workbench-script/workbench-script.py

320 lines
7.8 KiB
Python

# -*- coding: utf-8 -*-
import os
import json
import uuid
import hashlib
import argparse
import ntplib
import requests
from datetime import datetime
## Utility Functions ##
def logs(f):
def wrapper(*args, **kwargs):
try:
return f(*args, **kwargs)
except Exception as err:
print(err)
return ''
return wrapper
@logs
def exec_cmd(cmd):
return os.popen(cmd).read()
@logs
def exec_cmd_erase(cmd):
print(cmd)
return ''
# return os.popen(cmd).read()
def gen_code():
uid = str(uuid.uuid4()).encode('utf-8')
return hashlib.shake_256(uid).hexdigest(3)
## End Utility functions ##
SNAPSHOT_BASE = {
'timestamp': str(datetime.now()),
'type': 'Snapshot',
'uuid': str(uuid.uuid4()),
'code': gen_code(),
'software': "EreuseWorkbench",
'version': "0.0.1",
'data': {},
'erase': []
}
## Command Functions ##
## Erase Functions ##
## Xavier Functions ##
def erase_basic(disk):
"""
Basic Erasure
https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=917935
Settings for basic data erasure using shred Linux command.
A software-based fast non-100%-secured way of erasing data storage.
Performs 1 pass overwriting one round using all zeros.
Compliant with NIST SP-800-8y8.
In settings appear:
WB_ERASE = EraseBasic
WB_ERASE_STEPS = 1
WB_ERASE_LEADING_ZEROS = False
"""
cmd = f'shred -vn 1 /dev/{disk}'
return [exec_cmd_erase(cmd)]
def erase_baseline(disk):
"""
Baseline Secure Erasure
Settings for advanced data erasure using badblocks Linux software.
A secured-way of erasing data storages, erase hidden areas,
checking the erase sector by sector.
Performs 1 pass overwriting each sector with zeros and a final verification.
Compliant with HMG Infosec Standard 5 Baseline.
In settings appear:
WB_ERASE = EraseSectors
WB_ERASE_STEPS = 1
WB_ERASE_LEADING_ZEROS = True
WB_ERASE_1_METHOD = EraseBasic
WB_ERASE_1_STEP_TYPE = 0
WB_ERASE_2_METHOD = EraseSectors
WB_ERASE_2_STEP_TYPE = 1
"""
result = []
cmd = f'shred -zvn 0 /dev/{disk}'
result.append(exec_cmd_erase(cmd))
cmd = f'badblocks -st random -w /dev/{disk}'
result.append(exec_cmd_erase(cmd))
return result
def erase_enhanced(disk):
"""
Enhanced Secure Erasure
Settings for advanced data erasure using badblocks Linux software.
A secured-way of erasing data storages, erase hidden areas,
checking the erase sector by sector.
Performs 3 passes overwriting every sector with zeros and ones,
and final verification. Compliant with HMG Infosec Standard 5 Enhanced.
In settings appear:
WB_ERASE = EraseSectors
WB_ERASE_LEADING_ZEROS = True
WB_ERASE_1_METHOD = EraseBasic
WB_ERASE_1_STEP_TYPE = 1
WB_ERASE_2_METHOD = EraseBasic
WB_ERASE_2_STEP_TYPE = 0
WB_ERASE_3_METHOD = EraseSectors
WB_ERASE_3_STEP_TYPE = 1
"""
result = []
cmd = f'shred -vn 1 /dev/{disk}'
result.append(exec_cmd_erase(cmd))
cmd = f'shred -zvn 0 /dev/{disk}'
result.append(exec_cmd_erase(cmd))
