
core.getInput('private-cluster').toLowerCase() === 'true'
const resourceGroup = core.getInput('resource-group') || ''
const resourceName = core.getInput('name') || ''
const kubectl = isPrivateCluster
? new PrivateKubectl(
kubectlPath,
namespace,
true,
resourceGroup,
resourceName
)
: new Kubectl(kubectlPath, namespace, true)
// create kubectl
const kubectlPath = await getKubectlPath();
const namespace = core.getInput("namespace") || "default";
const kubectl = new Kubectl(kubectlPath, namespace, true);
// run action
switch (action) {
case Action.DEPLOY: {
await deploy(kubectl, fullManifestFilePaths, strategy)
break
await deploy(kubectl, fullManifestFilePaths, strategy);
break;
}
case Action.PROMOTE: {
await promote(kubectl, fullManifestFilePaths, strategy)
break
await promote(kubectl, fullManifestFilePaths, strategy);
break;
}
case Action.REJECT: {
await reject(kubectl, fullManifestFilePaths, strategy)
break
await reject(kubectl, fullManifestFilePaths, strategy);
break;
}
default: {
throw Error(
'Not a valid action. The allowed actions are "deploy", "promote", and "reject".'
)
);
}
}
}
run().catch(core.setFailed)
run().catch(core.setFailed);
src/strategyHelpers/blueGreen/blueGreenHelper.test.ts
-196
View File
@@ -1,196 +0,0 @@
import {
deployWithLabel,
deleteGreenObjects,
fetchResource,
getDeploymentMatchLabels,
getManifestObjects,
getNewBlueGreenObject,
GREEN_LABEL_VALUE,
isServiceRouted
} from './blueGreenHelper'
import {BlueGreenDeployment} from '../../types/blueGreenTypes'
import * as bgHelper from './blueGreenHelper'
import {Kubectl} from '../../types/kubectl'
import * as fileHelper from '../../utilities/fileUtils'
import {K8sObject} from '../../types/k8sObject'
import * as manifestUpdateUtils from '../../utilities/manifestUpdateUtils'
import {ExecOutput} from '@actions/exec'
jest.mock('../../types/kubectl')
const kubectl = new Kubectl('')
describe('bluegreenhelper functions', () => {
let testObjects
beforeEach(() => {
//@ts-ignore
Kubectl.mockClear()
testObjects = getManifestObjects(['test/unit/manifests/test-ingress.yml'])
jest
.spyOn(fileHelper, 'writeObjectsToFile')
.mockImplementationOnce(() => [''])
})
test('correctly deletes services and workloads according to label', async () => {
jest.spyOn(bgHelper, 'deleteObjects').mockReturnValue({} as Promise<void>)
const value = await deleteGreenObjects(
kubectl,
[].concat(
testObjects.deploymentEntityList,
testObjects.serviceEntityList
)
)
expect(value).toHaveLength(2)
expect(value).toContainEqual({
name: 'nginx-service-green',
kind: 'Service'
})
expect(value).toContainEqual({
name: 'nginx-deployment-green',
kind: 'Deployment'
})
})
test('parses objects correctly from one file (getManifestObjects)', () => {
expect(testObjects.deploymentEntityList[0].kind).toBe('Deployment')
expect(testObjects.serviceEntityList[0].kind).toBe('Service')
expect(testObjects.ingressEntityList[0].kind).toBe('Ingress')
expect(
testObjects.deploymentEntityList[0].spec.selector.matchLabels.app
).toBe('nginx')
})
test('parses other kinds of objects (getManifestObjects)', () => {
const otherObjectsCollection = getManifestObjects([
'test/unit/manifests/anomaly-objects-test.yml'
])
expect(
otherObjectsCollection.unroutedServiceEntityList[0].metadata.name
).toBe('unrouted-service')
expect(otherObjectsCollection.otherObjects[0].metadata.name).toBe(
'foobar-rollout'
)
})
test('correctly classifies routed services', () => {
expect(
isServiceRouted(
testObjects.serviceEntityList[0],
testObjects.deploymentEntityList
)
).toBe(true)
testObjects.serviceEntityList[0].spec.selector.app = 'fakeapp'
expect(
isServiceRouted(
testObjects.serviceEntityList[0],
testObjects.deploymentEntityList
)
).toBe(false)
})
test('correctly makes labeled workloads', async () => {
const cwlResult: BlueGreenDeployment = await deployWithLabel(
kubectl,
testObjects.deploymentEntityList,
GREEN_LABEL_VALUE
)
expect(cwlResult.deployResult.manifestFiles[0]).toBe('')
})
test('correctly makes new blue green object (getNewBlueGreenObject and addBlueGreenLabelsAndAnnotations)', () => {
const modifiedDeployment = getNewBlueGreenObject(
testObjects.deploymentEntityList[0],
GREEN_LABEL_VALUE
)
expect(modifiedDeployment.metadata.name).toBe('nginx-deployment-green')
expect(modifiedDeployment.metadata.labels['k8s.deploy.color']).toBe(
'green'
)
const modifiedSvc = getNewBlueGreenObject(
testObjects.serviceEntityList[0],
GREEN_LABEL_VALUE
)
expect(modifiedSvc.metadata.name).toBe('nginx-service-green')
expect(modifiedSvc.metadata.labels['k8s.deploy.color']).toBe('green')
})
test('correctly fetches k8s objects', async () => {
const mockExecOutput = {
stderr: '',
stdout: JSON.stringify(testObjects.deploymentEntityList[0]),
exitCode: 0
}
jest
.spyOn(kubectl, 'getResource')
.mockImplementation(() => Promise.resolve(mockExecOutput))
const fetched = await fetchResource(
kubectl,
'nginx-deployment',
'Deployment'
)
expect(fetched.metadata.name).toBe('nginx-deployment')
})
test('exits when fails to fetch k8s objects', async () => {
const mockExecOutput = {
stdout: 'this should not matter',
exitCode: 0,
stderr: 'this is a fake error'
} as ExecOutput
jest
.spyOn(kubectl, 'getResource')
.mockImplementation(() => Promise.resolve(mockExecOutput))
let fetched = await fetchResource(
kubectl,
'nginx-deployment',
'Deployment'
)
expect(fetched).toBe(null)
jest.spyOn(kubectl, 'getResource').mockImplementation()
fetched = await fetchResource(kubectl, 'nginx-deployment', 'Deployment')
expect(fetched).toBe(null)
})
test('returns null when fetch fails to unset k8s objects', async () => {
const mockExecOutput = {
stdout: 'this should not matter',
exitCode: 0,
stderr: 'this is a fake error'
} as ExecOutput
jest
.spyOn(manifestUpdateUtils, 'UnsetClusterSpecificDetails')
.mockImplementation(() => {
throw new Error('test error')
})
expect(
await fetchResource(kubectl, 'nginx-deployment', 'Deployment')
).toBe(null)
})
test('gets deployment labels', () => {
const mockLabels = new Map<string, string>()
mockLabels[bgHelper.BLUE_GREEN_VERSION_LABEL] = GREEN_LABEL_VALUE
const mockPodObject: K8sObject = {
kind: 'Pod',
metadata: {name: 'testPod', labels: mockLabels},
spec: {}
}
expect(
getDeploymentMatchLabels(mockPodObject)[
bgHelper.BLUE_GREEN_VERSION_LABEL
]
).toBe(GREEN_LABEL_VALUE)
expect(
getDeploymentMatchLabels(testObjects.deploymentEntityList[0])['app']
).toBe('nginx')
})
})
src/strategyHelpers/blueGreen/blueGreenHelper.ts
+215 -126
View File
@@ -1,104 +1,196 @@
import * as core from '@actions/core'
import * as fs from 'fs'
import * as yaml from 'js-yaml'
import {DeployResult} from '../../types/deployResult'
import {K8sObject, K8sDeleteObject} from '../../types/k8sObject'
import {Kubectl} from '../../types/kubectl'
import * as core from "@actions/core";
import * as fs from "fs";
import * as yaml from "js-yaml";
import { Kubectl } from "../../types/kubectl";
import {
isDeploymentEntity,
isIngressEntity,
isServiceEntity,
KubernetesWorkload
} from '../../types/kubernetesTypes'
import {
BlueGreenDeployment,
BlueGreenManifests
} from '../../types/blueGreenTypes'
import * as fileHelper from '../../utilities/fileUtils'
import {updateSpecLabels} from '../../utilities/manifestSpecLabelUtils'
import {checkForErrors} from '../../utilities/kubectlUtils'
KubernetesWorkload,
} from "../../types/kubernetesTypes";
import * as fileHelper from "../../utilities/fileUtils";
import { routeBlueGreenService } from "./serviceBlueGreenHelper";
import { routeBlueGreenIngress } from "./ingressBlueGreenHelper";
import { routeBlueGreenSMI } from "./smiBlueGreenHelper";
import {
UnsetClusterSpecificDetails,
updateObjectLabels,
updateSelectorLabels
} from '../../utilities/manifestUpdateUtils'
updateSelectorLabels,
} from "../../utilities/manifestUpdateUtils";
import { updateSpecLabels } from "../../utilities/manifestSpecLabelUtils";
import { checkForErrors } from "../../utilities/kubectlUtils";
import { sleep } from "../../utilities/timeUtils";
import { RouteStrategy } from "../../types/routeStrategy";
export const GREEN_LABEL_VALUE = 'green'
export const NONE_LABEL_VALUE = 'None'
export const BLUE_GREEN_VERSION_LABEL = 'k8s.deploy.color'
export const GREEN_SUFFIX = '-green'
export const STABLE_SUFFIX = '-stable'
export const GREEN_LABEL_VALUE = "green";
export const NONE_LABEL_VALUE = "None";
export const BLUE_GREEN_VERSION_LABEL = "k8s.deploy.color";
export const GREEN_SUFFIX = "-green";
export const STABLE_SUFFIX = "-stable";
export async function deleteGreenObjects(
kubectl: Kubectl,
toDelete: K8sObject[]
): Promise<K8sDeleteObject[]> {
// const resourcesToDelete: K8sDeleteObject[] = []
const resourcesToDelete: K8sDeleteObject[] = toDelete.map((obj) => {
return {
name: getBlueGreenResourceName(obj.metadata.name, GREEN_SUFFIX),
kind: obj.kind
}
})
core.debug(`deleting green objects: ${JSON.stringify(resourcesToDelete)}`)
await deleteObjects(kubectl, resourcesToDelete)
return resourcesToDelete
export interface BlueGreenManifests {
serviceEntityList: any[];
serviceNameMap: Map<string, string>;
unroutedServiceEntityList: any[];
deploymentEntityList: any[];
ingressEntityList: any[];
otherObjects: any[];
}
export async function deleteObjects(
export async function routeBlueGreen(
kubectl: Kubectl,
deleteList: K8sDeleteObject[]
inputManifestFiles: string[],
routeStrategy: RouteStrategy
) {
// sleep for buffer time
const bufferTime: number = parseInt(
core.getInput("version-switch-buffer") || "0"
);
if (bufferTime < 0 || bufferTime > 300)
throw Error("Version switch buffer must be between 0 and 300 (inclusive)");
const startSleepDate = new Date();
core.info(
`Starting buffer time of ${bufferTime} minute(s) at ${startSleepDate.toISOString()}`
);
await sleep(bufferTime * 1000 * 60);
const endSleepDate = new Date();
core.info(
`Stopping buffer time of ${bufferTime} minute(s) at ${endSleepDate.toISOString()}`
);
const manifestObjects: BlueGreenManifests =
getManifestObjects(inputManifestFiles);
core.debug("Manifest objects: " + JSON.stringify(manifestObjects));
// route to new deployments
if (routeStrategy == RouteStrategy.INGRESS) {
await routeBlueGreenIngress(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.serviceNameMap,
manifestObjects.ingressEntityList
);
} else if (routeStrategy == RouteStrategy.SMI) {
await routeBlueGreenSMI(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.serviceEntityList
);
} else {
await routeBlueGreenService(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.serviceEntityList
);
}
}
export async function deleteWorkloadsWithLabel(
kubectl: Kubectl,
deleteLabel: string,
deploymentEntityList: any[]
) {
const resourcesToDelete = [];
deploymentEntityList.forEach((inputObject) => {
const name = inputObject.metadata.name;
const kind = inputObject.kind;
if (deleteLabel === NONE_LABEL_VALUE) {
// delete stable deployments
const resourceToDelete = { name, kind };
resourcesToDelete.push(resourceToDelete);
} else {
// delete new green deployments
const resourceToDelete = {
name: getBlueGreenResourceName(name, GREEN_SUFFIX),
kind: kind,
};
resourcesToDelete.push(resourceToDelete);
}
});
await deleteObjects(kubectl, resourcesToDelete);
}
export async function deleteWorkloadsAndServicesWithLabel(
kubectl: Kubectl,
deleteLabel: string,
deploymentEntityList: any[],
serviceEntityList: any[]
) {
// need to delete services and deployments
const deletionEntitiesList = deploymentEntityList.concat(serviceEntityList);
const resourcesToDelete = [];
deletionEntitiesList.forEach((inputObject) => {
const name = inputObject.metadata.name;
const kind = inputObject.kind;
if (deleteLabel === NONE_LABEL_VALUE) {
// delete stable objects
const resourceToDelete = { name, kind };
resourcesToDelete.push(resourceToDelete);
} else {
// delete green labels
const resourceToDelete = {
name: getBlueGreenResourceName(name, GREEN_SUFFIX),
kind: kind,
};
resourcesToDelete.push(resourceToDelete);
}
});
await deleteObjects(kubectl, resourcesToDelete);
}
export async function deleteObjects(kubectl: Kubectl, deleteList: any[]) {
// delete services and deployments
for (const delObject of deleteList) {
try {
const result = await kubectl.delete([delObject.kind, delObject.name])
checkForErrors([result])
const result = await kubectl.delete([delObject.kind, delObject.name]);
checkForErrors([result]);
} catch (ex) {
core.debug(`failed to delete object ${delObject.name}: ${ex}`)
// Ignore failures of delete if it doesn't exist
}
}
}
// other common functions
export function getManifestObjects(filePaths: string[]): BlueGreenManifests {
const deploymentEntityList: K8sObject[] = []
const routedServiceEntityList: K8sObject[] = []
const unroutedServiceEntityList: K8sObject[] = []
const ingressEntityList: K8sObject[] = []
const otherEntitiesList: K8sObject[] = []
const serviceNameMap = new Map<string, string>()
const deploymentEntityList = [];
const routedServiceEntityList = [];
const unroutedServiceEntityList = [];
const ingressEntityList = [];
const otherEntitiesList = [];
const serviceNameMap = new Map<string, string>();
filePaths.forEach((filePath: string) => {
const fileContents = fs.readFileSync(filePath).toString()
const fileContents = fs.readFileSync(filePath).toString();
yaml.safeLoadAll(fileContents, (inputObject) => {
if (!!inputObject) {
const kind = inputObject.kind
const name = inputObject.metadata.name
const kind = inputObject.kind;
const name = inputObject.metadata.name;
if (isDeploymentEntity(kind)) {
deploymentEntityList.push(inputObject)
deploymentEntityList.push(inputObject);
} else if (isServiceEntity(kind)) {
if (isServiceRouted(inputObject, deploymentEntityList)) {
routedServiceEntityList.push(inputObject)
routedServiceEntityList.push(inputObject);
serviceNameMap.set(
name,
getBlueGreenResourceName(name, GREEN_SUFFIX)
)
);
} else {
unroutedServiceEntityList.push(inputObject)
unroutedServiceEntityList.push(inputObject);
}
} else if (isIngressEntity(kind)) {
ingressEntityList.push(inputObject)
ingressEntityList.push(inputObject);
} else {
otherEntitiesList.push(inputObject)
otherEntitiesList.push(inputObject);
}
}
})
})
});
});
return {
serviceEntityList: routedServiceEntityList,
@@ -106,62 +198,72 @@ export function getManifestObjects(filePaths: string[]): BlueGreenManifests {
unroutedServiceEntityList: unroutedServiceEntityList,
deploymentEntityList: deploymentEntityList,
ingressEntityList: ingressEntityList,
otherObjects: otherEntitiesList
}
otherObjects: otherEntitiesList,
};
}
export function isServiceRouted(
serviceObject: any[],
deploymentEntityList: any[]
): boolean {
const serviceSelector: any = getServiceSelector(serviceObject)
return (
serviceSelector &&
let shouldBeRouted: boolean = false;
const serviceSelector: any = getServiceSelector(serviceObject);
if (serviceSelector) {
if (
deploymentEntityList.some((depObject) => {
// finding if there is a deployment in the given manifests the service targets
const matchLabels: any = getDeploymentMatchLabels(depObject)
const matchLabels: any = getDeploymentMatchLabels(depObject);
return (
matchLabels &&
isServiceSelectorSubsetOfMatchLabel(serviceSelector, matchLabels)
)
);
})
)
) {
shouldBeRouted = true;
}
}
return shouldBeRouted;
}
export async function deployWithLabel(
export async function createWorkloadsWithLabel(
kubectl: Kubectl,
deploymentObjectList: any[],
nextLabel: string
): Promise<BlueGreenDeployment> {
const newObjectsList = deploymentObjectList.map((inputObject) =>
getNewBlueGreenObject(inputObject, nextLabel)
)
) {
const newObjectsList = [];
deploymentObjectList.forEach((inputObject) => {
// creating deployment with label
const newBlueGreenObject = getNewBlueGreenObject(inputObject, nextLabel);
core.debug(
`objects deployed with label are ${JSON.stringify(newObjectsList)}`
)
const deployResult = await deployObjects(kubectl, newObjectsList)
return {deployResult, objects: newObjectsList}
"New blue-green object is: " + JSON.stringify(newBlueGreenObject)
);
newObjectsList.push(newBlueGreenObject);
});
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
const result = await kubectl.apply(manifestFiles);
return { result: result, newFilePaths: manifestFiles };
}
export function getNewBlueGreenObject(
inputObject: any,
labelValue: string
): K8sObject {
const newObject = JSON.parse(JSON.stringify(inputObject))
): object {
const newObject = JSON.parse(JSON.stringify(inputObject));
// Updating name only if label is green label is given
if (labelValue === GREEN_LABEL_VALUE) {
newObject.metadata.name = getBlueGreenResourceName(
inputObject.metadata.name,
GREEN_SUFFIX
)
);
}
// Adding labels and annotations
addBlueGreenLabelsAndAnnotations(newObject, labelValue)
return newObject
addBlueGreenLabelsAndAnnotations(newObject, labelValue);
return newObject;
}
export function addBlueGreenLabelsAndAnnotations(
@@ -169,21 +271,21 @@ export function addBlueGreenLabelsAndAnnotations(
labelValue: string
) {
//creating the k8s.deploy.color label
const newLabels = new Map<string, string>()
newLabels[BLUE_GREEN_VERSION_LABEL] = labelValue
const newLabels = new Map<string, string>();
newLabels[BLUE_GREEN_VERSION_LABEL] = labelValue;
// updating object labels and selector labels
updateObjectLabels(inputObject, newLabels, false)
updateSelectorLabels(inputObject, newLabels, false)
updateObjectLabels(inputObject, newLabels, false);
updateSelectorLabels(inputObject, newLabels, false);
// updating spec labels if it is not a service
// updating spec labels if it is a service
if (!isServiceEntity(inputObject.kind)) {
updateSpecLabels(inputObject, newLabels, false)
updateSpecLabels(inputObject, newLabels, false);
}
}
export function getBlueGreenResourceName(name: string, suffix: string) {
return `${name}${suffix}`
return `${name}${suffix}`;
}
export function getDeploymentMatchLabels(deploymentObject: any): any {
@@ -192,15 +294,15 @@ export function getDeploymentMatchLabels(deploymentObject: any): any {
KubernetesWorkload.POD.toUpperCase() &&
deploymentObject?.metadata?.labels
) {
return deploymentObject.metadata.labels
return deploymentObject.metadata.labels;
} else if (deploymentObject?.spec?.selector?.matchLabels) {
return deploymentObject.spec.selector.matchLabels
return deploymentObject.spec.selector.matchLabels;
}
}
export function getServiceSelector(serviceObject: any): any {
if (serviceObject?.spec?.selector) {
return serviceObject.spec.selector
return serviceObject.spec.selector;
}
}
@@ -208,59 +310,46 @@ export function isServiceSelectorSubsetOfMatchLabel(
serviceSelector: any,
matchLabels: any
): boolean {
const serviceSelectorMap = new Map()
const matchLabelsMap = new Map()
const serviceSelectorMap = new Map();
const matchLabelsMap = new Map();
JSON.parse(JSON.stringify(serviceSelector), (key, value) => {
serviceSelectorMap.set(key, value)
})
serviceSelectorMap.set(key, value);
});
JSON.parse(JSON.stringify(matchLabels), (key, value) => {
matchLabelsMap.set(key, value)
})
matchLabelsMap.set(key, value);
});
let isMatch = true
let isMatch = true;
serviceSelectorMap.forEach((value, key) => {
if (
!!key &&
(!matchLabelsMap.has(key) || matchLabelsMap.get(key)) != value
)
isMatch = false
})
if (!!key && (!matchLabelsMap.has(key) || matchLabelsMap.get(key)) != value)
isMatch = false;
});
return isMatch
return isMatch;
}
export async function fetchResource(
kubectl: Kubectl,
kind: string,
name: string
): Promise<K8sObject> {
const result = await kubectl.getResource(kind, name)
) {
const result = await kubectl.getResource(kind, name);
if (result == null || !!result.stderr) {
return null
return null;
}
if (!!result.stdout) {
const resource = JSON.parse(result.stdout) as K8sObject
const resource = JSON.parse(result.stdout);
try {
UnsetClusterSpecificDetails(resource)
return resource
UnsetClusterSpecificDetails(resource);
return resource;
} catch (ex) {
core.debug(
`Exception occurred while Parsing ${resource} in Json object: ${ex}`
)
);
}
}
}
export async function deployObjects(
kubectl: Kubectl,
objectsList: any[]
): Promise<DeployResult> {
const manifestFiles = fileHelper.writeObjectsToFile(objectsList)
const execResult = await kubectl.apply(manifestFiles)
return {execResult, manifestFiles}
}
src/strategyHelpers/blueGreen/deploy.test.ts
-75
View File
@@ -1,75 +0,0 @@
import {getManifestObjects} from './blueGreenHelper'
import {BlueGreenDeployment} from '../../types/blueGreenTypes'
import {deployBlueGreen, deployBlueGreenIngress} from './deploy'
import * as routeTester from './route'
import {Kubectl} from '../../types/kubectl'
import {RouteStrategy} from '../../types/routeStrategy'
import * as TSutils from '../../utilities/trafficSplitUtils'
const ingressFilepath = ['test/unit/manifests/test-ingress-new.yml']
jest.mock('../../types/kubectl')
describe('deploy tests', () => {
let testObjects
beforeEach(() => {
//@ts-ignore
Kubectl.mockClear()
testObjects = getManifestObjects(ingressFilepath)
})
test('correctly determines deploy type and acts accordingly', async () => {
const kubectl = new Kubectl('')
const mockBgDeployment: BlueGreenDeployment = {
deployResult: {
execResult: {exitCode: 0, stderr: '', stdout: ''},
manifestFiles: []
},
objects: []
}
jest
.spyOn(routeTester, 'routeBlueGreenForDeploy')
.mockImplementation(() => Promise.resolve(mockBgDeployment))
jest
.spyOn(TSutils, 'getTrafficSplitAPIVersion')
.mockImplementation(() => Promise.resolve('v1alpha3'))
const ingressResult = await deployBlueGreen(
kubectl,
ingressFilepath,
RouteStrategy.INGRESS
)
expect(ingressResult.objects.length).toBe(2)
const result = await deployBlueGreen(
kubectl,
ingressFilepath,
RouteStrategy.SERVICE
)
expect(result.objects.length).toBe(2)
const smiResult = await deployBlueGreen(
kubectl,
ingressFilepath,
RouteStrategy.SMI
)
expect(smiResult.objects.length).toBe(3)
})
test('correctly deploys blue/green ingress', async () => {
const kc = new Kubectl('')
const value = await deployBlueGreenIngress(kc, ingressFilepath)
const nol = value.objects.map((obj) => {
if (obj.kind === 'Service') {
expect(obj.metadata.name).toBe('nginx-service-green')
}
if (obj.kind === 'Deployment') {
expect(obj.metadata.name).toBe('nginx-deployment-green')
}
})
})
})
src/strategyHelpers/blueGreen/deploy.ts
-136
View File
@@ -1,136 +0,0 @@
import * as core from '@actions/core'
import {Kubectl} from '../../types/kubectl'
import {
BlueGreenDeployment,
BlueGreenManifests
} from '../../types/blueGreenTypes'
import {RouteStrategy} from '../../types/routeStrategy'
import {
deployWithLabel,
getManifestObjects,
GREEN_LABEL_VALUE,
deployObjects
} from './blueGreenHelper'
import {setupSMI} from './smiBlueGreenHelper'
import {routeBlueGreenForDeploy} from './route'
export async function deployBlueGreen(
kubectl: Kubectl,
files: string[],
routeStrategy: RouteStrategy
): Promise<BlueGreenDeployment> {
const blueGreenDeployment = await (async () => {
switch (routeStrategy) {
case RouteStrategy.INGRESS:
return await deployBlueGreenIngress(kubectl, files)
case RouteStrategy.SMI:
return await deployBlueGreenSMI(kubectl, files)
default:
return await deployBlueGreenService(kubectl, files)
}
})()
core.startGroup('Routing blue green')
await routeBlueGreenForDeploy(kubectl, files, routeStrategy)
core.endGroup()
return blueGreenDeployment
}
export async function deployBlueGreenSMI(
kubectl: Kubectl,
filePaths: string[]
): Promise<BlueGreenDeployment> {
// get all kubernetes objects defined in manifest files
const manifestObjects: BlueGreenManifests = getManifestObjects(filePaths)
// create services and other objects
const newObjectsList = [].concat(
manifestObjects.otherObjects,
manifestObjects.serviceEntityList,
manifestObjects.ingressEntityList,
manifestObjects.unroutedServiceEntityList
)
await deployObjects(kubectl, newObjectsList)
// make extraservices and trafficsplit
await setupSMI(kubectl, manifestObjects.serviceEntityList)
// create new deloyments
const blueGreenDeployment: BlueGreenDeployment = await deployWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
GREEN_LABEL_VALUE
)
return {
deployResult: blueGreenDeployment.deployResult,
objects: [].concat(blueGreenDeployment.objects, newObjectsList)
}
}
export async function deployBlueGreenIngress(
kubectl: Kubectl,
filePaths: string[]
): Promise<BlueGreenDeployment> {
// get all kubernetes objects defined in manifest files
const manifestObjects: BlueGreenManifests = getManifestObjects(filePaths)
// create deployments with green label value
const servicesAndDeployments = [].concat(
manifestObjects.deploymentEntityList,
manifestObjects.serviceEntityList
)
const workloadDeployment: BlueGreenDeployment = await deployWithLabel(
kubectl,
servicesAndDeployments,
GREEN_LABEL_VALUE
)
const otherObjects = [].concat(
manifestObjects.otherObjects,
manifestObjects.unroutedServiceEntityList
)
await deployObjects(kubectl, otherObjects)
core.debug(
`new objects after processing services and other objects: \n
${JSON.stringify(servicesAndDeployments)}`
)
return {
deployResult: workloadDeployment.deployResult,
objects: [].concat(workloadDeployment.objects, otherObjects)
}
}
export async function deployBlueGreenService(
kubectl: Kubectl,
filePaths: string[]
): Promise<BlueGreenDeployment> {
const manifestObjects: BlueGreenManifests = getManifestObjects(filePaths)
// create deployments with green label value
const blueGreenDeployment: BlueGreenDeployment = await deployWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
GREEN_LABEL_VALUE
)
// create other non deployment and non service entities
const newObjectsList = [].concat(
manifestObjects.otherObjects,
manifestObjects.ingressEntityList,
manifestObjects.unroutedServiceEntityList
)
await deployObjects(kubectl, newObjectsList)
// returning deployment details to check for rollout stability
return {
deployResult: blueGreenDeployment.deployResult,
objects: [].concat(blueGreenDeployment.objects, newObjectsList)
}
}
src/strategyHelpers/blueGreen/ingressBlueGreenHelper.test.ts
-123
View File
@@ -1,123 +0,0 @@
import {getManifestObjects, GREEN_LABEL_VALUE} from './blueGreenHelper'
import * as bgHelper from './blueGreenHelper'
import {
getUpdatedBlueGreenIngress,
isIngressRouted,
validateIngresses
} from './ingressBlueGreenHelper'
import {Kubectl} from '../../types/kubectl'
import * as fileHelper from '../../utilities/fileUtils'
const betaFilepath = ['test/unit/manifests/test-ingress.yml']
const ingressFilepath = ['test/unit/manifests/test-ingress-new.yml']
const kubectl = new Kubectl('')
jest.mock('../../types/kubectl')
describe('ingress blue green helpers', () => {
let testObjects
beforeEach(() => {
//@ts-ignore
Kubectl.mockClear()
testObjects = getManifestObjects(ingressFilepath)
jest
.spyOn(fileHelper, 'writeObjectsToFile')
.mockImplementationOnce(() => [''])
})
test('it should correctly classify ingresses', () => {
expect(
isIngressRouted(
testObjects.ingressEntityList[0],
testObjects.serviceNameMap
)
).toBe(true)
testObjects.ingressEntityList[0].spec.rules[0].http.paths = {}
expect(
isIngressRouted(
testObjects.ingressEntityList[0],
testObjects.serviceNameMap
)
).toBe(false)
expect(
isIngressRouted(
getManifestObjects(betaFilepath).ingressEntityList[0],
testObjects.serviceNameMap
)
).toBe(true)
})
test('it should correctly update ingresses', () => {
const updatedIng = getUpdatedBlueGreenIngress(
testObjects.ingressEntityList[0],
testObjects.serviceNameMap,
GREEN_LABEL_VALUE
)
expect(updatedIng.metadata.name).toBe('nginx-ingress')
expect(updatedIng.metadata.labels['k8s.deploy.color']).toBe('green')
expect(updatedIng.spec.rules[0].http.paths[0].backend.service.name).toBe(
'nginx-service-green'
)
const oldIngObjects = getManifestObjects(betaFilepath)
const oldIng = getUpdatedBlueGreenIngress(
oldIngObjects.ingressEntityList[0],
oldIngObjects.serviceNameMap,
GREEN_LABEL_VALUE
)
expect(updatedIng.metadata.labels['k8s.deploy.color']).toBe('green')
expect(updatedIng.spec.rules[0].http.paths[0].backend.service.name).toBe(
'nginx-service-green'
)
})
test('it should validate ingresses', async () => {
// what if nothing gets returned from fetchResource?
