gistfile1.txt
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#!/usr/bin/env python3
"""
wgctl JSON helper — called by shell functions to read/write JSON files.
Usage: json_helper.py <command> <file> [key] [value]
"""
import sys
import json
import os
DATETIME_FMT = os.environ.get('WGCTL_DATETIME_FMT', '%Y-%m-%d %H:%M')
def get(file, key):
try:
with open(file) as f:
data = json.load(f)
val = data.get(key, [])
if isinstance(val, bool):
print(str(val).lower()) # true/false not True/False
elif isinstance(val, list):
if val:
print('\n'.join(str(v) for v in val))
else:
if val:
print(val)
except:
sys.exit(0)
def set_key(file, key, value):
try:
data = {}
if os.path.exists(file):
with open(file) as f:
data = json.load(f)
# Try to parse as JSON value first (for arrays/bools)
try:
data[key] = json.loads(value)
except:
data[key] = value
with open(file, 'w') as f:
json.dump(data, f, indent=2)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def delete_key(file, key):
try:
with open(file) as f:
data = json.load(f)
data.pop(key, None)
with open(file, 'w') as f:
json.dump(data, f, indent=2)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def append(file, key, value):
try:
data = {}
if os.path.exists(file):
with open(file) as f:
data = json.load(f)
if key not in data:
data[key] = []
if value not in data[key]:
data[key].append(value)
with open(file, 'w') as f:
json.dump(data, f, indent=2)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def remove_value(file, key, value):
try:
with open(file) as f:
data = json.load(f)
if key in data and value in data[key]:
data[key].remove(value)
with open(file, 'w') as f:
json.dump(data, f, indent=2)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def cat(file):
try:
with open(file) as f:
data = json.load(f)
print(json.dumps(data, indent=2))
except Exception as e:
sys.exit(1)
def has_key(file, key):
try:
with open(file) as f:
data = json.load(f)
sys.exit(0 if key in data else 1)
except:
sys.exit(1)
def filter_values(file, key, value):
"""Remove all entries where value matches"""
try:
with open(file) as f:
data = json.load(f)
data = {k: v for k, v in data.items() if v != value}
with open(file, 'w') as f:
json.dump(data, f, indent=2)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def last_event(file, key, field, client):
"""Get last event field for a client"""
try:
last = None
with open(file) as f:
for line in f:
try:
e = json.loads(line.strip())
if e.get(key) == client:
last = e
except:
pass
if last:
print(last.get(field, ''))
except:
pass
def events_for(file, ip, limit):
"""Format events for a given IP"""
try:
from datetime import datetime
events = []
with open(file) as f:
for line in f:
try:
e = json.loads(line.strip())
if e.get('ip') == ip:
events.append(e)
except:
pass
for e in events[-int(limit):]:
ts = e.get('timestamp', '')
try:
dt = datetime.fromisoformat(ts)
ts = dt.strftime(DATETIME_FMT)
except:
pass
endpoint = e.get('endpoint', '—')
client = e.get('client', '—')
event = e.get('event', '—')
print(f' {ts} {client:<20} {endpoint:<20} {event}')
except:
pass
def fw_events(file, filter_ip, filter_type, clients_dir, limit):
"""Format firewall drop events with dedup and counts"""
import glob
proto_map = {1: 'icmp', 6: 'tcp', 17: 'udp'}
ip_to_name = {}
for conf in glob.glob(f"{clients_dir}/*.conf"):
name = os.path.basename(conf).replace('.conf', '')
try:
with open(conf) as f:
for line in f:
if line.startswith('Address'):
ip = line.split('=')[1].strip().split('/')[0]
ip_to_name[ip] = name
except:
pass
events = []
last_seen = {}
try:
with open(file) as f:
for line in f:
try:
e = json.loads(line.strip())
src = e.get('src_ip', '')
if not src:
continue
if filter_ip and src != filter_ip:
continue
dst = e.get('dest_ip', '')
port = e.get('dest_port', '')
proto = e.get('ip.protocol', 0)
key = (src, dst, port, proto)
ts_str = e.get('timestamp', '')
try:
from datetime import datetime
ts = datetime.fromisoformat(ts_str).timestamp()
except:
ts = 0
windows = {1: 5, 6: 30, 17: 10}
window = windows.get(proto, 10)
if key in last_seen and (ts - last_seen[key]) < window:
continue
last_seen[key] = ts
events.append(e)
except:
pass
except:
pass
# Dedup consecutive same src+dst+port within 60s with count
deduped = []
counts = []
for e in events:
ts_str = e.get('timestamp', '')
try:
from datetime import datetime
ts = datetime.fromisoformat(ts_str).timestamp()
except:
ts = 0
src = e.get('src_ip', '')
dst = e.get('dest_ip', '')
port = e.get('dest_port', '')
proto = e.get('ip.protocol', 0)
key = (src, dst, port, proto)
if deduped and counts:
prev = deduped[-1]
try:
prev_ts = datetime.fromisoformat(prev.get('timestamp','')).timestamp()
except:
prev_ts = 0
prev_key = (prev.get('src_ip',''), prev.get('dest_ip',''),
prev.get('dest_port',''), prev.get('ip.protocol',0))
if key == prev_key and (ts - prev_ts) < 60:
counts[-1] += 1
continue
deduped.append(e)
counts.append(1)
grouped = []
group_counts = []
for e in deduped:
ts_str = e.get('timestamp', '')
try:
from datetime import datetime
dt = datetime.fromisoformat(ts_str)
# Truncate to minute for grouping
minute_key = dt.strftime('%Y-%m-%d %H:%M')
except:
minute_key = ts_str[:16]
src = e.get('src_ip', '')
dst = e.get('dest_ip', '')
port = e.get('dest_port', '')
proto = e.get('ip.protocol', 0)
key = (minute_key, src, dst, proto) # group within same minute
if grouped and group_counts:
prev = grouped[-1]
try:
prev_dt = datetime.fromisoformat(prev.get('timestamp',''))
prev_minute = prev_dt.strftime('%Y-%m-%d %H:%M')
except:
prev_minute = ''
prev_key = (prev_minute, prev.get('src_ip',''),
prev.get('dest_ip',''), prev.get('ip.protocol',0))
if key == prev_key:
group_counts[-1] += 1
continue
grouped.append(e)
group_counts.append(1)
for e, count in zip(deduped[-int(limit):], counts[-int(limit):]):
ts = e.get('timestamp', '')
try:
from datetime import datetime
dt = datetime.fromisoformat(ts)
ts = dt.strftime(DATETIME_FMT)
except:
pass
src = e.get('src_ip', '—')
dst = e.get('dest_ip', '—')
port = e.get('dest_port', '')
proto_num = e.get('ip.protocol', 0)
proto = proto_map.get(proto_num, str(proto_num))
dst_str = f"{dst}:{port}" if port else dst
client = ip_to_name.get(src, src)
if filter_type and not client.startswith(filter_type + '-'):
continue
count_str = f" (x{count})" if count > 1 else ""
print(f"{ts}|{client}|{dst_str}|{proto}{count_str}")
def wg_events(file, filter_client, filter_type, limit):
"""Format WireGuard events from events.log with dedup"""
events = []
try:
with open(file) as f:
for line in f:
try:
e = json.loads(line.strip())
client = e.get('client', '')
if not client:
continue
if filter_client and client != filter_client:
continue
if filter_type and not client.startswith(filter_type + '-'):
continue
events.append(e)
except:
pass
except:
pass
# Dedup consecutive same client+event+endpoint within 60s
deduped = []
counts = []
for e in events:
ts_str = e.get('timestamp', '')
try:
from datetime import datetime
ts = datetime.fromisoformat(ts_str).timestamp()
except:
ts = 0
client = e.get('client', '')
event = e.get('event', '')
endpoint = e.get('endpoint', '')
key = (client, event, endpoint[:15])
if deduped and counts:
prev = deduped[-1]
prev_ts_str = prev.get('timestamp', '')
try:
prev_ts = datetime.fromisoformat(prev_ts_str).timestamp()
except:
prev_ts = 0
prev_key = (prev.get('client',''), prev.get('event',''), prev.get('endpoint','')[:15])
if key == prev_key and (ts - prev_ts) < 60:
counts[-1] += 1
continue
deduped.append(e)
counts.append(1)
for e, count in zip(deduped[-int(limit):], counts[-int(limit):]):
ts = e.get('timestamp', '')
try:
from datetime import datetime
dt = datetime.fromisoformat(ts)
ts = dt.strftime(DATETIME_FMT)
except:
pass
client = e.get('client', '—')
endpoint = e.get('endpoint', '—')
event = e.get('event', '—')
count_str = f" (x{count})" if count > 1 else ""
print(f"{ts}|{client}|{endpoint}|{event}{count_str}")
def format_fw_event(line, clients_dir):
"""Format a single fw_event line"""
import glob
proto_map = {1: 'icmp', 6: 'tcp', 17: 'udp'}
# Build ip->name map
ip_to_name = {}
for conf in glob.glob(f"{clients_dir}/*.conf"):
name = os.path.basename(conf).replace('.conf', '')
try:
with open(conf) as f:
for l in f:
if l.startswith('Address'):
ip = l.split('=')[1].strip().split('/')[0]
ip_to_name[ip] = name
except:
pass
try:
e = json.loads(line.strip())
src = e.get('src_ip', '')
if not src:
return None
ts = e.get('timestamp', '')
try:
from datetime import datetime
dt = datetime.fromisoformat(ts)
ts = dt.strftime(DATETIME_FMT)
except:
pass
dst = e.get('dest_ip', '—')
port = e.get('dest_port', '')
proto_num = e.get('ip.protocol', 0)
proto = proto_map.get(proto_num, str(proto_num))
dst_str = f"{dst}:{port}" if port else dst
client = ip_to_name.get(src, src)
return f"{ts}|{client}|{dst_str}|{proto}"
except:
return None
def format_wg_event(line):
"""Format a single wg_event line"""
try:
e = json.loads(line.strip())
client = e.get('client', '')
if not client:
return None
ts = e.get('timestamp', '')
try:
from datetime import datetime
dt = datetime.fromisoformat(ts)
ts = dt.strftime(DATETIME_FMT)
except:
pass
endpoint = e.get('endpoint', '—')
event = e.get('event', '—')
return f"{ts}|{client}|{endpoint}|{event}|wg"
except:
return None
def remove_events(file, identifier):
"""Remove all events for a client/ip from a JSONL file"""
try:
lines = []
with open(file) as f:
for line in f:
try:
e = json.loads(line.strip())
if e.get('client') == identifier or e.get('src_ip') == identifier:
continue
lines.append(line)
except:
lines.append(line)
with open(file, 'w') as f:
f.writelines(lines)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def follow_logs(fw_file, wg_file, filter_ip, filter_type, clients_dir, filter_peers=""):
"""Follow both log files and output formatted events"""
import glob, time, select
proto_map = {1: 'icmp', 6: 'tcp', 17: 'udp'}
peer_filter = set(filter_peers.split(',')) if filter_peers else set()
# Build ip->name map
ip_to_name = {}
for conf in glob.glob(f"{clients_dir}/*.conf"):
name = os.path.basename(conf).replace('.conf', '')
try:
with open(conf) as f:
for l in f:
if l.startswith('Address'):
ip = l.split('=')[1].strip().split('/')[0]
ip_to_name[ip] = name
except:
pass
# Open files and seek to end
files = {}
for label, path in [('fw', fw_file), ('wg', wg_file)]:
if path and os.path.exists(path):
f = open(path)
f.seek(0, 2) # seek to end
files[label] = f
dedup = {}
try:
while True:
for label, f in files.items():
line = f.readline()
if not line:
continue
try:
e = json.loads(line.strip())
except:
continue
if label == 'fw':
src = e.get('src_ip', '')
if not src:
continue
if filter_ip and src != filter_ip:
continue
# Filter by peer names if specified
if peer_filter:
client_name = ip_to_name.get(src, '')
if client_name not in peer_filter:
continue
dst = e.get('dest_ip', '—')
port = e.get('dest_port', '')
proto_num = e.get('ip.protocol', 0)
proto = proto_map.get(proto_num, str(proto_num))
# Dedup
key = (src, dst, port, proto_num)
windows = {1: 5, 6: 30, 17: 10}
window = windows.get(proto_num, 10)
now = time.time()
if key in dedup and (now - dedup[key]) < window:
continue
dedup[key] = now
client = ip_to_name.get(src, src)
if filter_type and not client.startswith(filter_type + '-'):
continue
dst_str = f"{dst}:{port}" if port else dst
ts = e.get('timestamp', '')[:16].replace('T', ' ')
print(f"fw|{ts}|{client}|{dst_str}|{proto}", flush=True)
elif label == 'wg':
client = e.get('client', '')
if not client:
continue
if filter_ip:
ip = ip_to_name.get(filter_ip, '')
if client != ip and client != filter_ip:
continue
if peer_filter and client not in peer_filter:
continue
if filter_type and not client.startswith(filter_type + '-'):
continue
ts = e.get('timestamp', '')[:16].replace('T', ' ')
endpoint = e.get('endpoint', '—')
event = e.get('event', '—')
print(f"wg|{ts}|{client}|{endpoint}|{event}", flush=True)
time.sleep(0.1)
except KeyboardInterrupt:
pass
def count(file, key):
try:
with open(file) as f:
data = json.load(f)
val = data.get(key, [])
print(len(val) if isinstance(val, list) else 0)
except:
print(0)
def audit_fw_counts(clients_dir):
"""Return peer_name:fw_count pairs from iptables"""
import glob, subprocess, re
try:
result = subprocess.run(
['iptables', '-L', 'FORWARD', '-n', '-v'],
capture_output=True, text=True
)
fw_lines = result.stdout.splitlines()
except Exception:
fw_lines = []
# Filter to only data lines (skip headers and blanks)
# In -v output, source IP is in column 8 (0-indexed)
# Format: pkts bytes target prot opt in out source destination [options]
rule_lines = [l for l in fw_lines if l.strip() and not l.startswith('Chain') and not l.startswith(' pkts')]
for conf in sorted(glob.glob(f"{clients_dir}/*.conf")):
name = os.path.basename(conf).replace('.conf', '')
try:
with open(conf) as f:
ip = ''
for line in f:
if line.startswith('Address'):
ip = line.split('=')[1].strip().split('/')[0]
break
if not ip:
continue
# Count lines where source column exactly matches the peer IP
count = sum(1 for l in rule_lines if re.search(r'\s' + re.escape(ip) + r'\s', l))
print(f"{name}:{count}")
except Exception:
pass
def peer_group_map(groups_dir):
"""Return peer:group pairs for all groups"""
import glob
try:
for group_file in glob.glob(f"{groups_dir}/*.group"):
try:
with open(group_file) as f:
g = json.load(f)
name = g.get('name', '')
for peer in g.get('peers', []):
if peer:
print(f"{peer}:{name}")
except:
pass
except:
pass
def peer_groups(groups_dir, peer_name):
"""Find all groups containing a peer"""
import glob
try:
for group_file in glob.glob(f"{groups_dir}/*.group"):
try:
with open(group_file) as f:
g = json.load(f)
if peer_name in g.get('peers', []):
print(g.get('name', ''))
except:
pass
except:
pass
def iso_to_ts(iso_str):
"""Convert ISO timestamp to unix timestamp"""
try:
from datetime import datetime, timezone
dt = datetime.fromisoformat(iso_str)
if dt.tzinfo is None:
dt = dt.replace(tzinfo=timezone.utc)
print(int(dt.timestamp()))
except:
print(0)
def rule_list_data(rules_dir, meta_dir):
"""Return all rule data including base rules and extends"""
import glob
rule_peer_counts = {}
for f in glob.glob(f"{meta_dir}/*.meta"):
try:
with open(f) as mf:
meta = json.load(mf)
rule = meta.get('rule', '')
if rule:
rule_peer_counts[rule] = rule_peer_counts.get(rule, 0) + 1
except:
pass
rule_files = (
sorted(glob.glob(f"{rules_dir}/*.rule")) +
sorted(glob.glob(f"{rules_dir}/base/*.rule"))
)
# Collect all data first
rules_data = []
for rule_file in rule_files:
is_base = '/base/' in rule_file
try:
with open(rule_file) as f:
r = json.load(f)
name = r.get('name', '')
desc = r.get('desc', '')
group = r.get('group', '')
extends = ','.join(r.get('extends', []))
resolved = _rule_resolve_internal(rules_dir, name)
n_allows = len(resolved.get('allow_ips', [])) + \
len(resolved.get('allow_ports', []))
n_blocks = len(resolved.get('block_ips', [])) + \
len(resolved.get('block_ports', []))
peer_count = rule_peer_counts.get(name, 0)
rules_data.append({
'name': name, 'desc': desc, 'n_allows': n_allows,
'n_blocks': n_blocks, 'peer_count': peer_count,
'extends': extends, 'is_base': is_base, 'group': group
})
except:
pass
# Sort: non-base first, then by group (empty group last within non-base),
# then by name within group
rules_data.sort(key=lambda x: (
x['is_base'],
x['group'] == '' and not x['is_base'],
x['group'],
x['name']
))
for r in rules_data:
print(f"{r['name']}|{r['desc']}|{r['n_allows']}|{r['n_blocks']}|"
f"{r['peer_count']}|{r['extends']}|{r['is_base']}|{r['group']}")
def group_list_data(groups_dir, blocks_dir):
"""Return group summary data in one call"""
import glob
# Get all block files
blocked_peers = set()
for f in glob.glob(f"{blocks_dir}/*.block"):
name = os.path.basename(f).replace('.block', '')
blocked_peers.add(name)
for group_file in sorted(glob.glob(f"{groups_dir}/*.group")):
try:
with open(group_file) as f:
g = json.load(f)
name = g.get('name', '')
desc = g.get('desc', '')
peers = [p for p in g.get('peers', []) if p]
total = len(peers)
blocked = sum(1 for p in peers if p in blocked_peers)
print(f"{name}|{desc}|{total}|{blocked}")
except:
pass
def fmt_datetime(iso_str, fmt):
"""Format ISO timestamp with given strftime format"""
try:
from datetime import datetime
dt = datetime.fromisoformat(iso_str)
print(dt.strftime(fmt))
except:
print(iso_str)
def create_rule(file, name, desc, dns_redirect, allow_ips, block_ips,
block_ports, allow_ports='', extends='', group=''):
rule = {
'name': name,
'desc': desc,
'group': group,
'dns_redirect': dns_redirect == 'true',
'extends': [x for x in extends.split(',') if x] if extends else [],
'allow_ips': [x for x in allow_ips.split(',') if x] if allow_ips else [],
'allow_ports': [x for x in allow_ports.split(',') if x] if allow_ports else [],
'block_ips': [x for x in block_ips.split(',') if x] if block_ips else [],
'block_ports': [x for x in block_ports.split(',') if x] if block_ports else [],
}
with open(file, 'w') as f:
json.dump(rule, f, indent=2)
def cleanup_config(config_file):
"""Normalize blank lines in WireGuard config"""
import re
try:
with open(config_file) as f:
config = f.read()
config = re.sub(r'\n{3,}', '\n\n', config)
config = config.rstrip('\n') + '\n'
with open(config_file, 'w') as f:
f.write(config)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def remove_peer_block(config_file, name):
"""Remove a peer block from WireGuard config by name"""
import re
try:
with open(config_file) as f:
config = f.read()
pattern = r'\n\[Peer\]\n# ' + re.escape(name) + r'\n[^\n]+\n[^\n]+\n'
result = re.sub(pattern, '\n', config)
with open(config_file, 'w') as f:
f.write(result)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def create_group(file, name, desc):
"""Create a new group JSON file"""
try:
group = {'name': name, 'desc': desc, 'peers': []}
with open(file, 'w') as f:
json.dump(group, f, indent=2)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def parse_event(line):
"""Parse a single JSON event line"""
try:
e = json.loads(line)
print(f"{e.get('timestamp','')}|{e.get('client','')}|{e.get('endpoint','')}|{e.get('event','')}")
except:
pass
def parse_fw_event(line):
"""Parse a single fw_events.log JSON line"""
try:
e = json.loads(line)
ts = e.get('timestamp', '')
src = e.get('src_ip', '')
dst = e.get('dest_ip', '')
port = e.get('dest_port', '')
proto_map = {1: 'icmp', 6: 'tcp', 17: 'udp'}
proto_num = e.get('ip.protocol', 0)
proto = proto_map.get(proto_num, str(proto_num))
print(f"{ts}|{src}|{dst}|{port}|{proto}")
except:
pass
def peer_transfer(wg_interface):
"""Get total transfer bytes per peer"""
import subprocess
low = int(os.environ.get('ACTIVITY_TOTAL_LOW_BYTES', '1000000'))
med = int(os.environ.get('ACTIVITY_TOTAL_MED_BYTES', '10000000'))
high = int(os.environ.get('ACTIVITY_TOTAL_HIGH_BYTES', '100000000'))
try:
result = subprocess.run(
['wg', 'show', wg_interface, 'transfer'],
capture_output=True, text=True
)
for line in result.stdout.strip().split('\n'):
if not line:
continue
parts = line.split('\t')
if len(parts) == 3:
pubkey, rx, tx = parts
total = int(rx) + int(tx)
if total == 0: level = 'none'
