Commit Graph

2843 Commits

Author SHA1 Message Date
Curtis Gedak 2f6325d0ef Revert tarball compression to gzip (#760099)
Debian has deprecated the use of bzip2 for tarballs since dpkg-1.17.7,
released 2014-04-21.   See:
https://lintian.debian.org/tags/uses-deprecated-compression-for-data-tarball.html

The choices going forward were to use gzip for maximum compatibility and
speed, or to use xz for maximum compression.

Since we strive for backwards compatibility, gzip was chosen.

Bug 760099 - Revert tarball compression to gzip
2016-01-05 09:06:14 +00:00
Mike Fleetwood 28ad527874 Add Linux SWRaid / mdadm note to the README file (#756829)
Missed earlier when implementing the feature.

Bug 756829 - SWRaid member detection enhancements
2016-01-03 09:41:47 -07:00
Mike Fleetwood bfb6a3800d Fix displaying partition names also as file system labels in some cases (#759972)
GParted was also displaying the GPT partition names as the file system
labels for some type of file systems.

Create 2 empty partitions on a GPT partitioned disk and name them like
this.  Then create a hfsplus file system with an empty label.  (Actually
single space character but blkid treats it as empty.  Can't use GParted
for this because when no label is specified mkfs.hfsplus sets the label
to "untitled").

    # sgdisk -p /dev/sdb
    /dev/sdb: 4194304 sectors, 2.0 GiB
    Logical sector size: 512 bytes
    ...
    Number  Start (sector)    End (sector)  Size       Code  Name
       1            2048          526335   256.0 MiB   8300  empty partition
       2          526336         1050623   256.0 MiB   8300  hfsplus partition
    # mkfs.hfsplus -v " " /dev/sdb2

Even though only the GPT partition names are set to "SOMETHING
partition", GParted will display them as the file system labels too.
Also in the Information dialog for the empty partition a file system
UUID is displayed as well even though none exists.

Blkid output looks like this:

    # blkid -V
    blkid from util-linux 2.27.1  (libblkid 2.27.0, 02-Nov-2015)
    # blkid | grep /dev/sdb
    /dev/sdb1: PARTLABEL="empty partition" PARTUUID="bf3d2085-65b7-4ae6-97da-5ff968ad7d2c"
    /dev/sdb2: UUID="2c893037-ff76-38f2-9158-2352ef5dc8de" TYPE="hfsplus" PARTLABEL="hfsplus partition" PARTUUID="457e9c2b-e4f2-4235-833b-28208592aaac"

With blkid from util-linux >= 2.22, released September 2012, it is
including additional PARTLABEL and PARTUUID name and value pairs for
GPT partitions [1].  The FS_Info module regular expressions used to
match the file system LABEL and UUID names also happen to match these
new PARTLABEL and PARTUUID names too.  Hence this bug when GParted has
to fall back to using the FS_Info module to read the file system label,
when there is no working file system specific method.  Effects: exfat,
f2fs, hfs, hfsplus, ufs, unknown.

Fix by requiring all the regular expressions used to search the blkid
output to also match the space character in front of the name.

[1] Util-linux 2.22 Release Notes
    https://git.kernel.org/cgit/utils/util-linux/util-linux.git/tree/Documentation/releases/v2.22-ReleaseNotes?h=v2.22

Bug 759972 - GParted displays partition names also as file system labels
             with new blkid for some file systems
2016-01-01 11:18:40 -07:00
Мирослав Николић ae4adfcbb7 Updated Serbian translation 2015-12-30 10:51:51 +01:00
Mike Fleetwood c249b7286d Fix temporary path name of new partitions (#759488)
In the UI new partitions were being named "unallocated" instead of
"New Partition #1", etc.  Also deleting a new partition not yet created
deletes all new partitions from the operation list because it matches
by name only and they were all named "unallocated".  Broken by this
recent commit:

    762cd1094a
    Return class member from Dialog_Partition_New::Get_New_Partition() (#757671)

Prior to this commit in the create new partition dialog code did these
relevant steps:
    Dialog_Partition_New::Get_New_Partition()
        Partition part_temp;
        ...
        part_temp.Set(..., "New Partition #%1", ...);

Create local Partition object using default constructor which calls
Partition::Reset() and clears the paths vector.  It then calls Set()
which appends the new name making the vector:
    paths = ["New Partition #%1"]

After the above commit the code did these steps:
    Dialog_Partition_New::Dialog_Partition_New(..., selected_partition, ...)
        set_data(..., selected_partition, ...);
            new_partition = selected_partition;

    Dialog_Partition_New::Get_New_Partition(...)
        new_partition.Set(..., "New Partition #%1", ...);

New_partition is copied from the selected unallocated partition in which
the new partition will be created.  So new_partition is now named
"unallocated".  Then the Set() call appends the new name making the
vector:
    paths = ["unallocated", "New Partition #%1"]

As get_path() returns the first name in the paths vector the path name
changed from "New Partition #%1" to "unallocated" causing this bug.

