This library is compatible with Go 1.12+
Please refer to CHANGELOG.md if you encounter breaking changes.
Endly is comprehensive workflow based automation and end-to-end (E2E) testing tool designed to simulate a production environment as closely as possible. This includes the full spectrum of network communications, user interactions, data storage, and other dependencies. By doing so, it aims to ensure that systems are thoroughly tested under conditions that mimic real-world operations, helping to identify and address potential issues before deployment.
Endly is a highly versatile automation and orchestration platform that provides a wide range of services to support various aspects of software development, testing, deployment, and operations. Below is a summary of the types of services Endly can orchestrate, grouped by their primary functionality:
Provides services for managing Docker containers and executing commands over SSH within Docker environments, enhancing container management and deployment.
Offers orchestration for numerous AWS services, including API Gateway, CloudWatch, DynamoDB, EC2, IAM, Kinesis, KMS, Lambda, RDS, S3, SES, SNS, SQS, and SSM. These services enable management and automation of AWS resources, monitoring, notification, and security.
Supports Google Cloud Platform resources such as BigQuery, Cloud Functions, Cloud Scheduler, Compute Engine, GKE (Google Kubernetes Engine), KMS, Pub/Sub, Cloud Run, and Cloud Storage. These services are essential for managing Google Cloud resources, data analysis, event-driven computing, and storage.
Automates tasks within Kubernetes clusters, covering apps, autoscaling, batch processing, core services, extensions, networking, policy management, RBAC (Role-Based Access Control), settings, and storage. This facilitates the deployment, scaling, and management of containerized applications.
This service is central to executing shell commands, allowing for automation of tasks that interact directly with the operating system. This capability is essential for setting up environments, running scripts, and performing system-level operations, thereby serving as a foundation for environment and system management within Endly's orchestration capabilities.
Manages processes or daemons on the system, enabling control over the lifecycle of various applications or services running in the background. This service is key for ensuring that necessary services are operational during testing or deployment, and for automating start, stop, and restart operations of system services as part of environment setup and maintenance.
Facilitates the management of file-based assets, including uploading, downloading, and managing files. This service is crucial for handling configuration files, test data, and other file-based resources needed throughout the automation, testing, and deployment processes. It supports the simulation of real-world environments by ensuring the correct setup of file systems and data storage scenarios.
Manages safe access to secrets, such as passwords and API keys, crucial for maintaining security in automated processes.
Build and Deployment: Includes services for building software and deploying applications, encompassing general build and deployment tasks, version control with Git, and specific deployment strategies.
Facilitates database testing, supporting the setup and teardown of database states for testing purposes.
Provides tools for testing and interacting with HTTP endpoints and RESTful APIs. This service is instrumental in API testing, allowing for the automation of requests, response validation, and the simulation of various API usage scenarios. It supports both the verification of external services and the testing of application interfaces, making it a vital component for ensuring the functionality and reliability of web services and applications.
This service extends Endly's capabilities into the realm of HTTP communication testing by allowing users to listen to existing HTTP interactions, record them, and subsequently mock these interactions for the purpose of testing. This functionality is particularly useful for simulating third-party HTTP integrations without the need for the third-party services to be actively involved in the testing process. By capturing and replicating the behavior of external HTTP services, it enables developers to conduct thorough testing of application integrations in a controlled, predictable environment. This approach ensures that applications can gracefully handle external HTTP requests and responses, facilitating the validation of integration points with external APIs and services. The ability to mock external HTTP interactions is invaluable for continuous integration and testing workflows, where external dependencies must be accurately simulated to verify application functionality and resilience.
Supports browser-based testing and automation, essential for web application testing.
