def announce_contact(self, name=CONTACT_NAME):
basic_txt = { "txtvers": "1", "status": "avail" }
self.contact_name = '%s@%s' % (name, get_host_name())
self.listener, port = setup_stream_listener(self.q, self.contact_name,
protocol=IncomingXmppiChatStream)
AvahiAnnouncer(self.contact_name, "_presence._tcp", port, basic_txt)
def announce_contact(self, name=CONTACT_NAME):
basic_txt = { "txtvers": "1", "status": "avail" }
self.contact_name = '%s@%s' % (name, get_host_name())
self.listener, port = setup_stream_listener(self.q, self.contact_name,
protocol=IncomingXmppiChatStream)
AvahiAnnouncer(self.contact_name, "_presence._tcp", port, basic_txt)
def receive_caps(q, bus, conn, service, contact, contact_handle, features,
expected_caps, expect_disco=True, expect_ccc=True):
ver = compute_caps_hash([], features, {})
txt_record = { "txtvers": "1", "status": "avail",
"node": client, "ver": ver, "hash": "sha-1"}
listener, port = setup_stream_listener(q, contact)
AvahiAnnouncer(contact, "_presence._tcp", port, txt_record)
if expect_disco:
# Salut looks up our capabilities
e = q.expect('incoming-connection', listener=listener)
stream = e.connection
event = q.expect('stream-iq', to=contact, query_ns=ns.DISCO_INFO,
connection=stream)
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
client + '#' + ver
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = client + '#' + ver
for f in features:
feature = query.addElement('feature')
feature['var'] = f
stream.send(result)
if expect_ccc:
event = q.expect('dbus-signal', signal='ContactCapabilitiesChanged')
announced_ccs, = event.args
assertSameElements(expected_caps, announced_ccs[contact_handle])
else:
if expect_disco:
# Make sure Salut's got the caps
sync_stream(q, stream)
# check the Contacts interface give the same caps
caps_via_contacts_iface = conn.Contacts.GetContactAttributes(
[contact_handle], [cs.CONN_IFACE_CONTACT_CAPS], False) \
[contact_handle][cs.ATTR_CONTACT_CAPABILITIES]
assertSameElements(expected_caps, caps_via_contacts_iface)
# close the connection and expect a new one to be opened by Salut
# the next time we need some discoing doing
if expect_disco:
stream.send('</stream:stream>')
stream.transport.loseConnection()
# pass some time so Salut knows the connection is lost and
# won't try and send stuff down a closed connection on the
# next test.
sync_dbus(bus, q, conn)
def test(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = {"txtvers": "1", "status": "avail"}
contact_name = "test-text-channel@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added',
name=self_handle_name,
protocol=avahi.PROTO_INET)
service = e.service
service.resolve()
e = q.expect('service-resolved', service=service)
xmpp_connection = connect_to_stream(q, contact_name, self_handle_name,
str(e.pt), e.port)
e = q.expect('connection-result')
assert e.succeeded, e.reason
e = q.expect('stream-opened', connection=xmpp_connection)
# connected to salut, now send a messages as composing part
# here be sillyness
parts = OUTGOING_MESSAGE.split(" ")
for x in xrange(1, len(parts)):
message = domish.Element(('', 'message'))
message.addElement('body', content=' '.join(parts[:x]))
event = message.addElement('x', 'jabber:x:event')
event.addElement('composing')
event.addElement('id')
xmpp_connection.send(message)
message = domish.Element(('', 'message'))
message.addElement('body', content=OUTGOING_MESSAGE)
event = message.addElement('x', 'jabber:x:event')
event.addElement('composing')
xmpp_connection.send(message)
e = q.expect('dbus-signal', signal='Received')
assert e.args[2] == handle
assert e.args[5] == OUTGOING_MESSAGE
def test(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = { "txtvers": "1", "status": "avail" }
contact_name = "test-text-channel@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added', name = self_handle_name,
protocol = avahi.PROTO_INET)
service = e.service
service.resolve()
e = q.expect('service-resolved', service = service)
xmpp_connection = connect_to_stream(q, contact_name,
self_handle_name, str(e.pt), e.port)
e = q.expect('connection-result')
assert e.succeeded, e.reason
e = q.expect('stream-opened', connection = xmpp_connection)
# connected to salut, now send a messages as composing part
# here be sillyness
parts = OUTGOING_MESSAGE.split(" ")
for x in xrange(1,len(parts)):
message = domish.Element(('', 'message'))
message.addElement('body', content=' '.join(parts[:x]))
event = message.addElement('x', 'jabber:x:event')
event.addElement('composing')
event.addElement('id')
xmpp_connection.send(message)
message = domish.Element(('', 'message'))
message.addElement('body', content=OUTGOING_MESSAGE)
event = message.addElement('x', 'jabber:x:event')
event.addElement('composing')
xmpp_connection.send(message)
e = q.expect('dbus-signal', signal='Received')
assert e.args[2] == handle
assert e.args[5] == OUTGOING_MESSAGE
def announce_contact(self, name=CONTACT_NAME, metadata=True):
client = 'http://telepathy.freedesktop.org/fake-client'
features = [ns.IQ_OOB]
if metadata:
features += [ns.TP_FT_METADATA]
ver = compute_caps_hash([], features, {})
txt_record = {
"txtvers": "1",
"status": "avail",
"node": client,
"ver": ver,
"hash": "sha-1"
}
suffix = '@%s' % get_host_name()
name += ('-' + os.path.splitext(os.path.basename(sys.argv[0]))[0])
self.contact_name = name + suffix
if len(self.contact_name) > 63:
allowed = 63 - len(suffix)
self.contact_name = name[:allowed] + suffix
self.listener, port = setup_stream_listener(self.q, self.contact_name)
self.contact_service = AvahiAnnouncer(self.contact_name,
"_presence._tcp", port,
txt_record)
self.handle = wait_for_contact_in_publish(self.q, self.bus, self.conn,
self.contact_name)
# expect salut to disco our caps
e = self.q.expect('incoming-connection', listener=self.listener)
stream = e.connection
e = self.q.expect('stream-iq',
to=self.contact_name,
query_ns=ns.DISCO_INFO,
connection=stream)
assertEquals(client + '#' + ver, e.query['node'])
send_disco_reply(stream, e.stanza, [], features)
# lose the connection here to ensure connections are created
# where necessary; I just wanted salut to know my caps.
stream.send('</stream:stream>')
# spend a bit of time in the main loop to ensure the last two
# stanzas are actually received by salut before closing the
# connection.
sync_dbus(self.bus, self.q, self.conn)
stream.transport.loseConnection()
def setup_tests(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = { "txtvers": "1", "status": "avail" }
contact_name = "test-yst-message@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
return handle, contact_name, listener
def setup_tests(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = {"txtvers": "1", "status": "avail"}
contact_name = "test-yst-message@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
return handle, contact_name, listener
def announce_contact(self, name=CONTACT_NAME, metadata=True):
client = 'http://telepathy.freedesktop.org/fake-client'
features = [ns.IQ_OOB]
if metadata:
features += [ns.TP_FT_METADATA]
ver = compute_caps_hash([], features, {})
txt_record = { "txtvers": "1", "status": "avail",
"node": client, "ver": ver, "hash": "sha-1"}
suffix = '@%s' % get_host_name()
name += ('-' + os.path.splitext(os.path.basename(sys.argv[0]))[0])
self.contact_name = name + suffix
if len(self.contact_name) > 63:
allowed = 63 - len(suffix)
self.contact_name = name[:allowed] + suffix
self.listener, port = setup_stream_listener(self.q, self.contact_name)
self.contact_service = AvahiAnnouncer(self.contact_name, "_presence._tcp",
port, txt_record)
self.handle = wait_for_contact_in_publish(self.q, self.bus, self.conn,
self.contact_name)
# expect salut to disco our caps
e = self.q.expect('incoming-connection', listener=self.listener)
stream = e.connection
e = self.q.expect('stream-iq', to=self.contact_name, query_ns=ns.DISCO_INFO,
connection=stream)
assertEquals(client + '#' + ver, e.query['node'])
send_disco_reply(stream, e.stanza, [], features)
# lose the connection here to ensure connections are created
# where necessary; I just wanted salut to know my caps.
stream.send('</stream:stream>')
