#!/usr/bin/env python
 
from cStringIO import StringIO
import os
import socket
import subprocess
import tempfile
import sys
import time
import unittest
 
from flashproxy import fac
from flashproxy.reg import Transport, Endpoint
from flashproxy.util import format_addr
 
# Import the facilitator program as a module.
import imp
dont_write_bytecode = sys.dont_write_bytecode
sys.dont_write_bytecode = True
facilitator = imp.load_source("facilitator", os.path.join(os.path.dirname(__file__), "facilitator"))
Endpoints = facilitator.Endpoints
parse_relay_file = facilitator.parse_relay_file
sys.dont_write_bytecode = dont_write_bytecode
del dont_write_bytecode
del facilitator
 
FACILITATOR_HOST = "127.0.0.1"
FACILITATOR_PORT = 39002 # diff port to not conflict with production service
FACILITATOR_ADDR = (FACILITATOR_HOST, FACILITATOR_PORT)
CLIENT_TP = "websocket"
RELAY_TP = "websocket"
PROXY_TPS = ["websocket", "webrtc"]
 
def gimme_socket(host, port):
    addrinfo = socket.getaddrinfo(host, port, 0, socket.SOCK_STREAM, socket.IPPROTO_TCP)[0]
    s = socket.socket(addrinfo[0], addrinfo[1], addrinfo[2])
    s.settimeout(10.0)
    s.connect(addrinfo[4])
    return s
 
class EndpointsTest(unittest.TestCase):
 
    def setUp(self):
        self.pts = Endpoints(af=socket.AF_INET)
 
    def test_addEndpoints_twice(self):
        self.pts.addEndpoint("A", "a|b|p")
        self.assertFalse(self.pts.addEndpoint("A", "zzz"))
        self.assertEquals(self.pts._endpoints["A"], Transport("a|b", "p"))
 
    def test_delEndpoints_twice(self):
        self.pts.addEndpoint("A", "a|b|p")
        self.assertTrue(self.pts.delEndpoint("A"))
        self.assertFalse(self.pts.delEndpoint("A"))
        self.assertEquals(self.pts._endpoints.get("A"), None)
 
    def test_Endpoints_indexing(self):
        self.assertEquals(self.pts._indexes.get("p"), None)
        # test defaultdict works as expected
        self.assertEquals(self.pts._indexes["p"]["a|b"], set(""))
        self.pts.addEndpoint("A", "a|b|p")
        self.assertEquals(self.pts._indexes["p"]["a|b"], set("A"))
        self.pts.addEndpoint("B", "a|b|p")
        self.assertEquals(self.pts._indexes["p"]["a|b"], set("AB"))
        self.pts.delEndpoint("A")
        self.assertEquals(self.pts._indexes["p"]["a|b"], set("B"))
        self.pts.delEndpoint("B")
        self.assertEquals(self.pts._indexes["p"]["a|b"], set(""))
 
    def test_serveReg_maxserve_infinite_roundrobin(self):
        # case for servers, they never exhaust
        self.pts.addEndpoint("A", "a|p")
        self.pts.addEndpoint("B", "a|p")
        self.pts.addEndpoint("C", "a|p")
        for i in xrange(64): # 64 is infinite ;)
            served = set()
            served.add(self.pts._serveReg("ABC").addr)
            served.add(self.pts._serveReg("ABC").addr)
            served.add(self.pts._serveReg("ABC").addr)
            self.assertEquals(served, set("ABC"))
 
