The argument name should express what the caller wants
(he wants to know, whether the connection can be activated
for an internal or external activation request).
Whether that involves checking device-specific overrides, is
not the point -- nm_device_check_connection_compatible() is
also a virtual function with device-specific overrides.
Extend nm_match_spec_*() to support an "except:" prefix to negate
the result of a match. "except:" only works when followed by
an exact match type, for example "except:interface-name:vboxnet0",
but not "except:vboxnet0".
A matching "except:" spec always wins, regardless of other positive
matchings.
NMTestDevice does not invoke dispose(), hence it leaks memory which causes
false warnings in testing.
Some minor refactring to let dispose() clear the fields, but free it
later in finalize(). This avoids memleaks in the NMTestDevice stub.
NMDevice rechecks available connections when the device moves to the
DISCONNECTED state, but connections are not available if the modem is
PIN locked at that time. Available connections were never re-checked
when the modem was then unlocked while in the DISCONNECTED state.
When the modem device is abruptly disconnected,
nm_modem_device_state_changed() calls deactivate_cleanup() with a NULL
device argument and that's perfectly fine.
We should only check the instance type if we know the device is non-NULL.
(NetworkManager:9166): NetworkManager-wwan-CRITICAL **: deactivate_cleanup: assertion 'NM_IS_DEVICE ( failed
With this change, NMConfig is really immutable and all
modifyable parts migrated to NMConfigData.
Another advantage is that components can now subscribe to
NMConfig changes to pickup changes to no-auto-default.
During queued_ip_config_change(), we eventually call update_ip_config()
and ip4_config_merge_and_apply(). These functions read the IP configuration
from platform and setup the private ip4_config instance.
Trigger this initialization after constructing the device to setup
the IP configuration.
Before, for unmanaged devices we would not call ip4_config_merge_and_apply()
until the first platform change event.
Note that in the worst case we do some unnecessary work due to this,
because queued_ip_config_change() must already be robust to be called
at any time.
We trigger a new solicitation upon seeing the new token. Kernel triggers one
too, but that one is of no use to us, since the advertisement might arrive sooner
than we learn about the token change.
Even more eagerly pickup external default routes from the device.
For assumed devices we already picked up the default route.
(a) For assumed devices we already did not enforce the default route at all.
Instead it was always picked up by from the actualy system
configuration. Note that this is the case for assumed-generated
connections and for assuming existing connections.
That means that when NM assumes a connection at startup, it will never
actively manage the default route on that interface. It will only react
on what is present.
(b) For managed devices that have by configuration no default route, still pick up
the default route. That means, that even a device that is managed and
never-default=yes, can have the default route -- if configured externally.
(c) Only during a commit phase (i.e. when we have new configuraiton to be
applied), we enforce the default route or its absence.
(d) During any IP change event from platform, we again pickup whatever
is present. That means if you remove the default route from a managed
interface, NM will not re-add it until anything triggers (c).
This also means, that during the commit phase, we add default routes as
'synced' to the default-route-manager, but the following event from platform,
will change the route entry immediately to 'non-synced'. That is
expected and correct.
When receiving IP changes via platform event, remove all missing
addresses and routes from our internal configurations (such as
wwan, vpn, dhcp).
The effect is that on the next commit, those addresses and routes will
not be re-added as they were explicitly removed by the user.
However on a new DHCP lease or similar events, the addresses will
be added anew.
Another important improvement is that the NMIPxConfig of the active
device reflects when addresses or routes get removed externally. Before
we would continue to expose those entires although they were not
actually configured on the device.
https://bugzilla.gnome.org/show_bug.cgi?id=740443
In the IPv4 case, we check whether we have a direct route to the gateway
also by looking at the configured addresses/subnets. That is correct,
because every IPv4 address also implies a subnet route.
For IPv6, we explicitly add all subnet routes manually (noprefixroute),
hence, we have a direct route exactly if we have it in our list.
Regardless of the configured IPv6 prefixes.
