def test_non_blocking_timeout(self):
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
assert (s.recv_line() == u"")
assert (s.recv(1) == u"")
s.close()
def test_recv_recvline_switch(self):
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
s.send_line("SOURCE TCP 32")
ret = s.recv(1)
assert(ret[0] == u"R")
assert(not len(s.buf))
s.buf = u"test"
ret = s.recv(1)
assert(ret[0] == u"E")
assert(s.buf == u"test")
s.buf = u"example\r\nxsfsdf"
junk = s.buf[:]
s.send_line("SOURCE TCP 50")
ret = s.recv_line()
print(ret)
assert("example" in ret)
print(s.buf)
print(junk)
ret = s.recv_line()
assert("xsfsdf" in ret)
print(s.buf)
print(junk)
ret = s.recv_line()
assert("MOTE" in ret)
s.close()
def test_non_blocking_timeout(self):
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
assert(s.recv_line() == u"")
assert(s.recv(1) == u"")
s.close()
def test_recv_recvline_switch(self):
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
s.send_line("SOURCE TCP 32")
ret = s.recv(1)
assert (ret[0] == u"R")
assert (not len(s.buf))
s.buf = u"test"
ret = s.recv(1)
assert (ret[0] == u"E")
assert (s.buf == u"test")
s.buf = u"example\r\nxsfsdf"
junk = s.buf[:]
s.send_line("SOURCE TCP 50")
ret = s.recv_line()
print(ret)
assert ("example" in ret)
print(s.buf)
print(junk)
ret = s.recv_line()
assert ("xsfsdf" in ret)
print(s.buf)
print(junk)
ret = s.recv_line()
assert ("MOTE" in ret)
s.close()
def test_blocking_timeout(self):
client = RendezvousClient(nat_type="preserving", rendezvous_servers=rendezvous_servers)
s = client.server_connect()
t = time.time()
s.recv_line(timeout=1)
if time.time() - t >= 4:
print("Manual timeout failed.")
assert 0
s.close()
def test_blocking_timeout(self):
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
t = time.time()
s.recv_line(timeout=1)
if time.time() - t >= 4:
print("Manual timeout failed.")
assert 0
s.close()
def test_encoding(self):
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
s.send_line("SOURCE TCP 50")
ret = s.recv(1, encoding="ascii")
if sys.version_info >= (3, 0, 0):
assert(type(ret) == bytes)
else:
assert(type(ret) == str)
assert(ret == b"R")
ret = s.recv_line()
assert(u"EMOTE" in ret)
s.close()
def test_encoding(self):
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
s.send_line("SOURCE TCP 50")
ret = s.recv(1, encoding="ascii")
if sys.version_info >= (3, 0, 0):
assert (type(ret) == bytes)
else:
assert (type(ret) == str)
assert (ret == b"R")
ret = s.recv_line()
assert (u"EMOTE" in ret)
s.close()
def test_00001(self):
from pyp2p.net import rendezvous_servers
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
# Test boostrap.
s.send_line("BOOTSTRAP 1")
nodes = s.recv_line()
assert("NODES" in nodes)
# Test source TCP.
s.send_line("SOURCE TCP")
src = s.recv_line()
assert("REMOTE TCP" in src)
# Doesn't test passive / sim listen
# fight, accept, candidate, etc...
# but that is tested in the net tests
s.close()
def test_00001(self):
from pyp2p.net import rendezvous_servers
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
# Test boostrap.
s.send_line("BOOTSTRAP 1")
nodes = s.recv_line()
assert ("NODES" in nodes)
# Test source TCP.
s.send_line("SOURCE TCP")
src = s.recv_line()
assert ("REMOTE TCP" in src)
