By default, all lines are now marked as dirty. Whenever we modify/set
a line, it becomes non-dirty. That will be used later to prune lines
that are dirty, that is, not yet visited.
- systemd-networkd and initscripts both support it.
- it seems suggested to configure routes with scope "link" on AWS.
- the scope is only supported for IPv4 routes. Kernel ignores the
attribute for IPv6 routes.
- we don't support the aliases like "link" or "global". Instead
only the numeric value is supported. This is different from
systemd-networkd, which accepts names like "global" and "link",
but no numerical values. I think restricting ourself only to
the aliases unnecessarily limits what is possible on netlink.
The alternative would be to allow aliases and numbers both,
but that causes multiple ways to define something and has
thus downsides. So, only numeric values.
- when setting rtm_scope to RT_SCOPE_NOWHERE (0, the default), kernel
will coerce that to RT_SCOPE_LINK. This ambiguity of nowhere vs. link
is a problem, but we don't do anything about it.
- The other problem is, that when deleting a route with scope RT_SCOPE_NOWHERE,
this acts as a wild care and removes the first route that matches (given the
other route attributes). That means, NetworkManager has no meaningful
way to delete a route with scope zero, there is always the danger that
we might delete the wrong route. But this is nothing new to this
patch. The problem existed already previously, except that
NetworkManager could only add routes with scope nowhere (i.e. link).
There is an "info" part and a part with the data that we parsed.
Don't track the static and mutable data in the same variable.
Also, this allows to mark the static part as "const static".
In the past, kernel (and NetworkManager) did not support the onlink
flags for IPv6 routes. That is no longer the case.
Fixes: f5e8bbc8e0 ('libnm,core: enable "onlink" flags also for IPv6 routes')
svUnsetValue (ifcfg, KEY);
if (condition)
svSetValue* (ifcfg, KEY, ...);
is not good. It requires first clearing the value, before setting
it again.
Various cleanup to fix such uses.
Refactor reading the phase2 authentication method for 802.1X.
Previously the reader only considered the first item of the
space-separated list; but since the 802.1x setting can hold distinct
phase2-auth and phase2-autheap properties - both mapped to the same
ifcfg-rh variable - we should parse the whole list. We only emit a
warning when multiple methods of the same type are found to avoid
breaking existing manually written ifcfg files.
Moreover, the reader implemented different checks for each of the
outer tunneled methods (PEAP, TTLS and FAST); drop those checks and
accept whatever the 802.1X setting also consider as valid. Note that
some combinations that are in principle valid, like PEAP + EAP-MD5,
were dropped before.
An extra variable is used for sources of
`libnm-settings-plugin-ifupdown` module. However, it only contains
one source file and using it directly avoiding the creation of the
extra variable doesn't hurt readibility.
The `ifcfg-rh` meson build file installs a new post install script
to create the `network-config` directory.
This has been moved to the main post install file so it's easier to
find because all post install steps are together and it avoids and
extra post install script execution.
The file has been fixed to be consistent with the rest of the files.
The data files to be installed have been grouped together. The
sourc files has been listed vertically and the link target in
`nm-settings-plugin-ifcfg-rh` does not use an array anymore.
The targets that involve the use of the `NetworkManager` library,
built in the `src` build file have been improved by applying a set
of changes:
- Indentation has been fixed.
- Set of objects used in targets have been grouped together.
- Aritificial dependencies used to group dependencies and custom
compiler flags have been removed and their use replaced with
proper dependencies and compiler flags to avoid any confussion.
The `libnm-core` build file has been improved by applying a set of
changes:
- Indentation has been fixed to be consistent.
- Library variable names have been changed to `lib{name}` pattern
following their filename pattern.
- `shared` prefix has been removed from all variables using it.
- Dependencies have been reviewed to store the necessary data.
- The use of the libraries and dependencies created in this file
has been reviewed through the entire source code. This has
required the addition or the removal of different libraries and
dependencies in different targets.
- Some files used directly with the `files` function have been moved
to their nearest path build file because meson stores their full
path seamessly and they can be used anywhere later.
The `nm-default.h` header is used widely in the code by many
targets. This header includes different headers and needs different
libraries depending the compilation flags.
A new set of `*nm_default_dep` dependencies have been created to
ease the inclusion of different directorires and libraries.
