def main():
from xpra.os_util import set_application_name, set_prgname
set_prgname("OSX Shadow Test")
set_application_name("OSX Shadow Test")
defaults = make_defaults_struct()
for x in ("daemon", "clipboard", "mmap", "speaker", "microphone",
"cursors", "bell", "notifications",
"system_tray", "sharing",
"delay_tray", "opengl"):
setattr(defaults, x, False)
loop_exit = gtk.main_quit
loop_run = gtk.main
XPRA_DISPLAY = ":10"
sp = "~/.xpra/%s-%s" % (socket.gethostname(), XPRA_DISPLAY[1:])
sockpath = os.path.expanduser(sp)
listener = socket.socket(socket.AF_UNIX)
listener.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
listener.setblocking(1)
listener.bind(sockpath)
sockets = [listener]
ss = ShadowServer()
ss.init(sockets, defaults)
ss.run()
gobject.timeout_add(1000*120, loop_exit)
loop_run()
def main():
from xpra.os_util import set_application_name, set_prgname
set_prgname("OSX Shadow Test")
set_application_name("OSX Shadow Test")
defaults = make_defaults_struct()
for x in ("daemon", "clipboard", "mmap", "speaker", "microphone",
"cursors", "bell", "notifications", "system_tray", "sharing",
"delay_tray", "opengl"):
setattr(defaults, x, False)
loop_exit = gtk.main_quit
loop_run = gtk.main
XPRA_DISPLAY = ":10"
sp = "~/.xpra/%s-%s" % (socket.gethostname(), XPRA_DISPLAY[1:])
sockpath = os.path.expanduser(sp)
listener = socket.socket(socket.AF_UNIX)
listener.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
listener.setblocking(1)
listener.bind(sockpath)
sockets = [listener]
ss = ShadowServer()
ss.init(sockets, defaults)
ss.run()
gobject.timeout_add(1000 * 120, loop_exit)
loop_run()
def run_server(error_cb,
opts,
mode,
xpra_file,
extra_args,
desktop_display=None):
try:
cwd = os.getcwd()
except:
cwd = os.path.expanduser("~")
warn("current working directory does not exist, using '%s'\n" % cwd)
validate_encryption(opts)
if opts.encoding == "help" or "help" in opts.encodings:
return show_encoding_help(opts)
from xpra.server.socket_util import parse_bind_ip, parse_bind_vsock, get_network_logger
bind_tcp = parse_bind_ip(opts.bind_tcp)
bind_udp = parse_bind_ip(opts.bind_udp)
bind_ssl = parse_bind_ip(opts.bind_ssl)
bind_ws = parse_bind_ip(opts.bind_ws)
bind_wss = parse_bind_ip(opts.bind_wss)
bind_rfb = parse_bind_ip(opts.bind_rfb, 5900)
bind_vsock = parse_bind_vsock(opts.bind_vsock)
assert mode in ("start", "start-desktop", "upgrade", "shadow", "proxy")
starting = mode == "start"
starting_desktop = mode == "start-desktop"
upgrading = mode == "upgrade"
shadowing = mode == "shadow"
proxying = mode == "proxy"
clobber = upgrading or opts.use_display
start_vfb = not shadowing and not proxying and not clobber
if upgrading or shadowing:
#there should already be one running
opts.pulseaudio = False
#get the display name:
if shadowing and len(extra_args) == 0:
if WIN32 or OSX:
#just a virtual name for the only display available:
display_name = ":0"
else:
from xpra.scripts.main import guess_X11_display
dotxpra = DotXpra(opts.socket_dir, opts.socket_dirs)
display_name = guess_X11_display(dotxpra)
elif upgrading and len(extra_args) == 0:
display_name = guess_xpra_display(opts.socket_dir, opts.socket_dirs)
else:
if len(extra_args) > 1:
error_cb(
"too many extra arguments (%i): only expected a display number"
% len(extra_args))
if len(extra_args) == 1:
display_name = extra_args[0]
if not shadowing and not proxying and not opts.use_display:
display_name_check(display_name)
else:
if proxying:
#find a free display number:
dotxpra = DotXpra(opts.socket_dir, opts.socket_dirs)
all_displays = dotxpra.sockets()
#ie: [("LIVE", ":100"), ("LIVE", ":200"), ...]
displays = [v[1] for v in all_displays]
display_name = None
for x in range(1000, 20000):
v = ":%s" % x
if v not in displays:
display_name = v
break
if not display_name:
error_cb(
"you must specify a free virtual display name to use with the proxy server"
)
elif opts.use_display:
#only use automatic guess for xpra displays and not X11 displays:
display_name = guess_xpra_display(opts.socket_dir,
opts.socket_dirs)
else:
# We will try to find one automaticaly
# Use the temporary magic value 'S' as marker:
display_name = 'S' + str(os.getpid())
if not shadowing and not proxying and not upgrading and opts.exit_with_children and not opts.start_child:
error_cb(
"--exit-with-children specified without any children to spawn; exiting immediately"
)
atexit.register(run_cleanups)
# Generate the script text now, because os.getcwd() will
# change if/when we daemonize:
from xpra.server.server_util import xpra_runner_shell_script, write_runner_shell_scripts, write_pidfile, find_log_dir, create_input_devices
script = xpra_runner_shell_script(xpra_file, cwd, opts.socket_dir)
uid = int(opts.uid)
gid = int(opts.gid)
username = get_username_for_uid(uid)
home = get_home_for_uid(uid)
xauth_data = None
if start_vfb:
xauth_data = get_hex_uuid()
ROOT = POSIX and getuid() == 0
protected_fds = []
protected_env = {}
stdout = sys.stdout
stderr = sys.stderr
# Daemonize:
if POSIX and opts.daemon:
#daemonize will chdir to "/", so try to use an absolute path:
if opts.password_file:
opts.password_file = os.path.abspath(opts.password_file)
from xpra.server.server_util import daemonize
daemonize()
displayfd = 0
if POSIX and opts.displayfd:
try:
displayfd = int(opts.displayfd)
if displayfd > 0:
protected_fds.append(displayfd)
except ValueError as e:
stderr.write("Error: invalid displayfd '%s':\n" % opts.displayfd)
stderr.write(" %s\n" % e)
del e
# if pam is present, try to create a new session:
pam = None
PAM_OPEN = POSIX and envbool("XPRA_PAM_OPEN", ROOT and uid != 0)
if PAM_OPEN:
try:
from xpra.server.pam import pam_session #@UnresolvedImport
except ImportError as e:
stderr.write("Error: failed to import pam module\n")
stderr.write(" %s" % e)
del e
PAM_OPEN = False
if PAM_OPEN:
fdc = FDChangeCaptureContext()
with fdc:
pam = pam_session(username)
env = {
#"XDG_SEAT" : "seat1",
#"XDG_VTNR" : "0",
"XDG_SESSION_TYPE": "x11",
#"XDG_SESSION_CLASS" : "user",
"XDG_SESSION_DESKTOP": "xpra",
}
#maybe we should just bail out instead?
if pam.start():
pam.set_env(env)
items = {}
if display_name.startswith(":"):
items["XDISPLAY"] = display_name
if xauth_data:
items["XAUTHDATA"] = xauth_data
pam.set_items(items)
if pam.open():
#we can't close it, because we're not going to be root any more,
#but since we're the process leader for the session,
#terminating will also close the session
#add_cleanup(pam.close)
protected_env = pam.get_envlist()
os.environ.update(protected_env)
#closing the pam fd causes the session to be closed,
#and we don't want that!