Fix by resetting the new_partition object to clear all vestiges of it
being a copy of the selected unallocated partition, Reset() call, before
then calling Set().  This then appends the new name to an empty vector
making it contain just the required new name:
    paths = ["New Partition #%1"]

Bug 759488 - Pending create partitions are all getting named
             "unallocated"
2015-12-18 09:35:28 -07:00
Phillip Susi ae434579e1 Display progress for e2fsck (#467925)
Parse output and update progress bar.

Bug 467925 - gparted: add progress bar during operation
2015-12-14 10:42:04 -07:00
Phillip Susi baea186138 Display progress for mke2fs (#467925)
Bug 467925 - gparted: add progress bar during operation
2015-12-14 10:42:04 -07:00
Phillip Susi 57b028bb8e Display progress during resize (#467925)
Capture and parse the progress reports of ntfsresize and resize2fs and
update the dialog progress bar.

Bug 467925 - gparted: add progress bar during operation
2015-12-14 10:42:04 -07:00
Curtis Gedak 5b0465e9a3 Make about dialog website link non-clickable (#758131)
To avoid security implications of invoking a web browser with root
privileges, make the about dialog website link into a non-clickable
label.

The set_website_label() method has been available since gtkmm 2.6.
https://developer.gnome.org/gtkmm/stable/classGtk_1_1AboutDialog.html#aa3d04115d068363be314414899703caa

Bug 758131 - Don't run GUI as root (Was: [wayland] gparted fails to
             start under wayland)
2015-11-20 17:49:19 +00:00
Curtis Gedak de5019caf7 Fix missing "old end" value in detail log of en_CA translation (#756878)
The Canadian English translation po file incorrectly changed the
following string with a parameter from %1 to %2:

   msgid "old end: %1"
   msgstr "old end: %2"

The error resulted in a missing "old end:" numerical value in the
gparted details log.

This error was introduced back in 2011-09-06 with the following
commit:

   06eeaafc8c
   Updated Canadian English translation.

Bug 756878 - GParted - Fix missing "old end" value in detail log of
             en_CA translation
2015-11-16 14:15:29 -07:00
Mike Fleetwood 2c4df87a2c Return reference from Get_New_Partition() (#757671)
Return newly constructed partition object by reference rather than by
copy from the Copy, Resize/Move and New dialog classes.  This is another
case of stopping copying partition objects in preparation for using
polymorphic Partition objects.  In C++ polymorphism has to use pass by
pointer and reference and not pass by value, copying, to avoid object
slicing.

The returned reference to the partition is only valid until the dialog
object containing the new_partition member is destroyed.  This is okay
because in all three cases the returned referenced partition is copied
into a context with new lifetime expectations before the dialog object
is destroyed.

Case 1: GParted_Core::activate_paste()
    Referenced new_partition is copied in the OperationCopy constructor
    before the dialog object goes out of scope.

    Operation * operation = new OperationCopy( ...,
                                               dialog.Get_New_Partition( ... ),
                                               ... );

Case 2: GParted_Core::activate_new()
    Referenced new_partition is copied in the OperationCreate
    constructor before the dialog object goes out of scope.

    Operation * operation = new OperationCreate( ...,
                                                 dialog.Get_New_Partition( ... ) );

Case 3: GParted_Core::activate_resize()
    Temporary partition object is copied from the referenced
    new_partition before the dialog object goes out of scope.

    Partition part_temp = dialog.Get_New_Partition( ... );

Bug 757671 - Rework Dialog_Partition_New::Get_New_Partition() a bit
2015-11-11 10:12:18 -07:00
Mike Fleetwood 762cd1094a Return class member from Dialog_Partition_New::Get_New_Partition() (#757671)
Replace the use of local Partition variable with class member in
preparation for Dialog_Partition_New::Get_New_Partition() being changed
to return the new partition object by reference instead of by value.
    part_temp -> new_partition

Bug 757671 - Rework Dialog_Partition_New::Get_New_Partition() a bit
2015-11-11 10:12:18 -07:00
Mike Fleetwood c86b258475 Create unallocated space within new extended partition after aligning boundaries (#757671)
When creating a new extended partition, the unallocated space within it
was being created before adjusting the partition boundaries for
alignment reasons.  This must be wrong.  Move creation of the
unallocated space to after adjusting the partition boundaries for
alignment reasons.  First introduced by this commit:

    a30f991ca5
    Fix size reduced by 1 MiB when created after cylinder aligned partition

Also added a big FIXME comment explaining how further adjustments are
still made by snap_to_alignment() to the partition boundaries including
a test case where this too late adjustment causes overlapping boundaries
and apply to fail.

