Our gdbus generated types use the same names as their corresponding
"real" types, but with "NM" changed to "NMDBus".
Unfortunately, that means that introspection/nmdbus-manager.c (the
generated type for src/nm-manager.c) uses the same type name as the
entirely unrelated src/nm-dbus-manager.c.
Fix this by removing the "d" from src/nm-dbus-manager.c. (We could
rename the generated type instead, but then it becomes inconsistent
with all the other generated types, and we're already using it as
"NMDBusManager" in libnm/nm-manager.c.)
Move D-Bus export/unexport handling into NMExportedObject and remove
type-specific export/get_path methods (export paths are now specified
at the class level, and NMExportedObject handles the counters for all
exported types automatically).
Since all exportable objects now use the same get_path() method, we
can also add some helper methods to simplify get_property()
implementations for object-path and object-path-array properties.
Add NMExportedObject, make it the base class of all D-Bus-exported
types, and move the nm-properties-changed-signal logic into it. (Also,
make NMSettings use the same properties-changed code as everything
else, which it was not previously doing, presumably for historical
reasons).
(This is mostly just shuffling code around at this point, but
NMExportedObject will be more important in the gdbus port, since
gdbus-codegen doesn't do a very good job of supporting objects that
export multiple interfaces [as each NMDevice subclass does, for
example], so we will need more glue/helper code in NMExportedObject
then.)
Rather than randomly including one or more of <glib.h>,
<glib-object.h>, and <gio/gio.h> everywhere (and forgetting to include
"nm-glib-compat.h" most of the time), rename nm-glib-compat.h to
nm-glib.h, include <gio/gio.h> from there, and then change all .c
files in NM to include "nm-glib.h" rather than including the glib
headers directly.
(Public headers files still have to include the real glib headers,
since nm-glib.h isn't installed...)
Also, remove glib includes from header files that are already
including a base object header file (which must itself already include
the glib headers).
Originally, if you change the ID of a connection,
the existing keyfile will not be renamed. That means
after renaming a connection, it's keyfile name will
mismatch.
Now, when th user modifies a connection via D-Bus and changes
the connection it, rename the file.
https://bugzilla.gnome.org/show_bug.cgi?id=740738
Example:
$ nmcli con add type eth con-name profile ifname nosuch
$ nmcli con up profile
or
# ip link set eth0 down
$ nmcli con add type eth con-name my-eth0 ifname eth0
$ nmcli con up my-eth0
Related to: 6fc3736c7a
Backtrace:
NetworkManager[10972]: <debug> [1435142179.593334] [platform/nm-platform.c:2962] log_ip4_route(): signal: route 4 removed: 0.0.0.0/0 via 192.168.100.1 dev 85 metric 300 mss 0 src user scope global
NetworkManager[10972]: <debug> [1435142179.593421] [platform/nm-platform.c:2944] log_link(): signal: link removed: 85: bond0 <DOWN;broadcast,multicast,master> mtu 1500 arp 1 bond* init addr 7A:AB:BE:0D:19:3D driver bond
NetworkManager[10972]: <debug> [1435142179.593446] [nm-manager.c:779] remove_device(): (bond0): removing device (allow_unmanage 1, managed 1)
NetworkManager[10972]: <debug> [1435142179.596995] [devices/nm-device.c:7232] nm_device_set_unmanaged(): [0x5555559d2a40] (bond0): now unmanaged
NetworkManager[10972]: (devices/nm-device.c:8040):_set_state_full: runtime check failed: (priv->in_state_changed == FALSE)
#0 0x00007ffff4a538c3 in g_logv () at /lib64/libglib-2.0.so.0
#1 0x00007ffff4a53a3f in g_log () at /lib64/libglib-2.0.so.0
#2 0x00007ffff4a53d56 in g_warn_message () at /lib64/libglib-2.0.so.0
#3 0x00005555555b9dca in _set_state_full (self=0x5555559d2a40, state=NM_DEVICE_STATE_UNMANAGED, reason=NM_DEVICE_STATE_REASON_REMOVED, quitting=0) at devices/nm-device.c:8040
