GParted crashes when blkid doesn't provide the UUID of the exfat
partition and its serial has preceding zeroes (and it isn't mounted).
blkid doesn't report UUID if the serial number is 0000-0000 (a.k.a.
0x0).
Steps to reproduce:
# truncate -s 4M /tmp/disk.img
# losetup -f --show /tmp/disk.img
/dev/loop0
# mkfs.exfat /dev/loop0
[...]
exFAT format complete!
# partprobe /dev/loop0
# blkid /dev/loop0
/dev/loop0: UUID="F7BF-ABFF" BLOCK_SIZE="512" TYPE="exfat" PTTYPE="dos"
# exfatlabel /dev/loop0 -i 0x0
exfatprogs version : 1.1.3
New volume serial : 0x0
# blkid /dev/loop0
/dev/loop0: BLOCK_SIZE="512" TYPE="exfat" PTTYPE="dos"
# gparted /dev/loop0
GParted 1.3.1
configuration --enable-libparted-dmraid --enable-online-resize
libparted 3.4
** (gpartedbin:94926): ERROR **: 10:45:01.894:
unhandled exception (type std::exception) in signal handler:
what: basic_string::assign: __pos (which is 18446744073709551615) > this->size() (which is 3)
Trace/breakpoint trap (core dumped)
# losetup -d /dev/loop0; rm /tmp/disk.img
As blkid doesn't report exfat UUID 0000-0000 FS_Info cache can't report
it so exfat::read_uuid() is called. Then `tune.exfat -i /dev/loop0` is
executed:
# tune.exfat -i /dev/loop0
exfatprogs version : 1.1.3
volume serial : 0x0
And exfat::serial_to_blkid_uuid() is called with "0x0", which causes a
crash. Fix by safely handling volume serial numbers of any length,
specifically shorter than 8 hexadecimal digits.
Closes!115 - Fix crash when dealing with 0000-0000 exfat UUID
get_text() only performs const access on the ProgressBar object so
return the member string by constant reference.
Previously done for other string returning getters, even though the
value is assigned to a variable and doesn't save anything:
1f6e81295b
Return constant reference from OperationDetail::get_description() (!94)
The only use of the reference returned from
OperationDetail::get_progressbar() is to call const methods
ProgressBar::running(), ::get_fraction() and ::get_text(). Therefore
make OperationDetail::get_progressbar() return a const reference.
As described in the previous commit "Clear progress bar text when
starting the bar (#230)" progress bar data is either reporting bytes
copied or fraction complete. The bytes copied case gets in progress
text like this:
544.00 MiB of 1.00 GiB copied (00:00:11 remaining)
But the fraction complete gets no text.
Now also generate time remaining text for progress bars only reporting
fraction complete. As with the bytes copied text only add the time
remaining estimate after 5 seconds have passed. Looks like:
(00:01:59 remaining)
This is most useful for NTFS partition copy and resize operations which
can take a while depending on the amount of data involved.
These operations use steps which generate progress bar bytes copied
information text:
* Partition move or copy using GParted's internal block copy
* EXT2/3/4 partition move or copy
* XFS partition copy
The bytes copied text looks like this (after the copy completes and the
time remaining is no longer included):
1.00 GiB of 1.00 GiB copied
And these operations use steps which generate progress bar information
without text (because the progress bar data only represents a fraction
complete):
* EXT2/3/4 partition resize
* EXT2/3/4 partition create
* EXT2/3/4 partition format
* EXT2/3/4 partition check
* NTFS partition resize
* NTFS partition copy
In the Applying pending operations dialog, while an operation is being
applied there are 2 progress bars. The top progress bar displays either
a pulse bar or the progress bar data for the current step. Additionally
for the relevant steps the progress bar generates the bytes copied text.
This text, when available, is displayed in small grey characters just
above the progress bar itself.
Copy a FAT partition and apply. Bytes copied text is displayed just
above the top progress bar. Copy an NTFS partition and apply. The left
behind bytes copied text from the previous operation is displayed,
instead of nothing.
Restart GParted and copy an NTFS partition and apply. As intended, this
time there is no bytes copied text displayed just above the top progress
bar.
As there is just a single ProgressBar object, single_progressbar, fix
this by clearing the progress bar text each time it is started.
