At the moment any messages for an encrypted file system aren't shown,
only messages from the outer PartitionLUKS object are shown. Also in
Win_GParted::activate_paste() the selected Partition object, possibly
a derived PartitionLUKS, is cloned and the messages cleared.
Therefore a set of accessor methods must be provided to query and modify
partition messages. Messages will be stored in the Partition object to
which they are added and retrieved from all. So in the case of a
derived PartitionLUKS they will be retrieved from the messages vector of
the PartitionLUKS object itself and the messages vector for the
encrypted file system it contains.
To replace code like this in GParted_Core:
partition_temp->messages = messages;
We might naturally provide a set_messages() method which assigns the
messages vector and is used like this:
partition_temp->set_messages( messages );
However on a PartitionLUKS object what should set_messages() do? By the
name it will replace any existing messages in the PartitionLUKS object
itself, but what should happen to the messages for the contained
encrypted Partition object? Should they be cleared or left alone?
Rather than implement set_messages() with unclear semantics implement
append_messages(), which in the PartitionLUKS object case will clearly
leave any messages for the contained encrypted Partition object alone.
Append_messages() is then used to add messages as the Partition or
PartitionLUKS objects when populating the data in GParted_Core.
Bug 760080 - Implement read-only LUKS support
The struct FS constructor initialised every member *except* filesystem
and busy. Then in *most* cases after declaring struct FS, assignments
followed like this:
FS fs;
fs.filesystem = FS_BTRFS;
fs.busy = FS::GPARTED;
But member busy wasn't always initialised.
Add initialisation of members filesystem and busy to the struct FS
constructor. Specify optional parameter to the constructor to set the
filesystem member, or when left off filesystem is initialised to
FS_UNKNOWN.
Lots of files which use the Partition class relied on the declaration
being included via other header files. This is bad practice.
Add #include "Partition.h" into every file which uses the Partition
class which doesn't already include it. Header file #include guards are
specifically to allow this.
There has been an undocumented rule that external commands displayed in
the operation details, as part of file system manipulations, only get a
time and check mark displayed when multiple commands are needed, and not
otherwise. (GParted checks whether all commands are successful or not
regardless of whether a check mark is displayed in the operation details
or not).
EXCEPTION 1: btrfs resize
Since the following commit [1] from 2013-02-22, GParted stopped
displaying the timing for the btrfs resize command in the operation
details. It being part of a multi-command sequence to perform the step.
This is because FileSystem::execute_command() since the commit can only
check the exit status for zero / non-zero while timing and checking the
command status but btrfs resize needs to consider some non-zero statuses
as successful.
[1] 52a2a9b00a
Reduce threading (#685740)
EXCEPTION 2: ext2/3/4 move and copy using e2image
When use of e2image was added [2] the single command steps were timed
and check.
[2] 86111fe12a
Use e2image to move/copy ext[234] file systems (#721516)
EXCEPTION 3: fat16/32 write label and UUID
Uses Utils::execute_command() rather than FileSystem::execute_command()
so can be separately changed. See the following commit for resolution
of the final commands not yet timed and check mark displayed.
CHANGE:
Lets make a simpler rule of always displaying the time and a check mark
for all external commands displayed in the operation details. However
this makes several of the other single command actions need special exit
status handling because zero success, non-zero failure is not correct
for every case. Specifically affects resizing of reiserfs and check
repair of ext2/3/4, fat16/32, jfs and reiserfs.
After this change all external commands run as file system actions must
follow one of these two patterns of using the EXEC_CHECK_STATUS flag or
separately calling FileSystem::set_status() to register success or
failure of the command:
exit_status = execute_command(cmd, od, EXEC_CHECK_STATUS...);
or:
exit_status = execute_command(cmd, od, ...);
bool success = (exit_status == 0 || exit_status == OTHER_SUCCESS_VALUE...);
set_status(od, success );
Bug 754684 - Updates to FileSystem:: and Utils::execute_command()
functions
The LVM2_PV_Info cache had a pretend multi-object interface, yet all the
data is static. An LVM2_PV_Info object doesn't contain any member
variables, yet was needed just to call the member functions.