This allows cleaner build files and avoiding linking unnecessary
libraries so this has been applied allowing the removal of some
dependencies involving the linking of unnecessary libraries.
First of all, keyfile writer (and reader) are supposed to be able to store
every profile to disk and re-read a valid profile back. Note that the profile
might be modified in the process, for example, blob certificates are written
to a file. So, the result might no be exactly the same, but it must still be
valid (and should only diverge in expected ways from the original, like mangled
certificates).
Previously, we would re-read the profile after writing to disk. If that failed,
we would only fail an assertion but otherwise proceeed. It is a bug
after all. However, it's bad to check only after writing to file,
because it results in a unreadable profile on disk, and in the first
moment it appears that noting went wrong. Instead, we should fail early.
Note that nms_keyfile_reader_from_keyfile() must entirely operate on the in-memory
representation of the keyfile. It must not actually access any files on disk. Hence,
moving this check before writing the profile must work. Otherwise, that would be
a separate bug. Actually, keyfile reader and writer violate this. I
added FIXME comments for that. But it doesn't interfere with this
patch.
NM didn't support wpa-none for years because kernel drivers used to be
broken. Note that it wasn't even possible to *add* a connection with
wpa-none because it was rejected in nm_settings_add_connection_dbus().
Given that wpa-none is also deprecated in wpa_supplicant and is
considered insecure, drop altogether any reference to it.
This file causes a crash [1], add it to the tests.
Note that the test only check parsing the file and the
crash happens in the "upper" layers. So, it's not really
a test for the crash. But at least have such a file in
our repository.
[1] https://gitlab.freedesktop.org/NetworkManager/NetworkManager/issues/235
Up until now, a default-route (with prefix length zero) could not
be configured directly. The user could only set ipv4.gateway,
ipv4.never-default, ipv4.route-metric and ipv4.route-table to influence
the setting of the default-route (respectively for IPv6).
That is a problematic limitation. For one, whether a route has prefix
length zero or non-zero does not make a fundamental difference. Also,
it makes it impossible to configure all the routing attributes that one can
configure otherwise for static routes. For example, the default-route could
not be configured as "onlink", could not have a special MTU, nor could it be
placed in a dedicated routing table.
Fix that by lifting the restriction. Note that "ipv4.never-default" does
not apply to /0 manual routes. Likewise, the previous manners of
configuring default-routes ("ipv4.gateway") don't conflict with manual
default-routes.
Server-side this all the pieces are already in place to accept a default-route
as static routes. This was done by earlier commits like 5c299454b4
('core: rework tracking of gateway/default-route in ip-config').
A long time ago, NMIPRoute would assert that the prefix length is
positive. That was relaxed by commit a2e93f2de4 ('libnm: allow zero
prefix length for NMIPRoute'), already before 1.0.0. Using libnm from
before 1.0.0 would result in assertion failures.
Note that the default-route-metric-penalty based on connectivity
checking applies to all /0 routes, even these static routes. Be they
added due to DHCP, "ipv4.gateway", "ipv4.routes" or "wireguard.peer-routes".
I wonder whether doing that unconditionally is desirable, and maybe
there should be a way to opt-out/opt-in for the entire profile or even
per-routes.
https://bugzilla.redhat.com/show_bug.cgi?id=1714438
I encountered a failure in the log
<trace> [1564647990.7822] keyfile: commit: deleting nmmeta file "/etc/NetworkManager/system-connections/35370b0b-e53b-42ea-9fe3-f1b1d552343b.nmmeta" failed
<trace> [1564647990.7822] keyfile: commit: deleting nmmeta file "/etc/NetworkManager/system-connections/35370b0b-e53b-42ea-9fe3-f1b1d552343b.nmmeta" simulated
I think that was due to SELinux (rh #1738010).
Let nms_keyfile_nmmeta_write() return an errno code so we can log
more information about the failure.
... and nm_utils_fd_get_contents() and nm_utils_file_set_contents().
Don't mix negative errno return value with a GError output. Instead,
return a boolean result indicating success or failure.
Also, optionally
- output GError
- set out_errsv to the positive errno (or 0 on success)
Obviously, the return value and the output arguments (contents, length,
out_errsv, error) must all agree in their success/failure result.
That means, you may check any of the return value, out_errsv, error, and
contents to reliably detect failure or success.
