source: test/blackhat-demo/jregistrate-collect @ 17

#!/usr/bin/env python3
#-*- mode: Python;-*-

import sys
import os
import time
import random
import tempfile
import argparse
import socket
import json
try:
    import requests
except:
    sys.stderr.write('ERROR: Could not import requests module.  Ensure it is installed.\n')
    sys.stderr.write('       Under Debian, the package name is "python3-requests"\n.')
    sys.exit(1)

VERSION = "{DEVELOPMENT}"
if VERSION == "{DEVELOPMENT}":
    script_dir = '.'
    try:
        script_dir = os.path.dirname(os.path.realpath(__file__))
    except:
        try:
            script_dir = os.path.dirname(os.path.abspath(sys.argv[0]))
        except:
            pass
    sys.path.append("%s/../../trunk/lib" % script_dir)

from nanownlib import *
import nanownlib.storage

parser = argparse.ArgumentParser(
    description="")
parser.add_argument('-c', dest='cases', type=str, default='{"valid":"0012-5969","invalid":"0012-9999"}',
                    help='JSON representation of echo timing cases.')
parser.add_argument('--no-tcpts', action='store_true', help='Disbale TCP timestamp profiling')
parser.add_argument('--no-control', action='store_true', help='Do not collect separate control data.  Instead, synthesize it from test and train data.')
parser.add_argument('session_name', default=None,
                    help='Name for the sampler session (used in output filenames)')
parser.add_argument('sample_count', type=int, default=None,
                    help='Number of samples to collect')
parser.add_argument('host', default=None,
                    help='IP address or host name of server')
parser.add_argument('port', nargs='?', type=int, default=80,
                    help='TCP port number of HTTP service (default: 80)')
options = parser.parse_args()


session_name = options.session_name
num_samples=options.sample_count
hostname = options.host
port = options.port
protocol = 'http'

cases = json.loads(options.cases)


def extractReportedRuntime(headers, body):
    try:
        if 'X-Response-Time' in headers:
            t = headers['X-Response-Time'].split('ms')[0]
            return int(float(t)*1000000)
    except:
        pass

    return None


def sendRequest(data=None):
    method = 'POST'
    path = '/jregistrate/register'
    url = "%s://%s:%d%s" % (protocol,hostname,port,path)
    headers = {"Content-Type":"application/x-www-form-urlencoded"}
    body = (b'member_id='+data.encode('utf-8')+b'&last_four=1111&zip_code=97219&username=bob&password=&conf_pwd=')
    req = requests.Request(method, url, headers=headers, data=body).prepare()

    retry = True
    while retry:
        try:
            session = requests.Session()
            response = session.send(req, verify=False)
            #print(repr(response.raw._original_response.local_address))
            reported = extractReportedRuntime(response.headers, response.text)
            retry = False
        except Exception as e:
            sys.stderr.write("ERROR: HTTP request problem: %s\n" % repr(e))
            time.sleep(1.0)
            sys.stderr.write("ERROR: retrying...\n")
        #print(data.encode('utf-8'), reported)
        
    return {'userspace_rtt':response.elapsed.microseconds*1000,
            'reported':reported,
            'local_port':response.raw._original_response.local_address[1]}


def fetch(probedata, data):
    #   http://docs.python-requests.org/en/latest/api/#requests.Response
    result = sendRequest(data)
    result.update(probedata)
    
    return result


setCPUAffinity()
setTCPTimestamps()
host_ip = socket.gethostbyname(hostname) #XXX: what about multiple A records?

meta = {'tcpts_mean':None,'tcpts_stddev':None,'tcpts_slopes':None}
if not options.no_tcpts:
    sys.stderr.write("INFO: Probing target for TCP timestamp precision...\n")
    sniffer_fp = tempfile.NamedTemporaryFile('w+t')
    sniffer = startSniffer(host_ip, port, sniffer_fp.name)
    time.sleep(1.0)
    ports = runTimestampProbes(host_ip, port, hostname, 12)
    time.sleep(1.0)
    stopSniffer(sniffer)
    sniffer_fp.seek(0)
    mean,stddev,slopes = computeTimestampPrecision(sniffer_fp, ports)
    meta = {'tcpts_mean':mean,'tcpts_stddev':stddev,'tcpts_slopes':json.dumps(slopes)}
    
if meta['tcpts_mean'] == None:
    sys.stderr.write("INFO: TCP timestamps not supported.\n")
elif meta['tcpts_stddev'] == None:
    sys.stderr.write("INFO: Not enough TCP timestamp samples.\n")
elif meta['tcpts_stddev']/meta['tcpts_mean'] > 0.05:
    sys.stderr.write("INFO: TCP timestamp precision is inconsistent.\n")
    sys.stderr.write("INFO:     mean=%(tcpts_mean)f,stddev=%(tcpts_stddev)f,samples=%(tcpts_slopes)s\n"
                     % meta)
else:
    sys.stderr.write("INFO: Estimated TCP timestamp precision: %f (stddev: %f, %f%%)\n"
                     % (meta['tcpts_mean'], meta['tcpts_stddev'], 100*meta['tcpts_stddev']/meta['tcpts_mean']))


sniffer_fp = tempfile.NamedTemporaryFile('w+t')
db_file = "%s.db" % session_name

sniffer = startSniffer(host_ip, port, sniffer_fp.name)
db = nanownlib.storage.db(db_file)
db.addMeta(meta)
time.sleep(0.5) # ensure sniffer is fully ready and our process is migrated

if options.no_control:
    num_control = 0
else:
    num_control = int(num_samples*1/3)

num_train = int((num_samples-num_control)/2)
num_test = num_samples-num_train-num_control

sample_types = [('train',num_train),
                ('train_null',num_control),
                ('test',num_test)]

sid = 0
report_interval = 20
start = time.time()
next_report = start+report_interval
for st,count in sample_types:
    if sniffer.poll() != None:
        sys.stderr.write('ERROR: Sniffer quit, sender exiting...\n')
        break
        
    for k in range(0,count):
        sample_order = list(cases.items())
        random.shuffle(sample_order)
        if st.endswith('null'):
            for i in range(1,len(sample_order)):
                sample_order[i] = (sample_order[i][0],sample_order[0][1])
            random.shuffle(sample_order)
            #print('after', sample_order)
            
        results = []
        now = int(time.time()*1000000000)
        for i in range(len(sample_order)):
            results.append(fetch({'sample':sid, 'test_case':sample_order[i][0],
                                  'type':st, 'tc_order':i, 'time_of_day':now},
                                 sample_order[i][1]))

        #print(results)
        db.addProbes(results)
        db.conn.commit()
        sid += 1

        if (time.time() > next_report):
            #s = time.time()
            reportProgress(db, sample_types, start)
            #print("reportProgress time:", time.time()-s)
            next_report += report_interval

print("probes complete in %f" % (time.time()-start))
time.sleep(2.0) # Give sniffer a chance to collect remaining packets
stopSniffer(sniffer)

start = time.time()
associatePackets(sniffer_fp, db)
sniffer_fp.close()
end = time.time()
print("associate time:", end-start)

if options.no_control:
    print("TODO: implement control synthesizing!")

start = time.time()
num_probes = analyzeProbes(db)
end = time.time()
print("analyzed %d probes' packets in: %f" % (num_probes, end-start))