protected_fds += fdc.get_new_fds()
#get XDG_RUNTIME_DIR from env options,
#which may not be have updated os.environ yet when running as root with "--uid="
xrd = os.path.abspath(parse_env(opts.env).get("XDG_RUNTIME_DIR", ""))
if ROOT and (uid > 0 or gid > 0):
#we're going to chown the directory if we create it,
#ensure this cannot be abused, only use "safe" paths:
if not any(x for x in ("/run/user/%i" % uid, "/tmp", "/var/tmp")
if xrd.startswith(x)):
xrd = ""
#these paths could cause problems if we were to create and chown them:
if xrd.startswith("/tmp/.X11-unix") or xrd.startswith(
"/tmp/.XIM-unix"):
xrd = ""
if not xrd:
xrd = os.environ.get("XDG_RUNTIME_DIR")
xrd = create_runtime_dir(xrd, uid, gid)
if xrd:
#this may override the value we get from pam
#with the value supplied by the user:
protected_env["XDG_RUNTIME_DIR"] = xrd
if opts.pidfile:
write_pidfile(opts.pidfile, uid, gid)
if POSIX and not ROOT:
# Write out a shell-script so that we can start our proxy in a clean
# environment:
write_runner_shell_scripts(script)
if start_vfb or opts.daemon:
#we will probably need a log dir
#either for the vfb, or for our own log file
log_dir = opts.log_dir or ""
if not log_dir or log_dir.lower() == "auto":
log_dir = find_log_dir(username, uid=uid, gid=gid)
if not log_dir:
raise InitException(
"cannot find or create a logging directory")
#expose the log-dir as "XPRA_LOG_DIR",
#this is used by Xdummy for the Xorg log file
if "XPRA_LOG_DIR" not in os.environ:
os.environ["XPRA_LOG_DIR"] = log_dir
if opts.daemon:
from xpra.server.server_util import select_log_file, open_log_file, redirect_std_to_log
log_filename0 = select_log_file(log_dir, opts.log_file,
display_name)
logfd = open_log_file(log_filename0)
if ROOT and (uid > 0 or gid > 0):
try:
os.fchown(logfd, uid, gid)
except:
pass
stdout, stderr = redirect_std_to_log(logfd, *protected_fds)
try:
stderr.write("Entering daemon mode; " +
"any further errors will be reported to:\n" +
(" %s\n" % log_filename0))
except:
#we tried our best, logging another error won't help
pass
#warn early about this:
if (starting or starting_desktop) and desktop_display:
print_DE_warnings(desktop_display, opts.pulseaudio, opts.notifications,
opts.dbus_launch)
log = get_util_logger()
netlog = get_network_logger()
mdns_recs = {}
sockets = []
#SSL sockets:
wrap_socket_fn = None
need_ssl = False
ssl_opt = opts.ssl.lower()
if ssl_opt in TRUE_OPTIONS or bind_ssl or bind_wss:
need_ssl = True
if opts.bind_tcp or opts.bind_ws:
if ssl_opt == "auto" and opts.ssl_cert:
need_ssl = True
elif ssl_opt == "tcp" and opts.bind_tcp:
need_ssl = True
elif ssl_opt == "www":
need_ssl = True
if need_ssl:
from xpra.scripts.main import ssl_wrap_socket_fn
try:
wrap_socket_fn = ssl_wrap_socket_fn(opts, server_side=True)
netlog("wrap_socket_fn=%s", wrap_socket_fn)
except Exception as e:
netlog("SSL error", exc_info=True)
cpaths = csv("'%s'" % x for x in (opts.ssl_cert, opts.ssl_key)
if x)
raise InitException(
"cannot create SSL socket, check your certificate paths (%s): %s"
% (cpaths, e))
from xpra.server.socket_util import setup_tcp_socket, setup_udp_socket, setup_vsock_socket, setup_local_sockets, has_dual_stack
min_port = int(opts.min_port)
def hosts(host_str):
if host_str == "*":
if has_dual_stack():
#IPv6 will also listen for IPv4:
return ["::"]
#no dual stack, so we have to listen on both IPv4 and IPv6 explicitly:
return ["0.0.0.0", "::"]
return [host_str]
def add_mdns(socktype, host_str, port):
recs = mdns_recs.setdefault(socktype.lower(), [])
for host in hosts(host_str):
rec = (host, port)
if rec not in recs:
recs.append(rec)
def add_tcp_socket(socktype, host_str, iport):
if iport < min_port:
error_cb("invalid %s port number %i (minimum value is %i)" %
(socktype, iport, min_port))
for host in hosts(host_str):
socket = setup_tcp_socket(host, iport, socktype)
sockets.append(socket)
add_mdns(socktype, host, iport)
def add_udp_socket(socktype, host_str, iport):
if iport < min_port:
error_cb("invalid %s port number %i (minimum value is %i)" %
(socktype, iport, min_port))
for host in hosts(host_str):
socket = setup_udp_socket(host, iport, socktype)
sockets.append(socket)
add_mdns(socktype, host, iport)
# Initialize the TCP sockets before the display,
# That way, errors won't make us kill the Xvfb
# (which may not be ours to kill at that point)
netlog("setting up SSL sockets: %s", csv(bind_ssl))
for host, iport in bind_ssl:
add_tcp_socket("ssl", host, iport)
netlog("setting up https / wss (secure websockets): %s", csv(bind_wss))
for host, iport in bind_wss:
add_tcp_socket("wss", host, iport)
tcp_ssl = ssl_opt in TRUE_OPTIONS or (ssl_opt == "auto" and opts.ssl_cert)
netlog("setting up TCP sockets: %s", csv(bind_tcp))
for host, iport in bind_tcp:
add_tcp_socket("tcp", host, iport)
if tcp_ssl:
add_mdns("ssl", host, iport)
netlog("setting up UDP sockets: %s", csv(bind_udp))
for host, iport in bind_udp:
add_udp_socket("udp", host, iport)
netlog("setting up http / ws (websockets): %s", csv(bind_ws))
for host, iport in bind_ws:
add_tcp_socket("ws", host, iport)
if tcp_ssl:
add_mdns("wss", host, iport)
if bind_rfb and (proxying or starting):
log.warn("Warning: bind-rfb sockets cannot be used with '%s' mode" %
mode)
else:
netlog("setting up rfb sockets: %s", csv(bind_rfb))
for host, iport in bind_rfb:
add_tcp_socket("rfb", host, iport)
netlog("setting up vsock sockets: %s", csv(bind_vsock))
for cid, iport in bind_vsock:
socket = setup_vsock_socket(cid, iport)
sockets.append(socket)
#add_mdns("vsock", str(cid), iport)
# systemd socket activation:
try:
from xpra.platform.xposix.sd_listen import get_sd_listen_sockets
except ImportError:
pass
else:
sd_sockets = get_sd_listen_sockets()
netlog("systemd sockets: %s", sd_sockets)
for stype, socket, addr in sd_sockets:
sockets.append((stype, socket, addr))
netlog("%s : %s", (stype, [addr]), socket)
if stype == "tcp":
host, iport = addr
add_mdns("tcp", host, iport)
sanitize_env()
if POSIX:
if xrd:
os.environ["XDG_RUNTIME_DIR"] = xrd
os.environ["XDG_SESSION_TYPE"] = "x11"
if not starting_desktop:
os.environ["XDG_CURRENT_DESKTOP"] = opts.wm_name
configure_imsettings_env(opts.input_method)
if display_name[0] != 'S':
os.environ["DISPLAY"] = display_name
os.environ["CKCON_X11_DISPLAY"] = display_name
else:
try:
del os.environ["DISPLAY"]
except:
pass
os.environ.update(protected_env)
log("env=%s", os.environ)
UINPUT_UUID_LEN = 12
UINPUT_UUID_MIN_LEN = 12
UINPUT_UUID_MAX_LEN = 32
# Start the Xvfb server first to get the display_name if needed
odisplay_name = display_name
xvfb = None
xvfb_pid = None
uinput_uuid = None
if start_vfb:
assert not proxying and xauth_data
pixel_depth = validate_pixel_depth(opts.pixel_depth)
from xpra.x11.vfb_util import start_Xvfb, check_xvfb_process
from xpra.server.server_util import has_uinput
uinput_uuid = None
if has_uinput() and opts.input_devices.lower() in (
"uinput", "auto") and not shadowing:
from xpra.os_util import get_rand_chars
uinput_uuid = get_rand_chars(UINPUT_UUID_LEN)
xvfb, display_name, cleanups = start_Xvfb(opts.xvfb, pixel_depth,
display_name, cwd, uid, gid,
username, xauth_data,
uinput_uuid)
for f in cleanups:
add_cleanup(f)
xvfb_pid = xvfb.pid
#always update as we may now have the "real" display name:
os.environ["DISPLAY"] = display_name
os.environ["CKCON_X11_DISPLAY"] = display_name
os.environ.update(protected_env)
if display_name != odisplay_name and pam:
pam.set_items({"XDISPLAY": display_name})
def check_xvfb():
return check_xvfb_process(xvfb)
else:
def check_xvfb():
return True
if POSIX and not OSX and displayfd > 0:
from xpra.platform.displayfd import write_displayfd
try:
display = display_name[1:]
log("writing display='%s' to displayfd=%i", display, displayfd)
assert write_displayfd(displayfd, display), "timeout"