Since 03a5a85d, NMDeviceTeam was trying to use priv->teamd_pid to
decide whether a teamd_dbus_vanished() call indicated "teamd hasn't
been started yet" or "teamd was previously started and has now
exited". But this resulted in a race condition, where at startup, a
device could call g_dbus_watch_name(), then launch teamd (causing
teamd_pid to get set), and then have gdbus report that teamd hasn't
been started yet before the newly-launched teamd managed to grab the
bus name. Since teamd_pid would already be set when
teamd_dbus_vanished() was called, it would decide that this meant
"teamd was previously started and has now exited", so it would call
teamd_cleanup(), killing the just-started teamd process.
Fix this by having teamd_dbus_vanished() check priv->tdc instead,
which doesn't get set until after the first teamd_dbus_appeared()
call.
We forgot to include the BRIDGE, so that bridge
devices got a default priority (route-metric) of 950
Add it between VLAN and MODEM type.
Also return a different metric for UNKNOWN
device types, but these priorities are not
actually expected.
ModemManager needs to have CLOCAL set in the TTY termios configuration, in order
to notify the kernel that modem control lines are not in effect (e.g. so that a
transition to LOW in the DCD input control line doesn't trigger a hangup in the
TTY).
pppd in the other hand, needs CLOCAL unset in order to have proper modem control
lines in effect during the PPP session. So, when pppd starts it will store the
original termios settings, and before exiting it will restore the original
settings in the TTY. In other words, if CLOCAL was set before launching pppd,
CLOCAL will be also set after pppd exits.
Now, in order for this sequence to work correctly, NetworkManager also needs to
make sure that ModemManager is notified about the disconnection only after pppd
has really finished re-configuring the TTY.
https://bugzilla.gnome.org/show_bug.cgi?id=734347
----------------------
Once the patch is applied, we will be making sure that ModemManager is only
notified about the disconnection AFTER pppd has fully exited:
NetworkManager[27589]: <info> (ttyUSB2): device state change: activated -> deactivating (reason 'user-requested') [100 110 39]
Terminating on signal 15
nm-pppd-plugin-Message: nm-ppp-plugin: (nm_phasechange): status 10 / phase 'terminate'
nm-pppd-plugin-Message: nm-ppp-plugin: (nm_phasechange): status 8 / phase 'network'
Connect time 0.3 minutes.
Sent 56 bytes, received 0 bytes.
nm-pppd-plugin-Message: nm-ppp-plugin: (nm_phasechange): status 5 / phase 'establish'
nm-pppd-plugin-Message: nm-ppp-plugin: (nm_phasechange): status 11 / phase 'disconnect'
Connection terminated.
nm-pppd-plugin-Message: nm-ppp-plugin: (nm_phasechange): status 1 / phase 'dead'
nm-pppd-plugin-Message: nm-ppp-plugin: (nm_exit_notify): cleaning up
NetworkManager[27589]: <warn> pppd pid 27617 exited with error: pppd received a signal
NetworkManager[27589]: <info> (ttyUSB2): modem state changed, 'connected' --> 'disconnecting' (reason: user-requested)
NetworkManager[27589]: <info> (ttyUSB2): modem state changed, 'disconnecting' --> 'registered' (reason: user-requested)
NetworkManager[27589]: <info> (ttyUSB2) modem deactivation finished
NetworkManager[27589]: <info> (ttyUSB2): device state change: deactivating -> disconnected (reason 'user-requested') [110 30 39]
NetworkManager[27589]: <info> (ttyUSB2): deactivating device (reason 'user-requested') [39]
Add nm_utils_setpgid() as a g_spawn*() child setup function for
calling setpgid(), and use it where appropriate rather than
reimplementing it every time.
There's no point in calling setpgid() on short-lived processes, so
remove the setpgid() calls when spawning dispatcher scripts, iptables,
iscsiadmin, and netconf.
Replace the pthread_sigwait()-based signal handling with
g_unix_signal_add()-based handling, and get rid of all the
now-unnecessary calls to nm_unblock_posix_signals() when spawning
subprocesses.
As a bonus, this also fixes the "^C in gdb kills NM too" bug.
If a device assumes a connection without activating a user-requested or
NM-requested connection, then disable_ipv6 is not touched. When the device
is deactivated, it still isn't touched even though userspace IPv6LL
is enabled. This could lead to an user-requested activation with
IPv6 configuration, but disable_ipv6=1.
