nm_device_modem_new() is only called with a newly created
NMModemBroadband or NMModemOfono instance.
See the callers
- NMModemManager:handle_new_modem()
- NMWwanFactory:modem_added_cb()
- NMDeviceModem:nm_device_modem_new()
Hence, at that point, the modem cannot yet have a data-port
or ip-iface set, because that is only obtained later.
- don't even bother to look into the platform cache, but use
if_indextoname() / if_nametoindex(). In most cases, we obtained
the ifindex/ifname not from the platform cache in the first
place. Hence, there is a race, where the interface might not
exist.
However, try to process events of the platform cache, hoping
that the cache contains an interface for the given ifindex/ifname.
- let set_ip_ifindex() and set_ip_iface() both return a boolean
value to indicate whether a ip-interface is set or not. That is,
whether we have a positive ip_ifindex. That seems more interesting
information, then to return whether anything changed.
- as before, set_ip_ifindex() can only clear an ifindex/ifname,
or error out without doing anything. That is different from
set_ip_iface(), which will also set an ifname if no ifindex
can be resolved. That is curreently ugly, because then ip-ifindex
and ip-iface don't agree. That shall be improved in the future
by:
- trying to set an interface that cannot be resolved shall
lead to a disconnect in any case.
- we shall make less use of the ip-iface and rely more on the
ifindex.
The error should be freed by callback functions, but only
_monitor_bridges_cb() actually does it. Simplify this by letting the
caller own the error.
Fixes: 830a5a14cb
Platform invokes change events while reading netlink events. However,
platform code is not re-entrant and calling into platform again is not
allowed (aside operations that do not process the netlink socket, like
lookup of the platform cache).
That basically means, we have to always process events in an idle
handler. That is not a too strong limitation, because we anyway don't
know the call context in which the platform event is emitted and we
should avoid unguarded recursive calls into platform.
Otherwise, we get hit an assertion/crash in nm-iface-helper:
1 raise()
2 abort()
3 g_assertion_message()
4 g_assertion_message_expr()
5 do_delete_object()
6 ip6_address_delete()
>>> 7 nm_platform_ip6_address_delete()
8 nm_platform_ip6_address_sync()
9 nm_ip6_config_commit()
10 ndisc_config_changed()
11 ffi_call_unix64()
12 ffi_call()
13 g_cclosure_marshal_generic_va()
14 _g_closure_invoke_va()
15 g_signal_emit_valist()
16 g_signal_emit()
>>> 17 nm_ndisc_dad_failed()
18 ffi_call_unix64()
19 ffi_call()
20 g_cclosure_marshal_generic()
21 g_closure_invoke()
22 signal_emit_unlocked_R()
23 g_signal_emit_valist()
24 g_signal_emit()
>>> 25 nm_platform_cache_update_emit_signal()
26 event_handler_recvmsgs()
27 event_handler_read_netlink()
28 delayed_action_handle_one()
29 delayed_action_handle_all()
30 do_delete_object()
31 ip6_address_delete()
32 nm_platform_ip6_address_delete()
33 nm_platform_ip6_address_sync()
>>> 34 nm_ip6_config_commit()
35 ndisc_config_changed()
36 ffi_call_unix64()
37 ffi_call()
38 g_cclosure_marshal_generic_va()
39 _g_closure_invoke_va()
40 g_signal_emit_valist()
41 g_signal_emit()
42 check_timestamps()
43 receive_ra()
44 ndp_call_eventfd_handler()
45 ndp_callall_eventfd_handler()
46 event_ready()
47 g_main_context_dispatch()
48 g_main_context_iterate.isra.22()
49 g_main_loop_run()
>>> 50 main()
NMPlatform already has a check to assert against recursive calls
in delayed_action_handle_all():
g_return_val_if_fail (priv->delayed_action.is_handling == 0, FALSE);
priv->delayed_action.is_handling++;
...
