def test_connect_to(self):
def f(**kwargs):
fd(kwargs)
def fd(d):
opts = AdHocStruct()
try:
#silence errors since we're expecting them:
from xpra.scripts import main as xpra_main
try:
saved_timeout = xpra_main.CONNECT_TIMEOUT
xpra_main.CONNECT_TIMEOUT = 5
saved_werr = xpra_main.werr
xpra_main.werr = main.noop
conn = connect_to(d, opts)
finally:
xpra_main.werr = saved_werr
xpra_main.CONNECT_TIMEOUT = saved_timeout
except Exception:
#from xpra.util import get_util_logger
#get_util_logger().error("connect_to(%s, %s)", d, opts, exc_info=True)
pass
else:
try:
conn.close()
except Exception:
pass
raise Exception("connect_to(%s) should have failed" % (d, ))
#without extra arguments to specify the endpoint,
#all connections should fail, even if they have a valid type:
f(type="invalid", display_name="test")
f(type="vsock", display_name="test", vsock=(10, 1000))
fd({
"type": "named-pipe",
"display_name": "test",
"named-pipe": "TEST-INVALID"
})
f(type="unix-domain", display_name=":100000", display="100000")
for socktype in (
"tcp",
"ssl",
"ws",
"wss",
):
f(type=socktype,
display_name="test",
host="localhost",
port=100000)
for paramiko in (True, False):
f(type="ssh",
display_name="test",
host="localhost",
port=100000,
is_paramiko=paramiko)
fd({
"type": "ssl",
"display_name": "test",
"host": "localhost",
"port": 100000,
"strict-host-check": False,
})
#udp never fails when opening the connection:
conn = connect_to(
{
"type": "udp",
"host": "localhost",
"port": 20000,
"display_name": ":200"
}, AdHocStruct())
conn.close()
def test_parse_display_name(self):
opts = AdHocStruct()
opts.socket_dirs = ["/tmp"]
opts.socket_dir = "/tmp"
opts.exit_ssh = False
opts.ssh = "ssh -v "
opts.remote_xpra = "run-xpra"
if WIN32:
fd = parse_display_name(None, opts,
"named-pipe://FOO")["named-pipe"]
sd = parse_display_name(None, opts, "FOO")["named-pipe"]
else:
fd = parse_display_name(None, opts, "socket:///FOO")
sd = parse_display_name(None, opts, "/FOO")
assert sd == fd, "expected %s but got %s" % (fd, sd)
def t(s, e):
r = parse_display_name(None, opts, s)
if e:
for k, v in e.items():
actual = r.get(k)
assert actual == v, "expected %s but got %s from parse_display_name(%s)=%s" % (
v, actual, s, r)
def e(s):
try:
parse_display_name(None, opts, s)
except Exception:
pass
else:
raise Exception("parse_display_name should fail for %s" % s)
if POSIX:
e("ZZZZZZ")
t("10", {
"display_name": "10",
"local": True,
"type": "unix-domain"
})
t("/tmp/thesocket", {"display_name": "socket:///tmp/thesocket"})
t("socket:/tmp/thesocket",
{"display_name": "socket:/tmp/thesocket"})
e("tcp://*****:*****@host/", {"username": "******", "password": None})
for socktype in ("tcp", "udp", "ws", "wss", "ssl", "ssh"):
#e(socktype+"://a/b/c/d")
t(
socktype +
"://username:password@host:10000/DISPLAY?key1=value1", {
"type": socktype,
"display": "DISPLAY",
"key1": "value1",
"username": "******",
"password": "******",
"port": 10000,
"host": "host",
"local": False,
})
t("tcp://fe80::c1:ac45:7351:ea69:14500", {
"host": "fe80::c1:ac45:7351:ea69",
"port": 14500
})
t("tcp://fe80::c1:ac45:7351:ea69%eth1:14500", {
"host": "fe80::c1:ac45:7351:ea69%eth1",
"port": 14500
})
t("tcp://[fe80::c1:ac45:7351:ea69]:14500", {
"host": "fe80::c1:ac45:7351:ea69",
"port": 14500
})
t("tcp://host/100,key1=value1", {"key1": "value1"})
t("tcp://host/key1=value1", {"key1": "value1"})
try:
from xpra.net.vsock import CID_ANY, PORT_ANY #@UnresolvedImport
t("vsock://any:any/", {"vsock": (CID_ANY, PORT_ANY)})
t("vsock://10:2000/", {"vsock": (10, 2000)})
except ImportError:
pass
def test_webcam(self):
if not POSIX or OSX:
get_util_logger().info("webcam test skipped: %s not supported yet",
sys.platform)
return
from xpra.platform.xposix.webcam import get_virtual_video_devices, check_virtual_dir
if not check_virtual_dir():
get_util_logger().info(
"webcam test skipped: no virtual video device directory")
return
devices = get_virtual_video_devices()
if not devices:
get_util_logger().info(
"webcam test skipped: no virtual video devices found")
return