Closes#230 - Missing progress bar text reset when applying operation
Fragment of a failed CI test job from a GiLab job runner which didn't
allow creation of block special devices looked like:
$ tests/makedev.sh
mknod -m 0660 /dev/sda b 8 0
mknod: '/dev/sda': Operation not permitted
chown: cannot access '/dev/sda': No such file or directory
mknod -m 0660 /dev/sda1 b 8 1
mknod: '/dev/sda1': Operation not permitted
chown: cannot access '/dev/sda1': No such file or directory
mkdir: created directory '/dev/disk'
mkdir: created directory '/dev/disk/by-id/'
'/dev/disk/by-id/gparted-sda' -> '/dev/sda'
test/makedev.sh attempted to create two block devices it wanted for
testing, but that failed with "Operation not permitted". It then
created dangling symbolic link /dev/disk/by-id/gparted-sda -> /dev/sda;
gparted-sda pointed to a name which didn't exist.
Despite the previous commit testing and skipping every test where the
block device doesn't exist this unit test still failed:
[ RUN ] BlockSpecialTest.NamedBlockSpecialObjectBySymlinkMatches
test_BlockSpecial.cc:186: Failure
Failed
follow_link_name(): Failed to resolve symbolic link '/dev/disk/by-id/gparted-sda'
test_BlockSpecial.cc:271: Skip test. Block device '' does not exist
[ FAILED ] BlockSpecialTest.NamedBlockSpecialObjectBySymlinkMatches (0 ms)
The unit test called get_link_name() which read the directory
/dev/disk/by-id and found symbolic link gparted-sda. It then called
follow_link_name() passing /dev/disk/by-id/gparted-sda which used
realpath(3) to get the canonicalised absolute pathname, which includes
following links. But as gparted-sda pointed to a non-existent file it
failed and reported message "Failed to resolve symbolic link ...". Then
after that the unit test skips the non-existent block device, but the
test has already failed at that point.
Fix the unit test by also checking the symbolic link points to an
existing block device before calling follow_link_name() on it. This
works because SKIP_IF_BLOCK_DEVICE_DOESNT_EXIST() uses stat(3), which
follows symbolic links, in it's verification.
Also put SKIP_IF_BLOCK_DEVICE_DOESNT_EXIST() immediately after each
initialisation of a block device name for some sort of consistency with
it's need in this fixed NamedBlockSpecialObjectBySymlinkMatches unit
test.
Closed!113 - Fix occasional GitLab CI test jobs failures on
BlockSpecial unit tests
Since November 2022 test_BlockSpecial has been occasionally failing in
GNOME GitLab Docker CI test jobs like this:
[ RUN ] BlockSpecialTest.NamedBlockSpecialObjectBlockDevice
test_BlockSpecial.cc:216: Failure
Value of: bs.m_major > 0 || bs.m_minor > 0
Actual: false
Expected: true
[ FAILED ] BlockSpecialTest.NamedBlockSpecialObjectBlockDevice (0 ms)
...
[ RUN ] BlockSpecialTest.TwoNamedBlockSpecialObjectBlockDevices
test_BlockSpecial.cc:244: Failure
Value of: bs1.m_major != bs2.m_major || bs1.m_minor != bs2.m_minor
Actual: false
Expected: true
[ FAILED ] BlockSpecialTest.TwoNamedBlockSpecialObjectBlockDevices (0 ms)
[ RUN ] BlockSpecialTest.NamedBlockSpecialObjectBySymlinkMatches
test_BlockSpecial.cc:170: Failure
Failed
follow_link_name(): Failed to resolve symbolic link '/dev/disk/by-id/gparted-sda'
[ FAILED ] BlockSpecialTest.NamedBlockSpecialObjectBySymlinkMatches (0 ms)
...
