def test_ignore_untrusted(bytestring):
topic_key = generate_topic_key()
master = Topic(topic_key=topic_key)
slave = Topic(topic_key=topic_key)
assert slave.decode(master.encode(bytestring),
ignore_untrusted=True) is None
master.add_participant(slave.public_key)
assert master.decode(slave.encode(bytestring), naive=True) == bytestring
def test_simple_agreement(bytestring):
topic_key = generate_topic_key()
master = Topic(topic_key=topic_key)
slave = Topic(topic_key=topic_key)
master.add_participant(slave.public_key)
slave.add_participant(master.public_key)
assert slave.decode(master.encode(bytestring)) == bytestring
assert master.decode(slave.encode(bytestring)) == bytestring
def test_naive_agreement(bytestring):
topic_key = generate_topic_key()
master = Topic(topic_key=topic_key)
slave = Topic(topic_key=topic_key)
assert slave.decode(master.encode(bytestring), naive=True) == bytestring
assert master.decode(slave.encode(bytestring), naive=True) == bytestring
def test_ignore_untrusted(bytestring):
topic_key = generate_topic_key()
master = Topic(topic_key=topic_key)
slave = Topic(topic_key=topic_key)
assert slave.decode(
master.encode(bytestring),
ignore_untrusted=True
) is None
master.add_participant(slave.public_key)
assert master.decode(slave.encode(bytestring), naive=True) == bytestring
def test_naive_agreement(bytestring):
topic_key = generate_topic_key()
master = Topic(topic_key=topic_key)
slave = Topic(topic_key=topic_key)
assert slave.decode(master.encode(bytestring), naive=True) == bytestring
assert master.decode(slave.encode(bytestring), naive=True) == bytestring
def test_discovery(bytestring):
master = Topic(topic_key=generate_topic_key())
slave = Topic()
# Construct the introduction on the slave.
intro = slave.construct_intro()
# Attempt to read the introduction on the master.
with pytest.raises(IntroductionError):
master.decode(intro)
# Trust the slave.
public_key = Message(intro).sender_key
master.add_participant(public_key)
# If the intro contains a public key that didn't sign
# the encryption key, assert that we raise an error.
bad_intro = bytearray(intro[0:1]) + bytearray(master.public_key) + \
intro[33:]
with pytest.raises(BadSignatureError):
master.construct_reply(bad_intro)
# Reply to the slave with the encrypted topic key.
reply = master.construct_reply(intro)
# Assert that decoding the reply returns None (because it's not addressed
# to us).
# Assert that the reply raises IntroductionReplyError (because it's a reply,
# not a simple message).
with pytest.raises(IntroductionReplyError):
slave.decode(reply)
# Trust the master on the slave.
public_key = Message(reply).sender_key
slave.add_participant(public_key)
# Decode the introduction reply, getting the topic key.
slave.parse_reply(reply)
# Now we can decrypt all messages.
assert slave.decode(master.encode(bytestring)) == bytestring
assert master.decode(slave.encode(bytestring)) == bytestring
def test_decoding_own_messages(bytestring):
c = Topic(topic_key=generate_topic_key())
assert c.decode(c.encode(bytestring)) is None
def test_decoding_inverts_encoding(bytestring):
topic_key = generate_topic_key()
c1 = Topic(topic_key=topic_key)
c2 = Topic(topic_key=topic_key)
assert c1.decode(c2.encode(bytestring), naive=True) == bytestring
def test_discovery(bytestring):
master = Topic(topic_key=generate_topic_key())
slave = Topic()
# Construct the introduction on the slave.
intro = slave.construct_intro()
# Attempt to read the introduction on the master.
with pytest.raises(IntroductionError):
master.decode(intro)
# Trust the slave.
public_key = Message(intro).sender_key
master.add_participant(public_key)
# If the intro contains a public key that didn't sign
# the encryption key, assert that we raise an error.
bad_intro = bytearray(intro[0:1]) + bytearray(master.public_key) + \
intro[33:]
with pytest.raises(BadSignatureError):
master.construct_reply(bad_intro)
# Reply to the slave with the encrypted topic key.
reply = master.construct_reply(intro)
# Assert that decoding the reply returns None (because it's not addressed
# to us).
# Assert that the reply raises IntroductionReplyError (because it's a reply,
# not a simple message).
with pytest.raises(IntroductionReplyError):
slave.decode(reply)
# Trust the master on the slave.
public_key = Message(reply).sender_key
slave.add_participant(public_key)
# Decode the introduction reply, getting the topic key.
slave.parse_reply(reply)
# Now we can decrypt all messages.
assert slave.decode(master.encode(bytestring)) == bytestring
assert master.decode(slave.encode(bytestring)) == bytestring
def test_simple_agreement(bytestring):
topic_key = generate_topic_key()
master = Topic(topic_key=topic_key)
slave = Topic(topic_key=topic_key)
master.add_participant(slave.public_key)
slave.add_participant(master.public_key)
assert slave.decode(master.encode(bytestring)) == bytestring
assert master.decode(slave.encode(bytestring)) == bytestring
def test_decoding_own_messages(bytestring):
c = Topic(topic_key=generate_topic_key())
assert c.decode(c.encode(bytestring)) is None
def test_decoding_inverts_encoding(bytestring):
topic_key = generate_topic_key()
c1 = Topic(topic_key=topic_key)
c2 = Topic(topic_key=topic_key)
assert c1.decode(c2.encode(bytestring), naive=True) == bytestring