jest.spyOn(bgHelper, 'fetchResource').mockImplementation()
let validResponse = await validateIngresses(
kubectl,
testObjects.ingressEntityList,
testObjects.serviceNameMap
)
expect(validResponse.areValid).toBe(false)
// test valid ingress
let mockIngress = JSON.parse(
JSON.stringify(testObjects.ingressEntityList[0])
)
mockIngress.spec.rules[0].http.paths[0].backend.service.name =
'nginx-service-green'
const mockLabels = new Map<string, string>()
mockLabels[bgHelper.BLUE_GREEN_VERSION_LABEL] = GREEN_LABEL_VALUE
mockIngress.metadata.labels = mockLabels
jest
.spyOn(bgHelper, 'fetchResource')
.mockImplementation(() => Promise.resolve(mockIngress))
validResponse = await validateIngresses(
kubectl,
testObjects.ingressEntityList,
testObjects.serviceNameMap
)
expect(validResponse.areValid).toBe(true)
// test invalid labels
mockIngress.metadata.labels[bgHelper.BLUE_GREEN_VERSION_LABEL] =
bgHelper.NONE_LABEL_VALUE
mockIngress.spec.rules[0].http.paths[0].backend.service.name =
'nginx-service'
validResponse = await validateIngresses(
kubectl,
testObjects.ingressEntityList,
testObjects.serviceNameMap
)
expect(validResponse.areValid).toBe(false)
// test missing fields
mockIngress = {}
validResponse = await validateIngresses(
kubectl,
testObjects.ingressEntityList,
testObjects.serviceNameMap
)
expect(validResponse.areValid).toBe(false)
})
})
src/strategyHelpers/blueGreen/ingressBlueGreenHelper.ts
+206 -97
View File
@@ -1,48 +1,212 @@
import * as core from '@actions/core'
import {K8sIngress} from '../../types/k8sObject'
import { Kubectl } from "../../types/kubectl";
import * as fileHelper from "../../utilities/fileUtils";
import {
addBlueGreenLabelsAndAnnotations,
BLUE_GREEN_VERSION_LABEL,
BlueGreenManifests,
createWorkloadsWithLabel,
deleteWorkloadsAndServicesWithLabel,
fetchResource,
getManifestObjects,
getNewBlueGreenObject,
GREEN_LABEL_VALUE,
fetchResource
} from './blueGreenHelper'
import {Kubectl} from '../../types/kubectl'
NONE_LABEL_VALUE,
} from "./blueGreenHelper";
import * as core from "@actions/core";
const BACKEND = 'backend'
const BACKEND = "BACKEND";
export async function deployBlueGreenIngress(
kubectl: Kubectl,
filePaths: string[]
) {
// get all kubernetes objects defined in manifest files
const manifestObjects: BlueGreenManifests = getManifestObjects(filePaths);
// create deployments with green label value
const result = createWorkloadsWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
GREEN_LABEL_VALUE
);
// create new services and other objects
let newObjectsList = [];
manifestObjects.serviceEntityList.forEach((inputObject) => {
const newBlueGreenObject = getNewBlueGreenObject(
inputObject,
GREEN_LABEL_VALUE
);
newObjectsList.push(newBlueGreenObject);
});
newObjectsList = newObjectsList
.concat(manifestObjects.otherObjects)
.concat(manifestObjects.unroutedServiceEntityList);
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
await kubectl.apply(manifestFiles);
return result;
}
export async function promoteBlueGreenIngress(
kubectl: Kubectl,
manifestObjects
) {
//checking if anything to promote
if (
!validateIngressesState(
kubectl,
manifestObjects.ingressEntityList,
manifestObjects.serviceNameMap
)
) {
throw "Ingress not in promote state";
}
// create stable deployments with new configuration
const result = createWorkloadsWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
NONE_LABEL_VALUE
);
// create stable services with new configuration
const newObjectsList = [];
manifestObjects.serviceEntityList.forEach((inputObject) => {
const newBlueGreenObject = getNewBlueGreenObject(
inputObject,
NONE_LABEL_VALUE
);
newObjectsList.push(newBlueGreenObject);
});
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
await kubectl.apply(manifestFiles);
return result;
}
export async function rejectBlueGreenIngress(
kubectl: Kubectl,
filePaths: string[]
) {
// get all kubernetes objects defined in manifest files
const manifestObjects: BlueGreenManifests = getManifestObjects(filePaths);
// route ingress to stables services
await routeBlueGreenIngress(
kubectl,
null,
manifestObjects.serviceNameMap,
manifestObjects.ingressEntityList
);
// delete green services and deployments
await deleteWorkloadsAndServicesWithLabel(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.deploymentEntityList,
manifestObjects.serviceEntityList
);
}
export async function routeBlueGreenIngress(
kubectl: Kubectl,
nextLabel: string,
serviceNameMap: Map<string, string>,
ingressEntityList: any[]
) {
let newObjectsList = [];
if (!nextLabel) {
newObjectsList = ingressEntityList.filter((ingress) =>
isIngressRouted(ingress, serviceNameMap)
);
} else {
ingressEntityList.forEach((inputObject) => {
if (isIngressRouted(inputObject, serviceNameMap)) {
const newBlueGreenIngressObject = getUpdatedBlueGreenIngress(
inputObject,
serviceNameMap,
GREEN_LABEL_VALUE
);
newObjectsList.push(newBlueGreenIngressObject);
} else {
newObjectsList.push(inputObject);
}
});
}
core.debug("New objects: " + JSON.stringify(newObjectsList));
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
await kubectl.apply(manifestFiles);
}
export function validateIngressesState(
kubectl: Kubectl,
ingressEntityList: any[],
serviceNameMap: Map<string, string>
): boolean {
let areIngressesTargetingNewServices: boolean = true;
ingressEntityList.forEach(async (inputObject) => {
if (isIngressRouted(inputObject, serviceNameMap)) {
//querying existing ingress
const existingIngress = await fetchResource(
kubectl,
inputObject.kind,
inputObject.metadata.name
);
if (!!existingIngress) {
const currentLabel: string =
existingIngress?.metadata?.labels[BLUE_GREEN_VERSION_LABEL];
// if not green label, then wrong configuration
if (currentLabel != GREEN_LABEL_VALUE)
areIngressesTargetingNewServices = false;
} else {
// no ingress at all, so nothing to promote
areIngressesTargetingNewServices = false;
}
}
});
return areIngressesTargetingNewServices;
}
function isIngressRouted(
ingressObject: any,
serviceNameMap: Map<string, string>
): boolean {
let isIngressRouted: boolean = false;
// check if ingress targets a service in the given manifests
JSON.parse(JSON.stringify(ingressObject), (key, value) => {
if (key === "serviceName" && serviceNameMap.has(value)) {
isIngressRouted = true;
}
return value;
});
return isIngressRouted;
}
export function getUpdatedBlueGreenIngress(
inputObject: any,
serviceNameMap: Map<string, string>,
type: string
): K8sIngress {
const newObject = JSON.parse(JSON.stringify(inputObject))
): object {
if (!type) {
return inputObject;
}
const newObject = JSON.parse(JSON.stringify(inputObject));
// add green labels and values
addBlueGreenLabelsAndAnnotations(newObject, type)
addBlueGreenLabelsAndAnnotations(newObject, type);
// update ingress labels
if (inputObject.apiVersion === 'networking.k8s.io/v1beta1') {
return updateIngressBackendBetaV1(newObject, serviceNameMap)
}
return updateIngressBackend(newObject, serviceNameMap)
}
export function updateIngressBackendBetaV1(
inputObject: any,
serviceNameMap: Map<string, string>
): any {
inputObject = JSON.parse(JSON.stringify(inputObject), (key, value) => {
if (key.toLowerCase() === BACKEND) {
const {serviceName} = value
if (serviceNameMap.has(serviceName)) {
// update service name with corresponding bluegreen name only if service is provied in given manifests
value.serviceName = serviceNameMap.get(serviceName)
}
}
return value
})
return inputObject
return updateIngressBackend(newObject, serviceNameMap);
}
export function updateIngressBackend(
@@ -50,71 +214,16 @@ export function updateIngressBackend(
serviceNameMap: Map<string, string>
): any {
inputObject = JSON.parse(JSON.stringify(inputObject), (key, value) => {
if (
key.toLowerCase() === BACKEND &&
serviceNameMap.has(value.service.name)
) {
value.service.name = serviceNameMap.get(value.service.name)
if (key.toUpperCase() === BACKEND) {
const { serviceName } = value;
if (serviceNameMap.has(serviceName)) {
// update service name with corresponding bluegreen name only if service is provied in given manifests
value.serviceName = serviceNameMap.get(serviceName);
}
}
return value
})
return inputObject
}
export function isIngressRouted(
ingressObject: any,
serviceNameMap: Map<string, string>
): boolean {
let isIngressRouted: boolean = false
// check if ingress targets a service in the given manifests
JSON.parse(JSON.stringify(ingressObject), (key, value) => {
isIngressRouted =
isIngressRouted ||
(key === 'service' &&
value.hasOwnProperty('name') &&
serviceNameMap.has(value.name))
isIngressRouted =
isIngressRouted || (key === 'serviceName' && serviceNameMap.has(value))
return value
})
return isIngressRouted
}
export async function validateIngresses(
kubectl: Kubectl,
ingressEntityList: any[],
serviceNameMap: Map<string, string>
): Promise<{areValid: boolean; invalidIngresses: string[]}> {
let areValid: boolean = true
const invalidIngresses = []
for (const inputObject of ingressEntityList) {
if (isIngressRouted(inputObject, serviceNameMap)) {
//querying existing ingress
const existingIngress = await fetchResource(
kubectl,
inputObject.kind,
inputObject.metadata.name
)
const isValid =
!!existingIngress &&
existingIngress?.metadata?.labels[BLUE_GREEN_VERSION_LABEL] ===
GREEN_LABEL_VALUE
if (!isValid) {
core.debug(
`Invalid ingress detected (must be in green state): ${JSON.stringify(
inputObject
)}`
)
invalidIngresses.push(inputObject.metadata.name)
}
// to be valid, ingress should exist and should be green
areValid = areValid && isValid
}
}
return {areValid, invalidIngresses}
return value;
});
return inputObject;
}
src/strategyHelpers/blueGreen/promote.test.ts
-158
View File
@@ -1,158 +0,0 @@
import * as core from '@actions/core'
import {getManifestObjects} from './blueGreenHelper'
import {
promoteBlueGreenIngress,
promoteBlueGreenService,
promoteBlueGreenSMI
} from './promote'
import {TrafficSplitObject} from '../../types/k8sObject'
import * as servicesTester from './serviceBlueGreenHelper'
import {Kubectl} from '../../types/kubectl'
import {MAX_VAL, MIN_VAL, TRAFFIC_SPLIT_OBJECT} from './smiBlueGreenHelper'
import * as smiTester from './smiBlueGreenHelper'
import * as bgHelper from './blueGreenHelper'
let testObjects
const ingressFilepath = ['test/unit/manifests/test-ingress-new.yml']
jest.mock('../../types/kubectl')
const kubectl = new Kubectl('')
describe('promote tests', () => {
beforeEach(() => {
//@ts-ignore
Kubectl.mockClear()
testObjects = getManifestObjects(ingressFilepath)
})
test('promote blue/green ingress', async () => {
const mockLabels = new Map<string, string>()
mockLabels[bgHelper.BLUE_GREEN_VERSION_LABEL] = bgHelper.GREEN_LABEL_VALUE
jest.spyOn(bgHelper, 'fetchResource').mockImplementation(() =>
Promise.resolve({
kind: 'Ingress',
spec: {},
metadata: {labels: mockLabels, name: 'nginx-ingress-green'}
})
)
const value = await promoteBlueGreenIngress(kubectl, testObjects)
const objects = value.objects
expect(objects).toHaveLength(2)
for (const obj of objects) {
if (obj.kind === 'Service') {
expect(obj.metadata.name).toBe('nginx-service')
} else if (obj.kind == 'Deployment') {
expect(obj.metadata.name).toBe('nginx-deployment')
}
expect(obj.metadata.labels['k8s.deploy.color']).toBe('None')
}
})
test('fail to promote invalid blue/green ingress', async () => {
const mockLabels = new Map<string, string>()
mockLabels[bgHelper.BLUE_GREEN_VERSION_LABEL] = bgHelper.NONE_LABEL_VALUE
jest.spyOn(bgHelper, 'fetchResource').mockImplementation(() =>
Promise.resolve({
kind: 'Ingress',
spec: {},
metadata: {labels: mockLabels, name: 'nginx-ingress-green'}
})
)
await expect(
promoteBlueGreenIngress(kubectl, testObjects)
).rejects.toThrowError()
})
test('promote blue/green service', async () => {
const mockLabels = new Map<string, string>()
mockLabels[bgHelper.BLUE_GREEN_VERSION_LABEL] = bgHelper.GREEN_LABEL_VALUE
jest.spyOn(bgHelper, 'fetchResource').mockImplementation(() =>
Promise.resolve({
kind: 'Service',
spec: {selector: mockLabels},
metadata: {labels: mockLabels, name: 'nginx-service-green'}
})
)
let value = await promoteBlueGreenService(kubectl, testObjects)
expect(value.objects).toHaveLength(1)
expect(
value.objects[0].metadata.labels[bgHelper.BLUE_GREEN_VERSION_LABEL]
).toBe(bgHelper.NONE_LABEL_VALUE)
expect(value.objects[0].metadata.name).toBe('nginx-deployment')
})
test('fail to promote invalid blue/green service', async () => {
const mockLabels = new Map<string, string>()
mockLabels[bgHelper.BLUE_GREEN_VERSION_LABEL] = bgHelper.NONE_LABEL_VALUE
jest.spyOn(bgHelper, 'fetchResource').mockImplementation(() =>
Promise.resolve({
kind: 'Service',
spec: {},
metadata: {labels: mockLabels, name: 'nginx-ingress-green'}
})
)
jest
.spyOn(servicesTester, 'validateServicesState')
.mockImplementationOnce(() => Promise.resolve(false))
await expect(
promoteBlueGreenService(kubectl, testObjects)
).rejects.toThrowError()
})
test('promote blue/green SMI', async () => {
const mockLabels = new Map<string, string>()
mockLabels[bgHelper.BLUE_GREEN_VERSION_LABEL] = bgHelper.NONE_LABEL_VALUE
const mockTsObject: TrafficSplitObject = {
apiVersion: 'v1alpha3',
kind: TRAFFIC_SPLIT_OBJECT,
metadata: {
name: 'nginx-service-trafficsplit',
labels: new Map<string, string>(),
annotations: new Map<string, string>()
},
spec: {
service: 'nginx-service',
backends: [
{
service: 'nginx-service-stable',
weight: MIN_VAL
},
{
service: 'nginx-service-green',
weight: MAX_VAL
}
]
}
}
jest
.spyOn(bgHelper, 'fetchResource')
.mockImplementation(() => Promise.resolve(mockTsObject))
const deployResult = await promoteBlueGreenSMI(kubectl, testObjects)
expect(deployResult.objects).toHaveLength(1)
expect(deployResult.objects[0].metadata.name).toBe('nginx-deployment')
expect(
deployResult.objects[0].metadata.labels[
bgHelper.BLUE_GREEN_VERSION_LABEL
]
).toBe(bgHelper.NONE_LABEL_VALUE)
})
test('promote blue/green SMI with bad trafficsplit', async () => {
const mockLabels = new Map<string, string>()
mockLabels[bgHelper.BLUE_GREEN_VERSION_LABEL] = bgHelper.NONE_LABEL_VALUE
jest
.spyOn(smiTester, 'validateTrafficSplitsState')
.mockImplementation(() => Promise.resolve(false))
expect(promoteBlueGreenSMI(kubectl, testObjects)).rejects.toThrowError()
})
})
src/strategyHelpers/blueGreen/promote.ts
-81
View File
@@ -1,81 +0,0 @@
import * as core from '@actions/core'
import {Kubectl} from '../../types/kubectl'
import {BlueGreenDeployment} from '../../types/blueGreenTypes'
import {deployWithLabel, NONE_LABEL_VALUE} from './blueGreenHelper'
import {validateIngresses} from './ingressBlueGreenHelper'
import {validateServicesState} from './serviceBlueGreenHelper'
import {validateTrafficSplitsState} from './smiBlueGreenHelper'
export async function promoteBlueGreenIngress(
kubectl: Kubectl,
manifestObjects
): Promise<BlueGreenDeployment> {
//checking if anything to promote
const {areValid, invalidIngresses} = await validateIngresses(
kubectl,
manifestObjects.ingressEntityList,
manifestObjects.serviceNameMap
)
if (!areValid) {
throw new Error(
`Ingresses are not in promote state: ${invalidIngresses.toString()}`
)
}
// create stable deployments with new configuration
const result: BlueGreenDeployment = await deployWithLabel(
kubectl,
[].concat(
manifestObjects.deploymentEntityList,
manifestObjects.serviceEntityList
),
NONE_LABEL_VALUE
)
// create stable services with new configuration
return result
}
export async function promoteBlueGreenService(
kubectl: Kubectl,
manifestObjects
): Promise<BlueGreenDeployment> {
// checking if services are in the right state ie. targeting green deployments
if (
!(await validateServicesState(kubectl, manifestObjects.serviceEntityList))
) {
throw new Error('Found services not in promote state')
}
// creating stable deployments with new configurations
return await deployWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
NONE_LABEL_VALUE
)
}
export async function promoteBlueGreenSMI(
kubectl: Kubectl,
manifestObjects
): Promise<BlueGreenDeployment> {
// checking if there is something to promote
if (
!(await validateTrafficSplitsState(
kubectl,
manifestObjects.serviceEntityList
))
) {
throw Error('Not in promote state SMI')
}
// create stable deployments with new configuration
return await deployWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
NONE_LABEL_VALUE
)
}
src/strategyHelpers/blueGreen/reject.test.ts
-66
View File
@@ -1,66 +0,0 @@
import {getManifestObjects} from './blueGreenHelper'
import {Kubectl} from '../../types/kubectl'
import {BlueGreenRejectResult} from '../../types/blueGreenTypes'
import * as TSutils from '../../utilities/trafficSplitUtils'
import {
rejectBlueGreenIngress,
rejectBlueGreenService,
rejectBlueGreenSMI
} from './reject'
const ingressFilepath = ['test/unit/manifests/test-ingress-new.yml']
const kubectl = new Kubectl('')
jest.mock('../../types/kubectl')
describe('reject tests', () => {
let testObjects
beforeEach(() => {
//@ts-ignore
Kubectl.mockClear()
testObjects = getManifestObjects(ingressFilepath)
})
test('reject blue/green ingress', async () => {
const value = await rejectBlueGreenIngress(kubectl, testObjects)
const bgDeployment = value.routeResult
const deleteResult = value.deleteResult
expect(deleteResult).toHaveLength(2)
for (const obj of deleteResult) {
if (obj.kind == 'Service') {
expect(obj.name).toBe('nginx-service-green')
}
if (obj.kind == 'Deployment') {
expect(obj.name).toBe('nginx-deployment-green')
}
}
expect(bgDeployment.objects).toHaveLength(1)
expect(bgDeployment.objects[0].metadata.name).toBe('nginx-ingress')
})
test('reject blue/green service', async () => {
const value = await rejectBlueGreenService(kubectl, testObjects)
const bgDeployment = value.routeResult
const deleteResult = value.deleteResult
expect(deleteResult).toHaveLength(1)
expect(deleteResult[0].name).toBe('nginx-deployment-green')
expect(bgDeployment.objects).toHaveLength(1)
expect(bgDeployment.objects[0].metadata.name).toBe('nginx-service')
})
test('reject blue/green SMI', async () => {
jest
.spyOn(TSutils, 'getTrafficSplitAPIVersion')
.mockImplementation(() => Promise.resolve('v1alpha3'))
const rejectResult = await rejectBlueGreenSMI(kubectl, testObjects)
expect(rejectResult.deleteResult).toHaveLength(4)
})
})
src/strategyHelpers/blueGreen/reject.ts
-81
View File
@@ -1,81 +0,0 @@
import {K8sDeleteObject} from '../../types/k8sObject'
import {Kubectl} from '../../types/kubectl'
import {
BlueGreenDeployment,
BlueGreenManifests,
BlueGreenRejectResult
} from '../../types/blueGreenTypes'
import {deleteGreenObjects, NONE_LABEL_VALUE} from './blueGreenHelper'
import {routeBlueGreenSMI} from './route'
import {cleanupSMI} from './smiBlueGreenHelper'
import {routeBlueGreenIngressUnchanged, routeBlueGreenService} from './route'
export async function rejectBlueGreenIngress(
kubectl: Kubectl,
manifestObjects: BlueGreenManifests
): Promise<BlueGreenRejectResult> {
// get all kubernetes objects defined in manifest files
// route ingress to stables services
const routeResult = await routeBlueGreenIngressUnchanged(
kubectl,
manifestObjects.serviceNameMap,
manifestObjects.ingressEntityList
)
// delete green services and deployments
const deleteResult = await deleteGreenObjects(
kubectl,
[].concat(
manifestObjects.deploymentEntityList,
manifestObjects.serviceEntityList
)
)
return {routeResult, deleteResult}
}
export async function rejectBlueGreenService(
kubectl: Kubectl,
manifestObjects: BlueGreenManifests
): Promise<BlueGreenRejectResult> {
// route to stable objects
const routeResult = await routeBlueGreenService(
kubectl,
NONE_LABEL_VALUE,
manifestObjects.serviceEntityList
)
// delete new deployments with green suffix
const deleteResult = await deleteGreenObjects(
kubectl,
manifestObjects.deploymentEntityList
)
return {routeResult, deleteResult}
}
export async function rejectBlueGreenSMI(
kubectl: Kubectl,
manifestObjects: BlueGreenManifests
): Promise<BlueGreenRejectResult> {
// route trafficsplit to stable deployments
const routeResult = await routeBlueGreenSMI(
kubectl,
NONE_LABEL_VALUE,
manifestObjects.serviceEntityList
)
// delete rejected new bluegreen deployments
const deletedObjects = await deleteGreenObjects(
kubectl,
manifestObjects.deploymentEntityList
)
// delete trafficsplit and extra services
const cleanupResult = await cleanupSMI(
kubectl,
manifestObjects.serviceEntityList
)
return {routeResult, deleteResult: [].concat(deletedObjects, cleanupResult)}
}
src/strategyHelpers/blueGreen/route.test.ts
-119
View File
@@ -1,119 +0,0 @@
import * as core from '@actions/core'
import {K8sIngress, TrafficSplitObject} from '../../types/k8sObject'
import {Kubectl} from '../../types/kubectl'
import * as fileHelper from '../../utilities/fileUtils'
import * as TSutils from '../../utilities/trafficSplitUtils'
import {RouteStrategy} from '../../types/routeStrategy'
import {getBufferTime} from '../../inputUtils'
import * as inputUtils from '../../inputUtils'
import {BlueGreenManifests} from '../../types/blueGreenTypes'
import {
BLUE_GREEN_VERSION_LABEL,
getManifestObjects,
GREEN_LABEL_VALUE
} from './blueGreenHelper'
import {
routeBlueGreenIngress,
routeBlueGreenService,
routeBlueGreenForDeploy
} from './route'
jest.mock('../../types/kubectl')
const ingressFilepath = ['test/unit/manifests/test-ingress-new.yml']
const kc = new Kubectl('')
describe('route function tests', () => {
let testObjects: BlueGreenManifests
beforeEach(() => {
//@ts-ignore
Kubectl.mockClear()
testObjects = getManifestObjects(ingressFilepath)
jest
.spyOn(fileHelper, 'writeObjectsToFile')
.mockImplementationOnce(() => [''])
})
test('correctly prepares blue/green ingresses for deployment', async () => {
const unroutedIngCopy: K8sIngress = JSON.parse(
JSON.stringify(testObjects.ingressEntityList[0])
)
unroutedIngCopy.metadata.name = 'nginx-ingress-unrouted'
unroutedIngCopy.spec.rules[0].http.paths[0].backend.service.name =
'fake-service'
testObjects.ingressEntityList.push(unroutedIngCopy)
const value = await routeBlueGreenIngress(
kc,
testObjects.serviceNameMap,
testObjects.ingressEntityList
)
expect(value.objects).toHaveLength(2)
expect(value.objects[0].metadata.name).toBe('nginx-ingress')
expect(
(value.objects[0] as K8sIngress).spec.rules[0].http.paths[0].backend
.service.name
).toBe('nginx-service-green')
expect(value.objects[1].metadata.name).toBe('nginx-ingress-unrouted')
// unrouted services shouldn't get their service name changed
expect(
(value.objects[1] as K8sIngress).spec.rules[0].http.paths[0].backend
.service.name
).toBe('fake-service')
})
test('correctly prepares blue/green services for deployment', async () => {
const value = await routeBlueGreenService(
kc,
GREEN_LABEL_VALUE,
testObjects.serviceEntityList
)
expect(value.objects).toHaveLength(1)
expect(value.objects[0].metadata.name).toBe('nginx-service')
expect(value.objects[0].metadata.labels[BLUE_GREEN_VERSION_LABEL]).toBe(
GREEN_LABEL_VALUE
)
})
test('correctly identifies route pattern and acts accordingly', async () => {
jest
.spyOn(TSutils, 'getTrafficSplitAPIVersion')
.mockImplementation(() => Promise.resolve('v1alpha3'))
const ingressResult = await routeBlueGreenForDeploy(
kc,
ingressFilepath,
RouteStrategy.INGRESS
)
expect(ingressResult.objects.length).toBe(1)
expect(ingressResult.objects[0].metadata.name).toBe('nginx-ingress')
const serviceResult = await routeBlueGreenForDeploy(
kc,
ingressFilepath,
RouteStrategy.SERVICE
)
expect(serviceResult.objects.length).toBe(1)
expect(serviceResult.objects[0].metadata.name).toBe('nginx-service')
const smiResult = await routeBlueGreenForDeploy(
kc,
ingressFilepath,
RouteStrategy.SMI
)
expect(smiResult.objects).toHaveLength(1)
expect(smiResult.objects[0].metadata.name).toBe(
'nginx-service-trafficsplit'
)
expect(
(smiResult.objects as TrafficSplitObject[])[0].spec.backends
).toHaveLength(2)
})
})
src/strategyHelpers/blueGreen/route.ts
-141
View File
@@ -1,141 +0,0 @@
import {sleep} from '../../utilities/timeUtils'
import {RouteStrategy} from '../../types/routeStrategy'
import {Kubectl} from '../../types/kubectl'
import {
BlueGreenDeployment,
BlueGreenManifests
} from '../../types/blueGreenTypes'
import {
getManifestObjects,
GREEN_LABEL_VALUE,
deployObjects
} from './blueGreenHelper'
import {
getUpdatedBlueGreenIngress,
isIngressRouted
} from './ingressBlueGreenHelper'
import {getUpdatedBlueGreenService} from './serviceBlueGreenHelper'
import {createTrafficSplitObject} from './smiBlueGreenHelper'
import * as core from '@actions/core'
import {K8sObject, TrafficSplitObject} from '../../types/k8sObject'
import {getBufferTime} from '../../inputUtils'
export async function routeBlueGreenForDeploy(
kubectl: Kubectl,
inputManifestFiles: string[],
routeStrategy: RouteStrategy
): Promise<BlueGreenDeployment> {
// sleep for buffer time
const bufferTime: number = getBufferTime()
const startSleepDate = new Date()
core.info(
`Starting buffer time of ${bufferTime} minute(s) at ${startSleepDate.toISOString()}`
)
await sleep(bufferTime * 1000 * 60)
const endSleepDate = new Date()
core.info(
`Stopping buffer time of ${bufferTime} minute(s) at ${endSleepDate.toISOString()}`
)
const manifestObjects: BlueGreenManifests =
getManifestObjects(inputManifestFiles)
// route to new deployments
if (routeStrategy == RouteStrategy.INGRESS) {
return await routeBlueGreenIngress(
kubectl,
manifestObjects.serviceNameMap,
manifestObjects.ingressEntityList
)
} else if (routeStrategy == RouteStrategy.SMI) {
return await routeBlueGreenSMI(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.serviceEntityList
)
} else {
return await routeBlueGreenService(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.serviceEntityList
)
}
}
export async function routeBlueGreenIngress(
kubectl: Kubectl,
serviceNameMap: Map<string, string>,
ingressEntityList: any[]
): Promise<BlueGreenDeployment> {
// const newObjectsList = []
const newObjectsList: K8sObject[] = ingressEntityList.map((obj) => {
if (isIngressRouted(obj, serviceNameMap)) {
const newBlueGreenIngressObject = getUpdatedBlueGreenIngress(
obj,
serviceNameMap,
GREEN_LABEL_VALUE
)
return newBlueGreenIngressObject
} else {
core.debug(`unrouted ingress detected ${obj.metadata.name}`)
return obj
}
})
const deployResult = await deployObjects(kubectl, newObjectsList)
return {deployResult, objects: newObjectsList}
}
export async function routeBlueGreenIngressUnchanged(
kubectl: Kubectl,
serviceNameMap: Map<string, string>,
ingressEntityList: any[]
): Promise<BlueGreenDeployment> {
const objects = ingressEntityList.filter((ingress) =>
isIngressRouted(ingress, serviceNameMap)
)
const deployResult = await deployObjects(kubectl, objects)
return {deployResult, objects}
}
export async function routeBlueGreenService(
kubectl: Kubectl,
nextLabel: string,
serviceEntityList: any[]
): Promise<BlueGreenDeployment> {
const objects = serviceEntityList.map((serviceObject) =>
getUpdatedBlueGreenService(serviceObject, nextLabel)
)
const deployResult = await deployObjects(kubectl, objects)
return {deployResult, objects}
}
export async function routeBlueGreenSMI(
kubectl: Kubectl,
nextLabel: string,
serviceEntityList: any[]
): Promise<BlueGreenDeployment> {
// let tsObjects: TrafficSplitObject[] = []
const tsObjects: TrafficSplitObject[] = await Promise.all(
serviceEntityList.map(async (serviceObject) => {
const tsObject: TrafficSplitObject = await createTrafficSplitObject(
kubectl,
serviceObject.metadata.name,
nextLabel
)
return tsObject
})
)
const deployResult = await deployObjects(kubectl, tsObjects)
return {deployResult, objects: tsObjects}
}
src/strategyHelpers/blueGreen/serviceBlueGreenHelper.test.ts
-65
View File
@@ -1,65 +0,0 @@
import * as core from '@actions/core'
import {
BLUE_GREEN_VERSION_LABEL,
getManifestObjects,
GREEN_LABEL_VALUE
} from './blueGreenHelper'
import * as bgHelper from './blueGreenHelper'
import {Kubectl} from '../../types/kubectl'
import {
getServiceSpecLabel,
getUpdatedBlueGreenService,
validateServicesState
} from './serviceBlueGreenHelper'
let testObjects
const ingressFilepath = ['test/unit/manifests/test-ingress-new.yml']
jest.mock('../../types/kubectl')
const kubectl = new Kubectl('')
describe('blue/green service helper tests', () => {
beforeEach(() => {
//@ts-ignore
Kubectl.mockClear()
testObjects = getManifestObjects(ingressFilepath)
})
test('getUpdatedBlueGreenService', () => {
const newService = getUpdatedBlueGreenService(
testObjects.serviceEntityList[0],
GREEN_LABEL_VALUE
)
expect(newService.metadata.labels[BLUE_GREEN_VERSION_LABEL]).toBe(
GREEN_LABEL_VALUE
)
expect(newService.spec.selector[BLUE_GREEN_VERSION_LABEL]).toBe(
GREEN_LABEL_VALUE
)
})
test('validateServicesState', async () => {
const mockLabels = new Map<string, string>()
mockLabels[BLUE_GREEN_VERSION_LABEL] = bgHelper.GREEN_LABEL_VALUE
const mockSelectors = new Map<string, string>()
mockSelectors[BLUE_GREEN_VERSION_LABEL] = GREEN_LABEL_VALUE
jest.spyOn(bgHelper, 'fetchResource').mockImplementation(() =>
Promise.resolve({
kind: 'Service',
spec: {selector: mockSelectors},
metadata: {labels: mockLabels, name: 'nginx-service-green'}
})
)
expect(
await validateServicesState(kubectl, testObjects.serviceEntityList)
).toBe(true)
})
test('getServiceSpecLabel', () => {
testObjects.serviceEntityList[0].spec.selector[BLUE_GREEN_VERSION_LABEL] =
GREEN_LABEL_VALUE
expect(getServiceSpecLabel(testObjects.serviceEntityList[0])).toBe(
GREEN_LABEL_VALUE
)
})
})
src/strategyHelpers/blueGreen/serviceBlueGreenHelper.ts
+116 -19
View File
@@ -1,30 +1,118 @@
import * as core from '@actions/core'
import {K8sServiceObject} from '../../types/k8sObject'
import {Kubectl} from '../../types/kubectl'
import { Kubectl } from "../../types/kubectl";
import * as fileHelper from "../../utilities/fileUtils";
import {
addBlueGreenLabelsAndAnnotations,
BLUE_GREEN_VERSION_LABEL,
BlueGreenManifests,
createWorkloadsWithLabel,
deleteWorkloadsWithLabel,
fetchResource,
getManifestObjects,
GREEN_LABEL_VALUE,
NONE_LABEL_VALUE,
} from "./blueGreenHelper";
export async function deployBlueGreenService(
kubectl: Kubectl,
filePaths: string[]
) {
const manifestObjects: BlueGreenManifests = getManifestObjects(filePaths);
// create deployments with green label value
const result = await createWorkloadsWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
GREEN_LABEL_VALUE
} from './blueGreenHelper'
);
// create other non deployment and non service entities
const newObjectsList = manifestObjects.otherObjects
.concat(manifestObjects.ingressEntityList)
.concat(manifestObjects.unroutedServiceEntityList);
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
if (manifestFiles.length > 0) await kubectl.apply(manifestFiles);
// returning deployment details to check for rollout stability
return result;
}
export async function promoteBlueGreenService(
kubectl: Kubectl,
manifestObjects
) {
// checking if services are in the right state ie. targeting green deployments
if (
!(await validateServicesState(kubectl, manifestObjects.serviceEntityList))
) {
throw "Not inP promote state";
}
// creating stable deployments with new configurations
return await createWorkloadsWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
NONE_LABEL_VALUE
);
}
export async function rejectBlueGreenService(
kubectl: Kubectl,
filePaths: string[]
) {
// get all kubernetes objects defined in manifest files
const manifestObjects: BlueGreenManifests = getManifestObjects(filePaths);
// route to stable objects
await routeBlueGreenService(
kubectl,
NONE_LABEL_VALUE,
manifestObjects.serviceEntityList
);
// delete new deployments with green suffix
await deleteWorkloadsWithLabel(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.deploymentEntityList
);
}
export async function routeBlueGreenService(
kubectl: Kubectl,
nextLabel: string,
serviceEntityList: any[]
) {
const newObjectsList = [];
serviceEntityList.forEach((serviceObject) => {
const newBlueGreenServiceObject = getUpdatedBlueGreenService(
serviceObject,
nextLabel
);
newObjectsList.push(newBlueGreenServiceObject);
});
// configures the services
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
await kubectl.apply(manifestFiles);
}
// add green labels to configure existing service
export function getUpdatedBlueGreenService(
function getUpdatedBlueGreenService(
inputObject: any,
labelValue: string
): K8sServiceObject {
const newObject = JSON.parse(JSON.stringify(inputObject))
): object {
const newObject = JSON.parse(JSON.stringify(inputObject));
// Adding labels and annotations.
