RFR: 8368787: Error reporting: hs_err files should show instructions when referencing code in nmethods

[Martin Doerr]

On Fri, 26 Sep 2025 16:12:14 GMT, Martin Doerr <mdoerr at openjdk.org> wrote:

> We'd like to have a little more information in hs_err files in the following scenario: The VM crashes in code which does something with an nmethod. We often have a register pointing into code of the nmethod, but the nmethod is not disassembled in the hs_err file because the crash happens outside of it.
> 
> We can disassemble some instructions around the address inside the nmethod code. This is tricky on platforms which have variable length instructions (like x86). We need to find correct instruction start addresses. I'm proposing to use relocations for this purpose. There are usually enough of them distributed over the nmethod and they point to instruction start addresses.
> 
> I've tested this proposal by the following code on x86_64:
> 
> diff --git a/src/hotspot/cpu/x86/interp_masm_x86.cpp b/src/hotspot/cpu/x86/interp_masm_x86.cpp
> index a6b4efbe4f2..d715e69c850 100644
> --- a/src/hotspot/cpu/x86/interp_masm_x86.cpp
> +++ b/src/hotspot/cpu/x86/interp_masm_x86.cpp
> @@ -646,6 +646,18 @@ void InterpreterMacroAssembler::prepare_to_jump_from_interpreted() {
>  void InterpreterMacroAssembler::jump_from_interpreted(Register method, Register temp) {
>    prepare_to_jump_from_interpreted();
>  
> +  if (UseNewCode) {
> +    Label ok;
> +    movptr(temp, Address(method, Method::from_interpreted_offset()));
> +    cmpptr(temp, Address(method, Method::interpreter_entry_offset()));
> +    je(ok);
> +    movptr(rax, Address(method, Method::from_compiled_offset()));
> +    movptr(rbx, rax);
> +    addptr(rbx, 128);
> +    hlt();
> +    bind(ok);
> +  }
> +
>    if (JvmtiExport::can_post_interpreter_events()) {
>      Label run_compiled_code;
>      // JVMTI events, such as single-stepping, are implemented partly by avoiding running
> 
> 
> The output is (requires hsdis library, otherwise we get a hex dump instead of disassembly):
> 
> RAX=0x00007f3b19000100 is at entry_point+0 in (nmethod*)0x00007f3b19000008
> Compiled method (c1) 2915    1       3       java.lang.Byte::toUnsignedInt (6 bytes)
>  total in heap  [0x00007f3b19000008,0x00007f3b190001f8] = 496
>  main code      [0x00007f3b19000100,0x00007f3b190001b8] = 184
>  stub code      [0x00007f3b190001b8,0x00007f3b190001f8] = 64
>  mutable data [0x00007f3ab401e0b0,0x00007f3ab401e0e0] = 48
>  relocation     [0x00007f3ab401e0b0,0x00007f3ab401e0d8] = 40
>  metadata       [0x00007f3ab401e0d8,0x00007f3ab401e0e0] = 8
>  immutable data [0x00007f3ab401dcd0,0x00007f3ab401dd30] = 96
>  dependencies   [0x00007f3ab401dcd0,0x00007f3ab401dcd8] = 8
>  scopes pcs     [0x00007f3ab401dcd8,0x00007f3ab401dd18] = 64
>  ...

Thanks for looking at this PR!
Hotspot currently dumps code (hex or disassembled) when the nmethod is on stack of the crashing thread. That is completely missing when it's not on stack.

Should we print both, hex dump and disassembly?

Interesting. I haven't tried with ZGC. Did you find more relocations which don't point to an instruction start?
We could ignore relocations with format `ZBarrierRelocationFormatStoreGoodAfterMov` on x86. Or use `patch_barrier_relocation_offset` to find the correct start in this case.

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PR Comment: https://git.openjdk.org/jdk/pull/27530#issuecomment-3370703736