from xpra.server.source.webcam_mixin import WebcamMixin
server = AdHocStruct()
wm = WebcamMixin()
server.webcam_enabled = True
server.webcam_device = None
server.webcam_encodings = ["png", "jpeg"]
wm.init_from(None, server)
wm.init_state()
wm.hello_sent = True
packets = []
def send(*args):
packets.append(args)
#wm.send = send
wm.send_async = send
try:
assert wm.get_info()
device_id = 0
w, h = 640, 480
assert wm.start_virtual_webcam(device_id, w, h)
assert wm.get_info().get("webcam", {}).get("active-devices",
0) == 1
assert len(packets) == 1 #ack sent
assert packets[0][0] == "webcam-ack"
frame_no = 0
from PIL import Image
image = Image.new('RGB', size=(w, h), color=(155, 0, 0))
buf = BytesIO()
image.save(buf, "png")
data = buf.getvalue()
buf.close()
assert wm.process_webcam_frame(device_id, frame_no, "png", w, h,
data)
assert len(packets) == 2 #ack sent
assert packets[1][0] == "webcam-ack"
#now send a jpeg as png,
#which should fail and stop:
buf = BytesIO()
image.save(buf, "jpeg")
data = buf.getvalue()
buf.close()
#suspend error logging to avoid the scary message:
from xpra.server.source.webcam_mixin import log as webcam_log
elog = webcam_log.error
try:
webcam_log.error = webcam_log.debug
assert not wm.process_webcam_frame(device_id, frame_no, "png",
w, h, data)
finally:
#restore it:
webcam_log.error = elog
assert len(packets) == 3
assert packets[2][0] == "webcam-stop"
finally:
wm.cleanup()
def test_find_session_by_name(self):
opts = AdHocStruct()
opts.socket_dirs = ["/tmp"]
opts.socket_dir = "/tmp"
assert find_session_by_name(opts, "not-a-valid-session") is None
def test_xsettings(self):
from xpra.x11.xsettings_prop import (
get_settings,
set_settings,
get_local_byteorder,
XSettingsTypeInteger,
XSettingsTypeString,
XSettingsTypeColor,
log,
)
#silence warnings:
log.error = log.warn = log.debug
disp = AdHocStruct()
for DEBUG_XSETTINGS in (True, False):
with OSEnvContext():
os.environ["XPRA_XSETTINGS_DEBUG"] = str(int(DEBUG_XSETTINGS))
serial = 1
data = b""
l = len(data)
v = struct.pack(b"=BBBBII", get_local_byteorder(), 0, 0, 0,
serial, l) + data + b"\0"
v1 = get_settings(disp, v)
assert v
#get from cache:
v2 = get_settings(disp, v)
assert v1 == v2
#test all types, set then get:
#setting_type, prop_name, value, last_change_serial = setting
settings = (
(XSettingsTypeInteger, "int1", 1, 0),
(XSettingsTypeString, "str1", "1", 0),
(XSettingsTypeColor, "color1", (128, 128, 64, 32), 0),
)
serial = 2
data = set_settings(disp, (serial, settings))
assert data
#parse it back:
v = get_settings(disp, data)
rserial, rsettings = v
assert rserial == serial
assert len(rsettings) == len(settings)
#test error handling:
for settings in (
(
#invalid color causes exception
(XSettingsTypeColor, "bad-color", (128, ), 0), ),
(
#invalid setting type is skipped with an error message:
(255, "invalid-setting-type", 0, 0), ),
):
serial = 3
data = set_settings(disp, (serial, settings))
assert data
v = get_settings(disp, data)
rserial, rsettings = v
assert rserial == serial
assert len(rsettings) == 0
#parsing an invalid data type (9) should fail:
hexdata = b"000000000200000001000000090004007374723100000000010000003100000000"
data = binascii.unhexlify(hexdata)
v = get_settings(disp, data)
rserial, rsettings = v
assert len(rsettings) == 0
def SetWorkarea(self, x, y, w, h):
workarea = AdHocStruct()
workarea.x, workarea.y, workarea.width, workarea.height = ni(x), ni(y), ni(w), ni(h)
self.server.set_workarea(workarea)
def do_test_command_server(self):
from xpra.server.mixins.child_command_server import ChildCommandServer, log
opts = AdHocStruct()
opts.exit_with_children = True
opts.terminate_children = True
opts.start_new_commands = True
opts.start = []
opts.start_child = []
opts.start_after_connect = []
opts.start_child_after_connect = []
opts.start_on_connect = []
opts.start_child_on_connect = []
opts.start_on_last_client_exit = []
opts.start_child_on_last_client_exit = []
opts.exec_wrapper = None
opts.start_env = []
opts.source_start = []
#pynotify can cause crashes,
#probably due to threading issues?