addBlueGreenLabelsAndAnnotations(newObject, labelValue)
return newObject
addBlueGreenLabelsAndAnnotations(newObject, labelValue);
return newObject;
}
export async function validateServicesState(
kubectl: Kubectl,
serviceEntityList: any[]
): Promise<boolean> {
let areServicesGreen: boolean = true
let areServicesGreen: boolean = true;
for (const serviceObject of serviceEntityList) {
// finding the existing routed service
@@ -32,18 +120,27 @@ export async function validateServicesState(
kubectl,
serviceObject.kind,
serviceObject.metadata.name
)
);
let isServiceGreen =
!!existingService &&
getServiceSpecLabel(existingService as K8sServiceObject) ==
GREEN_LABEL_VALUE
areServicesGreen = areServicesGreen && isServiceGreen
if (!!existingService) {
const currentLabel: string = getServiceSpecLabel(existingService);
if (currentLabel != GREEN_LABEL_VALUE) {
// service should be targeting deployments with green label
areServicesGreen = false;
}
} else {
// service targeting deployment doesn't exist
areServicesGreen = false;
}
}
return areServicesGreen
return areServicesGreen;
}
export function getServiceSpecLabel(inputObject: K8sServiceObject): string {
return inputObject.spec.selector[BLUE_GREEN_VERSION_LABEL]
export function getServiceSpecLabel(inputObject: any): string {
if (inputObject?.spec?.selector[BLUE_GREEN_VERSION_LABEL]) {
return inputObject.spec.selector[BLUE_GREEN_VERSION_LABEL];
}
return "";
}
src/strategyHelpers/blueGreen/smiBlueGreenHelper.test.ts
-203
View File
@@ -1,203 +0,0 @@
import * as core from '@actions/core'
import {TrafficSplitObject} from '../../types/k8sObject'
import {Kubectl} from '../../types/kubectl'
import * as fileHelper from '../../utilities/fileUtils'
import * as TSutils from '../../utilities/trafficSplitUtils'
import {BlueGreenManifests} from '../../types/blueGreenTypes'
import {
BLUE_GREEN_VERSION_LABEL,
getManifestObjects,
GREEN_LABEL_VALUE,
NONE_LABEL_VALUE
} from './blueGreenHelper'
import {
cleanupSMI,
createTrafficSplitObject,
getGreenSMIServiceResource,
getStableSMIServiceResource,
MAX_VAL,
MIN_VAL,
setupSMI,
TRAFFIC_SPLIT_OBJECT,
TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX,
validateTrafficSplitsState
} from './smiBlueGreenHelper'
import * as bgHelper from './blueGreenHelper'
jest.mock('../../types/kubectl')
const kc = new Kubectl('')
const ingressFilepath = ['test/unit/manifests/test-ingress-new.yml']
const mockTsObject: TrafficSplitObject = {
apiVersion: 'v1alpha3',
kind: TRAFFIC_SPLIT_OBJECT,
metadata: {
name: 'nginx-service-trafficsplit',
labels: new Map<string, string>(),
annotations: new Map<string, string>()
},
spec: {
service: 'nginx-service',
backends: [
{
service: 'nginx-service-stable',
weight: MIN_VAL
},
{
service: 'nginx-service-green',
weight: MAX_VAL
}
]
}
}
describe('SMI Helper tests', () => {
let testObjects: BlueGreenManifests
beforeEach(() => {
//@ts-ignore
Kubectl.mockClear()
jest
.spyOn(TSutils, 'getTrafficSplitAPIVersion')
.mockImplementation(() => Promise.resolve(''))
testObjects = getManifestObjects(ingressFilepath)
jest
.spyOn(fileHelper, 'writeObjectsToFile')
.mockImplementationOnce(() => [''])
})
test('setupSMI tests', async () => {
const smiResults = await setupSMI(kc, testObjects.serviceEntityList)
let found = 0
for (const obj of smiResults.objects) {
if (obj.metadata.name === 'nginx-service-stable') {
expect(obj.metadata.labels[BLUE_GREEN_VERSION_LABEL]).toBe(
NONE_LABEL_VALUE
)
expect(obj.spec.selector.app).toBe('nginx')
found++
}
if (obj.metadata.name === 'nginx-service-green') {
expect(obj.metadata.labels[BLUE_GREEN_VERSION_LABEL]).toBe(
GREEN_LABEL_VALUE
)
found++
}
if (obj.metadata.name === 'nginx-service-trafficsplit') {
found++
// expect stable weight to be max val
const casted = obj as TrafficSplitObject
expect(casted.spec.backends).toHaveLength(2)
for (const be of casted.spec.backends) {
if (be.service === 'nginx-service-stable') {
expect(be.weight).toBe(MAX_VAL)
}
if (be.service === 'nginx-service-green') {
expect(be.weight).toBe(MIN_VAL)
}
}
}
}
expect(found).toBe(3)
})
test('createTrafficSplitObject tests', async () => {
const noneTsObject: TrafficSplitObject = await createTrafficSplitObject(
kc,
testObjects.serviceEntityList[0].metadata.name,
NONE_LABEL_VALUE
)
expect(noneTsObject.metadata.name).toBe('nginx-service-trafficsplit')
for (let be of noneTsObject.spec.backends) {
if (be.service === 'nginx-service-stable') {
expect(be.weight).toBe(MAX_VAL)
}
if (be.service === 'nginx-service-green') {
expect(be.weight).toBe(MIN_VAL)
}
}
const greenTsObject: TrafficSplitObject = await createTrafficSplitObject(
kc,
testObjects.serviceEntityList[0].metadata.name,
GREEN_LABEL_VALUE
)
expect(greenTsObject.metadata.name).toBe('nginx-service-trafficsplit')
for (const be of greenTsObject.spec.backends) {
if (be.service === 'nginx-service-stable') {
expect(be.weight).toBe(MIN_VAL)
}
if (be.service === 'nginx-service-green') {
expect(be.weight).toBe(MAX_VAL)
}
}
})
test('getSMIServiceResource test', () => {
const stableResult = getStableSMIServiceResource(
testObjects.serviceEntityList[0]
)
const greenResult = getGreenSMIServiceResource(
testObjects.serviceEntityList[0]
)
expect(stableResult.metadata.name).toBe('nginx-service-stable')
expect(stableResult.metadata.labels[BLUE_GREEN_VERSION_LABEL]).toBe(
NONE_LABEL_VALUE
)
expect(greenResult.metadata.name).toBe('nginx-service-green')
expect(greenResult.metadata.labels[BLUE_GREEN_VERSION_LABEL]).toBe(
GREEN_LABEL_VALUE
)
})
test('validateTrafficSplitsState', async () => {
jest
.spyOn(bgHelper, 'fetchResource')
.mockImplementation(() => Promise.resolve(mockTsObject))
let valResult = await validateTrafficSplitsState(
kc,
testObjects.serviceEntityList
)
expect(valResult).toBe(true)
const mockTsCopy = JSON.parse(JSON.stringify(mockTsObject))
mockTsCopy.spec.backends[0].weight = MAX_VAL
jest
.spyOn(bgHelper, 'fetchResource')
.mockImplementation(() => Promise.resolve(mockTsCopy))
valResult = await validateTrafficSplitsState(
kc,
testObjects.serviceEntityList
)
expect(valResult).toBe(false)
jest.spyOn(bgHelper, 'fetchResource').mockImplementation()
valResult = await validateTrafficSplitsState(
kc,
testObjects.serviceEntityList
)
expect(valResult).toBe(false)
})
test('cleanupSMI test', async () => {
const deleteObjects = await cleanupSMI(kc, testObjects.serviceEntityList)
expect(deleteObjects).toHaveLength(3)
expect(deleteObjects[0].name).toBe('nginx-service-trafficsplit')
expect(deleteObjects[1].name).toBe('nginx-service-green')
expect(deleteObjects[1].kind).toBe('Service')
expect(deleteObjects[2].name).toBe('nginx-service-stable')
expect(deleteObjects[2].kind).toBe('Service')
})
})
src/strategyHelpers/blueGreen/smiBlueGreenHelper.ts
+176 -114
View File
@@ -1,181 +1,248 @@
import * as core from '@actions/core'
import {Kubectl} from '../../types/kubectl'
import * as kubectlUtils from '../../utilities/trafficSplitUtils'
import { Kubectl } from "../../types/kubectl";
import * as kubectlUtils from "../../utilities/trafficSplitUtils";
import * as fileHelper from "../../utilities/fileUtils";
import {
BlueGreenManifests,
createWorkloadsWithLabel,
deleteObjects,
deployObjects,
deleteWorkloadsWithLabel,
fetchResource,
getBlueGreenResourceName,
getManifestObjects,
getNewBlueGreenObject,
GREEN_LABEL_VALUE,
GREEN_SUFFIX,
NONE_LABEL_VALUE,
STABLE_SUFFIX
} from './blueGreenHelper'
import {BlueGreenDeployment} from '../../types/blueGreenTypes'
import {
K8sDeleteObject,
K8sObject,
TrafficSplitObject
} from '../../types/k8sObject'
import {DeployResult} from '../../types/deployResult'
import {inputAnnotations} from '../../inputUtils'
STABLE_SUFFIX,
} from "./blueGreenHelper";
export const TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX = '-trafficsplit'
export const TRAFFIC_SPLIT_OBJECT = 'TrafficSplit'
export const MIN_VAL = 0
export const MAX_VAL = 100
const TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX = "-trafficsplit";
const TRAFFIC_SPLIT_OBJECT = "TrafficSplit";
const MIN_VAL = 0;
const MAX_VAL = 100;
export async function setupSMI(
export async function deployBlueGreenSMI(
kubectl: Kubectl,
serviceEntityList: any[]
): Promise<BlueGreenDeployment> {
const newObjectsList = []
const trafficObjectList = []
filePaths: string[]
) {
// get all kubernetes objects defined in manifest files
const manifestObjects: BlueGreenManifests = getManifestObjects(filePaths);
// create services and other objects
const newObjectsList = manifestObjects.otherObjects
.concat(manifestObjects.serviceEntityList)
.concat(manifestObjects.ingressEntityList)
.concat(manifestObjects.unroutedServiceEntityList);
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
await kubectl.apply(manifestFiles);
// make extraservices and trafficsplit
await setupSMI(kubectl, manifestObjects.serviceEntityList);
// create new deloyments
return await createWorkloadsWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
GREEN_LABEL_VALUE
);
}
export async function promoteBlueGreenSMI(kubectl: Kubectl, manifestObjects) {
// checking if there is something to promote
if (
!(await validateTrafficSplitsState(
kubectl,
manifestObjects.serviceEntityList
))
) {
throw Error("Not in promote state SMI");
}
// create stable deployments with new configuration
return await createWorkloadsWithLabel(
kubectl,
manifestObjects.deploymentEntityList,
NONE_LABEL_VALUE
);
}
export async function rejectBlueGreenSMI(
kubectl: Kubectl,
filePaths: string[]
) {
// get all kubernetes objects defined in manifest files
const manifestObjects: BlueGreenManifests = getManifestObjects(filePaths);
// route trafficsplit to stable deploymetns
await routeBlueGreenSMI(
kubectl,
NONE_LABEL_VALUE,
manifestObjects.serviceEntityList
);
// delete rejected new bluegreen deployments
await deleteWorkloadsWithLabel(
kubectl,
GREEN_LABEL_VALUE,
manifestObjects.deploymentEntityList
);
// delete trafficsplit and extra services
await cleanupSMI(kubectl, manifestObjects.serviceEntityList);
}
export async function setupSMI(kubectl: Kubectl, serviceEntityList: any[]) {
const newObjectsList = [];
const trafficObjectList = [];
serviceEntityList.forEach((serviceObject) => {
// create a trafficsplit for service
trafficObjectList.push(serviceObject)
trafficObjectList.push(serviceObject);
// set up the services for trafficsplit
const newStableService = getStableSMIServiceResource(serviceObject)
const newGreenService = getGreenSMIServiceResource(serviceObject)
newObjectsList.push(newStableService)
newObjectsList.push(newGreenService)
})
const tsObjects: TrafficSplitObject[] = []
// route to stable service
for (const svc of trafficObjectList) {
const tsObject = await createTrafficSplitObject(
kubectl,
svc.metadata.name,
NONE_LABEL_VALUE
)
tsObjects.push(tsObject as TrafficSplitObject)
}
const objectsToDeploy = [].concat(newObjectsList, tsObjects)
const newStableService = getSMIServiceResource(
serviceObject,
STABLE_SUFFIX
);
const newGreenService = getSMIServiceResource(serviceObject, GREEN_SUFFIX);
newObjectsList.push(newStableService);
newObjectsList.push(newGreenService);
});
// create services
const smiDeploymentResult: DeployResult = await deployObjects(
kubectl,
objectsToDeploy
)
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
await kubectl.apply(manifestFiles);
return {
objects: objectsToDeploy,
deployResult: smiDeploymentResult
}
// route to stable service
trafficObjectList.forEach((inputObject) => {
createTrafficSplitObject(
kubectl,
inputObject.metadata.name,
NONE_LABEL_VALUE
);
});
}
let trafficSplitAPIVersion = ''
let trafficSplitAPIVersion = "";
export async function createTrafficSplitObject(
async function createTrafficSplitObject(
kubectl: Kubectl,
name: string,
nextLabel: string
): Promise<TrafficSplitObject> {
): Promise<any> {
// cache traffic split api version
if (!trafficSplitAPIVersion)
trafficSplitAPIVersion = await kubectlUtils.getTrafficSplitAPIVersion(
kubectl
)
// retrieve annotations for TS object
const annotations = inputAnnotations
);
// decide weights based on nextlabel
const stableWeight: number =
nextLabel === GREEN_LABEL_VALUE ? MIN_VAL : MAX_VAL
nextLabel === GREEN_LABEL_VALUE ? MIN_VAL : MAX_VAL;
const greenWeight: number =
nextLabel === GREEN_LABEL_VALUE ? MAX_VAL : MIN_VAL
nextLabel === GREEN_LABEL_VALUE ? MAX_VAL : MIN_VAL;
const trafficSplitObject: TrafficSplitObject = {
const trafficSplitObject = JSON.stringify({
apiVersion: trafficSplitAPIVersion,
kind: TRAFFIC_SPLIT_OBJECT,
kind: "TrafficSplit",
metadata: {
name: getBlueGreenResourceName(name, TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX),
annotations: annotations,
labels: new Map<string, string>()
},
spec: {
service: name,
backends: [
{
service: getBlueGreenResourceName(name, STABLE_SUFFIX),
weight: stableWeight
weight: stableWeight,
},
{
service: getBlueGreenResourceName(name, GREEN_SUFFIX),
weight: greenWeight
}
]
}
}
weight: greenWeight,
},
],
},
});
return trafficSplitObject
// create traffic split object
const trafficSplitManifestFile = fileHelper.writeManifestToFile(
trafficSplitObject,
TRAFFIC_SPLIT_OBJECT,
getBlueGreenResourceName(name, TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX)
);
await kubectl.apply(trafficSplitManifestFile);
}
export function getStableSMIServiceResource(inputObject: K8sObject): K8sObject {
const newObject = JSON.parse(JSON.stringify(inputObject))
export function getSMIServiceResource(
inputObject: any,
suffix: string
): object {
const newObject = JSON.parse(JSON.stringify(inputObject));
if (suffix === STABLE_SUFFIX) {
// adding stable suffix to service name
newObject.metadata.name = getBlueGreenResourceName(
inputObject.metadata.name,
STABLE_SUFFIX
)
return getNewBlueGreenObject(newObject, NONE_LABEL_VALUE)
);
return getNewBlueGreenObject(newObject, NONE_LABEL_VALUE);
} else {
// green label will be added for these
return getNewBlueGreenObject(newObject, GREEN_LABEL_VALUE);
}
}
export function getGreenSMIServiceResource(inputObject: K8sObject): K8sObject {
const newObject = JSON.parse(JSON.stringify(inputObject))
return getNewBlueGreenObject(newObject, GREEN_LABEL_VALUE)
export async function routeBlueGreenSMI(
kubectl: Kubectl,
nextLabel: string,
serviceEntityList: any[]
) {
for (const serviceObject of serviceEntityList) {
// route trafficsplit to given label
await createTrafficSplitObject(
kubectl,
serviceObject.metadata.name,
nextLabel
);
}
}
export async function validateTrafficSplitsState(
kubectl: Kubectl,
serviceEntityList: any[]
): Promise<boolean> {
let trafficSplitsInRightState: boolean = true
let trafficSplitsInRightState: boolean = true;
for (const serviceObject of serviceEntityList) {
const name = serviceObject.metadata.name
const name = serviceObject.metadata.name;
let trafficSplitObject = await fetchResource(
kubectl,
TRAFFIC_SPLIT_OBJECT,
getBlueGreenResourceName(name, TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX)
)
core.debug(
`ts object extracted was ${JSON.stringify(trafficSplitObject)}`
)
);
if (!trafficSplitObject) {
core.debug(`no traffic split exits for ${name}`)
trafficSplitsInRightState = false
continue
// no traffic split exits
trafficSplitsInRightState = false;
}
trafficSplitObject = JSON.parse(JSON.stringify(trafficSplitObject));
trafficSplitObject.spec.backends.forEach((element) => {
// checking if trafficsplit in right state to deploy
if (element.service === getBlueGreenResourceName(name, GREEN_SUFFIX)) {
trafficSplitsInRightState =
trafficSplitsInRightState && element.weight == MAX_VAL
if (element.weight != MAX_VAL) trafficSplitsInRightState = false;
}
if (
element.service === getBlueGreenResourceName(name, STABLE_SUFFIX)
) {
trafficSplitsInRightState =
trafficSplitsInRightState && element.weight == MIN_VAL
if (element.service === getBlueGreenResourceName(name, STABLE_SUFFIX)) {
if (element.weight != MIN_VAL) trafficSplitsInRightState = false;
}
})
});
}
return trafficSplitsInRightState
return trafficSplitsInRightState;
}
export async function cleanupSMI(
kubectl: Kubectl,
serviceEntityList: any[]
): Promise<K8sDeleteObject[]> {
const deleteList: K8sDeleteObject[] = []
export async function cleanupSMI(kubectl: Kubectl, serviceEntityList: any[]) {
const deleteList = [];
serviceEntityList.forEach((serviceObject) => {
deleteList.push({
@@ -183,28 +250,23 @@ export async function cleanupSMI(
serviceObject.metadata.name,
TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX
),
kind: TRAFFIC_SPLIT_OBJECT
})
kind: TRAFFIC_SPLIT_OBJECT,
});
deleteList.push({
name: getBlueGreenResourceName(
serviceObject.metadata.name,
GREEN_SUFFIX
),
kind: serviceObject.kind
})
name: getBlueGreenResourceName(serviceObject.metadata.name, GREEN_SUFFIX),
kind: serviceObject.kind,
});
deleteList.push({
name: getBlueGreenResourceName(
serviceObject.metadata.name,
STABLE_SUFFIX
),
kind: serviceObject.kind
})
})
kind: serviceObject.kind,
});
});
// delete all objects
await deleteObjects(kubectl, deleteList)
return deleteList
await deleteObjects(kubectl, deleteList);
}
src/strategyHelpers/canary/canaryHelper.ts
+65 -91
View File
@@ -1,29 +1,28 @@
import {Kubectl} from '../../types/kubectl'
import * as fs from 'fs'
import * as yaml from 'js-yaml'
import * as core from '@actions/core'
import {ExecOutput} from '@actions/exec'
import { Kubectl } from "../../types/kubectl";
import * as fs from "fs";
import * as yaml from "js-yaml";
import * as core from "@actions/core";
import {
isDeploymentEntity,
isServiceEntity,
KubernetesWorkload
} from '../../types/kubernetesTypes'
import * as utils from '../../utilities/manifestUpdateUtils'
KubernetesWorkload,
} from "../../types/kubernetesTypes";
import * as utils from "../../utilities/manifestUpdateUtils";
import {
updateObjectAnnotations,
updateObjectLabels,
updateSelectorLabels
} from '../../utilities/manifestUpdateUtils'
import {updateSpecLabels} from '../../utilities/manifestSpecLabelUtils'
import {checkForErrors} from '../../utilities/kubectlUtils'
updateSelectorLabels,
} from "../../utilities/manifestUpdateUtils";
import { updateSpecLabels } from "../../utilities/manifestSpecLabelUtils";
import { checkForErrors } from "../../utilities/kubectlUtils";
export const CANARY_VERSION_LABEL = 'workflow/version'
const BASELINE_SUFFIX = '-baseline'
export const BASELINE_LABEL_VALUE = 'baseline'
const CANARY_SUFFIX = '-canary'
export const CANARY_LABEL_VALUE = 'canary'
export const STABLE_SUFFIX = '-stable'
export const STABLE_LABEL_VALUE = 'stable'
export const CANARY_VERSION_LABEL = "workflow/version";
const BASELINE_SUFFIX = "-baseline";
export const BASELINE_LABEL_VALUE = "baseline";
const CANARY_SUFFIX = "-canary";
export const CANARY_LABEL_VALUE = "canary";
export const STABLE_SUFFIX = "-stable";
export const STABLE_LABEL_VALUE = "stable";
export async function deleteCanaryDeployment(
kubectl: Kubectl,
@@ -31,48 +30,48 @@ export async function deleteCanaryDeployment(
includeServices: boolean
) {
if (manifestFilePaths == null || manifestFilePaths.length == 0) {
throw new Error('Manifest files for deleting canary deployment not found')
throw new Error("Manifest file not found");
}
await cleanUpCanary(kubectl, manifestFilePaths, includeServices)
await cleanUpCanary(kubectl, manifestFilePaths, includeServices);
}
export function markResourceAsStable(inputObject: any): object {
if (isResourceMarkedAsStable(inputObject)) {
return inputObject
return inputObject;
}
const newObject = JSON.parse(JSON.stringify(inputObject))
addCanaryLabelsAndAnnotations(newObject, STABLE_LABEL_VALUE)
return newObject
const newObject = JSON.parse(JSON.stringify(inputObject));
addCanaryLabelsAndAnnotations(newObject, STABLE_LABEL_VALUE);
return newObject;
}
export function isResourceMarkedAsStable(inputObject: any): boolean {
return (
inputObject?.metadata?.labels[CANARY_VERSION_LABEL] === STABLE_LABEL_VALUE
)
);
}
export function getStableResource(inputObject: any): object {
const replicaCount = specContainsReplicas(inputObject.kind)
? inputObject.spec.replicas
: 0
? inputObject.metadata.replicas
: 0;
return getNewCanaryObject(inputObject, replicaCount, STABLE_LABEL_VALUE)
return getNewCanaryObject(inputObject, replicaCount, STABLE_LABEL_VALUE);
}
export function getNewBaselineResource(
stableObject: any,
replicas?: number
): object {
return getNewCanaryObject(stableObject, replicas, BASELINE_LABEL_VALUE)
return getNewCanaryObject(stableObject, replicas, BASELINE_LABEL_VALUE);
}
export function getNewCanaryResource(
inputObject: any,
replicas?: number
): object {
return getNewCanaryObject(inputObject, replicas, CANARY_LABEL_VALUE)
return getNewCanaryObject(inputObject, replicas, CANARY_LABEL_VALUE);
}
export async function fetchResource(
@@ -80,61 +79,36 @@ export async function fetchResource(
kind: string,
name: string
) {
let result: ExecOutput
try {
result = await kubectl.getResource(kind, name)
} catch (e) {
core.debug(`detected error while fetching resources: ${e}`)
}
const result = await kubectl.getResource(kind, name);
if (!result || result?.stderr) {
return null
return null;
}
if (result.stdout) {
const resource = JSON.parse(result.stdout)
const resource = JSON.parse(result.stdout);
try {
utils.UnsetClusterSpecificDetails(resource)
return resource
utils.UnsetClusterSpecificDetails(resource);
return resource;
} catch (ex) {
core.debug(
`Exception occurred while parsing ${resource} in JSON object: ${ex}`
)
`Exception occurred while Parsing ${resource} in JSON object: ${ex}`
);
}
}
}
export function getCanaryResourceName(name: string) {
return name + CANARY_SUFFIX
return name + CANARY_SUFFIX;
}
export function getBaselineResourceName(name: string) {
return name + BASELINE_SUFFIX
return name + BASELINE_SUFFIX;
}
export function getStableResourceName(name: string) {
return name + STABLE_SUFFIX
}
export function getBaselineDeploymentFromStableDeployment(
inputObject: any,
replicaCount: number
): object {
// TODO: REFACTOR TO MAKE EVERYTHING TYPE SAFE
const oldName = inputObject.metadata.name
const newName =
oldName.substring(0, oldName.length - STABLE_SUFFIX.length) +
BASELINE_SUFFIX
const newObject = getNewCanaryObject(
inputObject,
replicaCount,
BASELINE_LABEL_VALUE
) as any
newObject.metadata.name = newName
return newObject
return name + STABLE_SUFFIX;
}
function getNewCanaryObject(
@@ -142,26 +116,26 @@ function getNewCanaryObject(
replicas: number,
type: string
): object {
const newObject = JSON.parse(JSON.stringify(inputObject))
const newObject = JSON.parse(JSON.stringify(inputObject));
// Updating name
if (type === CANARY_LABEL_VALUE) {
newObject.metadata.name = getCanaryResourceName(inputObject.metadata.name)
newObject.metadata.name = getCanaryResourceName(inputObject.metadata.name);
} else if (type === STABLE_LABEL_VALUE) {
newObject.metadata.name = getStableResourceName(inputObject.metadata.name)
newObject.metadata.name = getStableResourceName(inputObject.metadata.name);
} else {
newObject.metadata.name = getBaselineResourceName(
inputObject.metadata.name
)
);
}
addCanaryLabelsAndAnnotations(newObject, type)
addCanaryLabelsAndAnnotations(newObject, type);
if (specContainsReplicas(newObject.kind)) {
newObject.spec.replicas = replicas
newObject.spec.replicas = replicas;
}
return newObject
return newObject;
}
function specContainsReplicas(kind: string) {
@@ -169,19 +143,19 @@ function specContainsReplicas(kind: string) {
kind.toLowerCase() !== KubernetesWorkload.POD.toLowerCase() &&
kind.toLowerCase() !== KubernetesWorkload.DAEMON_SET.toLowerCase() &&
!isServiceEntity(kind)
)
);
}
function addCanaryLabelsAndAnnotations(inputObject: any, type: string) {
const newLabels = new Map<string, string>()
newLabels[CANARY_VERSION_LABEL] = type
const newLabels = new Map<string, string>();
newLabels[CANARY_VERSION_LABEL] = type;
updateObjectLabels(inputObject, newLabels, false)
updateObjectAnnotations(inputObject, newLabels, false)
updateSelectorLabels(inputObject, newLabels, false)
updateObjectLabels(inputObject, newLabels, false);
updateObjectAnnotations(inputObject, newLabels, false);
updateSelectorLabels(inputObject, newLabels, false);
if (!isServiceEntity(inputObject.kind)) {
updateSpecLabels(inputObject, newLabels, false)
updateSpecLabels(inputObject, newLabels, false);
}
}
@@ -192,30 +166,30 @@ async function cleanUpCanary(
) {
const deleteObject = async function (kind, name) {
try {