# spend a bit of time in the main loop to ensure the last two
# stanzas are actually received by salut before closing the
# connection.
sync_dbus(self.bus, self.q, self.conn)
stream.transport.loseConnection()
def test(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = {"txtvers": "1", "status": "avail"}
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
contact_name = "test-ichat-incoming-msg@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
# Create a connection to send msg stanza
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added',
name=self_handle_name,
protocol=avahi.PROTO_INET)
service = e.service
service.resolve()
e = q.expect('service-resolved', service=service)
outbound = connect_to_stream(q, contact_name, self_handle_name, str(e.pt),
e.port, OutgoingXmppiChatStream)
e = q.expect('connection-result')
assert e.succeeded, e.reason
e = q.expect('stream-opened', connection=outbound)
msg = domish.Element((None, 'message'))
msg['to'] = self_handle_name
msg['type'] = 'chat'
boddy = msg.addElement('body', content='hi')
outbound.send(msg)
e = q.expect('dbus-signal', signal='Received')
assert e.args[2] == handle
assert e.args[3] == cs.MT_NORMAL
assert e.args[5] == "hi"
def test(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = { "txtvers": "1", "status": "avail" }
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
contact_name = "test-ichat-incoming-msg@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
# Create a connection to send msg stanza
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added', name = self_handle_name,
protocol = avahi.PROTO_INET)
service = e.service
service.resolve()
e = q.expect('service-resolved', service = service)
outbound = connect_to_stream(q, contact_name,
self_handle_name, str(e.pt), e.port, OutgoingXmppiChatStream)
e = q.expect('connection-result')
assert e.succeeded, e.reason
e = q.expect('stream-opened', connection = outbound)
msg = domish.Element((None, 'message'))
msg['to'] = self_handle_name
msg['type'] = 'chat'
boddy = msg.addElement('body', content='hi')
outbound.send(msg)
e = q.expect('dbus-signal', signal='Received')
assert e.args[2] == handle
assert e.args[3] == cs.MT_NORMAL
assert e.args[5] == "hi"
def test(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = {"txtvers": "1", "status": "avail"}
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
contact_name = "test-muc@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
requests_iface = dbus.Interface(conn, cs.CONN_IFACE_REQUESTS)
# Create a connection to send the muc invite
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added',
name=self_handle_name,
protocol=avahi.PROTO_INET)
service = e.service
service.resolve()
e = q.expect('service-resolved', service=service)
outbound = connect_to_stream(q, contact_name, self_handle_name, str(e.pt),
e.port)
e = q.expect('connection-result')
assert e.succeeded, e.reason
e = q.expect('stream-opened', connection=outbound)
# connected to Salut, now send the muc invite
msg = domish.Element((None, 'message'))
msg['to'] = self_handle_name
msg['from'] = contact_name
msg['type'] = 'normal'
body = msg.addElement('body',
content='You got a Clique chatroom invitation')
invite = msg.addElement((NS_CLIQUE, 'invite'))
invite.addElement('roomname', content='my-room')
invite.addElement('reason', content='Inviting to this room')
# FIXME: we should create a real Clique room and use its IP and port.
# Hardcode values for now. The IP is a multicast address.
invite.addElement('address', content='239.255.71.249')
invite.addElement('port', content='62472')
outbound.send(msg)
e = q.expect('dbus-signal',
signal='NewChannels',
predicate=lambda e: e.args[0][0][1][cs.CHANNEL_TYPE] == cs.
CHANNEL_TYPE_TEXT)
channels = e.args[0]
assert len(channels) == 1
path, props = channels[0]
channel = make_channel_proxy(conn, path, "Channel")
channel_group = make_channel_proxy(conn, path, "Channel.Interface.Group")
# check channel properties
# org.freedesktop.Telepathy.Channel D-Bus properties
assert props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_TEXT
assertContains(cs.CHANNEL_IFACE_GROUP, props[cs.INTERFACES])
assertContains(cs.CHANNEL_IFACE_MESSAGES, props[cs.INTERFACES])
assert props[cs.TARGET_ID] == 'my-room'
assert props[cs.TARGET_HANDLE_TYPE] == HT_ROOM
assert props[cs.REQUESTED] == False
assert props[cs.INITIATOR_HANDLE] == handle
assert props[cs.INITIATOR_ID] == contact_name
# we are added to local pending
e = q.expect('dbus-signal', signal='MembersChanged')
msg, added, removed, lp, rp, actor, reason = e.args
assert msg == 'Inviting to this room'
assert added == []
assert removed == []
assert lp == [self_handle]
assert rp == []
assert actor == handle
assert reason == 4 # invited
# TODO: join the muc, check if we are added to remote-pending and then
# to members. This would need some tweak in Salut and/or the test framework
# as Clique takes too much time to join the room and so the event times
# out.
# TODO: test sending invitations
# FIXME: fd.o #30531: this ought to work, but doesn't
#channel_group.RemoveMembersWithReason([self_handle], "bored now", 0)
channel.Close()
q.expect('dbus-signal', signal='Closed')
def test(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = { "txtvers": "1", "status": "avail" }
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
contact_name = "test-muc@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
requests_iface = dbus.Interface(conn, cs.CONN_IFACE_REQUESTS)
# Create a connection to send the muc invite
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added', name = self_handle_name,
protocol = avahi.PROTO_INET)
service = e.service
service.resolve()
e = q.expect('service-resolved', service = service)
outbound = connect_to_stream(q, contact_name,
self_handle_name, str(e.pt), e.port)
e = q.expect('connection-result')
assert e.succeeded, e.reason
e = q.expect('stream-opened', connection = outbound)
# connected to Salut, now send the muc invite
msg = domish.Element((None, 'message'))
msg['to'] = self_handle_name
msg['from'] = contact_name
msg['type'] = 'normal'
body = msg.addElement('body', content='You got a Clique chatroom invitation')
invite = msg.addElement((NS_CLIQUE, 'invite'))
invite.addElement('roomname', content='my-room')
invite.addElement('reason', content='Inviting to this room')
# FIXME: we should create a real Clique room and use its IP and port.
# Hardcode values for now. The IP is a multicast address.
invite.addElement('address', content='239.255.71.249')
invite.addElement('port', content='62472')
outbound.send(msg)
e = q.expect('dbus-signal', signal='NewChannels',
predicate=lambda e:
e.args[0][0][1][cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_TEXT)
channels = e.args[0]
assert len(channels) == 1
path, props = channels[0]
channel = make_channel_proxy(conn, path, "Channel")
channel_group = make_channel_proxy(conn, path, "Channel.Interface.Group")
# check channel properties
# org.freedesktop.Telepathy.Channel D-Bus properties
assert props[cs.CHANNEL_TYPE] == cs.CHANNEL_TYPE_TEXT
assertContains(cs.CHANNEL_IFACE_GROUP, props[cs.INTERFACES])
assertContains(cs.CHANNEL_IFACE_MESSAGES, props[cs.INTERFACES])
assert props[cs.TARGET_ID] == 'my-room'
assert props[cs.TARGET_HANDLE_TYPE] == HT_ROOM
assert props[cs.REQUESTED] == False
assert props[cs.INITIATOR_HANDLE] == handle
assert props[cs.INITIATOR_ID] == contact_name
# we are added to local pending
e = q.expect('dbus-signal', signal='MembersChanged')
msg, added, removed, lp, rp, actor, reason = e.args
assert msg == 'Inviting to this room'
assert added == []
assert removed == []
assert lp == [self_handle]
assert rp == []
