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Message-ID: <b5c9a091-17b8-7d6b-705e-e3a9f67d0890@huawei.com>
Date: Thu, 26 May 2022 22:47:29 +0800
From: Xu Kuohai <xukuohai@...wei.com>
To: Mark Rutland <mark.rutland@....com>
CC: <bpf@...r.kernel.org>, <linux-arm-kernel@...ts.infradead.org>,
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Subject: Re: [PATCH bpf-next v5 4/6] bpf, arm64: Impelment
bpf_arch_text_poke() for arm64
On 5/26/2022 6:34 PM, Mark Rutland wrote:
> On Thu, May 26, 2022 at 05:45:30PM +0800, Xu Kuohai wrote:
>> On 5/25/2022 10:10 PM, Mark Rutland wrote:
>>> On Wed, May 18, 2022 at 09:16:36AM -0400, Xu Kuohai wrote:
>>>> Impelment bpf_arch_text_poke() for arm64, so bpf trampoline code can use
>>>> it to replace nop with jump, or replace jump with nop.
>>>>
>>>> Signed-off-by: Xu Kuohai <xukuohai@...wei.com>
>>>> Acked-by: Song Liu <songliubraving@...com>
>>>> Reviewed-by: Jakub Sitnicki <jakub@...udflare.com>
>>>> ---
>>>> arch/arm64/net/bpf_jit.h | 1 +
>>>> arch/arm64/net/bpf_jit_comp.c | 107 +++++++++++++++++++++++++++++++---
>>>> 2 files changed, 99 insertions(+), 9 deletions(-)
>>>>
>>>> diff --git a/arch/arm64/net/bpf_jit.h b/arch/arm64/net/bpf_jit.h
>>>> index 194c95ccc1cf..1c4b0075a3e2 100644
>>>> --- a/arch/arm64/net/bpf_jit.h
>>>> +++ b/arch/arm64/net/bpf_jit.h
>>>> @@ -270,6 +270,7 @@
>>>> #define A64_BTI_C A64_HINT(AARCH64_INSN_HINT_BTIC)
>>>> #define A64_BTI_J A64_HINT(AARCH64_INSN_HINT_BTIJ)
>>>> #define A64_BTI_JC A64_HINT(AARCH64_INSN_HINT_BTIJC)
>>>> +#define A64_NOP A64_HINT(AARCH64_INSN_HINT_NOP)
>>>>
>>>> /* DMB */
>>>> #define A64_DMB_ISH aarch64_insn_gen_dmb(AARCH64_INSN_MB_ISH)
>>>> diff --git a/arch/arm64/net/bpf_jit_comp.c b/arch/arm64/net/bpf_jit_comp.c
>>>> index 8ab4035dea27..5ce6ed5f42a1 100644
>>>> --- a/arch/arm64/net/bpf_jit_comp.c
>>>> +++ b/arch/arm64/net/bpf_jit_comp.c
>>>> @@ -9,6 +9,7 @@
>>>>
>>>> #include <linux/bitfield.h>
>>>> #include <linux/bpf.h>
>>>> +#include <linux/memory.h>
>>>> #include <linux/filter.h>
>>>> #include <linux/printk.h>
>>>> #include <linux/slab.h>
>>>> @@ -18,6 +19,7 @@
>>>> #include <asm/cacheflush.h>
>>>> #include <asm/debug-monitors.h>
>>>> #include <asm/insn.h>
>>>> +#include <asm/patching.h>
>>>> #include <asm/set_memory.h>
>>>>
>>>> #include "bpf_jit.h"
>>>> @@ -235,13 +237,13 @@ static bool is_lsi_offset(int offset, int scale)
>>>> return true;
>>>> }
>>>>
>>>> +#define BTI_INSNS (IS_ENABLED(CONFIG_ARM64_BTI_KERNEL) ? 1 : 0)
>>>> +#define PAC_INSNS (IS_ENABLED(CONFIG_ARM64_PTR_AUTH_KERNEL) ? 1 : 0)
>>>> +
>>>> /* Tail call offset to jump into */
>>>> -#if IS_ENABLED(CONFIG_ARM64_BTI_KERNEL) || \
>>>> - IS_ENABLED(CONFIG_ARM64_PTR_AUTH_KERNEL)
>>>> -#define PROLOGUE_OFFSET 9
>>>> -#else
>>>> -#define PROLOGUE_OFFSET 8
>>>> -#endif
>>>> +#define PROLOGUE_OFFSET (BTI_INSNS + 2 + PAC_INSNS + 8)
>>>> +/* Offset of nop instruction in bpf prog entry to be poked */
>>>> +#define POKE_OFFSET (BTI_INSNS + 1)
>>>>
>>>> static int build_prologue(struct jit_ctx *ctx, bool ebpf_from_cbpf)
>>>> {
>>>> @@ -279,12 +281,15 @@ static int build_prologue(struct jit_ctx *ctx, bool ebpf_from_cbpf)
>>>> *
>>>> */
>>>>
>>>> + if (IS_ENABLED(CONFIG_ARM64_BTI_KERNEL))
>>>> + emit(A64_BTI_C, ctx);
>>>> +
>>>> + emit(A64_MOV(1, A64_R(9), A64_LR), ctx);
>>>> + emit(A64_NOP, ctx);
>>>
>>> I take it the idea is to make this the same as the regular ftrace patch-site
>>> sequence, so that this can call the same trampoline(s) ?
