Distributed concurrent network enumeration system

AETH-erial 34aed7afa9 made and edit to the makefile and removed recursion depth limiter 7 months ago
cmd 34aed7afa9 made and edit to the makefile and removed recursion depth limiter 7 months ago
pkg 34aed7afa9 made and edit to the makefile and removed recursion depth limiter 7 months ago
test d7bc9d87b4 got the recursive func working and added some test cases 7 months ago
.gitignore 391c7668a8 added makefile 7 months ago
Makefile 34aed7afa9 made and edit to the makefile and removed recursion depth limiter 7 months ago
README.md 5bb1c9a6df pushing this from local git to public mirror 9 months ago
go.mod 44bdadc15a committing, code is unworking and mid refactor 7 months ago
go.sum 44bdadc15a committing, code is unworking and mid refactor 7 months ago

README.md

Working on a network observability tool. Architecting it as a peer-to-peer network, each node on the p2p network performs host scans on addresses within its own address space, and reports back to a central client that establishes itself as the broker for that round of scanning. Going to use this project as a way to explore network enumeration, distributed system resilience, and concurrent programming at large scale.

Since any node on the network can act as a C2/master/broker server, I want to disperse the scanning data via a torrent network between nodes, so that the speed of replication scales with the size of the network.

Im also attempting to solve the problem of scanning hosts on a large network with rotating IPs, so that when a network/host sweep is executed, the amount of time that a mapping of the network is accurate is extended. I'm attempting to combat this by:

  1. designing this is a scalable distributed system
  2. utilizing the strong concurrent features of Golang
  3. utilizing the torrent protocol to distribute data so that state changes can easily be reflected across nodes.