Make all the member functions static removing the need to use any
LVM2_PV_Info objects.
Bug 750582 - Refactor the LVM2_PV_Info module object interface and
internal cache representation
The function never modifies any member variables so make it a const
member function.
(FileSystem::get_custom_text() is a virtual function so can't be made
static).
GParted's primary inbuilt busy detection method is "is the partition
mounted?". A custom method is used for LVM2 PV because its not a
mounted file system.
Make busy detection selectable per file system type.
.fs.busy = FS::NONE (default)
No busy detection.
.fs.busy = FS::GPARTED
Use internal GParted method which checks if the partition is
mounted.
.fs.busy = FS:EXTERNAL
Call the file system type's member function is_busy().
LVM2 PV busy detection changes from a special case to just electing to
call the lvm2_pv::is_busy() method. Linux Software RAID remains a
special case because it's only recognised, but not otherwise supported.
Bug #723842 - GParted resizes the wrong filesystem (does not pass the
devid to btrfs filesystem resize)
This is part of parent bug:
Bug #721455 - Obsolete info in license text on multiple modules
and GNOME Goal:
https://wiki.gnome.org/Initiatives/GnomeGoals/Proposals
* verify all source files to make sure they have a license and a
copyright, and that both are up-to-date
Bug #721565 - License text contains obsolete FSF postal address
Many file systems are capable of growing while mounted, and a few can
even shrink. This support must be explicitly enabled at configure time
with the --enable-online-resize flag and depends on a patched libparted.
Also requires kernel >= 3.6 for partition resizing, even if the
partition is in use (BLKPG_RESIZE_PARTITION).
Thanks to Mike Fleetwood for double check mark idea instead of a second
column to show the online grow/shrink.
Bug #694622 - Add support for online resize
Many filesystems do not implement some of their methods, but had to provide
dummy implementations. Remove all of the dummy implementations and instead
just provide one in the base FileSystem class.
Win_Gparted and Dialog_Progress were creating threads to perform most
functions in the background. Most of the time, the only reason the
threads blocked was to execute an external command. The external command
execution has been changed to spawn the command asynchronously and wait
for completion with a nested main loop. While waiting for completion,
the pipe output is captured via events. In the future, this will allow
for it to be parsed in real time to obtain progress information.
Those tasks in GParted_Core that still block now spawn a background thread
and wait for it to complete with a nested main loop to avoid hanging the
gui.
Part of Bug #685740 - Refactor to use asynchronous command execution
Each file system class can now choose how the size and free space of the
file system is determined when it is mounted.
.fs.online_read = FS::NONE (default)
Do nothing. Don't get the file system size and free space.
.fs.online_read = FS::GPARTED
Use internal GParted method which calls statvfs() system call on
the mounted file system.
.fs.online_read = FS::EXTERNAL
Call the file system's member function set_used_sectors(). This
is the same function as called when the file system is not
mounted. It can determine if the file system is mounted or not
by testing partition.busy and acting accordingly.
This means that determining the size and free space of active LVM2
Physical Volumes is no longer a special case. Instead the lvm2_pv class
just elects to have its set_used_sectors() method called for both the
active and deactive cases.
Bug #683255 - ext2: statvfs differs from dumpe2fs (x MB unallocated
space within the partition)
As LVM2 Physical Volumes can't be resized when they are members of
exported Volume Groups add a warning message to explain this fact.
Display the message as a partition specific warning and as additional
text when growing the file system to fill the partition is skipped for
the check operation and when pasting into an existing larger partition.
Bug #670171 - Add LVM PV read-write support
Implement remove() method so that the LVM2 metadata is updated to
reflect the removal of the LVM2 Physical Volume as well as removing the
signature from the PV before the partition is deleted or overwritten.
lvm pvremove /dev/DEVICE
Also specifically force the removal of the PV when it is a member of a
Volume Group so that it will succeed.