#4 0x0000555555626d7b in remove_device (manager=0x5555559631e0, device=0x5555559d2a40, quitting=0, allow_unmanage=<optimized out>) at nm-manager.c:801
#5 0x00007ffff28b7dac in ffi_call_unix64 () at /lib64/libffi.so.6
#6 0x00007ffff28b76d5 in ffi_call () at /lib64/libffi.so.6
#7 0x00007ffff4d4a628 in g_cclosure_marshal_generic () at /lib64/libgobject-2.0.so.0
#8 0x00007ffff4d49de8 in g_closure_invoke () at /lib64/libgobject-2.0.so.0
#9 0x00007ffff4d5b70d in signal_emit_unlocked_R () at /lib64/libgobject-2.0.so.0
#10 0x00007ffff4d63471 in g_signal_emit_valist () at /lib64/libgobject-2.0.so.0
#11 0x00007ffff4d63c78 in g_signal_emit_by_name () at /lib64/libgobject-2.0.so.0
#12 0x00005555555ce4ea in do_emit_signal (platform=platform@entry=0x55555594c8b0, obj=0x555555a74c50, cache_op=NMP_CACHE_OPS_REMOVED, was_visible=<optimized out>, reason=reason@entry=
NM_PLATFORM_REASON_INTERNAL) at platform/nm-linux-platform.c:1425
#13 0x00005555555ce826 in cache_prune_candidates_prune (platform=platform@entry=0x55555594c8b0) at platform/nm-linux-platform.c:1704
#14 0x00005555555d32d3 in do_request_link (platform=platform@entry=0x55555594c8b0, ifindex=ifindex@entry=85, name=name@entry=0x0, handle_delayed_action=handle_delayed_action@entry=0)
at platform/nm-linux-platform.c:1951
#15 0x00005555555d356b in delayed_action_handle_all (ifindex=85, platform=0x55555594c8b0) at platform/nm-linux-platform.c:1491
#16 0x00005555555d356b in delayed_action_handle_all (platform=0x55555594c8b0) at platform/nm-linux-platform.c:1573
#17 0x00005555555d356b in delayed_action_handle_all (platform=platform@entry=0x55555594c8b0, read_netlink=read_netlink@entry=0) at platform/nm-linux-platform.c:1588
#18 0x00005555555d32e2 in do_request_link (platform=platform@entry=0x55555594c8b0, ifindex=ifindex@entry=7, name=name@entry=0x0, handle_delayed_action=handle_delayed_action@entry=1)
at platform/nm-linux-platform.c:1954
#19 0x00005555555d5177 in do_change_link (platform=platform@entry=0x55555594c8b0, nlo=nlo@entry=0x55555597f0f0, complete_from_cache=complete_from_cache@entry=1) at platform/nm-linux-platform.c:2753
#20 0x00005555555d56b4 in link_enslave (platform=0x55555594c8b0, master=0, slave=7) at platform/nm-linux-platform.c:3141
#21 0x00005555555976de in release_slave (device=0x5555559d2a40, slave=0x5555559c6be0, configure=<optimized out>) at devices/nm-device-bond.c:437
#22 0x00005555555b7bc3 in nm_device_release_one_slave (self=self@entry=0x5555559d2a40, slave=0x5555559c6be0, configure=configure@entry=1, reason=reason@entry=NM_DEVICE_STATE_REASON_CONNECTION_REMOVED)
at devices/nm-device.c:1049
#23 0x00005555555b7f0e in nm_device_master_release_slaves (self=self@entry=0x5555559d2a40) at devices/nm-device.c:1781
#24 0x00005555555b9592 in nm_device_cleanup (self=0x5555559d2a40, reason=<optimized out>, deconfigure=1) at devices/nm-device.c:7752
#25 0x00005555555ba161 in _set_state_full (self=self@entry=0x5555559d2a40, state=state@entry=NM_DEVICE_STATE_DISCONNECTED, reason=reason@entry=NM_DEVICE_STATE_REASON_CONNECTION_REMOVED, quitting=quitting@entry=0) at devices/nm-device.c:8128
#26 0x00005555555bb297 in nm_device_state_changed (self=self@entry=0x5555559d2a40, state=state@entry=NM_DEVICE_STATE_DISCONNECTED, reason=reason@entry=NM_DEVICE_STATE_REASON_CONNECTION_REMOVED)
at devices/nm-device.c:8319
#27 0x00005555555bd9a5 in queued_set_state (user_data=<optimized out>) at devices/nm-device.c:8343
#28 0x00007ffff4a4c79a in g_main_context_dispatch () at /lib64/libglib-2.0.so.0
#29 0x00007ffff4a4cae8 in g_main_context_iterate.isra.24 () at /lib64/libglib-2.0.so.0
#30 0x00007ffff4a4cdba in g_main_loop_run () at /lib64/libglib-2.0.so.0
#31 0x000055555559556f in main (argc=1, argv=0x7fffffffdb88) at main.c:518
Change nm_platform_link_get() to return the cached NMPlatformLink
instance. Now what all our implementations (fake and linux) have such a
cache internal object, let's just expose it directly.
