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path: root/srp/_ctsrp.py
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  # N    A large safe prime (N = 2q+1, where q is prime)
  #      All arithmetic is done modulo N.
  # g    A generator modulo N
  # k    Multiplier parameter (k = H(N, g) in SRP-6a, k = 3 for legacy SRP-6)
  # s    User's salt
  # I    Username
  # p    Cleartext Password
  # H()  One-way hash function
  # ^    (Modular) Exponentiation
  # u    Random scrambling parameter
  # a,b  Secret ephemeral values
  # A,B  Public ephemeral values
  # x    Private key (derived from p and s)
  # v    Password verifier
  
import os
import sys
import hashlib
import random
import ctypes
import time



SHA1   = 0
SHA224 = 1
SHA256 = 2
SHA384 = 3
SHA512 = 4

NG_1024   = 0
NG_2048   = 1
NG_4096   = 2
NG_8192   = 3
NG_CUSTOM = 4

_hash_map = { SHA1   : hashlib.sha1,
              SHA224 : hashlib.sha224,
              SHA256 : hashlib.sha256,
              SHA384 : hashlib.sha384,
              SHA512 : hashlib.sha512 }
              
              
_ng_const = (
# 1024-bit
('''\
EEAF0AB9ADB38DD69C33F80AFA8FC5E86072618775FF3C0B9EA2314C9C256576D674DF7496\
EA81D3383B4813D692C6E0E0D5D8E250B98BE48E495C1D6089DAD15DC7D7B46154D6B6CE8E\
F4AD69B15D4982559B297BCF1885C529F566660E57EC68EDBC3C05726CC02FD4CBF4976EAA\
9AFD5138FE8376435B9FC61D2FC0EB06E3''',
"2"),
# 2048
('''\
AC6BDB41324A9A9BF166DE5E1389582FAF72B6651987EE07FC3192943DB56050A37329CBB4\
A099ED8193E0757767A13DD52312AB4B03310DCD7F48A9DA04FD50E8083969EDB767B0CF60\
95179A163AB3661A05FBD5FAAAE82918A9962F0B93B855F97993EC975EEAA80D740ADBF4FF\
747359D041D5C33EA71D281E446B14773BCA97B43A23FB801676BD207A436C6481F1D2B907\
8717461A5B9D32E688F87748544523B524B0D57D5EA77A2775D2ECFA032CFBDBF52FB37861\
60279004E57AE6AF874E7303CE53299CCC041C7BC308D82A5698F3A8D0C38271AE35F8E9DB\
FBB694B5C803D89F7AE435DE236D525F54759B65E372FCD68EF20FA7111F9E4AFF73''',
"2"),
# 4096
('''\
FFFFFFFFFFFFFFFFC90FDAA22168C234C4C6628B80DC1CD129024E08\
8A67CC74020BBEA63B139B22514A08798E3404DDEF9519B3CD3A431B\
302B0A6DF25F14374FE1356D6D51C245E485B576625E7EC6F44C42E9\
A637ED6B0BFF5CB6F406B7EDEE386BFB5A899FA5AE9F24117C4B1FE6\
49286651ECE45B3DC2007CB8A163BF0598DA48361C55D39A69163FA8\
FD24CF5F83655D23DCA3AD961C62F356208552BB9ED529077096966D\
670C354E4ABC9804F1746C08CA18217C32905E462E36CE3BE39E772C\
180E86039B2783A2EC07A28FB5C55DF06F4C52C9DE2BCBF695581718\
3995497CEA956AE515D2261898FA051015728E5A8AAAC42DAD33170D\
04507A33A85521ABDF1CBA64ECFB850458DBEF0A8AEA71575D060C7D\
B3970F85A6E1E4C7ABF5AE8CDB0933D71E8C94E04A25619DCEE3D226\