Bug 757671 - Rework Dialog_Partition_New::Get_New_Partition() a bit
2015-11-11 10:12:18 -07:00
Mike Fleetwood 451c2eac43 Rename parameter to selected_partition in Dialog_Partition_New methods (#757671)
This is just to make the parameter name in the Dialog_Partition_New
constructor and set_data() method match the name of the equivalent
parameter in the Dialog_Partition_Copy and Dialog_Partition_Resize_Move
classes.  (All three classes inherit from Dialog_Base_Partition and have
similar interfaces).

Bug 757671 - Rework Dialog_Partition_New::Get_New_Partition() a bit
2015-11-11 10:12:18 -07:00
Mike Fleetwood 6e97a63f49 Always use blkid file system detection before libparted (#757781)
Blkid recognises many more file system types and RAID member signatures
than libparted.  GParted already uses blkid detection instead of or
before libparted for whole disk devices [1] and for ext4 detection [2]
(only required with libparted < 1.9.0).  Also GParted could only use
blkid detection on non-512 byte sector devices [3] before libparted was
fixed in version 3.2 [4].  Blkid was documented as a mandatory
requirement from GParted 0.24.0 [5].

Util-linux package, of which blkid command is a part, is a core piece of
Linux software which is very actively maintained and used by lots of
other packages.  Parted package is much less active and has added
detection of fewer file systems and doesn't recognise any RAID members.

In cases of multiple signatures within a partition blkid and libparted
can report different results leading to confusion and issues for
GParted.  This was the primary reason for bug 688882 "Improve clearing
of file system signatures" and a number of other changes to GParted.
Also as the mount command links with libblkid it uses it's detection
when telling the kernel the type of a file system to be mounted.

There aren't any current issues with GParted's file system detection but
given the above argument, switch to using blkid before libparted for
file system detection.  Only falling back to libparted when blkid
doesn't report a result, notably for extended partitions.  Order of
information sources for detection is now:
 1) mdadm (for SWRaid members)
 2) blkid
 3) libparted
 4) GParted internal code

References:

[1] f8faee6377
    Avoid whole disk FAT being detected as MSDOS partition table (#743181)

[2] 533eb1bc03
    Added support for ext4 file systems

[3] 9e5e9f5627
    Enhance file system detection to use FS_Info method - blkid

[4] http://git.savannah.gnu.org/cgit/parted.git/commit/?id=80678bdd957cf49a9ccfc8b88ba3fb8b4c63fc12
    Fix filesystem detection on non 512 byte sectors

[5] 749a249571
    Document blkid command as a mandatory requirement (#753436)

Bug 757781 - Always use blkid file system detection before libparted
2015-11-10 09:44:36 -07:00
Mike Fleetwood 52183058ef Correct inclusion of Operation* headers in GParted_Core.cc
The GParted_Core code only interacts with derived Operation* objects
through the Operation base class interface and in one case the
OperationCopy class.  Therefore include Operation.h and OperationCopy.h
headers and no others.
2015-11-02 10:03:45 -07:00
Mike Fleetwood 32b5106aa1 Add clearing of ZFS labels
ZFS labels were not cleared by GParted when clearing old file system
signatures.

    # wget https://git.kernel.org/cgit/utils/util-linux/util-linux.git/plain/tests/ts/blkid/images-fs/zfs.img.bz2
    # bzip2 -dc zfs.img.bz2 > /dev/sdb1
    [In GParted format to cleared /dev/sdb1]
    # blkid /dev/sdb1
    /dev/sdb1: LABEL="tank" UUID="1782036546311300980" UUID_SUB="13179280127379850514" TYPE="zfs_member"

Update to also zero all 4 ZFS labels.

NOTE:
GParted now writes a little over 1 MiB when clearing old file system
signatures.  As this is performed in the main thread the UI is not able
to respond during this action.  Testing this on a range of USB flash
keys and hard drives found the slowest normal time to write this was
0.25 seconds, with an occasional outlier up to 2.8 seconds from a USB
flash key.  This is considered acceptable.
2015-11-02 10:03:45 -07:00
Mike Fleetwood eec78cd2b2 Stop over rounding up of signature zeroing lengths (#756829)
Following the previous commit "Add erasing of SWRaid metadata 0.90 and
1.0 super blocks (#756829)" signature zeroing specified to write 4 KiB
of zeros at position end - 64 KiB, aligned to 64 KiB.  Example operation
details from formatting a 1 GiB partition to cleared:

    Format /dev/sdb8 as cleared
    + calibrate /dev/sdb8
    + clear old file system signatures in /dev/sdb8
      + write 68.00 KiB of zeros as byte offset 0
      + wite 4.00 KiB of zeros at byte offset 67108864
      + wite 64.00 KiB of zeros at byte offset 1073676288
      + write 8.00 KiB of zeros at byte offset 1073733632
      + flush operating system cache of /dev/sdb

However it actually wrote 64 KiB.  This is because the rounding /
alignment was also applied to the zeroing length.  Before this commit
rounding / alignment was always less than or equal to the length so this
wasn't seen before.  Instead just apply device sector size rounding up
to the length.