Note that the lifetime of the exposed link object is possibly quite
short. A caller must copy the returned value if he intends to preserve
it for later.
Also add nm_platform_link_get_by_ifname() and modify nm_platform_link_get_by_address()
to return the instance.
Certain functions, such as nm_platform_link_get_name(),
nm_platform_link_get_ifindex(), etc. are solely implemented based
on looking at the returned NMPlatformLink object. No longer implement
them as virtual functions but instead implement them in the base class
(nm-platform.c).
This removes code and eliminates the redundancy of the exposed
NMPlatformLink instance and the nm_platform_link_get_*() accessors.
Thereby also fix a bug in NMFakePlatform that tracked the link address
in a separate "address" field, instead of using "link.addr". That was
a case where the redundancy actually led to a bug in fake platform.
Also remove some stub implementations in NMFakePlatform that just
bail out. Instead allow for a missing virtual functions and perform
the "default" action in the accessor.
An example for that is nm_platform_link_get_permanent_address().
nm_platform_query_devices() would raise an 'added' signal
for all its links. That is bad style because it could
confuse other listeners for platform signals which don't
expect such artificial change signals.
The public API of NMPlatform already gives NMManager the ability
to 'pull' all the links and iterate them itself.
Before, nm_platform_query_devices() would also initialize udev
devices, so there was a more compelling reason for this function.
Instead of hacky stuff in the Manager, let plugins themselves indicate
which links should be ignored (because they are really child links that
are controlled by a different device that the plugin handles).
Instead of having a bunch of logic in the Manager for determining the
VLAN and Infiniband virtual interface names, move the type-specific
logic into the plugins themselves.
Instead of looping over all plugins and asking each plugin whether it
can handle a link or a connection, have them advertise the link and
connection types they support, and use that when creating new devices.
For existing devices, depending on the order that netlink sends interfaces to
us, the parent may be found after the VLAN interface and not be available when
the VLAN interface is constructed. Instead of failing construction, when a
NMDeviceVlan has no parent keep it unavailable for activation. Then have
the Manager notify existing devices when a new device is found, and let
NMDeviceVlan find the parent later and become available via that mechanism.
This doesn't apply to VLANs created by NM itself, because the kernel requires
a parent ifindex when creating a VLAN device. Thus this fix only applies to
VLANs created outside NetworkManager, or existing when NM starts up.
link_extract_type() would return the NMLinkType and a
@type_name string. If the type was unknown, this string
was rtnl_link_get_type() (IFLA_INFO_KIND).
Split up this behavior and treat those values independently.
link_extract_type() now only detects the NMLinkType. Most users
don't care about unknown types and can just use nm_link_type_to_string()
to get a string represenation.
Only nm_platform_link_get_type_name() (and NMDeviceGeneric:type_description)
cared about a more descriptive type. For that, modify link_get_type_name()
to return nm_link_type_to_string() if NMLinkType could be detected.
As fallback, return rtnl_link_get_type().
Also, rename the field NMPlatformLink:link_type to "kind". For now this
field is mostly unused. It will be used later when refactoring platform
caching.
