StarMirror/py-libp2p
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity

Add basic out of order tests

Browse Source
This commit is contained in:
Stuckinaboot 2019-04-04 17:05:53 -04:00
parent f4fb71e0cf
commit 7b67c9cb2f
4 changed files with 353 additions and 0 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

0
demos/bee_movie/bee_movie.py Normal file
View File

95
demos/bee_movie/msg_ordering_node.py Normal file
View File

@ -0,0 +1,95 @@
import asyncio
import multiaddr
from tests.pubsub.utils import message_id_generator, generate_RPC_packet
from libp2p import new_node
from libp2p.pubsub.pubsub import Pubsub
from libp2p.pubsub.floodsub import FloodSub
from ordered_queue import OrderedQueue
SUPPORTED_PUBSUB_PROTOCOLS = ["/floodsub/1.0.0"]
BEE_MOVIE_TOPIC = "bee_movie"
# Message format:
# Sending crypto: <source>,<dest>,<amount as integer>
# Ex. send,aspyn,alex,5
# Set crypto: <dest>,<amount as integer>
# Ex. set,rob,5
# Determine message type by looking at first item before first comma
class MsgOrderingNode():
"""
Node which has an internal balance mapping, meant to serve as
a dummy crypto blockchain. There is no actual blockchain, just a simple
map indicating how much crypto each user in the mappings holds
"""
def __init__(self):
self.balances = {}
self.next_msg_id_func = message_id_generator(0)
self.priority_queue = OrderedQueue()
# self.last_word_gotten_seqno = 0
@classmethod
async def create(cls):
"""
Create a new DummyAccountNode and attach a libp2p node, a floodsub, and a pubsub
instance to this new node
We use create as this serves as a factory function and allows us
to use async await, unlike the init function
"""
self = MsgOrderingNode()
libp2p_node = await new_node(transport_opt=["/ip4/127.0.0.1/tcp/0"])
await libp2p_node.get_network().listen(multiaddr.Multiaddr("/ip4/127.0.0.1/tcp/0"))
self.libp2p_node = libp2p_node
self.floodsub = FloodSub(SUPPORTED_PUBSUB_PROTOCOLS)
self.pubsub = Pubsub(self.libp2p_node, self.floodsub, "a")
return self
async def handle_incoming_msgs(self):
"""
Handle all incoming messages on the BEE_MOVIE_TOPIC from peers
"""
while True:
incoming = await self.q.get()
seqno = int.from_bytes(incoming.seqno, byteorder='big')
word = incoming.data.decode('utf-8')
await self.handle_bee_movie_word(seqno, word)
async def setup_crypto_networking(self):
"""
Subscribe to BEE_MOVIE_TOPIC and perform call to function that handles
all incoming messages on said topic
"""
self.q = await self.pubsub.subscribe(BEE_MOVIE_TOPIC)
asyncio.ensure_future(self.handle_incoming_msgs())
async def publish_bee_movie_word(self, word, msg_id=None):
print("Publish hit for " + word)
my_id = str(self.libp2p_node.get_id())
if msg_id is None:
msg_id = self.next_msg_id_func()
packet = generate_RPC_packet(my_id, [BEE_MOVIE_TOPIC], word, msg_id)
print("Packet generated")
await self.floodsub.publish(my_id, packet.SerializeToString())
async def handle_bee_movie_word(self, seqno, word):
print("Handle hit for " + str(seqno) + ", " + word)
await self.priority_queue.put((seqno, word))
async def get_next_word_in_bee_movie(self):
# Get just the word (and not the seqno) and return the word
next_word = (await self.priority_queue.get())[1]
return next_word
# if (self.priority_queue.qsize() > 0 and \
# self.priority_queue[0][0] == self.last_word_gotten_seqno + 1):
# return await self.priority_queue.get()
# else:
# # Wait until a word is put with next_word_seqno == self.last_word_gotten_seqno + 1
# # Then return first element of priority queue

