On Thu, 24 Nov 2022 17:14:27 +0530 "Naveen N. Rao" <naveen.n....@linux.ibm.com> wrote:
> Jinyang He wrote: > > 在 2022/11/17 21:09, Masami Hiramatsu (Google) 写道: > > > >> On Thu, 17 Nov 2022 09:07:37 +0800 > >> Tiezhu Yang <yangtie...@loongson.cn> wrote: > >> > >>> Hi KPROBES maintainers, > >>> > >>> There are some differences of kprobe handler implementations on various > >>> archs, the implementations are almost same on arm64, riscv, csky, the > >>> code logic is clear and understandable. But on mips and loongarch (not > >>> upstreamed yet), if get_kprobe() returns NULL, what is the purpose of > >>> the check "if (addr->word != breakpoint_insn.word)", is it necessary? > >>> Can we just return directly? Please take a look, thank you. > > Are you seeing any problem with that? > > >> Good question! > >> > >> This means that when the software breakpoint was hit on that CPU, but > >> before calling kprobe handler function, the other CPU can remove that > >> kprobe from hash table, becahse the hash table is not locked. > >> In that case, the get_kprobe(addr) will return NULL, and the software > >> breakpoint instruction is already removed (replaced with the original > >> instruction). Thus it is safe to go back. But this is originally > >> implemented for x86, which doesn't need stop_machine() to modify the > >> code. On the other hand, if an architecture which needs stop_machine() > >> to modify code, the above scenario never happen. In that case, you > >> don't need this "if" case. > > This has been a problematic area on powerpc. See, for instance, commits: > - 9ed5df69b79a22 ("powerpc/kprobes: Use probe_address() to read instructions") > - 21f8b2fa3ca5b0 ("powerpc/kprobes: Ignore traps that happened in real mode") > > I think we should close this race, perhaps by instroducing another > synchronize_rcu() in unregister_kprobe(), allowing architectures using > stop_machine() to override that. That would be cleaner. > > > >> > >> Thank you, > >> > >>> https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/arch/mips/kernel/kprobes.c#n323 > >>> p = get_kprobe(addr); > >>> if (p) { > >>> ... > >>> } else if (addr->word != breakpoint_insn.word) { > > > > Hi, > > > > > > Sorry for the late reply, but I think there should be some public > > comments so that I can get the authoritative response, as offline > > communication with Tiezhu is always one-sided. > > > > I think the branch you answered here is " if (p)... " rather than > > "else if (addr->word != breakpoint_insn.word)". It is right if we > > not use stop_machine here we need this branch. In fact, Tiezhu > > and Huacai, the maintainer of LoongArch are more concerned > > about the latter why we need compare with the breakpoint_insn. > > Masami answered why we need the else part comparing the instruction at > addr with the breakpoint instruction. It is to check if the breakpoint > instruction has been removed since we hit it, but before the processor > reached the kprobe handler. > > > > > The reason I gave as follows, and I show mips code here, > > > > p = get_kprobe(addr); > > if (!p) { > > if (addr->word != breakpoint_insn.word) { > > /* > > * The breakpoint instruction was removed right > > * after we hit it. Another cpu has removed > > * either a probepoint or a debugger breakpoint > > * at this address. In either case, no further > > * handling of this interrupt is appropriate. > > */ > > ret = 1; > > } > > /* Not one of ours: let kernel handle it */ > > goto no_kprobe; > > } > > > > ... > > int kprobe_exceptions_notify(struct notifier_block *self, > > unsigned long val, void *data) > > { > > struct die_args *args = (struct die_args *)data; > > int ret = NOTIFY_DONE; > > > > switch (val) { > > case DIE_BREAK: > > if (kprobe_handler(args->regs)) > > ret = NOTIFY_STOP; > > break; > > ... > > > > The !p means this insn has been moved, and then in most cases the COND > > !p means the kprobe has been removed - there may or may not be another > breakpoint instruction at that address. > > > "addr->word != breakpoint_insn.word" is true, we return 1 so that the return > > value in kprobe_exceptions_notify will be changed to NOTIFY_STOP. > > We do this since we now know that there is no breakpoint at this > address, so we should not continue. I think this depends on how the architecture handles the breakpoint. It may be shared with the other users and in that case, kprobes can not determine it can stop notifier chain because another notifier callback is able to handle such cases. > > > The mips use soft breakpoint like "break hint". How if the original insn > > is same as breakpoint_insn? That is a few case when COND is false. In that > > case, it means we should handle it by other handlers and doesn't change > > ret to > > keep NOTIFY_DONE as kprobe_exceptions_notify return value. > > If there is a breakpoint instruction at that address, we should let the > kernel continue processing the breakpoint. Even if there is not a breakpoint instruction at that address at that point, the breakpoint handler is called means there *was* a breakpoint, which can be managed by another user. Thus I think it is not correct way to check it in kprobe_int3_andler on x86. > > > > > Is this idea reasonable? Thanks! > > As another data point, you may want to look at kprobe_handler() in > arch/powerpc/kernel/kprobes.c . We also handle cases where there is a > different type of breakpoint instruction. Yeah, that looks good example for the arch which uses a specific breakpoint for kprobes. So good for MIPS too. Unfortunately it doesn't work for x86 since it shares same int3 instruction among all breakpoint users. Thank you, > > > - Naveen > -- Masami Hiramatsu (Google) <mhira...@kernel.org>