599 lines
23 KiB
Python
599 lines
23 KiB
Python
import asyncio
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import json
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import logging
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import os
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import time
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from contextlib import asynccontextmanager
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from collections import defaultdict
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import geoip2.database
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import geoip2.errors
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import httpx
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from dotenv import load_dotenv
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from fastapi import FastAPI, WebSocket, WebSocketDisconnect
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from fastapi.middleware.cors import CORSMiddleware
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load_dotenv()
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logging.basicConfig(level=logging.INFO, format="%(asctime)s %(levelname)s %(message)s")
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log = logging.getLogger(__name__)
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# ── Config ────────────────────────────────────────────────────────────────────
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UNIFI_URL = os.getenv("UNIFI_URL", "https://192.168.1.1")
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UNIFI_API_KEY = os.getenv("UNIFI_API_KEY", "")
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UNIFI_SITE = os.getenv("UNIFI_SITE", "default")
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UNIFI_VERIFY_SSL = os.getenv("UNIFI_VERIFY_SSL", "false").lower() == "true"
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GEOIP_DB_PATH = os.getenv("GEOIP_DB_PATH", "/data/GeoLite2-City.mmdb")
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POLL_INTERVAL = int(os.getenv("POLL_INTERVAL", "10"))
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HOME_LAT = float(os.getenv("HOME_LAT", "59.9139"))
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HOME_LON = float(os.getenv("HOME_LON", "10.7522"))
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HOME_NAME = os.getenv("HOME_NAME", "Home")
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NETFLOW_PORT = int(os.getenv("NETFLOW_PORT", "2055"))
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CROWDSEC_URL = os.getenv("CROWDSEC_URL", "")
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CROWDSEC_API_KEY = os.getenv("CROWDSEC_API_KEY", "")
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# ── State ─────────────────────────────────────────────────────────────────────
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ws_clients: dict[int, WebSocket] = {}
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geo_reader: geoip2.database.Reader | None = None
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device_registry: dict[str, dict] = {}
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recent_flows: list[dict] = []
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MAX_RECENT = 500
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ip_to_mac: dict[str, str] = {}
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netflow_stats = {"packets": 0, "flows": 0, "geolocated": 0, "templates": 0}
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# ── GeoIP ─────────────────────────────────────────────────────────────────────
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def load_geoip():
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global geo_reader
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if not os.path.exists(GEOIP_DB_PATH):
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log.warning(f"GeoIP database not found at {GEOIP_DB_PATH}")
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return
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try:
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geo_reader = geoip2.database.Reader(GEOIP_DB_PATH)
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log.info("GeoIP database loaded.")
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except Exception as e:
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log.error(f"Failed to load GeoIP: {e}")
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def geolocate(ip: str) -> dict | None:
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if not geo_reader:
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return None
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try:
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r = geo_reader.city(ip)
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if r.location.latitude is None:
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return None
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return {"lat": r.location.latitude, "lon": r.location.longitude,
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"city": r.city.name or "", "country": r.country.name or "",
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"country_code": r.country.iso_code or ""}
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except (geoip2.errors.AddressNotFoundError, Exception):
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return None
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def is_private_ip(ip: str) -> bool:
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import ipaddress
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try:
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addr = ipaddress.ip_address(ip)
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return addr.is_private or addr.is_loopback or addr.is_link_local or addr.is_multicast
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except ValueError:
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return True
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def int_to_ip(n: int) -> str:
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return f"{(n >> 24) & 0xff}.{(n >> 16) & 0xff}.{(n >> 8) & 0xff}.{n & 0xff}"
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# ── NetFlow v5 parser ─────────────────────────────────────────────────────────
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import struct
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NF5_HEADER = struct.Struct("!HHIIIhHBB") # 24 bytes
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NF5_RECORD = struct.Struct("!IIIHHIIIIHHBBBBHHBBH") # 48 bytes
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def parse_netflow_v5(data: bytes) -> list[dict]:
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if len(data) < 24:
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return []
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hdr = NF5_HEADER.unpack_from(data, 0)
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count = hdr[1]
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flows = []
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for i in range(count):
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off = 24 + i * 48
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if off + 48 > len(data):
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break
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r = NF5_RECORD.unpack_from(data, off)
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src_ip = int_to_ip(r[0])
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dst_ip = int_to_ip(r[1])
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packets = r[6]
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octets = r[7]
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proto = r[14]
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src_port = r[10]
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dst_port = r[11]
