On November 16, 2020 10:24 pm, Jakub Kicinski wrote: > On Mon, 16 Nov 2020 12:34:17 -0800 Andrii Nakryiko wrote: >> > This change, commit 5f9ae91f7c0d ("kbuild: Build kernel module BTFs if BTF is enabled and pahole >> > supports it") currently in net-next, linux-next, etc. breaks the use-case of compiling only a specific >> > kernel module (both in-tree and out-of-tree, e.g. 'make M=drivers/net/ethernet/intel/ice') after >> > first doing a 'make modules_prepare'. Previously, that use-case would result in a warning noting >> > "Symbol info of vmlinux is missing. Unresolved symbol check will be entirely skipped" but now it >> > errors out after noting "No rule to make target 'vmlinux', needed by '<...>.ko'. Stop." >> > >> > Is that intentional? >> >> I wasn't aware of such a use pattern, so definitely not intentional. >> But vmlinux is absolutely necessary to generate the module BTF. So I'm >> wondering what's the proper fix here? Leave it as is (that error >> message is actually surprisingly descriptive, btw)? Force vmlinux >> build? Or skip BTF generation for that module? > > For an external out-of-tree module there is no guarantee that vmlinux > will even be on the system, no? So only the last option can work in > that case. a year late to the party, but it seems to me that this patch series/features also missed another, not yet fixed scenario. I have to admit I am not very well-versed in BTF/BPF matters though, so please take the analysis below with a grain of salt or two ;) (am subscribed to LKML/netdev, but not the bpf list, so please keep me CCed if discussion moves there! apologies if too many people are CCed here, feel free to trim down to relevant people/lists) many distros do their own tracking of kernel <-> module ABI (usually these checks use Module.symvers and some combination of lists/symbols/.. to skip/ignore[0]). depending on detected changes, a kernel update can either - bump ABI, resulting in a new kernel/modules package that is installed next to the current one - keep ABI, resulting in an updated kernel/modules package that is installed over/instead of the current one the former case is obviously not an issue, since the modules and vmlinux image shipped in that (set of) package(s) match. but in the later case of updated, compatible kernel image + modules with unchanged ABI (which is important, as it allows shipping fixed modules that are loadable for a compatible, older, booted kernel image), the following is possible: - install kernel+modules with ABI 1 - boot kernel with ABI 1 - install ABI-compatible upgrade (e.g. a security fix) - load module - BTF validation fails, because the base_btf (loaded at boot time) and the offsets in the module's .BTF section (loaded at module load time) aren't matching of course the validation might also not fail but the parsed BTF info might be bogus, or the base_btf might be similar enough that validation passes and the parsed BTF data is correct. in our case the symptoms look like this (exact details vary with kernel builds/modules, but likely not relevant): Nov 24 11:39:11 host kernel: BPF: type_id=7 bits_offset=0 Nov 24 11:39:11 host kernel: BPF: Nov 24 11:39:11 host kernel: BPF:Invalid name Nov 24 11:39:11 host kernel: BPF: Nov 24 11:39:11 host kernel: failed to validate module [overlay] BTF: -22 where the booted kernel and the (attempted to get) loaded module are not from the same build, but the Module.symvers is matching and loading should thus work. adding some more debug logging reveals that the root cause is the module's BTF start_str_off being, well, off, since it's derived from vmlinux' BTF/base_btf. if it is too big, the name/type lookups will wrongly look in the base_btf, if it's too small, the name/type lookups will be offset within the module or wrongly look inside the module when they should look inside base_btf/vmlinux. in any case, random garbage is the result, usually tripping up some validation check (e.g. the first byte not being 0 when checking a name). but even if it's correct (old and new vmlinux image have the same nr_types/hdr.str_len), there is no guarantuee that the offsets into base_btf are pointing at the right stuff. example with debug logging patched in, note the garbled names, and offset slightly below the (wrong) start_str_off: ----8<---- BPF:magic: 0xeb9f BPF:version: 1 BPF:flags: 0x0 BPF:hdr_len: 24 BPF:type_off: 0 BPF:type_len: 9264 BPF:str_off: 9264 BPF:str_len: 5511 BPF:btf_total_size: 14799 BPF:[106314] STRUCT rimary_device BPF:size=56 vlen=14 BPF: BPF:offset at call: 1915394 BPF:offset too small, choosing base_btf: 1915397 BPF:offset after base_btf: 1915394 BPF: ce type_id=49 bits_offset=0 BPF: BPF:offset at call: 1915403 BPF:offset after base_btf: 6 BPF: nfig type_id=49 bits_offset=64 BPF: BPF:offset at call: 1915412 BPF:offset after base_btf: 15 BPF: rdir type_id=49 bits_offset=128 BPF: BPF:offset at call: 768428 BPF:offset too small, choosing base_btf: 1915397 BPF:offset after base_btf: 768428 BPF: _dio type_id=56 bits_offset=192 BPF: BPF:offset at call: 1915420 BPF:offset after base_btf: 23 BPF: erdir type_id=56 bits_offset=200 BPF: BPF:offset at call: 1915433 BPF:offset after base_btf: 36 BPF:first char wrong - 0 BPF: type_id=56 bits_offset=208 BPF: BPF:Invalid name STRUCT MEMBER (name offset 1915433) BPF: failed to validate module [overlay] BTF: -22 ---->8---- also note how it's only after a few botched entries that a check actually trips up - not sure what the impliciations for crafted BTF info are, but might be worthy a closer look by someone more knowledgable as well.. it seems to me this can be solved on the distro/user side by tracking vmlinux BTF infos as part of the ABI tracking (how stable are those compared to the existing interfaces making up the kernel <-> module ABI/Module.symvers? does this effectively mean bumping ABI for any change anyway?) or by disabling CONFIG_DEBUG_INFO_BTF_MODULES. on the kernel/libbpf side it could maybe be solved by storing a hash of the base_btf data used to generate the split BTF-sections inside the modules, and skip BTF loading/validating if another base_btf is currently loaded (so BTF is best-effort, if the booted kernel and the module are matching it works, if not module loading works but no BTF support). this might be a good safe-guard for split-BTF in general? I'd appreciate input on how to proceed (we were recently hit by this in a downstream Debian derivative, and will disable BTF info for modules as an interim measure). thanks! 0: e.g., Debian's: https://salsa.debian.org/kernel-team/linux/-/blob/master/debian/bin/abiupdate.py