Move the cleanup of the generated assumed connection to active connection
dispose. If the connection vanishes earlier (explicit deletion from client),
tear down the reference so that we don't try to remove it redundantly.
NetworkManager[9221]: <info> (eth2): device state change: deactivating -> disconnected (reason 'connection-removed') [110 30 38]
NetworkManager[9221]: <info> (eth2): deactivating device (reason 'connection-removed') [38]
(NetworkManager:9221): GLib-GObject-WARNING **: g_object_weak_unref: couldn't find weak ref 0x496610(0x7c2ba0)
Program received signal SIGTRAP, Trace/breakpoint trap.
g_logv (log_domain=0x7ffff4d4f1a4 "GLib-GObject", log_level=G_LOG_LEVEL_WARNING, format=<optimized out>, args=args@entry=0x7fffffffd860) at gmessages.c:1046
1046 g_private_set (&g_log_depth, GUINT_TO_POINTER (depth));
(gdb) bt
#0 0x00007ffff4a2cc60 in g_logv (log_domain=0x7ffff4d4f1a4 "GLib-GObject", log_level=G_LOG_LEVEL_WARNING, format=<optimized out>, args=args@entry=0x7fffffffd860) at gmessages.c:1046
#1 0x00007ffff4a2ce9f in g_log (log_domain=<optimized out>, log_level=<optimized out>, format=<optimized out>) at gmessages.c:1079
#2 0x000000000049780b in nm_dbus_manager_unregister_object (self=0x7c2ba0 [NMDBusManager], object=0x80f3e0) at nm-dbus-manager.c:921
#3 0x000000000047cc83 in nm_settings_connection_signal_remove (self=self@entry=0x80f3e0 [NMIfcfgConnection]) at settings/nm-settings-connection.c:1752
#4 0x000000000047cd22 in do_delete (connection=0x80f3e0 [NMIfcfgConnection], callback=0x479d60 <ignore_cb>, user_data=0x0) at settings/nm-settings-connection.c:687
#5 0x00000000004b1eb6 in active_connection_remove (self=self@entry=0x8701c0 [NMManager], active=active@entry=0x8b02f0) at nm-manager.c:292
#6 0x00000000004b2174 in _active_connection_cleanup (user_data=<optimized out>) at nm-manager.c:316
#7 0x00007ffff4a25aeb in g_main_context_dispatch (context=0x7be3a0) at gmain.c:3111
#8 0x00007ffff4a25aeb in g_main_context_dispatch (context=context@entry=0x7be3a0) at gmain.c:3710
#9 0x00007ffff4a25e88 in g_main_context_iterate (context=0x7be3a0, block=block@entry=1, dispatch=dispatch@entry=1, self=<optimized out>) at gmain.c:3781
#10 0x00007ffff4a261b2 in g_main_loop_run (loop=0x7be460) at gmain.c:3975
#11 0x0000000000432f55 in main (argc=1, argv=0x7fffffffded8) at main.c:460
(gdb)
https://bugzilla.gnome.org/show_bug.cgi?id=744812
Most nm_platform_*() functions operate on the platform
singleton nm_platform_get(). That made sense because the
NMPlatform instance was mainly to hook fake platform for
testing.
While the implicit argument saved some typing, I think explicit is
better. Especially, because NMPlatform could become a more usable
object then just a hook for testing.
With this change, NMPlatform instances can be used individually, not
only as a singleton instance.
Before this change, the constructor of NMLinuxPlatform could not
call any nm_platform_*() functions because the singleton was not
yet initialized. We could only instantiate an incomplete instance,
register it via nm_platform_setup(), and then complete initialization
via singleton->setup().
With this change, we can create and fully initialize NMPlatform instances
before/without setting them up them as singleton.
Also, currently there is no clear distinction between functions
that operate on the NMPlatform instance, and functions that can
be used stand-alone (e.g. nm_platform_ip4_address_to_string()).
The latter can not be mocked for testing. With this change, the
distinction becomes obvious. That is also useful because it becomes
clearer which functions make use of the platform cache and which not.
Inside nm-linux-platform.c, continue the pattern that the
self instance is named @platform. That makes sense because
its type is NMPlatform, and not NMLinuxPlatform what we
would expect from a paramter named @self.
