IP addresses, routes, TC and QDiscs are all tied to a certain interface.
So when NetworkManager manages an interface, it can be confident that
all related entires should be managed, deleted and modified by NetworkManager.
Routing policy rules are global. For that we have NMPRulesManager which
keeps track of whether NetworkManager owns a rule. This allows multiple
connection profiles to specify the same rule, and NMPRulesManager can
consolidate this information to know whether to add or remove the rule.
NMPRulesManager would also support to explicitly block a rule by
tracking it with negative priority. However that is still unused at
the moment. All that devices do is to add rules (track with positive
priority) and remove them (untrack) once the profile gets deactivated.
As rules are not exclusively owned by NetworkManager, NetworkManager
tries not to interfere with rules that it knows nothing about. That
means in particular, when NetworkManager starts it will "weakly track"
all rules that are present. "weakly track" is mostly interesting for two
cases:
- when NMPRulesManager had the same rule explicitly tracked (added) by a
device, then deactivating the device will leave the rule in place.
- when NMPRulesManager had the same rule explicitly blocked (tracked
with negative priority), then it would restore the rule when that
block gets removed (as said, currently nobody actually does this).
Note that when restarting NetworkManager, then the device may stay and
the rules kept. However after restart, NetworkManager no longer knows
that it previously added this route, so it would weakly track it and
never remove them again.
That is a problem. Avoid that, by whenever explicitly tracking a rule we
also make sure to no longer weakly track it. Most likely this rule was
indeed previously managed by NetworkManager. If this was really a rule
added by externally, then the user really should choose distinct
rule priorities to avoid such conflicts altogether.
"shared/nm-utils" contains general purpose utility functions that only
depend on glib (and extend glib with some helper functions).
We will also add code that does not use glib, hence it would be good
if the part of "shared/nm-utils" that does not depend on glib, could be
used by these future projects.
Also, we use the term "utils" everywhere. While that covers the purpose
and content well, having everything called "nm-something-utils" is not
great. Instead, call this "nm-std-aux", inspired by "c-util/c-stdaux".
(cherry picked from commit b434b9ec07)
Policy routing rules are global, and unlike routes not tied to an interface by ifindex.
That means, while we take full control over all routes of an interface during a sync,
we need to consider that multiple parties can contribute to the global set of rules.
That might be muliple connection profiles providing the same rule, or rules that are added
externally by the user. NMPRulesManager mediates for that.
This is done by NMPRulesManager "tracking" rules.
Rules that are not tracked by NMPRulesManager are completely ignored (and
considered externally added).
When tracking a rule, the caller provides a track-priority. If multiple
parties track a rule, then the highest (absolute value of the) priority
wins.
If the highest track-priority is positive, NMPRulesManager will add the rule if
it's not present.
When the highest track-priority is negative, then NMPRulesManager will remove the
rule if it's present (enforce its absence).
The complicated part is, when a rule that was previously tracked becomes no
longer tracked. In that case, we need to restore the previous state.
If NetworkManager added the rule earlier, then untracking the rule
NMPRulesManager will remove the rule again (restore its previous absent
state).
By default, if NetworkManager had a negative tracking-priority and removed the
rule earlier (enforced it to be absent), then when the rule becomes no
longer tracked, NetworkManager will not restore the rule.
Consider: the user adds a rule externally, and then activates a profile that
enforces the absence of the rule (causing NetworkManager to remove it).
When deactivating the profile, by default NetworkManager will not
restore such a rule! It's unclear whether that is a good idea, but it's
also unclear why the rule is there and whether NetworkManager should
really restore it.
Add weakly tracked rules to account for that. A tracking-priority of
zero indicates such weakly tracked rules. The only difference between an untracked
rule and a weakly tracked rule is, that when NetworkManager earlier removed the
rule (due to a negative tracking-priority), it *will* restore weakly
tracked rules when the rules becomes no longer (negatively) tracked.
And it attmpts to do that only once.
Likewise, if the rule is weakly tracked and already exists when
NMPRulesManager starts posively tracking the rule, then it would not
remove again, when no longer positively tracking it.
- fix the argument type to be "gint32" and not "int".
- assert in nmp_rules_manager_track_default() for the input
arguments.
- use boolean bitfield in private data.
The name "priority" is overused. Also rules have a "priority", but that'
something else.
Rename the priority of how rules are tracked by NMPRuleManager to
"track_priority".
All that setting track-default does, is calling nmp_rules_manager_track_default()
when the rules are first accessed.
That is not right API. Since nmp_rules_manager_track_default() is already public
API (good), every caller that wishes this behavior should track these routes explicitly.
Routing rules are unlike addresses or routes not tied to an interface.
NetworkManager thinks in terms of connection profiles. That works well
for addresses and routes, as one profile configures addresses and routes
for one device. For example, when activating a profile on a device, the
configuration does not interfere with the addresses/routes of other
devices. That is not the case for routing rules, which are global, netns-wide
entities.
When one connection profile specifies rules, then this per-device configuration
must be merged with the global configuration. And when a device disconnects later,
the rules must be removed.
Add a new NMPRulesManager API to track/untrack routing rules. Devices can
register/add there the routing rules they require. And the sync method will
apply the configuration. This is be implemented on top of NMPlatform's
caching API.
