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1.71: Bad DW_TAG_lexical_block; gdb breaks on method before self
is initialized
#130003
Comments
Thanks for the tag, I wouldn't have seen this otherwise. From
0000000000013cb0 <_ZN11rust_1300033Foo18var_return_opt_try17hcd26f4530d437787E>:
13cb0: 48 83 ec 38 sub $0x38,%rsp
13cb4: 48 89 7c 24 28 mov %rdi,0x28(%rsp)
13cb9: e8 b2 fe ff ff call 13b70 <_ZN11rust_1300033Foo5get_a17h8300da2e5e4489e5E> I suspect this is due to the desugaring of the ? operator since the column number provided is 29. |
@rustbot label +A-debuginfo |
Sure enough, ConstDebugInfo is in there. |
I guess you probably saw, but #128945 does suggest that the bisect is somehow misleading. |
Yes, getting the values wrong at function entry is especially bad because it messes up conditional breakpoints. |
Disabling the The easiest way to fix this would be for DILocation to carry a "this is not a statement" flag that overrides LLVM's usual line based inference of statement markers. I'll run it by the LLVM folks and see what they say. |
Actually, in this particular case, because the const is a ZST I think we can do better today without LLVM changes. |
Thanks for reporting this. The linked PR will fix this particular degenerate case. |
…-emission, r=michaelwoerister Don't leave debug locations for constants sitting on the builder indefinitely Because constants are currently emitted *before* the prologue, leaving the debug location on the IRBuilder spills onto other instructions in the prologue and messes up both line numbers as well as the point LLVM chooses to be the prologue end. Example LLVM IR (irrelevant IR elided): Before: ``` define internal { i64, i64 } `@_ZN3tmp3Foo18var_return_opt_try17he02116165b0fc08cE(ptr` align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8, !dbg !357 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) ``` After: ``` define internal { i64, i64 } `@_ZN3tmp3Foo18var_return_opt_try17h00b17d08874ddd90E(ptr` align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) ``` Note in particular how !357 from %residual.dbg.spill's dbg_declare no longer falls through onto the store to %self.dbg.spill. This fixes argument values at entry when the constant is a ZST (e.g. `<Option as Try>::Residual`). This fixes rust-lang#130003 (but note that it does *not* fix issues with argument values and non-ZST constants, which emit their own stores that have debug info on them, like rust-lang#128945). r? `@michaelwoerister`
…-emission, r=michaelwoerister Don't leave debug locations for constants sitting on the builder indefinitely Because constants are currently emitted *before* the prologue, leaving the debug location on the IRBuilder spills onto other instructions in the prologue and messes up both line numbers as well as the point LLVM chooses to be the prologue end. Example LLVM IR (irrelevant IR elided): Before: ``` define internal { i64, i64 } ``@_ZN3tmp3Foo18var_return_opt_try17he02116165b0fc08cE(ptr`` align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8, !dbg !357 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) ``` After: ``` define internal { i64, i64 } ``@_ZN3tmp3Foo18var_return_opt_try17h00b17d08874ddd90E(ptr`` align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) ``` Note in particular how !357 from %residual.dbg.spill's dbg_declare no longer falls through onto the store to %self.dbg.spill. This fixes argument values at entry when the constant is a ZST (e.g. `<Option as Try>::Residual`). This fixes rust-lang#130003 (but note that it does *not* fix issues with argument values and non-ZST constants, which emit their own stores that have debug info on them, like rust-lang#128945). r? ``@michaelwoerister``
…-emission, r=michaelwoerister Don't leave debug locations for constants sitting on the builder indefinitely Because constants are currently emitted *before* the prologue, leaving the debug location on the IRBuilder spills onto other instructions in the prologue and messes up both line numbers as well as the point LLVM chooses to be the prologue end. Example LLVM IR (irrelevant IR elided): Before: ``` define internal { i64, i64 } ```@_ZN3tmp3Foo18var_return_opt_try17he02116165b0fc08cE(ptr``` align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8, !dbg !357 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) ``` After: ``` define internal { i64, i64 } ```@_ZN3tmp3Foo18var_return_opt_try17h00b17d08874ddd90E(ptr``` align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) ``` Note in particular how !357 from %residual.dbg.spill's dbg_declare no longer falls through onto the store to %self.dbg.spill. This fixes argument values at entry when the constant is a ZST (e.g. `<Option as Try>::Residual`). This fixes rust-lang#130003 (but note that it does *not* fix issues with argument values and non-ZST constants, which emit their own stores that have debug info on them, like rust-lang#128945). r? ```@michaelwoerister```