1AD2EE6BF12FFA06D98A0864D87602733EC86A64521F2B18177B200C\
BBE117577A615D6C770988C0BAD946E208E24FA074E5AB3143DB5BFC\
E0FD108E4B82D120A92108011A723C12A787E6D788719A10BDBA5B26\
99C327186AF4E23C1A946834B6150BDA2583E9CA2AD44CE8DBBBC2DB\
04DE8EF92E8EFC141FBECAA6287C59474E6BC05D99B2964FA090C3A2\
233BA186515BE7ED1F612970CEE2D7AFB81BDD762170481CD0069127\
D5B05AA993B4EA988D8FDDC186FFB7DC90A6C08F4DF435C934063199\
FFFFFFFFFFFFFFFF''',
"5"),
# 8192
('''\
FFFFFFFFFFFFFFFFC90FDAA22168C234C4C6628B80DC1CD129024E08\
8A67CC74020BBEA63B139B22514A08798E3404DDEF9519B3CD3A431B\
302B0A6DF25F14374FE1356D6D51C245E485B576625E7EC6F44C42E9\
A637ED6B0BFF5CB6F406B7EDEE386BFB5A899FA5AE9F24117C4B1FE6\
49286651ECE45B3DC2007CB8A163BF0598DA48361C55D39A69163FA8\
FD24CF5F83655D23DCA3AD961C62F356208552BB9ED529077096966D\
670C354E4ABC9804F1746C08CA18217C32905E462E36CE3BE39E772C\
180E86039B2783A2EC07A28FB5C55DF06F4C52C9DE2BCBF695581718\
3995497CEA956AE515D2261898FA051015728E5A8AAAC42DAD33170D\
04507A33A85521ABDF1CBA64ECFB850458DBEF0A8AEA71575D060C7D\
B3970F85A6E1E4C7ABF5AE8CDB0933D71E8C94E04A25619DCEE3D226\
1AD2EE6BF12FFA06D98A0864D87602733EC86A64521F2B18177B200C\
BBE117577A615D6C770988C0BAD946E208E24FA074E5AB3143DB5BFC\
E0FD108E4B82D120A92108011A723C12A787E6D788719A10BDBA5B26\
99C327186AF4E23C1A946834B6150BDA2583E9CA2AD44CE8DBBBC2DB\
04DE8EF92E8EFC141FBECAA6287C59474E6BC05D99B2964FA090C3A2\
233BA186515BE7ED1F612970CEE2D7AFB81BDD762170481CD0069127\
D5B05AA993B4EA988D8FDDC186FFB7DC90A6C08F4DF435C934028492\
36C3FAB4D27C7026C1D4DCB2602646DEC9751E763DBA37BDF8FF9406\
AD9E530EE5DB382F413001AEB06A53ED9027D831179727B0865A8918\
DA3EDBEBCF9B14ED44CE6CBACED4BB1BDB7F1447E6CC254B33205151\
2BD7AF426FB8F401378CD2BF5983CA01C64B92ECF032EA15D1721D03\
F482D7CE6E74FEF6D55E702F46980C82B5A84031900B1C9E59E7C97F\
BEC7E8F323A97A7E36CC88BE0F1D45B7FF585AC54BD407B22B4154AA\
CC8F6D7EBF48E1D814CC5ED20F8037E0A79715EEF29BE32806A1D58B\
B7C5DA76F550AA3D8A1FBFF0EB19CCB1A313D55CDA56C9EC2EF29632\
387FE8D76E3C0468043E8F663F4860EE12BF2D5B0B7474D6E694F91E\
6DBE115974A3926F12FEE5E438777CB6A932DF8CD8BEC4D073B931BA\
3BC832B68D9DD300741FA7BF8AFC47ED2576F6936BA424663AAB639C\
5AE4F5683423B4742BF1C978238F16CBE39D652DE3FDB8BEFC848AD9\
22222E04A4037C0713EB57A81A23F0C73473FC646CEA306B4BCBC886\
2F8385DDFA9D4B7FA2C087E879683303ED5BDD3A062B3CF5B3A278A6\
6D2A13F83F44F82DDF310EE074AB6A364597E899A0255DC164F31CC5\
0846851DF9AB48195DED7EA1B1D510BD7EE74D73FAF36BC31ECFA268\
359046F4EB879F924009438B481C6CD7889A002ED5EE382BC9190DA6\
FC026E479558E4475677E9AA9E3050E2765694DFC81F56E880B96E71\
60C980DD98EDD3DFFFFFFFFFFFFFFFFF''',
'13')
)



