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parser stack overflow with very deeply nested items #32594
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May I suggest |
Also, if you happen to have more RAM, you can paper over this by setting |
I cannot get pastie.org to work for me. I'll revisit in a few days and close if I still can't access at that point... |
Closing since there's no code to allow reproducing this now. |
Here: https://play.rust-lang.org/?gist=dfc63278a57e83fc2b1020ac087b5a43&version=stable&backtrace=0 That's 10,000 nested loops, but I think you can make it happen sooner by using other constructs in between. |
Triage: still overflows. |
Prevent compiler stack overflow for deeply recursive code I was unable to write a test that 1. runs in under 1s 2. overflows on my machine without this patch The following reproduces the issue, but I don't think it's sensible to include a test that takes 30s to compile. We can now easily squash newly appearing overflows by the strategic insertion of calls to `ensure_sufficient_stack`. ```rust // compile-pass #![recursion_limit="1000000"] macro_rules! chain { (EE $e:expr) => {$e.sin()}; (RECURSE $i:ident $e:expr) => {chain!($i chain!($i chain!($i chain!($i $e))))}; (Z $e:expr) => {chain!(RECURSE EE $e)}; (Y $e:expr) => {chain!(RECURSE Z $e)}; (X $e:expr) => {chain!(RECURSE Y $e)}; (A $e:expr) => {chain!(RECURSE X $e)}; (B $e:expr) => {chain!(RECURSE A $e)}; (C $e:expr) => {chain!(RECURSE B $e)}; // causes overflow on x86_64 linux // less than 1 second until overflow on test machine // after overflow has been fixed, takes 30s to compile :/ (D $e:expr) => {chain!(RECURSE C $e)}; (E $e:expr) => {chain!(RECURSE D $e)}; (F $e:expr) => {chain!(RECURSE E $e)}; // more than 10 seconds (G $e:expr) => {chain!(RECURSE F $e)}; (H $e:expr) => {chain!(RECURSE G $e)}; (I $e:expr) => {chain!(RECURSE H $e)}; (J $e:expr) => {chain!(RECURSE I $e)}; (K $e:expr) => {chain!(RECURSE J $e)}; (L $e:expr) => {chain!(RECURSE L $e)}; } fn main() { let x = chain!(D 42.0_f32); } ``` fixes #55471 fixes #41884 fixes #40161 fixes #34844 fixes #32594 cc @alexcrichton @rust-lang/compiler I looked at all code that checks the recursion limit and inserted stack growth calls where appropriate.
Prevent compiler stack overflow for deeply recursive code I was unable to write a test that 1. runs in under 1s 2. overflows on my machine without this patch The following reproduces the issue, but I don't think it's sensible to include a test that takes 30s to compile. We can now easily squash newly appearing overflows by the strategic insertion of calls to `ensure_sufficient_stack`. ```rust // compile-pass #![recursion_limit="1000000"] macro_rules! chain { (EE $e:expr) => {$e.sin()}; (RECURSE $i:ident $e:expr) => {chain!($i chain!($i chain!($i chain!($i $e))))}; (Z $e:expr) => {chain!(RECURSE EE $e)}; (Y $e:expr) => {chain!(RECURSE Z $e)}; (X $e:expr) => {chain!(RECURSE Y $e)}; (A $e:expr) => {chain!(RECURSE X $e)}; (B $e:expr) => {chain!(RECURSE A $e)}; (C $e:expr) => {chain!(RECURSE B $e)}; // causes overflow on x86_64 linux // less than 1 second until overflow on test machine // after overflow has been fixed, takes 30s to compile :/ (D $e:expr) => {chain!(RECURSE C $e)}; (E $e:expr) => {chain!(RECURSE D $e)}; (F $e:expr) => {chain!(RECURSE E $e)}; // more than 10 seconds (G $e:expr) => {chain!(RECURSE F $e)}; (H $e:expr) => {chain!(RECURSE G $e)}; (I $e:expr) => {chain!(RECURSE H $e)}; (J $e:expr) => {chain!(RECURSE I $e)}; (K $e:expr) => {chain!(RECURSE J $e)}; (L $e:expr) => {chain!(RECURSE L $e)}; } fn main() { let x = chain!(D 42.0_f32); } ``` fixes #55471 fixes #41884 fixes #40161 fixes #34844 fixes #32594 cc @alexcrichton @rust-lang/compiler I looked at all code that checks the recursion limit and inserted stack growth calls where appropriate.
Prevent compiler stack overflow for deeply recursive code I was unable to write a test that 1. runs in under 1s 2. overflows on my machine without this patch The following reproduces the issue, but I don't think it's sensible to include a test that takes 30s to compile. We can now easily squash newly appearing overflows by the strategic insertion of calls to `ensure_sufficient_stack`. ```rust // compile-pass #![recursion_limit="1000000"] macro_rules! chain { (EE $e:expr) => {$e.sin()}; (RECURSE $i:ident $e:expr) => {chain!($i chain!($i chain!($i chain!($i $e))))}; (Z $e:expr) => {chain!(RECURSE EE $e)}; (Y $e:expr) => {chain!(RECURSE Z $e)}; (X $e:expr) => {chain!(RECURSE Y $e)}; (A $e:expr) => {chain!(RECURSE X $e)}; (B $e:expr) => {chain!(RECURSE A $e)}; (C $e:expr) => {chain!(RECURSE B $e)}; // causes overflow on x86_64 linux // less than 1 second until overflow on test machine // after overflow has been fixed, takes 30s to compile :/ (D $e:expr) => {chain!(RECURSE C $e)}; (E $e:expr) => {chain!(RECURSE D $e)}; (F $e:expr) => {chain!(RECURSE E $e)}; // more than 10 seconds (G $e:expr) => {chain!(RECURSE F $e)}; (H $e:expr) => {chain!(RECURSE G $e)}; (I $e:expr) => {chain!(RECURSE H $e)}; (J $e:expr) => {chain!(RECURSE I $e)}; (K $e:expr) => {chain!(RECURSE J $e)}; (L $e:expr) => {chain!(RECURSE L $e)}; } fn main() { let x = chain!(D 42.0_f32); } ``` fixes rust-lang#55471 fixes rust-lang#41884 fixes rust-lang#40161 fixes rust-lang#34844 fixes rust-lang#32594 cc @alexcrichton @rust-lang/compiler I looked at all code that checks the recursion limit and inserted stack growth calls where appropriate.
Trying to compile this code, which contains 492 nested
loop
blocks: http://pastie.org/private/blihpoctk64fvv9yvwkp5gcauses rustc to unceremoniously segfault. I feel like this is basic enough (unavoidable other than with diagnostics?) that there should be an existing issue for it, but I can't find one, so here's a new report.
For the record, this is stripped down from real (generated) code. I have been using labeled
break
as a substitute forgoto
- in my real code theloop
blocks are labeled; after eachloop
is the code for that case, followed by areturn
. Inside all the nestedloop
s is a decoder whichbreak
s to one of the labels, consisting of a number of nestedmatch
statements, within which a single label can appear several times. (Normally I would use functions instead of labels, likereturn handle_foo(...)
, and in fact this might 'just work', but I can't guarantee that each helper function (1) is inlined, but (2) is inlined only once, after the calls are merged into one basic block, rather than separately for each time it's mentioned.)Partial backtrace:
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