57
demos/bee_movie/ordered_queue.py Normal file
View File

@ -0,0 +1,57 @@
import asyncio
"""
NOTE: ISSUE IS THAT THERE task IS BLOCKING SINCE IT IS WAITING ON SAME COROUTINE THAT
WE ARE RUNNING ON
"""
class OrderedQueue():
def __init__(self):
self.last_gotten_seqno = 0
self.queue = asyncio.PriorityQueue()
self.task = None
async def put(self, item):
print("Put " + str(item))
seqno = item[0]
await self.queue.put(item)
print("Added to queue " + str(item))
if self.last_gotten_seqno + 1 == seqno and self.task is not None:
# Allow get future to return the most recent item that is put
print("Set called")
self.task.set()
async def get(self):
print("get")
print(str(self.last_gotten_seqno))
if self.queue.qsize() > 0:
front_item = await self.queue.get()
if front_item[0] == self.last_gotten_seqno + 1:
print("Trivial get " + str(front_item))
self.last_gotten_seqno += 1
return front_item
else:
# Put element back as it should not be delivered yet
print("Front item put back 1")
print(str(self.last_gotten_seqno))
print(front_item[1])
await self.queue.put(front_item)
print("Front item put back 2")
print("get 2")
# Wait until
self.task = asyncio.Event()
print("get 3")
await self.task.wait()
print("get 4")
item = await self.queue.get()
print("get 5")
# print(str(item) + " got from queue")
# Remove task
self.task = None
self.last_gotten_seqno += 1
return item