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
#G_HEX  = "2"
#HNxorg = None

dlls = list()

if 'win' in sys.platform:
    for d in ('libeay32.dll', 'libssl32.dll', 'ssleay32.dll'):
        try:
            dlls.append( ctypes.cdll.LoadLibrary(d) )
        except:
            pass
else:
    dlls.append( ctypes.cdll.LoadLibrary('libssl.so') )
        
    
class BIGNUM_Struct (ctypes.Structure):
    _fields_ = [ ("d",     ctypes.c_void_p),
                 ("top",   ctypes.c_int),
                 ("dmax",  ctypes.c_int),
                 ("neg",   ctypes.c_int),
                 ("flags", ctypes.c_int) ]

                 
class BN_CTX_Struct (ctypes.Structure):
    _fields_ = [ ("_", ctypes.c_byte) ]

    
BIGNUM = ctypes.POINTER( BIGNUM_Struct )
BN_CTX = ctypes.POINTER( BN_CTX_Struct )


def load_func( name, args, returns = ctypes.c_int):
    d = sys.modules[ __name__ ].__dict__
    f = None
    
    for dll in dlls:
        try:
            f = getattr(dll, name)
            f.argtypes = args
            f.restype  = returns
            d[ name ] = f
            return
        except:
            pass
    raise ImportError('Unable to load required functions from SSL dlls')
    
    
load_func( 'BN_new',   [],         BIGNUM )
load_func( 'BN_free',  [ BIGNUM ], None )
load_func( 'BN_init',  [ BIGNUM ], None )
load_func( 'BN_clear', [ BIGNUM ], None )

load_func( 'BN_CTX_new',  []        , BN_CTX )
load_func( 'BN_CTX_init', [ BN_CTX ], None   )
load_func( 'BN_CTX_free', [ BN_CTX ], None   )

load_func( 'BN_cmp',      [ BIGNUM, BIGNUM ], ctypes.c_int )

load_func( 'BN_num_bits', [ BIGNUM ], ctypes.c_int )

load_func( 'BN_add',     [ BIGNUM, BIGNUM, BIGNUM ] )
load_func( 'BN_sub',     [ BIGNUM, BIGNUM, BIGNUM ] )
load_func( 'BN_mul',     [ BIGNUM, BIGNUM, BIGNUM, BN_CTX ] )
load_func( 'BN_div',     [ BIGNUM, BIGNUM, BIGNUM, BIGNUM, BN_CTX ] )
load_func( 'BN_mod_exp', [ BIGNUM, BIGNUM, BIGNUM, BIGNUM, BN_CTX ] )

load_func( 'BN_rand',    [ BIGNUM, ctypes.c_int, ctypes.c_int, ctypes.c_int ] )

load_func( 'BN_bn2bin',  [ BIGNUM, ctypes.c_char_p ] )
load_func( 'BN_bin2bn',  [ ctypes.c_char_p, ctypes.c_int, BIGNUM ], BIGNUM )

load_func( 'BN_hex2bn',  [ ctypes.POINTER(BIGNUM), ctypes.c_char_p ] )
load_func( 'BN_bn2hex',  [ BIGNUM ], ctypes.c_char_p )

load_func( 'CRYPTO_free', [ ctypes.c_char_p ] )

load_func( 'RAND_seed', [ ctypes.c_char_p, ctypes.c_int ] )


def BN_num_bytes(a):
    return ((BN_num_bits(a)+7)/8)


def BN_mod(rem,m,d,ctx):
    return BN_div(None, rem, m, d, ctx)