3 FAILED TESTS
FAIL test_BlockSpecial (exit status: 1)
As identified previously [1] the Docker CI images no longer have any
block devices in /dev. test/makedev.sh script was added to create block
devices test_BlockSpecial needs for it's testing. Now a subset of the
GNOME GitLab job runners additionally prevent creation of block special
device nodes. test/makedev.sh reports this:
$ tests/makedev.sh
mknod -m 0660 /dev/sda b 8 0
mknod: /dev/sda: Operation not permitted
chown: cannot access '/dev/sda': No such file or directory
mknod -m 0660 /dev/sda1 b 8 1
mknod: /dev/sda1: Operation not permitted
chown: cannot access '/dev/sda1': No such file or directory
Alternative rejected solutions:
1. Use fakeroot [2]. Package is available for the 3 distributions used
in CI jobs. Does fake stat() call. Works when run like this in the
CI test jobs:
fakeroot -s test/fakeroot.env tests/makedev.sh
fakeroot -i test/fakeroot.env make check
fakeroot -i test/fakeroot.env make distcheck
But if you run fakeroot ... make check on our development machines
as a non-root user it causes the test_SupportedFileSystems unit
tests which use losetup to fail. This is because
test_SupportedFileSystems thinks it's root inside the fakeroot
environment but fakeroot doesn't fake enough for losetup to work.
This makes running tests in the GitLab CI jobs different from how we
would have to run them on our development machines. Prefer not to
do that.
2. Use GNU ld --wrap [3] to call our own __wrap_stat() allowing
test_BlockSpecial to provide mocked results to the stat() call in
constructor BlockSpecial::BlockSpecial(). This works with
GNU C Library >= 2.33, released 01-Feb-2021, and musl libc,
therefore it works on CI tested distributions Ubuntu LTS >= 22.04
and Alpine Linux respectively. However this fails on earlier glibc
releases, so will fail on CentOS 7 CI image, as the compiler emits a
call to __xstat() rather than stat(). This is something to do with
how glibc's /usr/include/sys/stat.h supported multiple versions of
stat(). Don't use this as it's doesn't work everywhere.
Additional useful implementation hints. [4][5]
Choose to fix by just skipping unit tests which need block special names
to exist in the file system, but don't exist. This is the same
technique that test_SupportedFileSystems uses. So tests/makedev.sh
creates block devices if it can in the GNOME GitLab CI test images [1]
and now if that fails the individual unit tests are skipped.
[1] 57983b9fc2
Create block special devices needed by test_BlockSpecial in GitLab
CI jobs (!59)
[2] FakeRoot
https://wiki.debian.org/FakeRoot
[3] ld(1) - Linux manual page
https://man7.org/linux/man-pages/man1/ld.1.html
"--wrap=symbol
Use a wrapper function for symbol. Any undefined reference to
symbol will be resolved to "__wrap_symbol". Any undefined
reference to "__real_symbol" will be resolved to symbol.
This can be used to provide a wrapper for a system function.
The wrapper function should be called "__wrap_symbol". If it
wishes to call the system function, it should call
"__real_symbol".
...
"
[4] gcc: error: unrecognized option --wrap
https://stackoverflow.com/questions/33278164/gcc-error-unrecognized-option-wrap
[5] C++ ld linker --wrap option does not work for internal function calls
https://stackoverflow.com/questions/44464961/c-ld-linker-wrap-option-does-not-work-for-internal-function-callsClosed!113 - Fix occasional GitLab CI test jobs failures on
BlockSpecial unit tests
Add these simple debugging aids to the GNOME GitLab CI test job.
They've been needed before [1] so add them permanently.
[1] 57983b9fc2
Create block special devices needed by test_BlockSpecial in GitLab
CI jobs (!59)
"Contents of /proc/partitions inside the Docker image when this
test CI job failed:
...
And the listing of /dev/:
"
Closed!113 - Fix occasional GitLab CI test jobs failures on
BlockSpecial unit tests
STAT_FORMATTED is only used inside snap_to_mebibyte() to suppress
enforcement that partition boundaries must not overlay the MBR or EBRs
when merely formatting existing partitions. However since commit [1],
snap_to_mebibyte() is only called inside the dialogs composing Create
New, Copy / Paste into New and Resize / Move operations and never when
composing a Format operation or any other operation which doesn't change
partition boundaries. Therefore remove STAT_FORMATTED.
[1] 7c94b7d920
Snap partition boundaries before dialogs update FS usage (#48)
The available number of sectors 'total_length' is calculated as one
sector too few. However this doesn't matter because when composing a
new partition in Dialog_Partition_New::Get_New_Partition() the dialog
fits the end of the partition to the end of the unallocated partition
'new_partition->sector_end' in which it is being created, not the
available space. Missed in earlier commit:
4f84cff781
cleanups
Anyway correct the calculation.