Bug 756829 - SWRaid member detection enhancements
2015-11-02 10:03:45 -07:00
Mike Fleetwood 743968ef68 Add clearing of SWRaid metadata 0.90 and 1.0 super blocks (#756829)
The super blocks for Linux Software RAID arrays using metadata types
0.90 and 1.0 are stored at the end of the partition and not currently
cleared by GParted.

Create a SWRaid array, stop it and format it to cleared using GParted.
The signature remains.

    # mdadm --create /dev/md1 --level=linear --raid-devices=1 --force --metadata=1.0 /dev/sdb1
    # mdadm --stop /dev/md1
    [In GParted format to cleared /dev/sdb1]
    # blkid /dev/sdb1
    /dev/sdb1: UUID="8ac947a7-063f-2266-5f2a-e5d178198139" UUID_SUB="49bd51d4-4c54-fb16-a45e-bd795f783f59" LABEL="rockover:1" TYPE="linux_raid_member"

As fixed in other cases before [1][2] it is necessary to clear all
signatures before formatting as a new file system to prevent recognition
issues.  For example now format the partition as a FAT32 file system.
Now there are two signatures and libparted reports one type and blkid
reports another.

    # mkdosfs -F 32 /dev/sdb1
    # blkid /dev/sdb1
    /dev/sdb1: UUID="8ac947a7-063f-2266-5f2a-e5d178198139" UUID_SUB="49bd51d4-4c54-fb16-a45e-bd795f783f59" LABEL="rockover:1" TYPE="linux_raid_member"
    # parted /dev/sdb print
    Model: ATA SAMSUNG SSD UM41 (scsi)
    Disk /dev/sdb: 8012MB
    Sector size (logical/physical): 512B/512B
    Partition Table: msdos

    Number  Start   End     Size    Type      File system  Flags
     1      1049kB  538MB   537MB   primary   fat32

(Deliberately avoided btrfs, ext2/3/4 and xfs as recent versions of
their mkfs tools clear other signatures first for the same reason).

[1] Bug 688882 - Improve clearing of file system signatures
[2] 3c75f3f5b1
    Use wipefs to clear old signatures before creating new file systems (#688882)

Update erase_filesystem_signatures() to also zero the necessary sectors
to clear SWRaid metadata 0.90 and 1.0 super blocks.

Bug 756829 - SWRaid member detection enhancements
2015-11-02 10:03:45 -07:00
Mike Fleetwood a86f28bc32 Handle unusual case of missing mdadm but SWRaid arrays active (#756829)
If the installation is unusual / broken such that the mdadm command is
not found but there are active SWRaid arrays, provide a fallback with
some of the information.  In this case populate the cache with details
only available from /proc/mdstat.  Information will be limited to active
arrays only and their members.  No UUIDs or labels.  There will be no
information about inactive arrays and GParted will use it's normal
libparted and blkid identification for those devices and partitions.

As mdadm has gained the capability to manage Fake/BIOS RAID arrays they
also appear in /proc/mdstat when mdadm is used to start them.  Enhance
the parser of /proc/mdstat to only extract information for SWRaid arrays
with recognised metadata versions.

Bug 756829 - SWRaid member detection enhancements
2015-11-02 10:03:45 -07:00
Mike Fleetwood bab1109d3d Ensure SWRaid_Info cache is loaded at least once (#756829)
Automatically load the cache of SWRaid information for the first time if
any of the querying methods are called before the first explicit
load_cache() call.  Means we can't accidentally use the class and
incorrectly find no SWRaid members when they do exist.

Bug 756829 - SWRaid member detection enhancements
2015-11-02 10:03:45 -07:00
Mike Fleetwood f6c2f00df7 Populate member mount point with SWRaid array device (#756829)
Busy file systems are accessed via a mount point, LVM Physical Volumes
are activated via the Volume Group name and busy SWRaid members are
accessed via the array device, /dev entry.  Therefore choose to show the
array device in the mount point field for busy SWRaid members.

The kernel device name for an SWRaid array (without leading "/dev/") is
the same as used in /proc/mdstat and /proc/partitions.  Therefore the
array device (with leading "/dev/") displayed in GParted will match
between the mount point for busy SWRaid members and the array itself as
used in the device combo box.

    # cat /proc/mdstat
    Personalities : [raid1]
    md1 : active raid1 sda1[2] sdb1[3]
          524224 blocks super 1.0 [2/2] [UU]
    ...
    # cat /proc/partitions
    major minor  #blocks  name

       8        0   33554432 sda
       8        1     524288 sda1
    ...
       8       16   33554432 sdb
       8       17     524288 sdb1
    ...
       9        1     524224 md1
    ...

