[https://riv-chain.github.io/RiV-mesh/]
IoT end-to-end encrypted IPv6 network. First self arranging mesh network running links aggregation!
RiV-mesh is an implementation of a fully end-to-end encrypted IPv6 network, created in the scope to produce the Transport Layer for RiV Chain Blockchain, also to facilitate secure conectivity between a wide spectrum of endpoint devices like IoT devices, desktop computers or even routers. It is lightweight, self-arranging, supported on multiple platforms and allows pretty much any IPv6-capable application to communicate securely with other RiV-mesh nodes. RiV-mesh does not require you to have IPv6 Internet connectivity - it also works over IPv4.
Changelog: [https://github.com/RiV-chain/RiV-mesh/releases/tag/v0.4.7.8]
#RiVmesh #Yggdrasil
Yggdrasil-jumper v0.3.1 [https://github.com/one-d-wide/yggdrasil-jumper]
This project aims to transparently reduce latency of a connection over Yggdrasil network for such applications as online gaming, VoIP and others.
By default, yggdrasil-go routes data only through explicitly connected peers and doesn’t attempt to reach other nodes accessible over the internet. Therefore, path usually contains 1-2 intermediary nodes, namely public peers of both sides. If both you and your peer use internet, you can send traffic directly (aka peer-to-peer), thus reducing latency.
- Jumper connects to Admin API of the running router. And monitors active sessions (peers you have data exchange over Yggdrasil network with).
- Once any such session appears, jumper tries to connect to associated peer, assuming it has another jumper running on the same listen_port.
- Both jumpers exchange their external internet addresses and use NAT traversal technique to instantiate direct bridge over the internet.
- If previous step was successful, jumper will relay all data passing the bridge to the router until session is closed or other error occurs.
Changelog: [https://github.com/one-d-wide/yggdrasil-jumper/releases/tag/v0.3.1]
#Yggdrasil