As a partition's position is completely defined by it's starting and
ending sector, it is aligned if both boundaries are aligned. The size
of a partition just depends on the starting and ending sector.
Therefore it is never necessary to also check if the size of the
partition is also an exact multiple of MiB. Remove this unnecessary
portion of the alignment check when resizing/moving a partition (or
copy/pasting into a new partition).
Now Win_GParted::m_display_device.partitions is an identical copy of
Win_GParted::display_partitions with the same lifetime. That's wasteful
and pointless. Therefore remove the later and use the former in it's
place.
Closes#227 - Unable to allocate 1 MiB between partitions when moving to
the right
The Create New and Paste dialogs also create partitions and have to
honour currently composed partitions while doing so. Therefore they
must have a Device object containing the currently composed partition
layout for passing into snap_to_alignment() and below. So copy the
current Device object when refreshing the visual at the same time
visual_partitions is generated and use in all 3 dialogs which compose
new partitions.
Note that Create New and Paste aren't subject to the same bug as Resize/
Move was because the code in snap_to_mebibyte() [1] checked the
partition object being composed has status STAT_REAL. This is true for
partition objects created by the Resize/Move dialog, but not true for
the Create New and Paste dialogs which set status to STAT_NEW and
STAT_COPY respectively instead.
[1] Dialog_Base_Partition::snap_to_mebibyte() lines 418 to 438
https://gitlab.gnome.org/GNOME/gparted/-/blob/GPARTED_1_5_0/src/Dialog_Base_Partition.cc#L418Closes#227 - Unable to allocate 1 MiB between partitions when moving to
the right
Start with 2 partitions next to each other, containing file systems that
GParted can move and resize.
EG:
|[#1 ext2 ][#2 swap ] |
Move the start of partition #2 to the right. Then attempt to move the
end of partition #1 to the right to meet it.
EG:
|[#1 ext2 ][#2 swap ] |
The Resize/Move dialog will allow the free space following to be set to
0 so partition #1 is again adjacent to partition #2, but after closing
the dialog a forced 1 MiB gap is added, shrinking the composed size of
partition #1 by that 1 MiB.
If instead the first operation to shrink and move partition #2 is
applied, then partition #1 can be successfully resize right up to
partition #2 without a 1 MiB gap.
Relevant call sequence:
Win_GParted::activate_resize()
Dialog_Partition_Resize_Move::Dialog_Partition_Resize_Move()
Dialog_Base_Partition::Get_New_Partition()
prepare_new_partition()
snap_to_alignment()
snap_to_mebibyte()
prepare_new_partition() created a new partition object to correctly
represent the resized/moved partition #1. However this code in
snap_to_mebibyte() [1] determined that the new location for partition #1
overlapped with where partition #2 currently is on disk, not where
partition #2 will be after the previous operation is applied, therefore
it forced a 1 MiB decrease in partition #1's size creating the gap.
This is because snap_to_mebibyte() is working with the on disk view of
the partitions obtained from devices[current_device] passed into the
Dialog_Partition_Resize_Move() constructor. Hence why applying the
operations one at a time doesn't suffer from the forced 1 MiB gap.
Fix this by creating a copy of the current device object, replacing the
on disk partition layout with the composed partition layout as displayed
in the UI. Then pass this into the Dialog_Partition_Resize_Move
constructor.
[1] Dialog_Base_Partition::snap_to_mebibyte() lines 418 to 438
https://gitlab.gnome.org/GNOME/gparted/-/blob/GPARTED_1_5_0/src/Dialog_Base_Partition.cc#L418Closes#227 - Unable to allocate 1 MiB between partitions when moving to
the right
More recent g++ versions produce these warnings:
test_PasswordRAMStore.cc: In member function ‘virtual void GParted::PasswordRAMStoreTest_TotalErasure_Test::TestBody()’:
test_PasswordRAMStore.cc:61:32: warning: ‘ ’ directive output truncated writing 20 bytes into a region of size 10 [-Wformat-truncation=]
snprintf( buf, sizeof( buf ), "password%03u ", i );
^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
test_PasswordRAMStore.cc:61:10: note: ‘snprintf’ output 32 bytes into a destination of size 21
snprintf( buf, sizeof( buf ), "password%03u ", i );
~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
snprintf() [1] truncates the printed string to the specified size so
didn't overflow the buffer. However clear the warning by making the
formatted string always exactly 20 characters long, followed by the
terminating NUL character to exactly fill the buffer.
