#!/usr/bin/env python3 # -*- coding: utf-8 -*- import subprocess as sp from app.utils import stop_monitoring, read_config, get_iocs, get_device_uuid from app.classes.network import Network from os import mkdir, path, chmod import sys import json import random class Capture(object): def __init__(self): self.random_choice_alphabet = "ABCDEF1234567890" self.rules_file = "/tmp/rules" self.generate_rule_file() def start_capture(self) -> dict: """Start a dumpcap capture on the created AP interface and save the generated pcap in a temporary directory under /tmp/. Returns: dict: Capture token and operation status. """ # Few context variable assignment self.capture_token = "".join([random.choice(self.random_choice_alphabet) for i in range(8)]) self.capture_dir = "/tmp/{}/".format(self.capture_token) self.assets_dir = "/tmp/{}/assets/".format(self.capture_token) self.iface = read_config(("network", "in")) self.pcap = self.capture_dir + "capture.pcap" self.rules_file = "/tmp/rules" # For packets monitoring self.list_pkts = [] self.last_pkts = 0 # Make the capture and the assets directory mkdir(self.capture_dir) chmod(self.capture_dir, 0o777) mkdir(self.assets_dir) chmod(self.assets_dir, 0o777) # Kill possible potential process stop_monitoring() # Writing the instance UUID for reporting. with open("/tmp/{}/assets/instance.json".format(self.capture_token), "w") as f: f.write(json.dumps({ "instance_uuid" : get_device_uuid().strip() })) try: sp.Popen(["dumpcap", "-n", "-i", self.iface, "-w", self.pcap]) sp.Popen(["suricata", "-c", "/etc/suricata/suricata.yaml", "-i", self.iface, "-l", self.assets_dir, "-S", self.rules_file]) return { "status": True, "message": "Capture started", "capture_token": self.capture_token } except: return { "status": False, "message": f"Unexpected error: {sys.exc_info()[0]}"} def get_capture_stats(self) -> dict: """ Get some dirty capture statistics in order to have a sparkline in the background of capture view. Returns: dict: dict containing stats associated to the capture """ with open("/sys/class/net/{}/statistics/tx_packets".format(self.iface)) as f: tx_pkts = int(f.read()) with open("/sys/class/net/{}/statistics/rx_packets".format(self.iface)) as f: rx_pkts = int(f.read()) if self.last_pkts == 0: self.last_pkts = tx_pkts + rx_pkts return {"status": True, "packets": [0*400]} else: curr_pkts = (tx_pkts + rx_pkts) - self.last_pkts self.last_pkts = tx_pkts + rx_pkts self.list_pkts.append(curr_pkts) return {"status": True, "packets": self.beautify_stats(self.list_pkts)} @staticmethod def beautify_stats(data) -> list: """Add 0 at the end of the array if the len of the array is less than max_len. Else, get the last 100 stats. This allows to show a kind of "progressive chart" in the background for the first packets. Args: data (list): list of integers Returns: list: list of integers """ max_len = 400 if len(data) >= max_len: return data[-max_len:] else: return data + [1] * (max_len - len(data)) def stop_capture(self) -> dict: """Stop dumpcap & suricata if any instance present & ask create_capinfos. Returns: dict: operation status """ network = Network() # We stop the monitoring and the associated hotspot. if stop_monitoring(): if network.delete_hotspot(): self.create_capinfos() return {"status": True, "message": "Capture stopped"} else: return {"status": False, "message": "No active hotspot"} else: return {"status": False, "message": "No active capture"} def create_capinfos(self) -> bool: """Creates a capinfo json file. Returns: bool: True if everything worked well. """ self.pcap = self.capture_dir + "capture.pcap" infos = sp.Popen(["capinfos", self.pcap], stdout=sp.PIPE, stderr=sp.PIPE) infos = infos.communicate()[0] data = {} for l in infos.decode().splitlines(): try: l = l.split(": ") if ": " in l else l.split("= ") if len(l[0]) and len(l[1]): data[l[0].strip()] = l[1].strip() except: continue with open("{}capinfos.json".format(self.assets_dir), 'w') as f: json.dump(data, f) return True def generate_rule_file(self) -> bool: """Generate a suricata rules files. Returns: bool: operation status. """ rules = [r[0] for r in get_iocs("snort")] try: with open(self.rules_file, "w+") as f: f.write("\n".join(rules)) return True except: return False