except Exception as e:
log.error("write_displayfd failed", exc_info=True)
log.error("Error: failed to write '%s' to fd=%s", display_name,
displayfd)
log.error(" %s", str(e) or type(e))
del e
try:
os.close(displayfd)
except:
pass
if not proxying:
def close_display():
close_gtk_display()
kill_xvfb(xvfb_pid)
add_cleanup(close_display)
else:
close_display = None
if opts.daemon:
def noerr(fn, *args):
try:
fn(*args)
except:
pass
log_filename1 = select_log_file(log_dir, opts.log_file, display_name)
if log_filename0 != log_filename1:
# we now have the correct log filename, so use it:
os.rename(log_filename0, log_filename1)
if odisplay_name != display_name:
#this may be used by scripts, let's try not to change it:
noerr(stderr.write, "Actual display used: %s\n" % display_name)
noerr(stderr.write,
"Actual log file name is now: %s\n" % log_filename1)
noerr(stderr.flush)
noerr(stdout.close)
noerr(stderr.close)
#we should not be using stdout or stderr from this point:
del stdout
del stderr
if not check_xvfb():
#xvfb problem: exit now
return 1
#create devices for vfb if needed:
devices = {}
if not start_vfb and not proxying and not shadowing:
#try to find the existing uinput uuid:
#use a subprocess to avoid polluting our current process
#with X11 connections before we get a chance to change uid
cmd = ["xprop", "-display", display_name, "-root", "_XPRA_UINPUT_ID"]
try:
code, out, err = get_status_output(cmd)
except Exception as e:
log("failed to get existing uinput id: %s", e)
del e
else:
log("Popen(%s)=%s", cmd, (code, out, err))
if code == 0 and out.find("=") > 0:
uinput_uuid = out.split("=", 1)[1]
log("raw uinput uuid=%s", uinput_uuid)
uinput_uuid = strtobytes(uinput_uuid.strip('\n\r"\\ '))
if uinput_uuid:
if len(uinput_uuid) > UINPUT_UUID_MAX_LEN or len(
uinput_uuid) < UINPUT_UUID_MIN_LEN:
log.warn("Warning: ignoring invalid uinput id:")
log.warn(" '%s'", uinput_uuid)
uinput_uuid = None
else:
log.info("retrieved existing uinput id: %s",
bytestostr(uinput_uuid))
if uinput_uuid:
devices = create_input_devices(uinput_uuid, uid)
if ROOT and (uid != 0 or gid != 0):
log("root: switching to uid=%i, gid=%i", uid, gid)
setuidgid(uid, gid)
os.environ.update({
"HOME": home,
"USER": username,
"LOGNAME": username,
})
shell = get_shell_for_uid(uid)
if shell:
os.environ["SHELL"] = shell
#now we've changed uid, it is safe to honour all the env updates:
configure_env(opts.env)
os.environ.update(protected_env)
if opts.chdir:
os.chdir(opts.chdir)
display = None
if not proxying:
no_gtk()
if POSIX and not OSX and (starting or starting_desktop or shadowing):
#check that we can access the X11 display:
from xpra.x11.vfb_util import verify_display_ready
if not verify_display_ready(xvfb, display_name, shadowing):
return 1
if not PYTHON3:
from xpra.x11.gtk2.gdk_display_util import verify_gdk_display #@UnusedImport
else:
from xpra.x11.gtk3.gdk_display_util import verify_gdk_display #@Reimport
display = verify_gdk_display(display_name)
if not display:
return 1
#on win32, this ensures that we get the correct screen size to shadow:
from xpra.platform.gui import init as gui_init
gui_init()
#setup unix domain socket:
if not opts.socket_dir and not opts.socket_dirs:
#we always need at least one valid socket dir
from xpra.platform.paths import get_socket_dirs
opts.socket_dirs = get_socket_dirs()
local_sockets = setup_local_sockets(opts.bind, opts.socket_dir,
opts.socket_dirs, display_name,
clobber, opts.mmap_group,
opts.socket_permissions, username, uid,
gid)
netlog("setting up local sockets: %s", local_sockets)
for rec, cleanup_socket in local_sockets:
socktype, socket, sockpath = rec
#ie: ("unix-domain", sock, sockpath), cleanup_socket
sockets.append(rec)
netlog("%s %s : %s", socktype, sockpath, socket)
add_cleanup(cleanup_socket)
if opts.mdns:
ssh_port = get_ssh_port()
netlog("ssh %s:%s : %s", "", ssh_port, socket)
if ssh_port:
add_mdns("ssh", "", ssh_port)
kill_dbus = None
if shadowing:
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
elif proxying:
from xpra.server.proxy.proxy_server import ProxyServer
app = ProxyServer()
else:
if not check_xvfb():
return 1
assert starting or starting_desktop or upgrading
from xpra.x11.gtk2.gdk_display_source import init_gdk_display_source
init_gdk_display_source()
#(now we can access the X11 server)
#make sure the pid we save is the real one:
if not check_xvfb():
return 1
if xvfb_pid is not None:
#save the new pid (we should have one):
save_xvfb_pid(xvfb_pid)
if POSIX:
save_uinput_id(uinput_uuid or "")
dbus_pid = -1
dbus_env = {}
if clobber:
#get the saved pids and env
dbus_pid = get_dbus_pid()
dbus_env = get_dbus_env()
log("retrieved existing dbus attributes")
else:
assert starting or starting_desktop
if xvfb_pid is not None:
#save the new pid (we should have one):
save_xvfb_pid(xvfb_pid)
bus_address = protected_env.get("DBUS_SESSION_BUS_ADDRESS")
log("dbus_launch=%s, current DBUS_SESSION_BUS_ADDRESS=%s",
opts.dbus_launch, bus_address)
if opts.dbus_launch and not bus_address:
#start a dbus server:
def kill_dbus():
log("kill_dbus: dbus_pid=%s" % dbus_pid)
if dbus_pid <= 0:
return
try:
os.kill(dbus_pid, signal.SIGINT)
except Exception as e:
log.warn(
"Warning: error trying to stop dbus with pid %i:",
dbus_pid)
log.warn(" %s", e)
add_cleanup(kill_dbus)
#this also updates os.environ with the dbus attributes:
dbus_pid, dbus_env = start_dbus(opts.dbus_launch)
if dbus_pid > 0:
save_dbus_pid(dbus_pid)
if dbus_env:
save_dbus_env(dbus_env)
log("dbus attributes: pid=%s, env=%s", dbus_pid, dbus_env)
if dbus_env:
os.environ.update(dbus_env)
os.environ.update(protected_env)
log("env=%s", os.environ)
try:
# This import is delayed because the module depends on gtk:
from xpra.x11.bindings.window_bindings import X11WindowBindings
X11Window = X11WindowBindings()
if (starting or
starting_desktop) and not clobber and opts.resize_display:
from xpra.x11.vfb_util import set_initial_resolution
set_initial_resolution(starting_desktop)
except ImportError as e:
log.error(
"Failed to load Xpra server components, check your installation: %s"
% e)
return 1
if starting or upgrading:
if not X11Window.displayHasXComposite():
log.error(
"Xpra 'start' subcommand runs as a compositing manager")
log.error(
" it cannot use a display which lacks the XComposite extension!"
)
return 1
if starting:
#check for an existing window manager:
from xpra.x11.gtk2.wm import wm_check
if not wm_check(display, opts.wm_name, upgrading):
return 1
log("XShape=%s", X11Window.displayHasXShape())
from xpra.x11.server import XpraServer
app = XpraServer(clobber)
else:
assert starting_desktop
from xpra.x11.desktop_server import XpraDesktopServer
app = XpraDesktopServer()
app.init_virtual_devices(devices)
#publish mdns records:
if opts.mdns:
from xpra.platform.info import get_username
from xpra.server.socket_util import mdns_publish
mdns_info = {
"display": display_name,
"username": get_username(),
"uuid": strtobytes(app.uuid),
"platform": sys.platform,
"type": app.session_type,
}
if opts.session_name:
mdns_info["session"] = opts.session_name
for mode, listen_on in mdns_recs.items():
mdns_publish(display_name, mode, listen_on, mdns_info)
try:
app._ssl_wrap_socket = wrap_socket_fn
app.original_desktop_display = desktop_display
app.exec_cwd = opts.chdir or cwd
app.init(opts)
app.init_components(opts)
except InitException as e:
log.error("xpra server initialization error:")
log.error(" %s", e)
return 1
except Exception as e:
log.error("Error: cannot start the %s server",
app.session_type,
exc_info=True)
log.error(str(e))
log.info("")
return 1
#honour start child, html webserver, and setup child reaper
if not proxying and not upgrading:
if opts.exit_with_children:
assert opts.start_child, "exit-with-children was specified but start-child is missing!"
