Re: [PATCH ipsec-next v1 6/7] bpf: selftests: test_tunnel: Disable CO-RE relocations

From: Yonghong Song
Date: Mon Nov 27 2023 - 23:14:48 EST


On 11/27/23 7:01 PM, Daniel Xu wrote:
On Mon, Nov 27, 2023 at 02:45:11PM -0600, Daniel Xu wrote:
On Sun, Nov 26, 2023 at 09:53:04PM -0800, Yonghong Song wrote:
On 11/27/23 12:44 AM, Yonghong Song wrote:
On 11/26/23 8:52 PM, Eduard Zingerman wrote:
On Sun, 2023-11-26 at 18:04 -0600, Daniel Xu wrote:
[...]
Tbh I'm not sure. This test passes with preserve_static_offset
because it suppresses preserve_access_index. In general clang
translates bitfield access to a set of IR statements like:

   C:
     struct foo {
       unsigned _;
       unsigned a:1;
       ...
     };
     ... foo->a ...

   IR:
     %a = getelementptr inbounds %struct.foo, ptr %0, i32 0, i32 1
     %bf.load = load i8, ptr %a, align 4
     %bf.clear = and i8 %bf.load, 1
     %bf.cast = zext i8 %bf.clear to i32

With preserve_static_offset the getelementptr+load are replaced by a
single statement which is preserved as-is till code generation,
thus load with align 4 is preserved.

On the other hand, I'm not sure that clang guarantees that load or
stores used for bitfield access would be always aligned according to
verifier expectations.

I think we should check if there are some clang knobs that prevent
generation of unaligned memory access. I'll take a look.
Is there a reason to prefer fixing in compiler? I'm not opposed to it,
but the downside to compiler fix is it takes years to propagate and
sprinkles ifdefs into the code.

Would it be possible to have an analogue of BPF_CORE_READ_BITFIELD()?
Well, the contraption below passes verification, tunnel selftest
appears to work. I might have messed up some shifts in the macro,
though.
I didn't test it. But from high level it should work.

Still, if clang would peek unlucky BYTE_{OFFSET,SIZE} for a particular
field access might be unaligned.
clang should pick a sensible BYTE_SIZE/BYTE_OFFSET to meet
alignment requirement. This is also required for BPF_CORE_READ_BITFIELD.

---

diff --git a/tools/testing/selftests/bpf/progs/test_tunnel_kern.c
b/tools/testing/selftests/bpf/progs/test_tunnel_kern.c
index 3065a716544d..41cd913ac7ff 100644
--- a/tools/testing/selftests/bpf/progs/test_tunnel_kern.c
+++ b/tools/testing/selftests/bpf/progs/test_tunnel_kern.c
@@ -9,6 +9,7 @@
  #include "vmlinux.h"
  #include <bpf/bpf_helpers.h>
  #include <bpf/bpf_endian.h>
+#include <bpf/bpf_core_read.h>
  #include "bpf_kfuncs.h"
  #include "bpf_tracing_net.h"
  @@ -144,6 +145,38 @@ int ip6gretap_get_tunnel(struct __sk_buff *skb)
      return TC_ACT_OK;
  }
  +#define BPF_CORE_WRITE_BITFIELD(s, field, new_val) ({            \
+    void *p = (void *)s + __CORE_RELO(s, field, BYTE_OFFSET);    \
+    unsigned byte_size = __CORE_RELO(s, field, BYTE_SIZE);        \
+    unsigned lshift = __CORE_RELO(s, field, LSHIFT_U64); \
+    unsigned rshift = __CORE_RELO(s, field, RSHIFT_U64); \
+    unsigned bit_size = (rshift - lshift);                \
+    unsigned long long nval, val, hi, lo;                \
+                                    \
+    asm volatile("" : "=r"(p) : "0"(p));                \
Use asm volatile("" : "+r"(p)) ?

+                                    \
+    switch (byte_size) {                        \
+    case 1: val = *(unsigned char *)p; break;            \
+    case 2: val = *(unsigned short *)p; break;            \
+    case 4: val = *(unsigned int *)p; break;            \
+    case 8: val = *(unsigned long long *)p; break;            \
+    }                                \
+    hi = val >> (bit_size + rshift);                \
+    hi <<= bit_size + rshift;                    \
+    lo = val << (bit_size + lshift);                \
+    lo >>= bit_size + lshift;                    \
+    nval = new_val;                            \
+    nval <<= lshift;                        \
+    nval >>= rshift;                        \
+    val = hi | nval | lo;                        \
+    switch (byte_size) {                        \
+    case 1: *(unsigned char *)p      = val; break;            \
+    case 2: *(unsigned short *)p     = val; break;            \
+    case 4: *(unsigned int *)p       = val; break;            \
+    case 8: *(unsigned long long *)p = val; break;            \
+    }                                \
+})
I think this should be put in libbpf public header files but not sure
where to put it. bpf_core_read.h although it is core write?

But on the other hand, this is a uapi struct bitfield write,
strictly speaking, CORE write is really unnecessary here. It
would be great if we can relieve users from dealing with
such unnecessary CORE writes. In that sense, for this particular
case, I would prefer rewriting the code by using byte-level
stores...
or preserve_static_offset to clearly mean to undo bitfield CORE ...
Ok, I will do byte-level rewrite for next revision.
[...]

This patch seems to work: https://pastes.dxuuu.xyz/0glrf9 .

But I don't think it's very pretty. Also I'm seeing on the internet that
people are saying the exact layout of bitfields is compiler dependent.

Any reference for this (exact layout of bitfields is compiler dependent)?

So I am wondering if these byte sized writes are correct. For that
matter, I am wondering how the GCC generated bitfield accesses line up
with clang generated BPF bytecode. Or why uapi contains a bitfield.

One thing for sure is memory layout of bitfields should be the same
for both clang and gcc as it is determined by C standard. Register
representation and how to manipulate could be different for different
compilers.


WDYT, should I send up v2 with this or should I do one of the other
approaches in this thread?

Daniel, look at your patch, since we need to do CORE_READ for
those bitfields any way, I think Eduard's patch with
BPF_CORE_WRITE_BITFIELD does make sense and it also makes code
easy to understand. Could you take Eduard's patch for now?
Whether and where to put BPF_CORE_WRITE_BITFIELD macros
can be decided later.


I am ok with any of the approaches.

Thanks,
Daniel