201
demos/bee_movie/test_bee_movie.py Normal file
View File

@ -0,0 +1,201 @@
import asyncio
import multiaddr
import pytest
import struct
from threading import Thread
from tests.utils import cleanup
from libp2p import new_node
from libp2p.peer.peerinfo import info_from_p2p_addr
from libp2p.pubsub.pubsub import Pubsub
from libp2p.pubsub.floodsub import FloodSub
from msg_ordering_node import MsgOrderingNode
# pylint: disable=too-many-locals
async def connect(node1, node2):
# node1 connects to node2
addr = node2.get_addrs()[0]
info = info_from_p2p_addr(addr)
await node1.connect(info)
def create_setup_in_new_thread_func(dummy_node):
def setup_in_new_thread():
asyncio.ensure_future(dummy_node.setup_crypto_networking())
return setup_in_new_thread
async def perform_test(num_nodes, adjacency_map, action_func, assertion_func):
"""
Helper function to allow for easy construction of custom tests for dummy account nodes
in various network topologies
:param num_nodes: number of nodes in the test
:param adjacency_map: adjacency map defining each node and its list of neighbors
:param action_func: function to execute that includes actions by the nodes,
such as send crypto and set crypto
:param assertion_func: assertions for testing the results of the actions are correct
"""
# Create nodes
dummy_nodes = []
for i in range(num_nodes):
dummy_nodes.append(await MsgOrderingNode.create())
# Create network
for source_num in adjacency_map:
target_nums = adjacency_map[source_num]
for target_num in target_nums:
await connect(dummy_nodes[source_num].libp2p_node, \
dummy_nodes[target_num].libp2p_node)
# Allow time for network creation to take place
await asyncio.sleep(0.25)
# Start a thread for each node so that each node can listen and respond
# to messages on its own thread, which will avoid waiting indefinitely
# on the main thread. On this thread, call the setup func for the node,
# which subscribes the node to the CRYPTO_TOPIC topic
for dummy_node in dummy_nodes:
thread = Thread(target=create_setup_in_new_thread_func(dummy_node))
thread.run()
# Allow time for nodes to subscribe to CRYPTO_TOPIC topic
await asyncio.sleep(0.25)
# Perform action function
await action_func(dummy_nodes)
# Allow time for action function to be performed (i.e. messages to propogate)
await asyncio.sleep(1)
# Perform assertion function
for dummy_node in dummy_nodes:
await assertion_func(dummy_node)
# Success, terminate pending tasks.
await cleanup()
@pytest.mark.asyncio
async def test_simple_two_nodes_one_word():
num_nodes = 2
adj_map = {0: [1]}
async def action_func(dummy_nodes):
await dummy_nodes[0].publish_bee_movie_word("aspyn")
# await asyncio.sleep(0.25)
await dummy_nodes[0].publish_bee_movie_word("hello")
# await asyncio.sleep(0.25)
async def assertion_func(dummy_node):
next_word = await dummy_node.get_next_word_in_bee_movie()
assert next_word == "aspyn"
next_word = await dummy_node.get_next_word_in_bee_movie()
assert next_word == "hello"
await perform_test(num_nodes, adj_map, action_func, assertion_func)
@pytest.mark.asyncio
async def test_simple_two_nodes_ten_words():
num_nodes = 2
adj_map = {0: [1]}
words = ["aspyn", "is", "so", "good", "at", "writing", "code", "XD", ":)", "foobar"]
async def action_func(dummy_nodes):
for word in words:
await dummy_nodes[0].publish_bee_movie_word(word)
# await asyncio.sleep(0.25)
async def assertion_func(dummy_node):
for word in words:
assert await dummy_node.get_next_word_in_bee_movie() == word
await perform_test(num_nodes, adj_map, action_func, assertion_func)
@pytest.mark.asyncio
async def test_simple_two_nodes_two_words_out_of_order_ids():
num_nodes = 2
adj_map = {0: [1]}
async def action_func(dummy_nodes):
await dummy_nodes[0].publish_bee_movie_word("word 2", struct.pack('>I', 2))
word, _, _ = await asyncio.gather(dummy_nodes[0].get_next_word_in_bee_movie(),\
asyncio.sleep(0.25), \
dummy_nodes[0].publish_bee_movie_word("word 1", struct.pack('>I', 1)))
assert word == "word 1"
assert await dummy_nodes[0].get_next_word_in_bee_movie() == "word 2"
async def assertion_func(dummy_node):
pass
await perform_test(num_nodes, adj_map, action_func, assertion_func)
@pytest.mark.asyncio
async def test_simple_two_nodes_two_words_read_then_publish_out_of_order_ids():
num_nodes = 2
adj_map = {0: [1]}
collected = None
async def collect_all_words(expected_len, dummy_node):
collected_words = []
while True:
word = await dummy_node.get_next_word_in_bee_movie()
collected_words.append(word)
if len(collected_words) == expected_len:
return collected_words
async def action_func(dummy_nodes):
words, _, _, _ = await asyncio.gather(collect_all_words(2, dummy_nodes[0]),\
asyncio.sleep(0.25), \
dummy_nodes[0].publish_bee_movie_word("word 2", struct.pack('>I', 2)),\
dummy_nodes[0].publish_bee_movie_word("word 1", struct.pack('>I', 1)))
# Store collected words to be checked in assertion func
nonlocal collected
collected = words
async def assertion_func(dummy_node):
assert collected[0] == "word 1"
assert collected[1] == "word 2"
await perform_test(num_nodes, adj_map, action_func, assertion_func)
@pytest.mark.asyncio
async def test_simple_two_nodes_ten_words_out_of_order_ids():
num_nodes = 2
adj_map = {0: [1]}
collected = None
async def collect_all_words(expected_len, dummy_node):
collected_words = []
while True:
word = await dummy_node.get_next_word_in_bee_movie()
collected_words.append(word)
if len(collected_words) == expected_len:
return collected_words
async def action_func(dummy_nodes):
words = ["e", "b", "d", "i", "a", "h", "c", "f", "g", "j"]
msg_id_nums = [5, 2, 4, 9, 1, 8, 3, 6, 7, 10]
msg_ids = []
tasks = []
for msg_id_num in msg_id_nums:
msg_ids.append(struct.pack('>I', msg_id_num))
tasks.append(collect_all_words(len(words), dummy_nodes[0]))
tasks.append(asyncio.sleep(0.25))
for i in range(len(words)):
tasks.append(dummy_nodes[0].publish_bee_movie_word(words[i], msg_ids[i]))
res = await asyncio.gather(*tasks)
nonlocal collected
collected = res[0]
async def assertion_func(dummy_node):
correct_words = ["a", "b", "c", "d", "e", "f", "g", "h", "i", "j"]
for i in range(len(correct_words)):
assert collected[i] == correct_words[i]
assert len(collected) == len(correct_words)
await perform_test(num_nodes, adj_map, action_func, assertion_func)