const result = await kubectl.delete([kind, name])
checkForErrors([result])
const result = await kubectl.delete([kind, name]);
checkForErrors([result]);
} catch (ex) {
// Ignore failures of delete if it doesn't exist
}
}
};
for (const filePath of files) {
const fileContents = fs.readFileSync(filePath).toString()
const fileContents = fs.readFileSync(filePath).toString();
const parsedYaml = yaml.safeLoadAll(fileContents)
const parsedYaml = yaml.safeLoadAll(fileContents);
for (const inputObject of parsedYaml) {
const name = inputObject.metadata.name
const kind = inputObject.kind
const name = inputObject.metadata.name;
const kind = inputObject.kind;
if (
isDeploymentEntity(kind) ||
(includeServices && isServiceEntity(kind))
) {
const canaryObjectName = getCanaryResourceName(name)
const baselineObjectName = getBaselineResourceName(name)
const canaryObjectName = getCanaryResourceName(name);
const baselineObjectName = getBaselineResourceName(name);
await deleteObject(kind, canaryObjectName)
await deleteObject(kind, baselineObjectName)
await deleteObject(kind, canaryObjectName);
await deleteObject(kind, baselineObjectName);
}
}
}
src/strategyHelpers/canary/podCanaryHelper.ts
+58 -52
View File
@@ -1,84 +1,90 @@
import {Kubectl} from '../../types/kubectl'
import * as core from '@actions/core'
import * as fs from 'fs'
import * as yaml from 'js-yaml'
import { Kubectl } from "../../types/kubectl";
import * as core from "@actions/core";
import * as fs from "fs";
import * as yaml from "js-yaml";
import * as fileHelper from '../../utilities/fileUtils'
import * as canaryDeploymentHelper from './canaryHelper'
import {isDeploymentEntity} from '../../types/kubernetesTypes'
import {getReplicaCount} from '../../utilities/manifestUpdateUtils'
import * as fileHelper from "../../utilities/fileUtils";
import * as canaryDeploymentHelper from "./canaryHelper";
import { isDeploymentEntity } from "../../types/kubernetesTypes";
import { getReplicaCount } from "../../utilities/manifestUpdateUtils";
export async function deployPodCanary(
filePaths: string[],
kubectl: Kubectl,
onlyDeployStable: boolean = false
) {
const newObjectsList = []
const percentage = parseInt(core.getInput('percentage', {required: true}))
export async function deployPodCanary(filePaths: string[], kubectl: Kubectl) {
const newObjectsList = [];
const percentage = parseInt(core.getInput("percentage"));
if (percentage < 0 || percentage > 100)
throw Error('Percentage must be between 0 and 100')
throw Error("Percentage must be between 0 and 100");
for (const filePath of filePaths) {
const fileContents = fs.readFileSync(filePath).toString()
const parsedYaml = yaml.safeLoadAll(fileContents)
const fileContents = fs.readFileSync(filePath).toString();
const parsedYaml = yaml.safeLoadAll(fileContents);
for (const inputObject of parsedYaml) {
const name = inputObject.metadata.name
const kind = inputObject.kind
const name = inputObject.metadata.name;
const kind = inputObject.kind;
if (!onlyDeployStable && isDeploymentEntity(kind)) {
core.debug('Calculating replica count for canary')
if (isDeploymentEntity(kind)) {
core.debug("Calculating replica count for canary");
const canaryReplicaCount = calculateReplicaCountForCanary(
inputObject,
percentage
)
core.debug('Replica count is ' + canaryReplicaCount)
);
core.debug("Replica count is " + canaryReplicaCount);
const newCanaryObject = canaryDeploymentHelper.getNewCanaryResource(
inputObject,
canaryReplicaCount
)
newObjectsList.push(newCanaryObject)
// if there's already a stable object, deploy baseline as well
// Get stable object
core.debug("Querying stable object");
const stableObject = await canaryDeploymentHelper.fetchResource(
kubectl,
kind,
name
)
if (stableObject) {
);
if (!stableObject) {
core.debug("Stable object not found. Creating canary object");
const newCanaryObject = canaryDeploymentHelper.getNewCanaryResource(
inputObject,
canaryReplicaCount
);
newObjectsList.push(newCanaryObject);
} else {
core.debug(
`Stable object found for ${kind} ${name}. Creating baseline objects`
)
"Creating canary and baseline objects. Stable object found: " +
JSON.stringify(stableObject)
);
const newCanaryObject = canaryDeploymentHelper.getNewCanaryResource(
inputObject,
canaryReplicaCount
);
core.debug("New canary object: " + JSON.stringify(newCanaryObject));
const newBaselineObject =
canaryDeploymentHelper.getNewBaselineResource(
stableObject,
canaryReplicaCount
)
);
core.debug(
'New baseline object: ' + JSON.stringify(newBaselineObject)
)
newObjectsList.push(newBaselineObject)
"New baseline object: " + JSON.stringify(newBaselineObject)
);
newObjectsList.push(newCanaryObject);
newObjectsList.push(newBaselineObject);
}
} else {
// deploy non deployment entity or regular deployments for promote as they are
newObjectsList.push(inputObject)
// update non deployment entity as it is
newObjectsList.push(inputObject);
}
}
}
core.debug('New objects list: ' + JSON.stringify(newObjectsList))
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList)
const forceDeployment = core.getInput('force').toLowerCase() === 'true'
core.debug("New objects list: " + JSON.stringify(newObjectsList));
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
const forceDeployment = core.getInput("force").toLowerCase() === "true";
const result = await kubectl.apply(manifestFiles, forceDeployment)
return {result, newFilePaths: manifestFiles}
const result = await kubectl.apply(manifestFiles, forceDeployment);
return { result, newFilePaths: manifestFiles };
}
export function calculateReplicaCountForCanary(
inputObject: any,
percentage: number
) {
const inputReplicaCount = getReplicaCount(inputObject)
return Math.max(1, Math.round((inputReplicaCount * percentage) / 100))
function calculateReplicaCountForCanary(inputObject: any, percentage: number) {
const inputReplicaCount = getReplicaCount(inputObject);
return Math.round((inputReplicaCount * percentage) / 100);
}
src/strategyHelpers/canary/smiCanaryHelper.ts
+130 -162
View File
@@ -1,209 +1,178 @@
import {Kubectl} from '../../types/kubectl'
import * as core from '@actions/core'
import * as fs from 'fs'
import * as yaml from 'js-yaml'
import { Kubectl } from "../../types/kubectl";
import * as core from "@actions/core";
import * as fs from "fs";
import * as yaml from "js-yaml";
import * as fileHelper from '../../utilities/fileUtils'
import * as kubectlUtils from '../../utilities/trafficSplitUtils'
import * as canaryDeploymentHelper from './canaryHelper'
import * as podCanaryHelper from './podCanaryHelper'
import {isDeploymentEntity, isServiceEntity} from '../../types/kubernetesTypes'
import {checkForErrors} from '../../utilities/kubectlUtils'
import {inputAnnotations} from '../../inputUtils'
import * as fileHelper from "../../utilities/fileUtils";
import * as kubectlUtils from "../../utilities/trafficSplitUtils";
import * as canaryDeploymentHelper from "./canaryHelper";
import {
isDeploymentEntity,
isServiceEntity,
} from "../../types/kubernetesTypes";
import { checkForErrors } from "../../utilities/kubectlUtils";
const TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX = '-workflow-rollout'
const TRAFFIC_SPLIT_OBJECT = 'TrafficSplit'
const TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX = "-workflow-rollout";
const TRAFFIC_SPLIT_OBJECT = "TrafficSplit";
export async function deploySMICanary(
filePaths: string[],
kubectl: Kubectl,
onlyDeployStable: boolean = false
) {
const canaryReplicasInput = core.getInput('baseline-and-canary-replicas')
let canaryReplicaCount
let calculateReplicas = true
if (canaryReplicasInput !== '') {
canaryReplicaCount = parseInt(canaryReplicasInput)
calculateReplicas = false
core.debug(
`read replica count ${canaryReplicaCount} from input: ${canaryReplicasInput}`
)
}
export async function deploySMICanary(filePaths: string[], kubectl: Kubectl) {
const canaryReplicaCount = parseInt(
core.getInput("baseline-and-canary-replicas")
);
if (canaryReplicaCount < 0 || canaryReplicaCount > 100)
throw Error("Baseline-and-canary-replicas must be between 0 and 100");
if (canaryReplicaCount < 0 && canaryReplicaCount > 100)
throw Error('Baseline-and-canary-replicas must be between 0 and 100')
const newObjectsList = [];
filePaths.forEach((filePath: string) => {
const fileContents = fs.readFileSync(filePath).toString();
yaml.safeLoadAll(fileContents, (inputObject) => {
const name = inputObject.metadata.name;
const kind = inputObject.kind;
const newObjectsList = []
for await (const filePath of filePaths) {
const fileContents = fs.readFileSync(filePath).toString()
const inputObjects = yaml.safeLoadAll(fileContents)
for (const inputObject of inputObjects) {
const name = inputObject.metadata.name
const kind = inputObject.kind
if (isDeploymentEntity(kind)) {
const stableObject = canaryDeploymentHelper.fetchResource(
kubectl,
kind,
name
);
if (!onlyDeployStable && isDeploymentEntity(kind)) {
if (calculateReplicas) {
// calculate for each object
const percentage = parseInt(
core.getInput('percentage', {required: true})
)
canaryReplicaCount =
podCanaryHelper.calculateReplicaCountForCanary(
inputObject,
percentage
)
core.debug(`calculated replica count ${canaryReplicaCount}`)
}
core.debug('Creating canary object')
if (!stableObject) {
core.debug("Stable object not found. Creating only canary object");
const newCanaryObject = canaryDeploymentHelper.getNewCanaryResource(
inputObject,
canaryReplicaCount
)
newObjectsList.push(newCanaryObject)
);
newObjectsList.push(newCanaryObject);
} else {
if (!canaryDeploymentHelper.isResourceMarkedAsStable(stableObject)) {
throw Error(`StableSpecSelectorNotExist : ${name}`);
}
const stableObject = await canaryDeploymentHelper.fetchResource(
kubectl,
kind,
canaryDeploymentHelper.getStableResourceName(name)
)
if (stableObject) {
core.debug(
`Stable object found for ${kind} ${name}. Creating baseline objects`
)
"Stable object found. Creating canary and baseline objects"
);
const newCanaryObject = canaryDeploymentHelper.getNewCanaryResource(
inputObject,
canaryReplicaCount
);
const newBaselineObject =
canaryDeploymentHelper.getBaselineDeploymentFromStableDeployment(
canaryDeploymentHelper.getNewBaselineResource(
stableObject,
canaryReplicaCount
)
newObjectsList.push(newBaselineObject)
);
newObjectsList.push(newCanaryObject);
newObjectsList.push(newBaselineObject);
}
} else if (isDeploymentEntity(kind)) {
core.debug(
`creating stable deployment with ${inputObject.spec.replicas} replicas`
)
const stableDeployment =
canaryDeploymentHelper.getStableResource(inputObject)
newObjectsList.push(stableDeployment)
} else {
// Update non deployment entity or stable deployment as it is
newObjectsList.push(inputObject)
// Update non deployment entity as it is
newObjectsList.push(inputObject);
}
}
}
core.debug(
`deploying canary objects with SMI: \n ${JSON.stringify(newObjectsList)}`
)
const newFilePaths = fileHelper.writeObjectsToFile(newObjectsList)
const forceDeployment = core.getInput('force').toLowerCase() === 'true'
const result = await kubectl.apply(newFilePaths, forceDeployment)
await createCanaryService(kubectl, filePaths)
return {result, newFilePaths}
});
});
const newFilePaths = fileHelper.writeObjectsToFile(newObjectsList);
const forceDeployment = core.getInput("force").toLowerCase() === "true";
const result = await kubectl.apply(newFilePaths, forceDeployment);
await createCanaryService(kubectl, filePaths);
return { result, newFilePaths };
}
async function createCanaryService(kubectl: Kubectl, filePaths: string[]) {
const newObjectsList = []
const trafficObjectsList: string[] = []
const newObjectsList = [];
const trafficObjectsList = [];
for (const filePath of filePaths) {
const fileContents = fs.readFileSync(filePath).toString()
const parsedYaml = yaml.safeLoadAll(fileContents)
const fileContents = fs.readFileSync(filePath).toString();
const parsedYaml = yaml.safeLoadAll(fileContents);
for (const inputObject of parsedYaml) {
const name = inputObject.metadata.name
const kind = inputObject.kind
const name = inputObject.metadata.name;
const kind = inputObject.kind;
if (isServiceEntity(kind)) {
core.debug(`Creating services for ${kind} ${name}`)
const newCanaryServiceObject =
canaryDeploymentHelper.getNewCanaryResource(inputObject)
newObjectsList.push(newCanaryServiceObject)
canaryDeploymentHelper.getNewCanaryResource(inputObject);
newObjectsList.push(newCanaryServiceObject);
const newBaselineServiceObject =
canaryDeploymentHelper.getNewBaselineResource(inputObject)
newObjectsList.push(newBaselineServiceObject)
canaryDeploymentHelper.getNewBaselineResource(inputObject);
newObjectsList.push(newBaselineServiceObject);
const stableObject = await canaryDeploymentHelper.fetchResource(
kubectl,
kind,
canaryDeploymentHelper.getStableResourceName(name)
)
);
if (!stableObject) {
const newStableServiceObject =
canaryDeploymentHelper.getStableResource(inputObject)
newObjectsList.push(newStableServiceObject)
canaryDeploymentHelper.getStableResource(inputObject);
newObjectsList.push(newStableServiceObject);
core.debug('Creating the traffic object for service: ' + name)
core.debug("Creating the traffic object for service: " + name);
const trafficObject = await createTrafficSplitManifestFile(
kubectl,
name,
0,
0,
1000
)
);
trafficObjectsList.push(trafficObject)
trafficObjectsList.push(trafficObject);
} else {
let updateTrafficObject = true
let updateTrafficObject = true;
const trafficObject = await canaryDeploymentHelper.fetchResource(
kubectl,
TRAFFIC_SPLIT_OBJECT,
getTrafficSplitResourceName(name)
)
);
if (trafficObject) {
const trafficJObject = JSON.parse(
JSON.stringify(trafficObject)
)
const trafficJObject = JSON.parse(JSON.stringify(trafficObject));
if (trafficJObject?.spec?.backends) {
trafficJObject.spec.backends.forEach((s) => {
if (
s.service ===
canaryDeploymentHelper.getCanaryResourceName(
name
) &&
s.weight === '1000m'
canaryDeploymentHelper.getCanaryResourceName(name) &&
s.weight === "1000m"
) {
core.debug('Update traffic objcet not required')
updateTrafficObject = false
core.debug("Update traffic objcet not required");
updateTrafficObject = false;
}
})
});
}
}
if (updateTrafficObject) {
core.debug(
'Stable service object present so updating the traffic object for service: ' +
"Stable service object present so updating the traffic object for service: " +
name
)
trafficObjectsList.push(
await updateTrafficSplitObject(kubectl, name)
)
);
trafficObjectsList.push(updateTrafficSplitObject(kubectl, name));
}
}
}
}
}
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList)
manifestFiles.push(...trafficObjectsList)
const forceDeployment = core.getInput('force').toLowerCase() === 'true'
const manifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
manifestFiles.push(...trafficObjectsList);
const forceDeployment = core.getInput("force").toLowerCase() === "true";
const result = await kubectl.apply(manifestFiles, forceDeployment)
checkForErrors([result])
const result = await kubectl.apply(manifestFiles, forceDeployment);
checkForErrors([result]);
}
export async function redirectTrafficToCanaryDeployment(
kubectl: Kubectl,
manifestFilePaths: string[]
) {
await adjustTraffic(kubectl, manifestFilePaths, 0, 1000)
await adjustTraffic(kubectl, manifestFilePaths, 0, 1000);
}
export async function redirectTrafficToStableDeployment(
kubectl: Kubectl,
manifestFilePaths: string[]
) {
await adjustTraffic(kubectl, manifestFilePaths, 1000, 0)
await adjustTraffic(kubectl, manifestFilePaths, 1000, 0);
}
async function adjustTraffic(
@@ -213,16 +182,16 @@ async function adjustTraffic(
canaryWeight: number
) {
if (!manifestFilePaths || manifestFilePaths?.length == 0) {
return
return;
}
const trafficSplitManifests = []
const trafficSplitManifests = [];
for (const filePath of manifestFilePaths) {
const fileContents = fs.readFileSync(filePath).toString()
const parsedYaml = yaml.safeLoadAll(fileContents)
const fileContents = fs.readFileSync(filePath).toString();
const parsedYaml = yaml.safeLoadAll(fileContents);
for (const inputObject of parsedYaml) {
const name = inputObject.metadata.name
const kind = inputObject.kind
const name = inputObject.metadata.name;
const kind = inputObject.kind;
if (isServiceEntity(kind)) {
trafficSplitManifests.push(
@@ -233,47 +202,47 @@ async function adjustTraffic(
0,
canaryWeight
)
)
);
}
}
}
if (trafficSplitManifests.length <= 0) {
return
return;
}
const forceDeployment = core.getInput('force').toLowerCase() === 'true'
const result = await kubectl.apply(trafficSplitManifests, forceDeployment)
checkForErrors([result])
const forceDeployment = core.getInput("force").toLowerCase() === "true";
const result = await kubectl.apply(trafficSplitManifests, forceDeployment);
checkForErrors([result]);
}
async function updateTrafficSplitObject(
kubectl: Kubectl,
serviceName: string
): Promise<string> {
const percentage = parseInt(core.getInput('percentage', {required: true}))
const percentage = parseInt(core.getInput("percentage"));
if (percentage < 0 || percentage > 100)
throw Error('Percentage must be between 0 and 100')
throw Error("Percentage must be between 0 and 100");
const percentageWithMuliplier = percentage * 10
const baselineAndCanaryWeight = percentageWithMuliplier / 2
const stableDeploymentWeight = 1000 - percentageWithMuliplier
const percentageWithMuliplier = percentage * 10;
const baselineAndCanaryWeight = percentageWithMuliplier / 2;
const stableDeploymentWeight = 1000 - percentageWithMuliplier;
core.debug(
'Creating the traffic object with canary weight: ' +
"Creating the traffic object with canary weight: " +
baselineAndCanaryWeight +
', baseline weight: ' +
",baseling weight: " +
baselineAndCanaryWeight +
', stable weight: ' +
",stable: " +
stableDeploymentWeight
)
);
return await createTrafficSplitManifestFile(
kubectl,
serviceName,
stableDeploymentWeight,
baselineAndCanaryWeight,
baselineAndCanaryWeight
)
);
}
async function createTrafficSplitManifestFile(
@@ -289,21 +258,21 @@ async function createTrafficSplitManifestFile(
stableWeight,
baselineWeight,
canaryWeight
)
);
const manifestFile = fileHelper.writeManifestToFile(
smiObjectString,
TRAFFIC_SPLIT_OBJECT,
serviceName
)
);
if (!manifestFile) {
throw new Error('Unable to create traffic split manifest file')
throw new Error("Unable to create traffic split manifest file");
}
return manifestFile
return manifestFile;
}
let trafficSplitAPIVersion = ''
let trafficSplitAPIVersion = "";
async function getTrafficSplitObject(
kubectl: Kubectl,
@@ -316,36 +285,35 @@ async function getTrafficSplitObject(
if (!trafficSplitAPIVersion) {
trafficSplitAPIVersion = await kubectlUtils.getTrafficSplitAPIVersion(
kubectl
)
);
}
return JSON.stringify({
apiVersion: trafficSplitAPIVersion,
kind: 'TrafficSplit',
kind: "TrafficSplit",
metadata: {
name: getTrafficSplitResourceName(name),
annotations: inputAnnotations
},
spec: {
backends: [
{
service: canaryDeploymentHelper.getStableResourceName(name),
weight: stableWeight
weight: stableWeight,
},
{
service: canaryDeploymentHelper.getBaselineResourceName(name),
weight: baselineWeight
weight: baselineWeight,
},
{
service: canaryDeploymentHelper.getCanaryResourceName(name),
weight: canaryWeight
}
weight: canaryWeight,
},
],
service: name
}
})
service: name,
},
});
}
function getTrafficSplitResourceName(name: string) {
return name + TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX
return name + TRAFFIC_SPLIT_OBJECT_NAME_SUFFIX;
}
src/strategyHelpers/deploymentHelper.ts
+95 -107
View File
@@ -1,44 +1,40 @@
import * as fs from 'fs'
import * as yaml from 'js-yaml'
import * as canaryDeploymentHelper from './canary/canaryHelper'
import * as models from '../types/kubernetesTypes'
import {isDeploymentEntity} from '../types/kubernetesTypes'
import * as fileHelper from '../utilities/fileUtils'
import * as KubernetesManifestUtility from '../utilities/manifestStabilityUtils'
import {Kubectl, Resource} from '../types/kubectl'
import * as fs from "fs";
import * as yaml from "js-yaml";
import * as canaryDeploymentHelper from "./canary/canaryHelper";
import * as models from "../types/kubernetesTypes";
import { isDeploymentEntity } from "../types/kubernetesTypes";
import * as fileHelper from "../utilities/fileUtils";
import * as KubernetesManifestUtility from "../utilities/manifestStabilityUtils";
import { Kubectl, Resource } from "../types/kubectl";
import {deployPodCanary} from './canary/podCanaryHelper'
import {deploySMICanary} from './canary/smiCanaryHelper'
import {DeploymentConfig} from '../types/deploymentConfig'
import {
deployBlueGreen,
deployBlueGreenIngress,
deployBlueGreenService
} from './blueGreen/deploy'
import {deployBlueGreenSMI} from './blueGreen/deploy'
import {DeploymentStrategy} from '../types/deploymentStrategy'
import * as core from '@actions/core'
import { deployPodCanary } from "./canary/podCanaryHelper";
import { deploySMICanary } from "./canary/smiCanaryHelper";
import { DeploymentConfig } from "../types/deploymentConfig";
import { deployBlueGreenService } from "./blueGreen/serviceBlueGreenHelper";
import { deployBlueGreenIngress } from "./blueGreen/ingressBlueGreenHelper";
import { deployBlueGreenSMI } from "./blueGreen/smiBlueGreenHelper";
import { DeploymentStrategy } from "../types/deploymentStrategy";
import * as core from "@actions/core";
import {
parseTrafficSplitMethod,
TrafficSplitMethod
} from '../types/trafficSplitMethod'
import {parseRouteStrategy} from '../types/routeStrategy'
import {ExecOutput} from '@actions/exec'
TrafficSplitMethod,
} from "../types/trafficSplitMethod";
import { parseRouteStrategy, RouteStrategy } from "../types/routeStrategy";
import { ExecOutput } from "@actions/exec";
import {
getWorkflowAnnotationKeyLabel,
getWorkflowAnnotations,
cleanLabel
} from '../utilities/workflowAnnotationUtils'
} from "../utilities/workflowAnnotationUtils";
import {
annotateChildPods,
checkForErrors,
getLastSuccessfulRunSha
} from '../utilities/kubectlUtils'
getLastSuccessfulRunSha,
} from "../utilities/kubectlUtils";
import {
getWorkflowFilePath,
normalizeWorkflowStrLabel
} from '../utilities/githubUtils'
import {getDeploymentConfig} from '../utilities/dockerUtils'
normalizeWorkflowStrLabel,
} from "../utilities/githubUtils";
import { getDeploymentConfig } from "../utilities/dockerUtils";
export async function deployManifests(
files: string[],
@@ -48,93 +44,87 @@ export async function deployManifests(
): Promise<string[]> {
switch (deploymentStrategy) {
case DeploymentStrategy.CANARY: {
const {result, newFilePaths} =
const { result, newFilePaths } =
trafficSplitMethod == TrafficSplitMethod.SMI
? await deploySMICanary(files, kubectl)
: await deployPodCanary(files, kubectl)
: await deployPodCanary(files, kubectl);
checkForErrors([result])
return newFilePaths
checkForErrors([result]);
return newFilePaths;
}
case DeploymentStrategy.BLUE_GREEN: {
const routeStrategy = parseRouteStrategy(
core.getInput('route-method', {required: true})
)
const blueGreenDeployment = await deployBlueGreen(
kubectl,
files,
routeStrategy
)
core.debug(
`objects deployed for ${routeStrategy}: ${JSON.stringify(
blueGreenDeployment.objects
)} `
)
core.getInput("route-method", { required: true })
);
checkForErrors([blueGreenDeployment.deployResult.execResult])
return blueGreenDeployment.deployResult.manifestFiles
const { result, newFilePaths } = await Promise.resolve(
(routeStrategy == RouteStrategy.INGRESS &&
deployBlueGreenIngress(kubectl, files)) ||
(routeStrategy == RouteStrategy.SMI &&
deployBlueGreenSMI(kubectl, files)) ||
deployBlueGreenService(kubectl, files)
);
checkForErrors([result]);
return newFilePaths;
}
case DeploymentStrategy.BASIC: {
const trafficSplitMethod = parseTrafficSplitMethod(
core.getInput('traffic-split-method', {required: true})
)
const forceDeployment = core.getInput('force').toLowerCase() === 'true'
if (trafficSplitMethod === TrafficSplitMethod.SMI) {
const updatedManifests = appendStableVersionLabelToResource(files)
const result = await kubectl.apply(
updatedManifests,
forceDeployment
)
checkForErrors([result])
} else {
const result = await kubectl.apply(files, forceDeployment)
checkForErrors([result])
case undefined: {
core.warning("Deployment strategy is not recognized.");
}
return files
}
default: {
throw new Error('Deployment strategy is not recognized.')