Bug 756829 - SWRaid member detection enhancements
2015-11-02 10:03:45 -07:00
Mike Fleetwood 7255c8af40 Use UUID and label of SWRaid arrays too (#756829)
In cases where blkid wrongly reports a file system instead of an SWRaid
member (sometimes confused by metadata 0.90/1.0 mirror array or old
version not recognising SWRaid members), the UUID and label are
obviously wrong too.  Therefore have to use the UUID and label returned
by the mdadm query command and never anything reported by blkid or any
file system specific command.

Example of blkid reporting the wrong type, UUID and label for /dev/sda1
and the correct values for /dev/sdb1:

    # blkid | egrep 'sd[ab]1'
    /dev/sda1: UUID="10ab5f7d-7d8a-4171-8b6a-5e973b402501" TYPE="ext4" LABEL="chimney-boot"
    /dev/sdb1: UUID="15224a42-c25b-bcd9-15db-60004e5fe53a" UUID_SUB="0a095e45-9360-1b17-0ad1-1fe369e22b98" LABEL="chimney:1" TYPE="linux_raid_member"

    # mdadm -E -s -v
    ARRAY /dev/md/1  level=raid1 metadata=1.0 num-devices=2 UUID=15224a42:c25bbcd9:15db6000:4e5fe53a name=chimney:1
       devices=/dev/sda1,/dev/sdb1
    ...
    ARRAY /dev/md127 level=raid1 num-devices=2 UUID=8dc7483c:d74ee0a8:b6a8dc3c:a57e43f8
       devices=/dev/sdb6,/dev/sda6
    ...

NOTES:
* In mdadm terminology the label is called the array name, hence name=
  parameter for array md/1 in the above output.
* Metadata 0.90 arrays don't support naming, hence the missing name=
  parameter for array md127 in the above output.

Bug 756829 - SWRaid member detection enhancements
2015-11-02 10:03:45 -07:00
Mike Fleetwood 0ce9857380 Move busy detection of SWRaid members into the new module (#756829)
Add active attribute to the cache of SWRaid members.  Move parsing of
/proc/mdstat to discover busy SWRaid members into the cache loading
code.  New parsing code is a little different because it is finding all
members of active arrays rather than determining if a specific member is
active.

Bug 756829 - SWRaid member detection enhancements
2015-11-02 10:03:45 -07:00
Mike Fleetwood 5f02bcf463 Detect Linux SWRaid members by querying mdadm (#756829)
Detection of Linux SWRaid members currently fails in a number of cases:

1)  Arrays which use metadata type 0.90 or 1.0 store the super block at
    the end of the partition.  So file system signatures in at least
    linear and mirrored arrays occur at the same offsets in the
    underlying partitions.  As libparted only recognises file systems
    this is what is detected, rather than an SWRaid member.

    # mdadm -E -s -v
    ARRAY /dev/md/1  level=raid1 metadata=1.0 num-devices=2 UUID=15224a42:c25bbcd9:15db6000:4e5fe53a name=chimney:1
       devices=/dev/sda1,/dev/sdb1
    ...
    # wipefs /dev/sda1
    offset               type
    ----------------------------------------------------------------
    0x438                ext4   [filesystem]
                         LABEL: chimney-boot
                         UUID:  10ab5f7d-7d8a-4171-8b6a-5e973b402501

    0x1fffe000           linux_raid_member   [raid]
                         LABEL: chimney:1
                         UUID:  15224a42-c25b-bcd9-15db-60004e5fe53a

    # parted /dev/sda print
    Model: ATA VBOX HARDDISK (scsi)
    Disk /dev/sda: 34.4GB
    Sector size (logical/physical): 512B/512B
    Partition Table: msdos

    Number  Start   End     Size    Type      File system  Flags
     1      1049kB  538MB   537MB   primary   ext4         boot, raid
    ...

2)  Again with metadata type 0.90 or 1.0 arrays blkid may report the
    contained file system instead of an SWRaid member.  Have a single
    example of this configuration with a mirrored array containing the
    /boot file system.  Blkid reports one member as ext4 and the other as
    SWRaid!

    # blkid | egrep 'sd[ab]1'
    /dev/sda1: UUID="10ab5f7d-7d8a-4171-8b6a-5e973b402501" TYPE="ext4" LABEL="chimney-boot"
    /dev/sdb1: UUID="15224a42-c25b-bcd9-15db-60004e5fe53a" UUID_SUB="0a095e45-9360-1b17-0ad1-1fe369e22b98" LABEL="chimney:1" TYPE="linux_raid_member"

    Bypassing the blkid cache gets the correct result.