priv->delayed_action.is_handling--;
Fixes: f85728ecffhttps://bugzilla.redhat.com/show_bug.cgi?id=1546656
When NM quits it destroys all singletons including NMOvsdb, which
invokes callbacks for every pending method call. In the shutdown,
extra care must be taken to not access objects that are already in a
inconsistent state; for example here, the callback changes the device
state, and this causes an access to data that has already been
cleared:
#0 _g_log_abort (breakpoint=breakpoint@entry=1) at gmessages.c:554
#1 g_logv (log_domain=0x5635653b6817 "NetworkManager", log_level=G_LOG_LEVEL_CRITICAL, format=<optimized out>, args=args@entry=0x7fffb4b2c1e0) at gmessages.c:1362
#2 g_log (log_domain=log_domain@entry=0x5635653b6817 "NetworkManager", log_level=log_level@entry=G_LOG_LEVEL_CRITICAL, format=format@entry=0x7fbb3f58fa4a "%s: assertion '%s' failed") at gmessages.c:1403
#3 g_return_if_fail_warning (log_domain=log_domain@entry=0x5635653b6817 "NetworkManager", pretty_function=pretty_function@entry=0x5635653b6b00 <__func__.34463> "nm_device_factory_manager_find_factory_for_connection", expression=expression@entry=0x5635653b6719 "factories_by_setting") at gmessages.c:2702
#4 nm_device_factory_manager_find_factory_for_connection (connection=connection@entry=0x56356627e0e0) at src/devices/nm-device-factory.c:243
#5 nm_manager_get_connection_iface (self=0x563566241080 [NMManager], connection=connection@entry=0x56356627e0e0, out_parent=out_parent@entry=0x0, error=error@entry=0x0) at src/nm-manager.c:1458
#6 check_connection_compatible (self=<optimized out>, connection=0x56356627e0e0) at src/devices/nm-device.c:4679
#7 check_connection_compatible (device=0x56356647b1b0 [NMDeviceOvsInterface], connection=0x56356627e0e0) at src/devices/ovs/nm-device-ovs-interface.c:95
#8 _nm_device_check_connection_available (self=0x56356647b1b0 [NMDeviceOvsInterface], connection=0x56356627e0e0, flags=NM_DEVICE_CHECK_CON_AVAILABLE_NONE, specific_object=0x0) at src/devices/nm-device.c:12102
#9 nm_device_check_connection_available (self=self@entry=0x56356647b1b0 [NMDeviceOvsInterface], connection=0x56356627e0e0, flags=flags@entry=NM_DEVICE_CHECK_CON_AVAILABLE_NONE, specific_object=specific_object@entry=0x0) at src/devices/nm-device.c:12131
#10 nm_device_recheck_available_connections (self=self@entry=0x56356647b1b0 [NMDeviceOvsInterface]) at src/devices/nm-device.c:12238
#11 _set_state_full (self=self@entry=0x56356647b1b0 [NMDeviceOvsInterface], state=state@entry=NM_DEVICE_STATE_FAILED, reason=reason@entry=NM_DEVICE_STATE_REASON_OVSDB_FAILED, quitting=quitting@entry=0) at src/devices/nm-device.c:13065
#12 nm_device_state_changed (self=self@entry=0x56356647b1b0 [NMDeviceOvsInterface], state=state@entry=NM_DEVICE_STATE_FAILED, reason=reason@entry=NM_DEVICE_STATE_REASON_OVSDB_FAILED) at src/devices/nm-device.c:13328
#13 del_iface_cb (error=<optimized out>, user_data=0x56356647b1b0) at src/devices/ovs/nm-device-ovs-port.c:160
#14 _transact_cb (self=self@entry=0x5635662b9ba0 [NMOvsdb], result=result@entry=0x0, error=0x563566259a10, user_data=user_data@entry=0x5635662ff320) at src/devices/ovs/nm-ovsdb.c:1449
#15 ovsdb_disconnect (self=self@entry=0x5635662b9ba0 [NMOvsdb]) at src/devices/ovs/nm-ovsdb.c:1331
#16 dispose (object=0x5635662b9ba0 [NMOvsdb]) at src/devices/ovs/nm-ovsdb.c:1558
#17 g_object_unref (_object=0x5635662b9ba0) at gobject.c:3293
#18 _nm_singleton_instance_destroy () at src/nm-core-utils.c:138
#19 _dl_fini () at dl-fini.c:253
#20 __run_exit_handlers (status=status@entry=0, listp=0x7fbb3e1ad6c8 <__exit_funcs>, run_list_atexit=run_list_atexit@entry=true) at exit.c:77
#21 __GI_exit (status=status@entry=0) at exit.c:99
#22 main (argc=1, argv=0x7fffb4b2cc38) at src/main.c:468
Add a new error code to indicate to callbacks that we are quitting and
no further action must be taken. This is preferable to having
additional references because it allows us to free the resources owned
by callbacks immediately, while references can easily create loops.
https://bugzilla.redhat.com/show_bug.cgi?id=1543871
Example: when dhcpv4 lease renewal fails, if ipv4.may-fail was "yes",
check also if we have a successful ipv6 conf: if not fail.