[1] print3(f) - Linux manual page
https://man7.org/linux/man-pages/man3/snprintf.3.html
"The functions snprintf() and vsnprintf() write at most size bytes
(including the terminating null byte ('\0')) to str.
"
Using Automake variable EXTRA_DIST [1] to list the GParted header files
seems overly general. Instead use noinst_HEADERS [2] as it better
describes GParted header files. Header files which need to be
distributed in the archive, but not part of an installed library so not
to be installed below /usr/include.
[1] GNU Automake manual, 14.1 Basics of Distribution
https://www.gnu.org/software/automake/manual/html_node/Basics-of-Distribution.html
"..., it is still common to have files to be distributed which
are not found by the automatic rules. You should listed these
files in the EXTRA_DIST variable. You can mention files in
subdirectories in EXTRA_DIST.
"
[2] GNU Automake manual, 9.2 Header files
https://www.gnu.org/software/automake/manual/html_node/Headers.html
"Usually, only header files that accompany installed libraries
need to be installed. Headers used by programs or convenience
libraries are not installed. The noinst_HEADERS variable can be
used for such headers. However, when the header belongs to a
single convenience library or program, we recommend listing it
in the program's or library's _SOURCES variable (see Defining
program sources) instead of in noinst_HEADERS. This is clearer
for the Makefile.am reader. noinst_HEADERS would be the right
variable to use in a directory containing only headers and no
associated library or program.
All header files must be listed somewhere; in a _SOURCES
variable or in a _HEADERS variable. Missing ones will not
appear in the distribution.
"
The code in erase_filesystem_signatures() used libparted
ped_device_write() which allowed any sector in the whole disk device to
be written. The code only depended on calculations of somewhat
complicated zero offset ranges and the start partition offset to ensure
that it didn't zero sectors outside the target partition. The code
doesn't overwrite partition boundaries, but there have been updates and
bug fixes to the calculation code. To improve the safety create a
libparted geometry representing the partition, or whole disk device,
to be cleared and use ped_geometry_write() so that libparted enforces
writes are only within the partition boundary being erased.
Deliberately breaking erase_filesystem_signatures() code so that it
tries to write past the end of the partition produces this dialog:
Libparted Error
(-) Attempt to write sectors 1024000-1024007 outside of
partition on /dev/sdb.
[ Cancel ] [ Ignore ]
And trying to write before the start of the partition produces this
dialog:
Libparted Bug
(-) Assert (offset >= 0) at cs/geom.c:375 in function
ped_geometry_write() failed.
[ No ]
Followed by GParted aborting and producing a core dump. Not ideal from
libparted, but it does prevent GParted writing outside the partition
boundaries and only occurs in the case of a bug in
erase_filesystem_signatures() which is exercised on every Create and
Format Partition operation and now also unit tested. So not something
we will let through to the users.
Since the previous commit "Also erase all Promise FastTrack RAID
signatures" the previous failing IntelSoftwareRAIDUnaligned test now
passes along with the new PromiseFastTrackRaid* tests.
$ ./test_EraseFileSystemSignatures
Running main() from test_EraseFileSystemSignatures.cc
DISPLAY=":0.0"
[==========] Running 4 tests from 1 test case.
[----------] Global test environment set-up.
[----------] 4 tests from EraseFileSystemSignaturesTest
[ RUN ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDAligned
[ OK ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDAligned (158 ms)
[ RUN ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDUnaligned
[ OK ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDUnaligned (81 ms)
[ RUN ] EraseFileSystemSignaturesTest.PromiseFastTrackRAIDAligned
[ OK ] EraseFileSystemSignaturesTest.PromiseFastTrackRAIDAligned (74 ms)
[ RUN ] EraseFileSystemSignaturesTest.PromiseFastTrackRAIDUnaligned
[ OK ] EraseFileSystemSignaturesTest.PromiseFastTrackRAIDUnaligned (74 ms)
[----------] 4 tests from EraseFileSystemSignaturesTest (387 ms total)
[----------] Global test environment tear-down
[==========] 4 tests from 1 test case ran. (387 ms total)
[ PASSED ] 4 tests.
