cli.py
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# -*- coding: utf-8 -*-
#
# Copyright 2011 Sybren A. Stüvel <sybren@stuvel.eu>
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Commandline scripts.
These scripts are called by the executables defined in setup.py.
"""
from __future__ import with_statement, print_function
import abc
import sys
from optparse import OptionParser
import rsa
import rsa.pkcs1
HASH_METHODS = sorted(rsa.pkcs1.HASH_METHODS.keys())
def keygen():
"""Key generator."""
# Parse the CLI options
parser = OptionParser(usage='usage: %prog [options] keysize',
description='Generates a new RSA keypair of "keysize" bits.')
parser.add_option('--pubout', type='string',
help='Output filename for the public key. The public key is '
'not saved if this option is not present. You can use '
'pyrsa-priv2pub to create the public key file later.')
parser.add_option('-o', '--out', type='string',
help='Output filename for the private key. The key is '
'written to stdout if this option is not present.')
parser.add_option('--form',
help='key format of the private and public keys - default PEM',
choices=('PEM', 'DER'), default='PEM')
(cli, cli_args) = parser.parse_args(sys.argv[1:])
if len(cli_args) != 1:
parser.print_help()
raise SystemExit(1)
try:
keysize = int(cli_args[0])
except ValueError:
parser.print_help()
print('Not a valid number: %s' % cli_args[0], file=sys.stderr)
raise SystemExit(1)
print('Generating %i-bit key' % keysize, file=sys.stderr)
(pub_key, priv_key) = rsa.newkeys(keysize)
# Save public key
if cli.pubout:
print('Writing public key to %s' % cli.pubout, file=sys.stderr)
data = pub_key.save_pkcs1(format=cli.form)
with open(cli.pubout, 'wb') as outfile:
outfile.write(data)
# Save private key
data = priv_key.save_pkcs1(format=cli.form)
if cli.out:
print('Writing private key to %s' % cli.out, file=sys.stderr)
with open(cli.out, 'wb') as outfile:
outfile.write(data)
else:
print('Writing private key to stdout', file=sys.stderr)
rsa._compat.write_to_stdout(data)
class CryptoOperation(object):
"""CLI callable that operates with input, output, and a key."""
__metaclass__ = abc.ABCMeta
keyname = 'public' # or 'private'
usage = 'usage: %%prog [options] %(keyname)s_key'
description = None
operation = 'decrypt'
operation_past = 'decrypted'
operation_progressive = 'decrypting'
input_help = 'Name of the file to %(operation)s. Reads from stdin if ' \
'not specified.'
output_help = 'Name of the file to write the %(operation_past)s file ' \
'to. Written to stdout if this option is not present.'
expected_cli_args = 1
has_output = True
key_class = rsa.PublicKey
def __init__(self):
self.usage = self.usage % self.__class__.__dict__
self.input_help = self.input_help % self.__class__.__dict__
self.output_help = self.output_help % self.__class__.__dict__
@abc.abstractmethod
def perform_operation(self, indata, key, cli_args):
"""Performs the program's operation.
Implement in a subclass.
:returns: the data to write to the output.
"""
def __call__(self):
"""Runs the program."""
(cli, cli_args) = self.parse_cli()
key = self.read_key(cli_args[0], cli.keyform)
indata = self.read_infile(cli.input)
print(self.operation_progressive.title(), file=sys.stderr)
outdata = self.perform_operation(indata, key, cli_args)
if self.has_output:
self.write_outfile(outdata, cli.output)
def parse_cli(self):
"""Parse the CLI options
:returns: (cli_opts, cli_args)
"""
parser = OptionParser(usage=self.usage, description=self.description)
parser.add_option('-i', '--input', type='string', help=self.input_help)
if self.has_output:
parser.add_option('-o', '--output', type='string', help=self.output_help)
parser.add_option('--keyform',
help='Key format of the %s key - default PEM' % self.keyname,
choices=('PEM', 'DER'), default='PEM')
(cli, cli_args) = parser.parse_args(sys.argv[1:])
if len(cli_args) != self.expected_cli_args:
parser.print_help()
raise SystemExit(1)
return cli, cli_args
def read_key(self, filename, keyform):
"""Reads a public or private key."""
print('Reading %s key from %s' % (self.keyname, filename), file=sys.stderr)
with open(filename, 'rb') as keyfile:
keydata = keyfile.read()
return self.key_class.load_pkcs1(keydata, keyform)
def read_infile(self, inname):
"""Read the input file"""
if inname:
print('Reading input from %s' % inname, file=sys.stderr)
with open(inname, 'rb') as infile:
return infile.read()
print('Reading input from stdin', file=sys.stderr)
return sys.stdin.read()
def write_outfile(self, outdata, outname):
"""Write the output file"""
if outname:
print('Writing output to %s' % outname, file=sys.stderr)
with open(outname, 'wb') as outfile:
outfile.write(outdata)
else:
print('Writing output to stdout', file=sys.stderr)
rsa._compat.write_to_stdout(outdata)
class EncryptOperation(CryptoOperation):
"""Encrypts a file."""
keyname = 'public'
description = ('Encrypts a file. The file must be shorter than the key '
'length in order to be encrypted.')
operation = 'encrypt'
operation_past = 'encrypted'
operation_progressive = 'encrypting'
def perform_operation(self, indata, pub_key, cli_args=None):
"""Encrypts files."""
return rsa.encrypt(indata, pub_key)
class DecryptOperation(CryptoOperation):
"""Decrypts a file."""
keyname = 'private'
description = ('Decrypts a file. The original file must be shorter than '
'the key length in order to have been encrypted.')
operation = 'decrypt'
operation_past = 'decrypted'
operation_progressive = 'decrypting'
key_class = rsa.PrivateKey
def perform_operation(self, indata, priv_key, cli_args=None):
"""Decrypts files."""
return rsa.decrypt(indata, priv_key)
class SignOperation(CryptoOperation):
"""Signs a file."""
keyname = 'private'
usage = 'usage: %%prog [options] private_key hash_method'
description = ('Signs a file, outputs the signature. Choose the hash '
'method from %s' % ', '.join(HASH_METHODS))
operation = 'sign'
operation_past = 'signature'
operation_progressive = 'Signing'
key_class = rsa.PrivateKey
expected_cli_args = 2
output_help = ('Name of the file to write the signature to. Written '
'to stdout if this option is not present.')
def perform_operation(self, indata, priv_key, cli_args):
"""Signs files."""
hash_method = cli_args[1]
if hash_method not in HASH_METHODS:
raise SystemExit('Invalid hash method, choose one of %s' %
', '.join(HASH_METHODS))
return rsa.sign(indata, priv_key, hash_method)
class VerifyOperation(CryptoOperation):
"""Verify a signature."""
keyname = 'public'
usage = 'usage: %%prog [options] public_key signature_file'
description = ('Verifies a signature, exits with status 0 upon success, '
'prints an error message and exits with status 1 upon error.')
operation = 'verify'
operation_past = 'verified'
operation_progressive = 'Verifying'
key_class = rsa.PublicKey
expected_cli_args = 2
has_output = False
def perform_operation(self, indata, pub_key, cli_args):
"""Verifies files."""
signature_file = cli_args[1]
with open(signature_file, 'rb') as sigfile:
signature = sigfile.read()
try:
rsa.verify(indata, signature, pub_key)
except rsa.VerificationError:
raise SystemExit('Verification failed.')
print('Verification OK', file=sys.stderr)
encrypt = EncryptOperation()
decrypt = DecryptOperation()
sign = SignOperation()
verify = VerifyOperation()