elif total < low: level = 'low'
elif total < med: level = 'medium'
elif total < high: level = 'high'
else: level = 'very high'
print(f"{pubkey}|{rx}|{tx}|{level}")
except:
pass
def peer_transfer_delta(wg_interface, cache_file):
"""Calculate current transfer rate using delta from previous sample"""
import subprocess, time
low = int(os.environ.get('ACTIVITY_CURRENT_LOW_BYTES', '10000')) # 10KB/s
med = int(os.environ.get('ACTIVITY_CURRENT_MED_BYTES', '100000')) # 100KB/s
high = int(os.environ.get('ACTIVITY_CURRENT_HIGH_BYTES', '1000000')) # 1MB/s
current = {}
now = time.time()
try:
result = subprocess.run(
['wg', 'show', wg_interface, 'transfer'],
capture_output=True, text=True
)
for line in result.stdout.strip().split('\n'):
if not line:
continue
parts = line.split('\t')
if len(parts) == 3:
pubkey, rx, tx = parts
current[pubkey] = {'rx': int(rx), 'tx': int(tx), 'ts': now}
except:
pass
prev = {}
if os.path.exists(cache_file):
try:
with open(cache_file) as f:
prev = json.load(f)
except:
pass
try:
with open(cache_file, 'w') as f:
json.dump(current, f)
except:
pass
for pubkey, data in current.items():
if pubkey in prev:
dt = data['ts'] - prev[pubkey].get('ts', data['ts'])
if dt > 0:
rx_rate = max(0, (data['rx'] - prev[pubkey]['rx']) / dt)
tx_rate = max(0, (data['tx'] - prev[pubkey]['tx']) / dt)
total = rx_rate + tx_rate
if total <= 0: level = 'idle'
elif total < low: level = 'low'
elif total < med: level = 'medium'
elif total < high: level = 'high'
else: level = 'very high'
print(f"{pubkey}|{int(rx_rate)}|{int(tx_rate)}|{level}")
else:
print(f"{pubkey}|0|0|idle")
else:
print(f"{pubkey}|0|0|unknown")
def remove_events_filtered(wg_file, fw_file, filter_name, filter_ip,
filter_fw, filter_wg, before_days):
"""Remove events with filters: by name/ip, source, or age"""
import time
from datetime import datetime, timezone
cutoff_ts = None
if before_days:
cutoff_ts = time.time() - (float(before_days) * 86400)
def should_remove_wg(e):
if filter_name and e.get('client') != filter_name:
return False
if cutoff_ts:
try:
ts = datetime.fromisoformat(e.get('timestamp','')).timestamp()
return ts < cutoff_ts
except:
return False
return True
def should_remove_fw(e):
if filter_ip and e.get('src_ip') != filter_ip:
return False
if cutoff_ts:
try:
ts = datetime.fromisoformat(e.get('timestamp','')).timestamp()
return ts < cutoff_ts
except:
return False
return True
removed_wg = removed_fw = 0
if not filter_fw and os.path.exists(wg_file):
lines = []
with open(wg_file) as f:
for line in f:
try:
e = json.loads(line.strip())
if should_remove_wg(e):
removed_wg += 1
continue
except:
pass
lines.append(line)
with open(wg_file, 'w') as f:
f.writelines(lines)
if not filter_wg and os.path.exists(fw_file):
lines = []
with open(fw_file) as f:
for line in f:
try:
e = json.loads(line.strip())
if should_remove_fw(e):
removed_fw += 1
continue
except:
pass
lines.append(line)
with open(fw_file, 'w') as f:
f.writelines(lines)
print(f"{removed_wg}|{removed_fw}")
def _rule_resolve_internal(rules_dir, rule_name, visited=None):
"""Internal recursive resolver — returns dict, does not print"""
if visited is None:
visited = set()
if rule_name in visited:
raise ValueError(f"Circular dependency detected: {rule_name}")
visited.add(rule_name)
rule_file = find_rule_file(rules_dir, rule_name)
with open(rule_file) as f:
rule = json.load(f)
merged = {
'allow_ips': [],
'allow_ports': [],
'block_ips': [],
'block_ports': [],
'dns_redirect': False
}
for base_name in rule.get('extends', []):
base = _rule_resolve_internal(rules_dir, base_name, visited.copy())
merged['allow_ips'] += base.get('allow_ips', [])
merged['allow_ports'] += base.get('allow_ports', [])
merged['block_ips'] += base.get('block_ips', [])
merged['block_ports'] += base.get('block_ports', [])
if base.get('dns_redirect'):
merged['dns_redirect'] = True
# Merge own fields — use .get() with defaults for all fields
merged['allow_ips'] = list(dict.fromkeys(
merged['allow_ips'] + rule.get('allow_ips', [])))
merged['allow_ports'] = list(dict.fromkeys(
merged['allow_ports'] + rule.get('allow_ports', [])))
merged['block_ips'] = list(dict.fromkeys(
merged['block_ips'] + rule.get('block_ips', [])))
merged['block_ports'] = list(dict.fromkeys(
merged['block_ports'] + rule.get('block_ports', [])))
if rule.get('dns_redirect', False):
merged['dns_redirect'] = True
merged['name'] = rule.get('name', rule_name)
merged['desc'] = rule.get('desc', '')
merged['group'] = rule.get('group', '')
merged['extends'] = rule.get('extends', [])
return merged
def rule_resolve(rules_dir, rule_name):
"""Resolve a rule with inheritance — prints JSON"""
try:
resolved = _rule_resolve_internal(rules_dir, rule_name)
print(json.dumps(resolved))
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def rule_resolve_field(rules_dir, rule_name, field):
"""Get a single field from resolved rule — prints values one per line"""
try:
resolved = _rule_resolve_internal(rules_dir, rule_name)
val = resolved.get(field, [])
if isinstance(val, list):
for v in val:
print(v)
else:
print(val)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def rule_inspect(rules_dir, rule_name):
"""Show inheritance tree for a rule"""
try:
rule_file = find_rule_file(rules_dir, rule_name)
with open(rule_file) as f:
rule = json.load(f)
resolved = _rule_resolve_internal(rules_dir, rule_name)
has_extends = bool(rule.get('extends', []))
# Own rules
for ip in rule.get('allow_ips', []):
print(f"own|allow_ip|{ip}")
for p in rule.get('allow_ports', []):
print(f"own|allow_port|{p}")
for ip in rule.get('block_ips', []):
print(f"own|block_ip|{ip}")
for p in rule.get('block_ports', []):
print(f"own|block_port|{p}")
# DNS redirect — separate section
if rule.get('dns_redirect'):
print(f"dns|dns_redirect|true")
if has_extends:
# Inherited rules per base
for base_name in rule.get('extends', []):
base = _rule_resolve_internal(rules_dir, base_name)
for ip in base.get('allow_ips', []):
print(f"inherited:{base_name}|allow_ip|{ip}")
for p in base.get('allow_ports', []):
print(f"inherited:{base_name}|allow_port|{p}")
for ip in base.get('block_ips', []):
print(f"inherited:{base_name}|block_ip|{ip}")
for p in base.get('block_ports', []):
print(f"inherited:{base_name}|block_port|{p}")
if base.get('dns_redirect'):
print(f"inherited:{base_name}|dns_redirect|true")
# Resolved summary only when inheritance exists
has_resolved = (
resolved.get('allow_ips') or resolved.get('allow_ports') or
resolved.get('block_ips') or resolved.get('block_ports') or
resolved.get('dns_redirect')
)
if has_resolved:
for ip in resolved.get('allow_ips', []):
print(f"resolved|allow_ip|{ip}")
for p in resolved.get('allow_ports', []):
print(f"resolved|allow_port|{p}")
for ip in resolved.get('block_ips', []):
print(f"resolved|block_ip|{ip}")
for p in resolved.get('block_ports', []):
print(f"resolved|block_port|{p}")
if resolved.get('dns_redirect'):
print(f"resolved|dns_redirect|true")
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def find_rule_file(rules_dir, rule_name):
"""Find rule file in rules/ or rules/base/"""
for path in [
os.path.join(rules_dir, f"{rule_name}.rule"),
os.path.join(rules_dir, "base", f"{rule_name}.rule"),
]:
if os.path.exists(path):
return path
return ""
def get_raw(file, key):
try:
with open(file) as f:
data = json.load(f)
val = data.get(key) # returns None if missing
if val is None:
pass # print nothing
elif isinstance(val, bool):
print(str(val).lower())
elif isinstance(val, list):
for v in val:
print(v)
else:
print(val)
except:
pass
def count_resolved(rules_dir, rule_name, key):
"""Count entries in resolved rule field"""
try:
resolved = _rule_resolve_internal(rules_dir, rule_name)
print(len(resolved.get(key, [])))
except:
print(0)
def _block_init(peer_ip):
"""Return empty block structure"""
return {
"peer_ip": peer_ip,
"blocked_direct": False,
"blocked_by_groups": [],
"rules": []
}
def _block_read(file):
try:
with open(file) as f:
content = f.read().strip()
if not content:
return None # empty file = no block data
try:
return json.loads(content)
except json.JSONDecodeError:
# Old format — migrate
lines = content.split('\n')
peer_ip = lines[0].split()[0] if lines else ''
new_data = {
"peer_ip": peer_ip,
"blocked_direct": True,
"blocked_by_groups": [],
"rules": [{"name": "full block", "type": "full"}]
}
with open(file, 'w') as f:
json.dump(new_data, f, indent=2)
return new_data
except FileNotFoundError:
return None
except Exception:
return None
def _block_write(file, data):
"""Write block file"""
with open(file, 'w') as f:
json.dump(data, f, indent=2)
def block_get(file):
"""Read and print block file as JSON"""
data = _block_read(file)
if data:
print(json.dumps(data))
def block_is_blocked(file):
"""Return true if peer is effectively blocked"""
data = _block_read(file)
if not data:
print("false")
return
blocked = data.get("blocked_direct", False) or \
bool(data.get("blocked_by_groups", []))
print("true" if blocked else "false")
def block_set_direct(file, peer_ip, value):
"""Set blocked_direct"""
try:
data = _block_read(file) or _block_init(peer_ip)
data["blocked_direct"] = value.lower() == "true"
data["peer_ip"] = peer_ip
_block_write(file, data)
remaining = data["blocked_direct"] or bool(data.get("blocked_by_groups", []))
pass
# print("true" if remaining else "false")
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def block_add_group(file, peer_ip, group):
"""Add group to blocked_by_groups"""
try:
data = _block_read(file) or _block_init(peer_ip)
data["peer_ip"] = peer_ip
groups = data.get("blocked_by_groups", [])
if group not in groups:
groups.append(group)
data["blocked_by_groups"] = groups
_block_write(file, data)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def block_remove_group(file, peer_ip, group):
"""Remove group from blocked_by_groups, return whether still blocked"""
try:
data = _block_read(file) or _block_init(peer_ip)
groups = data.get("blocked_by_groups", [])
if group in groups:
groups.remove(group)
data["blocked_by_groups"] = groups
_block_write(file, data)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
# print("true" if remaining else "false")
pass
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def block_add_rule(file, peer_ip, rule_type, name="", target="",
port="", proto=""):
"""Add a block rule entry"""
try:
data = _block_read(file) or _block_init(peer_ip)
data["peer_ip"] = peer_ip
rule = {"type": rule_type}
if name: rule["name"] = name
if target: rule["target"] = target
if port: rule["port"] = port
if proto: rule["proto"] = proto
rules = data.get("rules", [])
for existing in rules:
if existing.get("type") == rule_type and \
existing.get("target","") == target and \
existing.get("port","") == port and \
existing.get("proto","") == proto:
return # already exists, skip
rules.append(rule)
data["rules"] = rules
_block_write(file, data)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def block_remove_rule(file, rule_type, target="", port="", proto=""):
data = _block_read(file)
if not data:
return
rules = data.get("rules", [])
filtered = [r for r in rules if not (
r.get("type") == rule_type and
r.get("target", "") == target and
r.get("port", "") == port and
r.get("proto", "") == proto
)]
data["rules"] = filtered
_block_write(file, data)
def block_get_rules(file):
"""Print rules as pipe-separated lines: name|type|target|port|proto"""
data = _block_read(file)
if not data:
return
for r in data.get("rules", []):
print(f"{r.get('name','')}|{r.get('type','')}|"
f"{r.get('target','')}|{r.get('port','')}|{r.get('proto','')}")
def block_get_groups(file):
data = _block_read(file)
if not data:
return
print(','.join(data.get('blocked_by_groups', [])))
def block_get_direct(file):
data = _block_read(file)
if not data:
print('false')
return
print('true' if data.get('blocked_direct', False) else 'false')
# ============================================
# Net / Services
# ============================================
def _net_read(file):
"""Read services.json, return dict or empty dict"""
try:
if not os.path.exists(file):
return {}
with open(file) as f:
content = f.read().strip()
if not content:
return {}
return json.loads(content)
except Exception:
return {}
def _net_write(file, data):
"""Write services.json"""
os.makedirs(os.path.dirname(file), exist_ok=True)
with open(file, 'w') as f:
json.dump(data, f, indent=2)
def net_list(file):
"""List all service names with IP and port count"""
data = _net_read(file)
for name, svc in sorted(data.items()):
ip = svc.get('ip', '')
desc = svc.get('desc', '')
tags = ','.join(svc.get('tags', []))
ports = len(svc.get('ports', {}))
print(f"{name}|{ip}|{desc}|{tags}|{ports}")
def net_show(file, name):
"""Show full service details"""
data = _net_read(file)
if name not in data:
print(f"Error: Service not found: {name}", file=sys.stderr)
sys.exit(1)
svc = data[name]
print(f"name|{name}")
print(f"ip|{svc.get('ip','')}")
print(f"desc|{svc.get('desc','')}")
print(f"tags|{','.join(svc.get('tags',[]))}")
for port_name, port_def in svc.get('ports', {}).items():
port = port_def.get('port', '')
proto = port_def.get('proto', 'tcp')
desc = port_def.get('desc', '')
print(f"port|{port_name}|{port}|{proto}|{desc}")
def net_exists(file, name):
"""Check if service exists"""
data = _net_read(file)
# Handle service:port syntax
if ':' in name:
svc_name, port_name = name.split(':', 1)
if port_name == 'ports':
print('true' if svc_name in data else 'false')
else:
svc = data.get(svc_name, {})
print('true' if port_name in svc.get('ports', {}) else 'false')
else:
print('true' if name in data else 'false')
def net_add_service(file, name, ip, desc='', tags=''):
"""Add or update a service"""
data = _net_read(file)
if name not in data:
data[name] = {'ip': ip, 'ports': {}}
else:
data[name]['ip'] = ip
if desc:
data[name]['desc'] = desc
if tags:
data[name]['tags'] = [t.strip() for t in tags.split(',') if t.strip()]
_net_write(file, data)
def net_add_port(file, service, port_name, port, proto='tcp', desc=''):
"""Add or update a port on a service"""
data = _net_read(file)
if service not in data:
print(f"Error: Service not found: {service}", file=sys.stderr)
sys.exit(1)
if 'ports' not in data[service]:
data[service]['ports'] = {}
entry = {'port': int(port), 'proto': proto}
if desc:
entry['desc'] = desc
data[service]['ports'][port_name] = entry
_net_write(file, data)
def net_remove(file, name):
"""Remove service or port"""
data = _net_read(file)
if ':' in name:
svc_name, port_name = name.split(':', 1)
if svc_name not in data:
print(f"Error: Service not found: {svc_name}", file=sys.stderr)
sys.exit(1)
if port_name == 'ports':
# Remove all ports
data[svc_name]['ports'] = {}
else:
if port_name not in data[svc_name].get('ports', {}):
print(f"Error: Port not found: {port_name}", file=sys.stderr)
sys.exit(1)
del data[svc_name]['ports'][port_name]
else:
if name not in data:
print(f"Error: Service not found: {name}", file=sys.stderr)
sys.exit(1)
del data[name]
_net_write(file, data)
def net_resolve(file, name):
"""Resolve service name to ip or ip:port:proto lines"""
data = _net_read(file)
if ':' in name:
svc_name, port_name = name.split(':', 1)
if svc_name not in data:
print(f"Error: Service not found: {svc_name}", file=sys.stderr)
sys.exit(1)
svc = data[svc_name]
ip = svc.get('ip', '')
if port_name == 'ports':
# All ports
for pname, pdef in svc.get('ports', {}).items():
print(f"{ip}:{pdef['port']}:{pdef.get('proto','tcp')}")
else:
if port_name not in svc.get('ports', {}):
print(f"Error: Port not found: {port_name}", file=sys.stderr)
sys.exit(1)
pdef = svc['ports'][port_name]
print(f"{ip}:{pdef['port']}:{pdef.get('proto','tcp')}")
else:
if name not in data:
print(f"Error: Service not found: {name}", file=sys.stderr)
sys.exit(1)
print(data[name].get('ip', ''))
def net_reverse_lookup(file, ip, port='', proto=''):
"""Reverse lookup IP/port to service name"""
data = _net_read(file)
for svc_name, svc in data.items():
if svc.get('ip') != ip:
continue
if not port:
print(svc_name)
return
for port_name, port_def in svc.get('ports', {}).items():
if (str(port_def.get('port','')) == str(port) and
port_def.get('proto','tcp') == proto):
print(f"{svc_name}:{port_name}")
return
# IP matched but no port match — return service name
print(svc_name)
return
def block_is_empty(file):
data = _block_read(file)
if not data:
print("true")
return
empty = (
not data.get("blocked_direct", False) and
not data.get("blocked_by_groups", []) and
not data.get("rules", []) and
not data.get("services", [])
)
print("true" if empty else "false")
def group_has_peer(file, peer_name):
try:
with open(file) as f:
data = json.load(f)
peers = data.get('peers', [])
print('true' if peer_name in peers else 'false')
except Exception:
print('false')
# ============================================
# Subnet Map
# ============================================
def _subnet_read(file):
"""Read subnets.json, return dict or empty dict"""
try:
if not os.path.exists(file):
return {}
with open(file) as f:
content = f.read().strip()
if not content:
return {}
return json.loads(content)
except Exception:
return {}
def _subnet_write(file, data):
"""Write subnets.json"""
os.makedirs(os.path.dirname(file), exist_ok=True)
with open(file, 'w') as f:
json.dump(data, f, indent=2)
def _subnet_is_group(entry):
"""Return True if a subnet entry is a nested group (like 'guests')"""
return isinstance(entry, dict) and 'subnet' not in entry
def subnet_lookup(file, name, type_key=''):
"""
Resolve a subnet name (and optional type) to a CIDR string.
For scalar entries: subnet_lookup(file, "desktop") -> "10.1.1.0/24"
For group entries: subnet_lookup(file, "guests", "phone") -> "10.1.103.0/24"
For group with no type: subnet_lookup(file, "guests") -> "10.1.100.0/24" (none slot)
Prints the CIDR on success, nothing and exits 1 on failure.
"""
data = _subnet_read(file)
if name not in data:
sys.exit(1)
entry = data[name]
if _subnet_is_group(entry):
key = type_key if type_key else 'none'
if key not in entry:
sys.exit(1)
print(entry[key]['subnet'])
else:
print(entry['subnet'])
def subnet_type(file, name, type_key=''):
"""
Return the type string for a subnet entry.
For scalar: subnet_type(file, "desktop") -> "desktop"
For group: subnet_type(file, "guests", "phone") -> "phone"
subnet_type(file, "guests") -> "none"
"""
data = _subnet_read(file)
if name not in data:
sys.exit(1)
entry = data[name]
if _subnet_is_group(entry):
key = type_key if type_key else 'none'
if key not in entry:
sys.exit(1)
# For group entries the type IS the child key
print(key if key != 'none' else 'none')
else:
print(entry.get('type', name))
def subnet_tunnel_mode(file, name, type_key=''):
"""Return tunnel_mode for a subnet entry"""
data = _subnet_read(file)
if name not in data:
print('split') # safe default
return
entry = data[name]
if _subnet_is_group(entry):
key = type_key if type_key else 'none'
child = entry.get(key, {})
print(child.get('tunnel_mode', 'split'))
else:
print(entry.get('tunnel_mode', 'split'))
def subnet_for_ip(file, ip):
"""
Reverse lookup: given a peer IP, find which subnet name (and type) it belongs to.