Provides validation services, including log validation, to ensure that applications behave as expected. Communication and Messaging
Services for sending emails and Slack messages, enabling notifications and alerts as part of the automation workflows.
a) Infrastructure/Environment preparation
For instance: the following define inline workflow to prepare app system services:
@system.yaml
tasks: $tasks
defaults:
target: $serviceTarget
pipeline:
destroy:
stop-images:
action: docker:stop
images:
- mysql
- aerospike
init:
services:
mysql:
workflow: "service/mysql:start"
name: mydb3
version: $mysqlVersion
credentials: $mysqlCredentials
config: config/my.cnf
aerospike:
workflow: "service/aerospike:start"
name: mydb4
config: config/aerospike.confb) Application build and deployment
For instance: the following define inline workflow to build and deploy a test app: (you can easily build an app for standalone mode or in and for docker container)
With Dockerfile build file and docker compose
@app.yaml
tasks: $tasks
init:
- buildPath = /tmp/build/myapp/
- version = 0.1.0
defaults:
app: myapp
version: 0.1.0
useRegistry: false
pipeline:
build:
init:
action: exec:run
target: $target
commands:
- if [ -e $buildPath ]; then rm -rf $buildPath; fi
- mkdir -p $buildPath
checkout:
action: version/control:checkout
origin:
URL: https://github.com/adrianwit/dstransfer
dest:
URL: scp://${targetHost}:22/$buildPath
credentials: localhost
download:
action: storage:copy
source:
URL: config/Dockerfile
dest:
URL: $buildPath
credentials: localhost
build-img:
action: docker:build
target: $target
path: $buildPath
'@tag':
image: dstransfer
username: adrianwit
version: 0.1.0
stop:
target: $appTarget
action: docker/ssh:composeDown
source:
URL: config/docker-compose.yaml
deploy:
target: $appTarget
action: docker/ssh:composeUp
runInBackground: true
source:
URL: config/docker-compose.yaml
As Standalone app (with predefined shared workflow)
@app.yaml
init:
buildTarget:
URL: scp://127.0.0.1/tmp/build/myApp/
credentials: localhost
appTarget:
URL: scp://127.0.0.1/opt/myApp/
credentials: localhost
target:
URL: scp://127.0.0.1/
credentials: localhost
defaults:
target: $target
pipeline:
build:
checkout:
action: version/control:checkout
origin:
URL: ./../
#or https://github.com/myRepo/myApp
dest: $buildTarget
set-sdk:
action: sdk:set
sdk: go:1.17
build-app:
action: exec:run
commands:
- cd /tmp/build/myApp/app
- export GO111MODULE=on
- go build myApp.go
- chmod +x myApp
deploy:
mkdir:
action: exec:run
commands:
- sudo rm -rf /opt/myApp/
- sudo mkdir -p /opt/myApp
- sudo chown -R ${os.user} /opt/myApp
install:
action: storage:copy
source: $buildTarget
dest: $appTarget
expand: true
assets:
app/myApp: myApp
config/config.json: config.json
stop:
action: process:stop
input: myApp
start:
action: process:start
directory: /opt/myApp
immuneToHangups: true
command: ./myApp
arguments:
- "-config"
- "config.json"
c) Datastore/database creation
For instance: the following define inline workflow to create/populare mysql and aerospike database/dataset:
@datastore.yaml
pipeline:
create-db:
db3:
action: dsunit:init
scripts:
- URL: datastore/db3/schema.ddl
datastore: db3