# Doesn't test passive / sim listen
# fight, accept, candidate, etc...
# but that is tested in the net tests
s.close()
def test_0000001_sock(self):
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
assert s.connected
s.send_line("SOURCE TCP 323")
assert s.connected
line = s.recv_line()
assert ("REMOTE" in line)
s = Sock("www.example.com", 80, blocking=0, timeout=10)
data = "GET / HTTP/1.1\r\n"
data += "Connection: close\r\n"
data += "Host: www.example.com\r\n\r\n"
s.send(data, send_all=1)
replies = ""
while s.connected:
for reply in s:
# Output should be unicode.
if sys.version_info >= (3, 0, 0):
assert (type(reply) == str)
else:
assert (type(reply) == unicode)
replies += reply
print(reply)
assert (s.connected != 1)
assert (replies != "")
s.close()
s.reconnect()
s.close()
s = Sock("www.example.com", 80, blocking=1, timeout=10)
s.send_line("GET / HTTP/1.1")
s.send_line("Host: www.example.com\r\n")
line = s.recv_line()
print(line)
print(type(line))
print(s.buf)
print(type(s.buf))
assert (line, "HTTP/1.1 200 OK")
if sys.version_info >= (3, 0, 0):
assert (type(line) == str)
else:
assert (type(line) == unicode)
s.close()
s = Sock()
s.buf = "\r\nx\r\n"
x = s.parse_buf()
assert (x[0] == "x")
s.buf = "\r\n"
x = s.parse_buf()
assert (x == [])
s.buf = "\r\n\r\n"
x = s.parse_buf()
assert (x == [])
s.buf = "\r\r\n\r\n"
x = s.parse_buf()
assert (x[0] == "\r")
s.buf = "\r\n\r\n\r\nx"
x = s.parse_buf()
assert (x == [])
s.buf = "\r\n\r\nx\r\nsdfsdfsdf\r\n"
x = s.parse_buf()
assert (x[0] == "x" and x[1] == "sdfsdfsdf")
s.buf = "sdfsdfsdf\r\n"
s.parse_buf()
s.buf += "abc\r\n"
x = s.parse_buf()
assert (x[0] == "abc")
s.buf += "\r\ns\r\n"
x = s.parse_buf()
assert (x[0] == "s")
s.buf = "reply 1\r\nreply 2\r\n"
s.replies = []
s.update()
assert (s.pop_reply(), "reply 1")
assert (s.replies[0], "reply 2")
def test_0000001_sock(self):
client = RendezvousClient(nat_type="preserving",
rendezvous_servers=rendezvous_servers)
s = client.server_connect()
assert s.connected
s.send_line("SOURCE TCP 323")
assert s.connected
line = s.recv_line()
assert ("REMOTE" in line)
s = Sock("www.example.com", 80, blocking=0, timeout=10)
data = "GET / HTTP/1.1\r\n"
data += "Connection: close\r\n"
data += "Host: www.example.com\r\n\r\n"
s.send(data, send_all=1)
replies = ""
while s.connected:
for reply in s:
# Output should be unicode.
if sys.version_info >= (3, 0, 0):
assert (type(reply) == str)
else:
assert (type(reply) == unicode)
replies += reply
print(reply)
assert (s.connected != 1)
assert (replies != "")
s.close()
s.reconnect()
s.close()
s = Sock("www.example.com", 80, blocking=1, timeout=10)
s.send_line("GET / HTTP/1.1")
s.send_line("Host: www.example.com\r\n")
line = s.recv_line()
print(line)
print(type(line))
print(s.buf)
print(type(s.buf))
assert (line, "HTTP/1.1 200 OK")
if sys.version_info >= (3, 0, 0):
assert (type(line) == str)
else:
assert (type(line) == unicode)
s.close()
s = Sock()
s.buf = b"\r\nx\r\n"
x = s.parse_buf()
assert (x[0] == "x")
s.buf = b"\r\n"
x = s.parse_buf()
assert (x == [])
s.buf = b"\r\n\r\n"
x = s.parse_buf()
assert (x == [])
s.buf = b"\r\r\n\r\n"
x = s.parse_buf()
assert (x[0] == "\r")
s.buf = b"\r\n\r\n\r\nx"
x = s.parse_buf()
assert (x == [])
s.buf = b"\r\n\r\nx\r\nsdfsdfsdf\r\n"
x = s.parse_buf()
assert (x[0] == "x" and x[1] == "sdfsdfsdf")
s.buf = b"sdfsdfsdf\r\n"
s.parse_buf()
s.buf += b"abc\r\n"
x = s.parse_buf()
assert (x[0] == "abc")
s.buf += b"\r\ns\r\n"
x = s.parse_buf()
assert (x[0] == "s")
s.buf = b"reply 1\r\nreply 2\r\n"
s.replies = []
s.update()
assert (s.pop_reply(), "reply 1")
assert (s.replies[0], "reply 2")