    def test_serveReg_maxserve_finite_exhaustion(self):
        # case for clients, we don't want to keep serving them
        self.pts = Endpoints(af=socket.AF_INET, maxserve=5)
        self.pts.addEndpoint("A", "a|p")
        self.pts.addEndpoint("B", "a|p")
        self.pts.addEndpoint("C", "a|p")
        # test getNumUnservedEndpoints whilst we're at it
        self.assertEquals(self.pts.getNumUnservedEndpoints(), 3)
        served = set()
        served.add(self.pts._serveReg("ABC").addr)
        self.assertEquals(self.pts.getNumUnservedEndpoints(), 2)
        served.add(self.pts._serveReg("ABC").addr)
        self.assertEquals(self.pts.getNumUnservedEndpoints(), 1)
        served.add(self.pts._serveReg("ABC").addr)
        self.assertEquals(self.pts.getNumUnservedEndpoints(), 0)
        self.assertEquals(served, set("ABC"))
        for i in xrange(5-2):
            served = set()
            served.add(self.pts._serveReg("ABC").addr)
            served.add(self.pts._serveReg("ABC").addr)
            served.add(self.pts._serveReg("ABC").addr)
            self.assertEquals(served, set("ABC"))
        remaining = set("ABC")
        remaining.remove(self.pts._serveReg(remaining).addr)
        self.assertRaises(KeyError, self.pts._serveReg, "ABC")
        remaining.remove(self.pts._serveReg(remaining).addr)
        self.assertRaises(KeyError, self.pts._serveReg, "ABC")
        remaining.remove(self.pts._serveReg(remaining).addr)
        self.assertRaises(KeyError, self.pts._serveReg, "ABC")
        self.assertEquals(remaining, set())
        self.assertEquals(self.pts.getNumUnservedEndpoints(), 0)
 
    def test_match_normal(self):
        self.pts.addEndpoint("A", "a|p")
        self.pts2 = Endpoints(af=socket.AF_INET)
        self.pts2.addEndpoint("B", "a|p")
        self.pts2.addEndpoint("C", "b|p")
        self.pts2.addEndpoint("D", "a|q")
        expected = (Endpoint("A", Transport("a","p")), Endpoint("B", Transport("a","p")))
        empty = Endpoints.EMPTY_MATCH
        self.assertEquals(expected, Endpoints.match(self.pts, self.pts2, ["p"]))
        self.assertEquals(empty, Endpoints.match(self.pts, self.pts2, ["x"]))
 
    def test_match_unequal_client_server(self):
        self.pts.addEndpoint("A", "a|p")
        self.pts2 = Endpoints(af=socket.AF_INET)
        self.pts2.addEndpoint("B", "a|q")
        expected = (Endpoint("A", Transport("a","p")), Endpoint("B", Transport("a","q")))
        empty = Endpoints.EMPTY_MATCH
        self.assertEquals(expected, Endpoints.match(self.pts, self.pts2, ["p", "q"]))
        self.assertEquals(empty, Endpoints.match(self.pts, self.pts2, ["p"]))
        self.assertEquals(empty, Endpoints.match(self.pts, self.pts2, ["q"]))
        self.assertEquals(empty, Endpoints.match(self.pts, self.pts2, ["x"]))
 
    def test_match_raw_server(self):
        self.pts.addEndpoint("A", "p")
        self.pts2 = Endpoints(af=socket.AF_INET)
        self.pts2.addEndpoint("B", "p")
        expected = (Endpoint("A", Transport("","p")), Endpoint("B", Transport("","p")))
        empty = Endpoints.EMPTY_MATCH
        self.assertEquals(expected, Endpoints.match(self.pts, self.pts2, ["p"]))
        self.assertEquals(empty, Endpoints.match(self.pts, self.pts2, ["x"]))
 
    def test_match_many_inners(self):
        self.pts.addEndpoint("A", "a|p")
        self.pts.addEndpoint("B", "b|p")
        self.pts.addEndpoint("C", "p")
        self.pts2 = Endpoints(af=socket.AF_INET)
        self.pts2.addEndpoint("D", "a|p")
        self.pts2.addEndpoint("E", "b|p")
        self.pts2.addEndpoint("F", "p")
        # this test ensures we have a sane policy for selecting between inners pools
        expected = set()
        expected.add((Endpoint("A", Transport("a","p")), Endpoint("D", Transport("a","p"))))
        expected.add((Endpoint("B", Transport("b","p")), Endpoint("E", Transport("b","p"))))
        expected.add((Endpoint("C", Transport("","p")), Endpoint("F", Transport("","p"))))
        result = set()
        result.add(Endpoints.match(self.pts, self.pts2, ["p"]))
        result.add(Endpoints.match(self.pts, self.pts2, ["p"]))
        result.add(Endpoints.match(self.pts, self.pts2, ["p"]))
        empty = Endpoints.EMPTY_MATCH
        self.assertEquals(expected, result)
        self.assertEquals(empty, Endpoints.match(self.pts, self.pts2, ["x"]))
        self.assertEquals(empty, Endpoints.match(self.pts, self.pts2, ["x"]))
        self.assertEquals(empty, Endpoints.match(self.pts, self.pts2, ["x"]))
 