RATIONAL:
If the PV was not removed before the partition was deleted or
overwritten, LVM2 would be left in a broken state with metadata
describing missing PVs for any partially deleted VGs. This leaves the
user needing to perform recovery of a lost PV, which required in depth
understanding of LVM2 and is beyond the scope of what GParted can
currently provide.
The alternative is to use the pvremove command to instruct LVM2 to
remove the PV and update LVM2 metadata to reflect the removal of the PV.
For PVs which are a member of a VG this includes forcing the removal.
This has the impact of making recovery from accidental deletion of a
partition containing a PV irrecoverable. GParted is not able to recover
this situation anyway because Device -> Attempt Data Rescue, using the
gpart command, is not able to detect the signature of an LVM2 PV.
Choose to remove the PV, forcibly if required, rather than potentially
leave LVM2 with missing PVs.
Bug #670171 - Add LVM PV read-write support
This commit only adds a remove() method to every file system and an
optional call to it in the relevant operations. All remove() methods
are no operations and not enabled.
The remove() method provides explicit controlled removal of a file
system before the partition is deleted or overwritten by being formatted
or pasted into. When implemented, it appears as an extra step in the
relevant operation. The file system specific remove() method is
explicitly allowed to fail and stop the operations currently being
applied.
This is different to the existing erase_filesystem_signatures() which
wipes any previous file system signatures immediately before a new file
system is written to ensure there is no possibility of the partition
containing two or more different file system signatures. It never fails
or reports anything to the user.
NOTE:
Most file systems should NOT implement a remove() method as it will
prevent recovery from accidental partition deletion.
Bug #670171 - Add LVM PV read-write support
Copy operation for LVM2 Physical Volumes is deliberately not implemented
because it doesn't fit with how LVM2 works and is not safe in the
general case without an understanding of its internals. See comment in
lvm2_pv::copy() for more details.
Bug #670171 - Add LVM PV read-write support
In the Partition menu enable activation / deactivation of the LVM2
Volume Group of which the Physical Volume is a member.
Bug #670171 - Add LVM PV read-write support
Add creation of Physical Volumes specifying LVM2 metatdata format:
lvm pvcreate -M 2 /dev/DEVICE
Also set the partition type to identify its contents as LVM. Note that
libparted treats every partition type as a file system except LVM which
it treats as a flag, hence GParted displaying "lvm" in the Manage Flags
dialog. Never the less libparted set the partition types correctly.
For MBR partitioning the type is 8e "Linux LVM" and for GPT partitioning
the type is E6D6D379-F507-44C2-A23C-238F2A3DF928. Setting the partition
type as LVM is not strictly required as LVM2 scans the contents of all
partitions looking for PVs, but it is best practice.
Bug #670171 - Add LVM PV read-write support
Add reporting of the LVM2 Physical Volume size allowing the unallocated
space in the partition to be calculated.
Bug #499202 - gparted does not see the difference if partition size
differs from filesystem size
Previously any errors which occurred when running LVM commands used to
load the LVM2_PV_Info cache were simply ignored and the cache wasn't
loaded. This lead to missing information about LVM2 PVs, but the user
had no indication as to why.
Now when any errors occur the command ran and all output is captured.
This is displayed to the user, along with a suitable warning message, in
the Partition Information dialog.
Bug #160787 - lvm support
Cache results from querying all LVM2 PVs in one go to minimise the
number of times lvm commands are executed. Take inspiration from
caching performed by FS_Info and Proc_Partitions_Info.
Bug #160787 - lvm support
Add minimal support for just reporting the space usage of LVM2 PVs.
Accept libparted / blkid detection of LVM2 PVs first, falling back on
GParted's specific detection code otherwise. Maintain LVM not supported
warning message.
Bug #160787 - lvm support