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flows.append({"src": src_ip, "dst": dst_ip, "bytes": octets,
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"packets": packets, "proto": proto,
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"src_port": src_port, "dst_port": dst_port})
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return flows
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# ── NetFlow v9 parser ─────────────────────────────────────────────────────────
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# Store templates per (src_addr, source_id, template_id)
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nf9_templates: dict[tuple, dict] = {}
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NF9_FIELD_TYPES = {
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1: ("IN_BYTES", 4),
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2: ("IN_PKTS", 4),
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4: ("PROTOCOL", 1),
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7: ("L4_SRC_PORT", 2),
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8: ("IPV4_SRC_ADDR", 4),
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11: ("L4_DST_PORT", 2),
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12: ("IPV4_DST_ADDR", 4),
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16: ("SRC_AS", 4),
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17: ("DST_AS", 4),
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21: ("LAST_SWITCHED", 4),
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22: ("FIRST_SWITCHED", 4),
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23: ("OUT_BYTES", 4),
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24: ("OUT_PKTS", 4),
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32: ("ICMP_TYPE", 2),
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60: ("IP_PROTOCOL_VERSION", 1),
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}
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def parse_nf9_template(data: bytes, offset: int, length: int, src: str, source_id: int):
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end = offset + length
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pos = offset
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while pos + 4 <= end:
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tmpl_id = struct.unpack_from("!H", data, pos)[0]
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field_count = struct.unpack_from("!H", data, pos + 2)[0]
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pos += 4
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fields = []
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for _ in range(field_count):
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if pos + 4 > end:
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break
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ftype = struct.unpack_from("!H", data, pos)[0]
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flen = struct.unpack_from("!H", data, pos + 2)[0]
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fields.append((ftype, flen))
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pos += 4
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key = (src, source_id, tmpl_id)
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nf9_templates[key] = fields
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netflow_stats["templates"] += 1
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log.debug(f"Stored NF9 template {tmpl_id} from {src} ({len(fields)} fields)")
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def parse_nf9_data(data: bytes, offset: int, length: int,
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src: str, source_id: int, flowset_id: int) -> list[dict]:
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key = (src, source_id, flowset_id)
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template = nf9_templates.get(key)
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if not template:
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return []
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record_len = sum(f[1] for f in template)
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if record_len == 0:
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return []
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flows = []
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pos = offset
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end = offset + length
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while pos + record_len <= end:
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record = {}
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rpos = pos
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for ftype, flen in template:
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raw = data[rpos:rpos + flen]
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rpos += flen
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name = NF9_FIELD_TYPES.get(ftype, (None, None))[0]
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if name == "IPV4_SRC_ADDR" and flen == 4:
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record["src"] = int_to_ip(struct.unpack("!I", raw)[0])
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elif name == "IPV4_DST_ADDR" and flen == 4:
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record["dst"] = int_to_ip(struct.unpack("!I", raw)[0])
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elif name == "IN_BYTES" and flen <= 4:
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record["bytes"] = int.from_bytes(raw, "big")
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elif name == "IN_PKTS" and flen <= 4:
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record["packets"] = int.from_bytes(raw, "big")
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elif name == "PROTOCOL" and flen == 1:
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record["proto"] = raw[0]
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elif name == "L4_SRC_PORT" and flen == 2:
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record["src_port"] = struct.unpack("!H", raw)[0]
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elif name == "L4_DST_PORT" and flen == 2:
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record["dst_port"] = struct.unpack("!H", raw)[0]
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if "src" in record and "dst" in record:
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flows.append(record)
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pos += record_len
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return flows
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def parse_netflow_v9(data: bytes, src_addr: str) -> list[dict]:
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if len(data) < 20:
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return []
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count = struct.unpack_from("!H", data, 2)[0]
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source_id = struct.unpack_from("!I", data, 16)[0]
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pos = 20
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all_flows = []
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for _ in range(count):
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if pos + 4 > len(data):
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break
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flowset_id = struct.unpack_from("!H", data, pos)[0]
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length = struct.unpack_from("!H", data, pos + 2)[0]
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if length < 4:
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break
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payload_off = pos + 4
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payload_len = length - 4