def noop():
pass
def _ChildCommandServer():
ccs = ChildCommandServer()
ccs.setup_menu_watcher = noop
return ccs
self._test_mixin_class(_ChildCommandServer, opts)
if not POSIX:
return
#test creating a temp file:
import tempfile
tmpfile = os.path.join(tempfile.gettempdir(), "xpra-test-start-command-%s" % os.getpid())
assert not os.path.exists(tmpfile)
command = (b"touch", tmpfile.encode("utf8"))
self.handle_packet(("start-command", b"test", command, True))
time.sleep(1)
info = self.mixin.get_info(self.protocol)
commands = info.get("commands")
assert commands
proc_info = commands.get(0)
assert proc_info
pid = proc_info.get("pid")
assert pid
assert os.path.exists(tmpfile)
os.unlink(tmpfile)
#test signals:
self.handle_packet(("start-command", b"sleep", b"sleep 10", True))
time.sleep(1)
info = self.mixin.get_info(self.protocol)
commands = info.get("commands")
assert commands
proc_info = commands.get(1)
assert proc_info
pid = proc_info.get("pid")
assert pid
assert proc_info.get("name")=="sleep"
assert proc_info.get("dead") is False
#send it a SIGINT:
with silence_info(log):
self.handle_packet(("command-signal", pid, "SIGINT"))
time.sleep(1)
self.mixin.child_reaper.poll()
info = self.mixin.get_info(self.protocol)
commands = info.get("commands")
assert commands
proc_info = commands.get(1)
assert proc_info.get("dead") is True
import signal
assert proc_info.get("returncode") == -signal.SIGINT
def test_invalid(self):
l = LoggingServer()
opts = AdHocStruct()
opts.remote_logging = "on"
l.init(opts)
l._process_logging(None, None)
def test_mmap_path(self):
opts = AdHocStruct()
opts.mmap = "/tmp/mmap-test-file"
self._test_mmap(opts)
def test_mmap(self):
from xpra.server.mixins.mmap_server import MMAP_Server
opts = AdHocStruct()
opts.mmap = "on"
self._test_mixin_class(MMAP_Server, opts)
assert self.mixin.get_info().get("mmap", {}).get("supported") is True
def test_mmap_on(self):
opts = AdHocStruct()
opts.mmap = "on"
self._test_mmap(opts)
def test_encoding(self):
opts = AdHocStruct()
opts.encoding = ""
opts.encodings = ["rgb", "png", "jpeg"]
opts.quality = 1
opts.min_quality = 20
opts.speed = 0
opts.min_speed = 20
opts.video_scaling = "no"
opts.video_decoders = []
opts.csc_modules = []
opts.video_encoders = []
m = self._test_mixin_class(
encodings.Encodings, opts, {
"encodings": ["rgb"],
"encodings.core": ["rgb32", "rgb24", "png"],
"encodings.problematic": [],
"encoding": ""
})
m.set_encoding("auto")
def f(fn, err):
try:
fn()
except Exception:
pass
else:
raise Exception(err)
def set_invalid_encoding():
m.set_encoding("invalid")
f(set_invalid_encoding, "should not be able to set encoding 'invalid'")
#this will trigger a warning:
with silence_error(encodings):
m.set_encoding("jpeg")
#quality:
for q in (-1, 0, 1, 99, 100):
m.quality = q
m.send_quality()
for q in (-2, 101):
m.quality = q
f(m.send_quality,
"should not be able to send invalid quality %i" % q)
#min-quality:
for q in (-1, 0, 1, 99, 100):
m.min_quality = q
m.send_min_quality()
for q in (-2, 101):
m.min_quality = q
f(m.send_min_quality,
"should not be able to send invalid min-quality %i" % q)
#speed:
for s in (-1, 0, 1, 99, 100):
m.speed = s
m.send_speed()
for s in (-2, 101):
m.speed = s
f(m.send_speed, "should not be able to send invalid speed %i" % s)
#min-speed:
for s in (-1, 0, 1, 99, 100):
m.min_speed = s
m.send_min_speed()
for s in (-2, 101):
m.min_speed = s
f(m.send_min_speed,
"should not be able to send invalid min-speed %i" % s)
def test_pipeline_score(self):
MINW = 32
MINH = 32
MAXW = 3840
MAXH = 2160
encoder_spec = AdHocStruct()
encoder_spec.width_mask = 0xfffe
encoder_spec.height_mask = 0xfffe
encoder_spec.quality = 100
encoder_spec.speed = 100