## creo que realmente seria asi (3 pases y una extra poniendo a ceros):
# shred -zvn 3 /def/{disk}
# tampoco estoy seguro que el badblocks haga un proceso de verificacion.
cmd = f'badblocks -st random -w /dev/{disk}'
result.append(exec_cmd_erase(cmd))
return result
## End Xavier Functions ##
def ata_secure_erase_null(disk):
cmd_baseline = f'hdparm --user-master u --security-erase NULL /dev/{disk}'
return [exec_cmd_erase(cmd_baseline)]
def ata_secure_erase_enhanced(disk):
cmd_enhanced = f'hdparm --user-master u --security-erase-enhanced /dev/{disk}'
return [exec_cmd_erase(cmd_enhanced)]
def nvme_secure_erase(disk):
cmd_encrypted = f'nvme format /dev/{disk} --ses=1'
return [exec_cmd_erase(cmd_encrypted)]
## End Erase Functions ##
@logs
def get_disks():
disks = json.loads(
exec_cmd('lsblk -Jdo NAME,TYPE,MOUNTPOINTS,ROTA,TRAN')
)
return disks.get('blockdevices', [])
@logs
def gen_erase(all_disks, type_erase, user_disk=None):
erase = []
for disk in all_disks:
if user_disk and disk['name'] not in user_disk:
continue
if disk['type'] != 'disk':
continue
if 'boot' in disk['mountpoints']:
continue
if not disk['rota']:
# if soport nvme erase
erase.append(nvme_secure_erase(disk['name']))
elif disk['tran'] in ['ata', 'sata']:
# if soport ata erase
if type_erase == 'basic':
erase.append(ata_secure_erase_null(disk['name']))
elif type_erase == 'baseline':
erase.append(ata_secure_erase_null(disk['name']))
elif type_erase == 'enhanced':
erase.append(ata_secure_erase_enhanced(disk['name']))
else:
# For old disks
if type_erase == 'basic':
erase.append(erase_basic(disk['name']))
elif type_erase == 'baseline':
erase.append(erase_baseline(disk['name']))
elif type_erase == 'enhanced':
erase.append(erase_enhanced(disk['name']))
return erase
@logs
def exec_smart(disk):
cmd = f'smartctl -x --json=cosviu /dev/{disk}'
return json.loads(exec_cmd(cmd))
@logs
def smartctl(all_disks, disk=None):
if disk:
return exec_smart(disk)
data_list = []
for disk in all_disks:
if disk['type'] == 'disk':
data = exec_smart(disk['name'])
data_list.append(data)
return data_list
## End Command Functions ##
def get_data(all_disks):
lshw = 'lshw -json'
hwinfo = 'hwinfo --reallyall'
dmidecode = 'dmidecode'
data = {
'lshw': exec_cmd(lshw),
'disks': smartctl(all_disks),
'hwinfo': exec_cmd(hwinfo),
'dmidecode': exec_cmd(dmidecode)
}
return data
def gen_snapshot(all_disks):
snapshot = SNAPSHOT_BASE.copy()
snapshot['data'] = get_data(all_disks)
return snapshot
def save_snapshot_in_disk(snapshot, path):
filename = "{}/{}_{}.json".format(
path,
datetime.now().strftime("%Y%m%d-%H_%M_%S"),
snapshot['uuid']
)
with open(filename, "w") as f:
f.write(json.dumps(snapshot))
def send_snapshot_to_devicehub(snapshot, token, url):
headers = {
f"Authorization": "Basic {token}",
"Content-Type": "application/json"
}
return requests.post(url, data=snapshot, header=headers)
@logs
def sync_time():
# is neccessary?
ntplib.NTPClient()
response = client.request('pool.ntp.org')
def main():
print("START")
parser=argparse.ArgumentParser()
parser.add_argument("-p", "--path", required=True)
parser.add_argument("-u", "--url", required=False)
parser.add_argument("-t", "--token", required=False)
parser.add_argument("-d", "--device", required=False)
parser.add_argument(
"-e",
"--erase",
choices=["basic", "baseline", "enhanced"],
required=False
)
args=parser.parse_args()
if args.device and not args.erase:
print("error: argument --erase: expected one argument")
return
if args.token and not args.url:
print("error: argument --url: expected one argument")
return
if args.url and not args.token:
print("error: argument --token: expected one argument")
return
all_disks = get_disks()
snapshot = gen_snapshot(all_disks)
if args.erase and args.device:
snapshot['erase'] = gen_erase(all_disks, args.erase, user_disk=args.device)
elif args.erase:
snapshot['erase'] = gen_erase(all_disks, args.erase)
save_snapshot_in_disk(snapshot, args.path)
if args.url:
send_snapshot_to_devicehub(snapshot, args.token, args.url)
print("END")
if __name__ == '__main__':
main()