const trafficSplitMethod = parseTrafficSplitMethod(
core.getInput("traffic-split-method", { required: true })
);
const forceDeployment = core.getInput("force").toLowerCase() === "true";
if (trafficSplitMethod === TrafficSplitMethod.SMI) {
const updatedManifests = appendStableVersionLabelToResource(files);
const result = await kubectl.apply(updatedManifests, forceDeployment);
checkForErrors([result]);
} else {
const result = await kubectl.apply(files, forceDeployment);
checkForErrors([result]);
}
return files;
}
}
}
function appendStableVersionLabelToResource(files: string[]): string[] {
const manifestFiles = []
const newObjectsList = []
const manifestFiles = [];
const newObjectsList = [];
files.forEach((filePath: string) => {
const fileContents = fs.readFileSync(filePath).toString()
const fileContents = fs.readFileSync(filePath).toString();
yaml.safeLoadAll(fileContents, function (inputObject) {
const {kind} = inputObject
const { kind } = inputObject;
if (isDeploymentEntity(kind)) {
const updatedObject =
canaryDeploymentHelper.markResourceAsStable(inputObject)
newObjectsList.push(updatedObject)
canaryDeploymentHelper.markResourceAsStable(inputObject);
newObjectsList.push(updatedObject);
} else {
manifestFiles.push(filePath)
manifestFiles.push(filePath);
}
})
})
});
});
const updatedManifestFiles = fileHelper.writeObjectsToFile(newObjectsList)
manifestFiles.push(...updatedManifestFiles)
const updatedManifestFiles = fileHelper.writeObjectsToFile(newObjectsList);
manifestFiles.push(...updatedManifestFiles);
return manifestFiles
return manifestFiles;
}
export async function checkManifestStability(
kubectl: Kubectl,
resources: Resource[]
): Promise<void> {
await KubernetesManifestUtility.checkManifestStability(kubectl, resources)
await KubernetesManifestUtility.checkManifestStability(kubectl, resources);
}
export async function annotateAndLabelResources(
@@ -143,11 +133,11 @@ export async function annotateAndLabelResources(
resourceTypes: Resource[],
allPods: any
) {
const githubToken = core.getInput('token')
const workflowFilePath = await getWorkflowFilePath(githubToken)
const githubToken = core.getInput("token");
const workflowFilePath = await getWorkflowFilePath(githubToken);
const deploymentConfig = await getDeploymentConfig()
const annotationKeyLabel = getWorkflowAnnotationKeyLabel()
const deploymentConfig = await getDeploymentConfig();
const annotationKeyLabel = getWorkflowAnnotationKeyLabel(workflowFilePath);
await annotateResources(
files,
@@ -157,8 +147,8 @@ export async function annotateAndLabelResources(
annotationKeyLabel,
workflowFilePath,
deploymentConfig
)
await labelResources(files, kubectl, annotationKeyLabel)
);
await labelResources(files, kubectl, annotationKeyLabel);
}
async function annotateResources(
@@ -170,36 +160,34 @@ async function annotateResources(
workflowFilePath: string,
deploymentConfig: DeploymentConfig
) {
const annotateResults: ExecOutput[] = []
const namespace = core.getInput('namespace') || 'default'
const annotateResults: ExecOutput[] = [];
const namespace = core.getInput("namespace") || "default";
const lastSuccessSha = await getLastSuccessfulRunSha(
kubectl,
namespace,
annotationKey
)
);
const annotationKeyValStr = `${annotationKey}=${getWorkflowAnnotations(
lastSuccessSha,
workflowFilePath,
deploymentConfig
)}`
)}`;
const annotateNamespace = !(
core.getInput('annotate-namespace').toLowerCase() === 'false'
)
const annotateNamespace = !(core.getInput("annotate-namespace").toLowerCase() === "false");
if (annotateNamespace) {
annotateResults.push(
await kubectl.annotate('namespace', namespace, annotationKeyValStr)
)
await kubectl.annotate("namespace", namespace, annotationKeyValStr)
);
}
annotateResults.push(await kubectl.annotateFiles(files, annotationKeyValStr))
annotateResults.push(await kubectl.annotateFiles(files, annotationKeyValStr));
for (const resource of resourceTypes) {
if (
resource.type.toLowerCase() !==
models.KubernetesWorkload.POD.toLowerCase()
) {
;(
(
await annotateChildPods(
kubectl,
resource.type,
@@ -207,11 +195,11 @@ async function annotateResources(
annotationKeyValStr,
allPods
)
).forEach((execResult) => annotateResults.push(execResult))
).forEach((execResult) => annotateResults.push(execResult));
}
}
checkForErrors(annotateResults, true)
checkForErrors(annotateResults, true);
}
async function labelResources(
@@ -220,11 +208,11 @@ async function labelResources(
label: string
) {
const labels = [
`workflowFriendlyName=${cleanLabel(
normalizeWorkflowStrLabel(process.env.GITHUB_WORKFLOW)
`workflowFriendlyName=${normalizeWorkflowStrLabel(
process.env.GITHUB_WORKFLOW
)}`,
`workflow=${cleanLabel(label)}`
]
`workflow=${label}`,
];
checkForErrors([await kubectl.labelFiles(files, labels)], true)
checkForErrors([await kubectl.labelFiles(files, labels)], true);
}
src/types/action.test.ts
+18 -18
View File
@@ -1,22 +1,22 @@
import {Action, parseAction} from './action'
import { Action, parseAction } from "./action";
describe('Action type', () => {
test('it has required values', () => {
const vals = <any>Object.values(Action)
expect(vals.includes('deploy')).toBe(true)
expect(vals.includes('promote')).toBe(true)
expect(vals.includes('reject')).toBe(true)
})
describe("Action type", () => {
test("it has required values", () => {
const vals = <any>Object.values(Action);
expect(vals.includes("deploy")).toBe(true);
expect(vals.includes("promote")).toBe(true);
expect(vals.includes("reject")).toBe(true);
});
test('it can parse valid values from a string', () => {
expect(parseAction('deploy')).toBe(Action.DEPLOY)
expect(parseAction('Deploy')).toBe(Action.DEPLOY)
expect(parseAction('DEPLOY')).toBe(Action.DEPLOY)
expect(parseAction('deploY')).toBe(Action.DEPLOY)
})
test("it can parse valid values from a string", () => {
expect(parseAction("deploy")).toBe(Action.DEPLOY);
expect(parseAction("Deploy")).toBe(Action.DEPLOY);
expect(parseAction("DEPLOY")).toBe(Action.DEPLOY);
expect(parseAction("deploY")).toBe(Action.DEPLOY);
});
test("it will return undefined if it can't parse values from a string", () => {
expect(parseAction('invalid')).toBe(undefined)
expect(parseAction('unsupportedType')).toBe(undefined)
})
})
expect(parseAction("invalid")).toBe(undefined);
expect(parseAction("unsupportedType")).toBe(undefined);
});
});
src/types/action.ts
+4 -4
View File
@@ -1,7 +1,7 @@
export enum Action {
DEPLOY = 'deploy',
PROMOTE = 'promote',
REJECT = 'reject'
DEPLOY = "deploy",
PROMOTE = "promote",
REJECT = "reject",
}
/**
@@ -14,4 +14,4 @@ export const parseAction = (str: string): Action | undefined =>
Object.keys(Action).filter(
(k) => Action[k].toString().toLowerCase() === str.toLowerCase()
)[0] as keyof typeof Action
]
];
src/types/annotations.ts
-8
View File
@@ -1,8 +0,0 @@
export function parseAnnotations(str: string) {
if (str == '') {
return new Map<string, string>()
} else {
const annotation = JSON.parse(str)
return new Map<string, string>(annotation)
}
}
src/types/blueGreenTypes.ts
-21
View File
@@ -1,21 +0,0 @@
import {DeployResult} from './deployResult'
import {K8sObject, K8sDeleteObject} from './k8sObject'
export interface BlueGreenDeployment {
deployResult: DeployResult
objects: K8sObject[]
}
export interface BlueGreenManifests {
serviceEntityList: K8sObject[]
serviceNameMap: Map<string, string>
unroutedServiceEntityList: K8sObject[]
deploymentEntityList: K8sObject[]
ingressEntityList: K8sObject[]
otherObjects: K8sObject[]
}
export interface BlueGreenRejectResult {
deleteResult: K8sDeleteObject[]
routeResult: BlueGreenDeployment
}
src/types/deployResult.ts
-6
View File
@@ -1,6 +0,0 @@
import {ExecOutput} from '@actions/exec'
export interface DeployResult {
execResult: ExecOutput
manifestFiles: string[]
}
src/types/deploymentConfig.ts
+3 -3
View File
@@ -1,5 +1,5 @@
export interface DeploymentConfig {
manifestFilePaths: string[]
helmChartFilePaths: string[]
dockerfilePaths: any
manifestFilePaths: string[];
helmChartFilePaths: string[];
dockerfilePaths: any;
}
src/types/deploymentStrategy.test.ts
+21 -19
View File
@@ -1,25 +1,27 @@
import {DeploymentStrategy, parseDeploymentStrategy} from './deploymentStrategy'
import {
DeploymentStrategy,
parseDeploymentStrategy,
} from "./deploymentStrategy";
describe('Deployment strategy type', () => {
test('it has required values', () => {
const vals = <any>Object.values(DeploymentStrategy)
expect(vals.includes('canary')).toBe(true)
expect(vals.includes('blue-green')).toBe(true)
expect(vals.includes('basic')).toBe(true)
})
describe("Deployment strategy type", () => {
test("it has required values", () => {
const vals = <any>Object.values(DeploymentStrategy);
expect(vals.includes("canary")).toBe(true);
expect(vals.includes("blue-green")).toBe(true);
});
test('it can parse valid values from a string', () => {
expect(parseDeploymentStrategy('blue-green')).toBe(
test("it can parse valid values from a string", () => {
expect(parseDeploymentStrategy("blue-green")).toBe(
DeploymentStrategy.BLUE_GREEN
)
expect(parseDeploymentStrategy('Blue-green')).toBe(
);
expect(parseDeploymentStrategy("Blue-green")).toBe(
DeploymentStrategy.BLUE_GREEN
)
expect(parseDeploymentStrategy('BLUE-GREEN')).toBe(
);
expect(parseDeploymentStrategy("BLUE-GREEN")).toBe(
DeploymentStrategy.BLUE_GREEN
)
expect(parseDeploymentStrategy('blue-greeN')).toBe(
);
expect(parseDeploymentStrategy("blue-greeN")).toBe(
DeploymentStrategy.BLUE_GREEN
)
})
})
);
});
});
src/types/deploymentStrategy.ts
+3 -4
View File
@@ -1,7 +1,6 @@
export enum DeploymentStrategy {
BASIC = 'basic',
CANARY = 'canary',
BLUE_GREEN = 'blue-green'
CANARY = "canary",
BLUE_GREEN = "blue-green",
}
/**
@@ -17,4 +16,4 @@ export const parseDeploymentStrategy = (
(k) =>
DeploymentStrategy[k].toString().toLowerCase() === str.toLowerCase()
)[0] as keyof typeof DeploymentStrategy
]
];
src/types/docker.test.ts
+67 -67
View File
@@ -1,98 +1,98 @@
import {DockerExec} from './docker'
import * as actions from '@actions/exec'
import { DockerExec } from "./docker";
import * as actions from "@actions/exec";
const dockerPath = 'dockerPath'
const image = 'image'
const args = ['arg1', 'arg2', 'arg3']
const dockerPath = "dockerPath";
const image = "image";
const args = ["arg1", "arg2", "arg3"];
describe('Docker class', () => {
const docker = new DockerExec(dockerPath)
describe("Docker class", () => {
const docker = new DockerExec(dockerPath);
describe('with a success exec return', () => {
const execReturn = {exitCode: 0, stdout: 'Output', stderr: ''}
describe("with a success exec return", () => {
const execReturn = { exitCode: 0, stdout: "Output", stderr: "" };
beforeEach(() => {
jest.spyOn(actions, 'getExecOutput').mockImplementation(async () => {
return execReturn
})
})
jest.spyOn(actions, "getExecOutput").mockImplementation(async () => {
return execReturn;
});
});
test('pulls an image', async () => {
await docker.pull(image, args)
test("pulls an image", async () => {
await docker.pull(image, args);
expect(actions.getExecOutput).toBeCalledWith(
dockerPath,
['pull', image, ...args],
{silent: false}
)
})
["pull", image, ...args],
{ silent: false }
);
});
test('pulls an image silently', async () => {
await docker.pull(image, args, true)
test("pulls an image silently", async () => {
await docker.pull(image, args, true);
expect(actions.getExecOutput).toBeCalledWith(
dockerPath,
['pull', image, ...args],
{silent: true}
)
})
["pull", image, ...args],
{ silent: true }
);
});
test('inspects a docker image', async () => {
const result = await docker.inspect(image, args)
expect(result).toBe(execReturn.stdout)
test("inspects a docker image", async () => {
const result = await docker.inspect(image, args);
expect(result).toBe(execReturn.stdout);
expect(actions.getExecOutput).toBeCalledWith(
dockerPath,
['inspect', image, ...args],
{silent: false}
)
})
["inspect", image, ...args],
{ silent: false }
);
});
test('inspects a docker image silently', async () => {
const result = await docker.inspect(image, args, true)
expect(result).toBe(execReturn.stdout)
test("inspects a docker image silently", async () => {
const result = await docker.inspect(image, args, true);
expect(result).toBe(execReturn.stdout);
expect(actions.getExecOutput).toBeCalledWith(
dockerPath,
['inspect', image, ...args],
{silent: true}
)
})
})
["inspect", image, ...args],
{ silent: true }
);
});
});
describe('with an unsuccessful exec return code', () => {
const execReturn = {exitCode: 3, stdout: '', stderr: ''}
describe("with an unsuccessful exec return code", () => {
const execReturn = { exitCode: 3, stdout: "", stderr: "" };
beforeEach(() => {
jest.spyOn(actions, 'getExecOutput').mockImplementation(async () => {
return execReturn
})
})
jest.spyOn(actions, "getExecOutput").mockImplementation(async () => {
return execReturn;
});
});
test('pulls an image', async () => {
await expect(docker.pull(image, args)).rejects.toThrow()
})
test("pulls an image", async () => {
await expect(docker.pull(image, args)).rejects.toThrow();
});
test('inspects a docker image', async () => {
test("inspects a docker image", async () => {
const result = await expect(
docker.inspect(image, args)
).rejects.toThrow()
})
})
).rejects.toThrow();
});
});
describe('with an unsuccessful exec return code', () => {
const execReturn = {exitCode: 0, stdout: '', stderr: 'Output'}
describe("with an unsuccessful exec return code", () => {
const execReturn = { exitCode: 0, stdout: "", stderr: "Output" };
beforeEach(() => {
jest.spyOn(actions, 'getExecOutput').mockImplementation(async () => {
return execReturn
})
})
jest.spyOn(actions, "getExecOutput").mockImplementation(async () => {
return execReturn;
});
});
test('pulls an image', async () => {
await expect(docker.pull(image, args)).rejects.toThrow()
})
test("pulls an image", async () => {
await expect(docker.pull(image, args)).rejects.toThrow();
});
test('inspects a docker image', async () => {
test("inspects a docker image", async () => {
const result = await expect(
docker.inspect(image, args)
).rejects.toThrow()
})
})
})
).rejects.toThrow();
});
});
});
src/types/docker.ts
+11 -11
View File
@@ -1,16 +1,16 @@
import {getExecOutput} from '@actions/exec'
import { getExecOutput } from "@actions/exec";
export class DockerExec {
private readonly dockerPath: string
private readonly dockerPath: string;
constructor(dockerPath: string) {
this.dockerPath = dockerPath
this.dockerPath = dockerPath;
}
public async pull(image: string, args: string[], silent?: boolean) {
const result = await this.execute(['pull', image, ...args], silent)
if (result.stderr != '' || result.exitCode != 0) {
throw new Error(`docker images pull failed: ${result.stderr}`)
const result = await this.execute(["pull", image, ...args], silent);
if (result.stderr != "" || result.exitCode != 0) {
throw new Error(`docker images pull failed: ${result.stderr}`);
}
}
@@ -19,14 +19,14 @@ export class DockerExec {
args: string[],
silent: boolean = false
): Promise<string> {
const result = await this.execute(['inspect', image, ...args], silent)
if (result.stderr != '' || result.exitCode != 0)
throw new Error(`docker inspect failed: ${result.stderr}`)
const result = await this.execute(["inspect", image, ...args], silent);
if (result.stderr != "" || result.exitCode != 0)
throw new Error(`docker inspect failed: ${result.stderr}`);
return result.stdout
return result.stdout;
}
private async execute(args: string[], silent: boolean = false) {
return await getExecOutput(this.dockerPath, args, {silent})
return await getExecOutput(this.dockerPath, args, { silent });
}
}
src/types/githubClient.ts
+19 -21
View File
@@ -1,40 +1,38 @@
import * as core from '@actions/core'
import {Octokit} from '@octokit/core'
import {Endpoints} from '@octokit/types'
import {retry} from '@octokit/plugin-retry'
import * as core from "@actions/core";
import { Octokit } from "@octokit/core";
import { Endpoints } from "@octokit/types";
import { retry } from "@octokit/plugin-retry";
export const OkStatusCode = 200
export const OkStatusCode = 200;
const RetryOctokit = Octokit.plugin(retry)
const RETRY_COUNT = 5
const requestUrl = 'GET /repos/{owner}/{repo}/actions/workflows'
const RetryOctokit = Octokit.plugin(retry);
const RETRY_COUNT = 5;
const requestUrl = "GET /repos/{owner}/{repo}/actions/workflows";
type responseType =
Endpoints['GET /repos/{owner}/{repo}/actions/workflows']['response']
Endpoints["GET /repos/{owner}/{repo}/actions/workflows"]["response"];
export class GitHubClient {
private readonly repository: string
private readonly token: string
private readonly repository: string;
private readonly token: string;
constructor(repository: string, token: string) {
this.repository = repository
this.token = token
this.repository = repository;
this.token = token;
}
// prettier-ignore
public async getWorkflows(): Promise<responseType> {
const octokit = new RetryOctokit({
auth: this.token,
request: {retries: RETRY_COUNT},
baseUrl: process.env["GITHUB_API_URL"] || "https://api.github.com",
})
const [owner, repo] = this.repository.split('/')
request: { retries: RETRY_COUNT },
});
const [owner, repo] = this.repository.split("/");
core.debug(`Getting workflows for repo: ${this.repository}`)
core.debug(`Getting workflows for repo: ${this.repository}`);
return Promise.resolve(
await octokit.request(requestUrl, {
owner,
repo
repo,
})
)
);
}
}
src/types/k8sObject.ts
-57
View File
@@ -1,57 +0,0 @@
export interface K8sObject {
metadata: {
name: string
labels: Map<string, string>
}
kind: string
spec: any
}
export interface K8sServiceObject extends K8sObject {
spec: {
selector: Map<string, string>
}
}
export interface K8sDeleteObject {
name: string
kind: string
}
export interface K8sIngress extends K8sObject {
spec: {
rules: [
{
http: {
paths: [
{
backend: {
service: {
name: string
}
}
}
]
}
}
]
}
}
export interface TrafficSplitObject extends K8sObject {
apiVersion: string
metadata: {
name: string
labels: Map<string, string>
annotations: Map<string, string>
}
spec: {
service: string
backends: TrafficSplitBackend[]
}
}
export interface TrafficSplitBackend {
service: string
weight: number
}
src/types/kubectl.test.ts
+226 -262
View File
@@ -1,367 +1,331 @@
import {getKubectlPath, Kubectl} from './kubectl'
import * as exec from '@actions/exec'
import * as io from '@actions/io'
import * as core from '@actions/core'
import * as toolCache from '@actions/tool-cache'
import {config} from 'process'
import { getKubectlPath, Kubectl } from "./kubectl";
import * as exec from "@actions/exec";
import * as io from "@actions/io";
import * as core from "@actions/core";
import * as toolCache from "@actions/tool-cache";
import { config } from "process";
describe('Kubectl path', () => {
const version = '1.1'
const path = 'path'
describe("Kubectl path", () => {
const version = "1.1";
const path = "path";
it('gets the kubectl path', async () => {
jest.spyOn(core, 'getInput').mockImplementationOnce(() => undefined)
jest.spyOn(io, 'which').mockImplementationOnce(async () => path)
it("gets the kubectl path", async () => {
jest.spyOn(core, "getInput").mockImplementationOnce(() => undefined);
jest.spyOn(io, "which").mockImplementationOnce(async () => path);
expect(await getKubectlPath()).toBe(path)
})
expect(await getKubectlPath()).toBe(path);
});
it('gets the kubectl path with version', async () => {
jest.spyOn(core, 'getInput').mockImplementationOnce(() => version)
jest.spyOn(toolCache, 'find').mockImplementationOnce(() => path)
it("gets the kubectl path with version", async () => {
jest.spyOn(core, "getInput").mockImplementationOnce(() => version);
jest.spyOn(toolCache, "find").mockImplementationOnce(() => path);
expect(await getKubectlPath()).toBe(path)
})
expect(await getKubectlPath()).toBe(path);
});
it('throws if kubectl not found', async () => {
it("throws if kubectl not found", async () => {
// without version
jest.spyOn(io, 'which').mockImplementationOnce(async () => undefined)
await expect(() => getKubectlPath()).rejects.toThrow()
jest.spyOn(io, "which").mockImplementationOnce(async () => undefined);
await expect(() => getKubectlPath()).rejects.toThrow();
// with verision
jest.spyOn(core, 'getInput').mockImplementationOnce(() => undefined)
jest.spyOn(io, 'which').mockImplementationOnce(async () => undefined)
await expect(() => getKubectlPath()).rejects.toThrow()
})
})
jest.spyOn(core, "getInput").mockImplementationOnce(() => undefined);
jest.spyOn(io, "which").mockImplementationOnce(async () => undefined);
await expect(() => getKubectlPath()).rejects.toThrow();
});
});
const kubectlPath = 'kubectlPath'
const testNamespace = 'testNamespace'
const defaultNamespace = 'default'
describe('Kubectl class', () => {
describe('default namespace behavior', () => {
const kubectl = new Kubectl(kubectlPath, defaultNamespace)
const execReturn = {exitCode: 0, stdout: 'Output', stderr: ''}
const kubectlPath = "kubectlPath";
const namespace = "namespace";
describe("Kubectl class", () => {
const kubectl = new Kubectl(kubectlPath, namespace);
describe("with a success exec return", () => {
const execReturn = { exitCode: 0, stdout: "Output", stderr: "" };
beforeEach(() => {
jest.spyOn(exec, 'getExecOutput').mockImplementation(async () => {
return execReturn
})
})
jest.spyOn(exec, "getExecOutput").mockImplementation(async () => {
return execReturn;
});
});
describe('omits default namespace from commands', () => {
it('executes a command without appending --namespace arg', async () => {
// no args
const command = 'command'
expect(await kubectl.executeCommand(command)).toBe(execReturn)
expect(exec.getExecOutput).toBeCalledWith(kubectlPath, [command], {
silent: false
})
})
})
})
describe('with a success exec return in testNamespace', () => {
const kubectl = new Kubectl(kubectlPath, testNamespace)
const execReturn = {exitCode: 0, stdout: 'Output', stderr: ''}
beforeEach(() => {
jest.spyOn(exec, 'getExecOutput').mockImplementation(async () => {
return execReturn
})
})
it('applies a configuration with a single config path', async () => {
const configPaths = 'configPaths'
const result = await kubectl.apply(configPaths)
expect(result).toBe(execReturn)
it("applies a configuration with a single config path", async () => {
const configPaths = "configPaths";
const result = await kubectl.apply(configPaths);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
['apply', '-f', configPaths, '--namespace', testNamespace],
{silent: false}
)
})
["apply", "-f", configPaths, "--namespace", namespace],
{ silent: false }
);
});
it('applies a configuration with multiple config paths', async () => {
const configPaths = ['configPath1', 'configPath2', 'configPath3']
const result = await kubectl.apply(configPaths)
expect(result).toBe(execReturn)
it("applies a configuration with multiple config paths", async () => {
const configPaths = ["configPath1", "configPath2", "configPath3"];
const result = await kubectl.apply(configPaths);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'apply',
'-f',
configPaths[0] + ',' + configPaths[1] + ',' + configPaths[2],
'--namespace',
testNamespace
"apply",
"-f",
configPaths[0] + "," + configPaths[1] + "," + configPaths[2],
"--namespace",
namespace,
],
{silent: false}
)
})
{ silent: false }
);
});
it('applies a configuration with force when specified', async () => {
const configPaths = ['configPath1', 'configPath2', 'configPath3']
const result = await kubectl.apply(configPaths, true)
expect(result).toBe(execReturn)
it("applies a configuration with force when specified", async () => {
const configPaths = ["configPath1", "configPath2", "configPath3"];
const result = await kubectl.apply(configPaths, true);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'apply',
'-f',
configPaths[0] + ',' + configPaths[1] + ',' + configPaths[2],
'--force',
'--namespace',
testNamespace
"apply",
"-f",
configPaths[0] + "," + configPaths[1] + "," + configPaths[2],
"--force",
"--namespace",
namespace,
],
{silent: false}
)
})
{ silent: false }
);
});
it('describes a resource', async () => {
const resourceType = 'type'
const resourceName = 'name'
const result = await kubectl.describe(resourceType, resourceName)
expect(result).toBe(execReturn)
it("describes a resource", async () => {
const resourceType = "type";
const resourceName = "name";
const result = await kubectl.describe(resourceType, resourceName);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'describe',
resourceType,
resourceName,
'--namespace',
testNamespace
],
{silent: false}
)
})
["describe", resourceType, resourceName, "--namespace", namespace],
{ silent: false }
);
});
it('describes a resource silently', async () => {
const resourceType = 'type'
const resourceName = 'name'
const result = await kubectl.describe(resourceType, resourceName, true)
expect(result).toBe(execReturn)
it("describes a resource silently", async () => {
const resourceType = "type";
const resourceName = "name";
const result = await kubectl.describe(resourceType, resourceName, true);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'describe',
resourceType,
resourceName,
'--namespace',
testNamespace
],
{silent: true}
)
})
["describe", resourceType, resourceName, "--namespace", namespace],
{ silent: true }
);
});
it('annotates resource', async () => {
const resourceType = 'type'
const resourceName = 'name'
const annotation = 'annotation'
it("annotates resource", async () => {
const resourceType = "type";
const resourceName = "name";
const annotation = "annotation";
const result = await kubectl.annotate(
resourceType,
resourceName,
annotation
)
expect(result).toBe(execReturn)
);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'annotate',
"annotate",
resourceType,
resourceName,
annotation,
'--overwrite',
'--namespace',
testNamespace
"--overwrite",
"--namespace",
namespace,
],
{silent: false}
)
})
{ silent: false }
);
});
it('annotates files with single file', async () => {
const file = 'file'
const annotation = 'annotation'
const result = await kubectl.annotateFiles(file, annotation)
expect(result).toBe(execReturn)
it("annotates files with single file", async () => {
const file = "file";
const annotation = "annotation";
const result = await kubectl.annotateFiles(file, annotation);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'annotate',
'-f',
"annotate",
"-f",
file,
annotation,
'--overwrite',
'--namespace',
testNamespace
"--overwrite",
"--namespace",
namespace,
],
{silent: false}
)
})
{ silent: false }
);
});
it('annotates files with mulitple files', async () => {
const files = ['file1', 'file2', 'file3']
const annotation = 'annotation'
const result = await kubectl.annotateFiles(files, annotation)
expect(result).toBe(execReturn)
it("annotates files with mulitple files", async () => {
const files = ["file1", "file2", "file3"];
const annotation = "annotation";
const result = await kubectl.annotateFiles(files, annotation);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'annotate',
'-f',
files.join(','),
"annotate",
"-f",
files.join(","),
annotation,
'--overwrite',
'--namespace',
testNamespace
"--overwrite",
"--namespace",
namespace,
],
{silent: false}
)
})
{ silent: false }
);
});
it('labels files with single file', async () => {
const file = 'file'
const labels = ['label1', 'label2']
const result = await kubectl.labelFiles(file, labels)
expect(result).toBe(execReturn)
it("labels files with single file", async () => {
const file = "file";
const labels = ["label1", "label2"];
const result = await kubectl.labelFiles(file, labels);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'label',
'-f',
"label",
"-f",
file,
...labels,
'--overwrite',
'--namespace',
testNamespace
"--overwrite",
"--namespace",
namespace,
],
{silent: false}
)
})
{ silent: false }
);
});
it('labels files with multiple files', async () => {
const files = ['file1', 'file2', 'file3']
const labels = ['label1', 'label2']
const result = await kubectl.labelFiles(files, labels)
expect(result).toBe(execReturn)
it("labels files with multiple files", async () => {
const files = ["file1", "file2", "file3"];
const labels = ["label1", "label2"];
const result = await kubectl.labelFiles(files, labels);
expect(result).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'label',
'-f',
files.join(','),
"label",
"-f",
files.join(","),
...labels,
'--overwrite',
'--namespace',
testNamespace
"--overwrite",
"--namespace",
namespace,
],
{silent: false}
)
})
{ silent: false }
);
});
it('gets all pods', async () => {
expect(await kubectl.getAllPods()).toBe(execReturn)
it("gets all pods", async () => {
expect(await kubectl.getAllPods()).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
['get', 'pods', '-o', 'json', '--namespace', testNamespace],
{silent: true}
)
})
["get", "pods", "-o", "json", "--namespace", namespace],
{ silent: true }
);
});
it('checks rollout status', async () => {
const resourceType = 'type'
const name = 'name'
it("checks rollout status", async () => {
const resourceType = "type";
const name = "name";
expect(await kubectl.checkRolloutStatus(resourceType, name)).toBe(
execReturn
)
);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'rollout',
'status',
"rollout",
"status",
`${resourceType}/${name}`,
'--namespace',
testNamespace
"--namespace",
namespace,
],
{silent: false}
)
})
{ silent: false }
);
});
it('gets resource', async () => {
const resourceType = 'type'
const name = 'name'
expect(await kubectl.getResource(resourceType, name)).toBe(execReturn)
it("gets resource", async () => {
const resourceType = "type";
const name = "name";
expect(await kubectl.getResource(resourceType, name)).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[
'get',
"get",
`${resourceType}/${name}`,
'-o',
'json',
'--namespace',
testNamespace
"-o",
"json",
"--namespace",
namespace,
],
{silent: false}
)
})
{ silent: false }
);
});
it('executes a command', async () => {
it("executes a command", async () => {
// no args
const command = 'command'
expect(await kubectl.executeCommand(command)).toBe(execReturn)
const command = "command";
expect(await kubectl.executeCommand(command)).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[command, '--namespace', testNamespace],
{silent: false}
)
[command, "--namespace", namespace],
{ silent: false }
);
// with args
const args = 'args'
expect(await kubectl.executeCommand(command, args)).toBe(execReturn)
const args = "args";
expect(await kubectl.executeCommand(command, args)).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
[command, args, '--namespace', testNamespace],
{silent: false}
)
})
