Nucleo's Projects

nucleo/frr

FRRouting is a fork of Quagga
  • openEuler 22.03_LTS_SP4 : aarch64, x86_64
  • openEuler 24.03_LTS : aarch64, x86_64

nucleo/gns3

GNS3 Graphical Network Simulator
  • openEuler 24.03_LTS : aarch64, x86_64

nucleo/dnf5

DNF5 is a command-line package manager that automates the process of installing, upgrading, configuring, and removing computer programs in a consistent manner. It supports RPM packages, modulemd modules, and comps groups and environments.
  • openEuler 24.03_LTS : aarch64, x86_64

nucleo/vpp

FD.io’s Vector Packet Processor (VPP) is a fast, scalable layer 2-4 multi-platform network stack. master branch snapshots
  • openEuler 22.03_LTS_SP4 : aarch64, x86_64
  • openEuler 24.03_LTS : aarch64, x86_64

nucleo/freerouter

freeRouter is a free, open source router os process. it speaks routing protocols, and (re)encapsulates packets on interfaces. (a huge list of encapsulation and routing test cases can be found under self-test page) since it handles packets itself, it is independent of underlaying os capabilities. (it can export forwarding tables to xdp, dpdk or hardware switches via openflow or p4lang) since it is an unprivilegized process, it receives and sends packets through udp sockets. (it means that internet can be used as backplane for router processes) there are external, privileged processes that place traffic to these udp sockets. the command line tries to mimic the industry standards with one exception: no global routing table: every routed interface must be in a virtual routing table. positive side effect: there are no vrf-awareness questions. Basically freeRtr is a control plane software that natively relies on UNIX UDP socket. Concretely, you can spawn an unlimited amount of router processes on the same host, and interconnect them via UNIX UDP sockets in order to implement a topology and simulate an entire network. This is freeRtr in its simplest form running in default mode. Please note that this installation is meant to demonstrate freeRtr UNIX socket forwarding capability. If you are considering switching high traffic rate such as 10G, it is advised to run freeRtr alongside a DPDK or P4 hardware dataplane. Programmable dataplane P4, DPDK, XDP or TCPDUMP/libpcap are possible candidates.
  • openEuler 24.03_LTS : aarch64, x86_64