This drops the requirement on us being so strict on a particular ABI version,
and also more strongly discourages out of tree plugin development.
We should still strive to keep API stable, and as such keep a symbol map still.
Use rpath instead for the static plugins, and set the plugin install directory
to just fwupd-$ABI$ as we're storing more than just plugins here now.
Saving the quirks in the GResource section worked well, but it made the build
system very complicated and also meant the .data section was duplicated in
both `fwupd` and `fwupdtool` -- negating a lot of the hard-fought savings.
Simplify this feature so that we just `cat` all the quirk files together, then
gzip them into a single file. This means that at startup fwupd only needs to
check the mtime of one file, and weirdly it's actually faster to load a smaller
compressed file from disk that it is to load multiple uncompressed files.
Now incorporate is fixed to copy across the properties we need in the
superclass, we don't need to do the subclass ->probe().
Note, we still need to do the subclassed ->probe() when using
FU_UDEV_DEVICE_FLAG_VENDOR_FROM_PARENT or when looking at properties
on the parent device.
This also removes the spurious 'already set GType to FuVliUsbhubDevice,
ignoring FuVliUsbhubDevice' messages when running the daemon.
Provide a device instance builder that allows plugins to easily
create multiple instance IDs based on parent attributes.
Also fix a lot of the instance ID orders, so that we add more generic
IDs first, and more specific IDs after.
tristate features will automatically disable if dependencies marked
as required are missing.
Packagers can manually override using `auto_features`.
Link: https://mesonbuild.com/Build-options.html#features
This allows us to replace the 'dfu-tool replace' with a much more
controlled 'fwupdtool firmware-patch' command that patches at a set of
specific offsets.
Drop in the new functionality into the existing firmware ->write()
vfuncs so that the image headers, footers and/or checksums are correct.
A UF2 device exposes a VFAT block device (sometimes called a Mass
Storage Device) which has a virtual file called `INFO_UF2.TXT` where
metadata can be read. It may also have a the current firmware exported
as a file called `CURRENT.UF2` which is in a 512 byte-block UF2 format.
Writing any file to the MSD will cause the firmware to be written.
Sometimes the device will restart and the volume will be unmounted
and then mounted again. In some cases the volume may not “come back”
until the user manually puts the device back in programming mode.
Match the block devices using the VID*PID, UUID or label, and then
create a UF2 device which can be used to flash firmware.
Note: We only read metadata from allow-listed IDs to avoid causing
regressions on non-UF2 volumes. To get the UUID and label you can
use commands like:
udisksctl info -b /dev/sda1
