Recent Projects

tredaell/FRRouting

FRRouting (FRR) is an IP routing protocol suite for Linux and Unix platforms which includes protocol daemons for BGP, IS-IS, LDP, OSPF, PIM, and RIP. FRR’s seamless integration with the native Linux/Unix IP networking stacks makes it applicable to a wide variety of use cases including connecting hosts/VMs/containers to the network, advertising network services, LAN switching and routing, Internet access routers, and Internet peering. FRR has its roots in the Quagga project. In fact, it was started by many long-time Quagga developers who combined their efforts to improve on Quagga's well-established foundation in order to create the best routing protocol stack available. We invite you to participate in the FRRouting community and help shape the future of networking.
  • EPEL 7 : ppc64le, x86_64
  • Fedora rawhide : i386, ppc64le, x86_64

petersen/git-annex

https://git-annex.branchable.com/
  • EPEL 7 : x86_64

@dnsoarc/packetq-pr

PRE-RELEASE! Pre-release of @dnsoarc/packetq.
  • Centos-stream 8 : aarch64, x86_64
  • Centos-stream 9 : aarch64, x86_64
  • EPEL 7 : x86_64
  • EPEL 8 : aarch64, x86_64
  • EPEL 9 : aarch64, x86_64
  • Fedora 38 : aarch64, x86_64
  • Fedora 39 : aarch64, x86_64
  • Fedora 40 : aarch64, x86_64
  • Fedora rawhide : aarch64, x86_64

@dnsoarc/packetq

packetq is a command line tool to run SQL queries directly on PCAP files, the results can be outputted as JSON (default), formatted/compact CSV and XML. It also contain a very simplistic web-server in order to inspect PCAP files remotely. PacketQ was previously known as DNS2db but was renamed in 2011 when it was rebuilt and could handle protocols other than DNS among other things. Following repositories are included: https://github.com/DNS-OARC/PacketQ
  • Centos-stream 8 : aarch64, x86_64
  • Centos-stream 9 : aarch64, x86_64
  • EPEL 7 : x86_64
  • EPEL 8 : aarch64, x86_64
  • EPEL 9 : aarch64, x86_64
  • Fedora 38 : aarch64, x86_64
  • Fedora 39 : aarch64, x86_64
  • Fedora 40 : aarch64, x86_64
  • Fedora rawhide : aarch64, x86_64

mperezco/eidenworks

IT Management done with Big Data tools
  • EPEL 7 : x86_64

voor/vboxheadless-service

Use Systemd to start a Headless Virtual Box instance on system start.
  • Fedora rawhide : x86_64

andybe/LLVM4.0F25

Description not filled in by author. Very likely personal repository for testing purpose, which you should not use.

@dnsoarc/drool-pr

PRE-RELEASE! Pre-release of @dnsoarc/drool.
  • Centos-stream 8 : aarch64, x86_64
  • Centos-stream 9 : aarch64, x86_64
  • EPEL 7 : x86_64
  • EPEL 8 : aarch64, x86_64
  • EPEL 9 : aarch64, x86_64
  • Fedora 38 : aarch64, x86_64
  • Fedora 39 : aarch64, x86_64
  • Fedora 40 : aarch64, x86_64
  • Fedora rawhide : aarch64, x86_64

@dnsoarc/drool

drool can replay DNS traffic from packet capture (PCAP) files and send it to a specified server, with options such as to manipulate the timing between packets, as well as loop packets infinitely or for a set number of iterations. This tool's goal is to be able to produce a high amount of UDP packets per second and TCP sessions per second on common hardware. The purpose can be to simulate Distributed Denial of Service (DDoS) attacks on the DNS and measure normal DNS querying. For example, the tool could enable you to take a snapshot of a DDoS and be able to replay it later to test if new code or hardening techniques are useful, safe & effective. Another example is to be able to replay a packet stream for a bug that is sequence- and/or timing-related in order to validate the efficacy of subsequent bug fixes. Following repositories are included: https://github.com/DNS-OARC/drool
  • Centos-stream 8 : aarch64, x86_64
  • Centos-stream 9 : aarch64, x86_64
  • EPEL 7 : x86_64
  • EPEL 8 : aarch64, x86_64
  • EPEL 9 : aarch64, x86_64
  • Fedora 38 : aarch64, x86_64
  • Fedora 39 : aarch64, x86_64
  • Fedora 40 : aarch64, x86_64
  • Fedora rawhide : aarch64, x86_64

dwrobel/asco

The ASCO project aims to bring circuit optimization capabilities to existing SPICE simulators using a high-performance parallel differential evolution (DE) optimization algorithm. It supports Eldo, HSPICE, LTspice, Spectre, and Qucs.
  • EPEL 7 : x86_64
  • EPEL 8 : aarch64, x86_64
  • EPEL 9 : aarch64, x86_64
  • Fedora 38 : aarch64, ppc64le, x86_64
  • Fedora 39 : aarch64, ppc64le, s390x, x86_64
  • Fedora 40 : aarch64, ppc64le, s390x, x86_64
  • Fedora eln : aarch64, ppc64le, x86_64
  • Fedora rawhide : aarch64, ppc64le, s390x, x86_64