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authorUri Blumenthal <[email protected]>2015-08-14 16:02:41 -0400
committerUri Blumenthal <[email protected]>2015-08-14 16:02:41 -0400
commit3202d88d62f1d67c6227fb0757dde96f718183f2 (patch)
treeb1403acb43ea0cbf46684f2e702c27cdab05dfa0
parent496a33df7bff27655231ba9250bb2c1a550fc4c1 (diff)
Ported python demo script to python-3
-rwxr-xr-xsrc/python/botan.py190
1 files changed, 129 insertions, 61 deletions
diff --git a/src/python/botan.py b/src/python/botan.py
index fe8600e19..abfc07fd7 100755
--- a/src/python/botan.py
+++ b/src/python/botan.py
@@ -12,6 +12,8 @@ Botan is released under the Simplified BSD License (see license.txt)
import sys
from ctypes import *
+from binascii import hexlify, unhexlify
+import base64
"""
Module initialization
@@ -48,7 +50,11 @@ class rng(object):
def __init__(self, rng_type = 'system'):
botan.botan_rng_init.argtypes = [c_void_p, c_char_p]
self.rng = c_void_p(0)
- rc = botan.botan_rng_init(byref(self.rng), rng_type)
+ if sys.version_info[0] < 3:
+ rc = botan.botan_rng_init(byref(self.rng), rng_type)
+ else:
+ rc = botan.botan_rng_init(byref(self.rng), rng_type.encode('ascii'))
+
if rc != 0 or self.rng is None:
raise Exception("No rng " + algo + " for you!")
@@ -65,7 +71,10 @@ class rng(object):
out = create_string_buffer(length)
l = c_size_t(length)
rc = botan.botan_rng_get(self.rng, out, l)
- return str(out.raw)
+ if sys.version_info[0] < 3:
+ return str(out.raw)
+ else:
+ return out.raw
"""
Hash function
@@ -75,7 +84,10 @@ class hash_function(object):
botan.botan_hash_init.argtypes = [c_void_p, c_char_p, c_uint32]
flags = c_uint32(0) # always zero in this API version
self.hash = c_void_p(0)
- rc = botan.botan_hash_init(byref(self.hash), algo, flags)
+ if sys.version_info[0] < 3:
+ rc = botan.botan_hash_init(byref(self.hash), algo, flags)
+ else:
+ rc = botan.botan_hash_init(byref(self.hash), algo.encode('utf-8'), flags)
if rc != 0 or self.hash is None:
raise Exception("No hash " + algo + " for you!")
@@ -101,7 +113,10 @@ class hash_function(object):
botan.botan_hash_final.argtypes = [c_void_p, POINTER(c_char)]
out = create_string_buffer(self.output_length())
botan.botan_hash_final(self.hash, out)
- return str(out.raw)
+ if sys.version_info[0] < 3:
+ return str(out.raw)
+ else:
+ return out.raw
"""
Message authentication codes
@@ -141,14 +156,20 @@ class message_authentication_code(object):
botan.botan_mac_final.argtypes = [c_void_p, POINTER(c_char)]
out = create_string_buffer(self.output_length())
botan.botan_mac_final(self.mac, out)
- return str(out.raw)
+ if sys.version_info[0] < 3:
+ return str(out.raw)
+ else:
+ return out.raw
class cipher(object):
def __init__(self, algo, encrypt = True):
botan.botan_cipher_init.argtypes = [c_void_p,c_char_p, c_uint32]
flags = 0 if encrypt else 1
self.cipher = c_void_p(0)
- rc = botan.botan_cipher_init(byref(self.cipher), algo, flags)
+ if sys.version_info[0] < 3:
+ rc = botan.botan_cipher_init(byref(self.cipher), algo, flags)
+ else:
+ rc = botan.botan_cipher_init(byref(self.cipher), algo.encode('utf-8'), flags)
if rc != 0 or self.cipher is None:
raise Exception("No cipher " + algo + " for you!")
