ferrite-seeder is a crawler for the Ferritecoin network, which exposes a list of reliable nodes via a built-in DNS server.
Features:
- regularly revisits known nodes to check their availability
- bans nodes after enough failures, or bad behaviour
- accepts nodes down to v3.0.0 to request new IP addresses from, but only reports good post-v3.1.3 nodes.
- keeps statistics over (exponential) windows of 2 hours, 8 hours, 1 day and 1 week, to base decisions on.
- very low memory (a few tens of megabytes) and cpu requirements.
- crawlers run in parallel (by default 192 threads simultaneously).
sudo apt-get install build-essential libboost-all-dev libssl-dev libcurl4-openssl-dev libconfig++-devAssuming you want to run a dns seed on dnsseed.example.com, you will need an authorative NS record in example.com's domain record, pointing to for example vps.example.com:
$ dig -t NS dnsseed.example.com
;; ANSWER SECTION dnsseed.example.com. 86400 IN NS vps.example.com.
On the system vps.example.com, you can now run dnsseed:
./dnsseed -h dnsseed.ferritecoin.com -n vps.ferritecoin.com -m system@ferritecoin.org
If you want the DNS server to report SOA records, please provide an e-mail address (with the @ part replaced by .) using -m.
A Record vps 118.8.8.8 Automatic NS Record dnsseed vps.ferritecoin.com Automatic
Compiling will require boost and ssl. On debian systems, these are provided
by libboost-dev and libssl-dev respectively.
makeThis will produce the dnsseed binary.
It's sometimes useful to test dnsseed locally to ensure it's giving good
output (either as part of development or sanity checking). You can inspect
dnsseed.dump to inspect all nodes being tracked for crawling, or you can
issue DNS requests directly. Example:
$ dig @:: -p 15353 dnsseed.example.com ^ ^ ^ | | |__ Should match the host (-h) argument supplied to dnsseed | | | |_______ Port number (example uses the user space port; see below) | |_______________ Explicitly call the DNS server on localhost
Typically, you'll need root privileges to listen to port 53 (name service).
One solution is using an iptables rule (Linux only) to redirect it to a non-privileged port:
$ iptables -t nat -A PREROUTING -p udp --dport 53 -j REDIRECT --to-port 15353
If properly configured, this will allow you to run dnsseed in userspace, using the -p 15353 option.
Another solution is allowing a binary to bind to ports < 1024 with setcap (IPv6 access-safe)
$ setcap 'cap_net_bind_service=+ep' /path/to/dnsseed