Whenever userspace IPv6LL is turned on, we should also set disable_ipv6=0
to ensure IPv6 can function. Userspace IPv6LL will ensure that the
interface does not have an address until the user/connection requests
it, which was the only reason that NM touched disable_ipv6 anyway.
fixes:NetworkManager_Test203_testcase_286589
fixes:NetworkManager_Test204_testcase_286590
https://bugzilla.gnome.org/show_bug.cgi?id=741773
teamd first adds the link and only then listens on the bus therefore we race
with it. Let's watch for the bus presence even for the teamd devices we didn't
add for all their lifetime and recheck for assumed connections as we see them.
We don't want to start a teamd instance when there's an externally added team
interface. We just don't want to try to the daemon if it's not there (addressed
by a later commit).
This reverts commit a78386b6d1.
Conflicts:
src/devices/team/nm-device-team.c
When userspace IPv6LL capability is compiled into NetworkManager,
during deactivation NM will toggle userspace IPv6LL in some cases.
This causes link change events in the platform, which show up
in nm-device.c::device_link_changed().
When an EXTERNAL_DOWN interface was activated, the EXTERNAL_DOWN
flag was never cleared even if the device was set IFF_UP or if
a connection was activated via D-Bus (which explicitly sets the
device up).
Second, the device_link_changed() code changed device state
whether or not IFF_UP had actually changed, it simply looked at
the current value.
Together, this caused the first activation of an EXTERNAL_DOWN
device to succeed, but the EXTERNAL_DOWN flag was never cleared
even though the activation set the device IFF_UP. When a second
activation request came in, the device was moved to DISCONNECTED
state and IPv6LL genmode was reset, causing device_link_changed()
to run. Since the device had EXTERNAL_DOWN and IFF_UP were still
set, nm_device_set_unmanaged_flag() code was triggered to clear
EXTERNAL_DOWN, which resulted in a state transition to UNAVAILABLE
with a reason of CONNECTION_ASSUMED. This caused the second
activation request to fail because UNAVAILABLE devices cannot
activate connections by definition.
The fix has three parts:
1) Only change EXTERNAL_DOWN if IFF_UP actually changes, to prevent
spurious changes when something other than IFF_UP changes
2) Only clear EXTERNAL_DOWN when IFF_UP changes while the device
is UNMANAGED, since any state higher than UNMANAGED implies that
either an activation request was received (and thus the device
should be managed) or IFF_UP was set
3) Clear EXTERNAL_DOWN (without triggering state changes) when
any state higher than UNAVAILABLE is entered, since this implies
that a connection is activating or the device is no longer
IFF_UP
fixes:NetworkManager_Test108_testcase_303655
https://bugzilla.gnome.org/show_bug.cgi?id=741742
#0 0x00007f6c3aed34e9 in g_logv (log_domain=0x7f6c3ea7341c "NetworkManager", log_level=G_LOG_LEVEL_CRITICAL, format=<optimized out>, args=args@entry=0x7fff0a33fb60) at gmessages.c:989
#1 0x00007f6c3aed363f in g_log (log_domain=<optimized out>, log_level=<optimized out>, format=<optimized out>) at gmessages.c:1025
#2 0x00007f6c3e8ead4f in nm_device_get_iface (self=0x0) at devices/nm-device.c:502
#3 0x00007f6c3e904f59 in nm_device_slave_notify_release (self=0x7f6c3fb48e60, reason=NM_DEVICE_STATE_REASON_REMOVED) at devices/nm-device.c:1618