[command, args, "--namespace", namespace],
{ silent: false }
);
});
it('deletes with single argument', async () => {
const arg = 'argument'
expect(await kubectl.delete(arg)).toBe(execReturn)
it("deletes with single argument", async () => {
const arg = "argument";
expect(await kubectl.delete(arg)).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
['delete', arg, '--namespace', testNamespace],
{silent: false}
)
})
["delete", arg, "--namespace", namespace],
{ silent: false }
);
});
it('deletes with multiple arguments', async () => {
const args = ['argument1', 'argument2', 'argument3']
expect(await kubectl.delete(args)).toBe(execReturn)
it("deletes with multiple arguments", async () => {
const args = ["argument1", "argument2", "argument3"];
expect(await kubectl.delete(args)).toBe(execReturn);
expect(exec.getExecOutput).toBeCalledWith(
kubectlPath,
['delete', ...args, '--namespace', testNamespace],
{silent: false}
)
})
})
["delete", ...args, "--namespace", namespace],
{ silent: false }
);
});
});
it('gets new replica sets', async () => {
const kubectl = new Kubectl(kubectlPath, testNamespace)
const newReplicaSetName = 'newreplicaset'
const name = 'name'
it("gets new replica sets", async () => {
const newReplicaSetName = "newreplicaset";
const name = "name";
const describeReturn = {
exitCode: 0,
stdout: newReplicaSetName + name + ' ' + 'extra',
stderr: ''
}
stdout: newReplicaSetName + name + " " + "extra",
stderr: "",
};
jest.spyOn(exec, 'getExecOutput').mockImplementationOnce(async () => {
return describeReturn
})
jest.spyOn(exec, "getExecOutput").mockImplementationOnce(async () => {
return describeReturn;
});
const deployment = 'deployment'
const result = await kubectl.getNewReplicaSet(deployment)
expect(result).toBe(name)
})
})
const deployment = "deployment";
const result = await kubectl.getNewReplicaSet(deployment);
expect(result).toBe(name);
});
});
src/types/kubectl.ts
+64 -90
View File
@@ -1,35 +1,27 @@
import {ExecOutput, getExecOutput} from '@actions/exec'
import {createInlineArray} from '../utilities/arrayUtils'
import * as core from '@actions/core'
import * as toolCache from '@actions/tool-cache'
import * as io from '@actions/io'
import {exec} from 'child_process'
import { ExecOutput, getExecOutput } from "@actions/exec";
import { createInlineArray } from "../utilities/arrayUtils";
import * as core from "@actions/core";
import * as toolCache from "@actions/tool-cache";
import * as io from "@actions/io";
export interface Resource {
name: string
type: string
name: string;
type: string;
}
export class Kubectl {
protected readonly kubectlPath: string
protected readonly namespace: string
protected readonly ignoreSSLErrors: boolean
protected readonly resourceGroup: string
protected readonly name: string
protected isPrivateCluster: boolean
private readonly kubectlPath: string;
private readonly namespace: string;
private readonly ignoreSSLErrors: boolean;
constructor(
kubectlPath: string,
namespace: string = 'default',
ignoreSSLErrors: boolean = false,
resourceGroup: string = '',
name: string = ''
namespace: string = "default",
ignoreSSLErrors: boolean = false
) {
this.kubectlPath = kubectlPath
this.ignoreSSLErrors = !!ignoreSSLErrors
this.namespace = namespace
this.resourceGroup = resourceGroup
this.name = name
this.kubectlPath = kubectlPath;
this.ignoreSSLErrors = !!ignoreSSLErrors;
this.namespace = namespace;
}
public async apply(
@@ -38,18 +30,18 @@ export class Kubectl {
): Promise<ExecOutput> {
try {
if (!configurationPaths || configurationPaths?.length === 0)
throw Error('Configuration paths must exist')
throw Error("Configuration paths must exist");
const applyArgs: string[] = [
'apply',
'-f',
createInlineArray(configurationPaths)
]
if (force) applyArgs.push('--force')
"apply",
"-f",
createInlineArray(configurationPaths),
];
if (force) applyArgs.push("--force");
return await this.execute(applyArgs)
return await this.execute(applyArgs);
} catch (err) {
core.debug('Kubectl apply failed:' + err)
core.debug("Kubectl apply failed:" + err);
}
}
@@ -58,29 +50,26 @@ export class Kubectl {
resourceName: string,
silent: boolean = false
): Promise<ExecOutput> {
return await this.execute(
['describe', resourceType, resourceName],
silent
)
return await this.execute(["describe", resourceType, resourceName], silent);
}
public async getNewReplicaSet(deployment: string) {
const result = await this.describe('deployment', deployment, true)
const result = await this.describe("deployment", deployment, true);
let newReplicaSet = ''
let newReplicaSet = "";
if (result?.stdout) {
const stdout = result.stdout.split('\n')
const stdout = result.stdout.split("\n");
stdout.forEach((line: string) => {
const newreplicaset = 'newreplicaset'
const newreplicaset = "newreplicaset";
if (line && line.toLowerCase().indexOf(newreplicaset) > -1)
newReplicaSet = line
.substring(newreplicaset.length)
.trim()
.split(' ')[0]
})
.split(" ")[0];
});
}
return newReplicaSet
return newReplicaSet;
}
public async annotate(
@@ -89,13 +78,13 @@ export class Kubectl {
annotation: string
): Promise<ExecOutput> {
const args = [
'annotate',
"annotate",
resourceType,
resourceName,
annotation,
'--overwrite'
]
return await this.execute(args)
"--overwrite",
];
return await this.execute(args);
}
public async annotateFiles(
@@ -103,13 +92,13 @@ export class Kubectl {
annotation: string
): Promise<ExecOutput> {
const args = [
'annotate',
'-f',
"annotate",
"-f",
createInlineArray(files),
annotation,
'--overwrite'
]
return await this.execute(args)
"--overwrite",
];
return await this.execute(args);
}
public async labelFiles(
@@ -117,78 +106,63 @@ export class Kubectl {
labels: string[]
): Promise<ExecOutput> {
const args = [
'label',
'-f',
"label",
"-f",
createInlineArray(files),
...labels,
'--overwrite'
]
return await this.execute(args)
"--overwrite",
];
return await this.execute(args);
}
public async getAllPods(): Promise<ExecOutput> {
return await this.execute(['get', 'pods', '-o', 'json'], true)
return await this.execute(["get", "pods", "-o", "json"], true);
}
public async checkRolloutStatus(
resourceType: string,
name: string
): Promise<ExecOutput> {
return await this.execute([
'rollout',
'status',
`${resourceType}/${name}`
])
return await this.execute(["rollout", "status", `${resourceType}/${name}`]);
}
public async getResource(
resourceType: string,
name: string,
silentFailure: boolean = false
name: string
): Promise<ExecOutput> {
core.debug(
'fetching resource of type ' + resourceType + ' and name ' + name
)
return await this.execute(
['get', `${resourceType}/${name}`, '-o', 'json'],
silentFailure
)
return await this.execute(["get", `${resourceType}/${name}`, "-o", "json"]);
}
public executeCommand(command: string, args?: string) {
if (!command) throw new Error('Command must be defined')
return args ? this.execute([command, args]) : this.execute([command])
if (!command) throw new Error("Command must be defined");
return args ? this.execute([command, args]) : this.execute([command]);
}
public delete(args: string | string[]) {
if (typeof args === 'string') return this.execute(['delete', args])
return this.execute(['delete', ...args])
if (typeof args === "string") return this.execute(["delete", args]);
return this.execute(["delete", ...args]);
}
protected async execute(args: string[], silent: boolean = false) {
private async execute(args: string[], silent: boolean = false) {
if (this.ignoreSSLErrors) {
args.push('--insecure-skip-tls-verify')
args.push("--insecure-skip-tls-verify");
}
if (this.namespace && this.namespace != 'default') {
args = args.concat(['--namespace', this.namespace])
}
core.debug(`Kubectl run with command: ${this.kubectlPath} ${args}`)
args = args.concat(["--namespace", this.namespace]);
return await getExecOutput(this.kubectlPath, args, {
silent
})
core.debug(`Kubectl run with command: ${this.kubectlPath} ${args}`);
return await getExecOutput(this.kubectlPath, args, { silent });
}
}
export async function getKubectlPath() {
const version = core.getInput('kubectl-version')
const version = core.getInput("kubectl-version");
const kubectlPath = version
? toolCache.find('kubectl', version)
: await io.which('kubectl', true)
? toolCache.find("kubectl", version)
: await io.which("kubectl", true);
if (!kubectlPath)
throw Error(
'kubectl not found. You must install it before running this action'
)
"kubectl not found. You must install it before running this action"
);
return kubectlPath
return kubectlPath;
}
src/types/kubernetesTypes.test.ts
+75 -77
View File
@@ -9,109 +9,107 @@ import {
ResourceKindNotDefinedError,
ServiceTypes,
WORKLOAD_TYPES,
WORKLOAD_TYPES_WITH_ROLLOUT_STATUS
} from './kubernetesTypes'
WORKLOAD_TYPES_WITH_ROLLOUT_STATUS,
} from "./kubernetesTypes";
describe('Kubernetes types', () => {
it('contains kubernetes workloads', () => {
expect(KubernetesWorkload.POD).toBe('Pod')
expect(KubernetesWorkload.REPLICASET).toBe('Replicaset')
expect(KubernetesWorkload.DEPLOYMENT).toBe('Deployment')
expect(KubernetesWorkload.STATEFUL_SET).toBe('StatefulSet')
expect(KubernetesWorkload.DAEMON_SET).toBe('DaemonSet')
expect(KubernetesWorkload.JOB).toBe('job')
expect(KubernetesWorkload.CRON_JOB).toBe('cronjob')
})
describe("Kubernetes types", () => {
it("contains kubernetes workloads", () => {
expect(KubernetesWorkload.POD).toBe("Pod");
expect(KubernetesWorkload.REPLICASET).toBe("Replicaset");
expect(KubernetesWorkload.DEPLOYMENT).toBe("Deployment");
expect(KubernetesWorkload.STATEFUL_SET).toBe("StatefulSet");
expect(KubernetesWorkload.DAEMON_SET).toBe("DaemonSet");
expect(KubernetesWorkload.JOB).toBe("job");
expect(KubernetesWorkload.CRON_JOB).toBe("cronjob");
});
it('contains discovery and load balancer resources', () => {
expect(DiscoveryAndLoadBalancerResource.SERVICE).toBe('service')
expect(DiscoveryAndLoadBalancerResource.INGRESS).toBe('ingress')
})
it("contains discovery and load balancer resources", () => {
expect(DiscoveryAndLoadBalancerResource.SERVICE).toBe("service");
expect(DiscoveryAndLoadBalancerResource.INGRESS).toBe("ingress");
});
it('contains service types', () => {
expect(ServiceTypes.LOAD_BALANCER).toBe('LoadBalancer')
expect(ServiceTypes.NODE_PORT).toBe('NodePort')
expect(ServiceTypes.CLUSTER_IP).toBe('ClusterIP')
})
it("contains service types", () => {
expect(ServiceTypes.LOAD_BALANCER).toBe("LoadBalancer");
expect(ServiceTypes.NODE_PORT).toBe("NodePort");
expect(ServiceTypes.CLUSTER_IP).toBe("ClusterIP");
});
it('contains deployment types', () => {
it("contains deployment types", () => {
const expected = [
'deployment',
'replicaset',
'daemonset',
'pod',
'statefulset'
]
expect(expected.every((val) => DEPLOYMENT_TYPES.includes(val))).toBe(true)
})
"deployment",
"replicaset",
"daemonset",
"pod",
"statefulset",
];
expect(expected.every((val) => DEPLOYMENT_TYPES.includes(val))).toBe(true);
});
it('contains workload types', () => {
it("contains workload types", () => {
const expected = [
'deployment',
'replicaset',
'daemonset',
'pod',
'statefulset',
'job',
'cronjob'
]
expect(expected.every((val) => WORKLOAD_TYPES.includes(val))).toBe(true)
})
"deployment",
"replicaset",
"daemonset",
"pod",
"statefulset",
"job",
"cronjob",
];
expect(expected.every((val) => WORKLOAD_TYPES.includes(val))).toBe(true);
});
it('contains workload types with rollout status', () => {
const expected = ['deployment', 'daemonset', 'statefulset']
it("contains workload types with rollout status", () => {
const expected = ["deployment", "daemonset", "statefulset"];
expect(
expected.every((val) =>
WORKLOAD_TYPES_WITH_ROLLOUT_STATUS.includes(val)
)
).toBe(true)
})
expected.every((val) => WORKLOAD_TYPES_WITH_ROLLOUT_STATUS.includes(val))
).toBe(true);
});
it('checks if kind is deployment entity', () => {
it("checks if kind is deployment entity", () => {
// throws on no kind
expect(() => isDeploymentEntity(undefined)).toThrow(
ResourceKindNotDefinedError
)
);
expect(isDeploymentEntity('deployment')).toBe(true)
expect(isDeploymentEntity('Deployment')).toBe(true)
expect(isDeploymentEntity('deploymenT')).toBe(true)
expect(isDeploymentEntity('DEPLOYMENT')).toBe(true)
})
expect(isDeploymentEntity("deployment")).toBe(true);
expect(isDeploymentEntity("Deployment")).toBe(true);
expect(isDeploymentEntity("deploymenT")).toBe(true);
expect(isDeploymentEntity("DEPLOYMENT")).toBe(true);
});
it('checks if kind is workload entity', () => {
it("checks if kind is workload entity", () => {
// throws on no kind
expect(() => isWorkloadEntity(undefined)).toThrow(
ResourceKindNotDefinedError
)
);
expect(isWorkloadEntity('deployment')).toBe(true)
expect(isWorkloadEntity('Deployment')).toBe(true)
expect(isWorkloadEntity('deploymenT')).toBe(true)
expect(isWorkloadEntity('DEPLOYMENT')).toBe(true)
})
expect(isWorkloadEntity("deployment")).toBe(true);
expect(isWorkloadEntity("Deployment")).toBe(true);
expect(isWorkloadEntity("deploymenT")).toBe(true);
expect(isWorkloadEntity("DEPLOYMENT")).toBe(true);
});
it('checks if kind is service entity', () => {
it("checks if kind is service entity", () => {
// throws on no kind
expect(() => isServiceEntity(undefined)).toThrow(
ResourceKindNotDefinedError
)
);
expect(isServiceEntity('service')).toBe(true)
expect(isServiceEntity('Service')).toBe(true)
expect(isServiceEntity('servicE')).toBe(true)
expect(isServiceEntity('SERVICE')).toBe(true)
})
expect(isServiceEntity("service")).toBe(true);
expect(isServiceEntity("Service")).toBe(true);
expect(isServiceEntity("servicE")).toBe(true);
expect(isServiceEntity("SERVICE")).toBe(true);
});
it('checks if kind is ingress entity', () => {
it("checks if kind is ingress entity", () => {
// throws on no kind
expect(() => isIngressEntity(undefined)).toThrow(
ResourceKindNotDefinedError
)
);
expect(isIngressEntity('ingress')).toBe(true)
expect(isIngressEntity('Ingress')).toBe(true)
expect(isIngressEntity('ingresS')).toBe(true)
expect(isIngressEntity('INGRESS')).toBe(true)
})
})
expect(isIngressEntity("ingress")).toBe(true);
expect(isIngressEntity("Ingress")).toBe(true);
expect(isIngressEntity("ingresS")).toBe(true);
expect(isIngressEntity("INGRESS")).toBe(true);
});
});
src/types/kubernetesTypes.ts
+45 -45
View File
@@ -1,81 +1,81 @@
export class KubernetesWorkload {
public static POD: string = 'Pod'
public static REPLICASET: string = 'Replicaset'
public static DEPLOYMENT: string = 'Deployment'
public static STATEFUL_SET: string = 'StatefulSet'
public static DAEMON_SET: string = 'DaemonSet'
public static JOB: string = 'job'
public static CRON_JOB: string = 'cronjob'
public static POD: string = "Pod";
public static REPLICASET: string = "Replicaset";
public static DEPLOYMENT: string = "Deployment";
public static STATEFUL_SET: string = "StatefulSet";
public static DAEMON_SET: string = "DaemonSet";
public static JOB: string = "job";
public static CRON_JOB: string = "cronjob";
}
export class DiscoveryAndLoadBalancerResource {
public static SERVICE: string = 'service'
public static INGRESS: string = 'ingress'
public static SERVICE: string = "service";
public static INGRESS: string = "ingress";
}
export class ServiceTypes {
public static LOAD_BALANCER: string = 'LoadBalancer'
public static NODE_PORT: string = 'NodePort'
public static CLUSTER_IP: string = 'ClusterIP'
public static LOAD_BALANCER: string = "LoadBalancer";
public static NODE_PORT: string = "NodePort";
public static CLUSTER_IP: string = "ClusterIP";
}
export const DEPLOYMENT_TYPES: string[] = [
'deployment',
'replicaset',
'daemonset',
'pod',
'statefulset'
]
"deployment",
"replicaset",
"daemonset",
"pod",
"statefulset",
];
export const WORKLOAD_TYPES: string[] = [
'deployment',
'replicaset',
'daemonset',
'pod',
'statefulset',
'job',
'cronjob'
]
"deployment",
"replicaset",
"daemonset",
"pod",
"statefulset",
"job",
"cronjob",
];
export const WORKLOAD_TYPES_WITH_ROLLOUT_STATUS: string[] = [
'deployment',
'daemonset',
'statefulset'
]
"deployment",
"daemonset",
"statefulset",
];
export function isDeploymentEntity(kind: string): boolean {
if (!kind) throw ResourceKindNotDefinedError
if (!kind) throw ResourceKindNotDefinedError;
return DEPLOYMENT_TYPES.some((type: string) => {
return type.toLowerCase() === kind.toLowerCase()
})
return type.toLowerCase() === kind.toLowerCase();
});
}
export function isWorkloadEntity(kind: string): boolean {
if (!kind) throw ResourceKindNotDefinedError
if (!kind) throw ResourceKindNotDefinedError;
return WORKLOAD_TYPES.some(
(type: string) => type.toLowerCase() === kind.toLowerCase()
)
);
}
export function isServiceEntity(kind: string): boolean {
if (!kind) throw ResourceKindNotDefinedError
if (!kind) throw ResourceKindNotDefinedError;
return 'service' === kind.toLowerCase()
return "service" === kind.toLowerCase();
}
export function isIngressEntity(kind: string): boolean {
if (!kind) throw ResourceKindNotDefinedError
if (!kind) throw ResourceKindNotDefinedError;
return 'ingress' === kind.toLowerCase()
return "ingress" === kind.toLowerCase();
}
export const ResourceKindNotDefinedError = Error('Resource kind not defined')
export const NullInputObjectError = Error('Null inputObject')
export const ResourceKindNotDefinedError = Error("Resource kind not defined");
export const NullInputObjectError = Error("Null inputObject");
export const InputObjectKindNotDefinedError = Error(
'Input object kind not defined'
)
"Input object kind not defined"
);
export const InputObjectMetadataNotDefinedError = Error(
'Input object metatada not defined'
)
"Input object metatada not defined"
);
src/types/privatekubectl.ts
-135
View File
@@ -1,135 +0,0 @@
import {Kubectl} from './kubectl'
import {ExecOptions, ExecOutput, getExecOutput} from '@actions/exec'
import * as core from '@actions/core'
import * as os from 'os'
import * as fs from 'fs'
import * as path from 'path'
export class PrivateKubectl extends Kubectl {
protected async execute(args: string[], silent: boolean = false) {
args.unshift('kubectl')
let kubectlCmd = args.join(' ')
let addFileFlag = false
let eo = <ExecOptions>{silent}
if (this.containsFilenames(kubectlCmd)) {
// For private clusters, files will referenced solely by their basename
kubectlCmd = this.replaceFilnamesWithBasenames(kubectlCmd)
addFileFlag = true
}
const privateClusterArgs = [
'aks',
'command',
'invoke',
'--resource-group',
this.resourceGroup,
'--name',
this.name,
'--command',
kubectlCmd
]
if (addFileFlag) {
const filenames = this.extractFilesnames(kubectlCmd).split(' ')
const tempDirectory =
process.env['runner.tempDirectory'] || os.tmpdir() + '/manifests'
eo.cwd = tempDirectory
privateClusterArgs.push(...['--file', '.'])
let filenamesArr = filenames[0].split(',')
for (let index = 0; index < filenamesArr.length; index++) {
const file = filenamesArr[index]
if (!file) {
continue
}
this.moveFileToTempManifestDir(file)
}
}
core.debug(
`private cluster Kubectl run with invoke command: ${kubectlCmd}`
)
return await getExecOutput('az', privateClusterArgs, eo)
}
private replaceFilnamesWithBasenames(kubectlCmd: string) {
let exFilenames = this.extractFilesnames(kubectlCmd)
let filenames = exFilenames.split(' ')
let filenamesArr = filenames[0].split(',')
for (let index = 0; index < filenamesArr.length; index++) {
filenamesArr[index] = path.basename(filenamesArr[index])
}
let baseFilenames = filenamesArr.join()
let result = kubectlCmd.replace(exFilenames, baseFilenames)
return result
}
public extractFilesnames(strToParse: string) {
let start = strToParse.indexOf('-filename')
let offset = 7
if (start == -1) {
start = strToParse.indexOf('-f')
if (start == -1) {
return ''
}
offset = 0
}
let temp = strToParse.substring(start + offset)
let end = temp.indexOf(' -')
//End could be case where the -f flag was last, or -f is followed by some additonal flag and it's arguments
return temp.substring(3, end == -1 ? temp.length : end).trim()
}
private containsFilenames(str: string) {
return str.includes('-f ') || str.includes('filename ')
}
private createTempManifestsDirectory() {
const manifestsDir = '/tmp/manifests'
if (!fs.existsSync('/tmp/manifests')) {
fs.mkdirSync('/tmp/manifests', {recursive: true})
}
}
private moveFileToTempManifestDir(file: string) {
this.createTempManifestsDirectory()
if (!fs.existsSync('/tmp/' + file)) {
core.debug(
'/tmp/' +
file +
' does not exist, and therefore cannot be moved to the manifest directory'
)
}
fs.copyFile('/tmp/' + file, '/tmp/manifests/' + file, function (err) {
if (err) {
core.debug(
'Could not rename ' +
'/tmp/' +
file +
' to ' +
'/tmp/manifests/' +
file +
' ERROR: ' +
err
)
return
}
core.debug(
"Successfully moved file '" +
file +
"' from /tmp to /tmp/manifest directory"
)
})
}
}
src/types/routeStrategy.test.ts
+18 -18
View File
@@ -1,22 +1,22 @@
import {parseRouteStrategy, RouteStrategy} from './routeStrategy'
import { parseRouteStrategy, RouteStrategy } from "./routeStrategy";
describe('Route strategy type', () => {
test('it has required values', () => {
const vals = <any>Object.values(RouteStrategy)
expect(vals.includes('ingress')).toBe(true)
expect(vals.includes('smi')).toBe(true)
expect(vals.includes('service')).toBe(true)
})
describe("Route strategy type", () => {
test("it has required values", () => {
const vals = <any>Object.values(RouteStrategy);
expect(vals.includes("ingress")).toBe(true);
expect(vals.includes("smi")).toBe(true);
expect(vals.includes("service")).toBe(true);
});
test('it can parse valid values from a string', () => {
expect(parseRouteStrategy('ingress')).toBe(RouteStrategy.INGRESS)
expect(parseRouteStrategy('Ingress')).toBe(RouteStrategy.INGRESS)
expect(parseRouteStrategy('ingresS')).toBe(RouteStrategy.INGRESS)
expect(parseRouteStrategy('INGRESS')).toBe(RouteStrategy.INGRESS)
})
test("it can parse valid values from a string", () => {
expect(parseRouteStrategy("ingress")).toBe(RouteStrategy.INGRESS);
expect(parseRouteStrategy("Ingress")).toBe(RouteStrategy.INGRESS);
expect(parseRouteStrategy("ingresS")).toBe(RouteStrategy.INGRESS);
expect(parseRouteStrategy("INGRESS")).toBe(RouteStrategy.INGRESS);
});
test("it will return undefined if it can't parse values from a string", () => {
expect(parseRouteStrategy('invalid')).toBe(undefined)
expect(parseRouteStrategy('unsupportedType')).toBe(undefined)
})
})
expect(parseRouteStrategy("invalid")).toBe(undefined);
expect(parseRouteStrategy("unsupportedType")).toBe(undefined);
});
});
src/types/routeStrategy.ts
+4 -4
View File
@@ -1,7 +1,7 @@
export enum RouteStrategy {
INGRESS = 'ingress',
SMI = 'smi',
SERVICE = 'service'
INGRESS = "ingress",
SMI = "smi",
SERVICE = "service",
}
export const parseRouteStrategy = (str: string): RouteStrategy | undefined =>
@@ -9,4 +9,4 @@ export const parseRouteStrategy = (str: string): RouteStrategy | undefined =>
Object.keys(RouteStrategy).filter(
(k) => RouteStrategy[k].toString().toLowerCase() === str.toLowerCase()
)[0] as keyof typeof RouteStrategy
]
];
src/types/trafficSplitMethod.test.ts
+20 -17
View File
@@ -1,21 +1,24 @@
import {parseTrafficSplitMethod, TrafficSplitMethod} from './trafficSplitMethod'
import {
parseTrafficSplitMethod,
TrafficSplitMethod,
} from "./trafficSplitMethod";
describe('Traffic split method type', () => {
test('it has required values', () => {
const vals = <any>Object.values(TrafficSplitMethod)
expect(vals.includes('pod')).toBe(true)
expect(vals.includes('smi')).toBe(true)
})
describe("Traffic split method type", () => {
test("it has required values", () => {
const vals = <any>Object.values(TrafficSplitMethod);
expect(vals.includes("pod")).toBe(true);
expect(vals.includes("smi")).toBe(true);
});
test('it can parse valid values from a string', () => {
expect(parseTrafficSplitMethod('pod')).toBe(TrafficSplitMethod.POD)
expect(parseTrafficSplitMethod('Pod')).toBe(TrafficSplitMethod.POD)
expect(parseTrafficSplitMethod('poD')).toBe(TrafficSplitMethod.POD)
expect(parseTrafficSplitMethod('POD')).toBe(TrafficSplitMethod.POD)
})
test("it can parse valid values from a string", () => {
expect(parseTrafficSplitMethod("pod")).toBe(TrafficSplitMethod.POD);
expect(parseTrafficSplitMethod("Pod")).toBe(TrafficSplitMethod.POD);
expect(parseTrafficSplitMethod("poD")).toBe(TrafficSplitMethod.POD);
expect(parseTrafficSplitMethod("POD")).toBe(TrafficSplitMethod.POD);
});
test("it will return undefined if it can't parse values from a string", () => {
expect(parseTrafficSplitMethod('invalid')).toBe(undefined)
expect(parseTrafficSplitMethod('unsupportedType')).toBe(undefined)
})
})
expect(parseTrafficSplitMethod("invalid")).toBe(undefined);
expect(parseTrafficSplitMethod("unsupportedType")).toBe(undefined);
});
});
src/types/trafficSplitMethod.ts
+3 -3
View File
@@ -1,6 +1,6 @@
export enum TrafficSplitMethod {
POD = 'pod',
SMI = 'smi'
POD = "pod",
SMI = "smi",
}
/**
@@ -16,4 +16,4 @@ export const parseTrafficSplitMethod = (
(k) =>
TrafficSplitMethod[k].toString().toLowerCase() === str.toLowerCase()
)[0] as keyof typeof TrafficSplitMethod
]
];
src/utilities/arrayUtils.test.ts
+10 -10
View File
@@ -1,12 +1,12 @@
import {createInlineArray} from './arrayUtils'
import { createInlineArray } from "./arrayUtils";
describe('array utilities', () => {
it('creates an inline array', () => {
const strings = ['str1', 'str2', 'str3']
expect(createInlineArray(strings)).toBe(strings.join(','))
describe("array utilities", () => {
it("creates an inline array", () => {
const strings = ["str1", "str2", "str3"];
expect(createInlineArray(strings)).toBe(strings.join(","));
const string = 'str1'
expect(createInlineArray([string])).toBe(string)
expect(createInlineArray(string)).toBe(string)
})
})
const string = "str1";
expect(createInlineArray([string])).toBe(string);
expect(createInlineArray(string)).toBe(string);
});
});
src/utilities/arrayUtils.ts
+3 -3
View File
@@ -1,6 +1,6 @@
export function createInlineArray(str: string | string[]): string {
if (typeof str === 'string') {
return str
if (typeof str === "string") {
return str;
}
return str.join(',')
return str.join(",");
}
src/utilities/dockerUtils.test.ts
+11 -11
View File
@@ -1,15 +1,15 @@
import * as io from '@actions/io'
import {checkDockerPath} from './dockerUtils'
import * as io from "@actions/io";
import { checkDockerPath } from "./dockerUtils";
describe('docker utilities', () => {
it('checks if docker is installed', async () => {
describe("docker utilities", () => {
it("checks if docker is installed", async () => {
// docker installed
const path = 'path'
jest.spyOn(io, 'which').mockImplementationOnce(async () => path)
expect(() => checkDockerPath()).not.toThrow()
const path = "path";
jest.spyOn(io, "which").mockImplementationOnce(async () => path);
expect(() => checkDockerPath()).not.toThrow();
// docker not installed
jest.spyOn(io, 'which').mockImplementationOnce(async () => undefined)
await expect(() => checkDockerPath()).rejects.toThrow()
})
})
jest.spyOn(io, "which").mockImplementationOnce(async () => undefined);
await expect(() => checkDockerPath()).rejects.toThrow();
});
});
src/utilities/dockerUtils.ts
+30 -30
View File
@@ -1,41 +1,41 @@
import * as io from '@actions/io'
import {DeploymentConfig} from '../types/deploymentConfig'
import * as core from '@actions/core'
import {DockerExec} from '../types/docker'
import {getNormalizedPath} from './githubUtils'
import * as io from "@actions/io";
import { DeploymentConfig } from "../types/deploymentConfig";
import * as core from "@actions/core";
import { DockerExec } from "../types/docker";
import { getNormalizedPath } from "./githubUtils";
export async function getDeploymentConfig(): Promise<DeploymentConfig> {
let helmChartPaths: string[] =
process.env?.HELM_CHART_PATHS?.split(';').filter((path) => path != '') ||
[]
process.env?.HELM_CHART_PATHS?.split(";").filter((path) => path != "") ||
[];
helmChartPaths = helmChartPaths.map((helmchart) =>
getNormalizedPath(helmchart.trim())
)
);
let inputManifestFiles: string[] =
core
.getInput('manifests')
.getInput("manifests")
.split(/[\n,;]+/)
.filter((manifest) => manifest.trim().length > 0) || []
.filter((manifest) => manifest.trim().length > 0) || [];
if (helmChartPaths?.length == 0) {
inputManifestFiles = inputManifestFiles.map((manifestFile) =>
getNormalizedPath(manifestFile)
)
);
}
const imageNames = core.getInput('images').split('\n') || []
const imageDockerfilePathMap: {[id: string]: string} = {}
const imageNames = core.getInput("images").split("\n") || [];
const imageDockerfilePathMap: { [id: string]: string } = {};
const pullImages = !(core.getInput('pull-images').toLowerCase() === 'false')
const pullImages = !(core.getInput("pull-images").toLowerCase() === "false");
if (pullImages) {
//Fetching from image label if available
for (const image of imageNames) {
try {
imageDockerfilePathMap[image] = await getDockerfilePath(image)
imageDockerfilePathMap[image] = await getDockerfilePath(image);
} catch (ex) {
core.warning(
`Failed to get dockerfile path for image ${image.toString()}: ${ex} `
)
);
}
}
}
@@ -43,33 +43,33 @@ export async function getDeploymentConfig(): Promise<DeploymentConfig> {
return Promise.resolve(<DeploymentConfig>{
manifestFilePaths: inputManifestFiles,
helmChartFilePaths: helmChartPaths,
dockerfilePaths: imageDockerfilePathMap
})
dockerfilePaths: imageDockerfilePathMap,
});
}
async function getDockerfilePath(image: any): Promise<string> {
await checkDockerPath()
const dockerExec: DockerExec = new DockerExec('docker')
await dockerExec.pull(image, [], false)
await checkDockerPath();
const dockerExec: DockerExec = new DockerExec("docker");
await dockerExec.pull(image, [], false);
const imageInspectResult: string = await dockerExec.inspect(image, [], false)
const imageConfig = JSON.parse(imageInspectResult)[0]
const DOCKERFILE_PATH_LABEL_KEY = 'dockerfile-path'
const imageInspectResult: string = await dockerExec.inspect(image, [], false);
const imageConfig = JSON.parse(imageInspectResult)[0];
const DOCKERFILE_PATH_LABEL_KEY = "dockerfile-path";
let pathValue: string = ''
let pathValue: string = "";
if (
imageConfig?.Config?.Labels &&
imageConfig?.Config?.Labels[DOCKERFILE_PATH_LABEL_KEY]
) {
const pathLabel = imageConfig.Config.Labels[DOCKERFILE_PATH_LABEL_KEY]
pathValue = getNormalizedPath(pathLabel)
const pathLabel = imageConfig.Config.Labels[DOCKERFILE_PATH_LABEL_KEY];
pathValue = getNormalizedPath(pathLabel);
}
return Promise.resolve(pathValue)
return Promise.resolve(pathValue);
}
export async function checkDockerPath() {
const dockerPath = await io.which('docker', false)
const dockerPath = await io.which("docker", false);
if (!dockerPath) {
throw new Error('Docker is not installed.')