@@ -207,6 +228,8 @@ class cipher(object):
inp = txt if txt else ''
inp_sz = c_size_t(len(inp))
+ if sys.version_info[0] >= 3:
+ inp = cast(inp, c_char_p)
inp_consumed = c_size_t(0)
out = create_string_buffer(inp_sz.value + (self.tag_length() if final else 0))
out_sz = c_size_t(len(out))
@@ -310,8 +333,11 @@ class public_key(object):
n = hash_function(hash).output_length()
buf = create_string_buffer(n)
buf_len = c_size_t(n)
+ if sys.version_info[0] > 2:
+ hash = hash.encode('utf-8')
+
botan.botan_pubkey_fingerprint(self.pubkey, hash, buf, byref(buf_len))
- return buf[0:buf_len.value].encode('hex')
+ return hexlify(buf[0:buf_len.value])
class private_key(object):
def __init__(self, alg, param, rng):
@@ -362,6 +388,8 @@ class pk_op_encrypt(object):
botan.botan_pk_op_encrypt_create.argtypes = [c_void_p, c_void_p, c_char_p, c_uint32]
self.op = c_void_p(0)
flags = c_uint32(0) # always zero in this ABI
+ if sys.version_info[0] > 2:
+ padding = cast(padding, c_char_p)
botan.botan_pk_op_encrypt_create(byref(self.op), key.pubkey, padding, flags)
if not self.op:
raise Exception("No pk op for you")
@@ -377,14 +405,23 @@ class pk_op_encrypt(object):
outbuf_sz = c_size_t(4096) #?!?!
outbuf = create_string_buffer(outbuf_sz.value)
- botan.botan_pk_op_encrypt(self.op, rng.rng, outbuf, byref(outbuf_sz), msg, len(msg))
+ ll = len(msg)
+ #print("encrypt: len=%d" % ll)
+ if sys.version_info[0] > 2:
+ msg = cast(msg, c_char_p)
+ ll = c_size_t(ll)
+ botan.botan_pk_op_encrypt(self.op, rng.rng, outbuf, byref(outbuf_sz), msg, ll)
+ #print("encrypt: outbuf_sz.value=%d" % outbuf_sz.value)
return outbuf.raw[0:outbuf_sz.value]
+
class pk_op_decrypt(object):
def __init__(self, key, padding):
botan.botan_pk_op_decrypt_create.argtypes = [c_void_p, c_void_p, c_char_p, c_uint32]
self.op = c_void_p(0)
flags = c_uint32(0) # always zero in this ABI
+ if sys.version_info[0] > 2:
+ padding = cast(padding, c_char_p)
botan.botan_pk_op_decrypt_create(byref(self.op), key.privkey, padding, flags)
if not self.op:
raise Exception("No pk op for you")
@@ -400,7 +437,11 @@ class pk_op_decrypt(object):
outbuf_sz = c_size_t(4096) #?!?!
outbuf = create_string_buffer(outbuf_sz.value)
- botan.botan_pk_op_decrypt(self.op, outbuf, byref(outbuf_sz), msg, len(msg))
+ ll = len(msg)
+ if sys.version_info[0] > 2:
+ msg = cast(msg, c_char_p)
+ ll = c_size_t(ll)
+ botan.botan_pk_op_decrypt(self.op, outbuf, byref(outbuf_sz), msg, ll)
return outbuf.raw[0:outbuf_sz.value]
class pk_op_sign(object):
@@ -408,6 +449,8 @@ class pk_op_sign(object):
botan.botan_pk_op_sign_create.argtypes = [c_void_p, c_void_p, c_char_p, c_uint32]
self.op = c_void_p(0)
flags = c_uint32(0) # always zero in this ABI
+ if sys.version_info[0] > 2:
+ padding = cast(padding, c_char_p)
botan.botan_pk_op_sign_create(byref(self.op), key.privkey, padding, flags)
if not self.op:
raise Exception("No pk op for you")
@@ -495,46 +538,65 @@ def test():
r = rng("user")
- print("\n%s" % version_string())
+ print("\n%s" % version_string().decode('utf-8'))
print("v%d.%d.%d\n" % (version_major(), version_minor(), version_patch()))
print("KDF2(SHA-1) %s" %
- kdf('KDF2(SHA-1)', '701F3480DFE95F57941F804B1B2413EF'.decode('hex'), 7,
- '55A4E9DD5F4CA2EF82'.decode('hex')).encode('hex'))
+ base64.b16encode(kdf('KDF2(SHA-1)'.encode('ascii'), unhexlify('701F3480DFE95F57941F804B1B2413EF'), 7,
+ unhexlify('55A4E9DD5F4CA2EF82'))
+ ).decode('ascii')
+ )
print("PBKDF2(SHA-1) %s" %
