* Due to a typo in vhd.c where the second safe_stricmp() should be against ".vhd" and not ".vhdx" again.
* Also enable the ignore boot marker bypass for VHD/VHDX/FFU and don't misreport those images as
"compressed disk images".
* Closes#2309.
* This is placed behind an expert wall (Ctrl-Alt-E) on account that:
- If you happen to boot a Windows To Go drive in S Mode on a computer, it may set any
existing Windows installation there to S Mode as well, *even if their disk is offline!*
- It can be *exceedingly* tricky to get out of S Mode, as the SkuPolicyRequired registry
trick alone may not be enough (i.e. You can have very much a Windows install in S Mode
*without* SkuPolicyRequired being set anywhere).
* Also set version to rufus-next and fix a ChangeLog typo.
* Per https://en.wikipedia.org/wiki/Design_of_the_FAT_file_system#Directory_entry it
is possible to have a FAT directory entry with a 'EFI' volume label alongside with
a 'EFI' subdirectory.
* If that happens, then the current Syslinux libfat_searchdir() code may treat the
'EFI' volume label as an empty subdirectory and say that there are no bootloaders,
even if the 'EFI\Boot\Boot###.efi' binaries really do exist.
* Fix this by filtering out entries with the 'volume label' attribute (0x08).
* For good measure, also filter out entries with the 'device' attribute (0x40), as
it is technically possible to create a 'EFI' device leading to the same issue.
* Closes#2288.
* Closes#2289.
* As opposed to what we originally asserted, Microsoft did enact a blanket revocation
in SkuSiPolicy.p7b for all post 1703 up to 2305 Windows UEFI bootloaders.
* As a result, unconditionally copying SkuSiPolicy.p7b will result in media as recent
as Windows 11 22H2 (v1) being flagged as revoked, which we don't want to enforce as
long as Microsoft themselves haven't entered the enforcing phase of their Black
Lotus mitigation (currently planned for early 2024).
* Because of this, while we add some revocation detection for post 1703 bootloaders,
we set it to only go as far as 20H1 for now, which means that all post 20H1 Windows
10 media and all Windows 11 media will not yet be flagged by Rufus as revoked and
will still boot in a Secure Boot environment due to lack of an SkuSiPolicy.p7b.
* Ultimately, per #2244 we may look for a BOOTMGRSECURITYVERSIONNUMBER resource to
blanket revoke all post 1703 - pre 2305 Windows UEFI bootloaders.
* Also remove the now unused comdlg32 library from the linker.
* SymLoadModuleEx() on the DLL fails (with ERROR_SUCCESS, sic) on ARM64, so we have to resort
to loading the DLL in memory and look for the "RSDS" section to access the GUID and Age.
* Except that, once you sort that, you end up with SymEnumSymbols() producing two separate
addresses for each symbol, on account that the Windows 11 ARM64 DLLs are actually an
unholy union of X64 and ARM64 *in the same binary*, under an abomination that Microsoft
calls ARM64X (See https://learn.microsoft.com/en-us/windows/arm/arm64x-pe for details).
* And, of course, Microsoft did not provide any means during PDB enumeration to tell which
address is for which arch. Especially, the bloody pSymInfo->TypeIndex, that they could
easily have used for this, is utterly pointless as it remains set to 0...
* This means that, even after all this effort, we're still nowhere close to have a solution
that can make DLL address resolution work on Windows 11 ARM64.
* With ISO-9660 being case sensitive, we could end up in situations where trying to extract
'/efi/boot/bootx64.efi' for revocation validation would fail if the file on the image was
stored as '/EFI/boot/bootx64.efi' (e.g. Debian 12).
* Fox this by storing the exact UEFI bootloader path we detected during ISO scan, and using
this path for file extraction.
* Also add a Cancel choice to the revocation dialog and harmonize whitespaces.
* Having NTFS partitions properly aligned to the cluster size can drastically
improve the speed of capturing a disk to an FFU image, as, when the size
is aligned, the FFU capture uses the actual NTFS allocation map to only read
and capture the clusters that are actually in use, whereas, if no aligned,
FFU capture falls back to a sector by sector copy that is both much slower
and also includes unwanted leftover garbage.
* Also only enable FFU when we detect FFUProvider.dll as a system library.
* Full Flash Update (FFU) image support was added to dism with Windows 10 1709
and is an alternate way to save a virtual hard disk for restoration.
* While more modern than VHD/VHDX, FFU creation only works for drives with file
systems that Windows natively recognizes (FAT, NTFS) and that look like Windows
installation media, so you can forget about FFU'ing a Linux disk.
* The other *intentional* drawback that Microsoft added is that they don't want
anybody but themselves being able to create and restore FFU images, so, even
as they have nice FfuApplyImage()/FfuCaptureImage() calls in FfuProvider.dll
they have decided not to make these public.
* This means that, since we don't have time to spend on figuring and direct
hooking internal DLL calls for x86_32, x86_64, ARM and ARM64 (and worrying
that Microsoft may ever so slightly change their DLL between revs to break
our hooks), we just call on dism.exe behind the scenes to create the FFU.
* MinGW32's delay loading functionality is not yet up to par with MSVC's and especially, for
some libraries (wininet, virtdisk) attempting to delay load them simply crashes the runtime.
* This results in the MinGW32 version of the app crashing when selecting a Windows ISO, as we
will then try to mount the ISO using virtdisk to poke the build version. Note that this crash
does not happen with the MinGW64 version or with MSVC.
* Closes#2272.
* Also fix a Coverity warning in SaveImageThread() and improve the VHD saving code.
* Now that we don't have to deal with Windows 7, we can use CreateVirtualDisk() to
automatically dump a physical disk to VHD/VHDX, so do just that
* Also move the relevant VHD/ISO imaging call to the appropriate source.