Closes#220 - Format to Cleared not clearing "pdc" ataraid signature
User reported that GParted didn't clear a pdc (Promise FastTrack) RAID
signature [1]. Reproduce this issue by creating a 16 MiB - 512 byte
test image with Promise FastTrack RAID signatures at all recognised
offsets [2].
$ python << 'EOF'
signature = b'Promise Technology, Inc.'
import os
fd = os.open('/tmp/test.img', os.O_CREAT|os.O_WRONLY)
os.ftruncate(fd, 16*1024*1024 - 512)
for offset in [63, 255, 256, 16, 399, 591, 675, 735, 911, 974, 991, 951, 3087]:
os.lseek(fd, -(offset*512), os.SEEK_END)
os.write(fd, signature)
os.close(fd)
EOF
Then use GParted Format to > Cleared.
$ sudo ./gpartedbin /tmp/test.img
Afterwards blkid, and therefore GParted, still recognises this as a
Promise FastTrack RAID member.
$ blkid /tmp/test.img
/tmp/test.img: TYPE="promise_fasttrack_raid_member"
This is because the test image still contains multiple signatures.
$ hexdump -C /tmp/test.img | grep Promise
00e7e000 50 72 6f 6d 69 73 65 20 54 65 63 ... |Promise Technolo|
00fce000 50 72 6f 6d 69 73 65 20 54 65 63 ... |Promise Technolo|
00fdfe00 50 72 6f 6d 69 73 65 20 54 65 63 ... |Promise Technolo|
00ff8000 50 72 6f 6d 69 73 65 20 54 65 63 ... |Promise Technolo|
Used a test image not an exact multiple of MiBs because drives generally
aren't an exact MiB multiple in size either and as the clearing of ZFS
labels L2 and L3 by writes of zeros at the end of the drive is rounded
to 256 KiBs there will be sectors after that not zeroed where other
Promise signatures remain. The above signatures map back to these
sectors before the end:
16*1024*1024 - 512 = 16776704
512b sectors KiB
(0x00e7e000 - 16776704) / 512 = -3087 -1543.5
(0x00fce000 - 16776704) / 512 = -399 -199.5
(0x00fdfe00 - 16776704) / 512 = -256 -128
(0x00ff8000 - 16776704) / 512 = -63 -31.5
Promise FastTrack RAID signatures are always at multiples 512-byte
sectors (code uses left shift 9 to convert from sectors to byte offset)
[2].
Fix this by:
1. Replace existing zeroing of 3 ranges relative to the end of the
device to be a single range covering the ZFS labels L2 and L3 to the
end of the drive. This will also clear the SWRaid 0.90 & 1.0
super blocks, the Nilfs2 secondary super block, the Intel Software
RAID signature found not zeroed in the unaligned unit test case and
the above Promise FastTrack RAID signatures at -199.5 KiB and later.
2. Add zeroing of the final Promise FastTrack RAID signature at sector
-3087.
Performed a review of all the other ATARAID super blocks detected by
blkid (files *_raid.c) [3] and they are all located within the last 11
sectors so will be zeroed by case 1. above.
[1] GParted forum thread: How to remove a ataraid partition ?
http://gparted-forum.surf4.info/viewtopic.php?id=18104
[2] blkid from util-linux promise_raid.c:probe_pdcraid()
https://git.kernel.org/pub/scm/utils/util-linux/util-linux.git/tree/libblkid/src/superblocks/promise_raid.c?h=v2.38.1#n27
[3] blkid RAID member detection (files *_raid.c)
https://git.kernel.org/pub/scm/utils/util-linux/util-linux.git/tree/libblkid/src/superblocks/?h=v2.38.1Closes#220 - Format to Cleared not clearing "pdc" ataraid signature
Each test in test_EraseFileSystemSignatures is taking just over 10
seconds to run in the Alpine Linux CI image:
[ RUN ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDAligned
[ OK ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDAligned (10045 ms)
[ RUN ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDUnaligned
...