assert actor == handle
assert reason == 4 # invited
# TODO: join the muc, check if we are added to remote-pending and then
# to members. This would need some tweak in Salut and/or the test framework
# as Clique takes too much time to join the room and so the event times
# out.
# TODO: test sending invitations
# FIXME: fd.o #30531: this ought to work, but doesn't
#channel_group.RemoveMembersWithReason([self_handle], "bored now", 0)
channel.Close()
q.expect('dbus-signal', signal='Closed')
def test_ft_caps_from_contact(q, bus, conn, client):
conn_caps_iface = dbus.Interface(conn, cs.CONN_IFACE_CONTACT_CAPS)
conn_contacts_iface = dbus.Interface(conn, cs.CONN_IFACE_CONTACTS)
# send presence with FT capa
ver = compute_caps_hash([], [ns.IQ_OOB], {})
txt_record = { "txtvers": "1", "status": "avail",
"node": client, "ver": ver, "hash": "sha-1"}
contact_name = "test-caps-ft@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port,
txt_record)
# this is the first presence, Salut connects to the contact
e = q.expect('incoming-connection', listener = listener)
incoming = e.connection
# Salut looks up our capabilities
event = q.expect('stream-iq', connection = incoming,
query_ns='http://jabber.org/protocol/disco#info')
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
client + '#' + ver, (query_node.attributes['node'], client, ver)
contact_handle = conn_contacts_iface.GetContactByID(contact_name, [])[0]
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = client + '#' + ver
feature = query.addElement('feature')
feature['var'] = ns.IQ_OOB
incoming.send(result)
# FT capa is announced
e = q.expect('dbus-signal', signal='ContactCapabilitiesChanged',
predicate=lambda e: contact_handle in e.args[0])
caps = e.args[0][contact_handle]
assertContains(ft_caps, caps)
# check the Contacts interface give the same caps
caps_via_contacts_iface = conn_contacts_iface.GetContactAttributes(
[contact_handle], [cs.CONN_IFACE_CONTACT_CAPS], False) \
[contact_handle][cs.CONN_IFACE_CONTACT_CAPS + '/capabilities']
assert caps_via_contacts_iface == caps, caps_via_contacts_iface
# check if Salut announces the OOB capa
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added', name = self_handle_name,
protocol = avahi.PROTO_INET)
service = e.service
service.resolve()
receive_presence_and_ask_caps(q, incoming, service, contact_name)
# capa announced without FT
ver = compute_caps_hash([], ["http://telepathy.freedesktop.org/xmpp/pony"], {})
txt_record = { "txtvers": "1", "status": "avail",
"node": client, "ver": ver, "hash": "sha-1"}
contact_name = "test-caps-ft2@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port,
txt_record)
# this is the first presence, Salut connects to the contact
e = q.expect('incoming-connection', listener = listener)
incoming = e.connection
# Salut looks up our capabilities
event = q.expect('stream-iq', connection = incoming,
query_ns='http://jabber.org/protocol/disco#info')
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
client + '#' + ver, (query_node.attributes['node'], client, ver)
contact_handle = conn_contacts_iface.GetContactByID(contact_name, [])[0]
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = client + '#' + ver
feature = query.addElement('feature')
feature['var'] = "http://telepathy.freedesktop.org/xmpp/pony"
incoming.send(result)
# the FT capability is not announced
e = q.expect('dbus-signal', signal='ContactCapabilitiesChanged')
caps = e.args[0][contact_handle]
assertDoesNotContain(ft_caps, caps)
# check the Contacts interface give the same caps
caps_via_contacts_iface = conn_contacts_iface.GetContactAttributes(
[contact_handle], [cs.CONN_IFACE_CONTACT_CAPS], False) \
[contact_handle][cs.CONN_IFACE_CONTACT_CAPS + '/capabilities']
assert caps_via_contacts_iface == caps, caps_via_contacts_iface
# no capabilites announced (assume FT is supported to insure interop)
txt_record = { "txtvers": "1", "status": "avail"}
contact_name = "test-caps-ft-no-capa2@" + get_host_name()
contact_handle = conn_contacts_iface.GetContactByID(contact_name, [])[0]
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port,
txt_record)
# FT capa is announced
e = q.expect('dbus-signal', signal='ContactCapabilitiesChanged',
predicate=lambda e: contact_handle in e.args[0].keys())
caps = e.args[0][contact_handle]
assertContains(ft_caps, caps)
# check the Contacts interface give the same caps
caps_via_contacts_iface = conn_contacts_iface.GetContactAttributes(
[contact_handle], [cs.CONN_IFACE_CONTACT_CAPS], False) \
[contact_handle][cs.CONN_IFACE_CONTACT_CAPS + '/capabilities']
assert caps_via_contacts_iface == caps, caps_via_contacts_iface
def test(q, bus, conn):
# we won't be using any data forms, so these two shouldn't ever be
# fired.
q.forbid_events([EventPattern('dbus-signal', signal='ServiceAdded'),
EventPattern('dbus-signal', signal='ServiceRemoved')])
call_async(q, conn.Future, 'EnsureSidecar', ycs.STATUS_IFACE)
conn.Connect()
# Now we're connected, the call we made earlier should return.
e = q.expect('dbus-return', method='EnsureSidecar')
path, props = e.value
assertEquals({}, props)
status = ProxyWrapper(bus.get_object(conn.bus_name, path),
ycs.STATUS_IFACE, {})
# bad capability argument
call_async(q, status, 'AdvertiseStatus', '', 'service.name', '')
q.expect('dbus-error', method='AdvertiseStatus')
# bad service name
call_async(q, status, 'AdvertiseStatus', CAP_NAME, '', '')
q.expect('dbus-error', method='AdvertiseStatus')
# we can't test that the message type="headline" stanza is
# actually received because it's thrown into the loopback stream
# immediately.
# announce a contact with the right caps
ver = compute_caps_hash([], [CAP_NAME + '+notify'], {})
txt_record = { "txtvers": "1", "status": "avail",
"node": CLIENT_NAME, "ver": ver, "hash": "sha-1"}
contact_name = "test-status@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, txt_record)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
# this is the first presence, Salut connects to the contact
e = q.expect('incoming-connection', listener=listener)
incoming = e.connection
# Salut looks up its capabilities
event = q.expect('stream-iq', connection=incoming,
query_ns=ns.DISCO_INFO)
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assertEquals(CLIENT_NAME + '#' + ver, query_node.attributes['node'])
contact_handle = conn.RequestHandles(cs.HT_CONTACT, [contact_name])[0]
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = CLIENT_NAME + '#' + ver
feature = query.addElement('feature')
feature['var'] = CAP_NAME + '+notify'
incoming.send(result)
# this will be fired as text channel caps will be fired
q.expect('dbus-signal', signal='ContactCapabilitiesChanged',
predicate=lambda e: contact_handle in e.args[0])
# okay now we know about the contact's caps, we can go ahead
discovered = status.Get(ycs.STATUS_IFACE, 'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({}, discovered)
el = Element(('urn:ytstenut:status', 'status'))
el['activity'] = 'messing-with-your-stuff'
desc = el.addElement('ytstenut:description', content='Yeah sorry about that')
desc['xml:lang'] = 'en-GB'
call_async(q, status, 'AdvertiseStatus', CAP_NAME,
'ants.in.their.pants', el.toXml())
e, _, sig = q.expect_many(EventPattern('stream-message', connection=incoming),
EventPattern('dbus-return', method='AdvertiseStatus'),
EventPattern('dbus-signal', signal='StatusChanged',
interface=ycs.STATUS_IFACE))
# check message
message = e.stanza
event = message.children[0]
items = event.children[0]
item = items.children[0]
status_el = item.children[0]
assertEquals('status', status_el.name)
assertEquals('messing-with-your-stuff', status_el['activity'])
assertEquals('ants.in.their.pants', status_el['from-service'])
assertEquals(CAP_NAME, status_el['capability'])
# check signal
contact_id, capability, service_name, status_str = sig.args
assertEquals(CAP_NAME, capability)
assertEquals('ants.in.their.pants', service_name)
assertNotEquals('', status_str)
# check property
discovered = status.Get(ycs.STATUS_IFACE, 'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({'testsuite@testsuite': {CAP_NAME: {'ants.in.their.pants': status_str}}},
discovered)
# set another
el = Element(('urn:ytstenut:status', 'status'))
el['activity'] = 'rofling'
desc = el.addElement('ytstenut:description', content='U MAD?')