- pbkdf('PBKDF2(SHA-1)', '', 32, 10000,
- '0001020304050607'.decode('hex'))[2].encode('hex').upper())
+ hexlify(pbkdf('PBKDF2(SHA-1)'.encode('ascii'), ''.encode('ascii'), 32, 10000,
+ unhexlify('0001020304050607'))
+ [2]
+ ).upper().decode('ascii'))
print("good output %s\n" %
'59B2B1143B4CB1059EC58D9722FB1C72471E0D85C6F7543BA5228526375B0127')
- (salt,iterations,psk) = pbkdf_timed('PBKDF2(SHA-256)', 'xyz', 32, 200)
- print("PBKDF2(SHA-256) x=timed, y=iterated; salt = %s #iterations = %d\n" %
- (salt.encode('hex'), iterations))
- print('x %s' % psk.encode('hex'))
+
+
+ (salt,iterations,psk) = pbkdf_timed('PBKDF2(SHA-256)'.encode('ascii'),
+ 'xyz'.encode('utf-8'), 32, 200)
+
+ if sys.version_info[0] < 3:
+ print("PBKDF2(SHA-256) x=timed, y=iterated; salt = %s (len=%d) #iterations = %d\n" %
+ (hexlify(salt), len(salt), iterations) )
+ else:
+ print("PBKDF2(SHA-256) x=timed, y=iterated; salt = %s (len=%d) #iterations = %d\n" %
+ (base64.b16encode(salt).decode('ascii'), len(salt), iterations) )
+
+ print('x %s' % hexlify(psk).decode('utf-8'))
print('y %s\n' %
- (pbkdf('PBKDF2(SHA-256)', 'xyz', 32, iterations, salt)[2].encode('hex')))
+ (hexlify(pbkdf('PBKDF2(SHA-256)'.encode('utf-8'),
+ 'xyz'.encode('ascii'), 32, iterations, salt)[2]).decode('utf-8')))
- hmac = message_authentication_code('HMAC(SHA-256)')
- hmac.set_key('0102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F20'.decode('hex'))
- hmac.update('616263'.decode('hex'))
+ hmac = message_authentication_code('HMAC(SHA-256)'.encode('ascii'))
+ hmac.set_key(unhexlify('0102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F20'))
+ hmac.update(unhexlify('616263'))
hmac_output = hmac.final()
-
- if hmac_output != 'A21B1F5D4CF4F73A4DD939750F7A066A7F98CC131CB16A6692759021CFAB8181'.decode('hex'):
- print('Bad HMAC\n')
+
+ if hmac_output != unhexlify('A21B1F5D4CF4F73A4DD939750F7A066A7F98CC131CB16A6692759021CFAB8181'):
+ print("Bad HMAC:\t%s" % hexlify(bytes(hmac_output, 'utf-8')).decode('utf-8'))
+ print("vs good: \tA21B1F5D4CF4F73A4DD939750F7A066A7F98CC131CB16A6692759021CFAB8181");
else:
- print("HMAC output (good): %s\n" % hmac_output.encode('hex'))
+ print("HMAC output (good): %s\n" % hexlify(hmac_output).decode('utf-8'))
print("rng output:\n\t%s\n\t%s\n\t%s\n" %
- (r.get(42).encode('hex'), r.get(13).encode('hex'), r.get(9).encode('hex')))
+ (hexlify(r.get(42)).decode('utf-8'),
+ hexlify(r.get(13)).decode('utf-8'),
+ hexlify(r.get(9)).decode('utf-8')
+ )
+ )
h = hash_function('MD5')
assert h.output_length() == 16
- h.update('h')
- h.update('i')
- print("md5 hash: %s\n" % (h.final().encode('hex')))
+ h.update('h'.encode('utf-8'))
+ h.update('i'.encode('utf-8'))
+ print("md5 hash: %s\n" % (hexlify(h.final())).decode('utf-8'))
gcm = cipher('AES-128/GCM')
@@ -549,13 +611,13 @@ def test():
gcm.start(iv)
assert len(gcm.update('')) == 0
ct = gcm.finish(pt)
- print("GCM ct %s" % ct.encode('hex'))
+ print("GCM ct %s" % hexlify(ct).decode('utf-8'))
gcm_dec.set_key(key)
gcm_dec.start(iv)
dec = gcm_dec.finish(ct)
- print("GCM pt %s %d" % (pt.encode('hex'), len(pt)))
- print("GCM de %s %d\n" % (dec.encode('hex'), len(dec)))
+ print("GCM pt %s %d" % (hexlify(pt).decode('utf-8'), len(pt)))
+ print("GCM de %s %d\n" % (hexlify(dec).decode('utf-8'), len(dec)))
ocb = cipher('AES-128/OCB')
print("AES-128/OCB: default nonce=%d update_size=%d" %
@@ -569,54 +631,58 @@ def test():
ocb.start(iv)
assert len(ocb.update('')) == 0
ct = ocb.finish(pt)