[ FAILED ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDUnaligned (10048 ms)
[----------] 2 tests from EraseFileSystemSignaturesTest (20093 ms total)
[----------] Global test environment tear-down
[==========] 2 tests from 1 test case ran. (20093 ms total)
This is because the udevadm command is not found and so settle_device()
waits for 10 seconds in this call chain:
erase_filesystem_signatures()
settle_device(SETTLE_DEVICE_APPLY_MAX_WAIT_SECONDS)
sleep(10)
Install udevadm command into the Alpine Linux CI job docker image to fix
this. Now it's on a par with the time taken in the other distro CI test
jobs:
[ RUN ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDAligned
[ OK ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDAligned (417 ms)
[ RUN ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDUnaligned
...
[ FAILED ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDUnaligned (165 ms)
[----------] 2 tests from EraseFileSystemSignaturesTest (582 ms total)
[----------] Global test environment tear-down
[==========] 2 tests from 1 test case ran. (582 ms total)
Closes#220 - Format to Cleared not clearing "pdc" ataraid signature
Move common testing code which doesn't need linking with GParted objects
into the common module. Move the remaining common code used to print
GParted objects using the insertion operator (operator<<) into the
insertion_operators module. Split the common code like this so that the
operator<<(std::ostream&, const OperationDetail&) function is not
included in test_PipeCapture and it is not forced to link with all the
non-UI related GParted objects.
The Automake manual provides guidance that when a header belongs to a
single program it is recommended to be listed in the program's _SOURCES
variable and for a directory only containing header files listing them
in the noinst_HEADERS variable is the right variable to use [1].
However the guidance doesn't cover this case for common.h and
insertion_operators.h; header files in a directory with other files and
used by multiple programs. So just because we have gparted_core_OBJECTS
(normal Makefile, not Automake special variable) listing objects to link
with, choose to use noinst_HEADERS Automake variable to list needed
headers.
[1] GNU Automake manual, 9.2 Header files
https://www.gnu.org/software/automake/manual/html_node/Headers.html
"Usually, only header files that accompany installed libraries
need to be installed. Headers used by programs or convenience
libraries are not installed. The noinst_HEADERS variable can be
used for such headers. However, when the header belongs to a
single convenience library or program, we recommend listing it
in the program's or library's _SOURCES variable (see Defining
program sources) instead of in noinst_HEADERS. This is clearer
for the Makefile.am reader. noinst_HEADERS would be the right
variable to use in a directory containing only headers and no
associated library or program.
All header files must be listed somewhere; in a _SOURCES
variable or in a _HEADERS variable. Missing ones will not
appear in the distribution.
"
Closes#220 - Format to Cleared not clearing "pdc" ataraid signature
Initially just testing erasing of Intel Software RAID signatures.
Chosen because it was expected to work, but turned out not to be true in
all cases.
The code needs to initialise GParted_Core::mainthread, construct
Gtk::Main() and execute xvfb-run because of this call chain:
GParted_Core::erase_filesystem_signatures()
GParted_Core::settle_device()
Utils::execute_command ("udevadm settle ...")
status.foreground = (Glib::Thread::self() == GParted_Core::mainthread)
Gtk::Main::run()
This was also needed when testing file system interface classes as
discussed in commits [1][2].
The test fails like this:
$ ./test_EraseFileSystemSignatures
...
[ RUN ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDAligned
[ OK ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDAligned (155 ms)
[ RUN ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDUnaligned
test_EraseFileSystemSignatures.cc:286: Failure
Failed
image_contains_all_zeros(): First non-zero bytes:
0x00001A00 "Intel Raid ISM C" 49 6E 74 65 6C 20 52 61 69 64 20 49 53 4D 20 43
test_EraseFileSystemSignatures.cc:320: Failure
Value of: image_contains_all_zeros()
Actual: false
Expected: true
[ FAILED ] EraseFileSystemSignaturesTest.IntelSoftwareRAIDUnaligned (92 ms)
Manually write the same test image:
$ python << 'EOF'
signature = b'Intel Raid ISM Cfg Sig. '
import os
fd = os.open('/tmp/test.img', os.O_CREAT|os.O_WRONLY)
os.ftruncate(fd, 16*1024*1024 - 512)
os.lseek(fd, -(2*512), os.SEEK_END)
os.write(fd, signature)
os.close(fd)
EOF
Run gpartedbin /tmp/test.img and Format to > Cleared. GParted continues
to display the the image file as containing an ataraid signature.