desc['xml:lang'] = 'en-GB'
call_async(q, status, 'AdvertiseStatus', CAP_NAME,
'bananaman.on.holiday', el.toXml())
e, _, sig = q.expect_many(EventPattern('stream-message', connection=incoming),
EventPattern('dbus-return', method='AdvertiseStatus'),
EventPattern('dbus-signal', signal='StatusChanged',
interface=ycs.STATUS_IFACE))
# check message
message = e.stanza
event = message.children[0]
items = event.children[0]
item = items.children[0]
status_el = item.children[0]
assertEquals('status', status_el.name)
assertEquals('rofling', status_el['activity'])
assertEquals('bananaman.on.holiday', status_el['from-service'])
assertEquals(CAP_NAME, status_el['capability'])
# check signal
contact_id, capability, service_name, bananaman_status_str = sig.args
assertEquals(CAP_NAME, capability)
assertEquals('bananaman.on.holiday', service_name)
assertNotEquals('', bananaman_status_str)
# check property
discovered = status.Get(ycs.STATUS_IFACE, 'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({'testsuite@testsuite': {CAP_NAME: {
'ants.in.their.pants': status_str,
'bananaman.on.holiday': bananaman_status_str}}},
discovered)
# unset the status from one service
call_async(q, status, 'AdvertiseStatus', CAP_NAME,
'ants.in.their.pants', '')
e, _, sig = q.expect_many(EventPattern('stream-message', connection=incoming),
EventPattern('dbus-return', method='AdvertiseStatus'),
EventPattern('dbus-signal', signal='StatusChanged',
interface=ycs.STATUS_IFACE))
# check message
message = e.stanza
event = message.children[0]
items = event.children[0]
item = items.children[0]
status_el = item.children[0]
assertEquals('status', status_el.name)
assertEquals('ants.in.their.pants', status_el['from-service'])
assertEquals(CAP_NAME, status_el['capability'])
assert 'activity' not in status_el.attributes
assertEquals([], status_el.children)
# check signal
contact_id, capability, service_name, status_str = sig.args
assertEquals(CAP_NAME, capability)
assertEquals('ants.in.their.pants', service_name)
assertEquals('', status_str)
# check property
discovered = status.Get(ycs.STATUS_IFACE, 'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({'testsuite@testsuite': {CAP_NAME: {
'bananaman.on.holiday': bananaman_status_str}}},
discovered)
# unset the status from the other service
call_async(q, status, 'AdvertiseStatus', CAP_NAME,
'bananaman.on.holiday', '')
e, _, sig = q.expect_many(EventPattern('stream-message', connection=incoming),
EventPattern('dbus-return', method='AdvertiseStatus'),
EventPattern('dbus-signal', signal='StatusChanged',
interface=ycs.STATUS_IFACE))
# check message
message = e.stanza
event = message.children[0]
items = event.children[0]
item = items.children[0]
status_el = item.children[0]
assertEquals('status', status_el.name)
assertEquals('bananaman.on.holiday', status_el['from-service'])
assertEquals(CAP_NAME, status_el['capability'])
assert 'activity' not in status_el.attributes
assertEquals([], status_el.children)
# check signal
contact_id, capability, service_name, status_str = sig.args
assertEquals(CAP_NAME, capability)
assertEquals('bananaman.on.holiday', service_name)
assertEquals('', status_str)
# check property
discovered = status.Get(ycs.STATUS_IFACE, 'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({}, discovered)
def test(q, bus, conn):
# we won't be using any data forms, so these two shouldn't ever be
# fired.
q.forbid_events([
EventPattern('dbus-signal', signal='ServiceAdded'),
EventPattern('dbus-signal', signal='ServiceRemoved')
])
call_async(q, conn.Future, 'EnsureSidecar', ycs.STATUS_IFACE)
conn.Connect()
# Now we're connected, the call we made earlier should return.
e = q.expect('dbus-return', method='EnsureSidecar')
path, props = e.value
assertEquals({}, props)
status = ProxyWrapper(bus.get_object(conn.bus_name, path),
ycs.STATUS_IFACE, {})
# bad capability argument
call_async(q, status, 'AdvertiseStatus', '', 'service.name', '')
q.expect('dbus-error', method='AdvertiseStatus')
# bad service name
call_async(q, status, 'AdvertiseStatus', CAP_NAME, '', '')
q.expect('dbus-error', method='AdvertiseStatus')
# we can't test that the message type="headline" stanza is
# actually received because it's thrown into the loopback stream
# immediately.
# announce a contact with the right caps
ver = compute_caps_hash([], [CAP_NAME + '+notify'], {})
txt_record = {
"txtvers": "1",
"status": "avail",
"node": CLIENT_NAME,
"ver": ver,
"hash": "sha-1"
}
contact_name = "test-status@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port,
txt_record)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
# this is the first presence, Salut connects to the contact
e = q.expect('incoming-connection', listener=listener)
incoming = e.connection
# Salut looks up its capabilities
event = q.expect('stream-iq', connection=incoming, query_ns=ns.DISCO_INFO)
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assertEquals(CLIENT_NAME + '#' + ver, query_node.attributes['node'])
contact_handle = conn.RequestHandles(cs.HT_CONTACT, [contact_name])[0]
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = CLIENT_NAME + '#' + ver
feature = query.addElement('feature')
feature['var'] = CAP_NAME + '+notify'
incoming.send(result)
# this will be fired as text channel caps will be fired
q.expect('dbus-signal',
signal='ContactCapabilitiesChanged',
predicate=lambda e: contact_handle in e.args[0])
# okay now we know about the contact's caps, we can go ahead
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({}, discovered)
el = Element(('urn:ytstenut:status', 'status'))
el['activity'] = 'messing-with-your-stuff'
desc = el.addElement('ytstenut:description',
content='Yeah sorry about that')
desc['xml:lang'] = 'en-GB'
call_async(q, status, 'AdvertiseStatus', CAP_NAME, 'ants.in.their.pants',
el.toXml())
e, _, sig = q.expect_many(
EventPattern('stream-message', connection=incoming),
EventPattern('dbus-return', method='AdvertiseStatus'),
EventPattern('dbus-signal',
signal='StatusChanged',
interface=ycs.STATUS_IFACE))
# check message
message = e.stanza
event = message.children[0]
items = event.children[0]
item = items.children[0]
status_el = item.children[0]
assertEquals('status', status_el.name)
assertEquals('messing-with-your-stuff', status_el['activity'])
assertEquals('ants.in.their.pants', status_el['from-service'])
assertEquals(CAP_NAME, status_el['capability'])
# check signal
contact_id, capability, service_name, status_str = sig.args
assertEquals(CAP_NAME, capability)
assertEquals('ants.in.their.pants', service_name)
assertNotEquals('', status_str)
# check property
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals(
{
'testsuite@testsuite': {
CAP_NAME: {
'ants.in.their.pants': status_str
}
}
}, discovered)
# set another
el = Element(('urn:ytstenut:status', 'status'))
el['activity'] = 'rofling'
desc = el.addElement('ytstenut:description', content='U MAD?')