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if flowset_id == 0:
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# Template flowset
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parse_nf9_template(data, payload_off, payload_len, src_addr, source_id)
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elif flowset_id == 1:
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pass # Options template, skip
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elif flowset_id >= 256:
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# Data flowset
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flows = parse_nf9_data(data, payload_off, payload_len,
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src_addr, source_id, flowset_id)
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all_flows.extend(flows)
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pos += length
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# Align to 4-byte boundary
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if pos % 4:
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pos += 4 - (pos % 4)
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return all_flows
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# ── Flow processing ───────────────────────────────────────────────────────────
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# Deduplicate noisy flows: track recent (src,dst) pairs
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recent_pairs: dict[tuple, float] = {}
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DEDUP_WINDOW = 30 # seconds — don't re-emit same src→dst within this window
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def process_raw_flow(raw: dict) -> dict | None:
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src = raw.get("src", "")
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dst = raw.get("dst", "")
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if not src or not dst:
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return None
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src_local = is_private_ip(src)
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dst_local = is_private_ip(dst)
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# Skip purely local flows
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if src_local and dst_local:
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return None
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now_ts = time.time()
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now_ms = int(now_ts * 1000)
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if src_local and not dst_local:
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# Outbound
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pair_key = ("out", src, dst)
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if now_ts - recent_pairs.get(pair_key, 0) < DEDUP_WINDOW:
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return None
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recent_pairs[pair_key] = now_ts
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geo = geolocate(dst)
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mac = ip_to_mac.get(src, "")
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name = device_registry.get(mac, {}).get("name") or src
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return {"id": f"nf-{src}-{dst}-{now_ms}", "type": "outbound",
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"device_mac": mac, "device_name": name, "device_ip": src,
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"bytes": raw.get("bytes", 0), "packets": raw.get("packets", 0),
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"proto": raw.get("proto", 0),
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"src_port": raw.get("src_port", 0), "dst_port": raw.get("dst_port", 0),
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"remote_ip": dst, "src_lat": HOME_LAT, "src_lon": HOME_LON,
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"timestamp": now_ms, "remote_geo": geo}
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elif not src_local and dst_local:
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# Inbound
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pair_key = ("in", src, dst)
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if now_ts - recent_pairs.get(pair_key, 0) < DEDUP_WINDOW:
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return None
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recent_pairs[pair_key] = now_ts
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geo = geolocate(src)
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mac = ip_to_mac.get(dst, "")
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name = device_registry.get(mac, {}).get("name") or dst
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return {"id": f"nf-{src}-{dst}-{now_ms}", "type": "inbound",
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"device_mac": mac, "device_name": name, "device_ip": dst,
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"bytes": raw.get("bytes", 0), "packets": raw.get("packets", 0),
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"proto": raw.get("proto", 0),
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"src_port": raw.get("src_port", 0), "dst_port": raw.get("dst_port", 0),
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"remote_ip": src, "src_lat": HOME_LAT, "src_lon": HOME_LON,
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"timestamp": now_ms, "remote_geo": geo}
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return None
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# ── NetFlow UDP server ────────────────────────────────────────────────────────
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class NetFlowProtocol(asyncio.DatagramProtocol):
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def __init__(self):
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self._loop = asyncio.get_event_loop()
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def datagram_received(self, data: bytes, addr):
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netflow_stats["packets"] += 1
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src_addr = addr[0]
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try:
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if len(data) < 2:
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return
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version = struct.unpack_from("!H", data, 0)[0]
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if version == 5:
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raw_flows = parse_netflow_v5(data)
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elif version == 9:
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raw_flows = parse_netflow_v9(data, src_addr)
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else:
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log.debug(f"Unknown NetFlow version {version}")
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return
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good_flows = []
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for raw in raw_flows:
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flow = process_raw_flow(raw)
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if flow:
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good_flows.append(flow)
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netflow_stats["flows"] += 1
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if flow.get("remote_geo"):
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netflow_stats["geolocated"] += 1
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if good_flows:
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self._loop.create_task(emit_flows(good_flows))
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except Exception as e:
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log.error(f"NetFlow parse error: {e}", exc_info=True)
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async def emit_flows(flows: list[dict]):
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recent_flows.extend(flows)
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if len(recent_flows) > MAX_RECENT:
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del recent_flows[:-MAX_RECENT]
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await broadcast({"type": "flows", "flows": flows})
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async def start_netflow_server():
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loop = asyncio.get_event_loop()
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try:
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await loop.create_datagram_endpoint(
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NetFlowProtocol, local_addr=("0.0.0.0", NETFLOW_PORT)
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)
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log.info(f"NetFlow UDP collector listening on port {NETFLOW_PORT}")
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except Exception as e:
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log.error(f"Failed to start NetFlow listener: {e}")
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# ── UniFi API ─────────────────────────────────────────────────────────────────
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def make_unifi_client() -> httpx.AsyncClient:
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return httpx.AsyncClient(
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base_url=UNIFI_URL,
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headers={"X-API-KEY": UNIFI_API_KEY, "Accept": "application/json"},
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verify=UNIFI_VERIFY_SSL, timeout=10.0,
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)
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async def fetch_clients(http: httpx.AsyncClient) -> list[dict]:
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try:
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r = await http.get(f"/proxy/network/api/s/{UNIFI_SITE}/stat/sta")
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r.raise_for_status()
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return r.json().get("data", [])
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except Exception as e:
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log.error(f"Error fetching clients: {e}")
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return []
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async def fetch_known_clients(http: httpx.AsyncClient) -> list[dict]:
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try:
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r = await http.get(f"/proxy/network/api/s/{UNIFI_SITE}/rest/user")
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r.raise_for_status()
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return r.json().get("data", [])
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except Exception as e:
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log.error(f"Error fetching known clients: {e}")
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return []
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# ── Broadcast ─────────────────────────────────────────────────────────────────
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async def broadcast(msg: dict):
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dead = []
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for cid, ws in ws_clients.items():
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try:
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await ws.send_text(json.dumps(msg))
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except Exception:
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dead.append(cid)
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for cid in dead:
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ws_clients.pop(cid, None)
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# ── Poll loop ─────────────────────────────────────────────────────────────────
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async def poll_loop():
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log.info("Starting UniFi poll loop...")
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async with make_unifi_client() as http:
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known = await fetch_known_clients(http)
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for k in known:
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mac = k.get("mac", "")
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if mac:
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device_registry[mac] = {
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"mac": mac,
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"name": k.get("name") or k.get("hostname") or mac,
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"oui": k.get("oui", ""), "ip": k.get("last_ip", ""),
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"tx_bytes": 0, "rx_bytes": 0,
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}
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log.info(f"Loaded {len(device_registry)} known devices.")
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while True:
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try:
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active = await fetch_clients(http)
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for sta in active:
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mac = sta.get("mac", "")
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if not mac:
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continue
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ip = sta.get("ip", "")
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if ip:
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ip_to_mac[ip] = mac
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tx = sta.get("wired-tx_bytes") or sta.get("tx_bytes") or 0
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rx = sta.get("wired-rx_bytes") or sta.get("rx_bytes") or 0
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device_registry[mac] = {
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"mac": mac,
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"name": (sta.get("name") or sta.get("hostname") or
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device_registry.get(mac, {}).get("name") or mac),
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"ip": ip, "oui": sta.get("oui", ""),
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"is_wired": sta.get("is_wired", False),
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"uptime": sta.get("uptime"), "signal": sta.get("signal"),
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"tx_bytes": tx, "rx_bytes": rx,
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"last_seen": sta.get("last_seen"),
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}
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await broadcast({"type": "devices", "devices": list(device_registry.values())})
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except Exception as e:
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log.error(f"Poll loop error: {e}", exc_info=True)
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await asyncio.sleep(POLL_INTERVAL)
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# ── Cleanup task ─────────────────────────────────────────────────────────────
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async def cleanup_loop():
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"""Periodically clean up the dedup table so it doesn't grow forever."""