encoder_spec.size_efficiency = 50
encoder_spec.min_w = MINW
encoder_spec.max_w = MAXW
encoder_spec.min_h = MINH
encoder_spec.max_h = MAXH
encoder_spec.setup_cost = 10
encoder_spec.score_boost = 0
encoder_spec.gpu_cost = 0
encoder_spec.cpu_cost = 10
encoder_spec.codec_type = "test codec"
test_csc_spec = AdHocStruct()
test_csc_spec.width_mask = 0xffff
test_csc_spec.height_mask = 0xffff
test_csc_spec.score_boost = 0
test_csc_spec.quality = 10
test_csc_spec.speed = 20
test_csc_spec.setup_cost = 10
test_csc_spec.get_runtime_factor = lambda: 10
test_csc_spec.codec_class = AdHocStruct
current_csc = AdHocStruct()
current_csc.get_dst_format = lambda: "BGRA"
current_csc.get_src_height = lambda: 1080
current_csc.get_src_width = lambda: 1920
for rgb_format in ("BGRA", "RGB"):
for csc_spec in (None, test_csc_spec):
for can_scale in (True, False):
test_csc_spec.can_scale = can_scale
encoder_spec.can_scale = can_scale
for has_lossless_mode in (True, False):
encoder_spec.has_lossless_mode = has_lossless_mode
for scaling in ((1, 1), (2, 3)):
#too small:
for w, h in ((MINW - 1, MINH + 1), (MINW + 1,
MINH - 1)):
s = get_pipeline_score(rgb_format, csc_spec,
encoder_spec, w, h,
scaling, 100, 10, 100,
10, None, None, 0, 10,
True)
assert s is None
s = get_pipeline_score(rgb_format, csc_spec,
encoder_spec, 1920, 1080,
scaling, 100, 10, 100, 10,
current_csc, None, 0, 10,
True)
if can_scale is False and scaling != (1, 1):
assert s is None
continue
#mask will round down, so this should be OK:
s = get_pipeline_score(rgb_format, csc_spec,
encoder_spec, MAXW + 1,
MAXH + 1, scaling, 100, 10,
100, 10, None, None, 0, 10,
True)
assert s
if scaling == (1, 1):
#but this is not:
s = get_pipeline_score(rgb_format, csc_spec,
encoder_spec, MAXW + 2,
MAXH + 2, scaling, 100,
10, 100, 10, None, None,
0, 10, True)
assert s is None
def test_invalid(self):
l = LoggingServer()
opts = AdHocStruct()
opts.remote_logging = "on"
l.init(opts)
l._process_logging(None, None) #pylint: disable=protected-access
def main(): # pragma: no cover
from xpra.platform import program_context
from xpra.platform.gui import ready as gui_ready, init as gui_init
gui_init()
with program_context("Start-New-Command", "Start New Command"):
#logging init:
if "-v" in sys.argv:
enable_debug_for("util")
client = AdHocStruct()
client.server_last_info_time = monotonic()
commands_info = {
0: {
'returncode': None,
'name': 'xterm',
'pid': 542,
'dead': False,
'ignore': True,
'command': ('xterm', ),
'forget': False
},
'start-child': (),
'start-new': True,
'start-after-connect-done': True,
'start': ('xterm', ),
'start-after-connect': (),
'start-child-on-connect': (),
'exit-with-children': False,
'start-child-after-connect': (),
'start-on-connect': (),
}
client.server_last_info = {"commands": commands_info}
client.server_start_new_commands = True
client.server_commands_signals = ("SIGINT", "SIGTERM", "SIGUSR1")
def nosend(*_args):
"""
this is for testing only - we are not connected to a server
"""
client.send_info_request = nosend
client.send = nosend
window1 = AdHocStruct()
window1._metadata = {"pid": 542} #pylint: disable=protected-access
client._id_to_window = { #pylint: disable=protected-access
1: window1
}
def show_start_new_command(*_args):
from xpra.client.gtk_base.start_new_command import getStartNewCommand
getStartNewCommand(None).show()
client.show_start_new_command = show_start_new_command
app = ServerCommandsWindow(client)
app.close = app.quit
register_os_signals(app.quit)
try:
gui_ready()
app.show()
app.run()
except KeyboardInterrupt:
pass
return 0
def test_networkstate(self):
with OSEnvContext():
os.environ["XPRA_PING_TIMEOUT"] = "1"