>>>
>>
>> Yes, we can attach a bpf trampoline to bpf prog.
>
> Just to check, is the BPF trampoline *only* attached to BPF programs, or could
> that be attached to a regular ftrace patch-site?
>
> I has assumed that the point of adding direct calls support was so that this
> could be called from regular ftrace patch sites, but your replies below on how
> the trampoline is protected imply that's not the case.
>
Sorry for the confusion. bpf trampoline could be attached to a regular
ftrace patch-site. In this scenario the patch-site is patched by ftrace.
>>> If so, we need some commentary to that effect, and we need some comments in the
>>> ftrace code explaining that this needs to be kept in-sync.
>>>
>>
>> This is patched by bpf_arch_text_poke(), not ftrace.
> > I understood that, but if the idea is that the instruction sequence
must match,
> then we need to make that clear. Otherwise changes to one side may break the
> other unexpectedly.
>
Yes, it's better that these two matches. But I don't think it's a must,
since the bpf proglogue is patched by bpf_arch_text_poke(), while a
regular kernel function progolue is patched by ftrace.
>>>> +
>>>> /* Sign lr */
>>>> if (IS_ENABLED(CONFIG_ARM64_PTR_AUTH_KERNEL))
>>>> emit(A64_PACIASP, ctx);
>>>> - /* BTI landing pad */
>>>> - else if (IS_ENABLED(CONFIG_ARM64_BTI_KERNEL))
>>>> - emit(A64_BTI_C, ctx);
>>>>
>>>> /* Save FP and LR registers to stay align with ARM64 AAPCS */
>>>> emit(A64_PUSH(A64_FP, A64_LR, A64_SP), ctx);
>>>> @@ -1529,3 +1534,87 @@ void bpf_jit_free_exec(void *addr)
>>>> {
>>>> return vfree(addr);
>>>> }
>>>> +
>>>> +static int gen_branch_or_nop(enum aarch64_insn_branch_type type, void *ip,
>>>> + void *addr, u32 *insn)
>>>> +{
>>>> + if (!addr)
>>>> + *insn = aarch64_insn_gen_nop();
>>>> + else
>>>> + *insn = aarch64_insn_gen_branch_imm((unsigned long)ip,
>>>> + (unsigned long)addr,
>>>> + type);
>>>> +
>>>> + return *insn != AARCH64_BREAK_FAULT ? 0 : -EFAULT;
>>>> +}
>>>> +
>>>> +int bpf_arch_text_poke(void *ip, enum bpf_text_poke_type poke_type,
>>>> + void *old_addr, void *new_addr)
>>>> +{
>>>> + int ret;
>>>> + u32 old_insn;
>>>> + u32 new_insn;
>>>> + u32 replaced;
>>>> + unsigned long offset = ~0UL;
>>>> + enum aarch64_insn_branch_type branch_type;
>>>> + char namebuf[KSYM_NAME_LEN];
>>>> +
>>>> + if (!__bpf_address_lookup((unsigned long)ip, NULL, &offset, namebuf))
>>>> + /* Only poking bpf text is supported. Since kernel function
>>>> + * entry is set up by ftrace, we reply on ftrace to poke kernel
>>>> + * functions.
>>>> + */
>>>> + return -EINVAL;
>>>> +
>>>> + /* bpf entry */
>>>> + if (offset == 0UL)
>>>> + /* skip to the nop instruction in bpf prog entry:
>>>> + * bti c // if BTI enabled
>>>> + * mov x9, x30
>>>> + * nop
>>>> + */
>>>> + ip = ip + POKE_OFFSET * AARCH64_INSN_SIZE;
>>>
>>> When is offset non-zero? is this ever called to patch other instructions, and
>>> could this ever be used to try to patch the BTI specifically?
>>
>> bpf_arch_text_poke() is also called to patch other instructions, for
>> example, bpf_tramp_image_put() calls this to skip calling fexit bpf progs:
>>
>> int err = bpf_arch_text_poke(im->ip_after_call, BPF_MOD_JUMP,
>> NULL, im->ip_epilogue);
>>
>>
>> Before this is called, a bpf trampoline looks like:
>>
>> [...]
>> ip_after_call:
>> nop // to be patched
>> bl <fexit prog>
>> ip_epilogue:
>> bti j
>> [...]
>>
>> After:
>> [...]
>> ip_after_call:
>> b <ip_epilogue> // patched
>> bl <fexit prog>
>> ip_epilogue:
>> bti j
>> [...]
>>
>>
>>> I strongly suspect we need a higher-level API to say "poke the patchable
>>> callsite in the prologue", rather than assuming that offset 0 always means
>>> that, or it'll be *very* easy for this to go wrong.