Previously we just ignored the other ip family status.
Convert the string representation of ipv4.dhcp-client-id property already in
NMDevice to a GBytes. Next, we will support more client ID modes, and we
will need the NMDevice context to generate the client id.
GByteArray is a mutable array of bytes. For every practical purpose, the hwaddr
property of NMDhcpClient is an immutable sequence of bytes. Thus, make it a
GBytes.
Avoid calling nm_device_iwd_set_dbus_object (device, NULL) if the
dbus_object was NULL already. Apparently gdbus guarantees that a
name-owner notification either has a NULL old owner or a NULL new owner
but can also have both old and new owner NULL.
Reuse the apparent workaround from libnm/nm-client.c in which the
GDbusObjectManagerClient is recreated every time the name owner
pops up, instead of creating it once and using that object forever.
Resubscribe to all the signals on the new object. The initial
GDbusObjectManager we create is only used to listed for the name-owner
changes.
There's nothing in gdbus docs that justifies doing that but there
doesn't seem to be any way to reliably receive all the signals from
the dbus service the normal way. The signals do appear on dbus-monitor
and the gdbus apparently subscribes to those signals with AddMatch()
correctly but they sometimes won't be received by the client code,
unless this workaround is applied.
While making changes to got_object_manager, don't destroy the
cancellable there as it is supposed to be used throughout the
NMIwdManager life.
Disconnect from NMManager signals in our cleanup, make sure the
NMManager singleton is not destroyed before we are by keeping a
reference until we've disconnected from its signals.
Add very simple periodic scanning because IWD itself only does periodic
scanning when it is in charge of autoconnecting (by policy). Since we
keep IWD out of the autoconnect state in order to use NM's autoconnect
logic, we need to request the scanning. The policy in this patch is to
use a simple 10s period between the end of one scan the requesting of
another while not connected, and 20s when connected. This is so that
users can expect similar results from both wifi backends but without
duplicating the more elaborate code in the wpa_supplicant backend which
can potentially be moved to a common superclass.
While the numerical values of IFA_F_SECONDARY and IFA_F_TEMPORARY
are identical, their meaning is not.
IFA_F_SECONDARY is only relevant for IPv4 addresses, while
IFA_F_TEMPORARY is only relevant for IPv6 addresses.
IFA_F_TEMPORARY is automatically set by kernel for the addresses
that it generates as part of IFA_F_MANAGETEMPADDR. It cannot be
actively set by user-space.
IFA_F_SECONDARY is automatically set by kernel depending on the order
in which the addresses for the same subnet are added.
This essentially reverts 8b4f11927 (core: avoid IFA_F_TEMPORARY alias for
IFA_F_SECONDARY).
In device_ipx_changed() we remember the addresses for which it appears
that DAD failed. Later, on an idle handler, we process them during
queued_ip6_config_change().
Note that nm_plaform_ip6_address_sync() might very well decide to remove
some or all addresses and re-add them immidiately later. It might do so,
to get the address priority/ordering right. At that point, we already
emit platform signals that the device disappeared, and track them in
dad6_failed_addrs.
Hence, later during queued_ip6_config_change() we must check again
whether the address is really not there and not still doing DAD.
Otherwise, we wrongly claim that DAD failed and remove the address,
generate a new one, and the same issue might happen again.
dad6_failed_addrs is populated with addresses from the platform cache.
Inside the cache, all addresses have addr_source NM_IP_CONFIG_SOURCE_KERNEL,
because addr_source property for addresses is only a property that is
used NetworkManager internally.
NMPObjects are never modified after being put into the cache.
Hence, it is safe and encouraged to just keep a reference to them,
instead of cloning them.
Interestingly, NMPlatform's change signals have a platform_object
pointer, which is not the pointer to the NMPObjects itself, but
down-cast to the NMPlatformObject instance. It does so, because commonly
callers want to have a pointer to the NMPlatformObject instance, instead
of the outer NMPObjects. However, NMP_OBJECT_UP_CAST() is guaranteed
to work one would expect.
The order in which we add addresses to dad6_failed_addrs does not
matter. Hence, use g_slist_prepend() which is O(1), instead
g_slist_append() with O(n).
nm_utils_lifetime_get() already has so many arguments.
Essentially, the function returned %TRUE if and only if the
lifetime was greater then zero.
Combine the return value and the output argument for the lifetime.
It also matches better the function name: to get the lifetime.