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while True:
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await asyncio.sleep(120)
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cutoff = time.time() - DEDUP_WINDOW * 2
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stale = [k for k, t in recent_pairs.items() if t < cutoff]
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for k in stale:
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recent_pairs.pop(k, None)
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# ── FastAPI ───────────────────────────────────────────────────────────────────
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@asynccontextmanager
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async def lifespan(app: FastAPI):
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load_geoip()
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await start_netflow_server()
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poll_task = asyncio.create_task(poll_loop())
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cleanup_task = asyncio.create_task(cleanup_loop())
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yield
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poll_task.cancel()
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cleanup_task.cancel()
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app = FastAPI(lifespan=lifespan)
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app.add_middleware(CORSMiddleware, allow_origins=["*"], allow_methods=["*"], allow_headers=["*"])
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@app.get("/api/devices")
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async def get_devices():
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return {"devices": list(device_registry.values())}
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@app.get("/api/status")
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async def get_status():
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return {
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"geoip_loaded": geo_reader is not None,
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"device_count": len(device_registry),
|
|
"home": {"lat": HOME_LAT, "lon": HOME_LON, "name": HOME_NAME},
|
|
"netflow_port": NETFLOW_PORT,
|
|
"netflow_stats": netflow_stats,
|
|
"templates_learned": len(nf9_templates),
|
|
}
|
|
|
|
@app.get("/api/crowdsec/enabled")
|
|
async def get_crowdsec_enabled():
|
|
"""Returns whether CrowdSec is configured."""
|
|
return {"enabled": bool(CROWDSEC_URL and CROWDSEC_API_KEY)}
|
|
|
|
@app.get("/api/crowdsec")
|
|
async def get_crowdsec(origin: str = "all"):
|
|
"""Proxy CrowdSec decisions with geo enrichment. origin=all|local|capi"""
|
|
if not CROWDSEC_URL or not CROWDSEC_API_KEY:
|
|
return []
|
|
try:
|
|
async with httpx.AsyncClient(timeout=8.0) as http:
|
|
# Fetch all decisions — filter locally since CrowdSec API origin param is unreliable
|
|
r = await http.get(
|
|
f"{CROWDSEC_URL}/v1/decisions",
|
|
headers={"X-Api-Key": CROWDSEC_API_KEY},
|
|
params={"limit": 2000}
|
|
)
|
|
if r.status_code == 204:
|
|
return []
|
|
r.raise_for_status()
|
|
decisions = r.json()
|
|
if not decisions:
|
|
return []
|
|
|
|
# Filter by origin locally — handles any casing CrowdSec uses
|
|
if origin == "local":
|
|
decisions = [d for d in decisions if d.get("origin", "").lower() not in ("capi", "lists")]
|
|
elif origin == "capi":
|
|
decisions = [d for d in decisions if d.get("origin", "").upper() == "CAPI"]
|
|
|
|
results = []
|
|
for d in decisions:
|
|
ip = d.get("value", "")
|
|
ip_clean = ip.split("/")[0]
|
|
geo = geolocate(ip_clean) if ip_clean else None
|
|
results.append({
|
|
"ip": ip,
|
|
"geo": geo,
|
|
"reason": d.get("reason", ""),
|
|
"scenario": d.get("scenario", d.get("reason", "")),
|
|
"origin": d.get("origin", ""),
|
|
"type": d.get("type", "ban"),
|
|
"expires_in": d.get("duration", ""),
|
|
"scope": d.get("scope", ""),
|
|
})
|
|
return results
|
|
except Exception as e:
|
|
log.error(f"CrowdSec fetch error: {e}")
|
|
return []
|
|
|
|
|
|
@app.get("/api/crowdsec/counts")
|
|
async def get_crowdsec_counts():
|
|
"""Return ban counts per origin without geo enrichment (fast)."""