def BN_is_zero( n ):
    return n[0].top == 0


def bn_to_bytes( n ):
    b = ctypes.create_string_buffer( BN_num_bytes(n) )
    BN_bn2bin(n, b)
    return b.raw

    
def bytes_to_bn( dest_bn, bytes ):
    BN_bin2bn(bytes, len(bytes), dest_bn)
    
 
def H_str( hash_class, dest_bn, s ):
    d = hash_class(s).digest()
    buff = ctypes.create_string_buffer( s )
    BN_bin2bn(d, len(d), dest)


def H_bn( hash_class, dest, n ):
    bin = ctypes.create_string_buffer( BN_num_bytes(n) )
    BN_bn2bin(n, bin)
    d = hash_class( bin.raw ).digest()
    BN_bin2bn(d, len(d), dest)
    
    
def H_bn_bn( hash_class, dest, n1, n2 ):
    h    = hash_class()
    bin1 = ctypes.create_string_buffer( BN_num_bytes(n1) )
    bin2 = ctypes.create_string_buffer( BN_num_bytes(n2) )
    BN_bn2bin(n1, bin1)
    BN_bn2bin(n2, bin2)
    h.update( bin1.raw )
    h.update( bin2.raw )
    d = h.digest()
    BN_bin2bn(d, len(d), dest)
    
    
def H_bn_str( hash_class, dest, n, s ):
    h   = hash_class()
    bin = ctypes.create_string_buffer( BN_num_bytes(n) )
    BN_bn2bin(n, bin)
    h.update( bin.raw )
    h.update( s )
    d = h.digest()
    BN_bin2bn(d, len(d), dest)
 
    
def calculate_x( hash_class, dest, salt, username, password ):
    up = hash_class('%s:%s' % (username, password )).digest()
    H_bn_str( hash_class, dest, salt, up )
    
    
def update_hash( ctx, n ):
    buff = ctypes.create_string_buffer( BN_num_bytes(n) )
    BN_bn2bin(n, buff)
    ctx.update( buff.raw )

    
def calculate_M( hash_class, N, g, I, s, A, B, K ):
    h = hash_class()
    h.update( HNxorg( hash_class, N, g ) )
    h.update( hash_class(I).digest() )
    update_hash( h, s )
    update_hash( h, A )
    update_hash( h, B )
    h.update( K )
    return h.digest()
    

def calculate_H_AMK( hash_class, A, M, K ):
    h = hash_class()
    update_hash( h, A )
    h.update( M )
    h.update( K )
    return h.digest()

    
def HNxorg( hash_class, N, g ):    
    bN = ctypes.create_string_buffer( BN_num_bytes(N) )
    bg = ctypes.create_string_buffer( BN_num_bytes(g) )
    
    BN_bn2bin(N, bN)
    BN_bn2bin(g, bg)
    
    hN = hash_class( bN.raw ).digest()
    hg = hash_class( bg.raw ).digest()
    
    return ''.join( chr( ord(hN[i]) ^ ord(hg[i]) ) for i in range(0,len(hN)) )



def get_ngk( hash_class, ng_type, n_hex, g_hex ):
    if ng_type < NG_CUSTOM:
        n_hex, g_hex = _ng_const[ ng_type ]
    N = BN_new()
    g = BN_new()
    k = BN_new()
    
    BN_hex2bn( N, n_hex )
    BN_hex2bn( g, g_hex )
    H_bn_bn(hash_class, k, N, g)

    return N, g, k

    
  
def create_salted_verification_key( username, password, hash_alg=SHA1, ng_type=NG_2048, n_hex=None, g_hex=None ):
    if ng_type == NG_CUSTOM and (n_hex is None or g_hex is None):
        raise ValueError("Both n_hex and g_hex are required when ng_type = NG_CUSTOM")
    s    = BN_new()
    v    = BN_new()
    x    = BN_new()
    ctx  = BN_CTX_new()
    
    hash_class = _hash_map[ hash_alg ]
    N,g,k      = get_ngk( hash_class, ng_type, n_hex, g_hex )