desc['xml:lang'] = 'en-GB'
call_async(q, status, 'AdvertiseStatus', CAP_NAME, 'bananaman.on.holiday',
el.toXml())
e, _, sig = q.expect_many(
EventPattern('stream-message', connection=incoming),
EventPattern('dbus-return', method='AdvertiseStatus'),
EventPattern('dbus-signal',
signal='StatusChanged',
interface=ycs.STATUS_IFACE))
# check message
message = e.stanza
event = message.children[0]
items = event.children[0]
item = items.children[0]
status_el = item.children[0]
assertEquals('status', status_el.name)
assertEquals('rofling', status_el['activity'])
assertEquals('bananaman.on.holiday', status_el['from-service'])
assertEquals(CAP_NAME, status_el['capability'])
# check signal
contact_id, capability, service_name, bananaman_status_str = sig.args
assertEquals(CAP_NAME, capability)
assertEquals('bananaman.on.holiday', service_name)
assertNotEquals('', bananaman_status_str)
# check property
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals(
{
'testsuite@testsuite': {
CAP_NAME: {
'ants.in.their.pants': status_str,
'bananaman.on.holiday': bananaman_status_str
}
}
}, discovered)
# unset the status from one service
call_async(q, status, 'AdvertiseStatus', CAP_NAME, 'ants.in.their.pants',
'')
e, _, sig = q.expect_many(
EventPattern('stream-message', connection=incoming),
EventPattern('dbus-return', method='AdvertiseStatus'),
EventPattern('dbus-signal',
signal='StatusChanged',
interface=ycs.STATUS_IFACE))
# check message
message = e.stanza
event = message.children[0]
items = event.children[0]
item = items.children[0]
status_el = item.children[0]
assertEquals('status', status_el.name)
assertEquals('ants.in.their.pants', status_el['from-service'])
assertEquals(CAP_NAME, status_el['capability'])
assert 'activity' not in status_el.attributes
assertEquals([], status_el.children)
# check signal
contact_id, capability, service_name, status_str = sig.args
assertEquals(CAP_NAME, capability)
assertEquals('ants.in.their.pants', service_name)
assertEquals('', status_str)
# check property
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals(
{
'testsuite@testsuite': {
CAP_NAME: {
'bananaman.on.holiday': bananaman_status_str
}
}
}, discovered)
# unset the status from the other service
call_async(q, status, 'AdvertiseStatus', CAP_NAME, 'bananaman.on.holiday',
'')
e, _, sig = q.expect_many(
EventPattern('stream-message', connection=incoming),
EventPattern('dbus-return', method='AdvertiseStatus'),
EventPattern('dbus-signal',
signal='StatusChanged',
interface=ycs.STATUS_IFACE))
# check message
message = e.stanza
event = message.children[0]
items = event.children[0]
item = items.children[0]
status_el = item.children[0]
assertEquals('status', status_el.name)
assertEquals('bananaman.on.holiday', status_el['from-service'])
assertEquals(CAP_NAME, status_el['capability'])
assert 'activity' not in status_el.attributes
assertEquals([], status_el.children)
# check signal
contact_id, capability, service_name, status_str = sig.args
assertEquals(CAP_NAME, capability)
assertEquals('bananaman.on.holiday', service_name)
assertEquals('', status_str)
# check property
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredStatuses',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({}, discovered)
def test(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = { "txtvers": "1", "status": "avail" }
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
contact_name = "test-text-channel@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
# create a clique room
basic_txt = { "txtvers": "0"}
AvahiAnnouncer("myroom", "_clique._udp", 41377, basic_txt)
# connect a stream
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added', name = self_handle_name,
protocol = avahi.PROTO_INET)
service = e.service
service.resolve()
e = q.expect('service-resolved', service = service)
xmpp_connection = connect_to_stream(q, contact_name,
self_handle_name, str(e.pt), e.port)
e = q.expect('connection-result')
assert e.succeeded, e.reason
e = q.expect('stream-opened', connection = xmpp_connection)
# send an invitation
message = domish.Element(('', 'message'))
message['type'] = 'normal'
message.addElement('body', content='You got a Clique chatroom invitation')
invite = message.addElement((NS_CLIQUE, 'invite'))
invite.addElement('roomname', content='myroom')
invite.addElement('reason', content='Inviting to this room')
invite.addElement('address', content='127.0.0.1')
invite.addElement('port', content='41377')
xmpp_connection.send(message)
# group channel is created
e = q.expect('dbus-signal', signal='NewChannel',
predicate=lambda e:
e.args[1] == cs.CHANNEL_TYPE_TEXT and
e.args[2] == cs.HT_ROOM)
path = e.args[0]
channel = make_channel_proxy(conn, path, 'Channel')
props_iface = dbus.Interface(bus.get_object(conn.object.bus_name, path),
dbus.PROPERTIES_IFACE)
q.expect('dbus-signal', signal='MembersChanged', path=path)
lp_members = props_iface.Get('org.freedesktop.Telepathy.Channel.Interface.Group',
'LocalPendingMembers')
assert len(lp_members) == 1
added, actor, reason, msg = lp_members[0]
assert added == self_handle
assert actor == handle
assert reason == 4 #invited
assert msg == 'Inviting to this room'
# decline invitation
channel.Close()
q.expect('dbus-signal', signal='Closed')
def test(q, bus, conn):
call_async(q, conn.Future, 'EnsureSidecar', ycs.STATUS_IFACE)
conn.Connect()
# Now we're connected, the call we made earlier should return.
e = q.expect('dbus-return', method='EnsureSidecar')
path, props = e.value
assertEquals({}, props)
status = ProxyWrapper(bus.get_object(conn.bus_name, path),
ycs.STATUS_IFACE, {})
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredServices',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({}, discovered)
# announce a contact with the right caps
ver = compute_caps_hash([], [], banshee)
txt_record = {
"txtvers": "1",
"status": "avail",
"node": CLIENT_NAME,
"ver": ver,
"hash": "sha-1"
}
contact_name = "test-service@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port,
txt_record)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
# this is the first presence, Salut connects to the contact
e = q.expect('incoming-connection', listener=listener)
incoming = e.connection
# Salut looks up its capabilities
event = q.expect('stream-iq', connection=incoming, query_ns=ns.DISCO_INFO)
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assertEquals(CLIENT_NAME + '#' + ver, query_node.attributes['node'])
contact_handle = conn.RequestHandles(cs.HT_CONTACT, [contact_name])[0]
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = CLIENT_NAME + '#' + ver
x = query.addElement((ns.X_DATA, 'x'))
x['type'] = 'result'
# FORM_TYPE
field = x.addElement((None, 'field'))
field['var'] = 'FORM_TYPE'
field['type'] = 'hidden'
field.addElement((None, 'value'),
content='urn:ytstenut:capabilities#org.gnome.Banshee')
# type
field = x.addElement((None, 'field'))
field['var'] = 'type'
field.addElement((None, 'value'), content='application')
# name
field = x.addElement((None, 'field'))
field['var'] = 'name'
field.addElement((None, 'value'), content='en_GB/Banshee Media Player')
field.addElement((None, 'value'), content='fr/Banshee Lecteur de Musique')
# capabilities
field = x.addElement((None, 'field'))
field['var'] = 'capabilities'
field.addElement((None, 'value'),
content='urn:ytstenut:capabilities:yts-caps-audio')
field.addElement((None, 'value'), content='urn:ytstenut:data:jingle:rtp')
incoming.send(result)
# this will be fired as text channel caps will be fired
_, e = q.expect_many(
EventPattern('dbus-signal',
signal='ContactCapabilitiesChanged',
predicate=lambda e: contact_handle in e.args[0]),
EventPattern('dbus-signal', signal='ServiceAdded'))
contact_id, service_name, details = e.args
assertEquals(contact_name, contact_id)
assertEquals('org.gnome.Banshee', service_name)
type, name_map, caps = details
assertEquals('application', type)
assertEquals(
{
'en_GB': 'Banshee Media Player',
'fr': 'Banshee Lecteur de Musique'
}, name_map)
assertSameSets([
'urn:ytstenut:capabilities:yts-caps-audio',
'urn:ytstenut:data:jingle:rtp'
], caps)
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredServices',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals(
{
contact_name: {
'org.gnome.Banshee': ('application', {
'en_GB': 'Banshee Media Player',