app.start_commands = opts.start
app.start_child_commands = opts.start_child
app.start_after_connect = opts.start_after_connect
app.start_child_after_connect = opts.start_child_after_connect
app.start_on_connect = opts.start_on_connect
app.start_child_on_connect = opts.start_child_on_connect
app.exec_start_commands()
del opts
log("%s(%s)", app.init_sockets, sockets)
app.init_sockets(sockets)
log("%s(%s)", app.init_when_ready, _when_ready)
app.init_when_ready(_when_ready)
try:
#from here on, we own the vfb, even if we inherited one:
if (starting or starting_desktop or upgrading) and clobber:
#and it will be killed if exit cleanly:
xvfb_pid = get_xvfb_pid()
log("running %s", app.run)
r = app.run()
log("%s()=%s", app.run, r)
except KeyboardInterrupt:
log.info("stopping on KeyboardInterrupt")
r = 0
except Exception:
log.error("server error", exc_info=True)
r = -128
if r > 0:
# Upgrading/exiting, so leave X and dbus servers running
if close_display:
_cleanups.remove(close_display)
if kill_dbus:
_cleanups.remove(kill_dbus)
from xpra.server.server_core import ServerCore
if r == ServerCore.EXITING_CODE:
log.info("exiting: not cleaning up Xvfb")
else:
log.info("upgrading: not cleaning up Xvfb")
log("cleanups=%s", _cleanups)
r = 0
return r
def run_server(error_cb, opts, mode, xpra_file, extra_args):
try:
cwd = os.getcwd()
except:
cwd = os.path.expanduser("~")
sys.stderr.write(
"current working directory does not exist, using '%s'\n" % cwd)
if opts.encoding and opts.encoding == "help":
#avoid errors and warnings:
opts.encoding = ""
opts.clipboard = False
opts.notifications = False
print("xpra server supports the following encodings:")
print("(please wait, encoder initialization may take a few seconds)")
#disable info logging which would be confusing here
from xpra.log import get_all_loggers, set_default_level
import logging
set_default_level(logging.WARN)
logging.root.setLevel(logging.WARN)
for x in get_all_loggers():
x.logger.setLevel(logging.WARN)
from xpra.server.server_base import ServerBase
sb = ServerBase()
sb.init(opts)
#ensures that the threaded video helper init has completed
#(by running it again, which will block on the init lock)
from xpra.codecs.video_helper import getVideoHelper
getVideoHelper().init()
sb.init_encodings()
from xpra.codecs.loader import encoding_help
for e in sb.encodings:
print(" * %s" % encoding_help(e))
return 0
assert mode in ("start", "upgrade", "shadow", "proxy")
starting = mode == "start"
upgrading = mode == "upgrade"
shadowing = mode == "shadow"
proxying = mode == "proxy"
clobber = upgrading or opts.use_display
start_vfb = not shadowing and not proxying and not clobber
if upgrading or shadowing:
#there should already be one running
opts.pulseaudio = False
#get the display name:
if shadowing and len(extra_args) == 0:
if sys.platform.startswith("win") or sys.platform.startswith("darwin"):
#just a virtual name for the only display available:
display_name = ":0"
else:
from xpra.scripts.main import guess_X11_display
display_name = guess_X11_display(opts.socket_dir, opts.socket_dirs)
elif upgrading and len(extra_args) == 0:
display_name = guess_xpra_display(opts.socket_dir, opts.socket_dirs)
else:
if len(extra_args) > 1:
error_cb(
"too many extra arguments: only expected a display number")
if len(extra_args) == 1:
display_name = extra_args[0]
if not shadowing and not proxying:
display_name_check(display_name)
else:
if proxying:
error_cb(
"you must specify a free virtual display name to use with the proxy server"
)
if not opts.displayfd:
error_cb(
"displayfd support is not enabled on this system, you must specify the display to use"
)
if opts.use_display:
#only use automatic guess for xpra displays and not X11 displays:
display_name = guess_xpra_display(opts.socket_dir,
opts.socket_dirs)
else:
# We will try to find one automaticaly
# Use the temporary magic value 'S' as marker:
display_name = 'S' + str(os.getpid())
if not shadowing and not proxying and not upgrading and opts.exit_with_children and not opts.start_child:
error_cb(
"--exit-with-children specified without any children to spawn; exiting immediately"
)
atexit.register(run_cleanups)
#the server class will usually override those:
#SIGINT breaks GTK3.. (but there are no py3k servers!)
signal.signal(signal.SIGINT, deadly_signal)
signal.signal(signal.SIGTERM, deadly_signal)
# Generate the script text now, because os.getcwd() will
# change if/when we daemonize:
script = xpra_runner_shell_script(xpra_file, os.getcwd(), opts.socket_dir)
if start_vfb or opts.daemon:
#we will probably need a log dir
#either for the vfb, or for our own log file
log_dir = os.path.expanduser(opts.log_dir)
if not os.path.exists(log_dir):
try:
os.mkdir(log_dir, 0o700)
except OSError as e:
raise InitException(
"failed to create the Xorg log directory '%s': %s" %
(xorg_log_dir, e))
stdout = sys.stdout
stderr = sys.stderr
# Daemonize:
if opts.daemon:
#daemonize will chdir to "/", so try to use an absolute path:
if opts.password_file:
opts.password_file = os.path.abspath(opts.password_file)
# At this point we may not know the display name,
# so log_filename0 may point to a temporary file which we will rename later
log_filename0 = select_log_file(log_dir, opts.log_file, display_name)
logfd = open_log_file(log_filename0)
assert logfd > 2
stdout, stderr = daemonize(logfd)
try:
stderr.write("Entering daemon mode; " +
"any further errors will be reported to:\n" +
(" %s\n" % log_filename0))
except:
#this can happen if stderr is closed by the caller already
pass
if os.name == "posix":
# Write out a shell-script so that we can start our proxy in a clean
# environment:
write_runner_shell_script(script)
from xpra.log import Logger
log = Logger("server")
#warn early about this:
if starting:
de = os.environ.get("XDG_SESSION_DESKTOP") or os.environ.get(
"SESSION_DESKTOP")
if de and (opts.pulseaudio or opts.notifications):
log.warn(
"Warning: xpra start from an existing '%s' desktop session",
de)
log.warn(" pulseaudio and notifications forwarding may not work")
log.warn(
" try using a clean environment, a dedicated user, or turn off those options"
)
mdns_recs = []
sockets = []
# Initialize the TCP sockets before the display,
# That way, errors won't make us kill the Xvfb
# (which may not be ours to kill at that point)
bind_tcp = parse_bind_tcp(opts.bind_tcp)
for host, iport in bind_tcp:
socket = setup_tcp_socket(host, iport)
sockets.append(socket)
if opts.mdns:
rec = "tcp", [(host, iport)]
mdns_recs.append(rec)
# Do this after writing out the shell script:
if display_name[0] != 'S':
os.environ["DISPLAY"] = display_name
sanitize_env()
configure_imsettings_env(opts.input_method)
# Start the Xvfb server first to get the display_name if needed
xvfb = None
xvfb_pid = None
if start_vfb:
try:
xvfb, display_name = start_Xvfb(opts.xvfb, display_name)
except OSError as e:
log.error("Error starting Xvfb: %s\n", e)
return 1
xvfb_pid = xvfb.pid
#always update as we may now have the "real" display name:
os.environ["DISPLAY"] = display_name
if opts.daemon:
log_filename1 = select_log_file(log_dir, opts.log_file, display_name)
if log_filename0 != log_filename1:
# we now have the correct log filename, so use it:
os.rename(log_filename0, log_filename1)
stderr.write("Actual log file name is now: %s\n" % log_filename1)
stdout.close()
stderr.close()
if not check_xvfb_process(xvfb):
#xvfb problem: exit now
return 1
#setup unix domain socket:
socket, cleanup_socket = setup_local_socket(opts.socket_dir,
opts.socket_dirs, display_name,
clobber, opts.mmap_group,
opts.socket_permissions)
if socket: #win32 returns None!
sockets.append(socket)
if opts.mdns:
ssh_port = get_ssh_port()
if ssh_port:
mdns_recs.append(("ssh", [("", ssh_port)]))
#publish mdns records:
if opts.mdns:
from xpra.platform.info import get_username
mdns_info = {"display": display_name, "username": get_username()}
if opts.session_name:
mdns_info["session"] = opts.session_name
for mode, listen_on in mdns_recs:
mdns_publish(display_name, mode, listen_on, mdns_info)
if not check_xvfb_process(xvfb):
#xvfb problem: exit now
return 1
display = None
if not sys.platform.startswith("win") and not sys.platform.startswith(
"darwin") and not proxying:
display = verify_display_ready(xvfb, display_name, shadowing)
if not display:
return 1
elif not proxying:
no_gtk()
import gtk #@Reimport
assert gtk
if shadowing:
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
info = "shadow"
elif proxying:
from xpra.server.proxy.proxy_server import ProxyServer
app = ProxyServer()
info = "proxy"
else:
assert starting or upgrading
from xpra.x11.gtk2 import gdk_display_source
assert gdk_display_source
#(now we can access the X11 server)
if clobber:
#get the saved pid (there should be one):
xvfb_pid = get_xvfb_pid()
elif xvfb_pid is not None:
#save the new pid (we should have one):
save_xvfb_pid(xvfb_pid)
#check for an existing window manager:
from xpra.x11.gtk2.wm import wm_check
if not wm_check(display, opts.wm_name, upgrading):
return 1
try:
# This import is delayed because the module depends on gtk:
from xpra.x11.server import XpraServer
from xpra.x11.bindings.window_bindings import X11WindowBindings #@UnresolvedImport
X11Window = X11WindowBindings()
except ImportError as e:
log.error(
"Failed to load Xpra server components, check your installation: %s"
% e)
return 1
if not X11Window.displayHasXComposite():
log.error(
"Xpra is a compositing manager, it cannot use a display which lacks the XComposite extension!"