>>
>> Ah, bpf_arch_text_poke() only patches bpf progs, and the patch-site in
>> bpf prog prologue is constructed for bpf_arch_text_poke(), so we always
>> know the patch-site offset. There's no compiler generated instruction
>> here, so it seems to be not a problem.
>
> I understand all of that. My point is that if anyone ever wants to use
> bpf_arch_text_poke() to poke the *actual* first instruction, this will go
> wrong.
>
> I see that x86 does the same thing to skip ENDBR, so if this is just a fragile
> API, and people are expected to not do that, then fine. It's just confusing.
> >>>> +
>>>> + if (poke_type == BPF_MOD_CALL)
>>>> + branch_type = AARCH64_INSN_BRANCH_LINK;
>>>> + else
>>>> + branch_type = AARCH64_INSN_BRANCH_NOLINK;
>>>
>>> When is poke_type *not* BPF_MOD_CALL?>
>>
>> The bpf_tramp_image_put() example above uses BPF_MOD_JUMP.
>>
>>> I assume that means BPF also uses this for non-ftrace reasons?
>>>
>>
>> This function is NOT used for ftrace patch-site. It's only used to patch
>> bpf image.
>
> I understand that this isn't ftrace; I meant for the patch site we introduced
> in the BPF program that is compatible with the patch-site sequence that ftrace
> uses.
>
>>>> + if (gen_branch_or_nop(branch_type, ip, old_addr, &old_insn) < 0)
>>>> + return -EFAULT;
>>>> +
>>>> + if (gen_branch_or_nop(branch_type, ip, new_addr, &new_insn) < 0)
>>>> + return -EFAULT;
>>>> +
>>>> + mutex_lock(&text_mutex);
>>>> + if (aarch64_insn_read(ip, &replaced)) {
>>>> + ret = -EFAULT;
>>>> + goto out;
>>>> + }
>>>> +
>>>> + if (replaced != old_insn) {
>>>> + ret = -EFAULT;
>>>> + goto out;
>>>> + }
>>>> +
>>>> + /* We call aarch64_insn_patch_text_nosync() to replace instruction
>>>> + * atomically, so no other CPUs will fetch a half-new and half-old
>>>> + * instruction. But there is chance that another CPU fetches the old
>>>> + * instruction after bpf_arch_text_poke() finishes, that is, different
>>>> + * CPUs may execute different versions of instructions at the same
>>>> + * time before the icache is synchronized by hardware.
>>>> + *
>>>> + * 1. when a new trampoline is attached, it is not an issue for
>>>> + * different CPUs to jump to different trampolines temporarily.
>>>> + *
>>>> + * 2. when an old trampoline is freed, we should wait for all other
>>>> + * CPUs to exit the trampoline and make sure the trampoline is no
>>>> + * longer reachable, since bpf_tramp_image_put() function already
>>>> + * uses percpu_ref and rcu task to do the sync, no need to call the
>>>> + * sync interface here.
>>>> + */
>>>
>>> How is RCU used for that? It's not clear to me how that works for PREEMPT_RCU
>>> (which is the usual configuration for arm64), since we can easily be in a
>>> preemptible context, outside of an RCU read side critical section, yet call
>>> into a trampoline.
>>>
>>> I know that for livepatching we need to use stacktracing to ensure we've
>>> finished using code we'd like to free, and I can't immediately see how you can
>>> avoid that here. I'm suspicious that there's still a race where threads can
>>> enter the trampoline and it can be subsequently freed.
>>>
>>> For ftrace today we get away with entering the existing trampolines when not
>>> intended because those are statically allocated, and the race is caught when
>>> acquiring the ops inside the ftrace core code. This case is different because
>>> the CPU can fetch the instruction and execute that at any time, without any RCU
>>> involvement.
>>>
>>> Can you give more details on how the scheme described above works? How
>>> *exactly*` do you ensure that threads which have entered the trampoline (and
>>> may have been immediately preempted by an interrupt) have returned? Which RCU
>>> mechanism are you using?
>>>
>>> If you can point me at where this is implemented I'm happy to take a look.
>>>
>> IIUC, task rcu's critical section ends at a voluntary context switch,
>> since no volutary context switch occurs in a progoluge, when a task
>> rcu's critical section ends, we can ensure no one is running in the
>> prologue [1].
>>
>> For bpf trampoline, the scenario is similar, except that it may sleep,
>> so a reference count is increased when entering the trampoline and
>> decreased when exiting the trampoline, so we can wait for the reference
>> count to become zero to make sure there is no one in the sleepable
>> region [2].
>>
>> [1] https://lore.kernel.org/all/20140804192017.GA18337@linux.vnet.ibm.com/
>> [2]
>> https://lore.kernel.org/bpf/20210316210007.38949-1-alexei.starovoitov@gmail.com/
>
> Ok. Am I correct in understanding that this means the BPF trampoline is only
> ever attached to BPF programs and those programs handle this around calling the
> BPF trampoline?
>
bpf trampline could be attached to a regular function. This scenario is
handled by the same function.
> Thanks,
> Mark.
> .
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