'fr': 'Banshee Lecteur de Musique'
}, [
'urn:ytstenut:capabilities:yts-caps-audio',
'urn:ytstenut:data:jingle:rtp'
])
},
}, discovered)
# add evince
tmp = banshee.copy()
tmp.update(evince)
ver = compute_caps_hash([], [], tmp)
txt_record['ver'] = ver
announcer.update(txt_record)
# Salut looks up our capabilities
event = q.expect('stream-iq',
connection=incoming,
query_ns='http://jabber.org/protocol/disco#info')
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
CLIENT_NAME + '#' + txt_record['ver']
# send good reply
result['id'] = event.stanza['id']
query['node'] = CLIENT_NAME + '#' + ver
x = query.addElement((ns.X_DATA, 'x'))
x['type'] = 'result'
# FORM_TYPE
field = x.addElement((None, 'field'))
field['var'] = 'FORM_TYPE'
field['type'] = 'hidden'
field.addElement((None, 'value'),
content='urn:ytstenut:capabilities#org.gnome.Evince')
# type
field = x.addElement((None, 'field'))
field['var'] = 'type'
field.addElement((None, 'value'), content='application')
# name
field = x.addElement((None, 'field'))
field['var'] = 'name'
field.addElement((None, 'value'), content='en_GB/Evince Picture Viewer')
field.addElement((None, 'value'), content='fr/Evince uh, ow do you say')
# capabilities
field = x.addElement((None, 'field'))
field['var'] = 'capabilities'
field.addElement((None, 'value'), content='urn:ytstenut:capabilities:pics')
incoming.send(result)
e = q.expect('dbus-signal', signal='ServiceAdded')
contact_id, service_name, details = e.args
assertEquals(contact_name, contact_id)
assertEquals('org.gnome.Evince', service_name)
type, name_map, caps = details
assertEquals('application', type)
assertEquals(
{
'en_GB': 'Evince Picture Viewer',
'fr': 'Evince uh, ow do you say'
}, name_map)
assertSameSets(['urn:ytstenut:capabilities:pics'], caps)
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredServices',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals(
{
contact_name: {
'org.gnome.Banshee': ('application', {
'en_GB': 'Banshee Media Player',
'fr': 'Banshee Lecteur de Musique'
}, [
'urn:ytstenut:capabilities:yts-caps-audio',
'urn:ytstenut:data:jingle:rtp'
]),
'org.gnome.Evince': ('application', {
'en_GB': 'Evince Picture Viewer',
'fr': 'Evince uh, ow do you say'
}, ['urn:ytstenut:capabilities:pics'])
}
}, discovered)
# remove evince
ver = compute_caps_hash([], [], banshee)
txt_record['ver'] = ver
forbidden = [
EventPattern('dbus-signal', signal='stream-iq', connection=incoming)
]
q.forbid_events(forbidden)
announcer.update(txt_record)
e = q.expect('dbus-signal', signal='ServiceRemoved')
contact_id, service_name = e.args
assertEquals(contact_name, contact_id)
assertEquals('org.gnome.Evince', service_name)
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredServices',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals(
{
contact_name: {
'org.gnome.Banshee': ('application', {
'en_GB': 'Banshee Media Player',
'fr': 'Banshee Lecteur de Musique'
}, [
'urn:ytstenut:capabilities:yts-caps-audio',
'urn:ytstenut:data:jingle:rtp'
])
},
}, discovered)
sync_stream(q, incoming)
q.unforbid_events(forbidden)
# now just evince
ver = compute_caps_hash([], [], evince)
txt_record['ver'] = ver
announcer.update(txt_record)
# Salut looks up our capabilities
event = q.expect('stream-iq',
connection=incoming,
query_ns='http://jabber.org/protocol/disco#info')
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
CLIENT_NAME + '#' + txt_record['ver']
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = CLIENT_NAME + '#' + ver
x = query.addElement((ns.X_DATA, 'x'))
x['type'] = 'result'
# FORM_TYPE
field = x.addElement((None, 'field'))
field['var'] = 'FORM_TYPE'
field['type'] = 'hidden'
field.addElement((None, 'value'),
content='urn:ytstenut:capabilities#org.gnome.Evince')
# type
field = x.addElement((None, 'field'))
field['var'] = 'type'
field.addElement((None, 'value'), content='application')
# name
field = x.addElement((None, 'field'))
field['var'] = 'name'
field.addElement((None, 'value'), content='en_GB/Evince Picture Viewer')
field.addElement((None, 'value'), content='fr/Evince uh, ow do you say')
# capabilities
field = x.addElement((None, 'field'))
field['var'] = 'capabilities'
field.addElement((None, 'value'), content='urn:ytstenut:capabilities:pics')
incoming.send(result)
sa, sr = q.expect_many(
EventPattern('dbus-signal', signal='ServiceAdded'),
EventPattern('dbus-signal', signal='ServiceRemoved'))
contact_id, service_name, details = sa.args
assertEquals(contact_name, contact_id)
assertEquals('org.gnome.Evince', service_name)
type, name_map, caps = details
assertEquals('application', type)
assertEquals(
{
'en_GB': 'Evince Picture Viewer',
'fr': 'Evince uh, ow do you say'
}, name_map)
assertSameSets(['urn:ytstenut:capabilities:pics'], caps)
contact_id, service_name = sr.args
assertEquals(contact_name, contact_id)
assertEquals('org.gnome.Banshee', service_name)
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredServices',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals(
{
contact_name: {
'org.gnome.Evince': ('application', {
'en_GB': 'Evince Picture Viewer',
'fr': 'Evince uh, ow do you say'
}, ['urn:ytstenut:capabilities:pics'])
}
}, discovered)
# just banshee again
ver = compute_caps_hash([], [], banshee)
txt_record['ver'] = ver
forbidden = [
EventPattern('dbus-signal', signal='stream-iq', connection=incoming)
]
q.forbid_events(forbidden)
announcer.update(txt_record)
sr, sa = q.expect_many(
EventPattern('dbus-signal', signal='ServiceRemoved'),
EventPattern('dbus-signal', signal='ServiceAdded'))
contact_id, service_name = sr.args
assertEquals(contact_name, contact_id)
assertEquals('org.gnome.Evince', service_name)
contact_id, service_name, details = sa.args
assertEquals(contact_name, contact_id)
assertEquals('org.gnome.Banshee', service_name)
type, name_map, caps = details
assertEquals('application', type)
assertEquals(
{
'en_GB': 'Banshee Media Player',
'fr': 'Banshee Lecteur de Musique'
}, name_map)
assertSameSets([
'urn:ytstenut:capabilities:yts-caps-audio',
'urn:ytstenut:data:jingle:rtp'
], caps)
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredServices',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals(
{
contact_name: {
'org.gnome.Banshee': ('application', {
'en_GB': 'Banshee Media Player',
'fr': 'Banshee Lecteur de Musique'
}, [
'urn:ytstenut:capabilities:yts-caps-audio',
'urn:ytstenut:data:jingle:rtp'
])
}
}, discovered)
sync_stream(q, incoming)
q.unforbid_events(forbidden)
# both again
ver = compute_caps_hash([], [], tmp)
txt_record['ver'] = ver
announcer.update(txt_record)
sa = q.expect('dbus-signal', signal='ServiceAdded')
contact_id, service_name, details = sa.args
assertEquals(contact_name, contact_id)
assertEquals('org.gnome.Evince', service_name)
type, name_map, caps = details
assertEquals('application', type)
assertEquals(
{
'en_GB': 'Evince Picture Viewer',
'fr': 'Evince uh, ow do you say'
}, name_map)
assertSameSets(['urn:ytstenut:capabilities:pics'], caps)
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredServices',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals(
{
contact_name: {
'org.gnome.Banshee': ('application', {
'en_GB': 'Banshee Media Player',
'fr': 'Banshee Lecteur de Musique'
}, [
'urn:ytstenut:capabilities:yts-caps-audio',
'urn:ytstenut:data:jingle:rtp'
]),
'org.gnome.Evince': ('application', {
'en_GB': 'Evince Picture Viewer',
'fr': 'Evince uh, ow do you say'
}, ['urn:ytstenut:capabilities:pics'])
}
}, discovered)
sync_stream(q, incoming)
# and finally, nothing
ver = compute_caps_hash([], [], {})
txt_record['ver'] = ver
announcer.update(txt_record)
# Salut looks up our capabilities
event = q.expect('stream-iq',
connection=incoming,
query_ns='http://jabber.org/protocol/disco#info')
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
CLIENT_NAME + '#' + txt_record['ver']
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = CLIENT_NAME + '#' + ver
incoming.send(result)
q.expect_many(
EventPattern('dbus-signal',
signal='ServiceRemoved',
args=[contact_name, 'org.gnome.Banshee']),
EventPattern('dbus-signal',
signal='ServiceRemoved',
args=[contact_name, 'org.gnome.Evince']))
discovered = status.Get(ycs.STATUS_IFACE,
'DiscoveredServices',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({}, discovered)
def test_ft_caps_from_contact(q, bus, conn, client):