)
return 1
log("XShape=%s", X11Window.displayHasXShape())
app = XpraServer(clobber)
info = "xpra"
#we got this far so the sockets have initialized and
#the server should be able to manage the display
#from now on, if we exit without upgrading we will also kill the Xvfb
def kill_xvfb():
# Close our display(s) first, so the server dying won't kill us.
log.info("killing xvfb with pid %s" % xvfb_pid)
import gtk #@Reimport
for display in gtk.gdk.display_manager_get().list_displays():
display.close()
os.kill(xvfb_pid, signal.SIGTERM)
if xvfb_pid is not None and not opts.use_display and not shadowing:
_cleanups.append(kill_xvfb)
try:
app.exec_cwd = cwd
app.init(opts)
except InitException as e:
log.error("xpra server initialization error:")
log.error(" %s", e)
return 1
except Exception as e:
log.error("Error: cannot start the %s server", info, exc_info=True)
log.error(str(e))
log.info("")
return 1
#honour start child, html webserver, and setup child reaper
if os.name == "posix" and not proxying and not upgrading and not shadowing:
# start websockify?
try:
start_websockify(app.child_reaper, opts, bind_tcp)
#websockify overrides the tcp proxy, so we must re-set it:
app._tcp_proxy = opts.tcp_proxy
except Exception as e:
error_cb("failed to setup websockify html server: %s" % e)
if opts.exit_with_children:
assert opts.start_child, "exit-with-children was specified but start-child is missing!"
if opts.start:
for x in opts.start:
if x:
app.start_child(x, x, True)
if opts.start_child:
for x in opts.start_child:
if x:
app.start_child(x, x, False)
log("%s(%s)", app.init_sockets, sockets)
app.init_sockets(sockets)
log("%s(%s)", app.init_when_ready, _when_ready)
app.init_when_ready(_when_ready)
try:
log("running %s", app.run)
e = app.run()
log("%s()=%s", app.run, e)
except KeyboardInterrupt:
log.info("stopping on KeyboardInterrupt")
e = 0
except Exception as e:
log.error("server error", exc_info=True)
e = -128
if e > 0:
# Upgrading/exiting, so leave X server running
if kill_xvfb in _cleanups:
_cleanups.remove(kill_xvfb)
from xpra.server.server_core import ServerCore
if e == ServerCore.EXITING_CODE:
log.info("exiting: not cleaning up Xvfb")
elif cleanup_socket in _cleanups:
log.info("upgrading: not cleaning up Xvfb or socket")
# don't delete the new socket (not ours)
_cleanups.remove(cleanup_socket)
log("cleanups=%s", _cleanups)
e = 0
return e
def make_shadow_server():
from xpra.platform.shadow_server import ShadowServer
return ShadowServer()
return 1
display = None
if not sys.platform.startswith("win") and not sys.platform.startswith(
"darwin") and not proxying:
display = verify_display_ready(xvfb, display_name, shadowing)
if not display:
return 1
elif not proxying:
assert "gtk" not in sys.modules
import gtk #@Reimport
assert gtk
if shadowing:
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
app.init(opts)
elif proxying:
from xpra.server.proxy_server import ProxyServer
app = ProxyServer()
try:
app.init(opts)
except Exception, e:
log.error("Error: cannot start the proxy server")
log.error(str(e))
log.info("")
return 1
else:
assert starting or upgrading
from xpra.x11.gtk_x11 import gdk_display_source
assert gdk_display_source
#xvfb problem: exit now
return 1
display = None
if not sys.platform.startswith("win") and not sys.platform.startswith("darwin") and not proxying:
display = verify_display_ready(xvfb, display_name, shadowing)
if not display:
return 1
elif not proxying:
assert "gtk" not in sys.modules
import gtk #@Reimport
assert gtk
if shadowing:
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
app.init(opts)
elif proxying:
from xpra.server.proxy_server import ProxyServer
app = ProxyServer()
try:
app.init(opts)
except Exception, e:
log.error("Error: cannot start the proxy server")
log.error(str(e))
log.info("")
return 1
else:
assert starting or upgrading
from xpra.x11.gtk_x11 import gdk_display_source
assert gdk_display_source
def run_server(error_cb,
opts,
mode,
xpra_file,
extra_args,
desktop_display=None):
try:
cwd = os.getcwd()
except:
cwd = os.path.expanduser("~")
warn("current working directory does not exist, using '%s'\n" % cwd)
validate_encryption(opts)
if opts.encoding == "help" or "help" in opts.encodings:
return show_encoding_help(opts)
from xpra.server.socket_util import parse_bind_tcp, parse_bind_vsock
bind_tcp = parse_bind_tcp(opts.bind_tcp)
bind_ssl = parse_bind_tcp(opts.bind_ssl)
bind_vsock = parse_bind_vsock(opts.bind_vsock)
assert mode in ("start", "start-desktop", "upgrade", "shadow", "proxy")
starting = mode == "start"
starting_desktop = mode == "start-desktop"
upgrading = mode == "upgrade"
shadowing = mode == "shadow"
proxying = mode == "proxy"
clobber = upgrading or opts.use_display
start_vfb = not shadowing and not proxying and not clobber
if upgrading or shadowing:
#there should already be one running
opts.pulseaudio = False
#get the display name:
if shadowing and len(extra_args) == 0:
if WIN32 or OSX:
#just a virtual name for the only display available:
display_name = ":0"
else:
from xpra.scripts.main import guess_X11_display
dotxpra = DotXpra(opts.socket_dir, opts.socket_dirs)
display_name = guess_X11_display(dotxpra)
elif upgrading and len(extra_args) == 0:
display_name = guess_xpra_display(opts.socket_dir, opts.socket_dirs)
else:
if len(extra_args) > 1:
error_cb(
"too many extra arguments (%i): only expected a display number"
% len(extra_args))
if len(extra_args) == 1:
display_name = extra_args[0]
if not shadowing and not proxying and not opts.use_display:
display_name_check(display_name)
else:
if proxying:
#find a free display number:
dotxpra = DotXpra(opts.socket_dir, opts.socket_dirs)
all_displays = dotxpra.sockets()
#ie: [("LIVE", ":100"), ("LIVE", ":200"), ...]
displays = [v[1] for v in all_displays]
display_name = None
for x in range(1000, 20000):
v = ":%s" % x
if v not in displays:
display_name = v
break
if not display_name:
error_cb(
"you must specify a free virtual display name to use with the proxy server"
)
elif opts.use_display:
#only use automatic guess for xpra displays and not X11 displays:
display_name = guess_xpra_display(opts.socket_dir,
opts.socket_dirs)
else:
# We will try to find one automaticaly
# Use the temporary magic value 'S' as marker:
display_name = 'S' + str(os.getpid())
if not shadowing and not proxying and not upgrading and opts.exit_with_children and not opts.start_child:
error_cb(
"--exit-with-children specified without any children to spawn; exiting immediately"
)
atexit.register(run_cleanups)
# Generate the script text now, because os.getcwd() will
# change if/when we daemonize:
from xpra.server.server_util import xpra_runner_shell_script, write_runner_shell_scripts, write_pidfile, find_log_dir
script = xpra_runner_shell_script(xpra_file, cwd, opts.socket_dir)
uid = int(opts.uid)
gid = int(opts.gid)
username = get_username_for_uid(uid)
home = get_home_for_uid(uid)
xauth_data = None
if start_vfb:
xauth_data = get_hex_uuid()
ROOT = POSIX and getuid() == 0
stdout = sys.stdout
stderr = sys.stderr
# Daemonize:
if POSIX and opts.daemon:
#daemonize will chdir to "/", so try to use an absolute path:
if opts.password_file:
opts.password_file = os.path.abspath(opts.password_file)
from xpra.server.server_util import daemonize
daemonize()
# if pam is present, try to create a new session:
pam = None
protected_fds = []
protected_env = {}
PAM_OPEN = POSIX and envbool("XPRA_PAM_OPEN", ROOT and uid != 0)
if PAM_OPEN:
try:
from xpra.server.pam import pam_session #@UnresolvedImport
except ImportError as e:
stderr.write("Error: failed to import pam module\n")
stderr.write(" %s" % e)
PAM_OPEN = False
if PAM_OPEN:
fdc = FDChangeCaptureContext()
with fdc:
pam = pam_session(username)
env = {
#"XDG_SEAT" : "seat1",
#"XDG_VTNR" : "0",
"XDG_SESSION_TYPE": "x11",
#"XDG_SESSION_CLASS" : "user",
"XDG_SESSION_DESKTOP": "xpra",
}
#maybe we should just bail out instead?
if pam.start():
pam.set_env(env)
items = {}
if display_name.startswith(":"):
items["XDISPLAY"] = display_name
if xauth_data:
items["XAUTHDATA"] = xauth_data
pam.set_items(items)
if pam.open():
#we can't close it, because we're not going to be root any more,
#but since we're the process leader for the session,
#terminating will also close the session
#add_cleanup(pam.close)
protected_env = pam.get_envlist()
os.environ.update(protected_env)
#closing the pam fd causes the session to be closed,
#and we don't want that!
