The test-application injects a script into Python code
to render harmless functions in the subprocess module
(eg to avoid Python code from running the package manager
for real). There are cases, though, where that injection
should be skipped (eg because the whole point of test-
loading some Python is to check commands that are run).
Add a -P option to the test-application to do that.
warning messages implemented for user & host names
move root password option box inline with password section
adjust background color according to text.length
hardcode color instead of kirigami colors
usersq is now usable, sets user, hostname & password correctly on install
warning messages & color changes not fully done yet
The existing API required calling the one constructor with
specific pointers (nullptr for a partition-from-free-space)
followed by calling one of the initFrom*() functions. This
is fragile design.
Use tag-classes to distinguish create-from-free-space and
edit-another-freshly-created-partition cases, refactor
to merge the initFrom*() methods into the constructors
and factor out the shared UI creation.
Callers can now use the tag-class to distinguish. While
here, adjust both callers to use QPointer, avoiding some
very specific dialog-on-the-stack crash possibilities.
When a partition is set as "freshly created", the dialog was
passing in newFlags() as the **already-active** flags on the
partition; then the caller was setting those same flags as
"set these in the future", so that afterwards, no flags would
actually be set (because they're already active -- see the
first sentence).
Now, fresh partitions have no flags.
This is intended for consumption by QML; the ViewManager object
acts as a proxy for a handful of global Settings values already,
so throw in global Logger values as well. A QML module that would
like to read the log file (e.g. for tailing it as part of a
slide-show) can get the path via this property.
Sending a Once to a logger that isn't enabled should not "consume"
that Once; it's still available for a subsequent logger that **is**
enabled (useful if you're using more than one log-level in a function).
- fsName was a QString (a copy) so it could be modified;
- the modification isn't really necessary.
- While here, pick up new PointerSetter convenience class.
This allows injecting arbitrary Python code before
the script of a module is even run. For testing
purposes, that gives us a chance to modify existing
(internal) modules before the script (e.g. to test
subprocess calls).
This is related to https://invent.kde.org/neon/neon/calamares-settings/-/merge_requests/1
which adds .. the default things from the example configuration to the
configuration file KDE neon ships. The default layout doesn't add
any subvolumes at all, which seems to be non-functional.
If nothing is configured, complain and use /@ as the lone subvolume.
PARTITION_UNSAFE is a debug mode. It is not used in
production, because it allows you to pick an install
device that would be dangerous (e.g. the current / device).
Existing code kept two copies of a list of pointers,
and deleted pointers from one of the lists and returned
the other -- which now contains dangling pointers.
Refactor by applying suitable lambdas to a single
copy of the list; this avoids copying the list so
there is no danger of dangling pointers.
- The log **file** got every QDebug object, while stdout only
got the ones of sufficient logging level. A CDebug object checks the
logging level before writing anything -- so those already were
consistent, but any qDebug() in the program (not cDebug()!) would
reach the writing-function anyway, and so log to the file.
Fix this weird inconsistency by checking log-level just once,
for both writes.
- Map QtMsgType -- used by qDebug() and qWarning() -- to levels used
by Calamares in a consistent fashion.
- Drop unused log levels (INFO, EXTRA unused in any Calamares code).
The bootloader model knows about both rows and
devices, so we can look up both at once. The
existing implementation as a non-member was rather
sketchy and wasn't used except as support for
restoreSelectedBootLoader().
If the pakcage manager fails in some way, convert to a readable
error message instead of leaking the exception to the caller
(which produces a traceback, which is harder to read and less
informative)
Widgets are easier to style if they have a name, and easier to spot
in the widget tree as well. Give the requirements-checker
parts meaningful names.
SEE #1685
- in legacy mode, *id* can have an effect and leads to
"packagechooser_<id>"; if unset, uses the the module
instance id instead, still as "packagechooser_<instanceid>".
- in packages mode, *id* is not used and only the whole
module Id (generally, "packagechooser@<instanceid>")
is used, but in packages mode there's no need for other
packages to mess with GS settings for this packagechooser.
When the module is loaded and the viewstep created, it doesn't have a
module Id **yet**. That is set after reading more of the configuration
file. It **is** set by the time setConfigurationMap() is called,
so pass it on to the Config object then. This means that packagechooser
modules can skip the *id* config key and use the module Id.
The model needs to be attached to the widget; because of changes
in the order that widget() and setConfigurationMap() are called,
the model is created earlier, but needs to be connected later.
- convenience method to install a (string) list of packages
(doesn't do the installation, but adds to GS the list, so
that the packages module can handle it).
- the %4 is left-over from the feature-summary string,
- replace it with ""; don't change the source string
because that will break translations right now.
- turn the translations-QRC phase into a function, just in
case other tests need translations as well.
- This CMake code might work as the base of translation-wrangling for
plugins (externally).
- don't pass the item IDs to packages module, use the
packages lists for each item
- document the item list in more detail (including the packages member
and new install-method item)