Output: name|type (e.g. "guests|phone" or "desktop|desktop")
Returns nothing (exit 0) if not found — caller falls back to hardcoded map.
"""
import ipaddress
try:
peer_addr = ipaddress.ip_address(ip)
except ValueError:
return
data = _subnet_read(file)
for name, entry in data.items():
if _subnet_is_group(entry):
for type_key, child in entry.items():
try:
network = ipaddress.ip_network(child['subnet'], strict=False)
if peer_addr in network:
print(f"{name}|{type_key}")
return
except Exception:
continue
else:
try:
network = ipaddress.ip_network(entry['subnet'], strict=False)
if peer_addr in network:
peer_type = entry.get('type', name)
print(f"{name}|{peer_type}")
return
except Exception:
continue
def subnet_list(file):
"""
List all subnets for display.
Output per line: name|subnet|type|tunnel_mode|desc|is_group
For group entries, outputs one line per child: name.type|subnet|type|tunnel_mode|desc|true
"""
data = _subnet_read(file)
for name, entry in data.items():
if _subnet_is_group(entry):
for type_key, child in entry.items():
display_name = f"{name}.{type_key}" if type_key != 'none' else name
print(f"{display_name}|{child.get('subnet','')}|"
f"{type_key}|{child.get('tunnel_mode','split')}|"
f"{child.get('desc','')}|true|{name}")
else:
print(f"{name}|{entry.get('subnet','')}|"
f"{entry.get('type',name)}|{entry.get('tunnel_mode','split')}|"
f"{entry.get('desc','')}|false|{name}")
def subnet_show(file, name):
"""Show a single subnet entry (scalar or group) in detail"""
data = _subnet_read(file)
if name not in data:
print(f"Error: Subnet '{name}' not found", file=sys.stderr)
sys.exit(1)
entry = data[name]
if _subnet_is_group(entry):
print(f"name|{name}")
print(f"is_group|true")
for type_key, child in entry.items():
print(f"child|{type_key}|{child.get('subnet','')}|"
f"{child.get('tunnel_mode','split')}|{child.get('desc','')}")
else:
print(f"name|{name}")
print(f"is_group|false")
print(f"subnet|{entry.get('subnet','')}")
print(f"type|{entry.get('type',name)}")
print(f"tunnel_mode|{entry.get('tunnel_mode','split')}")
print(f"desc|{entry.get('desc','')}")
def subnet_add(file, name, subnet, type_key, tunnel_mode, desc, group_parent=''):
"""
Add a new subnet entry.
If group_parent is set, adds as a child under that group key.
Otherwise adds as a scalar entry.
"""
data = _subnet_read(file)
entry = {
'subnet': subnet,
'tunnel_mode': tunnel_mode or 'split',
'desc': desc or ''
}
if group_parent:
# Adding a child to an existing group, or creating a new group
if group_parent not in data:
data[group_parent] = {}
elif not _subnet_is_group(data[group_parent]):
print(f"Error: '{group_parent}' exists but is not a group", file=sys.stderr)
sys.exit(1)
data[group_parent][type_key or 'none'] = entry
else:
# Scalar entry — type stored explicitly
entry['type'] = type_key or name
data[name] = entry
_subnet_write(file, data)
def subnet_remove(file, name, peers_using):
"""
Remove a subnet entry. peers_using is a comma-separated list of peer names
currently using this subnet (passed in from bash after meta scan).
If non-empty, refuses with error.
"""
if peers_using:
peers = [p for p in peers_using.split(',') if p]
if peers:
print(f"Error: Subnet '{name}' is in use by: {', '.join(peers)}", file=sys.stderr)
sys.exit(1)
data = _subnet_read(file)
if '.' in name:
# Removing a group child: e.g. "guests.phone"
parent, child_key = name.split('.', 1)
if parent not in data or not _subnet_is_group(data[parent]):
print(f"Error: Group '{parent}' not found", file=sys.stderr)
sys.exit(1)
if child_key not in data[parent]:
print(f"Error: '{child_key}' not found in group '{parent}'", file=sys.stderr)
sys.exit(1)
del data[parent][child_key]
if not data[parent]:
del data[parent] # remove empty group
else:
if name not in data:
print(f"Error: Subnet '{name}' not found", file=sys.stderr)
sys.exit(1)
del data[name]
_subnet_write(file, data)
def subnet_rename(file, old_name, new_name, peers_using):
"""
Rename a subnet entry. Hard refusal if any peers reference it.
peers_using: comma-separated peer names from bash meta scan.
"""
if peers_using:
peers = [p for p in peers_using.split(',') if p]
if peers:
print(f"Error: Cannot rename subnet '{old_name}' — in use by: {', '.join(peers)}", file=sys.stderr)
sys.exit(1)
data = _subnet_read(file)
if old_name not in data:
print(f"Error: Subnet '{old_name}' not found", file=sys.stderr)
sys.exit(1)
if new_name in data:
print(f"Error: Subnet '{new_name}' already exists", file=sys.stderr)
sys.exit(1)
data[new_name] = data.pop(old_name)
_subnet_write(file, data)
def subnet_peers(meta_dir, clients_dir, subnet_name, subnets_file):
"""
Find all peers using a subnet.
Two-pass check:
1. Meta field: peer has "subnet": subnet_name in their .meta file
2. IP fallback: peer's IP falls within the subnet's CIDR(s)
(catches peers added before meta stored subnet explicitly)
Output: one peer name per line.
"""
import glob
import ipaddress
# Resolve all CIDRs covered by this subnet name
data = _subnet_read(subnets_file)
cidrs = []
if subnet_name in data:
entry = data[subnet_name]
if _subnet_is_group(entry):
for child in entry.values():
try:
cidrs.append(ipaddress.ip_network(child['subnet'], strict=False))
except Exception:
pass
else:
try:
cidrs.append(ipaddress.ip_network(entry['subnet'], strict=False))
except Exception:
pass
printed = set()
for conf in sorted(glob.glob(f"{clients_dir}/*.conf")):
peer_name = os.path.basename(conf).replace('.conf', '')
# Pass 1: check meta field
meta_file = os.path.join(meta_dir, f"{peer_name}.meta")
try:
with open(meta_file) as f:
meta = json.load(f)
if meta.get('subnet', '') == subnet_name:
if peer_name not in printed:
print(peer_name)
printed.add(peer_name)
continue
except Exception:
pass
# Pass 2: IP reverse lookup against subnet CIDRs
if not cidrs:
continue
peer_ip = ''
try:
with open(conf) as f:
for line in f:
if line.startswith('Address'):
peer_ip = line.split('=')[1].strip().split('/')[0]
break
except Exception:
continue
if not peer_ip:
continue
try:
addr = ipaddress.ip_address(peer_ip)
if any(addr in cidr for cidr in cidrs):
if peer_name not in printed:
print(peer_name)
printed.add(peer_name)
except Exception:
continue
def subnet_exists(file, name):
"""Check if a subnet name exists (scalar or group). Exits 0/1."""
data = _subnet_read(file)
if '.' in name:
parent, child_key = name.split('.', 1)
exists = parent in data and _subnet_is_group(data[parent]) and child_key in data[parent]
else:
exists = name in data
sys.exit(0 if exists else 1)
# ============================================
# Identity System
# ============================================
def _identity_read(file):
"""Read an identity file, return dict or None"""
try:
if not os.path.exists(file):
return None
with open(file) as f:
content = f.read().strip()
if not content:
return None
return json.loads(content)
except Exception:
return None
def _identity_write(file, data):
"""Write an identity file"""
os.makedirs(os.path.dirname(file), exist_ok=True)
with open(file, 'w') as f:
json.dump(data, f, indent=2)
def _identity_init(name):
"""Return empty identity structure"""
return {
'name': name,
'peers': [],
'devices': {}
}
def _parse_peer_name(peer_name):
"""
Parse a peer name into (type, identity, index).
phone-nuno -> ('phone', 'nuno', 1)
phone-nuno-2 -> ('phone', 'nuno', 2)
desktop-zephyr -> ('desktop', 'zephyr', 1)
laptop-nuno -> ('laptop', 'nuno', 1)
Returns None if name doesn't match convention.
Convention: {type}-{identity}[-{index}]
Known types: desktop, laptop, phone, tablet, server, iot, none
"""
known_types = {'desktop', 'laptop', 'phone', 'tablet', 'server', 'iot', 'none'}
parts = peer_name.split('-')
if len(parts) < 2:
return None
peer_type = parts[0]
if peer_type not in known_types:
return None
# Check if last part is a numeric index
if len(parts) >= 3 and parts[-1].isdigit():
index = int(parts[-1])
identity = '-'.join(parts[1:-1])
else:
index = 1
identity = '-'.join(parts[1:])
if not identity:
return None
return (peer_type, identity, index)
def identity_list(identities_dir):
"""List all identities with peer count"""
import glob
for id_file in sorted(glob.glob(f"{identities_dir}/*.identity")):
try:
with open(id_file) as f:
data = json.load(f)
name = data.get('name', '')
peers = data.get('peers', [])
devices = data.get('devices', {})
types = sorted(set(d.get('type', '') for d in devices.values() if d.get('type')))
print(f"{name}|{len(peers)}|{','.join(types)}")
except Exception:
continue
def identity_show(file):
"""Show identity details"""
data = _identity_read(file)
if not data:
print("Error: Identity not found", file=sys.stderr)
sys.exit(1)
print(f"name|{data.get('name','')}")
print(f"peer_count|{len(data.get('peers',[]))}")
for peer_name, dev in data.get('devices', {}).items():
print(f"device|{peer_name}|{dev.get('type','')}|{dev.get('index',1)}")
def identity_add_peer(file, identity_name, peer_name, peer_type, index):
"""Add a peer to an identity file, creating it if needed"""
data = _identity_read(file) or _identity_init(identity_name)
if peer_name not in data['peers']:
data['peers'].append(peer_name)
data['devices'][peer_name] = {
'type': peer_type,
'index': int(index)
}
_identity_write(file, data)
def identity_remove_peer(file, peer_name):
"""Remove a peer from an identity file"""
data = _identity_read(file)
if not data:
return
data['peers'] = [p for p in data['peers'] if p != peer_name]
data['devices'].pop(peer_name, None)
_identity_write(file, data)
def identity_remove(file):
"""Delete an identity file — existence check done in bash"""
try:
os.remove(file)
except Exception as e:
print(f"Error: {e}", file=sys.stderr)
sys.exit(1)
def identity_next_index(file, peer_type):
"""
Return the next available index for a given type within an identity.
phone-nuno exists (index 1) -> returns 2
No phones exist -> returns 1
"""
data = _identity_read(file)
if not data:
print(1)
return
existing = [
d.get('index', 1)
for d in data.get('devices', {}).values()
if d.get('type') == peer_type
]
if not existing:
print(1)
return
# Find lowest unused index starting from 1
used = set(existing)
i = 1
while i in used:
i += 1
print(i)
def identity_peers(file, filter_type=''):
"""
List peers belonging to an identity, optionally filtered by type.
Output: one peer name per line.
"""
data = _identity_read(file)
if not data:
return
for peer_name in data.get('peers', []):
if filter_type:
dev = data.get('devices', {}).get(peer_name, {})
if dev.get('type') != filter_type:
continue
print(peer_name)
def identity_migrate(identities_dir, clients_dir, meta_dir, dry_run):
"""
Scan all peer configs and auto-create identity files from name convention.
dry_run: 'true' -> print what would be done, no writes.
Output per action: action|identity|peer|type|index
"""
import glob
is_dry = dry_run == 'true'
grouped = {} # identity_name -> [(peer_name, type, index)]
for conf in sorted(glob.glob(f"{clients_dir}/*.conf")):
peer_name = os.path.basename(conf).replace('.conf', '')
parsed = _parse_peer_name(peer_name)
if not parsed:
print(f"skip|{peer_name}")
continue
peer_type, identity_name, index = parsed
if identity_name not in grouped:
grouped[identity_name] = []
grouped[identity_name].append((peer_name, peer_type, index))
for identity_name, peers in sorted(grouped.items()):
id_file = os.path.join(identities_dir, f"{identity_name}.identity")
for peer_name, peer_type, index in peers:
print(f"create|{identity_name}|{peer_name}|{peer_type}|{index}")
if not is_dry:
identity_add_peer(id_file, identity_name, peer_name, peer_type, index)
def identity_infer(peer_name):
"""
Parse a peer name and print identity|type|index, or nothing if no match.
Used by add.command.sh to auto-attach on vanilla wgctl add.
"""
parsed = _parse_peer_name(peer_name)
if parsed:
peer_type, identity_name, index = parsed
print(f"{identity_name}|{peer_type}|{index}")
def identity_exists(file):
"""Exit 0 if identity file exists and is valid, else exit 1"""
data = _identity_read(file)
sys.exit(0 if data is not None else 1)
# ============================================
# peer_data update — adds type field from meta
# ============================================
# NOTE: This replaces the existing peer_data function.
# The new version reads 'type' from meta directly instead of inferring from subtype.
# Output format: name|ip|rule|type|last_ts|last_evt|main_group
# (field 4 is now 'type' instead of 'subtype')
def peer_data(clients_dir, meta_dir, events_log):
"""
Updated peer_data that reads 'type' from meta instead of 'subtype'.
Output: name|ip|rule|type|last_ts|last_evt|main_group
"""
import glob
meta = {}
for f in glob.glob(f"{meta_dir}/*.meta"):
name = os.path.basename(f).replace('.meta', '')
try:
with open(f) as mf:
meta[name] = json.load(mf)
except Exception:
meta[name] = {}
last_events = {}
try:
with open(events_log) as f:
for line in f:
try:
e = json.loads(line.strip())
client = e.get('client', '')
if client:
last_events[client] = e
except Exception:
pass
except Exception:
pass
for conf in sorted(glob.glob(f"{clients_dir}/*.conf")):
name = os.path.basename(conf).replace('.conf', '')
ip = ''
try:
with open(conf) as f:
for line in f:
if line.startswith('Address'):
ip = line.split('=')[1].strip().split('/')[0]
break
except Exception:
pass
m = meta.get(name, {})
rule = m.get('rule', '')
peer_type = m.get('type', '')
main_group = m.get('main_group', '')
last_event = last_events.get(name, {})
last_ts = last_event.get('timestamp', '')
last_evt = last_event.get('event', '')
print(f"{name}|{ip}|{rule}|{peer_type}|{last_ts}|{last_evt}|{main_group}")
def subnet_default_rule(file, name, type_key=''):
"""
Return the default_rule for a subnet entry, or empty string if none set.
For scalar: subnet_default_rule(file, "desktop") -> ""
For group: subnet_default_rule(file, "guests", "phone") -> "guest"
"""
data = _subnet_read(file)
if name not in data:
print('')
return
entry = data[name]
if _subnet_is_group(entry):
key = type_key if type_key else 'none'
child = entry.get(key, {})
print(child.get('default_rule', ''))
else:
print(entry.get('default_rule', ''))
def subnet_list_names(file):
"""
List all top-level subnet names, one per line.
Used for dynamic flag registration in commands.