Also note that out_errsv gives the positive(!) errno. But you probably
shouldn't care about the distinction and use nm_errno_native() either
way to normalize the value.
nm_utils_file_set_contents() is a re-implementation of g_file_set_contents(),
as such it returned merely a boolean success value.
It's sometimes interesting to get the native error code. Let the function
deviate from glib's original g_file_set_contents() and return the error code
(as negative value) instead.
This requires all callers to change. Also, it's potentially a dangerous
change, as this is easy to miss.
Note that nm_utils_file_get_contents() also returns an errno, and
already deviates from g_file_get_contents() in the same way. This patch
resolves at least the inconsistency with nm_utils_file_get_contents().
This triggers a coverity warning because we above already
check that not all relevant keys are NULL together.
Work around warning by modifying the code.
(cherry picked from commit 210d7eb528)
Note that we now support keyfiles from read-only storage in /usr/lib.
Note also that we do support modifying and deleting these profiles.
That works by placing a shadowing profile to /etc or /run.
Surely this is questionable. It means that once the user uses D-Bus
to modify/delete a profile in /usr/lib, that profile becomes forever
shadowed by a different file, and there is no D-Bus API to return
to the original file. The user would have to drop the shadowing storages
from the file system. That is a problem.
But on the other hand, disallowing changes to such read-only profiles
is not very useful either. If you no longer can use D-Bus to modify such
profiles, what's the value here? How are applications supposed to handle
such profiles if there is no D-Bus API to do something sensible to them?
So, whatever problems read-only profiles and this shadowing causes, I don't
think that the solution is to entirely disallow changes via D-Bus.
At that point, we can just as well allow changes to profiles from
ifupdown. Note that you still cannot modify the profile directly (as the
ifupdown plugin does not support that). But you can delete the profile
(either temporarily via a tombstone in /run or permanently via a
tombstone in /etc). You also can make the profile in-memory, and take
it from there. Note that if you try to later store the in-memory profile
to disk again, then it depends on the order of settings plugins whether
that succeeds. If you have "plugins=keyfile,ifupdown", then the profile
will be stored as keyfile to /etc. If you have "plugins=ifupdown,keyfile",
then the modification will only be done in /run and the "to-disk" command
silently ignored (there really is no better solution).
Before, the .nmmeta file could only contain one piece of information:
the loaded-path. This was persisted to disk by writing a "$UUID.nmmeta"
symlink that links to the loaded-path. Also, in practice this is used
for tombstones, so the only valid loaded-path is "/dev/null" (all other
paths are ignored).
Extend the .nmmeta file format to also be able to store additional data: the
shadowed-storage path. We will need that later but the idea is that if
we have a tombstone on disk, then this tombstone might explicitly shadow
another file. The use is when re-adding a profile with the same UUID, then
the existing storage is used (instead of creating a new file). This will
be necessary with Update2(NM_SETTINGS_UPDATE2_FLAG_IN_MEMORY_DETACHED)
flag. This flag first allows to clone a profile from persistent storage
to a profile in /run. Later, when this profile gets deleted, the
original profile will be left on disk. If the same profile then gets
re-created with AddConnection(), then the original filename must be
taken over again. This is to avoid duplication of profiles on disk.
Note that this piece of information is relevent per-UUID, and as such
it's correct to store it in the .nmmeta file. That is related to the
"shadowed-storage" information that we store in the [.nmmeta] section
of keyfiles.
When we make runtime only changes, we may leave the profile in persistent
storage and store a overlay profile in /run. However, in various cases we need
to remember the original path.
Add code to store and retrieve that path from the keyfile.
Note that this data is written inside the keyfile in /run. That is because
this piece of information really depends on that particular keyfile, and not
on the profile/UUID. That is why we write it to the [.nmmeta] section of the
keyfile and not to the .nmmeta file (which is per-UUID).
This patch only adds the backend to write and load the setting from
disk. It's not yet used.
Currently, meta-data has a very narrow use: as tombstones.
Later, we will need to store additional per UUID meta-data. For example,
when a profile becomes unsaved, we may need to remember the original
filename.
Refactor the code for that. This is for the most part just renaming
and slightly different handling of the fields.
With plain "interface-name:$IFNAME" globbing is enabled. So this behaves
wrong if there are special characters like '*' or '?'.
Also, it behaves wrong if the first character of the interface name happens
to be '='.
Make an explicit match.