|
|
if not CROWDSEC_URL or not CROWDSEC_API_KEY:
|
|
return {"local": 0, "capi": 0, "total": 0}
|
|
try:
|
|
async with httpx.AsyncClient(timeout=8.0) as http:
|
|
r = await http.get(
|
|
f"{CROWDSEC_URL}/v1/decisions",
|
|
headers={"X-Api-Key": CROWDSEC_API_KEY},
|
|
params={"limit": 5000}
|
|
)
|
|
if r.status_code == 204:
|
|
return {"local": 0, "capi": 0, "total": 0}
|
|
r.raise_for_status()
|
|
decisions = r.json() or []
|
|
capi = sum(1 for d in decisions if d.get("origin","").upper() == "CAPI")
|
|
local = sum(1 for d in decisions if d.get("origin","").lower() not in ("capi","lists"))
|
|
return {"local": local, "capi": capi, "total": len(decisions)}
|
|
except Exception as e:
|
|
log.error(f"CrowdSec counts error: {e}")
|
|
return {"local": 0, "capi": 0, "total": 0}
|
|
|
|
|
|
@app.get("/api/rdns/{ip}")
|
|
async def get_rdns(ip: str):
|
|
"""Reverse DNS lookup."""
|
|
import socket
|
|
try:
|
|
hostname = await asyncio.get_event_loop().run_in_executor(
|
|
None, lambda: socket.gethostbyaddr(ip)[0]
|
|
)
|
|
return {"hostname": hostname}
|
|
except Exception:
|
|
return {"hostname": None}
|
|
|
|
# Server-side ASN cache to avoid hammering ip-api.com
|
|
_asn_cache: dict[str, str] = {}
|
|
|
|
@app.get("/api/asn/{ip}")
|
|
async def get_asn(ip: str):
|
|
"""Proxy ASN/org lookup with caching and fallback."""
|
|
if ip in _asn_cache:
|
|
return {"org": _asn_cache[ip]}
|
|
try:
|
|
async with httpx.AsyncClient(timeout=5.0) as http:
|
|
# Primary: ip-api.com (45 req/min free)
|
|
r = await http.get(
|
|
f"http://ip-api.com/json/{ip}",
|
|
params={"fields": "org,isp,status"}
|
|
)
|
|
if r.status_code == 200:
|
|
d = r.json()
|
|
if d.get("status") == "success":
|
|
org = d.get("org") or d.get("isp") or "Unknown"
|
|
_asn_cache[ip] = org
|
|
return {"org": org}
|
|
# Fallback: ipinfo.io
|
|
r2 = await http.get(f"https://ipinfo.io/{ip}/json")
|
|
if r2.status_code == 200:
|
|
d2 = r2.json()
|
|
org = d2.get("org") or "Unknown"
|
|
_asn_cache[ip] = org
|
|
return {"org": org}
|
|
except Exception as e:
|
|
log.debug(f"ASN lookup error for {ip}: {e}")
|
|
return {"org": "Unknown"}
|
|
|
|
|
|
@app.websocket("/ws")
|
|
async def websocket_endpoint(ws: WebSocket):
|
|
await ws.accept()
|
|
cid = id(ws)
|
|
ws_clients[cid] = ws
|
|
log.info(f"WS client connected. Total: {len(ws_clients)}")
|
|
try:
|
|
await ws.send_text(json.dumps({
|
|
"type": "init",
|
|
"home": {"lat": HOME_LAT, "lon": HOME_LON, "name": HOME_NAME},
|
|
"geoip_loaded": geo_reader is not None,
|
|
"devices": list(device_registry.values()),
|
|
"recent_flows": recent_flows[-50:],
|
|
}))
|
|
while True:
|
|
await ws.receive_text()
|
|
except WebSocketDisconnect:
|
|
log.info(f"WS client disconnected.")
|
|
finally:
|
|
ws_clients.pop(cid, None)
|