Output: one name per line (e.g. desktop, laptop, guests, servers, iot)
"""
data = _subnet_read(file)
for name in data.keys():
print(name)
commands = {
'get': lambda args: get(args[0], args[1]),
'set': lambda args: set_key(args[0], args[1], args[2]),
'delete': lambda args: delete_key(args[0], args[1]),
'append': lambda args: append(args[0], args[1], args[2]),
'remove': lambda args: remove_value(args[0], args[1], args[2]),
'cat': lambda args: cat(args[0]),
'has_key': lambda args: has_key(args[0], args[1]),
'filter_values': lambda args: filter_values(args[0], args[1], args[2]),
'last_event': lambda args: last_event(args[0], args[1], args[2], args[3]),
'events_for': lambda args: events_for(args[0], args[1], args[2]),
'fw_events': lambda args: fw_events(args[0], args[1], args[2], args[3], args[4]),
'wg_events': lambda args: wg_events(args[0], args[1], args[2], args[3]),
'format_fw_event': lambda args: format_fw_event(sys.stdin.read(), args[0]),
'format_wg_event': lambda args: format_wg_event(sys.stdin.read()),
'remove_events': lambda args: remove_events(args[0], args[1]),
'follow_logs': lambda args: follow_logs(args[0], args[1], args[2], args[3], args[4], args[5]),
'count': lambda args: count(args[0], args[1]),
'audit_fw_counts': lambda args: audit_fw_counts(args[0]),
'peer_group_map': lambda args: peer_group_map(args[0]),
'peer_groups': lambda args: peer_groups(args[0], args[1]),
'peer_data': lambda args: peer_data(args[0], args[1], args[2]),
'iso_to_ts': lambda args: iso_to_ts(args[0]),
'rule_list_data': lambda args: rule_list_data(args[0], args[1]),
'group_list_data': lambda args: group_list_data(args[0], args[1]),
'fmt_datetime': lambda args: fmt_datetime(args[0], args[1]),
'create_rule': lambda args: create_rule(
args[0], args[1], args[2], args[3], args[4], args[5], args[6],
args[7] if len(args) > 7 else '',
args[8] if len(args) > 8 else '',
args[9] if len(args) > 9 else ''
),
'cleanup_config': lambda args: cleanup_config(args[0]),
'remove_peer_block': lambda args: remove_peer_block(args[0], args[1]),
'create_group': lambda args: create_group(args[0], args[1], args[2]),
'parse_event': lambda args: parse_event(args[0]),
'parse_fw_event': lambda args: parse_fw_event(args[0]),
'peer_transfer': lambda args: peer_transfer(args[0]),
'remove_events_filtered': lambda args: remove_events_filtered(
args[0], args[1], args[2], args[3], args[4]=='true', args[5]=='true', args[6] if len(args)>6 else ''),
'peer_transfer': lambda args: peer_transfer(args[0]),
'peer_transfer_delta': lambda args: peer_transfer_delta(args[0], args[1]),
'rule_resolve': lambda args: rule_resolve(args[0], args[1]),
'rule_resolve_field': lambda args: rule_resolve_field(args[0], args[1], args[2]),
'rule_inspect': lambda args: rule_inspect(args[0], args[1]),
'find_rule_file': lambda args: print(find_rule_file(args[0], args[1])),
'get_raw': lambda args: print(get_raw(args[0], args[1])),
'count_resolved': lambda args: count_resolved(args[0], args[1], args[2]),
'block_get': lambda args: block_get(args[0]),
'block_is_blocked': lambda args: block_is_blocked(args[0]),
'block_set_direct': lambda args: block_set_direct(args[0], args[1], args[2]),
'block_add_group': lambda args: block_add_group(args[0], args[1], args[2]),
'block_remove_group': lambda args: block_remove_group(args[0], args[1], args[2]),
'block_add_rule': lambda args: block_add_rule(
args[0], args[1], args[2],
args[3] if len(args) > 3 else '',
args[4] if len(args) > 4 else '',
args[5] if len(args) > 5 else '',
args[6] if len(args) > 6 else ''
),
'block_remove_rule': lambda args: block_remove_rule(
args[0], args[1],
args[2] if len(args) > 2 else '',
args[3] if len(args) > 3 else '',
args[4] if len(args) > 4 else ''
),
'block_get_rules': lambda args: block_get_rules(args[0]),
'block_get_groups': lambda args: block_get_groups(args[0]),
'block_get_direct': lambda args: block_get_direct(args[0]),
'net_list': lambda args: net_list(args[0]),
'net_show': lambda args: net_show(args[0], args[1]),
'net_exists': lambda args: net_exists(args[0], args[1]),
'net_add_service': lambda args: net_add_service(
args[0], args[1], args[2],
args[3] if len(args) > 3 else '',
args[4] if len(args) > 4 else ''
),
'net_add_port': lambda args: net_add_port(
args[0], args[1], args[2], args[3],
args[4] if len(args) > 4 else 'tcp',
args[5] if len(args) > 5 else ''
),
'net_remove': lambda args: net_remove(args[0], args[1]),
'net_resolve': lambda args: net_resolve(args[0], args[1]),
'net_reverse_lookup': lambda args: net_reverse_lookup(
args[0], args[1],
args[2] if len(args) > 2 else '',
args[3] if len(args) > 3 else ''
),
'block_is_empty': lambda args: block_is_empty(args[0]),
'group_has_peer': lambda args: group_has_peer(args[0], args[1]),
# Subnet commands:
'subnet_lookup': lambda args: subnet_lookup(args[0], args[1], args[2] if len(args) > 2 else ''),
'subnet_type': lambda args: subnet_type(args[0], args[1], args[2] if len(args) > 2 else ''),
'subnet_tunnel_mode': lambda args: subnet_tunnel_mode(args[0], args[1], args[2] if len(args) > 2 else ''),
'subnet_for_ip': lambda args: subnet_for_ip(args[0], args[1]),
'subnet_list': lambda args: subnet_list(args[0]),
'subnet_show': lambda args: subnet_show(args[0], args[1]),
'subnet_add': lambda args: subnet_add(
args[0], args[1], args[2], args[3],
args[4] if len(args) > 4 else 'split',
args[5] if len(args) > 5 else '',
args[6] if len(args) > 6 else ''
),
'subnet_remove': lambda args: subnet_remove(args[0], args[1], args[2] if len(args) > 2 else ''),
'subnet_rename': lambda args: subnet_rename(args[0], args[1], args[2], args[3] if len(args) > 3 else ''),
'subnet_peers': lambda args: subnet_peers(args[0], args[1], args[2], args[3]),
'subnet_exists': lambda args: subnet_exists(args[0], args[1]),
# Identity commands:
'identity_list': lambda args: identity_list(args[0]),
'identity_show': lambda args: identity_show(args[0]),
'identity_add_peer': lambda args: identity_add_peer(args[0], args[1], args[2], args[3], args[4]),
'identity_remove_peer':lambda args: identity_remove_peer(args[0], args[1]),
'identity_remove': lambda args: identity_remove(args[0]),
'identity_next_index': lambda args: identity_next_index(args[0], args[1]),
'identity_peers': lambda args: identity_peers(args[0], args[1] if len(args) > 1 else ''),
'identity_migrate': lambda args: identity_migrate(args[0], args[1], args[2], args[3]),
'identity_infer': lambda args: identity_infer(args[0]),
'identity_exists': lambda args: identity_exists(args[0]),
'subnet_default_rule': lambda args: subnet_default_rule(args[0], args[1], args[2] if len(args) > 2 else ''),
'subnet_list_names': lambda args: subnet_list_names(args[0]),
}
if __name__ == '__main__':
if len(sys.argv) < 2:
print("Usage: json_helper.py <command> <file> [key] [value]", file=sys.stderr)
sys.exit(1)
cmd = sys.argv[1]
args = sys.argv[2:]
if cmd not in commands:
print(f"Unknown command: {cmd}", file=sys.stderr)
sys.exit(1)
commands[cmd](args)
| 1 | #!/usr/bin/env python3 |
| 2 | """ |
| 3 | wgctl JSON helper — called by shell functions to read/write JSON files. |
| 4 | Usage: json_helper.py <command> <file> [key] [value] |
| 5 | """ |
| 6 | |
| 7 | import sys |
| 8 | import json |
| 9 | import os |
| 10 | |
| 11 | DATETIME_FMT = os.environ.get('WGCTL_DATETIME_FMT', '%Y-%m-%d %H:%M') |
| 12 | |
| 13 | def get(file, key): |
| 14 | try: |
| 15 | with open(file) as f: |
| 16 | data = json.load(f) |
| 17 | val = data.get(key, []) |
| 18 | if isinstance(val, bool): |
| 19 | print(str(val).lower()) # true/false not True/False |
| 20 | elif isinstance(val, list): |
| 21 | if val: |
| 22 | print('\n'.join(str(v) for v in val)) |
| 23 | else: |
| 24 | if val: |
| 25 | print(val) |
| 26 | except: |
| 27 | sys.exit(0) |
| 28 | |
| 29 | def set_key(file, key, value): |
| 30 | try: |
| 31 | data = {} |
| 32 | if os.path.exists(file): |
| 33 | with open(file) as f: |
| 34 | data = json.load(f) |
| 35 | # Try to parse as JSON value first (for arrays/bools) |
| 36 | try: |
| 37 | data[key] = json.loads(value) |
| 38 | except: |
| 39 | data[key] = value |
| 40 | with open(file, 'w') as f: |
| 41 | json.dump(data, f, indent=2) |
| 42 | except Exception as e: |
| 43 | print(f"Error: {e}", file=sys.stderr) |
| 44 | sys.exit(1) |
| 45 | |
| 46 | def delete_key(file, key): |
| 47 | try: |
| 48 | with open(file) as f: |
| 49 | data = json.load(f) |
| 50 | data.pop(key, None) |
| 51 | with open(file, 'w') as f: |
| 52 | json.dump(data, f, indent=2) |
| 53 | except Exception as e: |
| 54 | print(f"Error: {e}", file=sys.stderr) |
| 55 | sys.exit(1) |
| 56 | |
| 57 | def append(file, key, value): |
| 58 | try: |
| 59 | data = {} |
| 60 | if os.path.exists(file): |
| 61 | with open(file) as f: |
| 62 | data = json.load(f) |
| 63 | if key not in data: |
| 64 | data[key] = [] |
| 65 | if value not in data[key]: |
| 66 | data[key].append(value) |
| 67 | with open(file, 'w') as f: |
| 68 | json.dump(data, f, indent=2) |
| 69 | except Exception as e: |
| 70 | print(f"Error: {e}", file=sys.stderr) |
| 71 | sys.exit(1) |
| 72 | |
| 73 | def remove_value(file, key, value): |
| 74 | try: |
| 75 | with open(file) as f: |
| 76 | data = json.load(f) |
| 77 | if key in data and value in data[key]: |
| 78 | data[key].remove(value) |
| 79 | with open(file, 'w') as f: |
| 80 | json.dump(data, f, indent=2) |
| 81 | except Exception as e: |
| 82 | print(f"Error: {e}", file=sys.stderr) |
| 83 | sys.exit(1) |
| 84 | |
| 85 | def cat(file): |
| 86 | try: |
| 87 | with open(file) as f: |
| 88 | data = json.load(f) |
| 89 | print(json.dumps(data, indent=2)) |
| 90 | except Exception as e: |
| 91 | sys.exit(1) |
| 92 | |
| 93 | def has_key(file, key): |
| 94 | try: |
| 95 | with open(file) as f: |
| 96 | data = json.load(f) |
| 97 | sys.exit(0 if key in data else 1) |
| 98 | except: |
| 99 | sys.exit(1) |
| 100 | |
| 101 | def filter_values(file, key, value): |
| 102 | """Remove all entries where value matches""" |
| 103 | try: |
| 104 | with open(file) as f: |
| 105 | data = json.load(f) |
| 106 | data = {k: v for k, v in data.items() if v != value} |
| 107 | with open(file, 'w') as f: |
| 108 | json.dump(data, f, indent=2) |
| 109 | except Exception as e: |
| 110 | print(f"Error: {e}", file=sys.stderr) |
| 111 | sys.exit(1) |
| 112 | |
| 113 | def last_event(file, key, field, client): |
| 114 | """Get last event field for a client""" |
| 115 | try: |
| 116 | last = None |
| 117 | with open(file) as f: |
| 118 | for line in f: |
| 119 | try: |
| 120 | e = json.loads(line.strip()) |
| 121 | if e.get(key) == client: |
| 122 | last = e |
| 123 | except: |
| 124 | pass |
| 125 | if last: |
| 126 | print(last.get(field, '')) |
| 127 | except: |
| 128 | pass |
| 129 | |
| 130 | def events_for(file, ip, limit): |
| 131 | """Format events for a given IP""" |
| 132 | try: |
| 133 | from datetime import datetime |
| 134 | events = [] |
| 135 | with open(file) as f: |
| 136 | for line in f: |
| 137 | try: |
| 138 | e = json.loads(line.strip()) |
| 139 | if e.get('ip') == ip: |
| 140 | events.append(e) |
| 141 | except: |
| 142 | pass |
| 143 | for e in events[-int(limit):]: |
| 144 | ts = e.get('timestamp', '') |
| 145 | try: |
| 146 | dt = datetime.fromisoformat(ts) |
| 147 | ts = dt.strftime(DATETIME_FMT) |
| 148 | except: |
| 149 | pass |
| 150 | endpoint = e.get('endpoint', '—') |
| 151 | client = e.get('client', '—') |
| 152 | event = e.get('event', '—') |
| 153 | print(f' {ts} {client:<20} {endpoint:<20} {event}') |
| 154 | except: |
| 155 | pass |
| 156 | |
| 157 | def fw_events(file, filter_ip, filter_type, clients_dir, limit): |
| 158 | """Format firewall drop events with dedup and counts""" |
| 159 | import glob |
| 160 | proto_map = {1: 'icmp', 6: 'tcp', 17: 'udp'} |
| 161 | |
| 162 | ip_to_name = {} |
| 163 | for conf in glob.glob(f"{clients_dir}/*.conf"): |
| 164 | name = os.path.basename(conf).replace('.conf', '') |
| 165 | try: |
| 166 | with open(conf) as f: |
| 167 | for line in f: |
| 168 | if line.startswith('Address'): |
| 169 | ip = line.split('=')[1].strip().split('/')[0] |
| 170 | ip_to_name[ip] = name |
| 171 | except: |
| 172 | pass |
| 173 | |
| 174 | events = [] |
| 175 | last_seen = {} |
| 176 | |
| 177 | try: |
| 178 | with open(file) as f: |
| 179 | for line in f: |
| 180 | try: |
| 181 | e = json.loads(line.strip()) |
| 182 | src = e.get('src_ip', '') |
| 183 | if not src: |
| 184 | continue |
| 185 | if filter_ip and src != filter_ip: |
| 186 | continue |
| 187 | dst = e.get('dest_ip', '') |
| 188 | port = e.get('dest_port', '') |
| 189 | proto = e.get('ip.protocol', 0) |
| 190 | key = (src, dst, port, proto) |
| 191 | ts_str = e.get('timestamp', '') |
| 192 | try: |
| 193 | from datetime import datetime |
| 194 | ts = datetime.fromisoformat(ts_str).timestamp() |
| 195 | except: |
| 196 | ts = 0 |
| 197 | windows = {1: 5, 6: 30, 17: 10} |
| 198 | window = windows.get(proto, 10) |
| 199 | if key in last_seen and (ts - last_seen[key]) < window: |
| 200 | continue |
| 201 | last_seen[key] = ts |
| 202 | events.append(e) |
| 203 | except: |
| 204 | pass |
| 205 | except: |
| 206 | pass |
| 207 | |
| 208 | # Dedup consecutive same src+dst+port within 60s with count |
| 209 | deduped = [] |
| 210 | counts = [] |
| 211 | for e in events: |
| 212 | ts_str = e.get('timestamp', '') |
| 213 | try: |
| 214 | from datetime import datetime |
| 215 | ts = datetime.fromisoformat(ts_str).timestamp() |
| 216 | except: |
| 217 | ts = 0 |
| 218 | src = e.get('src_ip', '') |
| 219 | dst = e.get('dest_ip', '') |
| 220 | port = e.get('dest_port', '') |
| 221 | proto = e.get('ip.protocol', 0) |
| 222 | key = (src, dst, port, proto) |
| 223 | |
| 224 | if deduped and counts: |
| 225 | prev = deduped[-1] |
| 226 | try: |
| 227 | prev_ts = datetime.fromisoformat(prev.get('timestamp','')).timestamp() |
| 228 | except: |
| 229 | prev_ts = 0 |
| 230 | prev_key = (prev.get('src_ip',''), prev.get('dest_ip',''), |
| 231 | prev.get('dest_port',''), prev.get('ip.protocol',0)) |
| 232 | if key == prev_key and (ts - prev_ts) < 60: |
| 233 | counts[-1] += 1 |
| 234 | continue |
| 235 | |
| 236 | deduped.append(e) |
| 237 | counts.append(1) |
| 238 | |
| 239 | grouped = [] |
| 240 | group_counts = [] |
| 241 | for e in deduped: |
| 242 | ts_str = e.get('timestamp', '') |
| 243 | try: |
| 244 | from datetime import datetime |
| 245 | dt = datetime.fromisoformat(ts_str) |
| 246 | # Truncate to minute for grouping |
| 247 | minute_key = dt.strftime('%Y-%m-%d %H:%M') |
| 248 | except: |
| 249 | minute_key = ts_str[:16] |
| 250 | |
| 251 | src = e.get('src_ip', '') |
| 252 | dst = e.get('dest_ip', '') |
| 253 | port = e.get('dest_port', '') |
| 254 | proto = e.get('ip.protocol', 0) |
| 255 | key = (minute_key, src, dst, proto) # group within same minute |
| 256 | |
| 257 | if grouped and group_counts: |
| 258 | prev = grouped[-1] |
| 259 | try: |
| 260 | prev_dt = datetime.fromisoformat(prev.get('timestamp','')) |
| 261 | prev_minute = prev_dt.strftime('%Y-%m-%d %H:%M') |
| 262 | except: |
| 263 | prev_minute = '' |
| 264 | prev_key = (prev_minute, prev.get('src_ip',''), |
| 265 | prev.get('dest_ip',''), prev.get('ip.protocol',0)) |
| 266 | if key == prev_key: |
| 267 | group_counts[-1] += 1 |
| 268 | continue |
| 269 | |
| 270 | grouped.append(e) |
| 271 | group_counts.append(1) |
| 272 | |
| 273 | for e, count in zip(deduped[-int(limit):], counts[-int(limit):]): |
| 274 | ts = e.get('timestamp', '') |
| 275 | try: |
| 276 | from datetime import datetime |
| 277 | dt = datetime.fromisoformat(ts) |
| 278 | ts = dt.strftime(DATETIME_FMT) |
| 279 | except: |
| 280 | pass |
| 281 | src = e.get('src_ip', '—') |
| 282 | dst = e.get('dest_ip', '—') |
| 283 | port = e.get('dest_port', '') |
| 284 | proto_num = e.get('ip.protocol', 0) |
| 285 | proto = proto_map.get(proto_num, str(proto_num)) |
| 286 | dst_str = f"{dst}:{port}" if port else dst |
| 287 | client = ip_to_name.get(src, src) |
| 288 | if filter_type and not client.startswith(filter_type + '-'): |
| 289 | continue |
| 290 | count_str = f" (x{count})" if count > 1 else "" |
| 291 | print(f"{ts}|{client}|{dst_str}|{proto}{count_str}") |
| 292 | |
| 293 | def wg_events(file, filter_client, filter_type, limit): |
| 294 | """Format WireGuard events from events.log with dedup""" |
| 295 | events = [] |
| 296 | try: |
| 297 | with open(file) as f: |
| 298 | for line in f: |
| 299 | try: |
| 300 | e = json.loads(line.strip()) |
| 301 | client = e.get('client', '') |
| 302 | if not client: |
| 303 | continue |
| 304 | if filter_client and client != filter_client: |
| 305 | continue |
| 306 | if filter_type and not client.startswith(filter_type + '-'): |
| 307 | continue |
| 308 | events.append(e) |
| 309 | except: |
| 310 | pass |
| 311 | except: |
| 312 | pass |
| 313 | |
| 314 | # Dedup consecutive same client+event+endpoint within 60s |
| 315 | deduped = [] |
| 316 | counts = [] |
| 317 | for e in events: |
| 318 | ts_str = e.get('timestamp', '') |
| 319 | try: |
| 320 | from datetime import datetime |
| 321 | ts = datetime.fromisoformat(ts_str).timestamp() |
| 322 | except: |
| 323 | ts = 0 |
| 324 | client = e.get('client', '') |
| 325 | event = e.get('event', '') |
| 326 | endpoint = e.get('endpoint', '') |
| 327 | key = (client, event, endpoint[:15]) |
| 328 | |
| 329 | if deduped and counts: |
| 330 | prev = deduped[-1] |
| 331 | prev_ts_str = prev.get('timestamp', '') |
| 332 | try: |
| 333 | prev_ts = datetime.fromisoformat(prev_ts_str).timestamp() |
| 334 | except: |
| 335 | prev_ts = 0 |
| 336 | prev_key = (prev.get('client',''), prev.get('event',''), prev.get('endpoint','')[:15]) |
| 337 | if key == prev_key and (ts - prev_ts) < 60: |
| 338 | counts[-1] += 1 |
| 339 | continue |
| 340 | |
| 341 | deduped.append(e) |
| 342 | counts.append(1) |
| 343 | |
| 344 | for e, count in zip(deduped[-int(limit):], counts[-int(limit):]): |
| 345 | ts = e.get('timestamp', '') |
