15

The question is did we introduce undefined behaviour that trips optimizer, or can we file a bug report against gcc?

Sorry for lack of better title, but it's quite fragile and we are almost sure that this is a bug. The minimal example is not our favourite design but it's based on production code that crashed:

#include <iostream>

struct Node
{
    Node(Node* parent) {
        if(parent) {
           parent->child_ = this;
        }
    }
    Node* child()
    {
        return child_;
    }
    Node* child_ = nullptr;
};

void walk(Node* module, int cleanup) {
    if(module != nullptr) {
        if(!cleanup) {
            std::cerr << "No cleanup";
        }
        walk(module->child(), cleanup);
        if(cleanup) {
            delete module;
        }
    }
}

int main (){
    Node* top = new Node(nullptr);
    Node* child = new Node(top);
    walk(top,1);
}

Compiled with -O1 -foptimize-sibling-calls -ftree-vrp. Godbolt example: https://gcc.godbolt.org/z/4VijKb

Program crashes calling module->child() when module is 0x0. Inspecting assembler we noticed that if (module != nullptr) is skipped at the beginning of walk. There is a check for cleanup and call to work seems to be unconditional, which results in trying to pull child_ from an invalid pointer.

The check is reestablished in assembly (and code seems to work) if:

  1. Any of the two optimizations over -O1 is taken away.
  2. Body of if(!cleanup) is removed. (No side effect from cerr)
  3. Body of if(cleanup) is removed. (Memory leak, but I think it counts as observable behaviour change)
  4. walk is called before "No cleanup" if. (Operation order)
  5. cleanup type is changed to bool from an int. (Type change - but no observable behaviour change, I think).
  6. Insertion of unconditional cerr << "text"; before and if(!cleanup). (Also an observable change.)

It seems like a weird combination of tail-recursion and nullptr check removal that resulted in wrong code. Possibly walk got split into sibling functions based on cleanup checks and got stitched wrongly(?).

Two candidates for UB were:

  1. Hinting compiler that module is non-nullptr, but I don't see a way compiler could infer the result.
  2. Using int in bool context, but it's legal AFAIK.

FWIW clang seems to produce correct run-time, gcc 8.3 also has the assembly for the check present. 9.1 and trunk not. We don't have any gcc expert at hand, so we had no idea why optimizer could be misled.

5
  • I can't see how skipping if (variable != nullptr) is not a bug unless the if body was completely removed as unreachable. (Or 'variable' can be proven as always nonzero.) That kind of check is used all the time. – Dave S Jun 18 '19 at 18:51
  • 2
    Wow. It does look like a compiler bug. I can't see anything wrong with this code. – Nikos C. Jun 18 '19 at 19:00
  • Interestingly enough, it looks like, according to godbolt coloring (no assembly expert here, I can be wrong) that the null check is done at the end of the function, in line 20. Am I wrong? – CuriouslyRecurringThoughts Jun 18 '19 at 19:24
  • @CuriouslyRecurringThoughts Yes. I looks like tail-call version for when cleanup is false. It makes much sense. Check cleanup, if false jump to L3 - print, and pull module->child_ into module_ (%rbx), and since cleanup does not change, you can simply start looping, while(module != nullptr), omitting 2nd if. That part is quite clever, even though the example never uses it. – luk32 Jun 18 '19 at 21:15
  • @luk32 a bit too clever maybe. Thanks for the explanation. – CuriouslyRecurringThoughts Jun 18 '19 at 21:45
9

It does look like a GCC bug. I've been staring at this code for a while, and I can't find anything wrong with it whatsoever.

This is also reproducible with gcc, not just g++. It might be easier for the GCC developers to investigate if you write the minimal version of this in C. This C code reproduces the issue for me on GCC 9.1.0 with -O1 -foptimize-sibling-calls -ftree-vrp:

#include <stdio.h>
#include <stdlib.h>

struct Node
{
    struct Node* child;
};

void walk(struct Node* module, int cleanup)
{
    if (module == NULL) {
        return;
    }
    if (!cleanup) {
        puts("No cleanup");
    }
    walk(module->child, cleanup);
    if (cleanup) {
        free(module);
    }
}

int main()
{
    struct Node* node = malloc(sizeof(struct Node));
    node->child = NULL;
    walk(node, 1);
}
4
  • 4
    Thanks, I've bisected it and reported gcc.gnu.org/bugzilla/show_bug.cgi?id=90949 – Jonathan Wakely Jun 20 '19 at 10:14
  • @JonathanWakely Thanks for performing due dilligence. Sorry for lagging with official report, but I got caught by holidays. – luk32 Jun 20 '19 at 18:41
  • Just for the record, please: In the code in your answer, I am desperately looking for something smelly or on the edge of UB or such that might confuse GCC into misbehaviour. However, I cannot find anything. This could actually (semantically) be production code that I would write exactly the same way. I am honestly too unexperienced to follow the explanations in the GCC bugtracker. Could you please enlighten me...? – Kamajii Aug 28 '19 at 16:01
  • 1
    It's valid C and a miscompilation by GCC. – saagarjha Aug 28 '19 at 18:40

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