Ejemplo n.º 1
0
def generate_single_podle_sig(priv, i):
    """Make a podle entry for key priv at index i, using a dummy utxo value.
    This calls the underlying 'raw' code based on the class PoDLE, not the
    library 'generate_podle' which intelligently searches and updates commitments.
    """
    dummy_utxo = bitcoin.sha256(priv) + ":3"
    podle = PoDLE(dummy_utxo, binascii.hexlify(priv).decode('ascii'))
    r = podle.generate_podle(i)
    return (r['P'], r['P2'], r['sig'], r['e'], r['commit'])
Ejemplo n.º 2
0
 def generate_single_podle_sig(u, priv, i):
     """Make a podle entry for key priv at index i, using a dummy utxo value.
     This calls the underlying 'raw' code based on the class PoDLE, not the
     library 'generate_podle' which intelligently searches and updates commitments.
     """
     #Convert priv to hex
     hexpriv = btc.from_wif_privkey(priv, vbyte=get_p2pk_vbyte())
     podle = PoDLE(u, hexpriv)
     r = podle.generate_podle(i)
     return (r['P'], r['P2'], r['sig'], r['e'], r['commit'])
Ejemplo n.º 3
0
 def generate_single_podle_sig(u, priv, i):
     """Make a podle entry for key priv at index i, using a dummy utxo value.
     This calls the underlying 'raw' code based on the class PoDLE, not the
     library 'generate_podle' which intelligently searches and updates commitments.
     """
     # Convert priv from wif; note that wallet type
     # isn't relevant since we only work with pubkeys in PoDLE:
     rawpriv, _ = BTCEngine.wif_to_privkey(priv)
     podle = PoDLE(u, rawpriv)
     r = podle.generate_podle(i)
     return (r['P'], r['P2'], r['sig'], r['e'], r['commit'])
Ejemplo n.º 4
0
 def generate_single_podle_sig(u, priv, i):
     """Make a podle entry for key priv at index i, using a dummy utxo value.
     This calls the underlying 'raw' code based on the class PoDLE, not the
     library 'generate_podle' which intelligently searches and updates commitments.
     """
     #Convert priv from wif; require P2SH-P2WPKH keys
     rawpriv, keytype = BTCEngine.wif_to_privkey(priv)
     assert keytype == BTC_P2SH_P2WPKH
     podle = PoDLE(u, rawpriv)
     r = podle.generate_podle(i)
     return (r['P'], r['P2'], r['sig'],
             r['e'], r['commit'])
Ejemplo n.º 5
0
def test_podle_constructor(setup_podle):
    """Tests rules about construction of PoDLE object
    are conformed to.
    """
    priv  = b"\xaa"*32
    #pub and priv together not allowed
    with pytest.raises(PoDLEError) as e_info:
        p = PoDLE(priv=priv, P="dummypub")
    #no pub or priv is allowed, i forget if this is useful for something
    p = PoDLE()
    #create from priv
    p = PoDLE(priv=priv+b"\x01", u=(struct.pack(b"B", 7)*32, 4))
    pdict = p.generate_podle(2)
    assert all([k in pdict for k in ['used', 'utxo', 'P', 'P2', 'commit', 'sig', 'e']])
    #using the valid data, serialize/deserialize test
    deser = p.deserialize_revelation(p.serialize_revelation())
    assert all([deser[x] == pdict[x] for x in ['utxo', 'P', 'P2', 'sig', 'e']])
    #deserialization must fail for wrong number of items
    with pytest.raises(PoDLEError) as e_info:
        p.deserialize_revelation(':'.join([str(x) for x in range(4)]), separator=':')
    #reveal() must work without pre-generated commitment
    p.commitment = None
    pdict2 = p.reveal()
    assert pdict2 == pdict
    #corrupt P2, cannot commit:
    p.P2 = "blah"
    with pytest.raises(PoDLEError) as e_info:
        p.get_commitment()
    #generation fails without a utxo
    p = PoDLE(priv=priv)
    with pytest.raises(PoDLEError) as e_info:
        p.generate_podle(0)
    #Test construction from pubkey
    pub = bitcoin.privkey_to_pubkey(priv+b"\x01")
    p = PoDLE(P=pub)
    with pytest.raises(PoDLEError) as e_info:
        p.get_commitment()
    with pytest.raises(PoDLEError) as e_info:
        p.verify("dummycommitment", range(3))