| 346 | try: |
| 347 | from datetime import datetime |
| 348 | dt = datetime.fromisoformat(ts) |
| 349 | ts = dt.strftime(DATETIME_FMT) |
| 350 | except: |
| 351 | pass |
| 352 | client = e.get('client', '—') |
| 353 | endpoint = e.get('endpoint', '—') |
| 354 | event = e.get('event', '—') |
| 355 | count_str = f" (x{count})" if count > 1 else "" |
| 356 | print(f"{ts}|{client}|{endpoint}|{event}{count_str}") |
| 357 | |
| 358 | def format_fw_event(line, clients_dir): |
| 359 | """Format a single fw_event line""" |
| 360 | import glob |
| 361 | proto_map = {1: 'icmp', 6: 'tcp', 17: 'udp'} |
| 362 | |
| 363 | # Build ip->name map |
| 364 | ip_to_name = {} |
| 365 | for conf in glob.glob(f"{clients_dir}/*.conf"): |
| 366 | name = os.path.basename(conf).replace('.conf', '') |
| 367 | try: |
| 368 | with open(conf) as f: |
| 369 | for l in f: |
| 370 | if l.startswith('Address'): |
| 371 | ip = l.split('=')[1].strip().split('/')[0] |
| 372 | ip_to_name[ip] = name |
| 373 | except: |
| 374 | pass |
| 375 | |
| 376 | try: |
| 377 | e = json.loads(line.strip()) |
| 378 | src = e.get('src_ip', '') |
| 379 | if not src: |
| 380 | return None |
| 381 | ts = e.get('timestamp', '') |
| 382 | try: |
| 383 | from datetime import datetime |
| 384 | dt = datetime.fromisoformat(ts) |
| 385 | ts = dt.strftime(DATETIME_FMT) |
| 386 | except: |
| 387 | pass |
| 388 | dst = e.get('dest_ip', '—') |
| 389 | port = e.get('dest_port', '') |
| 390 | proto_num = e.get('ip.protocol', 0) |
| 391 | proto = proto_map.get(proto_num, str(proto_num)) |
| 392 | dst_str = f"{dst}:{port}" if port else dst |
| 393 | client = ip_to_name.get(src, src) |
| 394 | return f"{ts}|{client}|{dst_str}|{proto}" |
| 395 | except: |
| 396 | return None |
| 397 | |
| 398 | def format_wg_event(line): |
| 399 | """Format a single wg_event line""" |
| 400 | try: |
| 401 | e = json.loads(line.strip()) |
| 402 | client = e.get('client', '') |
| 403 | if not client: |
| 404 | return None |
| 405 | ts = e.get('timestamp', '') |
| 406 | try: |
| 407 | from datetime import datetime |
| 408 | dt = datetime.fromisoformat(ts) |
| 409 | ts = dt.strftime(DATETIME_FMT) |
| 410 | except: |
| 411 | pass |
| 412 | endpoint = e.get('endpoint', '—') |
| 413 | event = e.get('event', '—') |
| 414 | return f"{ts}|{client}|{endpoint}|{event}|wg" |
| 415 | except: |
| 416 | return None |
| 417 | |
| 418 | def remove_events(file, identifier): |
| 419 | """Remove all events for a client/ip from a JSONL file""" |
| 420 | try: |
| 421 | lines = [] |
| 422 | with open(file) as f: |
| 423 | for line in f: |
| 424 | try: |
| 425 | e = json.loads(line.strip()) |
| 426 | if e.get('client') == identifier or e.get('src_ip') == identifier: |
| 427 | continue |
| 428 | lines.append(line) |
| 429 | except: |
| 430 | lines.append(line) |
| 431 | with open(file, 'w') as f: |
| 432 | f.writelines(lines) |
| 433 | except Exception as e: |
| 434 | print(f"Error: {e}", file=sys.stderr) |
| 435 | sys.exit(1) |
| 436 | |
| 437 | def follow_logs(fw_file, wg_file, filter_ip, filter_type, clients_dir, filter_peers=""): |
| 438 | """Follow both log files and output formatted events""" |
| 439 | import glob, time, select |
| 440 | |
| 441 | proto_map = {1: 'icmp', 6: 'tcp', 17: 'udp'} |
| 442 | peer_filter = set(filter_peers.split(',')) if filter_peers else set() |
| 443 | |
| 444 | # Build ip->name map |
| 445 | ip_to_name = {} |
| 446 | for conf in glob.glob(f"{clients_dir}/*.conf"): |
| 447 | name = os.path.basename(conf).replace('.conf', '') |
| 448 | try: |
| 449 | with open(conf) as f: |
| 450 | for l in f: |
| 451 | if l.startswith('Address'): |
| 452 | ip = l.split('=')[1].strip().split('/')[0] |
| 453 | ip_to_name[ip] = name |
| 454 | except: |
| 455 | pass |
| 456 | |
| 457 | # Open files and seek to end |
| 458 | files = {} |
| 459 | for label, path in [('fw', fw_file), ('wg', wg_file)]: |
| 460 | if path and os.path.exists(path): |
| 461 | f = open(path) |
| 462 | f.seek(0, 2) # seek to end |
| 463 | files[label] = f |
| 464 | |
| 465 | dedup = {} |
| 466 | |
| 467 | try: |
| 468 | while True: |
| 469 | for label, f in files.items(): |
| 470 | line = f.readline() |
| 471 | if not line: |
| 472 | continue |
| 473 | try: |
| 474 | e = json.loads(line.strip()) |
| 475 | except: |
| 476 | continue |
| 477 | |
| 478 | if label == 'fw': |
| 479 | src = e.get('src_ip', '') |
| 480 | if not src: |
| 481 | continue |
| 482 | if filter_ip and src != filter_ip: |
| 483 | continue |
| 484 | |
| 485 | # Filter by peer names if specified |
| 486 | if peer_filter: |
| 487 | client_name = ip_to_name.get(src, '') |
| 488 | if client_name not in peer_filter: |
| 489 | continue |
| 490 | dst = e.get('dest_ip', '—') |
| 491 | port = e.get('dest_port', '') |
| 492 | proto_num = e.get('ip.protocol', 0) |
| 493 | proto = proto_map.get(proto_num, str(proto_num)) |
| 494 | |
| 495 | # Dedup |
| 496 | key = (src, dst, port, proto_num) |
| 497 | windows = {1: 5, 6: 30, 17: 10} |
| 498 | window = windows.get(proto_num, 10) |
| 499 | now = time.time() |
| 500 | if key in dedup and (now - dedup[key]) < window: |
| 501 | continue |
| 502 | dedup[key] = now |
| 503 | |
| 504 | client = ip_to_name.get(src, src) |
| 505 | if filter_type and not client.startswith(filter_type + '-'): |
| 506 | continue |
| 507 | dst_str = f"{dst}:{port}" if port else dst |
| 508 | ts = e.get('timestamp', '')[:16].replace('T', ' ') |
| 509 | print(f"fw|{ts}|{client}|{dst_str}|{proto}", flush=True) |
| 510 | |
| 511 | elif label == 'wg': |
| 512 | client = e.get('client', '') |
| 513 | if not client: |
| 514 | continue |
| 515 | if filter_ip: |
| 516 | ip = ip_to_name.get(filter_ip, '') |
| 517 | if client != ip and client != filter_ip: |
| 518 | continue |
| 519 | |
| 520 | if peer_filter and client not in peer_filter: |
| 521 | continue |
| 522 | if filter_type and not client.startswith(filter_type + '-'): |
| 523 | continue |
| 524 | ts = e.get('timestamp', '')[:16].replace('T', ' ') |
| 525 | endpoint = e.get('endpoint', '—') |
| 526 | event = e.get('event', '—') |
| 527 | print(f"wg|{ts}|{client}|{endpoint}|{event}", flush=True) |
| 528 | |
| 529 | time.sleep(0.1) |
| 530 | except KeyboardInterrupt: |
| 531 | pass |
| 532 | |
| 533 | def count(file, key): |
| 534 | try: |
| 535 | with open(file) as f: |
| 536 | data = json.load(f) |
| 537 | val = data.get(key, []) |
| 538 | print(len(val) if isinstance(val, list) else 0) |
| 539 | except: |
| 540 | print(0) |
| 541 | |
| 542 | def audit_fw_counts(clients_dir): |
| 543 | """Return peer_name:fw_count pairs from iptables""" |
| 544 | import glob, subprocess, re |
| 545 | |
| 546 | try: |
| 547 | result = subprocess.run( |
| 548 | ['iptables', '-L', 'FORWARD', '-n', '-v'], |
| 549 | capture_output=True, text=True |
| 550 | ) |
| 551 | fw_lines = result.stdout.splitlines() |
| 552 | except Exception: |
| 553 | fw_lines = [] |
| 554 | |
| 555 | # Filter to only data lines (skip headers and blanks) |
| 556 | # In -v output, source IP is in column 8 (0-indexed) |
| 557 | # Format: pkts bytes target prot opt in out source destination [options] |
| 558 | rule_lines = [l for l in fw_lines if l.strip() and not l.startswith('Chain') and not l.startswith(' pkts')] |
| 559 | |
| 560 | for conf in sorted(glob.glob(f"{clients_dir}/*.conf")): |
| 561 | name = os.path.basename(conf).replace('.conf', '') |
| 562 | try: |
| 563 | with open(conf) as f: |
| 564 | ip = '' |
| 565 | for line in f: |
| 566 | if line.startswith('Address'): |
| 567 | ip = line.split('=')[1].strip().split('/')[0] |
| 568 | break |
| 569 | if not ip: |
| 570 | continue |
| 571 | # Count lines where source column exactly matches the peer IP |
| 572 | count = sum(1 for l in rule_lines if re.search(r'\s' + re.escape(ip) + r'\s', l)) |
| 573 | print(f"{name}:{count}") |
| 574 | except Exception: |
| 575 | pass |
| 576 | |
| 577 | def peer_group_map(groups_dir): |
| 578 | """Return peer:group pairs for all groups""" |
| 579 | import glob |
| 580 | try: |
| 581 | for group_file in glob.glob(f"{groups_dir}/*.group"): |
| 582 | try: |
| 583 | with open(group_file) as f: |
| 584 | g = json.load(f) |
| 585 | name = g.get('name', '') |
| 586 | for peer in g.get('peers', []): |
| 587 | if peer: |
| 588 | print(f"{peer}:{name}") |
| 589 | except: |
| 590 | pass |
| 591 | except: |
| 592 | pass |
| 593 | |
| 594 | def peer_groups(groups_dir, peer_name): |
| 595 | """Find all groups containing a peer""" |
| 596 | import glob |
| 597 | try: |
| 598 | for group_file in glob.glob(f"{groups_dir}/*.group"): |
| 599 | try: |
| 600 | with open(group_file) as f: |
| 601 | g = json.load(f) |
| 602 | if peer_name in g.get('peers', []): |
| 603 | print(g.get('name', '')) |
| 604 | except: |
| 605 | pass |
| 606 | except: |
| 607 | pass |
| 608 | |
| 609 | def iso_to_ts(iso_str): |
| 610 | """Convert ISO timestamp to unix timestamp""" |
| 611 | try: |
| 612 | from datetime import datetime, timezone |
| 613 | dt = datetime.fromisoformat(iso_str) |
| 614 | if dt.tzinfo is None: |
| 615 | dt = dt.replace(tzinfo=timezone.utc) |
| 616 | print(int(dt.timestamp())) |
| 617 | except: |
| 618 | print(0) |
| 619 | |
| 620 | def rule_list_data(rules_dir, meta_dir): |
| 621 | """Return all rule data including base rules and extends""" |
| 622 | import glob |
| 623 | |
| 624 | rule_peer_counts = {} |
| 625 | for f in glob.glob(f"{meta_dir}/*.meta"): |
| 626 | try: |
| 627 | with open(f) as mf: |
| 628 | meta = json.load(mf) |
| 629 | rule = meta.get('rule', '') |
| 630 | if rule: |
| 631 | rule_peer_counts[rule] = rule_peer_counts.get(rule, 0) + 1 |
| 632 | except: |
| 633 | pass |
| 634 | |
| 635 | rule_files = ( |
| 636 | sorted(glob.glob(f"{rules_dir}/*.rule")) + |
| 637 | sorted(glob.glob(f"{rules_dir}/base/*.rule")) |
| 638 | ) |
| 639 | |
| 640 | # Collect all data first |
| 641 | rules_data = [] |
| 642 | for rule_file in rule_files: |
| 643 | is_base = '/base/' in rule_file |
| 644 | try: |
| 645 | with open(rule_file) as f: |
| 646 | r = json.load(f) |
| 647 | name = r.get('name', '') |
| 648 | desc = r.get('desc', '') |
| 649 | group = r.get('group', '') |
| 650 | extends = ','.join(r.get('extends', [])) |
| 651 | resolved = _rule_resolve_internal(rules_dir, name) |
| 652 | n_allows = len(resolved.get('allow_ips', [])) + \ |
| 653 | len(resolved.get('allow_ports', [])) |
| 654 | n_blocks = len(resolved.get('block_ips', [])) + \ |
| 655 | len(resolved.get('block_ports', [])) |
| 656 | peer_count = rule_peer_counts.get(name, 0) |
| 657 | rules_data.append({ |
| 658 | 'name': name, 'desc': desc, 'n_allows': n_allows, |
| 659 | 'n_blocks': n_blocks, 'peer_count': peer_count, |
| 660 | 'extends': extends, 'is_base': is_base, 'group': group |
| 661 | }) |
| 662 | except: |
| 663 | pass |
| 664 | |
| 665 | # Sort: non-base first, then by group (empty group last within non-base), |
| 666 | # then by name within group |
| 667 | rules_data.sort(key=lambda x: ( |
| 668 | x['is_base'], |
| 669 | x['group'] == '' and not x['is_base'], |
| 670 | x['group'], |
| 671 | x['name'] |
| 672 | )) |
| 673 | |
| 674 | for r in rules_data: |
| 675 | print(f"{r['name']}|{r['desc']}|{r['n_allows']}|{r['n_blocks']}|" |
| 676 | f"{r['peer_count']}|{r['extends']}|{r['is_base']}|{r['group']}") |
| 677 | |
| 678 | def group_list_data(groups_dir, blocks_dir): |
| 679 | """Return group summary data in one call""" |
| 680 | import glob |
| 681 | |
| 682 | # Get all block files |
| 683 | blocked_peers = set() |
| 684 | for f in glob.glob(f"{blocks_dir}/*.block"): |
| 685 | name = os.path.basename(f).replace('.block', '') |
| 686 | blocked_peers.add(name) |
| 687 | |
| 688 | for group_file in sorted(glob.glob(f"{groups_dir}/*.group")): |
| 689 | try: |
| 690 | with open(group_file) as f: |
| 691 | g = json.load(f) |
| 692 | name = g.get('name', '') |
| 693 | desc = g.get('desc', '') |
| 694 | peers = [p for p in g.get('peers', []) if p] |
| 695 | total = len(peers) |
| 696 | blocked = sum(1 for p in peers if p in blocked_peers) |
| 697 | print(f"{name}|{desc}|{total}|{blocked}") |
| 698 | except: |
| 699 | pass |
| 700 | |
| 701 | def fmt_datetime(iso_str, fmt): |
| 702 | """Format ISO timestamp with given strftime format""" |
| 703 | try: |
| 704 | from datetime import datetime |
| 705 | dt = datetime.fromisoformat(iso_str) |
| 706 | print(dt.strftime(fmt)) |
| 707 | except: |
| 708 | print(iso_str) |
| 709 | |
| 710 | def create_rule(file, name, desc, dns_redirect, allow_ips, block_ips, |
| 711 | block_ports, allow_ports='', extends='', group=''): |
| 712 | rule = { |
| 713 | 'name': name, |
| 714 | 'desc': desc, |
| 715 | 'group': group, |
| 716 | 'dns_redirect': dns_redirect == 'true', |
| 717 | 'extends': [x for x in extends.split(',') if x] if extends else [], |
| 718 | 'allow_ips': [x for x in allow_ips.split(',') if x] if allow_ips else [], |
| 719 | 'allow_ports': [x for x in allow_ports.split(',') if x] if allow_ports else [], |
| 720 | 'block_ips': [x for x in block_ips.split(',') if x] if block_ips else [], |
| 721 | 'block_ports': [x for x in block_ports.split(',') if x] if block_ports else [], |
| 722 | } |
| 723 | with open(file, 'w') as f: |
| 724 | json.dump(rule, f, indent=2) |
| 725 | |
| 726 | def cleanup_config(config_file): |
| 727 | """Normalize blank lines in WireGuard config""" |
| 728 | import re |
| 729 | try: |
| 730 | with open(config_file) as f: |
| 731 | config = f.read() |
| 732 | config = re.sub(r'\n{3,}', '\n\n', config) |
| 733 | config = config.rstrip('\n') + '\n' |
| 734 | with open(config_file, 'w') as f: |
| 735 | f.write(config) |
| 736 | except Exception as e: |
| 737 | print(f"Error: {e}", file=sys.stderr) |
| 738 | sys.exit(1) |
| 739 | |
| 740 | def remove_peer_block(config_file, name): |
| 741 | """Remove a peer block from WireGuard config by name""" |
| 742 | import re |
| 743 | try: |
| 744 | with open(config_file) as f: |
| 745 | config = f.read() |
| 746 | pattern = r'\n\[Peer\]\n# ' + re.escape(name) + r'\n[^\n]+\n[^\n]+\n' |
| 747 | result = re.sub(pattern, '\n', config) |
| 748 | with open(config_file, 'w') as f: |
| 749 | f.write(result) |
| 750 | except Exception as e: |
| 751 | print(f"Error: {e}", file=sys.stderr) |
| 752 | sys.exit(1) |
| 753 | |
| 754 | def create_group(file, name, desc): |
| 755 | """Create a new group JSON file""" |
| 756 | try: |
| 757 | group = {'name': name, 'desc': desc, 'peers': []} |
| 758 | with open(file, 'w') as f: |
| 759 | json.dump(group, f, indent=2) |
| 760 | except Exception as e: |
| 761 | print(f"Error: {e}", file=sys.stderr) |
| 762 | sys.exit(1) |
| 763 | |
| 764 | def parse_event(line): |
| 765 | """Parse a single JSON event line""" |
| 766 | try: |
| 767 | e = json.loads(line) |
| 768 | print(f"{e.get('timestamp','')}|{e.get('client','')}|{e.get('endpoint','')}|{e.get('event','')}") |
| 769 | except: |
| 770 | pass |
| 771 | |
| 772 | def parse_fw_event(line): |
| 773 | """Parse a single fw_events.log JSON line""" |
| 774 | try: |
| 775 | e = json.loads(line) |
| 776 | ts = e.get('timestamp', '') |
| 777 | src = e.get('src_ip', '') |
| 778 | dst = e.get('dest_ip', '') |
| 779 | port = e.get('dest_port', '') |
| 780 | proto_map = {1: 'icmp', 6: 'tcp', 17: 'udp'} |
| 781 | proto_num = e.get('ip.protocol', 0) |
| 782 | proto = proto_map.get(proto_num, str(proto_num)) |
| 783 | print(f"{ts}|{src}|{dst}|{port}|{proto}") |
| 784 | except: |
| 785 | pass |
| 786 | |
| 787 | def peer_transfer(wg_interface): |
| 788 | """Get total transfer bytes per peer""" |
| 789 | import subprocess |
| 790 | low = int(os.environ.get('ACTIVITY_TOTAL_LOW_BYTES', '1000000')) |
| 791 | med = int(os.environ.get('ACTIVITY_TOTAL_MED_BYTES', '10000000')) |
| 792 | high = int(os.environ.get('ACTIVITY_TOTAL_HIGH_BYTES', '100000000')) |
| 793 | try: |
| 794 | result = subprocess.run( |
| 795 | ['wg', 'show', wg_interface, 'transfer'], |
| 796 | capture_output=True, text=True |
| 797 | ) |
| 798 | for line in result.stdout.strip().split('\n'): |
| 799 | if not line: |
| 800 | continue |
| 801 | parts = line.split('\t') |
| 802 | if len(parts) == 3: |
| 803 | pubkey, rx, tx = parts |
| 804 | total = int(rx) + int(tx) |
| 805 | if total == 0: level = 'none' |
| 806 | elif total < low: level = 'low' |
| 807 | elif total < med: level = 'medium' |
| 808 | elif total < high: level = 'high' |
| 809 | else: level = 'very high' |
| 810 | print(f"{pubkey}|{rx}|{tx}|{level}") |
| 811 | except: |
| 812 | pass |
| 813 | |
| 814 | def peer_transfer_delta(wg_interface, cache_file): |
| 815 | """Calculate current transfer rate using delta from previous sample""" |
| 816 | import subprocess, time |
| 817 | |
| 818 | low = int(os.environ.get('ACTIVITY_CURRENT_LOW_BYTES', '10000')) # 10KB/s |
| 819 | med = int(os.environ.get('ACTIVITY_CURRENT_MED_BYTES', '100000')) # 100KB/s |
| 820 | high = int(os.environ.get('ACTIVITY_CURRENT_HIGH_BYTES', '1000000')) # 1MB/s |
| 821 | |
| 822 | current = {} |
| 823 | now = time.time() |
| 824 | try: |
| 825 | result = subprocess.run( |
| 826 | ['wg', 'show', wg_interface, 'transfer'], |
| 827 | capture_output=True, text=True |
| 828 | ) |
| 829 | for line in result.stdout.strip().split('\n'): |
| 830 | if not line: |
| 831 | continue |
| 832 | parts = line.split('\t') |
| 833 | if len(parts) == 3: |
| 834 | pubkey, rx, tx = parts |
| 835 | current[pubkey] = {'rx': int(rx), 'tx': int(tx), 'ts': now} |
| 836 | except: |
| 837 | pass |
| 838 | |
| 839 | prev = {} |
| 840 | if os.path.exists(cache_file): |
| 841 | try: |
| 842 | with open(cache_file) as f: |
| 843 | prev = json.load(f) |
| 844 | except: |
| 845 | pass |
| 846 | |
| 847 | try: |
| 848 | with open(cache_file, 'w') as f: |
| 849 | json.dump(current, f) |
| 850 | except: |
| 851 | pass |
| 852 | |
| 853 | for pubkey, data in current.items(): |
| 854 | if pubkey in prev: |
| 855 | dt = data['ts'] - prev[pubkey].get('ts', data['ts']) |
| 856 | if dt > 0: |