    BN_rand(s, 32, -1, 0);
        
    calculate_x( hash_class, x, s, username, password )
        
    BN_mod_exp(v, g, x, N, ctx)
    
    salt     = bn_to_bytes( s )
    verifier = bn_to_bytes( v )
    
    BN_free(s)
    BN_free(v)
    BN_free(x)
    BN_free(N)
    BN_free(g)
    BN_free(k)
    BN_CTX_free(ctx)
    
    return salt, verifier
    
  

class Verifier (object):
    def __init__(self,  username, bytes_s, bytes_v, bytes_A, hash_alg=SHA1, ng_type=NG_2048, n_hex=None, g_hex=None):
        if ng_type == NG_CUSTOM and (n_hex is None or g_hex is None):
            raise ValueError("Both n_hex and g_hex are required when ng_type = NG_CUSTOM")
        self.A     = BN_new()
        self.B     = BN_new()
        self.K     = None
        self.S     = BN_new()
        self.u     = BN_new()
        self.b     = BN_new()
        self.s     = BN_new()
        self.v     = BN_new()
        self.tmp1  = BN_new()
        self.tmp2  = BN_new()
        self.ctx   = BN_CTX_new()
        self.I     = username
        self.M     = None
        self.H_AMK = None
        self._authenticated = False
        
        self.safety_failed = False
        
        hash_class = _hash_map[ hash_alg ]
        N,g,k      = get_ngk( hash_class, ng_type, n_hex, g_hex )
        
        self.hash_class = hash_class
        self.N          = N
        self.g          = g
        self.k          = k
        
        bytes_to_bn( self.s, bytes_s )
        bytes_to_bn( self.v, bytes_v )        
        bytes_to_bn( self.A, bytes_A )
        
        # SRP-6a safety check
        BN_mod(self.tmp1, self.A, N, self.ctx)
        
        if BN_is_zero(self.tmp1):
            self.safety_failed = True
        else:                    
            BN_rand(self.b, 256, -1, 0)
            
            # B = kv + g^b
            BN_mul(self.tmp1, k, self.v, self.ctx)
            BN_mod_exp(self.tmp2, g, self.b, N, self.ctx)
            BN_add(self.B, self.tmp1, self.tmp2)
            
            H_bn_bn(hash_class, self.u, self.A, self.B)
            
            # S = (A *(v^u)) ^ b
            BN_mod_exp(self.tmp1, self.v, self.u, N, self.ctx)
            BN_mul(self.tmp2, self.A, self.tmp1, self.ctx)
            BN_mod_exp(self.S, self.tmp2, self.b, N, self.ctx)
            
            self.K = hash_class( bn_to_bytes(self.S) ).digest()
            
            self.M     = calculate_M( hash_class, N, g, self.I, self.s, self.A, self.B, self.K )
            self.H_AMK = calculate_H_AMK( hash_class, self.A, self.M, self.K )
        
        
    def __del__(self):
        if not hasattr(self, 'A'):
            return # __init__ threw exception. no clean up required
        BN_free(self.A)
        BN_free(self.B)
        BN_free(self.S)
        BN_free(self.u)
        BN_free(self.b)
        BN_free(self.s)
        BN_free(self.v)
        BN_free(self.N)
        BN_free(self.g)
        BN_free(self.k)
        BN_free(self.tmp1)
        BN_free(self.tmp2)
        BN_CTX_free(self.ctx)
        
        
    def authenticated(self):
        return self._authenticated

    
    def get_username(self):
        return self.I
    
    
    def get_session_key(self):
        return self.K if self._authenticated else None
    
    
    # returns (bytes_s, bytes_B) on success, (None,None) if SRP-6a safety check fails
    def get_challenge(self):
        if self.safety_failed:
            return None, None
        else:
            return (bn_to_bytes(self.s), bn_to_bytes(self.B))
    
        
    def verify_session(self, user_M):
        if user_M == self.M:
            self._authenticated = True
            return self.H_AMK
        