- print("OCB ct %s" % ct.encode('hex'))
+ print("OCB ct %s" % hexlify(ct).decode('utf-8'))
ocb_dec.set_key(key)
ocb_dec.start(iv)
dec = ocb_dec.finish(ct)
- print("OCB pt %s %d" % (pt.encode('hex'), len(pt)))
- print("OCB de %s %d\n" % (dec.encode('hex'), len(dec)))
+ print("OCB pt %s %d" % (hexlify(pt).decode('utf-8'), len(pt)))
+ print("OCB de %s %d\n" % (hexlify(dec).decode('utf-8'), len(dec)))
rsapriv = private_key('rsa', 1536, r)
- dec = pk_op_decrypt(rsapriv, "EME1(SHA-256)")
-
rsapub = rsapriv.get_public_key()
+
print("rsapub %s/SHA-1 fingerprint: %s (estimated strength %s)" %
- (rsapub.algo_name(), rsapub.fingerprint("SHA-1"), rsapub.estimated_strength()))
+ (rsapub.algo_name().decode('utf-8'), rsapub.fingerprint("SHA-1").decode('utf-8'),
+ rsapub.estimated_strength()
+ )
+ )
- enc = pk_op_encrypt(rsapub, "EME1(SHA-256)")
+ dec = pk_op_decrypt(rsapriv, "EME1(SHA-256)".encode('utf-8'))
+ enc = pk_op_encrypt(rsapub, "EME1(SHA-256)".encode('utf-8'))
- ctext = enc.encrypt('foof', r)
+ ctext = enc.encrypt('foof'.encode('utf-8'), r)
print("ptext \'%s\'" % 'foof')
- print("ctext \'%s\'" % ctext.encode('hex'))
- print("decrypt \'%s\'\n" % dec.decrypt(ctext))
+ print("ctext \'%s\'" % hexlify(ctext).decode('utf-8'))
+ print("decrypt \'%s\'\n" % dec.decrypt(ctext).decode('utf-8'))
- signer = pk_op_sign(rsapriv, 'EMSA4(SHA-384)')
+ signer = pk_op_sign(rsapriv, 'EMSA4(SHA-384)'.encode('utf-8'))
- signer.update('messa')
- signer.update('ge')
+ signer.update('messa'.encode('utf-8'))
+ signer.update('ge'.encode('utf-8'))
sig = signer.finish(r)
r.reseed(200)
- print("EMSA4(SHA-384) signature: %s" % sig.encode('hex'))
+ print("EMSA4(SHA-384) signature: %s" % hexlify(sig).decode('utf-8'))
- verify = pk_op_verify(rsapub, 'EMSA4(SHA-384)')
+
+ verify = pk_op_verify(rsapub, 'EMSA4(SHA-384)'.encode('utf-8'))
- verify.update('mess')
- verify.update('age')
+ verify.update('mess'.encode('utf-8'))
+ verify.update('age'.encode('utf-8'))
print("good sig accepted? %s" % verify.check_signature(sig))
- verify.update('mess of things')
- verify.update('age')
+ verify.update('mess of things'.encode('utf-8'))
+ verify.update('age'.encode('utf-8'))
print("bad sig accepted? %s" % verify.check_signature(sig))
- verify.update('message')
+ verify.update('message'.encode('utf-8'))
print("good sig accepted? %s\n" % verify.check_signature(sig))
- dh_grp = 'secp256r1'
- #dh_grp = 'curve25519'
- dh_kdf = 'KDF2(SHA-384)'
+ dh_grp = 'secp256r1'.encode('utf-8')
+ #dh_grp = 'curve25519'.encode('utf-8')
+ dh_kdf = 'KDF2(SHA-384)'.encode('utf-8')
a_dh_priv = private_key('ecdh', dh_grp, r)
a_dh_pub = a_dh_priv.get_public_key()
@@ -626,13 +692,15 @@ def test():
a_dh = pk_op_key_agreement(a_dh_priv, dh_kdf)
b_dh = pk_op_key_agreement(b_dh_priv, dh_kdf)
- print("dh pubs\n\t%s\n\t%s\n" %
- (a_dh.public_value().encode('hex'), b_dh.public_value().encode('hex')))
+ print("ecdh pubs:\n %s\n %s\n" %
+ (hexlify(a_dh.public_value()).decode('utf-8'),
+ hexlify(b_dh.public_value()).decode('utf-8')))
- a_key = a_dh.agree(b_dh.public_value(), 20, 'salt')
- b_key = b_dh.agree(a_dh.public_value(), 20, 'salt')
+ a_key = a_dh.agree(b_dh.public_value(), 20, 'salt'.encode('utf-8'))
+ b_key = b_dh.agree(a_dh.public_value(), 20, 'salt'.encode('utf-8'))
- print("dh shared\n\t%s\n\t%s\n" % (a_key.encode('hex'), b_key.encode('hex')))
+ print("ecdh shared:\n %s\n %s\n" %
+ (hexlify(a_key).decode('utf-8'), hexlify(b_key).decode('utf-8')))
#f = open('key.ber','wb')