from xpra.server.mixins.networkstate_server import NetworkStateServer, MAX_BANDWIDTH_LIMIT, log, bandwidthlog
from xpra.server.source.networkstate_mixin import NetworkStateMixin
assert NetworkStateMixin.is_needed(typedict())
opts = AdHocStruct()
opts.pings = 1
opts.bandwidth_limit = "1Gbps"
#the limit for all clients:
capped_at = 1 * 1000 * 1000 * 1000 #=="1Gbps"
with silence_info(log):
self._test_mixin_class(NetworkStateServer, opts, {},
NetworkStateMixin)
self.assertEqual(capped_at,
self.mixin.get_info().get("bandwidth-limit"))
self.handle_packet(("ping", 10))
self.handle_packet(("ping", -1000))
self.handle_packet(("ping_echo", 10, 500, 500, 600, 10))
for v in (None, "foo", 1, 2.0, [], (), set()):
try:
self.handle_packet(("connection-data", v))
except TypeError:
pass
else:
raise Exception(
"should not allow %s (%s) as connection-data" %
(v, type(v)))
self.handle_packet(("connection-data", {}))
for v in (None, "foo", 2.0, [], (), set()):
try:
self.handle_packet(("bandwidth-limit", v))
except TypeError:
pass
else:
raise Exception(
"should not allow %s (%s) as connection-data" %
(v, type(v)))
with silence_info(bandwidthlog):
self.handle_packet(("bandwidth-limit", 10 * 1024 * 1024))
def get_limit():
return self.source.get_info().get("bandwidth-limit",
{}).get("setting", 0)
self.assertEqual(10 * 1024 * 1024, get_limit())
with silence_info(bandwidthlog):
self.handle_packet(
("bandwidth-limit", MAX_BANDWIDTH_LIMIT + 1))
self.assertEqual(min(capped_at, MAX_BANDWIDTH_LIMIT), get_limit())
#test source:
timeouts = []
def timeout(*args):
timeouts.append(args)
self.source.disconnect = timeout
assert self.source.get_caps()
self.source.ping()
self.source.check_ping_echo_timeout(0, 0)
#give time for the timeout to fire:
self.glib.timeout_add(2000, self.main_loop.quit)
self.main_loop.run()
def test_mixin(self):
opts = AdHocStruct()
self._test_mixin_class(StubClientMixin, opts, {})
def main():
from xpra.platform import program_context
from xpra.platform.gui import ready as gui_ready
with program_context("Start-New-Command", "Start New Command"):
#logging init:
if "-v" in sys.argv:
enable_debug_for("util")
from xpra.os_util import SIGNAMES
from xpra.gtk_common.quit import gtk_main_quit_on_fatal_exceptions_enable
gtk_main_quit_on_fatal_exceptions_enable()
client = AdHocStruct()
client.server_last_info_time = monotonic_time()
commands_info = {
0: {
'returncode': None,
'name': 'xterm',
'pid': 542,
'dead': False,
'ignore': True,
'command': ('xterm', ),
'forget': False
},
'start-child': (),
'start-new': True,
'start-after-connect-done': True,
'start': ('xterm', ),
'start-after-connect': (),
'start-child-on-connect': (),
'exit-with-children': False,
'start-child-after-connect': (),
'start-on-connect': (),
}
client.server_last_info = {"commands": commands_info}
client.server_start_new_commands = True
client.server_commands_signals = ("SIGINT", "SIGTERM", "SIGUSR1")
def noop(*_args):
pass
client.send_info_request = noop
client.send = noop
window1 = AdHocStruct()
window1._metadata = {"pid": 542}
client._id_to_window = {1: window1}
def show_start_new_command(*_args):
from xpra.client.gtk_base.start_new_command import getStartNewCommand
getStartNewCommand(None).show()
client.show_start_new_command = show_start_new_command
app = ServerCommandsWindow(client)
app.hide = app.quit
def app_signal(signum, _frame):
print("")
log.info("got signal %s", SIGNAMES.get(signum, signum))
app.quit()
signal.signal(signal.SIGINT, app_signal)
signal.signal(signal.SIGTERM, app_signal)
try:
gui_ready()
app.show()
app.run()
except KeyboardInterrupt:
pass
return 0
def test_mmap_path(self):
opts = AdHocStruct()
opts.mmap = tempfile.gettempdir() + "/mmap-test-file"
self._test_mmap(opts)
