I meet an issue with global/static variables' initialization with __attribute__((constructor)) in shared library, that certain variables seem to be initialized twice.

Below are code snippets:


struct MyStruct
  MyStruct(int s = 1)
  : s(s) {
    printf("%s, this: %p, s=%d\n", __func__, this, s);
  ~MyStruct() {
    printf("%s, this: %p, s=%d\n", __func__, this, s);
  int s;

MyStruct* s1 = nullptr;
std::unique_ptr<MyStruct> s2 = nullptr;
std::unique_ptr<MyStruct> s3;
MyStruct s4;

void onLoad() __attribute__((constructor));
void onLoad()
  s1 = new MyStruct;
  s2 = std::make_unique<MyStruct>();
  s3 = std::make_unique<MyStruct>();
  s4 = MyStruct(2);

  printf("&s1: %p, &s2: %p, &s3: %p\n", &s1, &s2, &s3);
  printf("s1: %p, s2: %p, s3: %p\n", s1, s2.get(), s3.get());
  printf("s4: %p, s4.s: %d\n", &s4, s4.s);

extern "C" void foo()
  printf("&s1: %p, &s2: %p, &s3: %p\n", &s1, &s2, &s3);
  printf("s1: %p, s2: %p, s3: %p\n", s1, s2.get(), s3.get());
  printf("s4: %p, s4.s: %d\n", &s4, s4.s);


#include <cstdio>
#include <dlfcn.h>

using Foo = void(*)(void);

int main()
  printf("Calling dlopen...\n");
  void* h = dlopen("./libshared.so", RTLD_NOW | RTLD_GLOBAL);
  Foo f = reinterpret_cast<Foo>(dlsym(h, "foo"));
  printf("\nCalling foo()...\n");
  return 0;

Compiled with

$ g++ -fPIC -shared -std=c++14 shared.cpp -o libshared.so
$ g++ -std=c++14 -o main main.cpp -ldl

The output:

Calling dlopen...
MyStruct, this: 0x121b200, s=1
MyStruct, this: 0x121b220, s=1
MyStruct, this: 0x121b240, s=1
MyStruct, this: 0x7ffc19736910, s=2
~MyStruct, this: 0x7ffc19736910, s=2
&s1: 0x7fb1fe487190, &s2: 0x7fb1fe487198, &s3: 0x7fb1fe4871a0
s1: 0x121b200, s2: 0x121b220, s3: 0x121b240
s4: 0x7fb1fe4871a8, s4.s: 2
MyStruct, this: 0x7fb1fe4871a8, s=1

Calling foo()...
&s1: 0x7fb1fe487190, &s2: 0x7fb1fe487198, &s3: 0x7fb1fe4871a0
s1: 0x121b200, s2: (nil), s3: 0x121b240
s4: 0x7fb1fe4871a8, s4.s: 1
~MyStruct, this: 0x7fb1fe4871a8, s=1
~MyStruct, this: 0x121b240, s=1

The value of s1 and s3 are expected.

But s2 and s4 behave weird.

  • s2.get() should be 0x121b220, but in foo() it becomes nullptr;
  • s4's value is printed as s4.s: 2 in onLoad(), but after that its constructor is called with default value s=1, then in foo() its value is s=1.

Putting the variables in anonymous namespace has the same result.

What's wrong with s2 and s4?

My OS: Ubuntu 16.04.2, GCC: 5.4.0

  • I don't see any evidence that anything's "initialized twice" – Lightness Races in Orbit May 12 '17 at 15:21
  • 1
    The sequence of ctor/dtor calls make it appear that s4 was never constructed before onLoad() got called, but then gets constructed after. The first three ctor calls are from your heap allocations. The fourth is the temporary MyStruct(2) and the following dtor call is the temporary being destroyed. There's no default ctor call for s4 -- until after the final printf(). That's strange indeed. That's probably why s4.s becomes 1, though. – cdhowie May 12 '17 at 15:21
  • @BoundaryImposition Yeah, that's why I say it seems, I'm just not sure. For example s4 seems to be constructed twice, or it is used before constructed, then it's constructed... – Mine May 12 '17 at 15:25
  • No it doesn't. The output shows precisely the right number of calls to the MyStruct constructor. – Lightness Races in Orbit May 12 '17 at 15:26
  • @BoundaryImposition It does, but not in the right order. We are compiling without -O so we don't get copy elision. See my comment. s4 does appear to be copy-assigned from the temporary prior to its default construction, which happens after onLoad() returns, clobbering the value 2 with 1. – cdhowie May 12 '17 at 15:27

As per the discussion on this GCC bug report and this follow-up doc patch it seems that what you're seeing is unspecified behavior in GCC (not a bug).

However, the order in which constructors for C++ objects with static storage duration and functions decorated with attribute constructor are invoked is unspecified. In mixed declarations, attribute init_priority can be used to impose a specific ordering.

It seems in this case that a segfault was narrowly avoided, as assigning to an uninitialized std::unique_ptr could cause delete to be invoked for an uninitialized pointer member. GCC's unspecified behavior translates into undefined behavior (in this particular case) according to the C++ specification, because it's undefined behavior to read from an uninitialized variable (except for an uninitialized unsigned char).

Anyway, to correct this problem you do indeed need to use __attribute((init_priority)) to order initialization of your statically-declared objects before the constructor function.

  • I still consider this as GCC bug, since the bug is still not closed. Using __attribute__((init_priority(101))) does resolve the issue. – Mine May 13 '17 at 1:48

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