In ndisc_set_router_config(), we initialize NMNDiscAddress based on
NMPlatformIP6Address instances. Note that their handling of timestamps
is not entirely identical.
For convenience of the user, NMPlatformIP6Address allows to not specify
any timestamp. On the contrary, for convenience of implementation does
NMNDiscAddress always require fully specified timestamps.
Properly convert one representation into the other.
We commonly only allow tabs at the beginning of a line, not
afterwards. The reason for this style is so that the code
looks formated right with tabstop=4 and tabstop=8.
Setting the state of NMActiveConnection results in invoking callbacks
in NMManager. Hence, it might be far-reaching. Clear
priv->queued_act_request before invoking the callbacks.
NM_DEVICE_OVS_INTERFACE_GET_PRIVATE() is implemented via the _NM_GET_PRIVATE()
macro. This macro uses C11's _Generic() to provide additional compiler checks
when casting from an incompatible pointer type.
As such,
NMDevice *device = ...;
NMDeviceOvsInterfacePrivate *priv;
priv = NM_DEVICE_OVS_INTERFACE_GET_PRIVATE (device);
causes a compilation error:
error: ‘_Generic’ selector of type ‘NMDevice * {aka struct _NMDevice *}’ is not compatible with any association
One workaround would be to cast the pointer first:
priv = NM_DEVICE_OVS_INTERFACE_GET_PRIVATE ((NMDeviceOvsInterface *) device);
A better fix is to mark NMDevice as a compatible pointer in _NM_GET_PRIVATE(),
which this patch does.
Previously, this went unnoticed, because due to bug "a43bf3388 build: fix configure
check for CC support of _Generic() and __auto_type", we failed to detect support
for _Generic() when compiling with -Werror. That essentially disables this check,
and NM_DEVICE_OVS_INTERFACE_GET_PRIVATE() would do a direct cast.
A workaround for this build failure might be to build with -Werror, which accidentally
results in not using _Generic().
https://bugzilla.gnome.org/show_bug.cgi?id=793183
Fixes: 8ad310f8e3
OvsInterface can postpone the stage3_ip[46]_config until the link
actually appears. It ought to restart the stage only when the link
appears, not upon further changes to it (which would trip an assertion
when starting the DHCP client while one already exists).
https://bugzilla.redhat.com/show_bug.cgi?id=1540063
Must always initialize cleanup variable, to be able to build with
"-fexceptions".
make[2]: Entering directory './contrib/fedora/rpm/NetworkManager.20180124-060444.C5tHCi/BUILD/NetworkManager-1.11.1'
CC src/devices/wifi/src_devices_wifi_libnm_device_plugin_wifi_la-nm-device-iwd.lo
In file included from ./shared/nm-utils/nm-glib.h:27:0,
from ./shared/nm-utils/nm-macros-internal.h:60,
from ./shared/nm-default.h:257,
from src/devices/wifi/nm-device-iwd.c:21:
src/devices/wifi/nm-device-iwd.c: In function ‘deactivate_async_finish’:
./shared/nm-utils/gsystem-local-alloc.h:37:8: error: ‘variant’ may be used uninitialized in this function [-Werror=maybe-uninitialized]
if (*(Type*)v) \
^
src/devices/wifi/nm-device-iwd.c:405:29: note: ‘variant’ was declared here
gs_unref_variant GVariant *variant;
^~~~~~~
Fixes: d0c1e1a62a
XXX was used to either raise attention (NOTE) or to indicate
that this is ugly code that should be fixed (FIXME). The usage
was inconsistent.
Let's avoid XXX and use either NOTE or FIXME.
In a previous patch I added deactivate_async to make sure that NM
auto re-connect waits for the IWD state to changed from "disconnecting"
to "disconnected" before starting a new activation when the user wants
to switch from one profile to another. This doesn't account for when
IWD itself goes into "disconnecting" because of a connect failure.
When IWD goes into the "disconnecting" state we call
nm_device_state_changed (NM_DEVICE_STATE_FAILED,
NM_DEVICE_STATE_REASON_SUPPLICANT_DISCONNECT)
immediately to give feedback to user as soon as possible. We will
return FALSE from get_autoconnect_allowed for the period the
"disconnecting" state.
Deactivating the connection translates to a Device.Disconnect dbus call
to IWD. The dbus call normally returns immediately because the
corresponding nl80211 command returns immediately but we can't rely on
that. Make sure that NMDevice waits for the IWD method return before
continuing with the new activation request when switching wifi networks.