| 857 | rx_rate = max(0, (data['rx'] - prev[pubkey]['rx']) / dt) |
| 858 | tx_rate = max(0, (data['tx'] - prev[pubkey]['tx']) / dt) |
| 859 | total = rx_rate + tx_rate |
| 860 | if total <= 0: level = 'idle' |
| 861 | elif total < low: level = 'low' |
| 862 | elif total < med: level = 'medium' |
| 863 | elif total < high: level = 'high' |
| 864 | else: level = 'very high' |
| 865 | print(f"{pubkey}|{int(rx_rate)}|{int(tx_rate)}|{level}") |
| 866 | else: |
| 867 | print(f"{pubkey}|0|0|idle") |
| 868 | else: |
| 869 | print(f"{pubkey}|0|0|unknown") |
| 870 | |
| 871 | def remove_events_filtered(wg_file, fw_file, filter_name, filter_ip, |
| 872 | filter_fw, filter_wg, before_days): |
| 873 | """Remove events with filters: by name/ip, source, or age""" |
| 874 | import time |
| 875 | from datetime import datetime, timezone |
| 876 | |
| 877 | cutoff_ts = None |
| 878 | if before_days: |
| 879 | cutoff_ts = time.time() - (float(before_days) * 86400) |
| 880 | |
| 881 | def should_remove_wg(e): |
| 882 | if filter_name and e.get('client') != filter_name: |
| 883 | return False |
| 884 | if cutoff_ts: |
| 885 | try: |
| 886 | ts = datetime.fromisoformat(e.get('timestamp','')).timestamp() |
| 887 | return ts < cutoff_ts |
| 888 | except: |
| 889 | return False |
| 890 | return True |
| 891 | |
| 892 | def should_remove_fw(e): |
| 893 | if filter_ip and e.get('src_ip') != filter_ip: |
| 894 | return False |
| 895 | if cutoff_ts: |
| 896 | try: |
| 897 | ts = datetime.fromisoformat(e.get('timestamp','')).timestamp() |
| 898 | return ts < cutoff_ts |
| 899 | except: |
| 900 | return False |
| 901 | return True |
| 902 | |
| 903 | removed_wg = removed_fw = 0 |
| 904 | |
| 905 | if not filter_fw and os.path.exists(wg_file): |
| 906 | lines = [] |
| 907 | with open(wg_file) as f: |
| 908 | for line in f: |
| 909 | try: |
| 910 | e = json.loads(line.strip()) |
| 911 | if should_remove_wg(e): |
| 912 | removed_wg += 1 |
| 913 | continue |
| 914 | except: |
| 915 | pass |
| 916 | lines.append(line) |
| 917 | with open(wg_file, 'w') as f: |
| 918 | f.writelines(lines) |
| 919 | |
| 920 | if not filter_wg and os.path.exists(fw_file): |
| 921 | lines = [] |
| 922 | with open(fw_file) as f: |
| 923 | for line in f: |
| 924 | try: |
| 925 | e = json.loads(line.strip()) |
| 926 | if should_remove_fw(e): |
| 927 | removed_fw += 1 |
| 928 | continue |
| 929 | except: |
| 930 | pass |
| 931 | lines.append(line) |
| 932 | with open(fw_file, 'w') as f: |
| 933 | f.writelines(lines) |
| 934 | |
| 935 | print(f"{removed_wg}|{removed_fw}") |
| 936 | |
| 937 | def _rule_resolve_internal(rules_dir, rule_name, visited=None): |
| 938 | """Internal recursive resolver — returns dict, does not print""" |
| 939 | if visited is None: |
| 940 | visited = set() |
| 941 | if rule_name in visited: |
| 942 | raise ValueError(f"Circular dependency detected: {rule_name}") |
| 943 | visited.add(rule_name) |
| 944 | |
| 945 | rule_file = find_rule_file(rules_dir, rule_name) |
| 946 | with open(rule_file) as f: |
| 947 | rule = json.load(f) |
| 948 | |
| 949 | merged = { |
| 950 | 'allow_ips': [], |
| 951 | 'allow_ports': [], |
| 952 | 'block_ips': [], |
| 953 | 'block_ports': [], |
| 954 | 'dns_redirect': False |
| 955 | } |
| 956 | |
| 957 | for base_name in rule.get('extends', []): |
| 958 | base = _rule_resolve_internal(rules_dir, base_name, visited.copy()) |
| 959 | merged['allow_ips'] += base.get('allow_ips', []) |
| 960 | merged['allow_ports'] += base.get('allow_ports', []) |
| 961 | merged['block_ips'] += base.get('block_ips', []) |
| 962 | merged['block_ports'] += base.get('block_ports', []) |
| 963 | if base.get('dns_redirect'): |
| 964 | merged['dns_redirect'] = True |
| 965 | |
| 966 | # Merge own fields — use .get() with defaults for all fields |
| 967 | merged['allow_ips'] = list(dict.fromkeys( |
| 968 | merged['allow_ips'] + rule.get('allow_ips', []))) |
| 969 | merged['allow_ports'] = list(dict.fromkeys( |
| 970 | merged['allow_ports'] + rule.get('allow_ports', []))) |
| 971 | merged['block_ips'] = list(dict.fromkeys( |
| 972 | merged['block_ips'] + rule.get('block_ips', []))) |
| 973 | merged['block_ports'] = list(dict.fromkeys( |
| 974 | merged['block_ports'] + rule.get('block_ports', []))) |
| 975 | if rule.get('dns_redirect', False): |
| 976 | merged['dns_redirect'] = True |
| 977 | |
| 978 | merged['name'] = rule.get('name', rule_name) |
| 979 | merged['desc'] = rule.get('desc', '') |
| 980 | merged['group'] = rule.get('group', '') |
| 981 | merged['extends'] = rule.get('extends', []) |
| 982 | return merged |
| 983 | |
| 984 | def rule_resolve(rules_dir, rule_name): |
| 985 | """Resolve a rule with inheritance — prints JSON""" |
| 986 | try: |
| 987 | resolved = _rule_resolve_internal(rules_dir, rule_name) |
| 988 | print(json.dumps(resolved)) |
| 989 | except Exception as e: |
| 990 | print(f"Error: {e}", file=sys.stderr) |
| 991 | sys.exit(1) |
| 992 | |
| 993 | def rule_resolve_field(rules_dir, rule_name, field): |
| 994 | """Get a single field from resolved rule — prints values one per line""" |
| 995 | try: |
| 996 | resolved = _rule_resolve_internal(rules_dir, rule_name) |
| 997 | val = resolved.get(field, []) |
| 998 | if isinstance(val, list): |
| 999 | for v in val: |
| 1000 | print(v) |
| 1001 | else: |
| 1002 | print(val) |
| 1003 | except Exception as e: |
| 1004 | print(f"Error: {e}", file=sys.stderr) |
| 1005 | sys.exit(1) |
| 1006 | |
| 1007 | def rule_inspect(rules_dir, rule_name): |
| 1008 | """Show inheritance tree for a rule""" |
| 1009 | try: |
| 1010 | rule_file = find_rule_file(rules_dir, rule_name) |
| 1011 | with open(rule_file) as f: |
| 1012 | rule = json.load(f) |
| 1013 | resolved = _rule_resolve_internal(rules_dir, rule_name) |
| 1014 | has_extends = bool(rule.get('extends', [])) |
| 1015 | |
| 1016 | # Own rules |
| 1017 | for ip in rule.get('allow_ips', []): |
| 1018 | print(f"own|allow_ip|{ip}") |
| 1019 | for p in rule.get('allow_ports', []): |
| 1020 | print(f"own|allow_port|{p}") |
| 1021 | for ip in rule.get('block_ips', []): |
| 1022 | print(f"own|block_ip|{ip}") |
| 1023 | for p in rule.get('block_ports', []): |
| 1024 | print(f"own|block_port|{p}") |
| 1025 | |
| 1026 | # DNS redirect — separate section |
| 1027 | if rule.get('dns_redirect'): |
| 1028 | print(f"dns|dns_redirect|true") |
| 1029 | |
| 1030 | if has_extends: |
| 1031 | # Inherited rules per base |
| 1032 | for base_name in rule.get('extends', []): |
| 1033 | base = _rule_resolve_internal(rules_dir, base_name) |
| 1034 | for ip in base.get('allow_ips', []): |
| 1035 | print(f"inherited:{base_name}|allow_ip|{ip}") |
| 1036 | for p in base.get('allow_ports', []): |
| 1037 | print(f"inherited:{base_name}|allow_port|{p}") |
| 1038 | for ip in base.get('block_ips', []): |
| 1039 | print(f"inherited:{base_name}|block_ip|{ip}") |
| 1040 | for p in base.get('block_ports', []): |
| 1041 | print(f"inherited:{base_name}|block_port|{p}") |
| 1042 | if base.get('dns_redirect'): |
| 1043 | print(f"inherited:{base_name}|dns_redirect|true") |
| 1044 | |
| 1045 | # Resolved summary only when inheritance exists |
| 1046 | has_resolved = ( |
| 1047 | resolved.get('allow_ips') or resolved.get('allow_ports') or |
| 1048 | resolved.get('block_ips') or resolved.get('block_ports') or |
| 1049 | resolved.get('dns_redirect') |
| 1050 | ) |
| 1051 | if has_resolved: |
| 1052 | for ip in resolved.get('allow_ips', []): |
| 1053 | print(f"resolved|allow_ip|{ip}") |
| 1054 | for p in resolved.get('allow_ports', []): |
| 1055 | print(f"resolved|allow_port|{p}") |
| 1056 | for ip in resolved.get('block_ips', []): |
| 1057 | print(f"resolved|block_ip|{ip}") |
| 1058 | for p in resolved.get('block_ports', []): |
| 1059 | print(f"resolved|block_port|{p}") |
| 1060 | if resolved.get('dns_redirect'): |
| 1061 | print(f"resolved|dns_redirect|true") |
| 1062 | |
| 1063 | except Exception as e: |
| 1064 | print(f"Error: {e}", file=sys.stderr) |
| 1065 | sys.exit(1) |
| 1066 | |
| 1067 | def find_rule_file(rules_dir, rule_name): |
| 1068 | """Find rule file in rules/ or rules/base/""" |
| 1069 | for path in [ |
| 1070 | os.path.join(rules_dir, f"{rule_name}.rule"), |
| 1071 | os.path.join(rules_dir, "base", f"{rule_name}.rule"), |
| 1072 | ]: |
| 1073 | if os.path.exists(path): |
| 1074 | return path |
| 1075 | return "" |
| 1076 | |
| 1077 | def get_raw(file, key): |
| 1078 | try: |
| 1079 | with open(file) as f: |
| 1080 | data = json.load(f) |
| 1081 | val = data.get(key) # returns None if missing |
| 1082 | if val is None: |
| 1083 | pass # print nothing |
| 1084 | elif isinstance(val, bool): |
| 1085 | print(str(val).lower()) |
| 1086 | elif isinstance(val, list): |
| 1087 | for v in val: |
| 1088 | print(v) |
| 1089 | else: |
| 1090 | print(val) |
| 1091 | except: |
| 1092 | pass |
| 1093 | |
| 1094 | def count_resolved(rules_dir, rule_name, key): |
| 1095 | """Count entries in resolved rule field""" |
| 1096 | try: |
| 1097 | resolved = _rule_resolve_internal(rules_dir, rule_name) |
| 1098 | print(len(resolved.get(key, []))) |
| 1099 | except: |
| 1100 | print(0) |
| 1101 | |
| 1102 | def _block_init(peer_ip): |
| 1103 | """Return empty block structure""" |
| 1104 | return { |
| 1105 | "peer_ip": peer_ip, |
| 1106 | "blocked_direct": False, |
| 1107 | "blocked_by_groups": [], |
| 1108 | "rules": [] |
| 1109 | } |
| 1110 | |
| 1111 | def _block_read(file): |
| 1112 | try: |
| 1113 | with open(file) as f: |
| 1114 | content = f.read().strip() |
| 1115 | if not content: |
| 1116 | return None # empty file = no block data |
| 1117 | try: |
| 1118 | return json.loads(content) |
| 1119 | except json.JSONDecodeError: |
| 1120 | # Old format — migrate |
| 1121 | lines = content.split('\n') |
| 1122 | peer_ip = lines[0].split()[0] if lines else '' |
| 1123 | new_data = { |
| 1124 | "peer_ip": peer_ip, |
| 1125 | "blocked_direct": True, |
| 1126 | "blocked_by_groups": [], |
| 1127 | "rules": [{"name": "full block", "type": "full"}] |
| 1128 | } |
| 1129 | with open(file, 'w') as f: |
| 1130 | json.dump(new_data, f, indent=2) |
| 1131 | return new_data |
| 1132 | except FileNotFoundError: |
| 1133 | return None |
| 1134 | except Exception: |
| 1135 | return None |
| 1136 | |
| 1137 | def _block_write(file, data): |
| 1138 | """Write block file""" |
| 1139 | with open(file, 'w') as f: |
| 1140 | json.dump(data, f, indent=2) |
| 1141 | |
| 1142 | def block_get(file): |
| 1143 | """Read and print block file as JSON""" |
| 1144 | data = _block_read(file) |
| 1145 | if data: |
| 1146 | print(json.dumps(data)) |
| 1147 | |
| 1148 | def block_is_blocked(file): |
| 1149 | """Return true if peer is effectively blocked""" |
| 1150 | data = _block_read(file) |
| 1151 | if not data: |
| 1152 | print("false") |
| 1153 | return |
| 1154 | blocked = data.get("blocked_direct", False) or \ |
| 1155 | bool(data.get("blocked_by_groups", [])) |
| 1156 | print("true" if blocked else "false") |
| 1157 | |
| 1158 | def block_set_direct(file, peer_ip, value): |
| 1159 | """Set blocked_direct""" |
| 1160 | try: |
| 1161 | data = _block_read(file) or _block_init(peer_ip) |
| 1162 | data["blocked_direct"] = value.lower() == "true" |
| 1163 | data["peer_ip"] = peer_ip |
| 1164 | _block_write(file, data) |
| 1165 | remaining = data["blocked_direct"] or bool(data.get("blocked_by_groups", [])) |
| 1166 | pass |
| 1167 | # print("true" if remaining else "false") |
| 1168 | except Exception as e: |
| 1169 | print(f"Error: {e}", file=sys.stderr) |
| 1170 | sys.exit(1) |
| 1171 | |
| 1172 | def block_add_group(file, peer_ip, group): |
| 1173 | """Add group to blocked_by_groups""" |
| 1174 | try: |
| 1175 | data = _block_read(file) or _block_init(peer_ip) |
| 1176 | data["peer_ip"] = peer_ip |
| 1177 | groups = data.get("blocked_by_groups", []) |
| 1178 | if group not in groups: |
| 1179 | groups.append(group) |
| 1180 | data["blocked_by_groups"] = groups |
| 1181 | _block_write(file, data) |
| 1182 | except Exception as e: |
| 1183 | print(f"Error: {e}", file=sys.stderr) |
| 1184 | sys.exit(1) |
| 1185 | |
| 1186 | def block_remove_group(file, peer_ip, group): |
| 1187 | """Remove group from blocked_by_groups, return whether still blocked""" |
| 1188 | try: |
| 1189 | data = _block_read(file) or _block_init(peer_ip) |
| 1190 | groups = data.get("blocked_by_groups", []) |
| 1191 | if group in groups: |
| 1192 | groups.remove(group) |
| 1193 | data["blocked_by_groups"] = groups |
| 1194 | _block_write(file, data) |
| 1195 | except Exception as e: |
| 1196 | print(f"Error: {e}", file=sys.stderr) |
| 1197 | sys.exit(1) |
| 1198 | # print("true" if remaining else "false") |
| 1199 | pass |
| 1200 | except Exception as e: |
| 1201 | print(f"Error: {e}", file=sys.stderr) |
| 1202 | sys.exit(1) |
| 1203 | |
| 1204 | def block_add_rule(file, peer_ip, rule_type, name="", target="", |
| 1205 | port="", proto=""): |
| 1206 | """Add a block rule entry""" |
| 1207 | try: |
| 1208 | data = _block_read(file) or _block_init(peer_ip) |
| 1209 | data["peer_ip"] = peer_ip |
| 1210 | rule = {"type": rule_type} |
| 1211 | if name: rule["name"] = name |
| 1212 | if target: rule["target"] = target |
| 1213 | if port: rule["port"] = port |
| 1214 | if proto: rule["proto"] = proto |
| 1215 | |
| 1216 | rules = data.get("rules", []) |
| 1217 | for existing in rules: |
| 1218 | if existing.get("type") == rule_type and \ |
| 1219 | existing.get("target","") == target and \ |
| 1220 | existing.get("port","") == port and \ |
| 1221 | existing.get("proto","") == proto: |
| 1222 | return # already exists, skip |
| 1223 | |
| 1224 | rules.append(rule) |
| 1225 | data["rules"] = rules |
| 1226 | _block_write(file, data) |
| 1227 | except Exception as e: |
| 1228 | print(f"Error: {e}", file=sys.stderr) |
| 1229 | sys.exit(1) |
| 1230 | |
| 1231 | def block_remove_rule(file, rule_type, target="", port="", proto=""): |
| 1232 | data = _block_read(file) |
| 1233 | if not data: |
| 1234 | return |
| 1235 | rules = data.get("rules", []) |
| 1236 | filtered = [r for r in rules if not ( |
| 1237 | r.get("type") == rule_type and |
| 1238 | r.get("target", "") == target and |
| 1239 | r.get("port", "") == port and |
| 1240 | r.get("proto", "") == proto |
| 1241 | )] |
| 1242 | data["rules"] = filtered |
| 1243 | _block_write(file, data) |
| 1244 | |
| 1245 | def block_get_rules(file): |
| 1246 | """Print rules as pipe-separated lines: name|type|target|port|proto""" |
| 1247 | data = _block_read(file) |
| 1248 | if not data: |
| 1249 | return |
| 1250 | for r in data.get("rules", []): |
| 1251 | print(f"{r.get('name','')}|{r.get('type','')}|" |
| 1252 | f"{r.get('target','')}|{r.get('port','')}|{r.get('proto','')}") |
| 1253 | |
| 1254 | def block_get_groups(file): |
| 1255 | data = _block_read(file) |
| 1256 | if not data: |
| 1257 | return |
| 1258 | print(','.join(data.get('blocked_by_groups', []))) |
| 1259 | |
| 1260 | def block_get_direct(file): |
| 1261 | data = _block_read(file) |
| 1262 | if not data: |
| 1263 | print('false') |
| 1264 | return |
| 1265 | print('true' if data.get('blocked_direct', False) else 'false') |
| 1266 | |
| 1267 | # ============================================ |
| 1268 | # Net / Services |
| 1269 | # ============================================ |
| 1270 | |
| 1271 | def _net_read(file): |
| 1272 | """Read services.json, return dict or empty dict""" |
| 1273 | try: |
| 1274 | if not os.path.exists(file): |
| 1275 | return {} |
| 1276 | with open(file) as f: |
| 1277 | content = f.read().strip() |
| 1278 | if not content: |
| 1279 | return {} |
| 1280 | return json.loads(content) |
| 1281 | except Exception: |
| 1282 | return {} |
| 1283 | |
| 1284 | def _net_write(file, data): |
| 1285 | """Write services.json""" |
| 1286 | os.makedirs(os.path.dirname(file), exist_ok=True) |
| 1287 | with open(file, 'w') as f: |
| 1288 | json.dump(data, f, indent=2) |
| 1289 | |
| 1290 | def net_list(file): |
| 1291 | """List all service names with IP and port count""" |
| 1292 | data = _net_read(file) |
| 1293 | for name, svc in sorted(data.items()): |
| 1294 | ip = svc.get('ip', '') |
| 1295 | desc = svc.get('desc', '') |
| 1296 | tags = ','.join(svc.get('tags', [])) |
| 1297 | ports = len(svc.get('ports', {})) |
| 1298 | print(f"{name}|{ip}|{desc}|{tags}|{ports}") |
| 1299 | |
| 1300 | def net_show(file, name): |
| 1301 | """Show full service details""" |
| 1302 | data = _net_read(file) |
| 1303 | if name not in data: |
| 1304 | print(f"Error: Service not found: {name}", file=sys.stderr) |
| 1305 | sys.exit(1) |
| 1306 | svc = data[name] |
| 1307 | print(f"name|{name}") |
| 1308 | print(f"ip|{svc.get('ip','')}") |
| 1309 | print(f"desc|{svc.get('desc','')}") |
| 1310 | print(f"tags|{','.join(svc.get('tags',[]))}") |
| 1311 | for port_name, port_def in svc.get('ports', {}).items(): |
| 1312 | port = port_def.get('port', '') |
| 1313 | proto = port_def.get('proto', 'tcp') |
| 1314 | desc = port_def.get('desc', '') |
| 1315 | print(f"port|{port_name}|{port}|{proto}|{desc}") |
| 1316 | |
| 1317 | def net_exists(file, name): |
| 1318 | """Check if service exists""" |
| 1319 | data = _net_read(file) |
| 1320 | # Handle service:port syntax |
| 1321 | if ':' in name: |
| 1322 | svc_name, port_name = name.split(':', 1) |
| 1323 | if port_name == 'ports': |
| 1324 | print('true' if svc_name in data else 'false') |
| 1325 | else: |
| 1326 | svc = data.get(svc_name, {}) |
| 1327 | print('true' if port_name in svc.get('ports', {}) else 'false') |
| 1328 | else: |
| 1329 | print('true' if name in data else 'false') |
| 1330 | |
| 1331 | def net_add_service(file, name, ip, desc='', tags=''): |
| 1332 | """Add or update a service""" |
| 1333 | data = _net_read(file) |
| 1334 | if name not in data: |
| 1335 | data[name] = {'ip': ip, 'ports': {}} |
| 1336 | else: |
| 1337 | data[name]['ip'] = ip |
| 1338 | if desc: |
