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regression: stack overflow on macosx with xcode 6.4 #55471
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This is showing up in curl-rust as well -- alexcrichton/curl-rust#234 (I haven't reproduced it myself yet) |
cc @oli-obk, the stack trace in the curl issue looks like const eval things? |
You mean because of the |
er sorry I apologize, I misremembered the stack trace as being const related when in fact it's simply MIR construction related. My bad! |
No worries. I'm knee deep in Mir building code right now anyway, I'll build a repro that I can run on x86 and see what it takes to remove a few intermediate stack frames or locals. |
Actually, we might want to fix this once and forever. I think we can change the recursion into a loop (well obviously, but I mean without making the code impossible to maintain). Cc @rust-lang/compiler do you think it's reasonable to attempt refactoring Mir building code to use stacks or should we patch this over and wait for guaranteed TCO? |
We already have an outstanding issue to reduce the default stack size from 16MB back to 8MB (upping the stack to 16MB was a temporary-not-temporary workaround to a similar issue). Compiler should not restrict itself with code down to the fairly arbitrarily chosen size of the compiler’s stack. |
That being said I do not believe it is sensible to single-out the MIR building code – there are quite a few other areas that are implemented recursively and could be problematic. I feel that we should simply implement some sort of dynamic stack sizing functionality for rustc. I don’t think it is necessary to make it able to reduce the stack – only increasing when the stack limit is reached ought to be fine IMO. |
Does this happen on beta? |
Yes, I've modified mach CI to test that, and it produces a stack overflow in beta as well: https://travis-ci.org/gnzlbg/mach/builds/448907619 |
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.
visited for triage. Looks like progress is moving forward at a good pace on PR #55617. |
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.
No, @alexcrichton expressed strong discomfort with fixing it just for 2 of 3 tier 1 platforms. I am still attempting to get the full fix done this week |
Ping @oli-obk, any progress on this? Release date is approaching. |
It is too risky to backport We could double the stack size on beta to buy us another 6 weeks. |
Bump stack size to 32MB cc #55471 A short term solution (really this time! Full fix being grown in #55617) for stack overflows due to deeply recursive syntax trees. r? @nagisa cc @alexcrichton @eddyb @michaelwoerister @pietroalbini
The 2018 release will have this stack overflow (#56468 (comment)), but the following compilers won't. |
T-compiler triage: The problem might have been addressed in the short term via PRs #56467 and #56518. However, it is unclear whether PR #56467 was actually the right short term fix, because @gnzlbg reports that they still get a stack overflow on nightly unless they use
The longer-term fix is in-progress on PR #55617. |
T-compiler triage: assigning to self for looking into the oddity mentioned in the previous comment. |
I have addressed the default stack size problem with #56813 |
Ping, what needs to be backported to beta? |
Ping @rust-lang/compiler, what needs to be backported to beta? |
#56813 is what would be backported if we end up wanting to do a backport at all. |
I’m going to close this issue because the regression itself is now gone. Just the PR is enough to track a more general fix. |
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.
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.
The
build.rs
ofmach-test
in themach
crate commit fitzgen/mach@d31c809 crashes on MacOS X with a stack overflow whenxcode
6.4 is used. This used to work, but is now failing on nightly, so this stack overflow is a regression. I don't have access to a MacOSX system with xcode 6.4 but travis reproduces this reliably. The PR in mach that works around this is: fitzgen/mach#49The text was updated successfully, but these errors were encountered: