Re-use the existing message about partition type and size,
since I don't want to introduce another message with all the
specifics; give a works-always message instead.
The check itself is also straightforward, avoiding all of the
nuances and technically-this-might-work cases: FAT32, 300MiB+.
FIXES#607
Modules nearly always have a Config and either a Job or ViewStep
as their "top level" components. Everything else is implementation-
detail. The *partition* module was unusual in that those two
"top level" components were tucked away in subdirectories.
Shuffle them to the top: this makes it more clear that these
two files are there to coordinate the module.
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.
- 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.
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 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().
- 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.
- Move variables closer to where they are needed
- Do the winnowing / selection always, but in unsafe mode return
the un-winnowed list of devices
- Massage build documentation a little
You'll need a VM with 2 disks to demonstrate:
- Configure Calamares to pick "none" as initial action on
the partition page (this is a safe choice),
- Enter partition page,
- No action is selected, and the next> button is greyed out.
- Click erase; notice next> is now available.
- Change devices, notice no action is selected, but next>
is still available. Clicking on it, though, does nothing.
When changing to "no action", update the next-button's
availability.
Avoid the extra indirection through the otherwise-unused
prettyGptType(const QString&), construct table of names
only on first call to avoid static-initialization order
(though that's not important here).
In particular, we need a separate Job class to set the label; this
is invoked after we formatted a partition, and when no other changes
to the partition have been requested in the Edit dialog.
The partition- and filesystem-label setting code was already there,
but not in the call to createNewPartition(); now we set the
FS label twice (once in the call, once afterwards)
When creating or editing a new formatted partition, allow
to set a filesystem label (16 chars maximum). Modify
the KPMHelpers to accept it as a new parameter. Partitions
created by default may get a meaningful label too.
FIXES#1604
(Admittedly, this fixes the problem only when there's Plasma Solid automount
present, and not any of the other kinds; but none of those have been reported
yet, and adding them into AutoMount.cpp is opaque to the rest of the
system)
- It shouldn't be necessary to explicitly .get() pointers for
logging, and it's convenient to know when a pointer is smart.
* no annotation means raw (e.g. @0x0)
* S means shared
* U means unique
- switch logging in job to VERBOSE because we don't want to be printing
pointers to the regular session log
- switch logging in test to VERBOSE to actually see the messages from the Job
- hook the test into the build
- factor out the flags-we-want from the flags-we-already-have
- the use of ->activeFlags() meant that the state on *disk* was
being compared with the flags-we-want; if a partition was re-edited,
then you couldn't change the flags back to the state-on-disk
(eg. enable a flag, then change your mind and disable it).
- set the flags before refreshing the partition, because the
refresh checks for EFI bootability and that needs the new flags,
not the old ones.
- remove the m_defaultFSType from PartitionLayout, because it is
set on construction -- which is too early, before the configuration
has been read.
- make the default FS explicit in the init() calls which pass in
a configuration; this needs support in the intermediate
PartitionCoreModule.
- the "simple" constructor for PartitionEntry left the FS type
set as the constructor left it -- which is Unknown by default.
This leads to install failures in systems that don't set a
special layout but just want a single / -- because the FS is
set to Unknown.
- massage the constructor and consumer of the code, push
Ext4 FS in the tests and use the configured default in production.
Some compile flags changed recently, triggering assert()
in the jobqueue when there is more than one. There's no
real reason for JobQueue to be a singleton, but it wants
to be. So clean up pointers a little more enthusiastically.
The code doesn't match the comment: there are no by-ref captures
in the code, and the shadowing of parameters and local variables
is confusing. Remove one variable that is passed in as an argument
(and just pass the value as argument) and copy-capture the other
rather than doing weird argument passing.
- remove unused this captures from lambda
- rename variables that are short, cryptic, and shadowed
- remove documentation for parameters that don't exist
This commit adds the new configuration `swapPartitionName` to the file
partition.conf.
This option sets the partition name to the swap partition that is
created. If this option is unset, the partition is left unnamed.
- Rename the "size" locals using "sectors" in their name. Size may be
confusing or not enough specific as it can be interpreted a size in
Byte.
partSizeMap -> partSectorsMap,
totalSize -> totalSectors,
availablesize -> availableSectors,
size -> sectors,
minSize -> minSectors
maxSize -> maxSectors
- Create a the new local currentSector to iterate over the sectors;
instead of using the parameter firstSector.
- Remove the variable end that does not help much; too many variable
already. Expand its expression instead.
- Introduces new constructors for PartitionEntry: copy constructory and
constructor with all attributes.
- Use the new constructor in method addEntry().
- The variant helper toString() takes a default value since commit
c9f942ad6 ([libcalamares] Add default value to variant helpers).
- Set the default value to 0 and simplify the retreival of size values
by calling the helper toString() and removing the temporary variables.
- The logic of the method initLayout belongs to the object
PartitionLayout. Move logic to that object.
- Use a single method initLayout in object PartitionCoreModule.
- Member m_partLayout in object PartitionCoreModule is no longer
allocated.
- if the partition size is invalid, then warn about it but do
not print the (uninitialized) size of the partition.
- shuffle code to continue earlier, allowing the "good path"
code to be out-dented.
- os-proper may return an extra file after the device:
/dev/sda1:Ubuntu 19.10 (19.10):Ubuntu:linux
/dev/sdb1@/EFI/Microsoft/Boot/bootmgfw.efi:Windows Boot Manager:Windows:efi
I think we had this (kind of) module a long time ago and it was
removed for over-complicating things; re-introduce one now that
KPMcore is used in 3 different places and all would benefit
from consistent API handling / defines.
- handle swapfiles when writing /etc/fstab in the target system
- special-case mountpoint
- since swapfiles are not a partition, take the setting out
of partitionChoices
- create the physical swapfile as well (there's no other place
where it would make sense)
- Give LVM jobs a dummy argument Device* so that they
fit the functionality of makeJob for partitioning.
For those jobs that already take an LVMDevice*, this should
be the self-same device, but that isn't checked.
* Use the minSize when the target storage is smaller than the sum of sizes
* Percentage-defined partitions should be computed after setting hard-defined ones
This fixes issues when 0 byte partitions were created when the disk is too small.
Also fixes an issue with percent-defined partitions being forced to be defined at the end of the disk.
- point to main Calamares site in the 'part of' headers instead
of to github (this is the "this file is part of Calamares"
opening line for most files).
- remove boilerplate from all source files, CMake modules and completions,
this is the 3-paragraph summary of the GPL-3.0-or-later, which has
a meaning entirely covered by the SPDX tag.
In spite of there being considerable documentation sometimes in the
config file, we go with CC0 because we don't want the notion of
'derived work' of a config file.
The example `settings.conf` is also CC0. Add some docs to
it while we're at it.
The build instructions are not that interesting, it's a toss-up
between CC0 and BSD-2, but because other CMake bits are BSD-2-Clause,
apply that to more CMakeLists. The copyright date isn't all that
accurate, but these are just inconsequential files.
While here, tidy up and get rid of some useless intermediates.
The .ui files are all GPL-3.0-or-later style, but it's
slightly difficult to keep licensing information in them:
it's XML, so an XML comment might work, but there's no
guarantee that safe/load will preserve them.
Put the SPDX tags in the <author> tag, so that it's visible
in Qt Designer.
- no need for the definition to be in public header, move to implementation
- while here, sort the members and private methods
- add a makeJob() to add jobs to the queue
- having a struct with an obtuse API for adding jobs-that-need-to-happen-
to-this-device is just not good for maintainability.
- break the build by making things private.
- The enum for install choice was copied into PartitionActions and
used in the Config object; its definition does not belong in the UI.
- Chase the renamings required.
- add an option to select what button should be selected when the
partitioning module is started; TODO: the actual functionality is
**not** implemented.
- drop the previously suggested name, which didn't get beyond the
comments-in-the-config-file stage (but which intended to do the
same things as this one)
- add option to schema already, even if it's not implemented.
See #1297
FIXUP conf
The encryption widget (passphrase for disk encryption) should show
ok / warning / error whenever the state changes; this avoids
it showing up first with **no** icon (it should show a warning
when both passphrases are empty).
Both the KPMCore and the ChoicePage -- asynchronously -- were connected
to the nextStatusChanged() signal. So if the core said next was true,
that could end up communicated to the ViewManager, enabling the *next*
button in the UI.
Changing to the *erase* page generally triggers a KPMCore reload,
which later emits a `hasRootMountPointChanged()` signal, once the
layout is applied and the disk gets a root mount point. So we'd
get a `true` from KPMCore, which -- because it was connected directly
to the signal to the VM -- would override any other considerations.
Hook up both signals to an intermediate slot that just recalculates
whether the next button should be enabled, based on the state
both of the Choice page and whatever else.
With PR calamares/calamares#1357 the label of the "Manual partitioning" option
was changed, which introduced several downsides:
* The label is shown for UEFI and for BIOS installations.
* The mountpoint of the ESP is and should be distro specific.
* The label always mentioned GPT, which is irrelevant.
* The label should explain, what the option does, and not, what
problems can occur under certain circumstances.
- there are no consumers for checking-the-capacity-of-the-drive
This parameter was introduced in 3cd18fd285 as "preparatory work"
but never completed. The architecture of the PartitionCoreModule
makes it very difficult to get the necessary parameters to
the right place, and it would probably be better to put
a SortFilterProxyModel in front of a partitioning model anyway.
Since the display code can already filter on size, just drop this one.
- Initialize the attribute partAttributes to 0; it is a primitive type
and it is not initialized in some constructors.
Fixes commit c1b5426c6 ([partition] Add support for partition attributes).
- Move implementation of default constructor to cpp.
- These have **not** been fixed for validation, so the schema's themselves
will fail to load. This is a consequence of variations in JSON-Schema
representations through various drafts. Fixing the schemata is
fairly straightforward.
This gives us 19 new tests, all of which fail.
