Esempio n. 1
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def test_timings():
    # Make 100 keys
    G = EcGroup()

    keys = []
    for _ in range(100):
        sec = G.order().random()
        k = Key(sec.binary(), False)
        # bpub, bsec = k.export()
        keys += [k]

    msg = urandom(32)

    # time sign
    t0 = timer()
    sigs = []
    for i in range(1000):
        sigs += [(keys[i % 100], keys[i % 100].sign(msg))]
    t1 = timer()
    print "\nSign rate: %2.2f / sec" % (1.0 / ((t1-t0)/1000.0))

    # time verify
    t0 = timer()
    for k, sig in sigs:
        assert k.verify(msg, sig)
    t1 = timer()
    print "Verify rate: %2.2f / sec" % (1.0 / ((t1-t0)/1000.0))

    # time hash
    t0 = timer()
    for _ in range(10000):
        sha256(msg).digest()
    t1 = timer()
    print "Hash rate: %2.2f / sec" % (1.0 / ((t1-t0)/10000.0))
Esempio n. 2
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def test_key():
    G = EcGroup()
    sec = G.order().random()
    k = Key(sec.binary(), False)
    bpub, bsec = k.export()

    k2 = Key(bpub)
    assert k2.sec is None
    assert k2.pub == k.pub
    assert k2.id() == k.id()

    m = urandom(32)
    sig = k.sign(m)
    assert k2.verify(m, sig)
    assert not k2.verify(urandom(32), sig)
Esempio n. 3
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def test_utxo_entries():

    k1 = Key(urandom(32), public=False)
    k2 = Key(urandom(32), public=False)

    tx1 = Tx([], [OutputTx(k1.id(), 100)])
    tx2 = Tx([], [OutputTx(k2.id(), 150)])

    tx3 = Tx([InputTx(tx1.id(), 0), InputTx(tx2.id(), 0)], [OutputTx(k1.id(), 250)])

    assert len(tx3.get_utxo_in_keys()) == 2 # 2 inputs
    assert len(tx3.get_utxo_out_entries()) == 1 # 1 outputs
Esempio n. 4
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def test_utxo_check_issuing():

    kIssue = Key(urandom(32), public=False)
    pubIssue = kIssue.pub.export()

    k1 = Key(urandom(32), public=False)
    k1pub = k1.pub.export()

    tx3 = Tx([], [OutputTx(k1.id(), 250)])

    assert tx3.check_transaction_utxo([], [ pubIssue ], 
                            [kIssue.sign(tx3.id())], masterkey = kIssue.id())
Esempio n. 5
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def test_checks_timing():

    params = []

    for _ in range(100):
        k1 = Key(urandom(32), public=False)
        k2 = Key(urandom(32), public=False)

        tx2 = Tx([], [OutputTx(k1.id(), 150)])

        tx3 = Tx([InputTx(tx2.id(), 0)], [OutputTx(k1.id(), 100), OutputTx(k1.id(), 50)])

        params += [(tx3.serialize(), ([tx2.serialize()], 
                                [k1.export()[0]], 
                                [k1.sign(tx3.id())]))]

    t0 = timer()
    for (tx3, par) in params:
        assert Tx.parse(tx3).check_transaction(*par)
    t1 = timer()
    print "\nTx check rate: %2.2f / sec" % (1.0 / ((t1-t0)/100.0)) 
Esempio n. 6
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from os import urandom
from random import randint, shuffle
from base64 import b64encode

import sys
fi = file(sys.argv[2]+"-issue", "w")
f1 = file(sys.argv[2]+"-r1", "w")
f2 = file(sys.argv[2]+"-r2", "w")


# Build a set of "addresses"
num_addresses = 100
keys = []

for _ in range(num_addresses):
    k = Key(urandom(32), False)
    keys += [ (k.id(), k.pub.export(), k) ]

# Read the special issuing key
secret_special = file("secret.key").read()
key_special = Key(secret_special, public=False)
id_special = key_special.id()
pub_special = key_special.pub.export()


# Make a stash of initial money to issue
num_coins = int(sys.argv[1])

active_addrs = [ ]

for _ in range(num_coins):
Esempio n. 7
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def test_utxo_checks():

    k1 = Key(urandom(32), public=False)
    k2 = Key(urandom(32), public=False)

    tx1 = Tx([], [OutputTx(k1.id(), 100)])
    tx2 = Tx([], [OutputTx(k2.id(), 150)])

    tx3 = Tx([InputTx(tx1.id(), 0), InputTx(tx2.id(), 0)], [OutputTx(k1.id(), 250)])

    assert tx3.check_transaction_utxo(
                            [(tx1.id(), 0, k1.id(), 100), (tx2.id(), 0, k2.id(), 150)], 
                            [k1.export()[0], k2.export()[0]], 
                            [k1.sign(tx3.id()), k2.sign(tx3.id())])
Esempio n. 8
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def test_checks_failures():

    k1 = Key(urandom(32), public=False)
    k2 = Key(urandom(32), public=False)

    tx1 = Tx([], [OutputTx(k1.id(), 100)])
    tx2 = Tx([], [OutputTx(k2.id(), 150)])

    tx3 = Tx([InputTx(tx1.id(), 0), InputTx(tx2.id(), 0)], [OutputTx(k1.id(), 251)])

    # Wrong value
    assert not tx3.check_transaction([tx1.serialize(), tx2.serialize()], 
                            [k1.export()[0], k2.export()[0]], 
                            [k1.sign(tx3.id()), k2.sign(tx3.id())])

    # Wrong signature
    assert not tx3.check_transaction([tx1.serialize(), tx2.serialize()], 
                            [k1.export()[0], k2.export()[0]], 
                            [k2.sign(tx3.id()), k1.sign(tx3.id())])
Esempio n. 9
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def test_checks2():

    k1 = Key(urandom(32), public=False)
    k2 = Key(urandom(32), public=False)

    tx1 = Tx([], [OutputTx(k1.id(), 100), OutputTx(k2.id(), 150)])

    tx3 = Tx([InputTx(tx1.id(), 0), InputTx(tx1.id(), 1)], [OutputTx(k1.id(), 250)])

    assert tx3.check_transaction([tx1.serialize(), tx1.serialize()], 
                            [k1.export()[0], k2.export()[0]], 
                            [k1.sign(tx3.id()), k2.sign(tx3.id())])