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# coding: utf-8
from __future__ import unicode_literals, print_function
from __future__ import absolute_import
from builtins import input
from builtins import next
from builtins import range
import base64
import binascii
import time
import logging
import os
import sys
from prompt_toolkit import prompt
from prompt_toolkit import Application
from prompt_toolkit.key_binding import KeyBindings
from prompt_toolkit.keys import Keys
from prompt_toolkit.filters import Condition
import ed25519
from .client import OnlyKey, Message, MessageField
only_key = OnlyKey()
def cli():
logging.basicConfig(level=logging.DEBUG)
# ContrlT handling
hidden = [True] # Nonlocal
key_bindings = KeyBindings()
@key_bindings.add('c-t')
def _(event):
' When ControlT has been pressed, toggle visibility. '
hidden[0] = not hidden[0]
def prompt_pass():
print('Type Control-T to toggle password visible.')
password = prompt('Password/Key: ', is_password=True)
return password
def prompt_key():
print('Type Control-T to toggle key visible.')
key = prompt('Key: ', is_password=True)
return key
def prompt_pin():
print('Press any key when finished entering PIN')
return
if len(sys.argv) > 1:
if sys.argv[1] == 'ecc':
# ECC subcommands
# Create a new private key
if sys.argv[2] == 'new':
signing_key, _ = ed25519.create_keypair()
with open('ecc_private.key', 'wb+') as f:
f.write(signing_key.to_seed())
print('ECC private key written to ecc_private.key')
# Load a private key to the OnlyKey
elif sys.argv[2] == 'load':
privkey = 'ecc_private.key'
if len(privkey) == 4:
privkey = sys.argv[3]
if not os.path.exists(privkey):
print('{} does not exists'.format(privkey))
with open(privkey, 'rb') as f:
raw_privkey = f.read()
print()
print ('Enter ECC key slot number to use (1 - 32) or enter 0 to list key labels')
print()
slot = int(input())
while slot == 0:
ok.displaykeylabels()
print()
print ('Enter ECC key slot number to use (1 - 32) or enter 0 to list key labels')
print()
slot = int(input())
slot = slot + 100 # ECC keys in slot 101 - 132
only_key.set_ecc_key(slot, (1+16+32+64+128), raw_privkey) #set ECC key with all features
time.sleep(1.5)
print(only_key.read_string())
elif sys.argv[1] == 'settime':
only_key.set_time(time.time())
elif sys.argv[1] == 'init':
while 1:
if only_key.read_string(timeout_ms=500) != 'UNINITIALIZED':
break
for msg in [Message.OKSETPIN]:
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
for msg in [Message.OKSETPDPIN]:
only_key.send_message(msg=msg)
print(only_key.read_string() + ' for second profile')
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string() + ' for second profile')
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
for msg in [Message.OKSETSDPIN]:
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
elif sys.argv[1] == 'getlabels':
tmp = {}
for slot in only_key.getlabels():
tmp[slot.name] = slot
slots = iter(['1a', '1b', '2a', '2b', '3a', '3b', '4a', '4b', '5a', '5b', '6a', '6b'])
for slot_name in slots:
print(tmp[slot_name].to_str())
print(tmp[next(slots)].to_str())
print()
elif sys.argv[1] == 'getkeylabels':
tmp = {}
for slot in only_key.getkeylabels():
tmp[slot.name] = slot
slots = iter(['RSA Key 1', 'RSA Key 2', 'RSA Key 3', 'RSA Key 4', 'ECC Key 1', 'ECC Key 2', 'ECC Key 3', 'ECC Key 4', 'ECC Key 5', 'ECC Key 6', 'ECC Key 7', 'ECC Key 8', 'ECC Key 9', 'ECC Key 10', 'ECC Key 11', 'ECC Key 12', 'ECC Key 13', 'ECC Key 14', 'ECC Key 15', 'ECC Key 16', 'ECC Key 17', 'ECC Key 18', 'ECC Key 19', 'ECC Key 20', 'ECC Key 21', 'ECC Key 22', 'ECC Key 23', 'ECC Key 24', 'ECC Key 25', 'ECC Key 26', 'ECC Key 27', 'ECC Key 28', 'ECC Key 29'])
for slot_name in slots:
print(tmp[slot_name].to_str())
elif sys.argv[1] == 'setslot':
try:
if sys.argv[2] == '1a':
slot_id = 1
elif sys.argv[2] == '2a':
slot_id = 2
elif sys.argv[2] == '3a':
slot_id = 3
elif sys.argv[2] == '4a':
slot_id = 4
elif sys.argv[2] == '5a':
slot_id = 5
elif sys.argv[2] == '6a':
slot_id = 6
elif sys.argv[2] == '1b':
slot_id = 7
elif sys.argv[2] == '2b':
slot_id = 8
elif sys.argv[2] == '3b':
slot_id = 9