| 1339 | data[name]['desc'] = desc |
| 1340 | if tags: |
| 1341 | data[name]['tags'] = [t.strip() for t in tags.split(',') if t.strip()] |
| 1342 | _net_write(file, data) |
| 1343 | |
| 1344 | def net_add_port(file, service, port_name, port, proto='tcp', desc=''): |
| 1345 | """Add or update a port on a service""" |
| 1346 | data = _net_read(file) |
| 1347 | if service not in data: |
| 1348 | print(f"Error: Service not found: {service}", file=sys.stderr) |
| 1349 | sys.exit(1) |
| 1350 | if 'ports' not in data[service]: |
| 1351 | data[service]['ports'] = {} |
| 1352 | entry = {'port': int(port), 'proto': proto} |
| 1353 | if desc: |
| 1354 | entry['desc'] = desc |
| 1355 | data[service]['ports'][port_name] = entry |
| 1356 | _net_write(file, data) |
| 1357 | |
| 1358 | def net_remove(file, name): |
| 1359 | """Remove service or port""" |
| 1360 | data = _net_read(file) |
| 1361 | if ':' in name: |
| 1362 | svc_name, port_name = name.split(':', 1) |
| 1363 | if svc_name not in data: |
| 1364 | print(f"Error: Service not found: {svc_name}", file=sys.stderr) |
| 1365 | sys.exit(1) |
| 1366 | if port_name == 'ports': |
| 1367 | # Remove all ports |
| 1368 | data[svc_name]['ports'] = {} |
| 1369 | else: |
| 1370 | if port_name not in data[svc_name].get('ports', {}): |
| 1371 | print(f"Error: Port not found: {port_name}", file=sys.stderr) |
| 1372 | sys.exit(1) |
| 1373 | del data[svc_name]['ports'][port_name] |
| 1374 | else: |
| 1375 | if name not in data: |
| 1376 | print(f"Error: Service not found: {name}", file=sys.stderr) |
| 1377 | sys.exit(1) |
| 1378 | del data[name] |
| 1379 | _net_write(file, data) |
| 1380 | |
| 1381 | def net_resolve(file, name): |
| 1382 | """Resolve service name to ip or ip:port:proto lines""" |
| 1383 | data = _net_read(file) |
| 1384 | if ':' in name: |
| 1385 | svc_name, port_name = name.split(':', 1) |
| 1386 | if svc_name not in data: |
| 1387 | print(f"Error: Service not found: {svc_name}", file=sys.stderr) |
| 1388 | sys.exit(1) |
| 1389 | svc = data[svc_name] |
| 1390 | ip = svc.get('ip', '') |
| 1391 | if port_name == 'ports': |
| 1392 | # All ports |
| 1393 | for pname, pdef in svc.get('ports', {}).items(): |
| 1394 | print(f"{ip}:{pdef['port']}:{pdef.get('proto','tcp')}") |
| 1395 | else: |
| 1396 | if port_name not in svc.get('ports', {}): |
| 1397 | print(f"Error: Port not found: {port_name}", file=sys.stderr) |
| 1398 | sys.exit(1) |
| 1399 | pdef = svc['ports'][port_name] |
| 1400 | print(f"{ip}:{pdef['port']}:{pdef.get('proto','tcp')}") |
| 1401 | else: |
| 1402 | if name not in data: |
| 1403 | print(f"Error: Service not found: {name}", file=sys.stderr) |
| 1404 | sys.exit(1) |
| 1405 | print(data[name].get('ip', '')) |
| 1406 | |
| 1407 | def net_reverse_lookup(file, ip, port='', proto=''): |
| 1408 | """Reverse lookup IP/port to service name""" |
| 1409 | data = _net_read(file) |
| 1410 | for svc_name, svc in data.items(): |
| 1411 | if svc.get('ip') != ip: |
| 1412 | continue |
| 1413 | if not port: |
| 1414 | print(svc_name) |
| 1415 | return |
| 1416 | for port_name, port_def in svc.get('ports', {}).items(): |
| 1417 | if (str(port_def.get('port','')) == str(port) and |
| 1418 | port_def.get('proto','tcp') == proto): |
| 1419 | print(f"{svc_name}:{port_name}") |
| 1420 | return |
| 1421 | # IP matched but no port match — return service name |
| 1422 | print(svc_name) |
| 1423 | return |
| 1424 | |
| 1425 | def block_is_empty(file): |
| 1426 | data = _block_read(file) |
| 1427 | if not data: |
| 1428 | print("true") |
| 1429 | return |
| 1430 | empty = ( |
| 1431 | not data.get("blocked_direct", False) and |
| 1432 | not data.get("blocked_by_groups", []) and |
| 1433 | not data.get("rules", []) and |
| 1434 | not data.get("services", []) |
| 1435 | ) |
| 1436 | print("true" if empty else "false") |
| 1437 | |
| 1438 | def group_has_peer(file, peer_name): |
| 1439 | try: |
| 1440 | with open(file) as f: |
| 1441 | data = json.load(f) |
| 1442 | peers = data.get('peers', []) |
| 1443 | print('true' if peer_name in peers else 'false') |
| 1444 | except Exception: |
| 1445 | print('false') |
| 1446 | |
| 1447 | # ============================================ |
| 1448 | # Subnet Map |
| 1449 | # ============================================ |
| 1450 | |
| 1451 | def _subnet_read(file): |
| 1452 | """Read subnets.json, return dict or empty dict""" |
| 1453 | try: |
| 1454 | if not os.path.exists(file): |
| 1455 | return {} |
| 1456 | with open(file) as f: |
| 1457 | content = f.read().strip() |
| 1458 | if not content: |
| 1459 | return {} |
| 1460 | return json.loads(content) |
| 1461 | except Exception: |
| 1462 | return {} |
| 1463 | |
| 1464 | def _subnet_write(file, data): |
| 1465 | """Write subnets.json""" |
| 1466 | os.makedirs(os.path.dirname(file), exist_ok=True) |
| 1467 | with open(file, 'w') as f: |
| 1468 | json.dump(data, f, indent=2) |
| 1469 | |
| 1470 | def _subnet_is_group(entry): |
| 1471 | """Return True if a subnet entry is a nested group (like 'guests')""" |
| 1472 | return isinstance(entry, dict) and 'subnet' not in entry |
| 1473 | |
| 1474 | def subnet_lookup(file, name, type_key=''): |
| 1475 | """ |
| 1476 | Resolve a subnet name (and optional type) to a CIDR string. |
| 1477 | For scalar entries: subnet_lookup(file, "desktop") -> "10.1.1.0/24" |
| 1478 | For group entries: subnet_lookup(file, "guests", "phone") -> "10.1.103.0/24" |
| 1479 | For group with no type: subnet_lookup(file, "guests") -> "10.1.100.0/24" (none slot) |
| 1480 | Prints the CIDR on success, nothing and exits 1 on failure. |
| 1481 | """ |
| 1482 | data = _subnet_read(file) |
| 1483 | if name not in data: |
| 1484 | sys.exit(1) |
| 1485 | entry = data[name] |
| 1486 | if _subnet_is_group(entry): |
| 1487 | key = type_key if type_key else 'none' |
| 1488 | if key not in entry: |
| 1489 | sys.exit(1) |
| 1490 | print(entry[key]['subnet']) |
| 1491 | else: |
| 1492 | print(entry['subnet']) |
| 1493 | |
| 1494 | def subnet_type(file, name, type_key=''): |
| 1495 | """ |
| 1496 | Return the type string for a subnet entry. |
| 1497 | For scalar: subnet_type(file, "desktop") -> "desktop" |
| 1498 | For group: subnet_type(file, "guests", "phone") -> "phone" |
| 1499 | subnet_type(file, "guests") -> "none" |
| 1500 | """ |
| 1501 | data = _subnet_read(file) |
| 1502 | if name not in data: |
| 1503 | sys.exit(1) |
| 1504 | entry = data[name] |
| 1505 | if _subnet_is_group(entry): |
| 1506 | key = type_key if type_key else 'none' |
| 1507 | if key not in entry: |
| 1508 | sys.exit(1) |
| 1509 | # For group entries the type IS the child key |
| 1510 | print(key if key != 'none' else 'none') |
| 1511 | else: |
| 1512 | print(entry.get('type', name)) |
| 1513 | |
| 1514 | def subnet_tunnel_mode(file, name, type_key=''): |
| 1515 | """Return tunnel_mode for a subnet entry""" |
| 1516 | data = _subnet_read(file) |
| 1517 | if name not in data: |
| 1518 | print('split') # safe default |
| 1519 | return |
| 1520 | entry = data[name] |
| 1521 | if _subnet_is_group(entry): |
| 1522 | key = type_key if type_key else 'none' |
| 1523 | child = entry.get(key, {}) |
| 1524 | print(child.get('tunnel_mode', 'split')) |
| 1525 | else: |
| 1526 | print(entry.get('tunnel_mode', 'split')) |
| 1527 | |
| 1528 | def subnet_for_ip(file, ip): |
| 1529 | """ |
| 1530 | Reverse lookup: given a peer IP, find which subnet name (and type) it belongs to. |
| 1531 | Output: name|type (e.g. "guests|phone" or "desktop|desktop") |
| 1532 | Returns nothing (exit 0) if not found — caller falls back to hardcoded map. |
| 1533 | """ |
| 1534 | import ipaddress |
| 1535 | try: |
| 1536 | peer_addr = ipaddress.ip_address(ip) |
| 1537 | except ValueError: |
| 1538 | return |
| 1539 | |
| 1540 | data = _subnet_read(file) |
| 1541 | for name, entry in data.items(): |
| 1542 | if _subnet_is_group(entry): |
| 1543 | for type_key, child in entry.items(): |
| 1544 | try: |
| 1545 | network = ipaddress.ip_network(child['subnet'], strict=False) |
| 1546 | if peer_addr in network: |
| 1547 | print(f"{name}|{type_key}") |
| 1548 | return |
| 1549 | except Exception: |
| 1550 | continue |
| 1551 | else: |
| 1552 | try: |
| 1553 | network = ipaddress.ip_network(entry['subnet'], strict=False) |
| 1554 | if peer_addr in network: |
| 1555 | peer_type = entry.get('type', name) |
| 1556 | print(f"{name}|{peer_type}") |
| 1557 | return |
| 1558 | except Exception: |
| 1559 | continue |
| 1560 | |
| 1561 | def subnet_list(file): |
| 1562 | """ |
| 1563 | List all subnets for display. |
| 1564 | Output per line: name|subnet|type|tunnel_mode|desc|is_group |
| 1565 | For group entries, outputs one line per child: name.type|subnet|type|tunnel_mode|desc|true |
| 1566 | """ |
| 1567 | data = _subnet_read(file) |
| 1568 | for name, entry in data.items(): |
| 1569 | if _subnet_is_group(entry): |
| 1570 | for type_key, child in entry.items(): |
| 1571 | display_name = f"{name}.{type_key}" if type_key != 'none' else name |
| 1572 | print(f"{display_name}|{child.get('subnet','')}|" |
| 1573 | f"{type_key}|{child.get('tunnel_mode','split')}|" |
| 1574 | f"{child.get('desc','')}|true|{name}") |
| 1575 | else: |
| 1576 | print(f"{name}|{entry.get('subnet','')}|" |
| 1577 | f"{entry.get('type',name)}|{entry.get('tunnel_mode','split')}|" |
| 1578 | f"{entry.get('desc','')}|false|{name}") |
| 1579 | |
| 1580 | def subnet_show(file, name): |
| 1581 | """Show a single subnet entry (scalar or group) in detail""" |
| 1582 | data = _subnet_read(file) |
| 1583 | if name not in data: |
| 1584 | print(f"Error: Subnet '{name}' not found", file=sys.stderr) |
| 1585 | sys.exit(1) |
| 1586 | entry = data[name] |
| 1587 | if _subnet_is_group(entry): |
| 1588 | print(f"name|{name}") |
| 1589 | print(f"is_group|true") |
| 1590 | for type_key, child in entry.items(): |
| 1591 | print(f"child|{type_key}|{child.get('subnet','')}|" |
| 1592 | f"{child.get('tunnel_mode','split')}|{child.get('desc','')}") |
| 1593 | else: |
| 1594 | print(f"name|{name}") |
| 1595 | print(f"is_group|false") |
| 1596 | print(f"subnet|{entry.get('subnet','')}") |
| 1597 | print(f"type|{entry.get('type',name)}") |
| 1598 | print(f"tunnel_mode|{entry.get('tunnel_mode','split')}") |
| 1599 | print(f"desc|{entry.get('desc','')}") |
| 1600 | |
| 1601 | def subnet_add(file, name, subnet, type_key, tunnel_mode, desc, group_parent=''): |
| 1602 | """ |
| 1603 | Add a new subnet entry. |
| 1604 | If group_parent is set, adds as a child under that group key. |
| 1605 | Otherwise adds as a scalar entry. |
| 1606 | """ |
| 1607 | data = _subnet_read(file) |
| 1608 | entry = { |
| 1609 | 'subnet': subnet, |
| 1610 | 'tunnel_mode': tunnel_mode or 'split', |
| 1611 | 'desc': desc or '' |
| 1612 | } |
| 1613 | if group_parent: |
| 1614 | # Adding a child to an existing group, or creating a new group |
| 1615 | if group_parent not in data: |
| 1616 | data[group_parent] = {} |
| 1617 | elif not _subnet_is_group(data[group_parent]): |
| 1618 | print(f"Error: '{group_parent}' exists but is not a group", file=sys.stderr) |
| 1619 | sys.exit(1) |
| 1620 | data[group_parent][type_key or 'none'] = entry |
| 1621 | else: |
| 1622 | # Scalar entry — type stored explicitly |
| 1623 | entry['type'] = type_key or name |
| 1624 | data[name] = entry |
| 1625 | _subnet_write(file, data) |
| 1626 | |
| 1627 | def subnet_remove(file, name, peers_using): |
| 1628 | """ |
| 1629 | Remove a subnet entry. peers_using is a comma-separated list of peer names |
| 1630 | currently using this subnet (passed in from bash after meta scan). |
| 1631 | If non-empty, refuses with error. |
| 1632 | """ |
| 1633 | if peers_using: |
| 1634 | peers = [p for p in peers_using.split(',') if p] |
| 1635 | if peers: |
| 1636 | print(f"Error: Subnet '{name}' is in use by: {', '.join(peers)}", file=sys.stderr) |
| 1637 | sys.exit(1) |
| 1638 | data = _subnet_read(file) |
| 1639 | if '.' in name: |
| 1640 | # Removing a group child: e.g. "guests.phone" |
| 1641 | parent, child_key = name.split('.', 1) |
| 1642 | if parent not in data or not _subnet_is_group(data[parent]): |
| 1643 | print(f"Error: Group '{parent}' not found", file=sys.stderr) |
| 1644 | sys.exit(1) |
| 1645 | if child_key not in data[parent]: |
| 1646 | print(f"Error: '{child_key}' not found in group '{parent}'", file=sys.stderr) |
| 1647 | sys.exit(1) |
| 1648 | del data[parent][child_key] |
| 1649 | if not data[parent]: |
| 1650 | del data[parent] # remove empty group |
| 1651 | else: |
| 1652 | if name not in data: |
| 1653 | print(f"Error: Subnet '{name}' not found", file=sys.stderr) |
| 1654 | sys.exit(1) |
| 1655 | del data[name] |
| 1656 | _subnet_write(file, data) |
| 1657 | |
| 1658 | def subnet_rename(file, old_name, new_name, peers_using): |
| 1659 | """ |
| 1660 | Rename a subnet entry. Hard refusal if any peers reference it. |
| 1661 | peers_using: comma-separated peer names from bash meta scan. |
| 1662 | """ |
| 1663 | if peers_using: |
| 1664 | peers = [p for p in peers_using.split(',') if p] |
| 1665 | if peers: |
| 1666 | print(f"Error: Cannot rename subnet '{old_name}' — in use by: {', '.join(peers)}", file=sys.stderr) |
| 1667 | sys.exit(1) |
| 1668 | data = _subnet_read(file) |
| 1669 | if old_name not in data: |
| 1670 | print(f"Error: Subnet '{old_name}' not found", file=sys.stderr) |
| 1671 | sys.exit(1) |
| 1672 | if new_name in data: |
| 1673 | print(f"Error: Subnet '{new_name}' already exists", file=sys.stderr) |
| 1674 | sys.exit(1) |
| 1675 | data[new_name] = data.pop(old_name) |
| 1676 | _subnet_write(file, data) |
| 1677 | |
| 1678 | def subnet_peers(meta_dir, clients_dir, subnet_name, subnets_file): |
| 1679 | """ |
| 1680 | Find all peers using a subnet. |
| 1681 | Two-pass check: |
| 1682 | 1. Meta field: peer has "subnet": subnet_name in their .meta file |
| 1683 | 2. IP fallback: peer's IP falls within the subnet's CIDR(s) |
| 1684 | (catches peers added before meta stored subnet explicitly) |
| 1685 | Output: one peer name per line. |
| 1686 | """ |
| 1687 | import glob |
| 1688 | import ipaddress |
| 1689 | |
| 1690 | # Resolve all CIDRs covered by this subnet name |
| 1691 | data = _subnet_read(subnets_file) |
| 1692 | cidrs = [] |
| 1693 | if subnet_name in data: |
| 1694 | entry = data[subnet_name] |
| 1695 | if _subnet_is_group(entry): |
| 1696 | for child in entry.values(): |
| 1697 | try: |
| 1698 | cidrs.append(ipaddress.ip_network(child['subnet'], strict=False)) |
| 1699 | except Exception: |
| 1700 | pass |
| 1701 | else: |
| 1702 | try: |
| 1703 | cidrs.append(ipaddress.ip_network(entry['subnet'], strict=False)) |
| 1704 | except Exception: |
| 1705 | pass |
| 1706 | |
| 1707 | printed = set() |
| 1708 | |
| 1709 | for conf in sorted(glob.glob(f"{clients_dir}/*.conf")): |
| 1710 | peer_name = os.path.basename(conf).replace('.conf', '') |
| 1711 | |
| 1712 | # Pass 1: check meta field |
| 1713 | meta_file = os.path.join(meta_dir, f"{peer_name}.meta") |
| 1714 | try: |
| 1715 | with open(meta_file) as f: |
| 1716 | meta = json.load(f) |
| 1717 | if meta.get('subnet', '') == subnet_name: |
| 1718 | if peer_name not in printed: |
| 1719 | print(peer_name) |
| 1720 | printed.add(peer_name) |
| 1721 | continue |
| 1722 | except Exception: |
| 1723 | pass |
| 1724 | |
| 1725 | # Pass 2: IP reverse lookup against subnet CIDRs |
| 1726 | if not cidrs: |
| 1727 | continue |
| 1728 | |
| 1729 | peer_ip = '' |
| 1730 | try: |
| 1731 | with open(conf) as f: |
| 1732 | for line in f: |
| 1733 | if line.startswith('Address'): |
| 1734 | peer_ip = line.split('=')[1].strip().split('/')[0] |
| 1735 | break |
| 1736 | except Exception: |
| 1737 | continue |
| 1738 | |
| 1739 | if not peer_ip: |
| 1740 | continue |
| 1741 | |
| 1742 | try: |
| 1743 | addr = ipaddress.ip_address(peer_ip) |
| 1744 | if any(addr in cidr for cidr in cidrs): |
| 1745 | if peer_name not in printed: |
| 1746 | print(peer_name) |
| 1747 | printed.add(peer_name) |
| 1748 | except Exception: |
| 1749 | continue |
| 1750 | |
| 1751 | |
| 1752 | def subnet_exists(file, name): |
| 1753 | """Check if a subnet name exists (scalar or group). Exits 0/1.""" |
| 1754 | data = _subnet_read(file) |
| 1755 | if '.' in name: |
| 1756 | parent, child_key = name.split('.', 1) |
| 1757 | exists = parent in data and _subnet_is_group(data[parent]) and child_key in data[parent] |
| 1758 | else: |
| 1759 | exists = name in data |
| 1760 | sys.exit(0 if exists else 1) |
| 1761 | |
| 1762 | |
| 1763 | # ============================================ |
| 1764 | # Identity System |
| 1765 | # ============================================ |
| 1766 | |
| 1767 | def _identity_read(file): |
| 1768 | """Read an identity file, return dict or None""" |
| 1769 | try: |
| 1770 | if not os.path.exists(file): |
| 1771 | return None |
| 1772 | with open(file) as f: |
| 1773 | content = f.read().strip() |
| 1774 | if not content: |
| 1775 | return None |
| 1776 | return json.loads(content) |
| 1777 | except Exception: |
| 1778 | return None |
| 1779 | |
| 1780 | def _identity_write(file, data): |
| 1781 | """Write an identity file""" |
| 1782 | os.makedirs(os.path.dirname(file), exist_ok=True) |
| 1783 | with open(file, 'w') as f: |
| 1784 | json.dump(data, f, indent=2) |
| 1785 | |
| 1786 | def _identity_init(name): |
| 1787 | """Return empty identity structure""" |
| 1788 | return { |
| 1789 | 'name': name, |
| 1790 | 'peers': [], |
| 1791 | 'devices': {} |
| 1792 | } |
| 1793 | |
| 1794 | def _parse_peer_name(peer_name): |
| 1795 | """ |
| 1796 | Parse a peer name into (type, identity, index). |
| 1797 | phone-nuno -> ('phone', 'nuno', 1) |
| 1798 | phone-nuno-2 -> ('phone', 'nuno', 2) |
| 1799 | desktop-zephyr -> ('desktop', 'zephyr', 1) |
| 1800 | laptop-nuno -> ('laptop', 'nuno', 1) |
| 1801 | Returns None if name doesn't match convention. |
| 1802 | |
| 1803 | Convention: {type}-{identity}[-{index}] |