$ blkid /tmp/test.img
/tmp/test.img: TYPE="isw_raid_member"
$ hexdump -C /tmp/test.img
00000000 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 |................|
*
00fffa00 49 6e 74 65 6c 20 52 61 69 64 20 49 53 4d 20 43 |Intel Raid ISM C|
00fffa10 66 67 20 53 69 67 2e 20 00 00 00 00 00 00 00 00 |fg Sig. ........|
00fffa20 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 |................|
*
00fffe00
This signature is not being cleared when the device/partition/image size
is 512 bytes smaller than a whole MiB because the last 3.5 KiB is left
unwritten. This is because the last block of zeros written is 8 KiB
aligned to 4 KiB at the end of the device.
[1] a97c23c57c
Add initial create ext2 only FileSystem interface class test (!49)
[2] 8db9a83b39
Run test program under xvfb-run to satisfy need for an X11 display (!49)
Closes#220 - Format to Cleared not clearing "pdc" ataraid signature
As documented in the previous commit xfsprogs >= 5.19.0 refuses to
create an XFS file system smaller than 300 MiB.
$ truncate -s $((300*1024*1024-1)) test.img
$ ls -l test.img
-rw-r--r-- 1 auser auser 314572799 Dec 21 11:01 test.img
$ mkfs.xfs -V
mkfs.xfs version 6.0.0
$ mkfs.xfs test.img
Filesystem must be larger than 300MB.
...
$ echo $?
1
Successfully create an XFS file system at minimum size of 300 MiB.
$ truncate -s $((300*1024*1024)) test.img
$ ls -l test.img
-rw-r--r-- 1 auser auser 314572800 Dec 21 11:05 test.img
$ mkfs.xfs test.img
...
$ echo $?
0
$ blkid test.img
test.img: UUID="..." BLOCK_SIZE="512" TYPE="xfs"
Increase the GParted minimum XFS size to 300 MiB. For simplicity and
because the XFS developers said of smaller XFS file systems [1]:
"are known to have performance and redundancy problems that are not
present on the volume sizes that XFS is best at handling"
regardless of the version of mkfs.xfs used to create that XFS then apply
to all versions of xfsprogs.
[1] https://git.kernel.org/pub/scm/fs/xfs/xfsprogs-dev.git/commit/?id=6e0ed3d19c54603f0f7d628ea04b550151d8a262
mkfs: stop allowing tiny filesystems
Closes#217 - GitLab CI test job failing with new mkfs.xfs error
"Filesystem must be larger than 300MB."
From 27-Nov-2022 the alpine_test GitLab CI job started failing,
reporting errors creating XFS file systems in the
test_SupportedFileSystems unit test like this:
[ RUN ] My/SupportedFileSystemsTest.Create/xfs
test_SupportedFileSystems.cc:501: Failure
Value of: m_fs_object->create(m_partition, m_operation_detail)
Actual: false
Expected: true
Operation details:
mkfs.xfs -f -L '' '/builds/GNOME/gparted/tests/test_SupportedFileSystems.img' 00:00:00 (ERROR)
Filesystem must be larger than 300MB.
...
This is because Docker image "alpine:latest" has updated to Alpine Linux
3.17 which includes xfsprogs 6.0.0 which includes this change (first
released in xfsprogs 5.19.0):
https://git.kernel.org/pub/scm/fs/xfs/xfsprogs-dev.git/commit/?id=6e0ed3d19c54603f0f7d628ea04b550151d8a262
mkfs: stop allowing tiny filesystems
Refuse to format a filesystem that are "too small", because these
configurations are known to have performance and redundancy problems
that are not present on the volume sizes that XFS is best at
handling.
Specifically, this means that we won't allow logs smaller than 64MB,
we won't allow single-AG filesystems, and we won't allow volumes
smaller than 300MB.
Increase the default unit test file system image size from 256 MiB to
256+64 = 320 MiB to avoid this error.
Closes#217 - GitLab CI test job failing with new mkfs.xfs error
"Filesystem must be larger than 300MB."