conn_caps_iface = dbus.Interface(conn, cs.CONN_IFACE_CONTACT_CAPS)
conn_contacts_iface = dbus.Interface(conn, cs.CONN_IFACE_CONTACTS)
# send presence with FT capa
ver = compute_caps_hash([], [ns.IQ_OOB], {})
txt_record = {
"txtvers": "1",
"status": "avail",
"node": client,
"ver": ver,
"hash": "sha-1"
}
contact_name = "test-caps-ft@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port,
txt_record)
# this is the first presence, Salut connects to the contact
e = q.expect('incoming-connection', listener=listener)
incoming = e.connection
# Salut looks up our capabilities
event = q.expect('stream-iq',
connection=incoming,
query_ns='http://jabber.org/protocol/disco#info')
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
client + '#' + ver, (query_node.attributes['node'], client, ver)
contact_handle = conn_contacts_iface.GetContactByID(contact_name, [])[0]
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = client + '#' + ver
feature = query.addElement('feature')
feature['var'] = ns.IQ_OOB
incoming.send(result)
# FT capa is announced
e = q.expect('dbus-signal',
signal='ContactCapabilitiesChanged',
predicate=lambda e: contact_handle in e.args[0])
caps = e.args[0][contact_handle]
assertContains(ft_caps, caps)
# check the Contacts interface give the same caps
caps_via_contacts_iface = conn_contacts_iface.GetContactAttributes(
[contact_handle], [cs.CONN_IFACE_CONTACT_CAPS], False) \
[contact_handle][cs.CONN_IFACE_CONTACT_CAPS + '/capabilities']
assert caps_via_contacts_iface == caps, caps_via_contacts_iface
# check if Salut announces the OOB capa
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added',
name=self_handle_name,
protocol=avahi.PROTO_INET)
service = e.service
service.resolve()
receive_presence_and_ask_caps(q, incoming, service, contact_name)
# capa announced without FT
ver = compute_caps_hash([], ["http://telepathy.freedesktop.org/xmpp/pony"],
{})
txt_record = {
"txtvers": "1",
"status": "avail",
"node": client,
"ver": ver,
"hash": "sha-1"
}
contact_name = "test-caps-ft2@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port,
txt_record)
# this is the first presence, Salut connects to the contact
e = q.expect('incoming-connection', listener=listener)
incoming = e.connection
# Salut looks up our capabilities
event = q.expect('stream-iq',
connection=incoming,
query_ns='http://jabber.org/protocol/disco#info')
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
client + '#' + ver, (query_node.attributes['node'], client, ver)
contact_handle = conn_contacts_iface.GetContactByID(contact_name, [])[0]
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = client + '#' + ver
feature = query.addElement('feature')
feature['var'] = "http://telepathy.freedesktop.org/xmpp/pony"
incoming.send(result)
# the FT capability is not announced
e = q.expect('dbus-signal', signal='ContactCapabilitiesChanged')
caps = e.args[0][contact_handle]
assertDoesNotContain(ft_caps, caps)
# check the Contacts interface give the same caps
caps_via_contacts_iface = conn_contacts_iface.GetContactAttributes(
[contact_handle], [cs.CONN_IFACE_CONTACT_CAPS], False) \
[contact_handle][cs.CONN_IFACE_CONTACT_CAPS + '/capabilities']
assert caps_via_contacts_iface == caps, caps_via_contacts_iface
# no capabilites announced (assume FT is supported to insure interop)
txt_record = {"txtvers": "1", "status": "avail"}
contact_name = "test-caps-ft-no-capa2@" + get_host_name()
contact_handle = conn_contacts_iface.GetContactByID(contact_name, [])[0]
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port,
txt_record)
# FT capa is announced
e = q.expect('dbus-signal',
signal='ContactCapabilitiesChanged',
predicate=lambda e: contact_handle in e.args[0].keys())
caps = e.args[0][contact_handle]
assertContains(ft_caps, caps)
# check the Contacts interface give the same caps
caps_via_contacts_iface = conn_contacts_iface.GetContactAttributes(
[contact_handle], [cs.CONN_IFACE_CONTACT_CAPS], False) \
[contact_handle][cs.CONN_IFACE_CONTACT_CAPS + '/capabilities']
assert caps_via_contacts_iface == caps, caps_via_contacts_iface
def test(q, bus, conn):
forbidden = [EventPattern('dbus-signal', signal='ServiceAdded'),
EventPattern('dbus-signal', signal='ServiceRemoved')]
q.forbid_events(forbidden)
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0, 0])
# announce a contact with the right caps
ver = compute_caps_hash([], [], banshee)
txt_record = { "txtvers": "1", "status": "avail",
"node": CLIENT_NAME, "ver": ver, "hash": "sha-1"}
contact_name = "test-service@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, txt_record)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
# this is the first presence, Salut connects to the contact
e = q.expect('incoming-connection', listener=listener)
incoming = e.connection
# Salut looks up its capabilities
event = q.expect('stream-iq', connection=incoming,
query_ns=ns.DISCO_INFO)
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assertEquals(CLIENT_NAME + '#' + ver, query_node.attributes['node'])
contact_handle = conn.RequestHandles(cs.HT_CONTACT, [contact_name])[0]
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = CLIENT_NAME + '#' + ver
x = query.addElement((ns.X_DATA, 'x'))
x['type'] = 'result'
# FORM_TYPE
field = x.addElement((None, 'field'))
field['var'] = 'FORM_TYPE'
field['type'] = 'hidden'
field.addElement((None, 'value'), content='urn:ytstenut:capabilities#org.gnome.Banshee')
# type
field = x.addElement((None, 'field'))
field['var'] = 'type'
field.addElement((None, 'value'), content='application')
# name
field = x.addElement((None, 'field'))
field['var'] = 'name'
field.addElement((None, 'value'), content='en_GB/Banshee Media Player')
field.addElement((None, 'value'), content='fr/Banshee Lecteur de Musique')
# capabilities
field = x.addElement((None, 'field'))
field['var'] = 'capabilities'
field.addElement((None, 'value'), content='urn:ytstenut:capabilities:yts-caps-audio')
field.addElement((None, 'value'), content='urn:ytstenut:data:jingle:rtp')
incoming.send(result)
# this will be fired as text channel caps will be fired
q.expect('dbus-signal', signal='ContactCapabilitiesChanged',
predicate=lambda e: contact_handle in e.args[0])
# add evince
tmp = banshee.copy()
tmp.update(evince)
ver = compute_caps_hash([], [], tmp)
txt_record['ver'] = ver
announcer.update(txt_record)
# Salut looks up our capabilities
event = q.expect('stream-iq', connection=incoming,
query_ns='http://jabber.org/protocol/disco#info')
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
CLIENT_NAME + '#' + txt_record['ver']
# send good reply
result['id'] = event.stanza['id']
query['node'] = CLIENT_NAME + '#' + ver
x = query.addElement((ns.X_DATA, 'x'))
x['type'] = 'result'
# FORM_TYPE
field = x.addElement((None, 'field'))
field['var'] = 'FORM_TYPE'
field['type'] = 'hidden'
field.addElement((None, 'value'), content='urn:ytstenut:capabilities#org.gnome.Evince')
# type
field = x.addElement((None, 'field'))
field['var'] = 'type'
field.addElement((None, 'value'), content='application')
# name
field = x.addElement((None, 'field'))
field['var'] = 'name'
field.addElement((None, 'value'), content='en_GB/Evince Picture Viewer')
field.addElement((None, 'value'), content='fr/Evince uh, ow do you say')
# capabilities
field = x.addElement((None, 'field'))
field['var'] = 'capabilities'
field.addElement((None, 'value'), content='urn:ytstenut:capabilities:pics')
incoming.send(result)
# this will be fired as text channel caps will be fired
q.expect('dbus-signal', signal='ContactCapabilitiesChanged',
predicate=lambda e: contact_handle in e.args[0])
# now finally ensure the sidecar
path, props = conn.Future.EnsureSidecar(ycs.STATUS_IFACE)
assertEquals({}, props)
status = ProxyWrapper(bus.get_object(conn.bus_name, path),
ycs.STATUS_IFACE, {})
discovered = status.Get(ycs.STATUS_IFACE, 'DiscoveredServices',
dbus_interface=dbus.PROPERTIES_IFACE)
assertEquals({contact_name: {
'org.gnome.Banshee':
('application',
{'en_GB': 'Banshee Media Player',
'fr': 'Banshee Lecteur de Musique'},
['urn:ytstenut:capabilities:yts-caps-audio',
'urn:ytstenut:data:jingle:rtp']),
'org.gnome.Evince':
('application',
{'en_GB': 'Evince Picture Viewer',
'fr': 'Evince uh, ow do you say'},
['urn:ytstenut:capabilities:pics'])}
}, discovered)