    # blkid -c /dev/null /dev/sda1
    /dev/sda1: UUID="15224a42-c25b-bcd9-15db-60004e5fe53a" UUID_SUB="d0460f90-d11a-e80a-ee1c-3d104dae7e5d" LABEL="chimney:1" TYPE="linux_raid_member"

    However this can't be used because if a user has a floppy configured
    in the BIOS but no floppy attached, GParted will wait for minutes as
    the kernel tries to access non-existent hardware on behalf of the
    blkid query.  See commit:
        18f863151c
        Fix long scan problem when BIOS floppy setting incorrect

3)  Old versions of blkid don't recognise SWRaid members at all so always
    report the file system when found.  Occurs with blkid v1.0 on
    RedHat / CentOS 5.

The only way I can see how to fix all these cases is to use the mdadm
command to query the configured arrays.  Then use this information for
first choice when detecting partition content, making the order: SWRaid
members, libparted, blkid and internal.

GParted shell wrapper already creates temporary blank udev rules to
prevent Linux Software RAID arrays being automatically started when
GParted refreshes its device information[1].  However an administrator
could manually stop or start arrays or change their configuration
between refreshes so GParted must load this information every refresh.
On my desktop with 4 internal hard drives and 3 testing Linux Software
RAID arrays, running mdadm adds between 0.20 and 0.30 seconds to the
device refresh time.

[1] a255abf343
    Prevent GParted starting stopped Linux Software RAID arrays (#709640)

Bug 756829 - SWRaid member detection enhancements
2015-11-02 10:03:45 -07:00
Curtis Gedak 69cc508be2 Append -git to version for continuing development 2015-10-27 10:12:43 -06:00
Curtis Gedak 87053adae1 ========== gparted-0.24.0 ========== 2015-10-27 09:36:24 -06:00
Wolfgang Stöggl cf48f07038 Updated German translation 2015-10-26 04:40:40 +00:00
Daniel Korostil f09249750f Updated Ukrainian translation 2015-10-22 17:13:01 +03:00
Anders Jonsson 8a27b073b7 Updated Swedish translation 2015-10-21 21:53:34 +00:00
Daniel Mustieles bcb3628ab6 Updated Spanish translation 2015-10-21 14:29:03 +00:00
Alexandre Franke d9c76be725 Updated French translation 2015-10-21 08:41:41 +00:00
Jiri Grönroos 27f3b6c9a0 Updated Finnish translation 2015-10-21 07:28:33 +00:00
Claude Paroz 0d032498a9 Updated French help translation 2015-10-20 20:12:33 +02:00
Milo Casagrande 459144eeff Updated Italian translation 2015-10-20 17:08:22 +00:00
Daniel Șerbănescu 8fd4043d8f Updated Romanian Translation 2015-10-20 18:56:12 +02:00
Rafael Fontenelle 3ec385142d Updated Brazilian Portuguese translation 2015-10-20 16:29:18 +00:00
Mike Fleetwood 9d6ebb3dab Check usability of named device following a non-existent / invalid one (#756434)
When multiple devices are named on the command line and (after sorting
and removing duplicates) the device following a non-existent or invalid
one is not checked for usability [1].  In most situations this isn't
noticed as the device gets skipped at the "Searching ...  partitions"
step instead.  However as seen in bug 755495 and commit [2]
checking usability matters.

For example (on CentOS 6.5) a large sector disk device can be edited
when it follows a non-existent or invalid device named on the command
line:

    # modprobe scsi_debug dev_size_mb=128 sector_size=4096
    # fgrep scsi_debug /sys/block/*/device/model
    /sys/block/sdd/device/model:scsi_debug

    # ./gpartedbin /dev/does-not-exist /dev/sdd
    ======================
    libparted : 2.1
    ======================
    Could not stat device /dev/does-not-exist - No such file or directory.
    Device /dev/sdd has a logical sector size of 4096.  Not all parts of GNU Parted support this at the moment, and the working code is HIGHLY EXPERIMENTAL.

    /dev/sdd: unrecognised disk label

When erasing a device don't skip confirming the following device is
usable.

[1] Usable device as implemented by useable_device()
    Must not have a large sector size when GParted is built with an old
    version of libparted which doesn't support large sector sizes and
    must be able to read the first sector.

[2] 362b2db331
    Check disks named on the command line are safe to use too (#755495)

Bug 756434 - GParted dumps core when passing non-existent or invalid
             device on the command line
2015-10-15 09:39:49 -06:00
Mike Fleetwood bbf1a19cec Remove non-existent or invalid devices from those named (#756434)
A non-existent or invalid disk device named on the command line caused
two libparted dialogs to be displayed repeatedly on every refresh.  This
was because the device was only removed from the 'device_paths' vector
when it wasn't usable [1]; not when it didn't exist or was invalid, when
the libparted ped_device_get() call failed.  Fix this.

[1] Usable device as implemented by useable_device()
    Must not have a large sector size when GParted is built with an old
    version of libparted which doesn't support large sector sizes and
    must be able to read the first sector.

