IPFS powers the Distributed Web

    A peer-to-peer hypermedia protocol to make the web faster, safer, and more open.

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    Full contents

    Quick summary

    The IPFS project seeks to evolve the infrastructure of the Internet and the Web, with many things we've learned from successful systems, like Git, BitTorrent, Kademlia, Bitcoin, and many, many more. This is the sort of thing that would have come out of ARPA/DARPA, IETF, or Bell Labs in another age. IPFS is a free, open-source project with thousands of contributors.

    IPFS (the InterPlanetary File System) is a hypermedia distribution protocol addressed by content and identities. It enables the creation of completely distributed applications, and in doing so aims to make the web faster, safer, and more open.

    IPFS is a distributed file system that seeks to connect all computing devices with the same system of files. In some ways, this is similar to the original aims of the Web, but IPFS is actually more similar to a single BitTorrent swarm exchanging Git objects. You can read more about its origins in the paper IPFS - Content Addressed, Versioned, P2P File System.

    IPFS is becoming a new major subsystem of the internet. If built right, it could complement or replace HTTP. It could complement or replace even more. Let's go point-by-point into how.

    IPFS is a protocol:

    • Defines a content-addressed file system
    • Coordinates content delivery
    • Combines Kademlia + BitTorrent + Git

    IPFS is a file system:

    • Has directories and files
    • Is a mountable filesystem (via FUSE)

    IPFS is a web:

    • Can be used to view documents like the conventional web
    • Files are accessible via HTTP at<path>
    • Browsers and extensions can learn to use the ipfs:// URL or dweb:/ipfs/ URI schemes directly
    • Hash-addressed content guarantees authenticity

    IPFS is modular:

    • Connection layer over any network protocol
    • Routing layer
    • Uses a routing layer DHT (Kademlia/Coral)
    • Uses a path-based naming service
    • Uses a BitTorrent-inspired block exchange

    IPFS uses crypto:

    • Cryptographic-hash content addressing
    • Block-level deduplication
    • File integrity plus versioning
    • File-system-level encryption plus signing support

    IPFS is p2p:

    • Worldwide peer-to-peer file transfers
    • Completely decentralized architecture
    • No central point of failure

    IPFS is a CDN:

    • Add a file to the file system locally, and it's now available to the world
    • Caching-friendly (content-hash naming)
    • BitTorrent-based bandwidth distribution

    IPFS has a name service:

    • IPNS, an SFS-inspired name system
    • Global namespace based on PKI
    • It serves to build trust chains
    • It's compatible with other NSes
    • Can map DNS, .onion, .bit, etc to IPNS

    Learn how IPFS works

    To learn more about how IPFS works, explore the following resources:

    Current state of IPFS

    IPFS is a work in progress! It is an ambitious plan to make the internet more free, open, secure, and high-performance. It builds on the good ideas of numerous battle-tested distributed systems.

    Today, there is one main, reference IPFS protocol implementation (in Go) with more on the way (including JavaScript and Python).

    Try it out

    The go-ipfs implementation was released as an alpha distribution in February 2015 and since then has been making regular releases on the road to beta. Notably, js-ipfs is also well along the way in progress. Want to get started with the IPFS alpha? Try these resources:

    A word on security

    The IPFS protocol and its implementations are still in heavy development. This means that there may be problems in our protocols, or there may be mistakes in our implementations. And — though IPFS is not production-ready yet — many people are already running nodes on their machines, so we take security vulnerabilities very seriously. If you discover a security issue, please bring it to our attention right away!

    If you find a vulnerability that may affect live deployments — for example, by exposing a remote execution exploit — please send your report privately to Please do not file a public issue.

    If the issue is a protocol weakness that cannot be immediately exploited, or something not yet deployed, just discuss it openly.

    Get involved

    The IPFS project is big — with thousands of contributors in our community — and you're invited to join! Check out the Community section of the IPFS Docs for all the details on how to get involved, including the official IPFS forums, our chat channels, social media, meetups and ProtoSchool workshops, and more.

    If you're interested in how the project is organized at a higher level, visit the IPFS Team & Project Management repo.

    There's also a weekly IPFS newsletter (subscribe here) and regularly-updated blog.

    Help and documentation

    If you're looking for help learning about or building with IPFS, start with these resources:

    If you've found a bug or want to make a feature request regarding a specific component of IPFS, please open an issue in the appropriate repo so that it can be triaged and responded to as quickly as possible.

    Links and resources

    The IPFS project is big (and expanding every day!), so we've excerpted some frequently-used links and other resources below. However, we encourage you to explore both the main IPFS GitHub org (for core implementations and other mission-critical work) and the IPFS Shipyard GitHub org, home to incubated projects by the IPFS community.

    Protocol implementations

    These are the current implementations of IPFS:

    Language Project Completeness
    Go reference
    JavaScript alpha
    Rust alpha
    Python starting (inactive)
    C starting (inactive)

    If you would you like to start your own language implementation of IPFS, check out the Specifications. The specs are still evolving, but the core formats are stable and can be built on. Make sure to post an issue if you would like to start an effort, as many people have expressed interest in contributing to new implementations.

    HTTP client libraries

    The following HTTP client libraries are either complete or under development. All welcome contributions! If you would like to create a new library, please see the IPFS HTTP Client Implementation Guide, and tell us so we can help.

    Language Client library Status
    Go Active
    Java Active
    JavaScript Active
    Python Active
    Scala Inactive
    Clojure Active
    Clojurescript Active
    Haskell Inactive
    Swift Active
    CommonLisp Inactive
    Rust Active Inactive Inactive Inactive
    Ruby Inactive Active
    Mac Automator Inactive
    Pharo Active
    PHP Inactive Inactive
    C# Inactive Active
    C++ Active
    Erlang Inactive

    GUIs and helper apps

    • ipfs-companion - The IPFS web browser extension.
    • ipfs-webui - The IPFS WebUI app.
    • ipfs-desktop - A menubar/tray desktop app.
    • ipfs-gui - Coordinating development, user experience, and maintenance of IPFS GUIs.
    • i18n - The IPFS Translation Project: crowdsourcing translations of IPFS GUIs and websites.

    Apps and data sets on IPFS

    • Awesome IPFS - an ever-growing list of apps, data sets, and other inspirational resources built on IPFS.

    Specs and papers

    Installation and update tools

    Additional resources

    • distributions - Source code for the IPFS distributions website,
    • infra - Tools for maintaining infrastructure for the IPFS community.
    • testground - Tools for testing distributed software at scale.
    • ipfs-cluster - Provides data orchestration across a swarm of IPFS daemons by allocating, replicating, and tracking a global pinset distributed among multiple peers.
    • ipfs-shipyard - A wide range of incubated projects by and for the IPFS community.
    • website - Source code for the IPFS website,




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