elif sys.argv[2] == '4b':
slot_id = 10
elif sys.argv[2] == '5b':
slot_id = 11
elif sys.argv[2] == '6b':
slot_id = 12
elif sys.argv[2] >= int('25'):
slot_id = int(sys.argv[2])
except:
print("setslot <id> <type> [value]")
print("<id> must be slot number 1a - 6b")
return
if sys.argv[3] == 'label':
only_key.setslot(slot_id, MessageField.LABEL, sys.argv[4])
elif sys.argv[3] == 'ecc_key_label':
only_key.setslot(slot_id+28, MessageField.LABEL, sys.argv[4])
elif sys.argv[3] == 'rsa_key_label':
only_key.setslot(slot_id+24, MessageField.LABEL, sys.argv[4])
elif sys.argv[3] == 'url':
only_key.setslot(slot_id, MessageField.URL, sys.argv[4])
elif sys.argv[3] == 'add_char2':
only_key.setslot(slot_id, MessageField.NEXTKEY1, sys.argv[4])
elif sys.argv[3] == 'delay1':
only_key.setslot(slot_id, MessageField.DELAY1, sys.argv[4])
elif sys.argv[3] == 'username':
only_key.setslot(slot_id, MessageField.USERNAME, sys.argv[4])
elif sys.argv[3] == 'add_char3':
only_key.setslot(slot_id, MessageField.NEXTKEY2, sys.argv[4])
elif sys.argv[3] == 'delay2':
only_key.setslot(slot_id, MessageField.DELAY2, sys.argv[4])
elif sys.argv[3] == 'password':
password = prompt_pass()
only_key.setslot(slot_id, MessageField.PASSWORD, password)
elif sys.argv[3] == 'add_char5':
only_key.setslot(slot_id, MessageField.NEXTKEY3, sys.argv[4])
elif sys.argv[3] == 'delay3':
only_key.setslot(slot_id, MessageField.DELAY3, sys.argv[4])
elif sys.argv[3] == '2fa':
only_key.setslot(slot_id, MessageField.TFATYPE, sys.argv[4])
elif sys.argv[3] == 'gkey':
totpkey = prompt_key()
totpkey = base64.b32decode(totpkey)
totpkey = binascii.hexlify(totpkey)
# pad with zeros for even digits
totpkey = totpkey.zfill(len(totpkey) + len(totpkey) % 2)
payload = [int(totpkey[i: i+2], 16) for i in range(0, len(totpkey), 2)]
only_key.setslot(slot_id, MessageField.TOTPKEY, payload)
elif sys.argv[3] == 'totpkey':
totpkey = prompt_key()
only_key.setslot(slot_id, MessageField.TOTPKEY, totpkey)
elif sys.argv[3] == 'add_char1':
only_key.setslot(slot_id, MessageField.NEXTKEY4, sys.argv[4])
elif sys.argv[3] == 'add_char4':
only_key.setslot(slot_id, MessageField.NEXTKEY5, sys.argv[4])
else:
print("setslot <id> <type> [value]")
print("<type> must be ['label', 'ecc_key_label', 'rsa_key_label', 'url', 'add_char1', 'delay1', 'username', 'add_char2', 'delay2', 'password', 'add_char3', 'delay3', '2fa', 'totpkey', 'add_char4', 'add_char5']")
return
elif sys.argv[1] == 'wipeslot':
try:
if sys.argv[2] == '1a':
slot_id = 1
elif sys.argv[2] == '2a':
slot_id = 2
elif sys.argv[2] == '3a':
slot_id = 3
elif sys.argv[2] == '4a':
slot_id = 4
elif sys.argv[2] == '5a':
slot_id = 5
elif sys.argv[2] == '6a':
slot_id = 6
elif sys.argv[2] == '1b':
slot_id = 7
elif sys.argv[2] == '2b':
slot_id = 8
elif sys.argv[2] == '3b':
slot_id = 9
elif sys.argv[2] == '4b':
slot_id = 10
elif sys.argv[2] == '5b':
slot_id = 11
elif sys.argv[2] == '6b':
slot_id = 12
elif sys.argv[2] >= int('25'):
slot_id = int(sys.argv[2])
except:
print("wipeslot <id>")
print("<id> must be slot number 1a - 6b")
return
only_key.wipeslot(slot_id)
elif sys.argv[1] == 'backupkey':
only_key.generate_backup_key()
elif sys.argv[1] == 'idletimeout':
only_key.setslot(1, MessageField.IDLETIMEOUT, int(sys.argv[2]))
elif sys.argv[1] == 'wipemode':
only_key.setslot(1, MessageField.WIPEMODE, int(sys.argv[2]))
elif sys.argv[1] == 'keytypespeed':
only_key.setslot(1, MessageField.KEYTYPESPEED, int(sys.argv[2]))
elif sys.argv[1] == 'led_brightness':
only_key.setslot(1, MessageField.LEDBRIGHTNESS, int(sys.argv[2]))
elif sys.argv[1] == '2nd_profile_mode':
only_key.setslot(1, MessageField.SECPROFILEMODE, int(sys.argv[2]))
elif sys.argv[1] == 'pgp_challenge_mode':
only_key.setslot(1, MessageField.PGPCHALENGEMODE, int(sys.argv[2]))
elif sys.argv[1] == 'ssh_challenge_mode':
only_key.setslot(1, MessageField.SSHCHALENGEMODE, int(sys.argv[2]))
elif sys.argv[1] == 'backup_key_mode':
only_key.setslot(1, MessageField.BACKUPMODE, int(sys.argv[2]))
elif sys.argv[1] == 'keylayout':
only_key.setslot(1, MessageField.KEYLAYOUT, int(sys.argv[2]))
elif sys.argv[1]:
print('Command not found')
print()
else:
# Print help.
print('OnlyKey CLI v0.6')
print('Control-D to exit.')
print()
def mprompt():
return prompt('OnlyKey> ')
nexte = mprompt
while 1:
print()
raw = nexte()
print()
data = raw.split()
# nexte = prompt_pass
if data[0] == "settime":
only_key.set_time(time.time())
if data[0] == "init":
while 1:
if only_key.read_string(timeout_ms=500) != 'UNINITIALIZED':
break
for msg in [Message.OKSETPIN]:
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
for msg in [Message.OKSETPDPIN]:
only_key.send_message(msg=msg)
print(only_key.read_string() + ' for second profile')
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string() + ' for second profile')
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
for msg in [Message.OKSETSDPIN]:
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
input('Press the Enter key once you are done')
only_key.send_message(msg=msg)
print(only_key.read_string())
print()
elif data[0] == 'getlabels':
tmp = {}
for slot in only_key.getlabels():
tmp[slot.name] = slot
slots = iter(['1a', '1b', '2a', '2b', '3a', '3b', '4a', '4b', '5a', '5b', '6a', '6b'])
for slot_name in slots:
print(tmp[slot_name].to_str())
print(tmp[next(slots)].to_str())
print()
if data[0] == 'getkeylabels':
tmp = {}
for slot in only_key.getkeylabels():
tmp[slot.name] = slot
slots = iter(['RSA Key 1', 'RSA Key 2', 'RSA Key 3', 'RSA Key 4', 'ECC Key 1', 'ECC Key 2', 'ECC Key 3', 'ECC Key 4', 'ECC Key 5', 'ECC Key 6', 'ECC Key 7', 'ECC Key 8', 'ECC Key 9', 'ECC Key 10', 'ECC Key 11', 'ECC Key 12', 'ECC Key 13', 'ECC Key 14', 'ECC Key 19', 'ECC Key 20', 'ECC Key 21', 'ECC Key 22', 'ECC Key 23', 'ECC Key 24', 'ECC Key 25', 'ECC Key 26', 'ECC Key 27', 'ECC Key 28', 'ECC Key 29'])
for slot_name in slots:
print(tmp[slot_name].to_str())
elif data[0] == 'setslot':
try:
if data[1] == '1a':
slot_id = 1
elif data[1] == '2a':
slot_id = 2
elif data[1] == '3a':
slot_id = 3
elif data[1] == '4a':
slot_id = 4
elif data[1] == '5a':
slot_id = 5
elif data[1] == '6a':
slot_id = 6
elif data[1] == '1b':
slot_id = 7
elif data[1] == '2b':
slot_id = 8
elif data[1] == '3b':
slot_id = 9
elif data[1] == '4b':
slot_id = 10
elif data[1] == '5b':
slot_id = 11
elif data[1] == '6b':
slot_id = 12
elif data[1] >= int('25'):
slot_id = int(data[1])
except:
print("setslot <id> <type> [value]")
print("<id> must be slot number 1a - 6b")
continue
if data[2] == 'label':
only_key.setslot(slot_id, MessageField.LABEL, data[3])
elif data[2] == 'ecc_key_label':
only_key.setslot(slot_id+28, MessageField.LABEL, data[3])
elif data[2] == 'rsa_key_label':
only_key.setslot(slot_id+24, MessageField.LABEL, data[3])
elif data[2] == 'url':
only_key.setslot(slot_id, MessageField.URL, data[3])
elif data[2] == 'add_char2':
only_key.setslot(slot_id, MessageField.NEXTKEY1, data[3])
elif data[2] == 'delay1':
only_key.setslot(slot_id, MessageField.DELAY1, data[3])
elif data[2] == 'username':
only_key.setslot(slot_id, MessageField.USERNAME, data[3])
elif data[2] == 'add_char3':
only_key.setslot(slot_id, MessageField.NEXTKEY2, data[3])
elif data[2] == 'delay2':
only_key.setslot(slot_id, MessageField.DELAY2, data[3])