#4 0x00007f6c3e8ed69f in nm_device_release_one_slave (self=0x7f6c3fb22670, slave=0x7f6c3fb48e60, configure=1, reason=NM_DEVICE_STATE_REASON_REMOVED) at devices/nm-device.c:968
#5 0x00007f6c3e904bf7 in slave_state_changed (slave=0x7f6c3fb48e60, slave_new_state=NM_DEVICE_STATE_UNMANAGED, slave_old_state=NM_DEVICE_STATE_ACTIVATED, reason=NM_DEVICE_STATE_REASON_REMOVED, self=0x7f6c3fb22670)
at devices/nm-device.c:1368
#6 0x00007f6c39829d8c in ffi_call_unix64 () at ../src/x86/unix64.S:76
#7 0x00007f6c398296bc in ffi_call (cif=cif@entry=0x7fff0a340070, fn=0x7f6c3e9049d0 <slave_state_changed>, rvalue=0x7fff0a33ffe0, avalue=avalue@entry=0x7fff0a33ff60) at ../src/x86/ffi64.c:522
#8 0x00007f6c3b1bfad8 in g_cclosure_marshal_generic (closure=0x7f6c3fb5c8c0, return_gvalue=0x0, n_param_values=<optimized out>, param_values=<optimized out>, invocation_hint=<optimized out>, marshal_data=0x0) at gclosure.c:1454
#9 0x00007f6c3b1bf298 in g_closure_invoke (closure=0x7f6c3fb5c8c0, return_value=return_value@entry=0x0, n_param_values=4, param_values=param_values@entry=0x7fff0a340270, invocation_hint=invocation_hint@entry=0x7fff0a340210)
at gclosure.c:777
#10 0x00007f6c3b1d135d in signal_emit_unlocked_R (node=node@entry=0x7f6c3faf5d10, detail=detail@entry=0, instance=instance@entry=0x7f6c3fb48e60, emission_return=emission_return@entry=0x0,
instance_and_params=instance_and_params@entry=0x7fff0a340270) at gsignal.c:3586
#11 0x00007f6c3b1d90f2 in g_signal_emit_valist (instance=instance@entry=0x7f6c3fb48e60, signal_id=signal_id@entry=64, detail=detail@entry=0, var_args=var_args@entry=0x7fff0a3404a8) at gsignal.c:3330
#12 0x00007f6c3b1d98f8 in g_signal_emit_by_name (instance=0x7f6c3fb48e60, detailed_signal=0x7f6c3ea70f83 "state-changed") at gsignal.c:3426
#13 0x00007f6c3e8f894f in _set_state_full (self=0x7f6c3fb48e60, state=NM_DEVICE_STATE_UNMANAGED, reason=NM_DEVICE_STATE_REASON_REMOVED, quitting=0) at devices/nm-device.c:7486
#14 0x00007f6c3e8f0706 in nm_device_state_changed (self=0x7f6c3fb48e60, state=NM_DEVICE_STATE_UNMANAGED, reason=NM_DEVICE_STATE_REASON_REMOVED) at devices/nm-device.c:7623
#15 0x00007f6c3e8f808b in nm_device_set_unmanaged (self=0x7f6c3fb48e60, flag=NM_UNMANAGED_INTERNAL, unmanaged=1, reason=NM_DEVICE_STATE_REASON_REMOVED) at devices/nm-device.c:6652
#16 0x00007f6c3e9943d0 in remove_device (manager=0x7f6c3fb20150, device=0x7f6c3fb48e60, quitting=0, allow_unmanage=1) at nm-manager.c:752
#17 0x00007f6c3e995c29 in platform_link_cb (platform=0x7f6c3fa7a870, ifindex=73, plink=0x7fff0a341260, change_type=NM_PLATFORM_SIGNAL_REMOVED, reason=NM_PLATFORM_REASON_EXTERNAL, user_data=0x7f6c3fb20150) at nm-manager.c:2182
#18 0x00007f6c39829d8c in ffi_call_unix64 () at ../src/x86/unix64.S:76
#19 0x00007f6c398296bc in ffi_call (cif=cif@entry=0x7fff0a340bc0, fn=0x7f6c3e995b60 <platform_link_cb>, rvalue=0x7fff0a340b30, avalue=avalue@entry=0x7fff0a340ab0) at ../src/x86/ffi64.c:522
#20 0x00007f6c3b1bfad8 in g_cclosure_marshal_generic (closure=0x7f6c3fb14cf0, return_gvalue=0x0, n_param_values=<optimized out>, param_values=<optimized out>, invocation_hint=<optimized out>, marshal_data=0x0) at gclosure.c:1454
#21 0x00007f6c3b1bf298 in g_closure_invoke (closure=0x7f6c3fb14cf0, return_value=return_value@entry=0x0, n_param_values=5, param_values=param_values@entry=0x7fff0a340dc0, invocation_hint=invocation_hint@entry=0x7fff0a340d60)
at gclosure.c:777
