On 2/10/22 2:01 AM, Michal Suchánek wrote:
Hello,
On Mon, Jan 31, 2022 at 09:36:44AM -0800, Yonghong Song wrote:
On 1/27/22 7:10 AM, Shung-Hsi Yu wrote:
Hi,
We recently run into module load failure related to split BTF on openSUSE
Tumbleweed[1], which I believe is something that may also happen on other
rolling distros.
The error looks like the follow (though failure is not limited to ipheth)
BPF:[103111] STRUCT BPF:size=152 vlen=2 BPF: BPF:Invalid name BPF:
failed to validate module [ipheth] BTF: -22
The error comes down to trying to load BTF of *kernel modules from a
different build* than the runtime kernel (but the source is the same), where
the base BTF of the two build is different.
While it may be too far stretched to call this a bug, solving this might
make BTF adoption easier. I'd natively think that we could further split
base BTF into two part to avoid this issue, where .BTF only contain exported
types, and the other (still residing in vmlinux) holds the unexported types.
What is the exported types? The types used by export symbols?
This for sure will increase btf handling complexity.
And it will not actually help.
We have modversion ABI which checks the checksum of the symbols that the
module imports and fails the load if the checksum for these symbols does
not match. It's not concerned with symbols not exported, it's not
concerned with symbols not used by the module. This is something that is
sustainable across kernel rebuilds with minor fixes/features and what
distributions watch for.
Now with BTF the situation is vastly different. There are at least three
bugs:
- The BTF check is global for all symbols, not for the symbols the
module uses. This is not sustainable. Given the BTF is supposed to
allow linking BPF programs that were built in completely different
environment with the kernel it is completely within the scope of BTF
to solve this problem, it's just neglected.
- It is possible to load modules with no BTF but not modules with
non-matching BTF. Surely the non-matching BTF could be discarded.
- BTF is part of vermagic. This is completely pointless since modules
without BTF can be loaded on BTF kernel. Surely it would not be too
difficult to do the reverse as well. Given BTF must pass extra check
to be used having it in vermagic is just useless moise.
Does that sound like something reasonable to work on?
## Root case (in case anyone is interested in a verbose version)
On openSUSE Tumbleweed there can be several builds of the same source. Since
the source is the same, the binaries are simply replaced when a package with
a larger build number is installed during upgrade.
In our case, a rebuild is triggered[2], and resulted in changes in base BTF.
More precisely, the BTF_KIND_FUNC{,_PROTO} of i2c_smbus_check_pec(u8 cpec,
struct i2c_msg *msg) and inet_lhash2_bucket_sk(struct inet_hashinfo *h,
struct sock *sk) was added to the base BTF of 5.15.12-1.3. Those functions
are previously missing in base BTF of 5.15.12-1.1.
As stated in [2] below, I think we should understand why rebuild is
triggered. If the rebuild for vmlinux is triggered, why the modules cannot
be rebuild at the same time?
They do get rebuilt. However, if you are running the kernel and install
the update you get the new modules with the old kernel. If the install
script fails to copy the kernel to your EFI partition based on the fact
a kernel with the same filename is alreasy there you get the same.
If you have 'stable' distribution adding new symbols is normal and it
does not break module loading without BTF but it breaks BTF.
Okay, I see. One possible solution is that if kernel module btf
does not match vmlinux btf, the kernel module btf will be ignored
with a dmesg warning but kernel module load will proceed as normal.
I think this might be also useful for bpf lskel kernel modules as
well which tries to be portable (with CO-RE) for different kernels.
Alexei, what do you think?
Thanks
Michal