throw new Error("Docker is not installed.");
}
}
src/utilities/fileUtils.test.ts
+32 -46
View File
@@ -1,63 +1,49 @@
import {getFilesFromDirectories} from './fileUtils'
import {
getFilesFromDirectories
} from "./fileUtils";
import * as path from 'path'
import * as path from "path";
describe('File utils', () => {
it('detects files in nested directories and ignores non-manifest files and empty dirs', () => {
const testPath = path.join('test', 'unit', 'manifests')
describe("File utils", () => {
it("detects files in nested directories and ignores non-manifest files and empty dirs", () => {
const testPath = path.join("test", "unit", "manifests")
const testSearch: string[] = getFilesFromDirectories([testPath])
const expectedManifests = [
'test/unit/manifests/manifest_test_dir/another_layer/deep-ingress.yaml',
'test/unit/manifests/manifest_test_dir/another_layer/deep-service.yaml',
'test/unit/manifests/manifest_test_dir/nested-test-service.yaml',
'test/unit/manifests/test-ingress.yml',
'test/unit/manifests/test-ingress-new.yml',
'test/unit/manifests/test-service.yml'
const expectedManifests =
[
"test/unit/manifests/manifest_test_dir/another_layer/deep-ingress.yaml",
"test/unit/manifests/manifest_test_dir/another_layer/deep-service.yaml",
"test/unit/manifests/manifest_test_dir/nested-test-service.yaml",
"test/unit/manifests/test-ingress.yml",
"test/unit/manifests/test-service.yml"
]
// is there a more efficient way to test equality w random order?
expect(testSearch).toHaveLength(7)
expect(testSearch).toHaveLength(5);
expectedManifests.forEach((fileName) => {
expect(testSearch).toContain(fileName)
})
})
it('crashes when an invalid file is provided', () => {
const badPath = path.join('test', 'unit', 'manifests', 'nonexistent.yaml')
const goodPath = path.join(
'test',
'unit',
'manifests',
'manifest_test_dir'
)
});
expect(() => {
getFilesFromDirectories([badPath, goodPath])
}).toThrowError()
})
it("crashes when an invalid file is provided", () => {
const badPath = path.join("test", "unit", "manifests", "nonexistent.yaml")
const goodPath = path.join("test", "unit", "manifests", "manifest_test_dir")
expect(() => {getFilesFromDirectories([badPath, goodPath])}).toThrowError()
});
it("doesn't duplicate files when nested dir included", () => {
const outerPath = path.join('test', 'unit', 'manifests')
const fileAtOuter = path.join(
'test',
'unit',
'manifests',
'test-service.yml'
)
const innerPath = path.join(
'test',
'unit',
'manifests',
'manifest_test_dir'
)
const outerPath = path.join("test", "unit", "manifests")
const fileAtOuter = path.join("test", "unit", "manifests", "test-service.yml")
const innerPath = path.join("test", "unit", "manifests", "manifest_test_dir")
expect(
getFilesFromDirectories([outerPath, fileAtOuter, innerPath])
).toHaveLength(7)
expect(getFilesFromDirectories([outerPath, fileAtOuter, innerPath])).toHaveLength(5)
})
})
});
// files that don't exist / nested files that don't exist / something else with non-manifest
// lots of combinations of pointing to a directory and non yaml/yaml file
// similarly named files in different folders
// files that don't exist / nested files that don't exist / something else with non-manifest
// lots of combinations of pointing to a directory and non yaml/yaml file
// similarly named files in different folders
src/utilities/fileUtils.ts
+42 -49
View File
@@ -1,41 +1,41 @@
import * as fs from 'fs'
import * as path from 'path'
import * as core from '@actions/core'
import * as os from 'os'
import {getCurrentTime} from './timeUtils'
import * as fs from "fs";
import * as path from "path";
import * as core from "@actions/core";
import * as os from "os";
import { getCurrentTime } from "./timeUtils";
export function getTempDirectory(): string {
return process.env['runner.tempDirectory'] || os.tmpdir()
return process.env["runner.tempDirectory"] || os.tmpdir();
}
export function writeObjectsToFile(inputObjects: any[]): string[] {
const newFilePaths = []
const newFilePaths = [];
inputObjects.forEach((inputObject: any) => {
try {
const inputObjectString = JSON.stringify(inputObject)
const inputObjectString = JSON.stringify(inputObject);
if (inputObject?.metadata?.name) {
const fileName = getManifestFileName(
inputObject.kind,
inputObject.metadata.name
)
fs.writeFileSync(path.join(fileName), inputObjectString)
newFilePaths.push(fileName)
);
fs.writeFileSync(path.join(fileName), inputObjectString);
newFilePaths.push(fileName);
} else {
core.debug(
'Input object is not proper K8s resource object. Object: ' +
"Input object is not proper K8s resource object. Object: " +
inputObjectString
)
);
}
} catch (ex) {
core.debug(
`Exception occurred while writing object to file ${inputObject}: ${ex}`
)
);
}
})
});
return newFilePaths
return newFilePaths;
}
export function writeManifestToFile(
@@ -45,72 +45,65 @@ export function writeManifestToFile(
): string {
if (inputObjectString) {
try {
const fileName = getManifestFileName(kind, name)
fs.writeFileSync(path.join(fileName), inputObjectString)
return fileName
const fileName = getManifestFileName(kind, name);
fs.writeFileSync(path.join(fileName), inputObjectString);
return fileName;
} catch (ex) {
throw Error(
`Exception occurred while writing object to file: ${inputObjectString}. Exception: ${ex}`
)
);
}
}
}
function getManifestFileName(kind: string, name: string) {
const filePath = `${kind}_${name}_${getCurrentTime().toString()}`
const tempDirectory = getTempDirectory()
return path.join(tempDirectory, path.basename(filePath))
const filePath = `${kind}_${name}_ ${getCurrentTime().toString()}`;
const tempDirectory = getTempDirectory();
return path.join(tempDirectory, path.basename(filePath));
}
export function getFilesFromDirectories(filePaths: string[]): string[] {
export function getFilesFromDirectories(
filePaths: string[]
): string[]{
const fullPathSet: Set<string> = new Set<string>()
filePaths.forEach((fileName) => {
filePaths.forEach((fileName => {
try {
if (fs.lstatSync(fileName).isDirectory()) {
recurisveManifestGetter(fileName).forEach((file) => {
fullPathSet.add(file)
})
} else if (
getFileExtension(fileName) === 'yml' ||
getFileExtension(fileName) === 'yaml'
) {
if(fs.lstatSync(fileName).isDirectory()){
recurisveManifestGetter(fileName).forEach((file) => {fullPathSet.add(file)})
} else if(getFileExtension(fileName) === "yml" || getFileExtension(fileName) === "yaml"){
fullPathSet.add(fileName)
} else {
core.debug(
`Detected non-manifest file, ${fileName}, continuing... `
)
} else{
core.debug(`Detected non-manifest file, ${fileName}, continuing... ` )
}
} catch (ex) {
throw Error(
`Exception occurred while reading the file ${fileName}: ${ex}`
)
);
}
})
}))
return Array.from(fullPathSet)
}
function recurisveManifestGetter(dirName: string): string[] {
function recurisveManifestGetter(dirName: string): string[]{
const toRet: string[] = []
fs.readdirSync(dirName).forEach((fileName) => {
const fnwd: string = path.join(dirName, fileName)
if (fs.lstatSync(fnwd).isDirectory()) {
if(fs.lstatSync(fnwd).isDirectory()){
toRet.push(...recurisveManifestGetter(fnwd))
} else if (
getFileExtension(fileName) === 'yml' ||
getFileExtension(fileName) === 'yaml'
) {
} else if(getFileExtension(fileName) === "yml" || getFileExtension(fileName) === "yaml"){
toRet.push(path.join(dirName, fileName))
} else {
core.debug(`Detected non-manifest file, ${fileName}, continuing... `)
} else{
core.debug(`Detected non-manifest file, ${fileName}, continuing... ` )
}
})
return toRet
}
function getFileExtension(fileName: string) {
return fileName.slice(((fileName.lastIndexOf('.') - 1) >>> 0) + 2)
function getFileExtension(fileName: string){
return fileName.slice((fileName.lastIndexOf(".") - 1 >>> 0) + 2)
}
src/utilities/githubUtils.test.ts
+34 -34
View File
@@ -1,48 +1,48 @@
import {
getNormalizedPath,
isHttpUrl,
normalizeWorkflowStrLabel
} from './githubUtils'
normalizeWorkflowStrLabel,
} from "./githubUtils";
describe('Github utils', () => {
it('normalizes workflow string labels', () => {
const workflowsPath = '.github/workflows/'
describe("Github utils", () => {
it("normalizes workflow string labels", () => {
const workflowsPath = ".github/workflows/";
const path = 'test/path/test'
expect(normalizeWorkflowStrLabel(workflowsPath + path)).toBe(path)
expect(normalizeWorkflowStrLabel(path)).toBe(path)
const path = "test/path/test";
expect(normalizeWorkflowStrLabel(workflowsPath + path)).toBe(path);
expect(normalizeWorkflowStrLabel(path)).toBe(path);
expect(normalizeWorkflowStrLabel(path + workflowsPath)).toBe(
path + workflowsPath
)
expect(normalizeWorkflowStrLabel(path + ' ' + path)).toBe(
path + '_' + path
)
})
);
expect(normalizeWorkflowStrLabel(path + " " + path)).toBe(
path + "_" + path
);
});
it('normalizes path', () => {
const httpUrl = 'http://www.test.com'
expect(getNormalizedPath(httpUrl)).toBe(httpUrl)
it("normalizes path", () => {
const httpUrl = "http://www.test.com";
expect(getNormalizedPath(httpUrl)).toBe(httpUrl);
const httpsUrl = 'https://www.test.com'
expect(getNormalizedPath(httpsUrl)).toBe(httpsUrl)
const httpsUrl = "https://www.test.com";
expect(getNormalizedPath(httpsUrl)).toBe(httpsUrl);
const repo = 'gh_repo'
const sha = 'gh_sha'
const path = 'path'
process.env.GITHUB_REPOSITORY = repo
process.env.GITHUB_SHA = sha
const repo = "gh_repo";
const sha = "gh_sha";
const path = "path";
process.env.GITHUB_REPOSITORY = repo;
process.env.GITHUB_SHA = sha;
expect(getNormalizedPath(path)).toBe(
`https://github.com/${repo}/blob/${sha}/${path}`
)
})
);
});
it('checks if url is http', () => {
expect(isHttpUrl('www.test.com')).toBe(false)
expect(isHttpUrl('http.test.com')).toBe(false)
expect(isHttpUrl('http:.test.com')).toBe(false)
expect(isHttpUrl('http:/.test.com')).toBe(false)
it("checks if url is http", () => {
expect(isHttpUrl("www.test.com")).toBe(false);
expect(isHttpUrl("http.test.com")).toBe(false);
expect(isHttpUrl("http:.test.com")).toBe(false);
expect(isHttpUrl("http:/.test.com")).toBe(false);
expect(isHttpUrl('https://www.test.com')).toBe(true)
expect(isHttpUrl('http://wwww.test.com')).toBe(true)
})
})
expect(isHttpUrl("https://www.test.com")).toBe(true);
expect(isHttpUrl("http://wwww.test.com")).toBe(true);
});
});
src/utilities/githubUtils.ts
+18 -18
View File
@@ -1,54 +1,54 @@
import {GitHubClient, OkStatusCode} from '../types/githubClient'
import * as core from '@actions/core'
import { GitHubClient, OkStatusCode } from "../types/githubClient";
import * as core from "@actions/core";
export async function getWorkflowFilePath(
githubToken: string
): Promise<string> {
let workflowFilePath = process.env.GITHUB_WORKFLOW
if (!workflowFilePath.startsWith('.github/workflows/')) {
let workflowFilePath = process.env.GITHUB_WORKFLOW;
if (!workflowFilePath.startsWith(".github/workflows/")) {
const githubClient = new GitHubClient(
process.env.GITHUB_REPOSITORY,
githubToken
)
const response = await githubClient.getWorkflows()
);
const response = await githubClient.getWorkflows();
if (response) {
if (response.status === OkStatusCode && response.data.total_count) {
if (response.data.total_count > 0) {
for (const workflow of response.data.workflows) {
if (process.env.GITHUB_WORKFLOW === workflow.name) {
workflowFilePath = workflow.path
break
workflowFilePath = workflow.path;
break;
}
}
}
} else if (response.status != OkStatusCode) {
core.error(
`An error occurred while getting list of workflows on the repo. Status code: ${response.status}`
)
);
}
} else {
core.error(`Failed to get response from workflow list API`)
core.error(`Failed to get response from workflow list API`);
}
}
return Promise.resolve(workflowFilePath)
return Promise.resolve(workflowFilePath);
}
export function normalizeWorkflowStrLabel(workflowName: string): string {
const workflowsPath = '.github/workflows/'
const workflowsPath = ".github/workflows/";
workflowName = workflowName.startsWith(workflowsPath)
? workflowName.replace(workflowsPath, '')
: workflowName
return workflowName.replace(/ /g, '_')
? workflowName.replace(workflowsPath, "")
: workflowName;
return workflowName.replace(/ /g, "_");
}
export function getNormalizedPath(pathValue: string) {
if (!isHttpUrl(pathValue)) {
//if it is not an http url then convert to link from current repo and commit
return `https://github.com/${process.env.GITHUB_REPOSITORY}/blob/${process.env.GITHUB_SHA}/${pathValue}`
return `https://github.com/${process.env.GITHUB_REPOSITORY}/blob/${process.env.GITHUB_SHA}/${pathValue}`;
}
return pathValue
return pathValue;
}
export function isHttpUrl(url: string) {
return /^https?:\/\/.*$/.test(url)
return /^https?:\/\/.*$/.test(url);
}
src/utilities/kubectlUtils.test.ts
+41 -41
View File
@@ -1,61 +1,61 @@
import * as core from '@actions/core'
import {ExecOutput} from '@actions/exec'
import {checkForErrors} from './kubectlUtils'
import * as core from "@actions/core";
import { ExecOutput } from "@actions/exec";
import { checkForErrors } from "./kubectlUtils";
describe('Kubectl utils', () => {
it('checks for errors', () => {
const success: ExecOutput = {stderr: '', stdout: 'success', exitCode: 0}
describe("Kubectl utils", () => {
it("checks for errors", () => {
const success: ExecOutput = { stderr: "", stdout: "success", exitCode: 0 };
const successWithStderr: ExecOutput = {
stderr: 'error',
stdout: '',
exitCode: 0
}
stderr: "error",
stdout: "",
exitCode: 0,
};
const failWithExitCode: ExecOutput = {
stderr: '',
stdout: '',
exitCode: 1
}
stderr: "",
stdout: "",
exitCode: 1,
};
const failWithExitWithStderr: ExecOutput = {
stderr: 'error',
stdout: '',
exitCode: 2
}
stderr: "error",
stdout: "",
exitCode: 2,
};
// with throw behavior
expect(() => checkForErrors([success])).not.toThrow()
expect(() => checkForErrors([successWithStderr])).not.toThrow()
expect(() => checkForErrors([success, successWithStderr])).not.toThrow()
expect(() => checkForErrors([failWithExitCode])).toThrow()
expect(() => checkForErrors([failWithExitWithStderr])).toThrow()
expect(() => checkForErrors([success, failWithExitCode])).toThrow()
expect(() => checkForErrors([success])).not.toThrow();
expect(() => checkForErrors([successWithStderr])).not.toThrow();
expect(() => checkForErrors([success, successWithStderr])).not.toThrow();
expect(() => checkForErrors([failWithExitCode])).toThrow();
expect(() => checkForErrors([failWithExitWithStderr])).toThrow();
expect(() => checkForErrors([success, failWithExitCode])).toThrow();
expect(() =>
checkForErrors([successWithStderr, failWithExitCode])
).toThrow()
).toThrow();
expect(() =>
checkForErrors([success, successWithStderr, failWithExitCode])
).toThrow()
).toThrow();
expect(() =>
checkForErrors([success, successWithStderr, failWithExitWithStderr])
).toThrow()
).toThrow();
// with warn behavior
jest.spyOn(core, 'warning').mockImplementation(() => {})
let warningCalls = 0
expect(() => checkForErrors([success], true)).not.toThrow()
expect(core.warning).toBeCalledTimes(warningCalls)
jest.spyOn(core, "warning").mockImplementation(() => {});
let warningCalls = 0;
expect(() => checkForErrors([success], true)).not.toThrow();
expect(core.warning).toBeCalledTimes(warningCalls);
expect(() => checkForErrors([successWithStderr], true)).not.toThrow()
expect(core.warning).toBeCalledTimes(++warningCalls)
expect(() => checkForErrors([successWithStderr], true)).not.toThrow();
expect(core.warning).toBeCalledTimes(++warningCalls);
expect(() =>
checkForErrors([success, successWithStderr], true)
).not.toThrow()
expect(core.warning).toBeCalledTimes(++warningCalls)
).not.toThrow();
expect(core.warning).toBeCalledTimes(++warningCalls);
expect(() => checkForErrors([failWithExitCode], true)).not.toThrow()
expect(core.warning).toBeCalledTimes(++warningCalls)
expect(() => checkForErrors([failWithExitCode], true)).not.toThrow();
expect(core.warning).toBeCalledTimes(++warningCalls);
expect(() => checkForErrors([failWithExitWithStderr], true)).not.toThrow()
expect(core.warning).toBeCalledTimes(++warningCalls)
})
})
expect(() => checkForErrors([failWithExitWithStderr], true)).not.toThrow();
expect(core.warning).toBeCalledTimes(++warningCalls);
});
});
src/utilities/kubectlUtils.ts
+27 -31
View File
@@ -1,25 +1,25 @@
import * as core from '@actions/core'
import {ExecOutput} from '@actions/exec'
import {Kubectl} from '../types/kubectl'
import * as core from "@actions/core";
import { ExecOutput } from "@actions/exec";
import { Kubectl } from "../types/kubectl";
export function checkForErrors(
execResults: ExecOutput[],
warnIfError?: boolean
) {
let stderr = ''
let stderr = "";
execResults.forEach((result) => {
if (result?.exitCode !== 0) {
stderr += result?.stderr + ' \n'
stderr += result?.stderr + " \n";
} else if (result?.stderr) {
core.warning(result.stderr)
core.warning(result.stderr);
}
})
});
if (stderr.length > 0) {
if (warnIfError) {
core.warning(stderr.trim())
core.warning(stderr.trim());
} else {
throw new Error(stderr.trim())
throw new Error(stderr.trim());
}
}
}
@@ -30,22 +30,22 @@ export async function getLastSuccessfulRunSha(
annotationKey: string
): Promise<string> {
try {
const result = await kubectl.getResource('namespace', namespaceName)
const result = await kubectl.getResource("namespace", namespaceName);
if (result?.stderr) {
core.warning(result.stderr)
return process.env.GITHUB_SHA
core.warning(result.stderr);
return process.env.GITHUB_SHA;
} else if (result?.stdout) {
const annotationsSet = JSON.parse(result.stdout).metadata.annotations
const annotationsSet = JSON.parse(result.stdout).metadata.annotations;
if (annotationsSet && annotationsSet[annotationKey]) {
return JSON.parse(annotationsSet[annotationKey].replace(/'/g, '"'))
.commit
.commit;
} else {
return 'NA'
return "NA";
}
}
} catch (ex) {
core.warning(`Failed to get commits from cluster. ${JSON.stringify(ex)}`)
return ''
core.warning(`Failed to get commits from cluster. ${JSON.stringify(ex)}`);
return "";
}
}
@@ -56,31 +56,27 @@ export async function annotateChildPods(
annotationKeyValStr: string,
allPods
): Promise<ExecOutput[]> {
let owner = resourceName
if (resourceType.toLowerCase().indexOf('deployment') > -1) {
owner = await kubectl.getNewReplicaSet(resourceName)
let owner = resourceName;
if (resourceType.toLowerCase().indexOf("deployment") > -1) {
owner = await kubectl.getNewReplicaSet(resourceName);
}
const commandExecutionResults = []
const commandExecutionResults = [];
if (allPods?.items && allPods.items?.length > 0) {
allPods.items.forEach((pod) => {
const owners = pod?.metadata?.ownerReferences
const owners = pod?.metadata?.ownerReferences;
if (owners) {
for (const ownerRef of owners) {
if (ownerRef.name === owner) {
commandExecutionResults.push(
kubectl.annotate(
'pod',
pod.metadata.name,
annotationKeyValStr
)
)
break
kubectl.annotate("pod", pod.metadata.name, annotationKeyValStr)
);
break;
}
}
}
})
});
}
return await Promise.all(commandExecutionResults)
return await Promise.all(commandExecutionResults);
}
src/utilities/manifestPullSecretUtils.ts
+15 -19
View File
@@ -1,20 +1,19 @@
import {KubernetesWorkload} from '../types/kubernetesTypes'
import { KubernetesWorkload } from "../types/kubernetesTypes";
export function getImagePullSecrets(inputObject: any) {
if (!inputObject?.spec) return null
if (!inputObject?.spec) return null;
if (
inputObject.kind.toLowerCase() ===
KubernetesWorkload.CRON_JOB.toLowerCase()
inputObject.kind.toLowerCase() === KubernetesWorkload.CRON_JOB.toLowerCase()
)
return inputObject?.spec?.jobTemplate?.spec?.template?.spec
?.imagePullSecrets
?.imagePullSecrets;
if (inputObject.kind.toLowerCase() === KubernetesWorkload.POD.toLowerCase())
return inputObject.spec.imagePullSecrets
return inputObject.spec.imagePullSecrets;
if (inputObject?.spec?.template?.spec) {
return inputObject.spec.template.spec.imagePullSecrets
return inputObject.spec.template.spec.imagePullSecrets;
}
}
@@ -22,27 +21,24 @@ export function setImagePullSecrets(
inputObject: any,
newImagePullSecrets: any
) {
if (!inputObject || !inputObject.spec || !newImagePullSecrets) return
if (!inputObject || !inputObject.spec || !newImagePullSecrets) return;
if (
inputObject.kind.toLowerCase() === KubernetesWorkload.POD.toLowerCase()
) {
inputObject.spec.imagePullSecrets = newImagePullSecrets
return
if (inputObject.kind.toLowerCase() === KubernetesWorkload.POD.toLowerCase()) {
inputObject.spec.imagePullSecrets = newImagePullSecrets;
return;
}
if (
inputObject.kind.toLowerCase() ===
KubernetesWorkload.CRON_JOB.toLowerCase()
inputObject.kind.toLowerCase() === KubernetesWorkload.CRON_JOB.toLowerCase()
) {
if (inputObject?.spec?.jobTemplate?.spec?.template?.spec)
inputObject.spec.jobTemplate.spec.template.spec.imagePullSecrets =
newImagePullSecrets
return
newImagePullSecrets;
return;
}
if (inputObject?.spec?.template?.spec) {
inputObject.spec.template.spec.imagePullSecrets = newImagePullSecrets
return
inputObject.spec.template.spec.imagePullSecrets = newImagePullSecrets;
return;
}
}
src/utilities/manifestSpecLabelUtils.ts
+24 -26
View File
@@ -2,72 +2,70 @@ import {
InputObjectKindNotDefinedError,
isServiceEntity,
KubernetesWorkload,
NullInputObjectError
} from '../types/kubernetesTypes'
NullInputObjectError,
} from "../types/kubernetesTypes";
export function updateSpecLabels(
inputObject: any,
newLabels: Map<string, string>,
override: boolean
) {
if (!inputObject) throw NullInputObjectError
if (!inputObject) throw NullInputObjectError;
if (!inputObject.kind) throw InputObjectKindNotDefinedError
if (!inputObject.kind) throw InputObjectKindNotDefinedError;
if (!newLabels) return
if (!newLabels) return;
let existingLabels = getSpecLabels(inputObject)
let existingLabels = getSpecLabels(inputObject);
if (override) {
existingLabels = newLabels
existingLabels = newLabels;
} else {
existingLabels = existingLabels || new Map<string, string>()
existingLabels = existingLabels || new Map<string, string>();
Object.keys(newLabels).forEach(
(key) => (existingLabels[key] = newLabels[key])
)
);
}
setSpecLabels(inputObject, existingLabels)
setSpecLabels(inputObject, existingLabels);
}
function getSpecLabels(inputObject: any) {
if (!inputObject) return null
if (!inputObject) return null;
if (inputObject.kind.toLowerCase() === KubernetesWorkload.POD.toLowerCase())
return inputObject.metadata.labels
return inputObject.metadata.labels;
if (inputObject?.spec?.template?.metadata)
return inputObject.spec.template.metadata.labels
return inputObject.spec.template.metadata.labels;
return null
return null;
}
function setSpecLabels(inputObject: any, newLabels: any) {
if (!inputObject || !newLabels) return null
if (!inputObject || !newLabels) return null;
if (
inputObject.kind.toLowerCase() === KubernetesWorkload.POD.toLowerCase()
) {
inputObject.metadata.labels = newLabels
return
if (inputObject.kind.toLowerCase() === KubernetesWorkload.POD.toLowerCase()) {
inputObject.metadata.labels = newLabels;
return;
}
if (inputObject?.spec?.template?.metatada) {
inputObject.spec.template.metatada.labels = newLabels
return
inputObject.spec.template.metatada.labels = newLabels;
return;
}
}
export function getSpecSelectorLabels(inputObject: any) {
if (inputObject?.spec?.selector) {
if (isServiceEntity(inputObject.kind)) return inputObject.spec.selector
else return inputObject.spec.selector.matchLabels
if (isServiceEntity(inputObject.kind)) return inputObject.spec.selector;
else return inputObject.spec.selector.matchLabels;
}
}
export function setSpecSelectorLabels(inputObject: any, newLabels: any) {
if (inputObject?.spec?.selector) {
if (isServiceEntity(inputObject.kind))
inputObject.spec.selector = newLabels
else inputObject.spec.selector.matchLabels = newLabels
inputObject.spec.selector = newLabels;
else inputObject.spec.selector.matchLabels = newLabels;
}
}
src/utilities/manifestStabilityUtils.ts
+69 -74
View File
@@ -1,16 +1,16 @@
import * as core from '@actions/core'
import * as KubernetesConstants from '../types/kubernetesTypes'
import {Kubectl, Resource} from '../types/kubectl'
import {checkForErrors} from './kubectlUtils'
import {sleep} from './timeUtils'
import * as core from "@actions/core";
import * as KubernetesConstants from "../types/kubernetesTypes";
import { Kubectl, Resource } from "../types/kubectl";
import { checkForErrors } from "./kubectlUtils";
import { sleep } from "./timeUtils";
export async function checkManifestStability(
kubectl: Kubectl,
