def test_consensus(client_count):
    # assert_connected(minconnected=client_count, minpeers=client_count, offset=test_time * 2)
    num_agreeing_clients = consensus(offset=offset)
    print '%d out of %d clients are on the same chain' % (num_agreeing_clients,
                                                          client_count)
    assert num_agreeing_clients >= int(client_count * min_consensus_ratio)
Example #2
0
def test_consensus(client_count):
    # assert_connected(minconnected=client_count, minpeers=client_count, offset=test_time * 2)
    num_agreeing_clients = consensus(offset=offset)
    print '%d out of %d clients are on the same chain' % (num_agreeing_clients,
                                                          client_count)
    assert num_agreeing_clients >= int(client_count * min_consensus_ratio)
def test_consensus(clients):
    client_count = len(clients)
    num_agreeing_clients = consensus(offset=max_time_to_reach_consensus)
    print '%d out of %d clients are on the same chain' % (num_agreeing_clients,
                                                          client_count)
    assert num_agreeing_clients >= int(client_count * min_consensus_ratio)
Example #4
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def test_consensus(clients):
    client_count = len(clients)
    num_agreeing_clients = consensus(offset=max_time_to_reach_consensus)
    print '%d out of %d clients are on the same chain' % (num_agreeing_clients,
                                                          client_count)
    assert num_agreeing_clients >= int(client_count * min_consensus_ratio)