We don't need such data duplicated. The build setup should
have only one configuration_data() for patching such values.
Now we only have one global, immutable data_conf dictionary with
configuration values. Note that none of the users of data_conf uses all
entries, but as the entries are basically only dependent on the
meson/configure option and valid for the entire project, this simplifies
to handling.
We preferably should use our convenience macros like _LOGD().
Since those macros expand to _NMLOG() (which needs to be defined
separately), we can move it to "nm-logging-fwd.h" and reuse.
glib really likes the numeric source IDs. That is, g_idle_add(), g_timeout_add(),
etc. return those IDs, that can then be destroyed with g_remove_source() (or
nm_clear_g_source()).
I think these numeric IDs are really not great.
- API like g_idle_add() and g_remove_source() only works with the g_main_context_get_default()
instance. That means, you cannot use this API for any other contexts. If you'd insist on using
numeric IDs, you'd need to call g_main_context_find_source_by_id() on the right context
first (but you'd also have to track the context alongside the ID).
- g_remove_source() requires first a call to g_main_context_find_source_by_id(). This involves
taking a mutex and doing an extra hash lookup.
Instead, it often seems preferable to use the GSource instance directly. It works
with any context, it can be referenced and unreferenced, and it can be destroyed, and
avoids the overhead of g_main_context_find_source_by_id().
The only downside really is that keeping a GSource pointer takes one pointer size, while
the guint source ID is usually only 4 bytes.
Anyway, I think we should deal more with GSource instances directly. Hence, add this
convenience macro, that works like nm_clear_g_source().
In some cases it is useful to have the library log what it is doing
for debugging purposes; add a simple API that allows setting a
syslog-style logging level and specifying a logging function.
https://github.com/nettools/n-dhcp4/pull/8
Currently in any of the BOUND, RENEWING and REBINDING states the probe
checks the expiration of T1, T2 and lifetime. This is not correct
because, for example, if the timer fires in the RENEWING state, the
probe must not transition to RENEWING again (i.e. check again that
now >= T1). Note that there is no guarantee that the timer triggers
exactly once for T1, T2 and lifetime expirations because the timer is
also used for the retransmission logic in NDhcp4CConnection.
Therefore, add some checks to ensure that only correct transitions are
allowed.
https://gitlab.freedesktop.org/NetworkManager/NetworkManager/merge_requests/341https://bugzilla.redhat.com/show_bug.cgi?id=1773456
The API already had n_dhcp4_client_lease_get_lifetime(), which is the CLOCK_BOOTTIME
when the lease expires (or ((uint64_t)-1)). But it might be interesting to
know the actual lease duration and when the lease was received (and the
time started to count).
Expose an API for that. With this, one can also calculate the original, exact lease
lifetime, by subtracting n_dhcp4_client_lease_get_basetime() from n_dhcp4_client_lease_get_lifetime(),
while taking care of ((uint64_t)-1).
First of all, from the naming of n_dhcp4_incoming_query_u32() it is
confusing to coerce 0xFFFFFFFF to zero. It should just return the
plain value.
Also note that n_dhcp4_incoming_query_u32() only has three callers:
n_dhcp4_incoming_query_lifetime(), n_dhcp4_incoming_query_t1() and
n_dhcp4_incoming_query_t2().
Looking further, those three functions only have one caller:
n_dhcp4_incoming_get_timeouts(). Note how the code there already tries
to handle UINT32_MAX and interprets it as infinity (UINT64_MAX).
But as it was, UINT32_MAX never actually was returned.
It seems that RFC [1] does not specially define the meanings of
0xFFFFFFFF and 0. It sounds reasonable to assume that 0 just means
0 lifetime, and 0xFFFFFFFF means infinity. On the other hand, compare
this to systemd's code [2], which coerces 0 to 1. This does not seem
right to me though. Note how systemd returns 0xFFFFFFFF as-is.
Drop the special handling of 0xFFFFFFFF from n_dhcp4_incoming_query_u32().
It now just returns the plain value and it's up to n_dhcp4_incoming_get_timeouts()
to make sense of that. This will fix behavior, so that 0xFFFFFFFF will be
reported as infinity, and not as zero.
[1] https://tools.ietf.org/html/rfc2132#section-9.2
[2] 68c2b5ddb1/src/libsystemd-network/sd-dhcp-lease.c (L553)
It is error prone when a function consumes an input only in certain
cases (and telling the caller via the return code). At least in these
cases, the message is never used afterwards, and we can always pass
it on.
The majority of sources in "libnm/" are implementations of NMObject.
"nm-libnm-utils.h" will contain common definitions for handling such
objects. This means, most of the source files under libnm will require
this include. Include it by default.
Note that we should always set the source-tag of our GTask.
This allows us to better assert that the user uses the right
_finish() method for the task.
The plain g_task_new() does not have a souce-tag argument. Hence, we would
always need to explicitly call g_task_set_source_tag().
Likewise, to check the source tag, we would always need to write
g_return_val_if_fail (g_task_is_valid (result, self), FALSE);
g_return_val_if_fail (g_async_result_is_tagged (result, tag), FALSE);
Actually, g_async_result_is_tagged() uses the GAsyncResultIface to
call iface->is_tagged(). This has unnecessary overhead, so we should
just call g_task_get_source_tag() directly.
Add helper functions for that.
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.