* 32-bit x86 running on 64-bit x86 Windows needs to get SKUSiPolicy.p7b from sysnative.
* Also fix automatic extension switching in file dialog and a small MinGW warning in Bled.
* The ZIP64 extra record may not be the first one, so add processing for all extra zip records.
* Also add extra sanity checks to try to appease Coverity and properly detect short writes.
* This adds ZIP64 support, which is required to extract zip archives that are larger than 4GB.
* Closes#2264
* Also fix a MinGW warning in pki.c and improve the UEFI revocation messages.
* Remove duplicates from Microsoft's SKUSiPolicy.p7b
* Also display the number of revoked from embedded
* Also use Microsoft's official capitalization for SKUSiPolicy.p7b's target path
* Instead of embedding the content of the most recent revoked bootloader hashes in db.h
we now parse the system's SkuSiPolicy.p7b to do so. This has the drawback of not alerting
users running Rufus on systems where SkuSiPolicy.p7b is not up to date, but I believe the
trade-off is worth it.
* We now also copy the system's SkuSiPolicy.p7b to the created media when possible (for
Windows 10 or later), so that Microsoft's WDAC UEFI revocations can apply during boot.
* Considering that alerting users to potential security breaches that may be
exploited by boot media should also be performed by application that create
them, we add detection for all the currently known revoked UEFI bootloaders,
be it the ones from the official UEFI DBX as well as the ones from Windows'
SkuSiPolicy.p7b, and warn the user when one such bootloader is detected on
their source media.
* Note that, to actually be revoked, the bootloaders flagged through SkuSiPolicy
require the copying of the .p7b to the boot media, which we are currently
not enacting but will perform in a subsequent commit.
* Also fix a Coverity warning in hash.c.
* Debian 12 ARM64 netinst ISOs have doubled in size to be larger than 512 MB,
so we need to increase MAX_ISO_TO_ESP_SIZE as a result.
* Also add extra NULL checks in process.c as some people seem to run into
NULL deref issues.
* Also set version to rufus-next and update some URLs/text files.
* Also revert GRUB 2 core.img to vanilla 2.06, with the hope that GRUB will
*ACTUALLY* bother to release in 2023 and we will be able to update to
GRUB 2.12 (or whatever non-sequential version they decide to go with) to
say a most welcome goodbye to this whole 2.06 incompatibility crap!
* The BlackLotus malware shows that it is possible to download individual
executables and DLLs straight from Microsoft's symbol servers, so we use
that capability to download the missing Windows 8.1 'diskcopy.dll', that
contains the flat floppy disk image with MS-DOS files we need. See:
https://randomascii.wordpress.com/2013/03/09/symbols-the-microsoft-way/
* Also reorder entries in the "Boot selection" dropdown.
* Also use CreateFileWithTimeout() in GetLogicalName().
* As was *ENTIRELY PREDICTIBLE*, the lack of timely releases from the GRUB
project has resulted in distro maintainers (Ubuntu, Fedora, etc.) taking
matters in their own hand and applying patches on top of their 2.06 version.
However, these patches result in 2.06 bootloaders that are incompatible
with 2.06 modules that don't have the same patches applied. Especially this
now results in the infamous "452: out of range pointer" error message when
using patched modules with unpatched bootloader or unpatched modules with
patched bootloaders.
* Making this issue worse, we also have distro maintainers who won't add a
suffix to their GRUB version, AS ONE SHOULD DO WHEN ONE APPLIES TONS OF
PATCHES ON TOP OF A PROJECT'S SOURCE, and MISreport their non 2.06 GRUB as
"2.06", and, because we can't detect what patches are needed from modules
themselves (unlike what is the case for grub_debug_is_enabled), we have no
way of telling incompatible GRUB 2.06 binaries from one another.
* As a result, we have no choice but to append a sanitized version of the ISO
label to the GRUB version, as a means to differentiate between incompatible
versions, and tweak our existing bootloader download mechanism to *ATTEMPT*
to download a compatible 'core.img' from our server... where we will have
to waste a lot of time adding new binaries and symlinks to try to make all
these GRUB "2.06" based images work, and will probably miss quite few with
the end results that users who are just trying to install Linux will be left
stranded.
* Again, I have to point out how the end result of regular users wanting to
try Linux and being unable to do so is the *DIRECT* result of the GRUB project
maintainers having sat on a 2-year influx of CONTINUOUS patches, and thinking
that "Release Early, Release Often" is only a gimmick, and not something that
should apply to their project, even as they have been warned before, by yours
truly, that *NOT* releasing on a timely basis is causing actual grievances...
That's because, had the GRUB maintainers released on a timely basis (at least
once a year) Fedora and Ubuntu would be using vanilla GRUB 2.07 with the memory
patches, and we wouldn't be trying to mix that with old GRUB 2.06 binaries.
* For more on this, see #2233, noting that we will need to apply a compatibility
breaking change during the 4.1 release, to revert the patches we applied to
the default 2.06 'core.img' in pbatard/rufus-web@320b800592.
* Some Windows Store reports suggest that the existing call might freeze
on CreateFile() leading some users to kill the app. So switch to using
a CreateFile() call that times out instead of waiting forever...
* Yet another example in the long list of how not releasing your project IN A
TIMELY MANNER is creating HUGE PROBLEMS downstream... Looking at you GRUB!!!
* Closes#2233
* This means that someone running Rufus x64 or ARM64 should be
proposed Rufus ARM64 rather than Rufus x64 as an upgrade.
* Also switch the BETA channel from x86 to x64.
* Also remove the _chdirU(app_dir) when using -i in commandline.