Bug 756434 - GParted dumps core when passing non-existent or invalid
             device on the command line
2015-10-15 09:39:19 -06:00
Mike Fleetwood 663807802f Prevent core dump with non-existent or invalid command line named device (#756434)
Naming a non-existent or invalid disk device on the command line causes
GParted to dump core.  Non-existent device looks like this:

    # ./gpartedbin /dev/does-not-exist
    ======================
    libparted : 2.4
    ======================
    Could not stat device /dev/does-not-exist - No such file or directory.
    Could not stat device /dev/does-not-exist - No such file or directory.
    Backtrace has 10 calls on stack:
      10: /lib64/libparted.so.0(ped_assert+0x31) [0x7fcfd10b3e61]
      9: /lib64/libparted.so.0(+0x3fdfc12a0c) [0x7fcfd10b4a0c]
      8: /home/mike/bin/gpartedbin-0.23.0-master-63-g23b5ba4() [0x455028]
      7: /home/mike/bin/gpartedbin-0.23.0-master-63-g23b5ba4() [0x455090]
      6: /home/mike/bin/gpartedbin-0.23.0-master-63-g23b5ba4() [0x4550d5]
      5: /home/mike/bin/gpartedbin-0.23.0-master-63-g23b5ba4() [0x46723f]
      4: /usr/lib64/libglibmm-2.4.so.1() [0x3ff5834a8d]
      3: /lib64/libglib-2.0.so.0() [0x3fe086a374]
      2: /lib64/libpthread.so.0() [0x3fdf407a51]
      1: /lib64/libc.so.6(clone+0x6d) [0x3fdf0e893d]
    Assertion (dev != NULL) at device.c:227 in function ped_device_open() failed.
    Aborted (core dumped)

And with an invalid device the output looks like this:

    # ./gpartedbin /dev/zero
    ======================
    libparted : 2.4
    ======================
    The device /dev/zero is so small that it cannot possibly store a file system or partition table.  Perhaps you selected the wrong device?
    Error fsyncing/closing /dev/zero: Invalid argument
    The device /dev/zero is so small that it cannot possibly store a file system or partition table.  Perhaps you selected the wrong device?
    Error fsyncing/closing /dev/zero: Invalid argument
    Backtrace has 10 calls on stack:
    ...
    [Same as above]

Bisected the cause to this commit from 2015-03-09 in GParted 0.22.0.  It
claimed to make no functional change.  That turned out not to be true.
    51ac4d5648
    Split get_device_and_disk() into two (#743181)

Fix by simply adding the missed if condition in get_device().

Bug 756434 - GParted dumps core when passing non-existent or invalid
             device on the command line
2015-10-15 09:38:49 -06:00
Mike Fleetwood 23b5ba4e4e Ensure DMRaid /dev entries are created before using named devices
For probed DMRaid devices (when not using libparted DMRaid support)
GParted waits up to 1 second for udev to have processed all events and
created the /dev entries after starting each DMRaid array.  This was
added by this commit from 2009-09-02:
    e7352a5000
    Ensure /dev file system device entries created before adding device

Do the same for devices named on the command line too.
2015-10-08 13:00:01 -06:00
Mike Fleetwood 3d3d98994b Sort command line named disk devices and remove duplicates (#755495)
Order named disk devices so that they appear in the combo box in the
same order which they would when probed.  Also remove duplicates so that
the same disk devices aren't scanned multiple times and appear
duplicated in the UI.

Try this; it used to take ages to load and looked weird:

    # gparted /dev/sda /dev/sdb /dev/sda /dev/sdb /dev/sda /dev/sdb

Bug 755495 - GParted allowing partitioning of large sector devices
             specified on the command line, when built with old
             libparted which doesn't support it
2015-10-08 13:00:01 -06:00
Mike Fleetwood 362b2db331 Check disks named on the command line are safe to use too (#755495)
When probing for disk devices GParted ensures that libparted is capable
of handling the sector size safely and that it is a real disk before it
is shown in the UI.  However when disk devices are named on the command
line none of these checks are performed.

Libparted versions before v2.2 can only safely handle a sector size of
512 bytes.  Therefore on old distributions with libparted < v2.2 GParted
allows unsafe editing of disk devices with larger sector sizes when they
are named on the command line.  Known to affect these distributions:
    RedHat/CentOS 5   (parted 1.8.1)
    RedHat/CentOS 6   (parted 2.1)

For example (on CentOS 6.5) large sector disk device is ignored when
probing:

    # modprobe scsi_debug dev_size_mb=128 sector_size=4096
    # fgrep scsi_debug /sys/block/*/device/model
    /sys/block/sdd/device/model:scsi_debug

    # gparted
    ======================
    libparted : 2.1
    ======================
    Device /dev/sdd has a logical sector size of 4096.  Not all parts of
    GNU Parted support this at the moment, and the working code is
    HIGHLY EXPERIMENTAL.

    Ignoring device /dev/sdd with logical sector size of 4096 bytes.
    GParted requires libparted version 2.2 or higher to support devices
    with sector sizes larger than 512 bytes.