    def test_match_exhaustion(self):
        self.pts.addEndpoint("A", "p")
        self.pts2 = Endpoints(af=socket.AF_INET, maxserve=2)
        self.pts2.addEndpoint("B", "p")
        Endpoints.match(self.pts2, self.pts, ["p"])
        Endpoints.match(self.pts2, self.pts, ["p"])
        empty = Endpoints.EMPTY_MATCH
        self.assertTrue("B" not in self.pts2._endpoints)
        self.assertTrue("B" not in self.pts2._indexes["p"][""])
        self.assertEquals(empty, Endpoints.match(self.pts2, self.pts, ["p"]))
 
 
class FacilitatorTest(unittest.TestCase):
 
    def test_parse_relay_file(self):
        fp = StringIO()
        fp.write("websocket 0.0.1.0:1\n")
        fp.flush()
        fp.seek(0)
        af = socket.AF_INET
        servers = { af: Endpoints(af=af) }
        parse_relay_file(servers, fp)
        self.assertEquals(servers[af]._endpoints, {('0.0.1.0', 1): Transport('', 'websocket')})
 
 
class FacilitatorProcTest(unittest.TestCase):
    IPV4_CLIENT_ADDR = ("1.1.1.1", 9000)
    IPV6_CLIENT_ADDR = ("[11::11]", 9000)
    IPV4_PROXY_ADDR = ("2.2.2.2", 13000)
    IPV6_PROXY_ADDR = ("[22::22]", 13000)
    IPV4_RELAY_ADDR = ("0.0.1.0", 1)
    IPV6_RELAY_ADDR = ("[0:0::1:0]", 1)
 
    def gimme_socket(self):
        return gimme_socket(FACILITATOR_HOST, FACILITATOR_PORT)
 
    def setUp(self):
        self.relay_file = tempfile.NamedTemporaryFile()
        self.relay_file.write("%s %s\n" % (RELAY_TP, format_addr(self.IPV4_RELAY_ADDR)))
        self.relay_file.write("%s %s\n" % (RELAY_TP, format_addr(self.IPV6_RELAY_ADDR)))
        self.relay_file.flush()
        self.relay_file.seek(0)
        fn = os.path.join(os.path.dirname(__file__), "./facilitator")
        self.process = subprocess.Popen(["python", fn, "-d", "-p", str(FACILITATOR_PORT), "-r", self.relay_file.name, "-l", "/dev/null"])
        time.sleep(0.1)
 
    def tearDown(self):
        ret = self.process.poll()
        if ret is not None:
            raise Exception("facilitator subprocess exited unexpectedly with status %d" % ret)
        self.process.terminate()
 
    def test_timeout(self):
        """Test that the socket will not accept slow writes indefinitely.
        Successive sends should not reset the timeout counter."""
        s = self.gimme_socket()
        time.sleep(0.3)
        s.send("w")
        time.sleep(0.3)
        s.send("w")
        time.sleep(0.3)
        s.send("w")
        time.sleep(0.3)
        s.send("w")
        time.sleep(0.3)
        self.assertRaises(socket.error, s.send, "w")
 