This is a major diff that causes some pain when rebasing. Try
to rebase to the parent commit of this commit as a first step.
Then rebase on top of this commit using merge-strategy "ours".
Even Fedora is no longer shipping the WiMAX SDK, so it's likely we'll
eventually accidentally break some of the code in src/devices/wimax/
(if we haven't already). Discussion on the list showed a consensus for
dropping support for WiMAX.
So, remove the SDK checks from configure.ac, remove the WiMAX device
plugin and associated manager support, and deprecate all the APIs.
For compatibility reasons, it is still possible to create and save
WiMAX connections, to toggle the software WiMAX rfkill state, and to
change the "WIMAX" log level, although none of these have any effect,
since no NMDeviceWimax will ever be created.
nmcli was only compiling in support for most WiMAX operations when NM
as a whole was built with WiMAX support, so that code has been removed
now as well. (It is still possible to use nmcli to create and edit
WiMAX connections, but those connections will never be activatable.)
The connection now might be being activated on another device. Defer the
removal until we're sure the activation request will proceed and only add the
active connection afterwards.
https://bugzilla.gnome.org/show_bug.cgi?id=730492
If a connection is already active let's keep it on the same device. This makes
it possible to reactivate a connection without client knowing which device is
it active on.
https://bugzilla.gnome.org/show_bug.cgi?id=730492
Some out of tree drivers add Ethernet devices that are supposed to be managed
by other their tooling, e.g. VirtualBox or VMWare.
Rather than hardcoding their drivers (at least VirtualBox doesn't even set a
"driver" property in sysfs) or hardcoding a logic that identifies such devices
let's just add a possibility to blacklist them in udev. This makes it possible
for whoever who ships such a driver to ship rules that prevent NetworkManager
from managing the device itself.
Furthermore it makes it possible for the user with special needs leverage the
flexibility of udev rules to override the defaults. In the end the user can
decide to let NetworkManager manage default-unmanaged interfaces such as VEth
or turn on default-unmanaged for devices on a particular bus.
An udev rule for VirtualBox would look like this:
SUBSYSTEM=="net", ENV{INTERFACE}=="vboxnet[0-9]*", ENV{NM_UNMANAGED}="1"
It was confusing to understand the difference between calling nm_device_connection_is_available()
and check_connection_available(), they behaved similar, but not really
the same. Especially nm_device_connection_is_available() would look
first into @available_connetions, and might call check_connection_available()
itself. Whereas @available_connetions was also populated by testing
check_connection_available(). This interrelation makes it hard to
understand when nm_device_connection_is_available() returned true.
Rename nm_device_connection_is_available() to nm_device_check_connection_available()
and remove all direct calls of check_connection_available() in favor of
the wrapper nm_device_check_connection_available().
Now we only call nm_device_check_connection_available() with different
parameters (@flags and @specific_object). We also have the additional
guarantee that specifying more @flags will widen the result and making
a connection "more" available, while specifying a @specific_object will
restrict it.
This also changes behavior in several cases. For example before
nm_device_connection_is_available() for user-requests would always
declare matching connections available on Wi-Fi devices (only)
regardless of the device state. Now the device state gets consistently
considered.
For default-unmanaged devices it also changes behavior in complicated
ways, because before we would put connections into @available_connetions
for every device-state, but nm_device_connection_is_available() had a
special over-ride only for unmanaged-state.
This also fixes a bug, that user can activate an unavailable Wi-Fi
device:
nmcli radio wifi off
nmcli connection up wlan0
==12663== 45 bytes in 1 blocks are definitely lost in loss record 2,464 of 4,708
==12663== at 0x4C29BCF: malloc (in /usr/lib64/valgrind/vgpreload_memcheck-amd64-linux.so)
==12663== by 0x7F4A6F5: g_malloc (gmem.c:97)
==12663== by 0x7F6301E: g_strdup (gstrfuncs.c:356)
==12663== by 0x4B8AE5: nm_manager_new (nm-manager.c:4793)
==12663== by 0x432F3D: main (main.c:413)