def test(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = { "txtvers": "1", "status": "avail" }
contact_name = "test-text-channel@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
t = conn.Requests.CreateChannel({
cs.CHANNEL_TYPE: cs.CHANNEL_TYPE_TEXT,
cs.TARGET_HANDLE_TYPE: cs.HT_CONTACT,
cs.TARGET_HANDLE: handle})[0]
text_channel = make_channel_proxy(conn, t, "Channel.Type.Text")
text_channel.Send(cs.MT_NORMAL, INCOMING_MESSAGE)
e = q.expect('incoming-connection', listener = listener)
incoming = e.connection
e = q.expect('stream-message', connection = incoming)
assert e.message_type == "chat"
body = xpath.queryForNodes("/message/body", e.stanza )
assert map(str, body) == [ INCOMING_MESSAGE ]
# drop the connection
incoming.transport.loseConnection()
# Now send a message to salut
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added', name = self_handle_name,
protocol = avahi.PROTO_INET)
service = e.service
service.resolve()
e = q.expect('service-resolved', service = service)
outbound = connect_to_stream(q, contact_name,
self_handle_name, str(e.pt), e.port)
e = q.expect('connection-result')
assert e.succeeded, e.reason
e = q.expect('stream-opened', connection = outbound)
# connected to salut, now send a message
message = domish.Element(('', 'message'))
message['type'] = "chat"
message.addElement('body', content=OUTGOING_MESSAGE)
e.connection.send(message)
e = q.expect('dbus-signal', signal='Received')
assert e.args[2] == handle
assert e.args[3] == cs.MT_NORMAL
assert e.args[5] == OUTGOING_MESSAGE
def receive_caps(q,
bus,
conn,
service,
contact,
contact_handle,
features,
expected_caps,
expect_disco=True,
expect_ccc=True):
ver = compute_caps_hash([], features, {})
txt_record = {
"txtvers": "1",
"status": "avail",
"node": client,
"ver": ver,
"hash": "sha-1"
}
listener, port = setup_stream_listener(q, contact)
AvahiAnnouncer(contact, "_presence._tcp", port, txt_record)
if expect_disco:
# Salut looks up our capabilities
e = q.expect('incoming-connection', listener=listener)
stream = e.connection
event = q.expect('stream-iq',
to=contact,
query_ns=ns.DISCO_INFO,
connection=stream)
query_node = xpath.queryForNodes('/iq/query', event.stanza)[0]
assert query_node.attributes['node'] == \
client + '#' + ver
# send good reply
result = make_result_iq(event.stanza)
query = result.firstChildElement()
query['node'] = client + '#' + ver
for f in features:
feature = query.addElement('feature')
feature['var'] = f
stream.send(result)
if expect_ccc:
event = q.expect('dbus-signal', signal='ContactCapabilitiesChanged')
announced_ccs, = event.args
assertSameElements(expected_caps, announced_ccs[contact_handle])
else:
if expect_disco:
# Make sure Salut's got the caps
sync_stream(q, stream)
# check the Contacts interface give the same caps
caps_via_contacts_iface = conn.Contacts.GetContactAttributes(
[contact_handle], [cs.CONN_IFACE_CONTACT_CAPS], False) \
[contact_handle][cs.ATTR_CONTACT_CAPABILITIES]
assertSameElements(expected_caps, caps_via_contacts_iface)
# close the connection and expect a new one to be opened by Salut
# the next time we need some discoing doing
if expect_disco:
stream.send('</stream:stream>')
stream.transport.loseConnection()
# pass some time so Salut knows the connection is lost and
# won't try and send stuff down a closed connection on the
# next test.
sync_dbus(bus, q, conn)
def test(q, bus, conn):
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = {"txtvers": "1", "status": "avail"}
self_handle = conn.Properties.Get(cs.CONN, "SelfHandle")
self_handle_name = conn.Properties.Get(cs.CONN, "SelfID")
contact_name = "test-text-channel@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
announcer = AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
# create a clique room
basic_txt = {"txtvers": "0"}
AvahiAnnouncer("myroom", "_clique._udp", 41377, basic_txt)
# connect a stream
AvahiListener(q).listen_for_service("_presence._tcp")
e = q.expect('service-added',
name=self_handle_name,
protocol=avahi.PROTO_INET)
service = e.service
service.resolve()
e = q.expect('service-resolved', service=service)
xmpp_connection = connect_to_stream(q, contact_name, self_handle_name,
str(e.pt), e.port)
e = q.expect('connection-result')
assert e.succeeded, e.reason
e = q.expect('stream-opened', connection=xmpp_connection)
# send an invitation
message = domish.Element(('', 'message'))
message['type'] = 'normal'
message.addElement('body', content='You got a Clique chatroom invitation')
invite = message.addElement((NS_CLIQUE, 'invite'))
invite.addElement('roomname', content='myroom')
invite.addElement('reason', content='Inviting to this room')
invite.addElement('address', content='127.0.0.1')
invite.addElement('port', content='41377')
xmpp_connection.send(message)
# group channel is created
e = q.expect('dbus-signal',
signal='NewChannel',
predicate=lambda e: e.args[1] == cs.CHANNEL_TYPE_TEXT and e.
args[2] == cs.HT_ROOM)
path = e.args[0]
channel = make_channel_proxy(conn, path, 'Channel')
props_iface = dbus.Interface(bus.get_object(conn.object.bus_name, path),
dbus.PROPERTIES_IFACE)
q.expect('dbus-signal', signal='MembersChanged', path=path)
lp_members = props_iface.Get(
'org.freedesktop.Telepathy.Channel.Interface.Group',
'LocalPendingMembers')
assert len(lp_members) == 1
added, actor, reason, msg = lp_members[0]
assert added == self_handle
assert actor == handle
assert reason == 4 #invited
assert msg == 'Inviting to this room'
# decline invitation
channel.Close()
q.expect('dbus-signal', signal='Closed')
def test(q, bus, conn):
self_name = 'testsuite' + '@' + get_host_name()
conn.Connect()
q.expect('dbus-signal', signal='StatusChanged', args=[0L, 0L])
basic_txt = { "txtvers": "1", "status": "avail" }
contact_name = "test-request-im@" + get_host_name()
listener, port = setup_stream_listener(q, contact_name)
# FIXME: this is a hack to be sure to have all the contact list channels
# announced so they won't interfere with the muc ones announces.
wait_for_contact_list(q, conn)
AvahiAnnouncer(contact_name, "_presence._tcp", port, basic_txt)
handle = wait_for_contact_in_publish(q, bus, conn, contact_name)
# check if we can request roomlist channels
properties = conn.GetAll(
tp_name_prefix + '.Connection.Interface.Requests',
dbus_interface='org.freedesktop.DBus.Properties')
assert ({tp_name_prefix + '.Channel.ChannelType':
cs.CHANNEL_TYPE_TEXT,
tp_name_prefix + '.Channel.TargetHandleType': cs.HT_CONTACT,
},
[tp_name_prefix + '.Channel.TargetHandle',
tp_name_prefix + '.Channel.TargetID'],
) in properties.get('RequestableChannelClasses'),\
properties['RequestableChannelClasses']
# create muc channel
requestotron = dbus.Interface(conn,
tp_name_prefix + '.Connection.Interface.Requests')
call_async(q, requestotron, 'CreateChannel',
{ tp_name_prefix + '.Channel.ChannelType':
cs.CHANNEL_TYPE_TEXT,
tp_name_prefix + '.Channel.TargetHandleType': cs.HT_CONTACT,
tp_name_prefix + '.Channel.TargetID': contact_name,
})
ret, new_sig = q.expect_many(
EventPattern('dbus-return', method='CreateChannel'),
EventPattern('dbus-signal', signal='NewChannels'),
)
path2 = ret.value[0]
chan = make_channel_proxy(conn, path2, "Channel")
props = ret.value[1]
assert props[tp_name_prefix + '.Channel.ChannelType'] ==\
cs.CHANNEL_TYPE_TEXT
assert props[tp_name_prefix + '.Channel.TargetHandleType'] == cs.HT_CONTACT
assert props[tp_name_prefix + '.Channel.TargetHandle'] == handle
assert props[tp_name_prefix + '.Channel.TargetID'] == contact_name
assert props[tp_name_prefix + '.Channel.Requested'] == True
assert props[tp_name_prefix + '.Channel.InitiatorHandle'] \
== conn.Properties.Get(cs.CONN, "SelfHandle")
assert props[tp_name_prefix + '.Channel.InitiatorID'] \
== self_name
assert new_sig.args[0][0][0] == path2
assert new_sig.args[0][0][1] == props
# ensure roomlist channel
yours, ensured_path, ensured_props = requestotron.EnsureChannel(
{ tp_name_prefix + '.Channel.ChannelType':
cs.CHANNEL_TYPE_TEXT,
tp_name_prefix + '.Channel.TargetHandleType': cs.HT_CONTACT,
tp_name_prefix + '.Channel.TargetHandle': handle,
})
assert not yours
assert ensured_path == path2, (ensured_path, path2)
conn.Disconnect()
q.expect_many(
EventPattern('dbus-signal', signal='Closed',
path=path2),
EventPattern('dbus-signal', signal='ChannelClosed', args=[path2]),
EventPattern('dbus-signal', signal='StatusChanged', args=[2, 1]),
)