resources: Resource[]
): Promise<void> {
let rolloutStatusHasErrors = false
let rolloutStatusHasErrors = false;
for (let i = 0; i < resources.length; i++) {
const resource = resources[i]
const resource = resources[i];
if (
KubernetesConstants.WORKLOAD_TYPES_WITH_ROLLOUT_STATUS.indexOf(
@@ -21,23 +21,21 @@ export async function checkManifestStability(
const result = await kubectl.checkRolloutStatus(
resource.type,
resource.name
)
checkForErrors([result])
);
checkForErrors([result]);
} catch (ex) {
core.error(ex)
await kubectl.describe(resource.type, resource.name)
rolloutStatusHasErrors = true
core.error(ex);
await kubectl.describe(resource.type, resource.name);
rolloutStatusHasErrors = true;
}
}
if (resource.type == KubernetesConstants.KubernetesWorkload.POD) {
try {
await checkPodStatus(kubectl, resource.name)
await checkPodStatus(kubectl, resource.name);
} catch (ex) {
core.warning(
`Could not determine pod status: ${JSON.stringify(ex)}`
)
await kubectl.describe(resource.type, resource.name)
core.warning(`Could not determine pod status: ${JSON.stringify(ex)}`);
await kubectl.describe(resource.type, resource.name);
}
}
if (
@@ -45,31 +43,28 @@ export async function checkManifestStability(
KubernetesConstants.DiscoveryAndLoadBalancerResource.SERVICE
) {
try {
const service = await getService(kubectl, resource.name)
const {spec, status} = service
const service = await getService(kubectl, resource.name);
const { spec, status } = service;
if (spec.type === KubernetesConstants.ServiceTypes.LOAD_BALANCER) {
if (!isLoadBalancerIPAssigned(status)) {
await waitForServiceExternalIPAssignment(
kubectl,
resource.name
)
await waitForServiceExternalIPAssignment(kubectl, resource.name);
} else {
core.info(
`ServiceExternalIP ${resource.name} ${status.loadBalancer.ingress[0].ip}`
)
);
}
}
} catch (ex) {
core.warning(
`Could not determine service status of: ${resource.name} Error: ${ex}`
)
await kubectl.describe(resource.type, resource.name)
);
await kubectl.describe(resource.type, resource.name);
}
}
}
if (rolloutStatusHasErrors) {
throw new Error('Rollout status error')
throw new Error("Rollout status error");
}
}
@@ -77,113 +72,113 @@ export async function checkPodStatus(
kubectl: Kubectl,
podName: string
): Promise<void> {
const sleepTimeout = 10 * 1000 // 10 seconds
const iterations = 60 // 60 * 10 seconds timeout = 10 minutes max timeout
const sleepTimeout = 10 * 1000; // 10 seconds
const iterations = 60; // 60 * 10 seconds timeout = 10 minutes max timeout
let podStatus
let kubectlDescribeNeeded = false
let podStatus;
let kubectlDescribeNeeded = false;
for (let i = 0; i < iterations; i++) {
await sleep(sleepTimeout)
await sleep(sleepTimeout);
core.debug(`Polling for pod status: ${podName}`)
podStatus = await getPodStatus(kubectl, podName)
core.debug(`Polling for pod status: ${podName}`);
podStatus = await getPodStatus(kubectl, podName);
if (
podStatus &&
podStatus?.phase !== 'Pending' &&
podStatus?.phase !== 'Unknown'
podStatus?.phase !== "Pending" &&
podStatus?.phase !== "Unknown"
) {
break
break;
}
}
podStatus = await getPodStatus(kubectl, podName)
podStatus = await getPodStatus(kubectl, podName);
switch (podStatus.phase) {
case 'Succeeded':
case 'Running':
case "Succeeded":
case "Running":
if (isPodReady(podStatus)) {
console.log(`pod/${podName} is successfully rolled out`)
console.log(`pod/${podName} is successfully rolled out`);
} else {
kubectlDescribeNeeded = true
kubectlDescribeNeeded = true;
}
break
case 'Pending':
break;
case "Pending":
if (!isPodReady(podStatus)) {
core.warning(`pod/${podName} rollout status check timed out`)
kubectlDescribeNeeded = true
core.warning(`pod/${podName} rollout status check timed out`);
kubectlDescribeNeeded = true;
}
break
case 'Failed':
core.error(`pod/${podName} rollout failed`)
kubectlDescribeNeeded = true
break
break;
case "Failed":
core.error(`pod/${podName} rollout failed`);
kubectlDescribeNeeded = true;
break;
default:
core.warning(`pod/${podName} rollout status: ${podStatus.phase}`)
core.warning(`pod/${podName} rollout status: ${podStatus.phase}`);
}
if (kubectlDescribeNeeded) {
await kubectl.describe('pod', podName)
await kubectl.describe("pod", podName);
}
}
async function getPodStatus(kubectl: Kubectl, podName: string) {
const podResult = await kubectl.getResource('pod', podName)
checkForErrors([podResult])
const podResult = await kubectl.getResource("pod", podName);
checkForErrors([podResult]);
return JSON.parse(podResult.stdout).status
return JSON.parse(podResult.stdout).status;
}
function isPodReady(podStatus: any): boolean {
let allContainersAreReady = true
let allContainersAreReady = true;
podStatus.containerStatuses.forEach((container) => {
if (container.ready === false) {
core.info(
`'${container.name}' status: ${JSON.stringify(container.state)}`
)
allContainersAreReady = false
);
allContainersAreReady = false;
}
})
});
if (!allContainersAreReady) {
core.warning('All containers not in ready state')
core.warning("All containers not in ready state");
}
return allContainersAreReady
return allContainersAreReady;
}
async function getService(kubectl: Kubectl, serviceName) {
const serviceResult = await kubectl.getResource(
KubernetesConstants.DiscoveryAndLoadBalancerResource.SERVICE,
serviceName
)
);
checkForErrors([serviceResult])
return JSON.parse(serviceResult.stdout)
checkForErrors([serviceResult]);
return JSON.parse(serviceResult.stdout);
}
async function waitForServiceExternalIPAssignment(
kubectl: Kubectl,
serviceName: string
): Promise<void> {
const sleepTimeout = 10 * 1000 // 10 seconds
const iterations = 18 // 18 * 10 seconds timeout = 3 minutes max timeout
const sleepTimeout = 10 * 1000; // 10 seconds
const iterations = 18; // 18 * 10 seconds timeout = 3 minutes max timeout
for (let i = 0; i < iterations; i++) {
core.info(`Wait for service ip assignment : ${serviceName}`)
await sleep(sleepTimeout)
core.info(`Wait for service ip assignment : ${serviceName}`);
await sleep(sleepTimeout);
const status = (await getService(kubectl, serviceName)).status
const status = (await getService(kubectl, serviceName)).status;
if (isLoadBalancerIPAssigned(status)) {
core.info(
`ServiceExternalIP ${serviceName} ${status.loadBalancer.ingress[0].ip}`
)
return
);
return;
}
}
core.warning(`Wait for service ip assignment timed out${serviceName}`)
core.warning(`Wait for service ip assignment timed out${serviceName}`);
}
function isLoadBalancerIPAssigned(status: any) {
return status?.loadBalancer?.ingress?.length > 0
return status?.loadBalancer?.ingress?.length > 0;
}
src/utilities/manifestUpdateUtils.ts
+104 -107
View File
@@ -1,65 +1,65 @@
import * as core from '@actions/core'
import * as fs from 'fs'
import * as yaml from 'js-yaml'
import * as path from 'path'
import * as fileHelper from './fileUtils'
import {getTempDirectory} from './fileUtils'
import * as core from "@actions/core";
import * as fs from "fs";
import * as yaml from "js-yaml";
import * as path from "path";
import * as fileHelper from "./fileUtils";
import { getTempDirectory } from "./fileUtils";
import {
InputObjectKindNotDefinedError,
InputObjectMetadataNotDefinedError,
isWorkloadEntity,
KubernetesWorkload,
NullInputObjectError
} from '../types/kubernetesTypes'
NullInputObjectError,
} from "../types/kubernetesTypes";
import {
getSpecSelectorLabels,
setSpecSelectorLabels
} from './manifestSpecLabelUtils'
setSpecSelectorLabels,
} from "./manifestSpecLabelUtils";
import {
getImagePullSecrets,
setImagePullSecrets
} from './manifestPullSecretUtils'
import {Resource} from '../types/kubectl'
setImagePullSecrets,
} from "./manifestPullSecretUtils";
import { Resource } from "../types/kubectl";
export function updateManifestFiles(manifestFilePaths: string[]) {
if (manifestFilePaths?.length === 0) {
throw new Error('Manifest files not provided')
throw new Error("Manifest files not provided");
}
// update container images
const containers: string[] = core.getInput('images').split('\n')
const containers: string[] = core.getInput("images").split("\n");
const manifestFiles = updateContainerImagesInManifestFiles(
manifestFilePaths,
containers
)
);
// update pull secrets
const imagePullSecrets: string[] = core
.getInput('imagepullsecrets')
.split('\n')
.filter((secret) => secret.trim().length > 0)
return updateImagePullSecretsInManifestFiles(manifestFiles, imagePullSecrets)
.getInput("imagepullsecrets")
.split("\n")
.filter((secret) => secret.trim().length > 0);
return updateImagePullSecretsInManifestFiles(manifestFiles, imagePullSecrets);
}
export function UnsetClusterSpecificDetails(resource: any) {
if (!resource) {
return
return;
}
// Unset cluster specific details in the object
if (!!resource) {
const {metadata, status} = resource
const { metadata, status } = resource;
if (!!metadata) {
resource.metadata = {
annotations: metadata.annotations,
labels: metadata.labels,
name: metadata.name
}
name: metadata.name,
};
}
if (!!status) {
resource.status = {}
resource.status = {};
}
}
}
@@ -68,18 +68,18 @@ function updateContainerImagesInManifestFiles(
filePaths: string[],
containers: string[]
): string[] {
if (filePaths?.length <= 0) return filePaths
if (filePaths?.length <= 0) return filePaths;
const newFilePaths = []
const newFilePaths = [];
// update container images
filePaths.forEach((filePath: string) => {
let contents = fs.readFileSync(filePath).toString()
let contents = fs.readFileSync(filePath).toString();
containers.forEach((container: string) => {
let [imageName] = container.split(':')
if (imageName.indexOf('@') > 0) {
imageName = imageName.split('@')[0]
let [imageName] = container.split(":");
if (imageName.indexOf("@") > 0) {
imageName = imageName.split("@")[0];
}
if (contents.indexOf(imageName) > 0)
@@ -87,17 +87,17 @@ function updateContainerImagesInManifestFiles(
contents,
imageName,
container
)
})
);
});
// write updated files
const tempDirectory = getTempDirectory()
const fileName = path.join(tempDirectory, path.basename(filePath))
fs.writeFileSync(path.join(fileName), contents)
newFilePaths.push(fileName)
})
const tempDirectory = getTempDirectory();
const fileName = path.join(tempDirectory, path.basename(filePath));
fs.writeFileSync(path.join(fileName), contents);
newFilePaths.push(fileName);
});
return newFilePaths
return newFilePaths;
}
/*
@@ -116,45 +116,45 @@ export function substituteImageNameInSpecFile(
imageName: string,
imageNameWithNewTag: string
) {
if (spec.indexOf(imageName) < 0) return spec
if (spec.indexOf(imageName) < 0) return spec;
return spec.split('\n').reduce((acc, line) => {
const imageKeyword = line.match(/^ *-? *image:/)
return spec.split("\n").reduce((acc, line) => {
const imageKeyword = line.match(/^ *-? *image:/);
if (imageKeyword) {
let [currentImageName] = line
.substring(imageKeyword[0].length) // consume the line from keyword onwards
.trim()
.replace(/[',"]/g, '') // replace allowed quotes with nothing
.split(':')
.replace(/[',"]/g, "") // replace allowed quotes with nothing
.split(":");
if (currentImageName?.indexOf(' ') > 0) {
currentImageName = currentImageName.split(' ')[0] // remove comments
if (currentImageName?.indexOf(" ") > 0) {
currentImageName = currentImageName.split(" ")[0]; // remove comments
}
if (currentImageName === imageName) {
return acc + `${imageKeyword[0]} ${imageNameWithNewTag}\n`
return acc + `${imageKeyword[0]} ${imageNameWithNewTag}\n`;
}
}
return acc + line + '\n'
}, '')
return acc + line + "\n";
}, "");
}
export function getReplicaCount(inputObject: any): any {
if (!inputObject) throw NullInputObjectError
if (!inputObject) throw NullInputObjectError;
if (!inputObject.kind) {
throw InputObjectKindNotDefinedError
throw InputObjectKindNotDefinedError;
}
const {kind} = inputObject
const { kind } = inputObject;
if (
kind.toLowerCase() !== KubernetesWorkload.POD.toLowerCase() &&
kind.toLowerCase() !== KubernetesWorkload.DAEMON_SET.toLowerCase()
)
return inputObject.spec.replicas
return inputObject.spec.replicas;
return 0
return 0;
}
export function updateObjectLabels(
@@ -162,23 +162,23 @@ export function updateObjectLabels(
newLabels: Map<string, string>,
override: boolean = false
) {
if (!inputObject) throw NullInputObjectError
if (!inputObject) throw NullInputObjectError;
if (!inputObject.metadata) throw InputObjectMetadataNotDefinedError
if (!inputObject.metadata) throw InputObjectMetadataNotDefinedError;
if (!newLabels) return
if (!newLabels) return;
if (override) {
inputObject.metadata.labels = newLabels
inputObject.metadata.labels = newLabels;
} else {
let existingLabels =
inputObject.metadata.labels || new Map<string, string>()
inputObject.metadata.labels || new Map<string, string>();
Object.keys(newLabels).forEach(
(key) => (existingLabels[key] = newLabels[key])
)
);
inputObject.metadata.labels = existingLabels
inputObject.metadata.labels = existingLabels;
}
}
@@ -187,23 +187,23 @@ export function updateObjectAnnotations(
newAnnotations: Map<string, string>,
override: boolean = false
) {
if (!inputObject) throw NullInputObjectError
if (!inputObject) throw NullInputObjectError;
if (!inputObject.metadata) throw InputObjectMetadataNotDefinedError
if (!inputObject.metadata) throw InputObjectMetadataNotDefinedError;
if (!newAnnotations) return
if (!newAnnotations) return;
if (override) {
inputObject.metadata.annotations = newAnnotations
inputObject.metadata.annotations = newAnnotations;
} else {
const existingAnnotations =
inputObject.metadata.annotations || new Map<string, string>()
inputObject.metadata.annotations || new Map<string, string>();
Object.keys(newAnnotations).forEach(
(key) => (existingAnnotations[key] = newAnnotations[key])
)
);
inputObject.metadata.annotations = existingAnnotations
inputObject.metadata.annotations = existingAnnotations;
}
}
@@ -212,27 +212,24 @@ export function updateImagePullSecrets(
newImagePullSecrets: string[],
override: boolean = false
) {
if (!inputObject?.spec || !newImagePullSecrets) return
if (!inputObject?.spec || !newImagePullSecrets) return;
const newImagePullSecretsObjects = Array.from(
newImagePullSecrets,
(name) => {
return {name}
}
)
let existingImagePullSecretObjects: any = getImagePullSecrets(inputObject)
const newImagePullSecretsObjects = Array.from(newImagePullSecrets, (name) => {
return { name };
});
let existingImagePullSecretObjects: any = getImagePullSecrets(inputObject);
if (override) {
existingImagePullSecretObjects = newImagePullSecretsObjects
existingImagePullSecretObjects = newImagePullSecretsObjects;
} else {
existingImagePullSecretObjects = existingImagePullSecretObjects || []
existingImagePullSecretObjects = existingImagePullSecretObjects || [];
existingImagePullSecretObjects = existingImagePullSecretObjects.concat(
newImagePullSecretsObjects
)
);
}
setImagePullSecrets(inputObject, existingImagePullSecretObjects)
setImagePullSecrets(inputObject, existingImagePullSecretObjects);
}
export function updateSelectorLabels(
@@ -240,39 +237,39 @@ export function updateSelectorLabels(
newLabels: Map<string, string>,
override: boolean
) {
if (!inputObject) throw NullInputObjectError
if (!inputObject) throw NullInputObjectError;
if (!inputObject.kind) throw InputObjectKindNotDefinedError
if (!inputObject.kind) throw InputObjectKindNotDefinedError;
if (!newLabels) return
if (!newLabels) return;
if (inputObject.kind.toLowerCase() === KubernetesWorkload.POD.toLowerCase())
return
return;
let existingLabels = getSpecSelectorLabels(inputObject)
let existingLabels = getSpecSelectorLabels(inputObject);
if (override) {
existingLabels = newLabels
existingLabels = newLabels;
} else {
existingLabels = existingLabels || new Map<string, string>()
existingLabels = existingLabels || new Map<string, string>();
Object.keys(newLabels).forEach(
(key) => (existingLabels[key] = newLabels[key])
)
);
}
setSpecSelectorLabels(inputObject, existingLabels)
setSpecSelectorLabels(inputObject, existingLabels);
}
export function getResources(
filePaths: string[],
filterResourceTypes: string[]
): Resource[] {
if (!filePaths) return []
if (!filePaths) return [];
const resources: Resource[] = []
const resources: Resource[] = [];
filePaths.forEach((filePath: string) => {
const fileContents = fs.readFileSync(filePath).toString()
const fileContents = fs.readFileSync(filePath).toString();
yaml.safeLoadAll(fileContents, (inputObject) => {
const inputObjectKind = inputObject?.kind || ''
const inputObjectKind = inputObject?.kind || "";
if (
filterResourceTypes.filter(
(type) => inputObjectKind.toLowerCase() === type.toLowerCase()
@@ -280,34 +277,34 @@ export function getResources(
) {
resources.push({
type: inputObject.kind,
name: inputObject.metadata.name
})
name: inputObject.metadata.name,
});
}
})
})
});
});
return resources
return resources;
}
function updateImagePullSecretsInManifestFiles(
filePaths: string[],
imagePullSecrets: string[]
): string[] {
if (imagePullSecrets?.length <= 0) return filePaths
if (imagePullSecrets?.length <= 0) return filePaths;
const newObjectsList = []
const newObjectsList = [];
filePaths.forEach((filePath: string) => {
const fileContents = fs.readFileSync(filePath).toString()
const fileContents = fs.readFileSync(filePath).toString();
yaml.safeLoadAll(fileContents, (inputObject: any) => {
if (inputObject?.kind) {
const {kind} = inputObject
const { kind } = inputObject;
if (isWorkloadEntity(kind)) {
updateImagePullSecrets(inputObject, imagePullSecrets)
updateImagePullSecrets(inputObject, imagePullSecrets);
}
newObjectsList.push(inputObject)
newObjectsList.push(inputObject);
}
})
})
});
});
return fileHelper.writeObjectsToFile(newObjectsList)
return fileHelper.writeObjectsToFile(newObjectsList);
}
src/utilities/timeUtils.ts
+2 -2
View File
@@ -1,7 +1,7 @@
export function sleep(timeout: number) {
return new Promise((resolve) => setTimeout(resolve, timeout))
return new Promise((resolve) => setTimeout(resolve, timeout));
}
export function getCurrentTime(): number {
return new Date().getTime()
return new Date().getTime();
}
src/utilities/trafficSplitUtils.ts
+7 -7
View File
@@ -1,18 +1,18 @@
import {Kubectl} from '../types/kubectl'
import { Kubectl } from "../types/kubectl";
const trafficSplitAPIVersionPrefix = 'split.smi-spec.io'
const trafficSplitAPIVersionPrefix = "split.smi-spec.io";
export async function getTrafficSplitAPIVersion(
kubectl: Kubectl
): Promise<string> {
const result = await kubectl.executeCommand('api-versions')
const result = await kubectl.executeCommand("api-versions");
const trafficSplitAPIVersion = result.stdout
.split('\n')
.find((version) => version.startsWith(trafficSplitAPIVersionPrefix))
.split("\n")
.find((version) => version.startsWith(trafficSplitAPIVersionPrefix));
if (!trafficSplitAPIVersion) {
throw new Error('Unable to find traffic split api version')
throw new Error("Unable to find traffic split api version");
}
return trafficSplitAPIVersion
return trafficSplitAPIVersion;
}
src/utilities/workflowAnnotationUtils.test.ts
+17 -19
View File
@@ -1,20 +1,18 @@
import {cleanLabel} from '../utilities/workflowAnnotationUtils'
import { prefixObjectKeys } from "../utilities/workflowAnnotationUtils";
describe('WorkflowAnnotationUtils', () => {
describe('cleanLabel', () => {
it('should clean label', () => {
const alreadyClean = 'alreadyClean'
expect(cleanLabel(alreadyClean)).toEqual(alreadyClean)
expect(cleanLabel('.startInvalid')).toEqual('startInvalid')
expect(cleanLabel('with%S0ME&invalid#chars')).toEqual(
'withS0MEinvalidchars'
)
expect(cleanLabel('with⚒️emoji')).toEqual('withemoji')
})
it('should remove slashes from label', () => {
expect(
cleanLabel('Workflow Name / With Slashes / And Spaces')
).toEqual('Workflow_Name_-_With_Slashes_-_And_Spaces')
})
})
})
describe("WorkflowAnnotationUtils", () => {
describe("prefixObjectKeys", () => {
it("should prefix an object with a given prefix", () => {
const obj = {
foo: "bar",
baz: "qux",
};
const prefix = "prefix.";
const expected = {
"prefix.foo": "bar",
"prefix.baz": "qux",
};
expect(prefixObjectKeys(obj, prefix)).toEqual(expected);
});
});
});
src/utilities/workflowAnnotationUtils.ts
+22 -23
View File
@@ -1,6 +1,13 @@
import {DeploymentConfig} from '../types/deploymentConfig'
import { DeploymentConfig } from "../types/deploymentConfig";
const ANNOTATION_PREFIX = 'actions.github.com'
const ANNOTATION_PREFIX = "actions.github.com/";
export function prefixObjectKeys(obj: any, prefix: string): any {
return Object.keys(obj).reduce((newObj, key) => {
newObj[prefix + key] = obj[key];
return newObj;
}, {});
}
export function getWorkflowAnnotations(
lastSuccessRunSha: string,
@@ -11,7 +18,7 @@ export function getWorkflowAnnotations(
run: process.env.GITHUB_RUN_ID,
repository: process.env.GITHUB_REPOSITORY,
workflow: process.env.GITHUB_WORKFLOW,
workflowFileName: workflowFilePath.replace('.github/workflows/', ''),
workflowFileName: workflowFilePath.replace(".github/workflows/", ""),
jobName: process.env.GITHUB_JOB,
createdBy: process.env.GITHUB_ACTOR,
runUri: `https://github.com/${process.env.GITHUB_REPOSITORY}/actions/runs/${process.env.GITHUB_RUN_ID}`,
@@ -22,26 +29,18 @@ export function getWorkflowAnnotations(
dockerfilePaths: deploymentConfig.dockerfilePaths,
manifestsPaths: deploymentConfig.manifestFilePaths,
helmChartPaths: deploymentConfig.helmChartFilePaths,
provider: 'GitHub'
}
return JSON.stringify(annotationObject)
provider: "GitHub",
};
const prefixedAnnotationObject = prefixObjectKeys(annotationObject, ANNOTATION_PREFIX);
return JSON.stringify(prefixedAnnotationObject);
}
export function getWorkflowAnnotationKeyLabel(): string {
return `${ANNOTATION_PREFIX}/k8s-deploy`
}
/**
* Cleans label to match valid kubernetes label specification by removing invalid characters
* @param label
* @returns cleaned label
*/
export function cleanLabel(label: string): string {
let removedInvalidChars = label
.replace(/\s/gi, '_')
.replace(/[\/\\\|]/gi, '-')
.replace(/[^-A-Za-z0-9_.]/gi, '')
const regex = /([A-Za-z0-9][-A-Za-z0-9_.]*)?[A-Za-z0-9]/
return regex.exec(removedInvalidChars)[0] || ''
export function getWorkflowAnnotationKeyLabel(
workflowFilePath: string
): string {
const hashKey = require("crypto")
.createHash("MD5")
.update(`${process.env.GITHUB_REPOSITORY}/${workflowFilePath}`)
.digest("hex");
return `githubWorkflow_${hashKey}`;
}
test/integration/test-chart/values.yaml
+6 -10
View File
@@ -9,8 +9,8 @@ image:
pullPolicy: IfNotPresent
imagePullSecrets: []
nameOverride: ''
fullnameOverride: ''
nameOverride: ""
fullnameOverride: ""
serviceAccount:
# Specifies whether a service account should be created
@@ -19,12 +19,10 @@ serviceAccount:
# If not set and create is true, a name is generated using the fullname template
name:
podSecurityContext:
{}
podSecurityContext: {}
# fsGroup: 2000
securityContext:
{}
securityContext: {}
# capabilities:
# drop:
# - ALL
@@ -38,8 +36,7 @@ service:
ingress:
enabled: false
annotations:
{}
annotations: {}
# kubernetes.io/ingress.class: nginx
# kubernetes.io/tls-acme: "true"
hosts:
@@ -50,8 +47,7 @@ ingress:
# hosts:
# - chart-example.local
resources:
{}
resources: {}
# We usually recommend not to specify default resources and to leave this as a conscious
# choice for the user. This also increases chances charts run on environments with little
# resources, such as Minikube. If you do want to specify resources, uncomment the following
test/unit/manifests/anomaly-objects-test.yml
-23
View File
@@ -1,23 +0,0 @@
---
apiVersion: v1
kind: Service
metadata:
name: unrouted-service
spec:
selector:
app: fake-application
ports:
- protocol: TCP
port: 80
targetPort: 80
---
kind: TrafficSplit
metadata:
name: foobar-rollout
spec:
service: foobar
backends:
- service: foobar-v1
weight: 1000
- service: foobar-v2
weight: 500
test/unit/manifests/test-ingress-new.yml
-50
View File
@@ -1,50 +0,0 @@
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-deployment
labels:
app: nginx
spec:
replicas: 1
selector:
matchLabels:
app: nginx
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx:1.14.2
ports:
- containerPort: 80
---
apiVersion: v1
kind: Service
metadata:
name: nginx-service
spec:
selector:
app: nginx
ports:
- protocol: TCP
port: 80
targetPort: 80
---
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: nginx-ingress
annotations:
nginx.ingress.kubernetes.io/rewrite-target: /
spec:
rules:
- http:
paths:
- path: /testpath
backend:
service:
name: nginx-service
port:
number: 80