Skip to content
forked from mosn/layotto

A fast and efficient cloud native application runtime

License

Notifications You must be signed in to change notification settings

bxiiiiii/layotto

Β 
Β 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 

Repository files navigation

Layotto (L8): To be the next layer of OSI layer 7

Layotto Env Pipeline 🌊 Layotto Dev Pipeline 🌊

GoDoc Go Report Card codecov Average time to resolve an issue

ζŸ₯ηœ‹δΈ­ζ–‡η‰ˆζœ¬

Layotto(/leΙͺΛˆΙ’tΙ™ΚŠ/) is an application runtime developed using Golang, which provides various distributed capabilities for applications, such as state management, configuration management, and event pub/sub capabilities to simplify application development.

Layotto is built on the open source data plane MOSN .In addition to providing distributed building blocks, Layotto can also serve as the data plane of Service Mesh and has the ability to control traffic.

Motivation

Layotto aims to combine Multi-Runtime with Service Mesh into one sidecar. No matter which product you are using as the Service Mesh data plane (e.g. MOSN,Envoy or any other product), you can always attach Layotto to it and add Multi-Runtime capabilities without adding new sidecars.

For example, by adding Runtime capabilities to MOSN, a Layotto process can both serve as the data plane of istio and provide various Runtime APIs (such as Configuration API, Pub/Sub API, etc.)

In addition, we were surprised to find that a sidecar can do much more than that. We are trying to make Layotto even the runtime container of FaaS (Function as a service) with the magic power of WebAssembly .

Features

Project Architecture

As shown in the architecture diagram below, Layotto uses the open source MOSN as the base to provide network layer management capabilities while providing distributed capabilities. The business logic can directly interact with Layotto through a lightweight SDK without paying attention to the specific back-end infrastructure.

Layotto provides SDKs in various languages. The sdk interacts with Layotto through grpc. Application developers only need to specify their own infrastructure type through the configuration file configure file provided by Layotto. No coding changes are required, which greatly improves the portability of the program.

Architecture

Quickstarts

Get started with Layotto

You can try the quickstart demos below to get started with Layotto. In addition, you can experience the online laboratory

API

API status quick start desc
State βœ… demo Write/Query the data of the Key/Value model
Pub/Sub βœ… demo Publish/Subscribe message through various Message Queue
Service Invoke βœ… demo Call Service through MOSN (another istio data plane)
Config βœ… demo Write/Query/Subscribe the config through various Config Center
Lock βœ… demo Distributed lock API
Sequencer βœ… demo Generate distributed unique and incremental ID
File βœ… TODO File API implementation
Binding βœ… TODO Transparent data transmission API

Service Mesh

feature status quick start desc
istio βœ… demo As the data plane of istio

Extendability

feature status quick start desc
API plugin βœ… demo You can add your own API !

Actuator

feature status quick start desc
Health Check βœ… demo Query health state of app and components in Layotto
Metadata Query βœ… demo Query metadata in Layotto/app

Traffic Control

feature status quick start desc
TCP Copy βœ… demo Dump the tcp traffic received by Layotto into local file system
Flow Control βœ… demo limit access to the APIs provided by Layotto

Write your bussiness logic using WASM

feature status quick start desc
Go (TinyGo) βœ… demo Compile Code written by TinyGo to *.wasm and run in Layotto
Rust βœ… demo Compile Code written by Rust to *.wasm and run in Layotto
AssemblyScript βœ… demo Compile Code written by AssemblyScript to *.wasm and run in Layotto

As a FaaS(Serverless) runtime (Layotto + WebAssembly + k8s)

feature status quick start desc
Go (TinyGo) βœ… demo Compile Code written by TinyGo to *.wasm and run in Layotto And Scheduled by k8s.
Rust βœ… demo Compile Code written by Rust to *.wasm and run in Layotto And Scheduled by k8s.
AssemblyScript βœ… demo Compile Code written by AssemblyScript to *.wasm and run in Layotto And Scheduled by k8s.

Presentations

Landscapes

Β Β 

Layotto enriches the CNCF CLOUD NATIVE Landscape.

Community

Contact Us

Platform Link
πŸ’¬ DingTalk (preferred) Search the group number: 31912621 or scan the QR code below

How to contribute

Where to start? Check "Community tasks" list!

As a programming enthusiast , have you ever felt that you want to participate in the development of an open source project, but don't know where to start? In order to help everyone better participate in open source projects, our community will regularly publish community tasks to help everyone learn by doing!

Document Contribution Guide

Component Development Guide

Layotto Github Workflows

Layotto Commands Guide

Layotto Contributor Guide

Contributors

Thank y'all!

Design Documents

Actuator Design Doc

Configuration API with Apollo

Pubsub API and Compability with Dapr Component

RPC Design Doc

Distributed Lock API Design

FaaS Design

FAQ

Difference with dapr?

dapr is an excellent Runtime product, but it lacks the ability of Service Mesh, which is necessary for the Runtime product used in production environment, so we hope to combine Runtime with Service Mesh into one sidecar to meet more complex production requirements.

About

A fast and efficient cloud native application runtime

Resources

License

Code of conduct

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Go 96.0%
  • Makefile 2.5%
  • Shell 1.4%
  • Dockerfile 0.1%