…mission, r=michaelwoerister Don't leave debug locations for constants sitting on the builder indefinitely Because constants are currently emitted *before* the prologue, leaving the debug location on the IRBuilder spills onto other instructions in the prologue and messes up both line numbers as well as the point LLVM chooses to be the prologue end. Example LLVM IR (irrelevant IR elided): Before: ``` define internal { i64, i64 } `@_ZN3tmp3Foo18var_return_opt_try17he02116165b0fc08cE(ptr` align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8, !dbg !357 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) ``` After: ``` define internal { i64, i64 } `@_ZN3tmp3Foo18var_return_opt_try17h00b17d08874ddd90E(ptr` align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) ``` Note in particular how !357 from %residual.dbg.spill's dbg_declare no longer falls through onto the store to %self.dbg.spill. This fixes argument values at entry when the constant is a ZST (e.g. `<Option as Try>::Residual`). This fixes rust-lang#130003 (but note that it does *not* fix issues with argument values and non-ZST constants, which emit their own stores that have debug info on them, like rust-lang#128945). r? `@michaelwoerister`
…finitely. Because constants are currently emitted *before* the prologue, leaving the debug location on the IRBuilder spills onto other instructions in the prologue and messes up both line numbers as well as the point LLVM chooses to be the prologue end. Example LLVM IR (irrelevant IR elided): Before: define internal { i64, i64 } @_ZN3tmp3Foo18var_return_opt_try17he02116165b0fc08cE(ptr align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8, !dbg !357 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) After: define internal { i64, i64 } @_ZN3tmp3Foo18var_return_opt_try17h00b17d08874ddd90E(ptr align 8 %self) !dbg !347 { start: %self.dbg.spill = alloca [8 x i8], align 8 %_0 = alloca [16 x i8], align 8 %residual.dbg.spill = alloca [0 x i8], align 1 #dbg_declare(ptr %residual.dbg.spill, !353, !DIExpression(), !357) store ptr %self, ptr %self.dbg.spill, align 8 #dbg_declare(ptr %self.dbg.spill, !350, !DIExpression(), !358) Note in particular how !357 from %residual.dbg.spill's dbg_declare no longer falls through onto the store to %self.dbg.spill. This fixes argument values at entry when the constant is a ZST (e.g. <Option as Try>::Residual). This fixes rust-lang#130003 (but note that it does *not* fix issues with argument values and non-ZST constants, which emit their own stores that have debug info on them, like rust-lang#128945).
I tried this code:
Setting a breakpoint on
var_return_opt_try
in rust-gdb results in gdb stopping beforeself
's stack slot is initialized, and gdb dereferences it to print wrong values based onself
:Note the incorrect different values of
self
as I step past initialization. The breakpoint should trigger just after thatmov
, not before it. The other functions in that program indeed do it correctly. Oddly, it seems like the?
operator is necessary for my repro, though maybe that has something to do with the hiddenresidual
var.(Note that
f1
vsf2
is necessary to actually avoid accidental correct values ofself
due to stack reuse, so the other functions can't print wrongself
as written. But I'm just looking at where the breakpoint hits in disassembly.)Here's relevant llvm-dwarfdump from this binary, with a
DW_TAG_lexical_block
pointing at at themov
(0x...24
) rather than thecall
:This looks pretty related to #128945 and #113819.
Like 113819, the repro hits on 1.71 but not 1.70. I'm filing separately because, unlike it, disabling SingleUseConsts doesn't seem to fix the breakpoint. I'm not 100% sure I'm disabling it right - you can see my
cargo build
command above.Meta
rustc --version --verbose
:Backtrace
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