| 1804 | Known types: desktop, laptop, phone, tablet, server, iot, none |
| 1805 | """ |
| 1806 | known_types = {'desktop', 'laptop', 'phone', 'tablet', 'server', 'iot', 'none'} |
| 1807 | parts = peer_name.split('-') |
| 1808 | if len(parts) < 2: |
| 1809 | return None |
| 1810 | peer_type = parts[0] |
| 1811 | if peer_type not in known_types: |
| 1812 | return None |
| 1813 | # Check if last part is a numeric index |
| 1814 | if len(parts) >= 3 and parts[-1].isdigit(): |
| 1815 | index = int(parts[-1]) |
| 1816 | identity = '-'.join(parts[1:-1]) |
| 1817 | else: |
| 1818 | index = 1 |
| 1819 | identity = '-'.join(parts[1:]) |
| 1820 | if not identity: |
| 1821 | return None |
| 1822 | return (peer_type, identity, index) |
| 1823 | |
| 1824 | def identity_list(identities_dir): |
| 1825 | """List all identities with peer count""" |
| 1826 | import glob |
| 1827 | for id_file in sorted(glob.glob(f"{identities_dir}/*.identity")): |
| 1828 | try: |
| 1829 | with open(id_file) as f: |
| 1830 | data = json.load(f) |
| 1831 | name = data.get('name', '') |
| 1832 | peers = data.get('peers', []) |
| 1833 | devices = data.get('devices', {}) |
| 1834 | types = sorted(set(d.get('type', '') for d in devices.values() if d.get('type'))) |
| 1835 | print(f"{name}|{len(peers)}|{','.join(types)}") |
| 1836 | except Exception: |
| 1837 | continue |
| 1838 | |
| 1839 | def identity_show(file): |
| 1840 | """Show identity details""" |
| 1841 | data = _identity_read(file) |
| 1842 | if not data: |
| 1843 | print("Error: Identity not found", file=sys.stderr) |
| 1844 | sys.exit(1) |
| 1845 | print(f"name|{data.get('name','')}") |
| 1846 | print(f"peer_count|{len(data.get('peers',[]))}") |
| 1847 | for peer_name, dev in data.get('devices', {}).items(): |
| 1848 | print(f"device|{peer_name}|{dev.get('type','')}|{dev.get('index',1)}") |
| 1849 | |
| 1850 | def identity_add_peer(file, identity_name, peer_name, peer_type, index): |
| 1851 | """Add a peer to an identity file, creating it if needed""" |
| 1852 | data = _identity_read(file) or _identity_init(identity_name) |
| 1853 | if peer_name not in data['peers']: |
| 1854 | data['peers'].append(peer_name) |
| 1855 | data['devices'][peer_name] = { |
| 1856 | 'type': peer_type, |
| 1857 | 'index': int(index) |
| 1858 | } |
| 1859 | _identity_write(file, data) |
| 1860 | |
| 1861 | def identity_remove_peer(file, peer_name): |
| 1862 | """Remove a peer from an identity file""" |
| 1863 | data = _identity_read(file) |
| 1864 | if not data: |
| 1865 | return |
| 1866 | data['peers'] = [p for p in data['peers'] if p != peer_name] |
| 1867 | data['devices'].pop(peer_name, None) |
| 1868 | _identity_write(file, data) |
| 1869 | |
| 1870 | def identity_remove(file): |
| 1871 | """Delete an identity file — existence check done in bash""" |
| 1872 | try: |
| 1873 | os.remove(file) |
| 1874 | except Exception as e: |
| 1875 | print(f"Error: {e}", file=sys.stderr) |
| 1876 | sys.exit(1) |
| 1877 | |
| 1878 | def identity_next_index(file, peer_type): |
| 1879 | """ |
| 1880 | Return the next available index for a given type within an identity. |
| 1881 | phone-nuno exists (index 1) -> returns 2 |
| 1882 | No phones exist -> returns 1 |
| 1883 | """ |
| 1884 | data = _identity_read(file) |
| 1885 | if not data: |
| 1886 | print(1) |
| 1887 | return |
| 1888 | existing = [ |
| 1889 | d.get('index', 1) |
| 1890 | for d in data.get('devices', {}).values() |
| 1891 | if d.get('type') == peer_type |
| 1892 | ] |
| 1893 | if not existing: |
| 1894 | print(1) |
| 1895 | return |
| 1896 | # Find lowest unused index starting from 1 |
| 1897 | used = set(existing) |
| 1898 | i = 1 |
| 1899 | while i in used: |
| 1900 | i += 1 |
| 1901 | print(i) |
| 1902 | |
| 1903 | def identity_peers(file, filter_type=''): |
| 1904 | """ |
| 1905 | List peers belonging to an identity, optionally filtered by type. |
| 1906 | Output: one peer name per line. |
| 1907 | """ |
| 1908 | data = _identity_read(file) |
| 1909 | if not data: |
| 1910 | return |
| 1911 | for peer_name in data.get('peers', []): |
| 1912 | if filter_type: |
| 1913 | dev = data.get('devices', {}).get(peer_name, {}) |
| 1914 | if dev.get('type') != filter_type: |
| 1915 | continue |
| 1916 | print(peer_name) |
| 1917 | |
| 1918 | def identity_migrate(identities_dir, clients_dir, meta_dir, dry_run): |
| 1919 | """ |
| 1920 | Scan all peer configs and auto-create identity files from name convention. |
| 1921 | dry_run: 'true' -> print what would be done, no writes. |
| 1922 | Output per action: action|identity|peer|type|index |
| 1923 | """ |
| 1924 | import glob |
| 1925 | |
| 1926 | is_dry = dry_run == 'true' |
| 1927 | grouped = {} # identity_name -> [(peer_name, type, index)] |
| 1928 | |
| 1929 | for conf in sorted(glob.glob(f"{clients_dir}/*.conf")): |
| 1930 | peer_name = os.path.basename(conf).replace('.conf', '') |
| 1931 | parsed = _parse_peer_name(peer_name) |
| 1932 | if not parsed: |
| 1933 | print(f"skip|{peer_name}") |
| 1934 | continue |
| 1935 | peer_type, identity_name, index = parsed |
| 1936 | if identity_name not in grouped: |
| 1937 | grouped[identity_name] = [] |
| 1938 | grouped[identity_name].append((peer_name, peer_type, index)) |
| 1939 | |
| 1940 | for identity_name, peers in sorted(grouped.items()): |
| 1941 | id_file = os.path.join(identities_dir, f"{identity_name}.identity") |
| 1942 | for peer_name, peer_type, index in peers: |
| 1943 | print(f"create|{identity_name}|{peer_name}|{peer_type}|{index}") |
| 1944 | if not is_dry: |
| 1945 | identity_add_peer(id_file, identity_name, peer_name, peer_type, index) |
| 1946 | |
| 1947 | def identity_infer(peer_name): |
| 1948 | """ |
| 1949 | Parse a peer name and print identity|type|index, or nothing if no match. |
| 1950 | Used by add.command.sh to auto-attach on vanilla wgctl add. |
| 1951 | """ |
| 1952 | parsed = _parse_peer_name(peer_name) |
| 1953 | if parsed: |
| 1954 | peer_type, identity_name, index = parsed |
| 1955 | print(f"{identity_name}|{peer_type}|{index}") |
| 1956 | |
| 1957 | def identity_exists(file): |
| 1958 | """Exit 0 if identity file exists and is valid, else exit 1""" |
| 1959 | data = _identity_read(file) |
| 1960 | sys.exit(0 if data is not None else 1) |
| 1961 | |
| 1962 | # ============================================ |
| 1963 | # peer_data update — adds type field from meta |
| 1964 | # ============================================ |
| 1965 | # NOTE: This replaces the existing peer_data function. |
| 1966 | # The new version reads 'type' from meta directly instead of inferring from subtype. |
| 1967 | # Output format: name|ip|rule|type|last_ts|last_evt|main_group |
| 1968 | # (field 4 is now 'type' instead of 'subtype') |
| 1969 | |
| 1970 | def peer_data(clients_dir, meta_dir, events_log): |
| 1971 | """ |
| 1972 | Updated peer_data that reads 'type' from meta instead of 'subtype'. |
| 1973 | Output: name|ip|rule|type|last_ts|last_evt|main_group |
| 1974 | """ |
| 1975 | import glob |
| 1976 | |
| 1977 | meta = {} |
| 1978 | for f in glob.glob(f"{meta_dir}/*.meta"): |
| 1979 | name = os.path.basename(f).replace('.meta', '') |
| 1980 | try: |
| 1981 | with open(f) as mf: |
| 1982 | meta[name] = json.load(mf) |
| 1983 | except Exception: |
| 1984 | meta[name] = {} |
| 1985 | |
| 1986 | last_events = {} |
| 1987 | try: |
| 1988 | with open(events_log) as f: |
| 1989 | for line in f: |
| 1990 | try: |
| 1991 | e = json.loads(line.strip()) |
| 1992 | client = e.get('client', '') |
| 1993 | if client: |
| 1994 | last_events[client] = e |
| 1995 | except Exception: |
| 1996 | pass |
| 1997 | except Exception: |
| 1998 | pass |
| 1999 | |
| 2000 | for conf in sorted(glob.glob(f"{clients_dir}/*.conf")): |
| 2001 | name = os.path.basename(conf).replace('.conf', '') |
| 2002 | ip = '' |
| 2003 | try: |
| 2004 | with open(conf) as f: |
| 2005 | for line in f: |
| 2006 | if line.startswith('Address'): |
| 2007 | ip = line.split('=')[1].strip().split('/')[0] |
| 2008 | break |
| 2009 | except Exception: |
| 2010 | pass |
| 2011 | |
| 2012 | m = meta.get(name, {}) |
| 2013 | rule = m.get('rule', '') |
| 2014 | peer_type = m.get('type', '') |
| 2015 | main_group = m.get('main_group', '') |
| 2016 | |
| 2017 | last_event = last_events.get(name, {}) |
| 2018 | last_ts = last_event.get('timestamp', '') |
| 2019 | last_evt = last_event.get('event', '') |
| 2020 | |
| 2021 | print(f"{name}|{ip}|{rule}|{peer_type}|{last_ts}|{last_evt}|{main_group}") |
| 2022 | |
| 2023 | def subnet_default_rule(file, name, type_key=''): |
| 2024 | """ |
| 2025 | Return the default_rule for a subnet entry, or empty string if none set. |
| 2026 | For scalar: subnet_default_rule(file, "desktop") -> "" |
| 2027 | For group: subnet_default_rule(file, "guests", "phone") -> "guest" |
| 2028 | """ |
| 2029 | data = _subnet_read(file) |
| 2030 | if name not in data: |
| 2031 | print('') |
| 2032 | return |
| 2033 | entry = data[name] |
| 2034 | if _subnet_is_group(entry): |
| 2035 | key = type_key if type_key else 'none' |
| 2036 | child = entry.get(key, {}) |
| 2037 | print(child.get('default_rule', '')) |
| 2038 | else: |
| 2039 | print(entry.get('default_rule', '')) |
| 2040 | |
| 2041 | def subnet_list_names(file): |
| 2042 | """ |
| 2043 | List all top-level subnet names, one per line. |
| 2044 | Used for dynamic flag registration in commands. |
| 2045 | Output: one name per line (e.g. desktop, laptop, guests, servers, iot) |
| 2046 | """ |
| 2047 | data = _subnet_read(file) |
| 2048 | for name in data.keys(): |
| 2049 | print(name) |
| 2050 | |
| 2051 | |
| 2052 | commands = { |
| 2053 | 'get': lambda args: get(args[0], args[1]), |
| 2054 | 'set': lambda args: set_key(args[0], args[1], args[2]), |
| 2055 | 'delete': lambda args: delete_key(args[0], args[1]), |
| 2056 | 'append': lambda args: append(args[0], args[1], args[2]), |
| 2057 | 'remove': lambda args: remove_value(args[0], args[1], args[2]), |
| 2058 | 'cat': lambda args: cat(args[0]), |
| 2059 | 'has_key': lambda args: has_key(args[0], args[1]), |
| 2060 | 'filter_values': lambda args: filter_values(args[0], args[1], args[2]), |
| 2061 | 'last_event': lambda args: last_event(args[0], args[1], args[2], args[3]), |
| 2062 | 'events_for': lambda args: events_for(args[0], args[1], args[2]), |
| 2063 | 'fw_events': lambda args: fw_events(args[0], args[1], args[2], args[3], args[4]), |
| 2064 | 'wg_events': lambda args: wg_events(args[0], args[1], args[2], args[3]), |
| 2065 | 'format_fw_event': lambda args: format_fw_event(sys.stdin.read(), args[0]), |
| 2066 | 'format_wg_event': lambda args: format_wg_event(sys.stdin.read()), |
| 2067 | 'remove_events': lambda args: remove_events(args[0], args[1]), |
| 2068 | 'follow_logs': lambda args: follow_logs(args[0], args[1], args[2], args[3], args[4], args[5]), |
| 2069 | 'count': lambda args: count(args[0], args[1]), |
| 2070 | 'audit_fw_counts': lambda args: audit_fw_counts(args[0]), |
| 2071 | 'peer_group_map': lambda args: peer_group_map(args[0]), |
| 2072 | 'peer_groups': lambda args: peer_groups(args[0], args[1]), |
| 2073 | 'peer_data': lambda args: peer_data(args[0], args[1], args[2]), |
| 2074 | 'iso_to_ts': lambda args: iso_to_ts(args[0]), |
| 2075 | 'rule_list_data': lambda args: rule_list_data(args[0], args[1]), |
| 2076 | 'group_list_data': lambda args: group_list_data(args[0], args[1]), |
| 2077 | 'fmt_datetime': lambda args: fmt_datetime(args[0], args[1]), |
| 2078 | 'create_rule': lambda args: create_rule( |
| 2079 | args[0], args[1], args[2], args[3], args[4], args[5], args[6], |
| 2080 | args[7] if len(args) > 7 else '', |
| 2081 | args[8] if len(args) > 8 else '', |
| 2082 | args[9] if len(args) > 9 else '' |
| 2083 | ), |
| 2084 | 'cleanup_config': lambda args: cleanup_config(args[0]), |
| 2085 | 'remove_peer_block': lambda args: remove_peer_block(args[0], args[1]), |
| 2086 | 'create_group': lambda args: create_group(args[0], args[1], args[2]), |
| 2087 | 'parse_event': lambda args: parse_event(args[0]), |
| 2088 | 'parse_fw_event': lambda args: parse_fw_event(args[0]), |
| 2089 | 'peer_transfer': lambda args: peer_transfer(args[0]), |
| 2090 | 'remove_events_filtered': lambda args: remove_events_filtered( |
| 2091 | args[0], args[1], args[2], args[3], args[4]=='true', args[5]=='true', args[6] if len(args)>6 else ''), |
| 2092 | 'peer_transfer': lambda args: peer_transfer(args[0]), |
| 2093 | 'peer_transfer_delta': lambda args: peer_transfer_delta(args[0], args[1]), |
| 2094 | 'rule_resolve': lambda args: rule_resolve(args[0], args[1]), |
| 2095 | 'rule_resolve_field': lambda args: rule_resolve_field(args[0], args[1], args[2]), |
| 2096 | 'rule_inspect': lambda args: rule_inspect(args[0], args[1]), |
| 2097 | 'find_rule_file': lambda args: print(find_rule_file(args[0], args[1])), |
| 2098 | 'get_raw': lambda args: print(get_raw(args[0], args[1])), |
| 2099 | 'count_resolved': lambda args: count_resolved(args[0], args[1], args[2]), |
| 2100 | 'block_get': lambda args: block_get(args[0]), |
| 2101 | 'block_is_blocked': lambda args: block_is_blocked(args[0]), |
| 2102 | 'block_set_direct': lambda args: block_set_direct(args[0], args[1], args[2]), |
| 2103 | 'block_add_group': lambda args: block_add_group(args[0], args[1], args[2]), |
| 2104 | 'block_remove_group': lambda args: block_remove_group(args[0], args[1], args[2]), |
| 2105 | 'block_add_rule': lambda args: block_add_rule( |
| 2106 | args[0], args[1], args[2], |
| 2107 | args[3] if len(args) > 3 else '', |
| 2108 | args[4] if len(args) > 4 else '', |
| 2109 | args[5] if len(args) > 5 else '', |
| 2110 | args[6] if len(args) > 6 else '' |
| 2111 | ), |
| 2112 | 'block_remove_rule': lambda args: block_remove_rule( |
| 2113 | args[0], args[1], |
| 2114 | args[2] if len(args) > 2 else '', |
| 2115 | args[3] if len(args) > 3 else '', |
| 2116 | args[4] if len(args) > 4 else '' |
| 2117 | ), |
| 2118 | 'block_get_rules': lambda args: block_get_rules(args[0]), |
| 2119 | 'block_get_groups': lambda args: block_get_groups(args[0]), |
| 2120 | 'block_get_direct': lambda args: block_get_direct(args[0]), |
| 2121 | 'net_list': lambda args: net_list(args[0]), |
| 2122 | 'net_show': lambda args: net_show(args[0], args[1]), |
| 2123 | 'net_exists': lambda args: net_exists(args[0], args[1]), |
| 2124 | 'net_add_service': lambda args: net_add_service( |
| 2125 | args[0], args[1], args[2], |
| 2126 | args[3] if len(args) > 3 else '', |
| 2127 | args[4] if len(args) > 4 else '' |
| 2128 | ), |
| 2129 | 'net_add_port': lambda args: net_add_port( |
| 2130 | args[0], args[1], args[2], args[3], |
| 2131 | args[4] if len(args) > 4 else 'tcp', |
| 2132 | args[5] if len(args) > 5 else '' |
| 2133 | ), |
| 2134 | 'net_remove': lambda args: net_remove(args[0], args[1]), |
| 2135 | 'net_resolve': lambda args: net_resolve(args[0], args[1]), |
| 2136 | 'net_reverse_lookup': lambda args: net_reverse_lookup( |
| 2137 | args[0], args[1], |
| 2138 | args[2] if len(args) > 2 else '', |
| 2139 | args[3] if len(args) > 3 else '' |
| 2140 | ), |
| 2141 | 'block_is_empty': lambda args: block_is_empty(args[0]), |
| 2142 | 'group_has_peer': lambda args: group_has_peer(args[0], args[1]), |
| 2143 | |
| 2144 | # Subnet commands: |
| 2145 | 'subnet_lookup': lambda args: subnet_lookup(args[0], args[1], args[2] if len(args) > 2 else ''), |
| 2146 | 'subnet_type': lambda args: subnet_type(args[0], args[1], args[2] if len(args) > 2 else ''), |
| 2147 | 'subnet_tunnel_mode': lambda args: subnet_tunnel_mode(args[0], args[1], args[2] if len(args) > 2 else ''), |
| 2148 | 'subnet_for_ip': lambda args: subnet_for_ip(args[0], args[1]), |
| 2149 | 'subnet_list': lambda args: subnet_list(args[0]), |
| 2150 | 'subnet_show': lambda args: subnet_show(args[0], args[1]), |
| 2151 | 'subnet_add': lambda args: subnet_add( |
| 2152 | args[0], args[1], args[2], args[3], |
| 2153 | args[4] if len(args) > 4 else 'split', |
| 2154 | args[5] if len(args) > 5 else '', |
| 2155 | args[6] if len(args) > 6 else '' |
| 2156 | ), |
| 2157 | 'subnet_remove': lambda args: subnet_remove(args[0], args[1], args[2] if len(args) > 2 else ''), |
| 2158 | 'subnet_rename': lambda args: subnet_rename(args[0], args[1], args[2], args[3] if len(args) > 3 else ''), |
| 2159 | 'subnet_peers': lambda args: subnet_peers(args[0], args[1], args[2], args[3]), |
| 2160 | 'subnet_exists': lambda args: subnet_exists(args[0], args[1]), |
| 2161 | |
| 2162 | # Identity commands: |
| 2163 | 'identity_list': lambda args: identity_list(args[0]), |
| 2164 | 'identity_show': lambda args: identity_show(args[0]), |
| 2165 | 'identity_add_peer': lambda args: identity_add_peer(args[0], args[1], args[2], args[3], args[4]), |
| 2166 | 'identity_remove_peer':lambda args: identity_remove_peer(args[0], args[1]), |
| 2167 | 'identity_remove': lambda args: identity_remove(args[0]), |
| 2168 | 'identity_next_index': lambda args: identity_next_index(args[0], args[1]), |
| 2169 | 'identity_peers': lambda args: identity_peers(args[0], args[1] if len(args) > 1 else ''), |
| 2170 | 'identity_migrate': lambda args: identity_migrate(args[0], args[1], args[2], args[3]), |
| 2171 | 'identity_infer': lambda args: identity_infer(args[0]), |
| 2172 | 'identity_exists': lambda args: identity_exists(args[0]), |
| 2173 | 'subnet_default_rule': lambda args: subnet_default_rule(args[0], args[1], args[2] if len(args) > 2 else ''), |
| 2174 | 'subnet_list_names': lambda args: subnet_list_names(args[0]), |
| 2175 | } |
| 2176 | |
| 2177 | if __name__ == '__main__': |
| 2178 | if len(sys.argv) < 2: |
| 2179 | print("Usage: json_helper.py <command> <file> [key] [value]", file=sys.stderr) |
| 2180 | sys.exit(1) |
| 2181 | |
| 2182 | cmd = sys.argv[1] |
| 2183 | args = sys.argv[2:] |
| 2184 | |
| 2185 | if cmd not in commands: |
| 2186 | print(f"Unknown command: {cmd}", file=sys.stderr) |
| 2187 | sys.exit(1) |
| 2188 | |
| 2189 | commands[cmd](args) |