recreate: true
config:
driverName: mysql
descriptor: "[username]:[password]@tcp(127.0.0.1:3306)/[dbname]?parseTime=true"
credentials: $mysqlCredentials
admin:
datastore: mysql
config:
driverName: mysql
descriptor: "[username]:[password]@tcp(127.0.0.1:3306)/[dbname]?parseTime=true"
credentials: $mysqlCredentials
db4:
action: dsunit:init
datastore: db4
recreate: true
config:
driverName: aerospike
descriptor: "tcp([host]:3000)/[namespace]"
parameters:
dbname: db4
namespace: db4
host: $serviceHost
port: 3000
populate:
db3:
action: dsunit:prepare
datastore: db3
URL: datastore/db3/dictionary
db4:
action: dsunit:prepare
datastore: db4
URL: datastore/db4/dataendly -r=datastored) Creating setup / verification dataset from existing datastore
For instance: the following define inline workflow to create setup dataset SQL based from on existing database
@freeze.yaml
pipeline:
db1:
register:
action: dsunit:register
datastore: db1
config:
driverName: bigquery
credentials: bq
parameters:
datasetId: adlogs
reverse:
takeSchemaSnapshot:
action: dsunit:dump
datastore: db1
# leave empty for all tables
tables:
- raw_logs
#optionally target for target vendor if different that source
target: mysql
destURL: schema.sql
takeDataSnapshot:
action: dsunit:freeze
datastore: db1
destURL: db1/prepare/raw_logs.json
omitEmpty: true
ignore:
- request.postBody
replace:
request.timestamp: $$ts
sql: SELECT request, meta, fee
FROM raw_logs
WHERE requests.sessionID IN(x, y, z)endly -r=freezee) Comparing SQL based data sets
endly -r=compare@compare.yaml
pipeline:
register:
verticadb:
action: dsunit:register
datastore: db1
config:
driverName: odbc
descriptor: driver=Vertica;Database=[database];ServerName=[server];port=5433;user=[username];password=[password]
credentials: db1
parameters:
database: db1
server: x.y.z.a
TIMEZONE: UTC
bigquerydb:
action: dsunit:register
datastore: db2
config:
driverName: bigquery
credentials: db2
parameters:
datasetId: db2
compare:
action: dsunit:compare
maxRowDiscrepancy: 10
ignore:
- field10
- fieldN
directives:
"@numericPrecisionPoint@": 7
"@coalesceWithZero@": true
"@caseSensitive@": false
source1:
datastore: db1
SQL: SELECT *
FROM db1.mytable
WHERE DATE(ts) BETWEEN '2018-12-01' AND '2018-12-02'
ORDER BY 1
source2:
datastore: db2
SQL: SELECT *
FROM db2.mytable
WHERE DATE(ts) BETWEEN '2018-12-01' AND '2018-12-02'
ORDER BY 1f) Testing
For instance: the following define inline workflow to run test with selenium runner:
@test.yaml
defaults:
target:
URL: ssh://127.0.0.1/
credentials: localhost
pipeline:
init:
action: selenium:start
version: 3.4.0
port: 8085
sdk: jdk
sdkVersion: 1.8
test:
action: selenium:run
browser: firefox
remoteSelenium:
URL: http://127.0.0.1:8085
commands:
- get(http://play.golang.org/?simple=1)
- (#code).clear
- (#code).sendKeys(package main
import "fmt"
func main() {
fmt.Println("Hello Endly!")
}
)
- (#run).click
- command: output = (#output).text
exit: $output.Text:/Endly/
sleepTimeMs: 1000
repeat: 10
- close
expect:
output:
Text: /Hello Endly!/endly -r=testg) Stress testing:
The following define inline workflow that loads request and desired responses from data folder for stress testing.
