On 2021-10-20 19:16, Toke Høiland-Jørgensen wrote:
Lorenz Bauer <lmb@xxxxxxxxxxxxxx> writes:
+bool cookie_init_timestamp_raw(struct tcphdr *th, __be32 *tsval, __be32 *tsecr)
I'm probably missing context, Is there something in this function that
means you can't implement it in BPF?
I was about to reply with some other comments but upon closer inspection
I ended up at the same conclusion: this helper doesn't seem to be needed
at all?
After trying to put this code into BPF (replacing the underlying
ktime_get_ns with ktime_get_mono_fast_ns), I experienced issues with
passing the verifier.
In addition to comparing ptr to end, I had to add checks that compare
ptr to data_end, because the verifier can't deduce that end <= data_end.
More branches will add a certain slowdown (not measured).
A more serious issue is the overall program complexity. Even though the
loop over the TCP options has an upper bound, and the pointer advances
by at least one byte every iteration, I had to limit the total number of
iterations artificially. The maximum number of iterations that makes the
verifier happy is 10. With more iterations, I have the following error:
BPF program is too large. Processed 1000001 insn
processed 1000001 insns (limit 1000000)
max_states_per_insn 29 total_states 35489 peak_states 596 mark_read 45
I assume that BPF_COMPLEXITY_LIMIT_INSNS (1 million) is the accumulated
amount of instructions that the verifier can process in all branches, is
that right? It doesn't look realistic that my program can run 1 million
instructions in a single run, but it might be that if you take all
possible flows and add up the instructions from these flows, it will
exceed 1 million.
The limitation of maximum 10 TCP options might be not enough, given that
valid packets are permitted to include more than 10 NOPs. An alternative
of using bpf_load_hdr_opt and calling it three times doesn't look good
either, because it will be about three times slower than going over the
options once. So maybe having a helper for that is better than trying to
fit it into BPF?
One more interesting fact is the time that it takes for the verifier to
check my program. If it's limited to 10 iterations, it does it pretty
fast, but if I try to increase the number to 11 iterations, it takes
several minutes for the verifier to reach 1 million instructions and
print the error then. I also tried grouping the NOPs in an inner loop to
count only 10 real options, and the verifier has been running for a few
hours without any response. Is it normal? Commit c04c0d2b968a ("bpf:
increase complexity limit and maximum program size") says it shouldn't
take more than one second in any case.
Thanks,
Max