However when the device is named it is not ignored and can be edited:

    # gparted /dev/sdd
    ======================
    libparted : 2.1
    ======================
    Device /dev/sdd has a logical sector size of 4096.  Not all parts of
    GNU Parted support this at the moment, and the working code is
    HIGHLY EXPERIMENTAL.

    /dev/sdd: unrecognised disk label

Apply the same validity checks to disk devices named on the command line
as to probed ones.

Bug 755495 - GParted allowing partitioning of large sector devices
             specified on the command line, when built with old
             libparted which doesn't support it
2015-10-08 13:00:01 -06:00
Mike Fleetwood 037020b116 Create new method GParted_Core::useable_device() (#755495)
Abstract code checking sector size and ensuring the first sector of a
candidate disk device can be read into new
GParted_Core::useable_device() method.

Bug 755495 - GParted allowing partitioning of large sector devices
             specified on the command line, when built with old
             libparted which doesn't support it
2015-10-08 13:00:01 -06:00
Mike Fleetwood 81b673ff5d Prevent 'index' may be used uninitialised warning in OperationDelete (#755214)
I missed another case of 'index' may be used uninitialised warning in
OperationDelete::apply_to_visual().  Indent a code block within an if
clause so that the compiler can confirm that the 'index' local variable
isn't used uninitialised.  Prevent this compiler warning:
    OperationDelete.cc: In member function 'virtual void GParted::OperationDelete::apply_to_visual(std::vector<GParted::Partition, std::allocator<GParted::Partition> >&)':
    OperationDelete.cc:34: warning: 'index' may be used uninitialized in this function

Bug 755214 - Refactor operation merging
2015-10-08 11:34:23 -06:00
Jiri Grönroos 27a12d82d1 Updated Finnish translation 2015-10-07 13:55:59 +00:00
Mike Fleetwood d925bd2bb5 Stop including removed <sigc++/class_slot.h> header (#756035)
Libsigc++2 version 2.5.2 and later removed header file
<sigc++/class_slot.h>.  Quoting the NEWS file for version 2.5.2:

    Remove useless headers: sigc++/class_slot.h ...

Libsigc++2 version 2.5.2 NEWS file:
https://git.gnome.org/browse/libsigc++2/tree/NEWS?id=2.5.2

Bug 756035 - GParted does not compile with newer gtkmm libraries in
             Fedora 23
2015-10-05 10:14:35 -06:00
Mike Fleetwood d6d7cb2bbf Enable C++11 compilation when using glibmm 2.45.40 and later (#756035)
Glibmm 2.45.40 and later uses features in the ISO C++ 2011 standard.
The NEWS file [1] says:

    Changes in 2.46 compared to 2.44:

    General:
    * Use, and require C++11, using features such as move operations,
      noexcept auto, = delete, nulltpr, override.
      (Murray Cumming, Kjell Ahlstedt)

Also found this by Murray Cumming [2]:

    glibmm 2.45.40 requires C++11, both for its own build and by any
    apps that use it.  gtkmm also now requires C++11.

    I think you are seeing a symptom of building the application without
    C++11 support.  For instance, using CXXFLAGS="--std=c++11", though
    you'd be better of using an m4 macro such as
    AX_CXX_COMPILE_STDCXX_11().

Without enabling C++11 compiler features, compilation of GParted with
the latest glibmm library fails with errors such as these:

    /usr/include/glibmm-2.4/glibmm/ustring.h:267:14: error: expected ';' at end of member declaration
       ~ustring() noexcept;
                ^
    /usr/include/glibmm-2.4/glibmm/ustring.h:267:14: error: 'noexcept' does not name a type
       ~ustring() noexcept;
                  ^
    /usr/include/glibmm-2.4/glibmm/ustring.h:267:14: note: C++11 'noexcept' only available with -std=c++11 or -std=gnu++11

[1] glibmm NEWS file
    https://git.gnome.org/browse/glibmm/tree/NEWS?id=934e8290ce913b12e251ea617d0fc8ac53c385c6

[2] https://bugs.launchpad.net/ubuntu/+source/glibmm2.4/+bug/1478367

Bug 756035 - GParted does not compile with newer gtkmm libraries in
             Fedora 23
2015-10-05 10:14:35 -06:00
Mike Fleetwood f97cac9ab4 Include local copy of Autoconf Archive macro AX_CXX_COMPILE_STDCXX_11 (#756035)
Older distributions don't include Autoconf Archive at all and newer
distributions don't always include it.  Therefore we have to have a
local copy of the AX_CXX_COMPILE_STDCXX_11 macro with GParted.

Bug 756035 - GParted does not compile with newer gtkmm libraries in
             Fedora 23
2015-10-05 10:14:35 -06:00
Seong-ho Cho 5367af04a6 Updated Korean translation 2015-10-05 01:37:05 +09:00