1
0
Fork 0
mirror of https://github.com/NeoCloud/NeoNetwork synced 2024-11-23 04:40:40 +08:00
NeoNetwork/scripts/roa.py
2020-05-01 15:45:25 +08:00

130 lines
4.8 KiB
Python
Executable file

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
from pathlib import Path
from ipaddress import IPv4Network, IPv6Network
from itertools import combinations
def keyVal(line):
l = line.split('=')
assert len(l) > 1
repl_quotes = lambda t: t.replace('"', '').replace('\'', '')
return [l[0].strip(), '='.join([repl_quotes(i).strip() for i in l[1:]])]
cwd = Path()
assert not [d for d in ("asn", "route", "route6") if not (cwd / d).is_dir()]
def get_asns():
asns = list()
for f in (cwd / "asn").iterdir():
try:
if not f.is_file():
continue
assert f.name.lower().startswith('as')
asns.append(int(f.name[2:]))
except Exception:
print("[!] Error while processing file", f)
raise
return asns
ASNS = get_asns()
def route2roa(dirname, is_ipv6=False):
roa_entries = list()
for f in (cwd / dirname).iterdir():
try:
if not f.is_file():
continue
t = f.read_text()
lines = t.split('\n')
fc = dict()
for line in lines:
l = line.strip()
if not l or l.startswith('#'):
continue
key, val = keyVal(l)
fc[key.lower()] = val.lower()
nettype = IPv6Network if is_ipv6 else IPv4Network
if fc.get('type') in ('lo', 'subnet'):
asn = int(fc.get('as'))
assert asn in ASNS
route = f.name.replace(',', '/')
roa_entries.append([asn, nettype(route, strict=True)])
elif fc.get('type').startswith('tun'):
asn = int(fc.get('upstream').split(':')[1])
assert asn in ASNS
route = f.name.replace(',', '/')
roa_entries.append([asn, nettype(route, strict=True)])
else:
assert fc.get('type') in ('ptp',)
except Exception:
print("[!] Error while processing file", f)
raise
roa_entries.sort(key=lambda l: l[0])
for en1, en2 in combinations(roa_entries, 2):
if en1[1].overlaps(en2[1]):
print("[!] Error: found", en1[1], "overlaps", en2[1])
raise AssertionError
return roa_entries
if __name__ == "__main__":
import argparse
parser = argparse.ArgumentParser(description='NeoNetwork ROA tool')
parser.add_argument('-m', '--max', type=int, default=29, help='set ipv4 max prefix length')
parser.add_argument('-M', '--max6', type=int, default=64, help='set ipv6 max prefix length')
parser.add_argument('-j', '--json', action='store_true', help='output json')
parser.add_argument('-o', '--output', default='', help='write output to file')
parser.add_argument('-4', '--ipv4', action='store_true', help='print ipv4 only')
parser.add_argument('-6', '--ipv6', action='store_true', help='print ipv6 only')
args = parser.parse_args()
if args.max < 0 or args.max6 < 0 or args.max > IPv4Network(0).max_prefixlen or args.max6 > IPv6Network(0).max_prefixlen:
parser.error('check your max prefix length')
roa4 = roa6 = list()
if args.ipv4:
roa4 = route2roa('route')
elif args.ipv6:
roa6 = route2roa('route6', True)
else:
roa4 = route2roa('route')
roa6 = route2roa('route6', True)
roa4 = [r for r in roa4 if r[1].prefixlen <= args.max or r[1].prefixlen == IPv4Network(0).max_prefixlen]
roa6 = [r for r in roa6 if r[1].prefixlen <= args.max6]
for r in roa4:
if r[1].prefixlen == IPv4Network(0).max_prefixlen:
r.append(IPv4Network(0).max_prefixlen)
else:
r.append(args.max)
r[1] = r[1].with_prefixlen
for r in roa6:
r.append(args.max6)
r[1] = r[1].with_prefixlen
output = ""
if args.json:
import json, time
for r in (*roa4, *roa6):
r[0] = "AS%d" % r[0]
current = int(time.time())
d_output = {"metadata": {"counts": len(roa4)+len(roa6), "generated": current, "valid": current+14*86400}, "roas": list()}
for r in roa4:
d_output['roas'].append(dict(zip(['asn', 'prefix', 'maxLength'], r)))
for r in roa6:
d_output['roas'].append(dict(zip(['asn', 'prefix', 'maxLength'], r)))
output = json.dumps(d_output, indent=2)
else:
output += "# NeoNetwork ROA tool\n"
pattern = 'route %s max %d as %d;'
l_output = list()
for (asn, prefix, maxlen) in roa4:
l_output.append(pattern % (prefix, maxlen, asn))
for (asn, prefix, maxlen) in roa6:
l_output.append(pattern % (prefix, maxlen, asn))
output += '\n'.join(l_output)
if not args.output or args.output == '-':
print(output)
else:
Path(args.output).write_text(output)
print('written to', args.output)