still, I'd like to put it more explicitly to make ensure it's not missed: the reason we want to specify compatible_type as a trait and check whether target compatible_type is the superset of source compatible_type is for the consideration of backward compatibility. e.g. an old generation device may have a mdev type xxx-v4-yyy, while a newer generation device may be of mdev type xxx-v5-yyy. with the compatible_type traits, the old generation device is still able to be regarded as compatible to newer generation device even their mdev types are not equal.
If you want to support migration from v4 to v5, can't the (presumably newer) driver that supports v5 simply register the v4 type as well, so that the mdev can be created as v4? (Just like QEMU versioned machine types work.) yes, it should work in some conditions. but it may not be that good in some cases when v5 and v4 in the name string of mdev type identify hardware generation (e.g. v4 for gen8, and v5 for gen9)
e.g. (1). when src mdev type is v4 and target mdev type is v5 as software does not support it initially, and v4 and v5 identify hardware differences. then after software upgrade, v5 is now compatible to v4, should the software now downgrade mdev type from v5 to v4? not sure if moving hardware generation info into a separate attribute from mdev type name is better. e.g. remove v4, v5 in mdev type, while use compatible_pci_ids to identify compatibility. (2) name string of mdev type is composed by "driver_name + type_name". in some devices, e.g. qat, different generations of devices are binding to drivers of different names, e.g. "qat-v4", "qat-v5". then though type_name is equal, mdev type is not equal. e.g. "qat-v4-type1", "qat-v5-type1". Thanks Yan