#22 0x00007f6c3b1d135d in signal_emit_unlocked_R (node=node@entry=0x7f6c3fa76f00, detail=detail@entry=0, instance=instance@entry=0x7f6c3fa7a870, emission_return=emission_return@entry=0x0,
instance_and_params=instance_and_params@entry=0x7fff0a340dc0) at gsignal.c:3586
#23 0x00007f6c3b1d90f2 in g_signal_emit_valist (instance=instance@entry=0x7f6c3fa7a870, signal_id=signal_id@entry=2, detail=detail@entry=0, var_args=var_args@entry=0x7fff0a341018) at gsignal.c:3330
#24 0x00007f6c3b1d98f8 in g_signal_emit_by_name (instance=0x7f6c3fa7a870, detailed_signal=0x7f6c3ea5f1fa "link-changed") at gsignal.c:3426
#25 0x00007f6c3e92412a in announce_object (platform=0x7f6c3fa7a870, object=0x7f6c3fbb6fd0, change_type=NM_PLATFORM_SIGNAL_REMOVED, reason=NM_PLATFORM_REASON_EXTERNAL) at platform/nm-linux-platform.c:1625
#26 0x00007f6c3e92b0f9 in event_notification (msg=0x7f6c3fa946f0, user_data=0x7f6c3fa7a870) at platform/nm-linux-platform.c:1986
#27 0x00007f6c3c35812f in nl_cb_call (msg=<optimized out>, type=<optimized out>, cb=<optimized out>) at ../include/netlink-private/netlink.h:141
#28 recvmsgs (cb=0x7f6c3fa7a620, sk=0x7f6c3fa7a710) at nl.c:952
#29 nl_recvmsgs_report (sk=0x7f6c3fa7a710, cb=0x7f6c3fa7a620) at nl.c:1003
#30 0x00007f6c3c3584f9 in nl_recvmsgs (sk=<optimized out>, cb=<optimized out>) at nl.c:1027
#31 0x00007f6c3e929dca in event_handler (channel=0x7f6c3fa78810, io_condition=G_IO_IN, user_data=0x7f6c3fa7a870) at platform/nm-linux-platform.c:4127
#32 0x00007f6c3aecc2a6 in g_main_dispatch (context=0x7f6c3fa68490) at gmain.c:3066
#33 g_main_context_dispatch (context=context@entry=0x7f6c3fa68490) at gmain.c:3642
#34 0x00007f6c3aecc628 in g_main_context_iterate (context=0x7f6c3fa68490, block=block@entry=1, dispatch=dispatch@entry=1, self=<optimized out>) at gmain.c:3713
#35 0x00007f6c3aecca3a in g_main_loop_run (loop=0x7f6c3fa68550) at gmain.c:3907
#36 0x00007f6c3e8e9fff in main (argc=1, argv=0x7fff0a341c88) at main.c:483
https://bugzilla.gnome.org/show_bug.cgi?id=741651
If NM IPv6LL wasn't enabled then there is no need to bounce disable_ipv6
to tell the kernel to re-enable kernel IPv6LL, because kernel IPv6LL
is already enabled.
https://bugzilla.gnome.org/show_bug.cgi?id=740702
We want to export the IP configuration of interfaces when they have some, but
the kernel doesn't care if they are IFF_UP or not. Neither should NetworkManager,
so don't force devices IFF_UP just because we're assuming their IP config.
Externally created software devices would be managed/assumed immediately
upon creation, which includes setting them IFF_UP and possibly turning
on NM-managed IPv6LL.
With this commit, expected behavior for external software devices is:
1) created: unmanaged state, no further action
2) IP address added but !IFF_UP: connection assumed, but device is not set IFF_UP
3) slave attached but !IFF_UP: connection assumed, but master is not set IFF_UP
3) set IFF_UP: connection assumed (if any), if not -> DISCONNECTED
This branch ensures that external software devices are not set IFF_UP
by NetworkManager when they are discovered. It additionally ensures that
they are not set IFF_UP during connection assumption. They may be set
IFF_UP later through specific user action.
https://bugzilla.gnome.org/show_bug.cgi?id=725647https://bugzilla.redhat.com/show_bug.cgi?id=1030947
Error: CHECKED_RETURN (CWE-252): [#def20]
NetworkManager-0.9.11.0/src/devices/nm-device.c:5037: check_return: Calling "g_spawn_async" without checking return value (as is done elsewhere 12 out of 13 times).