@load.yaml
init:
testEndpoint: z.myendoint.com
pipeline:
test:
tag: StressTest
data:
[]Requests: '@data/*request.json'
[]Responses: '@data/*response.json'
range: '1..1'
template:
info:
action: print
message: starting load testing
load:
action: 'http/runner:load'
threadCount: 3
'@repeat': 100
requests: $data.Requests
expect:
Responses: $data.Responses
load-info:
action: print
message: 'QPS: $load.QPS: Response: min: $load.MinResponseTimeInMs ms, avg: $load.AvgResponseTimeInMs ms max: $load.MaxResponseTimeInMs ms'
Where data folder contains http request and desired responses i.e
@data/XXX_request.json
{
"Method":"get",
"URL":"http://${testEndpoint}/bg/?pixid=123"
}@data/XXX_response.json
{
"Code":200,
"Body":"/some expected fragement/"
}endly -r=loadh) Serverless e2e testing with cloud function
@test.yaml
defaults:
credentials: am
pipeline:
deploy:
action: gcp/cloudfunctions:deploy
'@name': HelloWorld
entryPoint: HelloWorldFn
runtime: go111
source:
URL: test/
test:
action: gcp/cloudfunctions:call
logging: false
'@name': HelloWorld
data:
from: Endly
info:
action: print
message: $test.Result
assert:
action: validator:assert
expect: /Endly/
actual: $test.Result
undeploy:
action: gcp/cloudfunctions:delete
'@name': HelloWorld
i) Serverless e2e testing with lambda function
@test.yaml
init:
functionRole: lambda-loginfo-executor
functionName: LoginfoFn
codeZip: ${appPath}/loginfo/app/loginfo.zip
privilegePolicy: ${parent.path}/privilege-policy.json
pipeline:
deploy:
build:
action: exec:run
target: $target
errors:
- ERROR
commands:
- cd ${appPath}loginfo/app
- unset GOPATH
- export GOOS=linux
- export GOARCH=amd64
- go build -o loginfo
- zip -j loginfo.zip loginfo
setupFunction:
action: aws/lambda:deploy
credentials: $awsCredentials
functionname: $functionName
runtime: go1.x
handler: loginfo
code:
zipfile: $LoadBinary(${codeZip})
rolename: lambda-loginfo-executor
define:
- policyname: s3-mye2e-bucket-role
policydocument: $Cat('${privilegePolicy}')
attach:
- policyarn: arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole
setupAPI:
action: aws/apigateway:deployAPI
credentials: aws
'@name': loginfoAPI
resources:
- path: /{proxy+}
methods:
- httpMethod: ANY
functionname: $functionName
sleepTimeMs: 10000
test:
action: rest/runner:send
URL: ${setupAPI.EndpointURL}oginfo
method: post
'@request':
region: ${awsSecrets.Region}
URL: s3://mye2e-bucket/folder1/
expect:
Status: ok
FileCount: 2
LinesCount: 52
To see Endly in action,
In addition a few examples of fully functioning applications are included. You can build, deploy and test them end to end all with endly.
-
Web Service
- Reporter - a pivot table report builder.
- Test with Rest Runner
- Data Preparation and Validation (mysql)
- Reporter - a pivot table report builder.
-
User Interface
- SSO - user registration and login application.
- Test with Selenium Runner
- Test with HTTP Runner
- Data Preparation and Validation (aersopike)
- Web Content validation
- Mocking 3rd party REST API with http/endpoint service
- SSO - user registration and login application.
-
Extract, Transform and Load (ETL)
- Transformer - datastore to datastore myApp (i.e. aerospike to mysql)
- Test with Rest Runner
- Data Preparation and Validation (aersopike, mysql)
- Transformer - datastore to datastore myApp (i.e. aerospike to mysql)
-
Runtime - simple http request event logger
- Logger
- Test with HTTP Runner
- Log Validation
- Logger
-
Serverless - serverless (lambda/cloud function/dataflow)
- Installation
- Secret/Credential
- Inline Workflow
- Workflow
- Service
- Usage
- User Defined Function
- Data store testing
@run.yaml
target:
URL: "ssh://127.0.0.1/"
credentials: localhost
systemPaths:
- /usr/local/go/bin
commands:
- go version
- echo $GOPATH- Endly introduction
- Software Developement Automation - Part I
- Software Developement Automation - Part II
- ETL end to end testing with docker, NoSQL, RDBMS and Big Query
- Data testing strategy reinvented
- Go lang e2e testing
- Endly UI e2e testing demo
The source code is made available under the terms of the Apache License, Version 2, as stated in the file LICENSE.
Individual files may be made available under their own specific license, all compatible with Apache License, Version 2. Please see individual files for details.
- documentation improvements
- command executor with os/exec.Command
- gcp/containers integration
- gcp/cloudfunctions viant/afs integration
- ufd self describing meta data
- viant/afs docker connector
endly is an open source project and contributors are welcome!
Library Author: Adrian Witas