protected_fds = fdc.get_new_fds()
xrd = create_runtime_dir(uid, gid)
if opts.pidfile:
write_pidfile(opts.pidfile, uid, gid)
if POSIX and not ROOT:
# Write out a shell-script so that we can start our proxy in a clean
# environment:
write_runner_shell_scripts(script)
if start_vfb or opts.daemon:
#we will probably need a log dir
#either for the vfb, or for our own log file
log_dir = opts.log_dir or ""
if not log_dir or log_dir.lower() == "auto":
log_dir = find_log_dir(username, uid=uid, gid=gid)
if not log_dir:
raise InitException(
"cannot find or create a logging directory")
#expose the log-dir as "XPRA_LOG_DIR",
#this is used by Xdummy for the Xorg log file
if "XPRA_LOG_DIR" not in os.environ:
os.environ["XPRA_LOG_DIR"] = log_dir
if opts.daemon:
from xpra.server.server_util import select_log_file, open_log_file, redirect_std_to_log
log_filename0 = select_log_file(log_dir, opts.log_file,
display_name)
logfd = open_log_file(log_filename0)
if ROOT and (uid > 0 or gid > 0):
try:
os.fchown(logfd, uid, gid)
except:
pass
stdout, stderr = redirect_std_to_log(logfd, *protected_fds)
stderr.write("Entering daemon mode; " +
"any further errors will be reported to:\n" +
(" %s\n" % log_filename0))
#warn early about this:
if (starting or starting_desktop) and desktop_display:
print_DE_warnings(desktop_display, opts.pulseaudio, opts.notifications,
opts.dbus_launch)
from xpra.log import Logger
log = Logger("server")
netlog = Logger("network")
mdns_recs = []
sockets = []
#SSL sockets:
wrap_socket_fn = None
need_ssl = False
ssl_opt = opts.ssl.lower()
if ssl_opt in TRUE_OPTIONS or bind_ssl:
need_ssl = True
if opts.bind_tcp:
if ssl_opt == "auto" and opts.ssl_cert:
need_ssl = True
elif ssl_opt == "tcp":
need_ssl = True
elif ssl_opt == "www":
need_ssl = True
if need_ssl:
from xpra.scripts.main import ssl_wrap_socket_fn
try:
wrap_socket_fn = ssl_wrap_socket_fn(opts, server_side=True)
netlog("wrap_socket_fn=%s", wrap_socket_fn)
except Exception as e:
netlog("SSL error", exc_info=True)
cpaths = csv("'%s'" % x for x in (opts.ssl_cert, opts.ssl_key)
if x)
raise InitException(
"cannot create SSL socket, check your certificate paths (%s): %s"
% (cpaths, e))
from xpra.server.socket_util import setup_tcp_socket, setup_vsock_socket, setup_local_sockets
min_port = int(opts.min_port)
netlog("setting up SSL sockets: %s", bind_ssl)
for host, iport in bind_ssl:
if iport < min_port:
error_cb("invalid %s port number %i (minimum value is %i)" %
(socktype, iport, min_port))
_, tcp_socket, host_port = setup_tcp_socket(host, iport, "SSL")
socket = ("SSL", wrap_socket_fn(tcp_socket), host_port)
sockets.append(socket)
rec = "ssl", [(host, iport)]
netlog("%s : %s", rec, socket)
mdns_recs.append(rec)
# Initialize the TCP sockets before the display,
# That way, errors won't make us kill the Xvfb
# (which may not be ours to kill at that point)
tcp_ssl = ssl_opt in TRUE_OPTIONS or (ssl_opt == "auto" and opts.ssl_cert)
def add_tcp_mdns_rec(host, iport):
rec = "tcp", [(host, iport)]
netlog("%s : %s", rec, socket)
mdns_recs.append(rec)
if tcp_ssl:
#SSL is also available on this TCP socket:
rec = "ssl", [(host, iport)]
netlog("%s : %s", rec, socket)
mdns_recs.append(rec)
netlog("setting up TCP sockets: %s", bind_tcp)
for host, iport in bind_tcp:
if iport < min_port:
error_cb("invalid %s port number %i (minimum value is %i)" %
(socktype, iport, min_port))
socket = setup_tcp_socket(host, iport)
sockets.append(socket)
add_tcp_mdns_rec(host, iport)
# VSOCK:
netlog("setting up vsock sockets: %s", bind_vsock)
for cid, iport in bind_vsock:
socket = setup_vsock_socket(cid, iport)
sockets.append(socket)
rec = "vsock", [("", iport)]
netlog("%s : %s", rec, socket)
mdns_recs.append(rec)
# systemd socket activation:
try:
from xpra.server.sd_listen import get_sd_listen_sockets
except ImportError:
pass
else:
sd_sockets = get_sd_listen_sockets()
netlog("systemd sockets: %s", sd_sockets)
for stype, socket, addr in sd_sockets:
sockets.append((stype, socket, addr))
netlog("%s : %s", (stype, [addr]), socket)
if stype == "tcp":
host, iport = addr
add_tcp_mdns_rec(host, iport)
sanitize_env()
if POSIX:
if xrd:
os.environ["XDG_RUNTIME_DIR"] = xrd
os.environ["XDG_SESSION_TYPE"] = "x11"
if not starting_desktop:
os.environ["XDG_CURRENT_DESKTOP"] = opts.wm_name
configure_imsettings_env(opts.input_method)
if display_name[0] != 'S':
os.environ["DISPLAY"] = display_name
os.environ["CKCON_X11_DISPLAY"] = display_name
else:
try:
del os.environ["DISPLAY"]
except:
pass
os.environ.update(protected_env)
log("env=%s", os.environ)
# Start the Xvfb server first to get the display_name if needed
from xpra.server.vfb_util import start_Xvfb, check_xvfb_process, verify_display_ready, verify_gdk_display, set_initial_resolution
odisplay_name = display_name
xvfb = None
xvfb_pid = None
if start_vfb:
assert not proxying and xauth_data
pixel_depth = validate_pixel_depth(opts.pixel_depth)
xvfb, display_name = start_Xvfb(opts.xvfb, pixel_depth, display_name,
cwd, uid, gid, xauth_data)
xvfb_pid = xvfb.pid
#always update as we may now have the "real" display name:
os.environ["DISPLAY"] = display_name
os.environ["CKCON_X11_DISPLAY"] = display_name
os.environ.update(protected_env)
if display_name != odisplay_name and pam:
pam.set_items({"XDISPLAY": display_name})
close_display = None
if not proxying:
def close_display():
# Close our display(s) first, so the server dying won't kill us.
# (if gtk has been loaded)
gtk_mod = sys.modules.get("gtk")
if gtk_mod:
for d in gtk_mod.gdk.display_manager_get().list_displays():
d.close()
if xvfb_pid:
log.info("killing xvfb with pid %s", xvfb_pid)
try:
os.kill(xvfb_pid, signal.SIGTERM)
except OSError as e:
log.info("failed to kill xvfb process with pid %s:",
xvfb_pid)
log.info(" %s", e)
add_cleanup(close_display)
if opts.daemon:
def noerr(fn, *args):
try:
fn(*args)
except:
pass
log_filename1 = select_log_file(log_dir, opts.log_file, display_name)
if log_filename0 != log_filename1:
# we now have the correct log filename, so use it:
os.rename(log_filename0, log_filename1)
if odisplay_name != display_name:
#this may be used by scripts, let's try not to change it:
noerr(stderr.write, "Actual display used: %s\n" % display_name)
noerr(stderr.write,
"Actual log file name is now: %s\n" % log_filename1)
noerr(stderr.flush)
noerr(stdout.close)
noerr(stderr.close)
#we should not be using stdout or stderr from this point:
del stdout
del stderr
if not check_xvfb_process(xvfb):
#xvfb problem: exit now
return 1
if ROOT and (uid != 0 or gid != 0):
log("root: switching to uid=%i, gid=%i", uid, gid)
setuidgid(uid, gid)
os.environ.update({
"HOME": home,
"USER": username,
"LOGNAME": username,
})
shell = get_shell_for_uid(uid)
if shell:
os.environ["SHELL"] = shell
os.environ.update(protected_env)
if opts.chdir:
os.chdir(opts.chdir)
display = None
if not proxying:
no_gtk()
if POSIX and (starting or starting_desktop or shadowing):
#check that we can access the X11 display:
if not verify_display_ready(xvfb, display_name, shadowing):
return 1
display = verify_gdk_display(display_name)
if not display:
return 1
import gtk #@Reimport
assert gtk
#on win32, this ensures that we get the correct screen size to shadow:
from xpra.platform.gui import init as gui_init
gui_init()
#setup unix domain socket:
if not opts.socket_dir and not opts.socket_dirs:
#we always need at least one valid socket dir
from xpra.platform.paths import get_socket_dirs
opts.socket_dirs = get_socket_dirs()
local_sockets = setup_local_sockets(opts.bind, opts.socket_dir,
opts.socket_dirs, display_name,
clobber, opts.mmap_group,
opts.socket_permissions, username, uid,
gid)
netlog("setting up local sockets: %s", local_sockets)
for rec, cleanup_socket in local_sockets:
socktype, socket, sockpath = rec
#ie: ("unix-domain", sock, sockpath), cleanup_socket
sockets.append(rec)
netlog("%s : %s", (socktype, [sockpath]), socket)
add_cleanup(cleanup_socket)
if opts.mdns:
ssh_port = get_ssh_port()
rec = "ssh", [("", ssh_port)]
netlog("%s : %s", rec, socket)
if ssh_port and rec not in mdns_recs:
mdns_recs.append(rec)
kill_dbus = None
if shadowing:
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
server_type_info = "shadow"
elif proxying:
from xpra.server.proxy.proxy_server import ProxyServer
app = ProxyServer()
server_type_info = "proxy"
else:
assert starting or starting_desktop or upgrading
from xpra.x11.gtk2.gdk_display_source import init_gdk_display_source
init_gdk_display_source()
#(now we can access the X11 server)
if xvfb_pid is not None:
#save the new pid (we should have one):
save_xvfb_pid(xvfb_pid)
if POSIX:
dbus_pid = -1
dbus_env = {}
if clobber:
#get the saved pids and env
dbus_pid = get_dbus_pid()
dbus_env = get_dbus_env()
log("retrieved existing dbus attributes")
else:
assert starting or starting_desktop
if xvfb_pid is not None:
#save the new pid (we should have one):
save_xvfb_pid(xvfb_pid)
bus_address = protected_env.get("DBUS_SESSION_BUS_ADDRESS")
log("dbus_launch=%s, current DBUS_SESSION_BUS_ADDRESS=%s",
opts.dbus_launch, bus_address)
if opts.dbus_launch and not bus_address:
#start a dbus server:
def kill_dbus():
log("kill_dbus: dbus_pid=%s" % dbus_pid)
if dbus_pid <= 0:
return
try:
os.kill(dbus_pid, signal.SIGINT)
except Exception as e:
log.warn(
"Warning: error trying to stop dbus with pid %i:",
dbus_pid)
log.warn(" %s", e)
add_cleanup(kill_dbus)
#this also updates os.environ with the dbus attributes:
dbus_pid, dbus_env = start_dbus(opts.dbus_launch)
if dbus_pid > 0:
save_dbus_pid(dbus_pid)
if dbus_env:
save_dbus_env(dbus_env)
log("dbus attributes: pid=%s, env=%s", dbus_pid, dbus_env)
if dbus_env:
os.environ.update(dbus_env)
os.environ.update(protected_env)
log("env=%s", os.environ)
try:
# This import is delayed because the module depends on gtk:
from xpra.x11.bindings.window_bindings import X11WindowBindings
X11Window = X11WindowBindings()
if (starting or
starting_desktop) and not clobber and opts.resize_display:
set_initial_resolution(starting_desktop)
except ImportError as e:
log.error(
"Failed to load Xpra server components, check your installation: %s"
% e)
return 1
if starting or upgrading:
if not X11Window.displayHasXComposite():
log.error(
"Xpra 'start' subcommand runs as a compositing manager")
log.error(
" it cannot use a display which lacks the XComposite extension!"