        
    
class User (object):
    def __init__(self, username, password, hash_alg=SHA1, ng_type=NG_2048, n_hex=None, g_hex=None):
        if ng_type == NG_CUSTOM and (n_hex is None or g_hex is None):
            raise ValueError("Both n_hex and g_hex are required when ng_type = NG_CUSTOM")
        self.username = username
        self.password = password
        self.a     = BN_new()
        self.A     = BN_new()
        self.B     = BN_new()
        self.s     = BN_new()
        self.S     = BN_new()
        self.u     = BN_new()
        self.x     = BN_new()
        self.v     = BN_new()
        self.tmp1  = BN_new()
        self.tmp2  = BN_new()
        self.tmp3  = BN_new()
        self.ctx   = BN_CTX_new()
        self.M     = None
        self.K     = None
        self.H_AMK = None
        self._authenticated = False
        
        hash_class = _hash_map[ hash_alg ]
        N,g,k      = get_ngk( hash_class, ng_type, n_hex, g_hex )
        
        self.hash_class = hash_class
        self.N          = N
        self.g          = g
        self.k          = k
        
        BN_rand(self.a, 256, -1, 0)
        
        BN_mod_exp(self.A, g, self.a, N, self.ctx)
        
        
    def __del__(self):
        if not hasattr(self, 'a'):
            return # __init__ threw exception. no clean up required
        BN_free(self.a)
        BN_free(self.A)
        BN_free(self.B)
        BN_free(self.s)
        BN_free(self.S)
        BN_free(self.u)
        BN_free(self.x)
        BN_free(self.v)
        BN_free(self.N)
        BN_free(self.g)
        BN_free(self.k)
        BN_free(self.tmp1)
        BN_free(self.tmp2)
        BN_free(self.tmp3)
        BN_CTX_free(self.ctx)

                    
    def authenticated(self):
        return self._authenticated

    
    def get_username(self):
        return self.username
    
    
    def get_session_key(self):
        return self.K if self._authenticated else None
        
        
    def start_authentication(self):
        return (self.username, bn_to_bytes(self.A))
        
        
    # Returns M or None if SRP-6a safety check is violated
    def process_challenge(self, bytes_s, bytes_B):

        hash_class = self.hash_class
        N = self.N
        g = self.g
        k = self.k
        
        bytes_to_bn( self.s, bytes_s )
        bytes_to_bn( self.B, bytes_B )
        
        # SRP-6a safety check
        if BN_is_zero(self.B):
            return None
            
        H_bn_bn(hash_class, self.u, self.A, self.B)
        
        # SRP-6a safety check
        if BN_is_zero(self.u):
            return None
        
        calculate_x( hash_class, self.x, self.s, self.username, self.password )
        
        BN_mod_exp(self.v, g, self.x, N, self.ctx)
        
        # S = (B - k*(g^x)) ^ (a + ux)

        BN_mul(self.tmp1, self.u, self.x, self.ctx)
        BN_add(self.tmp2, self.a, self.tmp1)            # tmp2 = (a + ux)
        BN_mod_exp(self.tmp1, g, self.x, N, self.ctx)
        BN_mul(self.tmp3, k, self.tmp1, self.ctx)       # tmp3 = k*(g^x)
        BN_sub(self.tmp1, self.B, self.tmp3)            # tmp1 = (B - K*(g^x))
        BN_mod_exp(self.S, self.tmp1, self.tmp2, N, self.ctx)

        self.K     = hash_class( bn_to_bytes(self.S) ).digest()
        self.M     = calculate_M( hash_class, N, g, self.username, self.s, self.A, self.B, self.K )
        self.H_AMK = calculate_H_AMK( hash_class, self.A, self.M, self.K )

        return self.M
        
        
    def verify_session(self, host_HAMK):
        if self.H_AMK == host_HAMK:
            self._authenticated = True

            

#---------------------------------------------------------
# Init
#
RAND_seed( os.urandom(32), 32 )