    def test_readline_limit(self):
        """Test that reads won't buffer indefinitely."""
        s = self.gimme_socket()
        buflen = 0
        try:
            while buflen + 1024 < 200000:
                s.send("X" * 1024)
                buflen += 1024
            # TODO(dcf1): sometimes no error is raised, and this test fails
            self.fail("should have raised a socket error")
        except socket.error:
            pass
 
    def test_af_v4_v4(self):
        """Test that IPv4 proxies can get IPv4 clients."""
        fac.put_reg(FACILITATOR_ADDR, self.IPV4_CLIENT_ADDR, CLIENT_TP)
        fac.put_reg(FACILITATOR_ADDR, self.IPV6_CLIENT_ADDR, CLIENT_TP)
        reg = fac.get_reg(FACILITATOR_ADDR, self.IPV4_PROXY_ADDR, PROXY_TPS)
        self.assertEqual(reg["client"], format_addr(self.IPV4_CLIENT_ADDR))
 
    def test_af_v4_v6(self):
        """Test that IPv4 proxies do not get IPv6 clients."""
        fac.put_reg(FACILITATOR_ADDR, self.IPV6_CLIENT_ADDR, CLIENT_TP)
        reg = fac.get_reg(FACILITATOR_ADDR, self.IPV4_PROXY_ADDR, PROXY_TPS)
        self.assertEqual(reg["client"], "")
 
    def test_af_v6_v4(self):
        """Test that IPv6 proxies do not get IPv4 clients."""
        fac.put_reg(FACILITATOR_ADDR, self.IPV4_CLIENT_ADDR, CLIENT_TP)
        reg = fac.get_reg(FACILITATOR_ADDR, self.IPV6_PROXY_ADDR, PROXY_TPS)
        self.assertEqual(reg["client"], "")
 
    def test_af_v6_v6(self):
        """Test that IPv6 proxies can get IPv6 clients."""
        fac.put_reg(FACILITATOR_ADDR, self.IPV4_CLIENT_ADDR, CLIENT_TP)
        fac.put_reg(FACILITATOR_ADDR, self.IPV6_CLIENT_ADDR, CLIENT_TP)
        reg = fac.get_reg(FACILITATOR_ADDR, self.IPV6_PROXY_ADDR, PROXY_TPS)
        self.assertEqual(reg["client"], format_addr(self.IPV6_CLIENT_ADDR))
 
    def test_fields(self):
        """Test that facilitator responses contain all the required fields."""
        fac.put_reg(FACILITATOR_ADDR, self.IPV4_CLIENT_ADDR, CLIENT_TP)
        reg = fac.get_reg(FACILITATOR_ADDR, self.IPV4_PROXY_ADDR, PROXY_TPS)
        self.assertEqual(reg["client"], format_addr(self.IPV4_CLIENT_ADDR))
        self.assertEqual(reg["client-transport"], CLIENT_TP)
        self.assertEqual(reg["relay"], format_addr(self.IPV4_RELAY_ADDR))
        self.assertEqual(reg["relay-transport"], RELAY_TP)
        self.assertGreater(int(reg["check-back-in"]), 0)
 
#     def test_same_proxy(self):
#         """Test that the same proxy doesn't get the same client when asking
#         twice."""
#         self.fail()
#
#     def test_num_clients(self):
#         """Test that the same proxy can pick up up to five different clients but
#         no more. Test that a proxy ceasing to handle a client allows the proxy
#         to handle another, different client."""
#         self.fail()
#
#     def test_num_proxies(self):
#         """Test that a single client is handed out to five different proxies but
#         no more. Test that a proxy ceasing to handle a client reduces its count
#         so another proxy can handle it."""
#         self.fail()
#
#     def test_proxy_timeout(self):
#         """Test that a proxy ceasing to connect for some time period causes that
#         proxy's clients to be unhandled by that proxy."""
#         self.fail()
#
#     def test_localhost_only(self):
#         """Test that the facilitator doesn't listen on any external
#         addresses."""
#         self.fail()
#
#     def test_hostname(self):
#         """Test that the facilitator rejects hostnames."""
#         self.fail()
 
if __name__ == "__main__":
    unittest.main()