Currently, NMDevice does ACD. It intercepts certain NMIP4Config
instances, and tries to perform ACD on the addresses. I think this
functionality should be handled by NML3Cfg instead.
For one, NML3Cfg sees all configurations, and can perform ACD for all
(relevant) addresses. Also, it moves logic away from NMDevice and makes
the functionality available without an NMDevice. As such, it also will
allow that independent "controllers" contribute NML3ConfigData instances
and ACD will performed for all of them (as requested).
This will be our implementation for IPv4 ACD (https://tools.ietf.org/html/rfc5227)
based on nettools' n-acd library.
The code is not actually tested yes, because NMDevice did not yet switch
over to use NML3Cfg. Once that happens, surely issues with this patch
will be found that will need fixing.
nmcli is build with libtool, so "clients/cli/nmcli" is really a shell script
that invokes the real nmcli (at "clients/cli/.libs/nmcli").
When building with LTO for some reasons "clients/cli/nmcli" still
does some build steps during the first invocation.
That means, if we run `make check-local-clients-tests-test-client` it
would first do the final build step. This takes a while, and the test
times out (worse, we do that build step many times in parallel).
Avoid that by invoking "clients/cli/nmcli" first.
We use a linker version script "NetworkManager.ver", to hide
symbols from NetworkManager that are not used. That is important
due to our habit of using internal helper libraries that we link
statically everywhere, without handpicking the symbols we actually
need. We want the tooling to get rid of unnecessary symbols.
However, NetworkManager loads shared libraries for settings and device
plugins. These libraries require symbols from the NetworkManager binary,
but which one depends on build options. Hence, we also generate
"NetworkManager.ver" by the "tools/create-exports-NetworkManager.sh"
script.
For that the script uses "nm" to find symbols that are undefined in the
plugin libraries but defined in NetworkManager. With autotools the
script looked at "./src/.libs/libNetworkManager.a" to find the present
symbols. Note that for meson that already didn't work, and we build
instead an intermediate NetworkManager binary first (with all symbols
exposed). With LTO, "nm" doesn't find all symbols in
"./src/.libs/libNetworkManager.a", and consequently they are not
exported and dropped/hidden.
This also causes unit tests to fail with LTO, because our test script
"tools/check-exports.sh" catches such bugs.
Fix that by also with autotools generate a complete "NetworkManager-all-sym"
binary that is used to generate "NetworkManager.ver", before rebuilding
"NetworkManager" again.
NMIP[46]Config will become much simpler than it is today.
It's sole responsibility will be to expose current settings
on D-Bus, in it's function as a NMDBusObject subtype.
However, it still make sense to let them share a common base class.
Add it.
Currently NMIP4Config and NMIP6Config both track the data to be
configured, they expose properties on D-Bus, and they have logic for
capturing and applying settings to platform.
We will split that.
- NMIP4Config and NMIP6Config will expose data on D-Bus.
- NML3Cfg will have the logic for handling IP configuration.
- NML3ConfigData will track data to be configured.
NML3ConfigData mirrors NMIP4Config/NMIP6Config in many aspects. For now,
this duplicates a lot of code. More will be done later. Eventually,
NMIP4Config/NMIP6Config will drop the duplicated functionality.
Our "nm-json-aux.h" redefines various things from <jansson.h> header.
Add a unit test that checks that what we redefine exactly matches what
libjansson would provide, so that they are compatible.
They serve a similar purpose.
Previously, nm-json-aux.h contained the virtual function table for accessing
the dynamically loaded libjansson. But there is no reason why our own
helper functions from nm-json.h cannot be there too.
nm-json.[hc] uses libjansson, but only loads it at runtime with dlopen. There
is no more run compile time dependency. Move it to shared, so that it can be
(theoretically) used by other components.
Also, drop the conditional compilation. Granted, if you don't build with
libjansson enabled, then the JANSSON_SONAME define is unset and the code
will fail to load at runtime (which is fine). However, we can still build
against our JSON wrappers. The code savings of conditional build are minimal
so drop it.
This add a provider implementation for GCP that when detected fetches
the ip addresses of configured internal load balancers.
Once this information is fetched from the metadata server it instructs
NetworkManager to add local routes for each found forwarded-ip.
https://bugzilla.redhat.com/show_bug.cgi?id=1821787
If python black is install then it would check the
formating of all of the python files and test the for it.
Otherwise, it would just simply ignore the python black
if python black is not installed.
It would seem that the proper dependency is "man/.dirstamp". But that just
doesn't work. Use "man/common.ent" instead. If you figure out how to
convince autotools to make .dirstamp working, send a patch.
Especially for "nm-settings-docs-nmcli.xml", the first XML to merge is
"clients/cli/generate-docs-nm-settings-nmcli.xml". That file is
generated with the meta data from nmcli, and it contains all the
properties that are supported. Properties from other XML files,
that are passed as additional arguments should not be merged.
In most cases, there is no difference. It only matters for
"ipv6.dad-timeout" and "user.data". For example, "ipv6.dad-timeout"
is supported by GObject (part of "libnm/nm-settings-docs-gir.xml"),
but not by nmcli. Don't include it in the manual.
This also drops the now empty settings "dummy", "user", and "generic".
We have the correct meta-data of supported properties for nmcli. It is
in clients/common. Use that for generating the manual page instead of
the properties that are part of libnm (some properties may be in libnm
but not supported by nmcli, or some properties may not be GObject
properties, and not detected as by GObject introspection).
"nm-settings-docs-nmcli.xml" will be generated by a tool that depends on
"clients/common/". The file should thus not be in libnm directory, otherwise
there is a circular dependency.
Move the file to "man/" directory.
For consistency, also move "nm-settings-docs-dbus.xml". Note that we
cannot move "nm-settings-docs-gir.xml" to "man/", because that one is
needed for building clients.
Like the previous commit. Move code that depends on libnm out
of shared to avoid circular dependency.
Also add a readme file explaining the reason for existence of
the helper library.
Like the previous commit. Move code that depends on libnm-core out
of shared to avoid circular dependency.
Also add a readme file explaining the reason for existence of
the helper libraries nm-libnm-core-intern and nm-libnm-core-aux.
The "shared" directory is used by libnm-core, it should thus only depend on
code that is in the "shared" directory. Otherwise there is a circular
dependency, and meson's subdir() does not work nicely.
Also, libnm-core is really part of (and also an extension of) libnm-core,
so it belongs there.
I guess, the original idea was that this is also an extension for libnm,
so another project could take these utility functions (by copying them
into their source tree) and use them. That is still possible, it's
just that the sources are no longer under the shared directory.
Also add a readme to explain the non-obvious meaning of these files.
Originally, these files were part of libnm-core and linked together.
However, that is a licensing violation, because the code is GPL-2.0+
licensed, while libnm-core also gets linked with libnm (it must thus
be LGPL-2.1+). The original intent behind moving the code to "shared/"
was to avoid the licensing issue, but also to prepare when we would add
a separate, GPL licensed libnm-keyfile. However, currently we hope to
be able to relicense the code, so that it actually could be exposed as
part of libnm. This is work in progress at ([1]).
[1] https://gitlab.freedesktop.org/NetworkManager/NetworkManager/-/merge_requests/ ## 517
Anyway, the current directory layout is problematic. libnm-keyfile
depends on libnm-core, while libnm-core depends on code under shared.
That means, there is a circular dependency and meson's subdir() does
not work well.
Move the code.
A significant part of NetworkManager's API are the connection profiles, documented
in `man nm-settings*`. But there are different aspects about profiles, depending
on what you are interested. There is the D-Bus API, nmcli options, keyfile format,
and ifcfg-rh format. Additionally, there is also libnm API.
Add distinct manual pages for the four aspects. Currently the two new manual
pages "nm-settings-dbus" and "nm-settings-nmcli" are still identical to the
former "nm-settings.5" manual. In the future, they will diverge to
account for the differences.
There are the following aspects:
- "dbus"
- "keyfile"
- "ifcfg-rh"
- "nmcli"
For "libnm" we don't generate a separate "nm-settings-libnm" manual
page. That is instead documented via gtk-doc.
Currently the keyfile and ifcfg-rh manual pages only detail settings
which differ. But later I think also these manual pages should contain
all settings that apply.
"nm-settings-docs-dbus.xml" is "nm-settings-docs-gir.xml" merged with
"nm-property-infos-dbus.xml". The name should reflect that, also because
we will get more files with this naming scheme.
The name is bad. For one, we will have more files of the same format
("nm-settings-docs-nmcli.xml").
Also, "libnm/nm-settings-docs.xml" and "libnm/nm-property-docs.xml" had
basically the same file format. Their name should be similar.
Also the tool to generate the file should have a name that reminds to
the file that it creates.
The naming was inconsistent. Rename.
- all the property infos of this kind a now consistently called
"libnm/nm-property-infos-$TAG.xml".
- the script to generate files "libnm/nm-property-infos-$TAG.xml" is
now called "libnm/generate-docs-nm-property-infos.pl".
"man/nm-settings%.xml" really should depend on "common.ent".
The reason is that XSL files like "man/nm-settings.xsl" include
"common.ent".
The previous code already tried to express that, but for some
reasons this dependency was not honored. Fix that.
However, that uncovers another problem with gtk-doc.make. If we do
that without the workaround for "docs/api/Makefile.am", then
$ ./autogen.sh && make V=1 SHELL='sh -x' distcheck
breaks.
The reason is not clear to me. The new dependency leads to rebuild
"man/nm-settings-keyfile.xml". But that is worse, somehow the file
"$(top_srcdir)/man/nm-settings-keyfile.xml" ends up being read-only.
Afterwards, gtk-doc.make does
setup-build.stamp:
-$(GTK_DOC_V_SETUP)if test "$(abs_srcdir)" != "$(abs_builddir)" ;
then \
files=`echo $(SETUP_FILES) $(DOC_MODULE).types`; \
if test "x$$files" != "x" ; then \
for file in $$files ; do \
destdir=`dirname $(abs_builddir)/$$file`; \
test -d "$$destdir" || mkdir -p "$$destdir"; \
test -f $(abs_srcdir)/$$file && \
cp -pf $(abs_srcdir)/$$file $(abs_builddir)/$$file || true;
\
done; \
fi; \
fi
$(AM_V_at)touch setup-build.stamp
so that the files in build dir are also read-only. Then, make distcheck
goes ahead and builds the files once again, which fails.
You are welcome to understand why this workaround is necessary. Please
then create a better fix.
The script "libnm/generate-setting-docs.py" generates property info based
on GObject introspection data.
Optionally, when creating the manual for D-Bus documentation, it would accept
an argument "--override" to merge the generated information with the information
from an XML generated by "libnm/generate-plugin-docs.xml". Change this.
Instead, let "libnm/generate-setting-docs.py" just do one thing: generate
the XML based on GObject introspection data. Then, a second script
"libnm/generate-docs-nm-settings-docs-merge.py" can merge the XMLs.
Note that currently the manual for "nm-settings-keyfile" only contains
information about properties that are explicitly mentioned for keyfile.
It think that is not right. In NetworkManager there are multiple "aspects"
about connection profiles: D-Bus, libnm, nmcli, keyfile and ifcfg-rh.
When we generate a manual page for any of these aspects, we should always
detail all properties. At least for nmcli and D-Bus. That means, we will
do the merging multiple times. Hence, keep the steps for parsing GObject
introspection data and the merging separate.
Also, "generate-setting-docs.py" and "generate-plugin-docs.pl" should
generate the same XML scheme, so that merge doesn't need special hacks.
That is currently not the case, for example, the override XML contains a
"format" attribute, while the other one contains a "type". Merging these
is a special hack. This should be unified.
Install a NM-specific firewalld zone to be used for interfaces that
are used for connection sharing. The zone blocks all traffic to the
local machine except some protocols (DHCP, DNS and ICMP) and allows
all forwarded traffic.
- move the main func declarations to nmcli.h and give them a common
prefix "nmc_command_func_" prefix.
- remove some of the header files that are now empty. In fact, these
headers did not really declare some well separated module. While we
probably should structure the code in nmcli better with better layering,
it was not and still is not. Having these dummy headers don't mean that
the code is well structured and they serve little purpose.
- move the static NMCommand lists variables into the function scope
where they are used.
Our own implementation of a string buffer like GString.
Advantages (in decreasing relevance):
- Since we are in control, we can easily let it nm_explicit_bzero()
the memory. The regular GString API cannot be used in such a case.
While nm_explicit_bzero() may or may not be of questionable benefit,
the problem is that if the underlying API counteracts the aim of
clearing memory, it gets impossible. As API like NMStrBuf supports
it, clearing memory is a easy as enable the right flag.
This would for example be useful for example when we read passwords
from a file or file descriptor (e.g. try_spawn_vpn_auth_helper()).
- We have API like
nmp_object_to_string (const NMPObject *obj,
NMPObjectToStringMode to_string_mode,
char *buf,
gsize buf_size);
which accept a fixed size output buffer. This has the problem of
how choosing the right sized buffer. With NMStrBuf such API could
be instead
nmp_object_to_string (const NMPObject *obj,
NMPObjectToStringMode to_string_mode,
NMStrBuf *buf);
which can automatically grow (using heap allocation). It would be
easy to extend NMStrBuf to use a fixed buffer or limiting the
maximum string length. The point is, that the to-string API wouldn't
have to change. Depending on the NMStrBuf passed in, you can fill
an unbounded heap allocated string, a heap allocated string up to
a fixed length, or a static string of fixed length. NMStrBuf currently
only implements the unbounded heap allocate string case, but it would
be simple to extend.
Note that we already have API like nm_utils_strbuf_*() to fill a buffer
of fixed size. GString is not useable for that (efficiently), hence
this API exists. NMStrBuf could be easily extended to replace this API
without usability or performance penalty. So, while this adds one new
API, it could replace other APIs.
- GString always requires a heap allocation for the container. In by far
most of the cases where we use GString, we use it to simply construct
a string dynamically. There is zero use for this overhead. If one
really needs a heap allocated buffer, NMStrBuf can easily embedded
in a malloc'ed memory and boxed that way.
- GString API supports inserting and removing range. We almost never
make use of that. We only require append-only, which is simple to
implement.
- GString needs to NUL terminate the buffer on every append. It
has unnecessary overhead for allowing a usage of where intermediate
buffer contents are valid strings too. That is not the case with
NMStrBuf: the API requires the user to call nm_str_buf_get_str() or
nm_str_buf_finalize(). In most cases, you would only access the string
once at the end, and not while constructing it.
- GString always grows the buffer size by doubling it. I don't think
that is optimal. I don't think there is one optimal approach for how
to grow the buffer, it depends on the usage patterns. However, trying
to make an optimal choice here makes a difference. QT also thinks so,
and I adopted their approach in nm_utils_get_next_realloc_size().
Our glib based code should also include our static utility library
libnm-glib-aux. This is our basic utility library that we want to
have around everywhere. Since we link statically, the linker will weed
out the unused stuff at compile time. So, there is no overhead, except
for the things that we actually use.
The advantage is that the API is now the same for IPv4 and IPv6: it's
all nm_dhcp_config_*() and we can (easier) treat the address family
generically.
We still need two distinct GObject types, mainly because of the
glue code for exposing the object on D-Bus as NMDBusObject. Of course,
that could be solved differently, but as it is, it's quite nice.
With `./configure --enable-more-asserts`, we add extra -W flags to
AM_CFLAGS. This variable is only used, if the per-library override
libnm_core_libnm_core_la_CFLAGS is unspecified ([1]).
Usually we avoid this problem be never specifying library_CFLAGS, but
placing all our per-library flags to library_CPPFLAGS. While that is a
bit of a hack and misuse of CPPFLAGS, it works well (enough).
This was broken recently. The effect was, that libnm-core was not
build with AM_CFLAGS flags. Fix it.
[1] https://www.gnu.org/software/automake/manual/html_node/Flag-Variables-Ordering.html
Fixes: d2d6a68697 ('build: use -fcommon when building libnm-core')