elif data[2] == 'password':
password = prompt_pass()
only_key.setslot(slot_id, MessageField.PASSWORD, password)
elif data[2] == 'add_char5':
only_key.setslot(slot_id, MessageField.NEXTKEY3, data[3])
elif data[2] == 'delay3':
only_key.setslot(slot_id, MessageField.DELAY3, data[3])
elif data[2] == '2fa':
only_key.setslot(slot_id, MessageField.TFATYPE, data[3])
elif data[2] == 'gkey':
totpkey = prompt_key()
totpkey = base64.b32decode(totpkey)
totpkey = binascii.hexlify(totpkey)
# pad with zeros for even digits
totpkey = totpkey.zfill(len(totpkey) + len(totpkey) % 2)
payload = [int(totpkey[i: i+2], 16) for i in range(0, len(totpkey), 2)]
only_key.setslot(slot_id, MessageField.TOTPKEY, payload)
elif data[2] == 'totpkey':
totpkey = prompt_key()
only_key.setslot(slot_id, MessageField.TOTPKEY, totpkey)
elif data[2] == 'add_char1':
only_key.setslot(slot_id, MessageField.NEXTKEY3, data[3])
elif data[2] == 'add_char4':
only_key.setslot(slot_id, MessageField.NEXTKEY3, data[3])
else:
print("setslot <id> <type> [value]")
print("<type> must be ['label', 'ecc_key_label', 'rsa_key_label', 'url', 'add_char1', 'delay1', 'username', 'add_char2', 'delay2', 'password', 'add_char3', 'delay3', '2fa', 'totpkey', 'add_char4', 'add_char5']")
continue
elif data[0] == 'wipeslot':
try:
if data[1] == '1a':
slot_id = 1
elif data[1] == '2a':
slot_id = 2
elif data[1] == '3a':
slot_id = 3
elif data[1] == '4a':
slot_id = 4
elif data[1] == '5a':
slot_id = 5
elif data[1] == '6a':
slot_id = 6
elif data[1] == '1b':
slot_id = 7
elif data[1] == '2b':
slot_id = 8
elif data[1] == '3b':
slot_id = 9
elif data[1] == '4b':
slot_id = 10
elif data[1] == '5b':
slot_id = 11
elif data[1] == '6b':
slot_id = 12
elif data[1] >= int('25'):
slot_id = int(data[1])
except:
print("wipeslot <id>")
print("<id> must be slot number 1a - 6b")
continue
only_key.wipeslot(slot_id)
elif data[0] == 'backupkey':
try:
only_key.generate_backup_key()
except:
continue
elif data[0] == 'idletimeout':
try:
only_key.setslot(1, MessageField.IDLETIMEOUT, int(data[1]))
except:
continue
elif data[0] == 'wipemode':
try:
only_key.setslot(1, MessageField.WIPEMODE, int(data[1]))
except:
continue
elif data[0] == 'keytypespeed':
try:
only_key.setslot(1, MessageField.KEYTYPESPEED, int(data[1]))
except:
continue
elif data[0] == 'led_brightness':
try:
only_key.setslot(1, MessageField.LEDBRIGHTNESS, int(data[1]))
except:
continue
elif data[0] == 'pgp_challenge_mode':
try:
only_key.setslot(1, MessageField.PGPCHALENGEMODE, int(data[1]))
except:
continue
elif data[0] == 'ssh_challenge_mode':
try:
only_key.setslot(1, MessageField.SSHCHALENGEMODE, int(data[1]))
except:
continue
elif data[0] == 'backup_key_mode':
try:
only_key.setslot(1, MessageField.BACKUPMODE, int(data[1]))
except:
continue
elif data[0] == '2nd_profile_mode':
try:
only_key.setslot(1, MessageField.SECPROFILEMODE, int(data[1]))
except:
continue
elif data[0] == 'keylayout':
try:
only_key.setslot(1, MessageField.KEYLAYOUT, int(data[1]))
except:
continue
def main():
try:
cli()
except EOFError:
only_key._hid.close()
print()
print('Bye!')
pass