The table number is chosen as 30400 + iface_idx. That is, the range is
limited and we shouldn't handle more than 100 devices. Add a check for
that and error out.
(cherry picked from commit b68d694b78)
The routes/rules that are configured are independent of the
order in which we process the devices. That is, because they
use the "iface_idx" for cases where there is ambiguity.
Still, it feels nicer to always process them in a defined order.
(cherry picked from commit a95ea0eb29)
Sorted by iface_idx. The iface_idx is probably something useful and
stable, provided by the provider. E.g. it's the order in which
interfaces are exposed on the meta data.
(cherry picked from commit 1c5cb9d3c2)
get-config() gives a NMCSProviderGetConfigResult structure, and the
main part of data is the GHashTable of MAC addresses and
NMCSProviderGetConfigIfaceData instances.
Let NMCSProviderGetConfigIfaceData also have a reference to the MAC
address. This way, I'll be able to create a (sorted) list of interface
datas, that also contain the MAC address.
(cherry picked from commit ec56fe60fb)
nm-cloud-setup automatically configures the network. That may conflict
with what the user wants. In case the user configures some specific
setup, they are encouraged to disable nm-cloud-setup (and its
automatism).
Still, what we do by default matters, and should play as well with
user's expectations. Configuring policy routing and a higher priority
table (30400+) that hijacks the traffic can cause problems.
If the system only has one IPv4 address and one interface, then there
is no point in configuring policy routing at all. Detect that, and skip
the change in that case.
Note that of course we need to handle the case where previously multiple
IP addresses were configured and an update gives only one address. In
that case we need to clear the previously configured rules/routes. The
patch achieves this.
(cherry picked from commit 5f047968d7)
Now that we return a struct from get_config(), we can have system-wide
properties returned.
Let it count and cache the number of valid iface_datas.
Currently that is not yet used, but it will be.
(cherry picked from commit a3cd66d3fa)
Returning a struct seems easier to understand, because then the result
is typed.
Also, we might return additional results, which are system wide and not
per-interface.
(cherry picked from commit 323e182768)
We require these, otherwise we can get a linker error about
_nm_utils_monotonic_timestamp_initialized symbol being undefined.
(cherry picked from commit 09fb7877a9)
nm-cloud-setup automatically detects routes, addresses and rules and configures them
on the device using the emphermal Reapply() API. That is, it does not modify the
existing profile (on disk), but changes the runtime configuration only.
As such, it used to wipe otherwise statically configured IP addresses, routes and
rules. That seems unnecessary. Let's keep the configuration from the (persistent)
configuration.
There is of course the problem that nm-cloud-setup doesn't really
understand the existing IP configuration, and it can only hope that
it can be meaningfully combined with what nm-cloud-setup wants to
configure. This should cover most simple cases, for more complex setups,
the user probably should disable nm-cloud-setup and configure the
network explicitly to their liking.
https://bugzilla.redhat.com/show_bug.cgi?id=1971527https://gitlab.freedesktop.org/NetworkManager/NetworkManager/-/merge_requests/893
(cherry picked from commit 4201ee5119)
The code never set "iface_get_config->cidr_addr", despite
setting "cidr_prefix" and "has_cidr". As a result, cloud-setup
would think that the subnet is "0.0.0.0/$PLEN", and calculate
the gateway as "0.0.0.1".
As a result it would add a default route to table 30400 via 0.0.0.1,
which is obviously wrong.
How to detect the right gateway? Let's try obtain the subnet also via
the meta data. That seems mostly correct, except that we only access
subnet at index 0. What if there are multiple ones? I don't know.
https://bugzilla.redhat.com/show_bug.cgi?id=1912236