)
return 1
if starting:
#check for an existing window manager:
from xpra.x11.gtk2.wm import wm_check
if not wm_check(display, opts.wm_name, upgrading):
return 1
log("XShape=%s", X11Window.displayHasXShape())
from xpra.x11.server import XpraServer
app = XpraServer(clobber)
server_type_info = "xpra"
else:
assert starting_desktop
from xpra.x11.desktop_server import XpraDesktopServer
app = XpraDesktopServer()
server_type_info = "xpra desktop"
#publish mdns records:
if opts.mdns:
from xpra.os_util import strtobytes
from xpra.platform.info import get_username
from xpra.server.socket_util import mdns_publish
mdns_info = {
"display": display_name,
"username": get_username(),
"uuid": strtobytes(app.uuid),
"platform": sys.platform,
"type": {
"xpra": "seamless",
"xpra desktop": "desktop"
}.get(server_type_info, server_type_info),
}
if opts.session_name:
mdns_info["session"] = opts.session_name
for mode, listen_on in mdns_recs:
mdns_publish(display_name, mode, listen_on, mdns_info)
try:
app._ssl_wrap_socket = wrap_socket_fn
app.original_desktop_display = desktop_display
app.exec_cwd = opts.chdir or cwd
app.init(opts)
app.init_components(opts)
except InitException as e:
log.error("xpra server initialization error:")
log.error(" %s", e)
return 1
except Exception as e:
log.error("Error: cannot start the %s server",
server_type_info,
exc_info=True)
log.error(str(e))
log.info("")
return 1
#honour start child, html webserver, and setup child reaper
if not proxying and not upgrading:
if opts.exit_with_children:
assert opts.start_child, "exit-with-children was specified but start-child is missing!"
app.start_commands = opts.start
app.start_child_commands = opts.start_child
app.start_after_connect = opts.start_after_connect
app.start_child_after_connect = opts.start_child_after_connect
app.start_on_connect = opts.start_on_connect
app.start_child_on_connect = opts.start_child_on_connect
app.exec_start_commands()
del opts
log("%s(%s)", app.init_sockets, sockets)
app.init_sockets(sockets)
log("%s(%s)", app.init_when_ready, _when_ready)
app.init_when_ready(_when_ready)
try:
#from here on, we own the vfb, even if we inherited one:
if (starting or starting_desktop or upgrading) and clobber:
#and it will be killed if exit cleanly:
xvfb_pid = get_xvfb_pid()
log("running %s", app.run)
e = app.run()
log("%s()=%s", app.run, e)
except KeyboardInterrupt:
log.info("stopping on KeyboardInterrupt")
e = 0
except Exception as e:
log.error("server error", exc_info=True)
e = -128
if e > 0:
# Upgrading/exiting, so leave X and dbus servers running
if close_display:
_cleanups.remove(close_display)
if kill_dbus:
_cleanups.remove(kill_dbus)
from xpra.server.server_core import ServerCore
if e == ServerCore.EXITING_CODE:
log.info("exiting: not cleaning up Xvfb")
else:
log.info("upgrading: not cleaning up Xvfb")
log("cleanups=%s", _cleanups)
e = 0
return e
return 1
display = None
if not sys.platform.startswith("win") and not sys.platform.startswith(
"darwin") and not proxying:
display = verify_display_ready(xvfb, display_name, shadowing)
if not display:
return 1
elif not proxying:
assert "gtk" not in sys.modules
import gtk #@Reimport
assert gtk
if shadowing:
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
app.init(opts)
elif proxying:
from xpra.server.proxy_server import ProxyServer
app = ProxyServer()
try:
app.init(opts)
except Exception, e:
log.error("Error: cannot start the proxy server")
log.error(str(e))
log.info("")
return 1
else:
assert starting or upgrading
from xpra.x11.gtk_x11 import gdk_display_source
assert gdk_display_source
import gtk.gdk #@Reimport
gtk.gdk.threads_init()
display = gtk.gdk.Display(display_name)
manager = gtk.gdk.display_manager_get()
default_display = manager.get_default_display()
if default_display is not None:
default_display.close()
manager.set_default_display(display)
else:
assert "gtk" not in sys.modules
import gtk #@Reimport
if shadowing:
xvfb_pid = None #we don't own the display
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
app.init(sockets, opts)
else:
from xpra.x11.gtk_x11 import gdk_display_source
assert gdk_display_source
if clobber:
#get the saved pid:
xvfb_pid = get_pid()
else:
#check that the vfb has started ok:
if xvfb_error(True):
return 1
xvfb_pid = xvfb.pid
#check for an existing window manager:
display = None
if not sys.platform.startswith("win") and not sys.platform.startswith("darwin") and not proxying:
display = verify_display_ready(xvfb, display_name, shadowing)
if not display:
return 1
elif not proxying:
assert "gtk" not in sys.modules
import gtk # @Reimport
assert gtk
if shadowing:
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
app.init(opts)
elif proxying:
from xpra.server.proxy_server import ProxyServer
app = ProxyServer()
try:
app.init(opts)
except Exception, e:
log.error("Error: cannot start the proxy server")
log.error(str(e))
log.info("")
return 1
else:
assert starting or upgrading
from xpra.x11.gtk_x11 import gdk_display_source
def run_server(error_cb, opts, mode, xpra_file, extra_args):
try:
cwd = os.getcwd()
except:
cwd = os.path.expanduser("~")
sys.stderr.write("current working directory does not exist, using '%s'\n" % cwd)
if opts.encoding and opts.encoding=="help":
#avoid errors and warnings:
opts.encoding = ""
opts.clipboard = False
opts.notifications = False
print("xpra server supports the following encodings:")
print("(please wait, encoder initialization may take a few seconds)")
#disable info logging which would be confusing here
from xpra.log import get_all_loggers, set_default_level
import logging
set_default_level(logging.WARN)
logging.root.setLevel(logging.WARN)
for x in get_all_loggers():
x.logger.setLevel(logging.WARN)
from xpra.server.server_base import ServerBase
sb = ServerBase()
sb.init(opts)
#ensures that the threaded video helper init has completed
#(by running it again, which will block on the init lock)
from xpra.codecs.video_helper import getVideoHelper
getVideoHelper().init()
sb.init_encodings()
from xpra.codecs.loader import encoding_help
for e in sb.encodings:
print(" * %s" % encoding_help(e))
return 0
assert mode in ("start", "upgrade", "shadow", "proxy")
starting = mode == "start"
upgrading = mode == "upgrade"
shadowing = mode == "shadow"
proxying = mode == "proxy"
clobber = upgrading or opts.use_display
if upgrading or shadowing:
#there should already be one running
opts.pulseaudio = False
#get the display name:
if shadowing and len(extra_args)==0:
if sys.platform.startswith("win") or sys.platform.startswith("darwin"):
#just a virtual name for the only display available:
display_name = ":0"
else:
from xpra.scripts.main import guess_X11_display
display_name = guess_X11_display(opts.socket_dir)
elif upgrading and len(extra_args)==0:
from xpra.scripts.main import guess_xpra_display
display_name = guess_xpra_display(opts.socket_dir)
else:
if len(extra_args) > 1:
error_cb("too many extra arguments: only expected a display number")
if len(extra_args) == 1:
display_name = extra_args[0]
if not shadowing and not proxying:
display_name_check(display_name)
else:
if proxying:
error_cb("you must specify a free virtual display name to use with the proxy server")
if not opts.displayfd:
error_cb("displayfd support is not enabled on this system, you must specify the display to use")
if opts.use_display:
#only use automatic guess for xpra displays and not X11 displays:
from xpra.scripts.main import guess_xpra_display #@Reimport
display_name = guess_xpra_display(opts.socket_dir)
else:
# We will try to find one automaticaly
# Use the temporary magic value 'S' as marker:
display_name = 'S' + str(os.getpid())
if not shadowing and not proxying and not upgrading and opts.exit_with_children and not opts.start_child:
error_cb("--exit-with-children specified without any children to spawn; exiting immediately")
atexit.register(run_cleanups)
#the server class will usually override those:
signal.signal(signal.SIGINT, deadly_signal)
signal.signal(signal.SIGTERM, deadly_signal)
dotxpra = DotXpra(opts.socket_dir)
# Generate the script text now, because os.getcwd() will
# change if/when we daemonize:
script = xpra_runner_shell_script(xpra_file, os.getcwd(), opts.socket_dir)
stdout = sys.stdout
stderr = sys.stderr
# Daemonize:
if opts.daemon:
#daemonize will chdir to "/", so try to use an absolute path:
if opts.password_file:
opts.password_file = os.path.abspath(opts.password_file)
# At this point we may not know the display name,
# so log_filename0 may point to a temporary file which we will rename later
log_filename0 = select_log_file(dotxpra, opts.log_file, display_name)
logfd = open_log_file(log_filename0)
assert logfd > 2
stdout, stderr = daemonize(logfd)
try:
stderr.write("Entering daemon mode; "
+ "any further errors will be reported to:\n"
+ (" %s\n" % log_filename0))
except:
#this can happen if stderr is closed by the caller already
pass
if os.name=="posix":
# Write out a shell-script so that we can start our proxy in a clean
# environment:
write_runner_shell_script(dotxpra, script)
from xpra.log import Logger
log = Logger("server")
mdns_recs = []
sockets = []
try:
# Initialize the TCP sockets before the display,
# That way, errors won't make us kill the Xvfb
# (which may not be ours to kill at that point)
bind_tcp = parse_bind_tcp(opts.bind_tcp)
for host, iport in bind_tcp:
socket = setup_tcp_socket(host, iport)
sockets.append(socket)
if opts.mdns:
mdns_recs.append(("tcp", bind_tcp))
except Exception as e:
log.error("cannot start server: failed to setup sockets: %s", e)
return 1
# Do this after writing out the shell script:
if display_name[0] != 'S':
os.environ["DISPLAY"] = display_name
sanitize_env()
configure_imsettings_env(opts.input_method)
# Start the Xvfb server first to get the display_name if needed
xvfb = None
xvfb_pid = None
if not shadowing and not proxying and not clobber:
try:
xvfb, display_name = start_Xvfb(opts.xvfb, display_name)
except OSError as e:
log.error("Error starting Xvfb: %s\n", e)
return 1
xvfb_pid = xvfb.pid
#always update as we may now have the "real" display name:
os.environ["DISPLAY"] = display_name
if opts.daemon:
log_filename1 = select_log_file(dotxpra, opts.log_file, display_name)
if log_filename0 != log_filename1:
# we now have the correct log filename, so use it:
os.rename(log_filename0, log_filename1)
stderr.write("Actual log file name is now: %s\n" % log_filename1)
stdout.close()
stderr.close()
if not check_xvfb_process(xvfb):
#xvfb problem: exit now
return 1
#setup unix domain socket:
socket, cleanup_socket = setup_local_socket(dotxpra, display_name, clobber, opts.mmap_group, opts.socket_permissions)
if socket: #win32 returns None!
sockets.append(socket)
if opts.mdns:
ssh_port = get_ssh_port()
if ssh_port:
mdns_recs.append(("ssh", [("", ssh_port)]))
#publish mdns records:
if opts.mdns:
from xpra.platform.info import get_username
mdns_info = {"display" : display_name,
"username": get_username()}
if opts.session_name:
mdns_info["session"] = opts.session_name
for mode, listen_on in mdns_recs:
mdns_publish(display_name, mode, listen_on, mdns_info)
if not check_xvfb_process(xvfb):
#xvfb problem: exit now
return 1
display = None
if not sys.platform.startswith("win") and not sys.platform.startswith("darwin") and not proxying:
display = verify_display_ready(xvfb, display_name, shadowing)
if not display:
return 1
elif not proxying:
assert "gtk" not in sys.modules
import gtk #@Reimport
assert gtk
if shadowing:
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
info = "shadow"
elif proxying:
from xpra.server.proxy_server import ProxyServer
app = ProxyServer()
info = "proxy"
else:
assert starting or upgrading
from xpra.x11.gtk_x11 import gdk_display_source
assert gdk_display_source
#(now we can access the X11 server)
if clobber:
#get the saved pid (there should be one):
xvfb_pid = get_xvfb_pid()
elif xvfb_pid is not None:
#save the new pid (we should have one):
save_xvfb_pid(xvfb_pid)
#check for an existing window manager:
from xpra.x11.gtk_x11.wm import wm_check
if not wm_check(display, opts.wm_name, upgrading):
return 1
try:
# This import is delayed because the module depends on gtk:
from xpra.x11.server import XpraServer
from xpra.x11.bindings.window_bindings import X11WindowBindings #@UnresolvedImport
X11Window = X11WindowBindings()
except ImportError as e:
log.error("Failed to load Xpra server components, check your installation: %s" % e)
return 1
if not X11Window.displayHasXComposite():
log.error("Xpra is a compositing manager, it cannot use a display which lacks the XComposite extension!")
return 1
app = XpraServer(clobber)
info = "xpra"
try:
app.exec_cwd = cwd
app.init(opts)
except Exception as e:
log.error("Error: cannot start the %s server", info, exc_info=True)
log.error(str(e))
log.info("")
return 1
#honour start child, html webserver, and setup child reaper
if os.name=="posix" and not proxying and not upgrading and not shadowing:
# start websockify?
try:
start_websockify(app.child_reaper, opts, bind_tcp)
#websockify overrides the tcp proxy, so we must re-set it:
app._tcp_proxy = opts.tcp_proxy
except Exception as e:
error_cb("failed to setup websockify html server: %s" % e)
if opts.exit_with_children:
assert opts.start_child, "exit-with-children was specified but start-child is missing!"
if opts.start:
for x in opts.start:
if x:
app.start_child(x, x, True)
if opts.start_child:
for x in opts.start_child:
if x:
app.start_child(x, x, False)
log("%s(%s)", app.init_sockets, sockets)
app.init_sockets(sockets)
log("%s(%s)", app.init_when_ready, _when_ready)
app.init_when_ready(_when_ready)
#we got this far so the sockets have initialized and
#the server should be able to manage the display
#from now on, if we exit without upgrading we will also kill the Xvfb
def kill_xvfb():
# Close our display(s) first, so the server dying won't kill us.
log.info("killing xvfb with pid %s" % xvfb_pid)
import gtk #@Reimport
for display in gtk.gdk.display_manager_get().list_displays():
display.close()
os.kill(xvfb_pid, signal.SIGTERM)
if xvfb_pid is not None and not opts.use_display and not shadowing:
_cleanups.append(kill_xvfb)
try:
log("running %s", app.run)
e = app.run()
log("%s()=%s", app.run, e)
except KeyboardInterrupt:
log.info("stopping on KeyboardInterrupt")
e = 0
except Exception as e:
log.error("server error", exc_info=True)
e = -128
if e>0:
# Upgrading/exiting, so leave X server running
if kill_xvfb in _cleanups:
_cleanups.remove(kill_xvfb)
from xpra.server.server_core import ServerCore
if e==ServerCore.EXITING_CODE:
log.info("exiting: not cleaning up Xvfb")
elif cleanup_socket in _cleanups:
log.info("upgrading: not cleaning up Xvfb or socket")
# don't delete the new socket (not ours)
_cleanups.remove(cleanup_socket)
log("cleanups=%s", _cleanups)
e = 0
return e
import gtk.gdk #@Reimport
gtk.gdk.threads_init()
display = gtk.gdk.Display(display_name)
manager = gtk.gdk.display_manager_get()
default_display = manager.get_default_display()
if default_display is not None:
default_display.close()
manager.set_default_display(display)
else:
assert "gtk" not in sys.modules
import gtk #@Reimport
if shadowing:
xvfb_pid = None #we don't own the display
from xpra.platform.shadow_server import ShadowServer
app = ShadowServer()
app.init(sockets, opts)
else:
from xpra.x11.gtk_x11 import gdk_display_source
assert gdk_display_source
if clobber:
#get the saved pid:
xvfb_pid = get_pid()
else:
#check that the vfb has started ok:
if xvfb_error(True):
return 1
xvfb_pid = xvfb.pid
#check for an existing window manager:
