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I am compiling a C library in Mac OS X Snow Leopard with the folloing GCC:

Diderot:~ brandizzi$ gcc -v
Using built-in specs.
Target: i686-apple-darwin10
Configured with: /var/tmp/gcc/gcc-5666.3~6/src/configure --disable-checking --enable-werror --prefix=/usr --mandir=/share/man --enable-languages=c,objc,c++,obj-c++ --program-transform-name=/^[cg][^.-]*$/s/$/-4.2/ --with-slibdir=/usr/lib --build=i686-apple-darwin10 --program-prefix=i686-apple-darwin10- --host=x86_64-apple-darwin10 --target=i686-apple-darwin10 --with-gxx-include-dir=/include/c++/4.2.1
Thread model: posix
gcc version 4.2.1 (Apple Inc. build 5666) (dot 3)

When I run some unit tests of this library (which are written on CuTest) one of the tests got a problem: an EXC_BAD_ACCESS signal. That is a usual problem and I have some understanding about this kind of issue - I'm a Linux guy who called it "Segmentation fault", understand what is happening and the usual ways to solve the problem. What is amazing is that the bad access is executed inside the execution of malloc function. Look at this backtrace I've got in GDB:

(gdb) bt
#0  0x00007fff89000a34 in tiny_free_list_add_ptr ()
#1  0x00007fff88ffe147 in tiny_malloc_from_free_list ()
#2  0x00007fff88ffcfdd in szone_malloc_should_clear ()
#3  0x00007fff88ffceaa in malloc_zone_malloc ()
#4  0x00007fff88ffb1a8 in malloc ()
#5  0x0000000100008c72 in util_copy_string (string=0x100008e48 "libsecretary") at src/util.c:7
#6  0x0000000100008126 in project_new (name=0x100008e48 "libsecretary") at src/project.c:8
#7  0x00000001000078b9 in secretary_start (secretary=0x10080b000, name=0x100008e48 "libsecretary") at src/secretary.c:23
#8  0x00000001000020f8 in test_secretary_move_task_from_project_to_project (test=0x1001005b0) at src/test/secretary.c:146
#9  0x0000000100006eae in CuTestRun (tc=0x1001005b0) at cutest/CuTest.c:143
#10 0x00000001000075c1 in CuSuiteRun (testSuite=0x100800000) at cutest/CuTest.c:289
#11 0x0000000100001527 in RunAllTests () at src/test/run_all.c:22
#12 0x000000010000156b in main () at src/test/run_all.c:32

This test case has the following lines, and the error always happens at the fourth one. If I switch the lines in any way, the problem still happens at the fourth one:

Secretary *secretary = secretary_new();
Task *task = secretary_appoint(secretary, "Test task transference");
Project *destination = secretary_start(secretary, "Chocrotary");
Project *origin = secretary_start(secretary, "libsecretary");

So, how can malloc() cause such problem? I do not even pass a pointer to it! Is it a bug? Has someone seen something like this?

Thanks in advance!

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2 Answers

up vote 3 down vote accepted

Most likely, something earlier in the program's execution is writing to memory it isn't entitled to, corrupting the heap's data structures. Then, later, malloc gets called and tries to follow a pointer that's been overwritten with nonsense (or index something via a value that's being overwritten with nonsense, or whatever), and boom.

You might want to try running your test suite under valgrind to see where things first start going wrong.

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I effectively used valgrind and did not find the source of the problem... Actually, I did not understand very well how to read its output - it pointed problems but I did not understand what it meant. However, I've made some code review and rewriting and solved the problem. I do not know exactly where the problem relied but it is solved. Since valgrind seems to be a great tool, however, I'll mark ths answer as accepted, also because the problem seems to be corrupted heap anyway. Thanks! –  brandizzi Apr 10 '11 at 15:20
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There is an awful lot of reasons for this problem: one did not allocate the memory, the pointer points to the wrong place etc. etc.

In my case, I was allocating an array of e.g. Project with MAX_PROJECT_COUNT positions. I wrote

Project *array = malloc(MAX_PROJECT_COUNT);

but it does not consider the size of the Project struct! The correct solution would be

Project *array = malloc(MAX_PROJECT_COUNT*sizeof(Project));

Note, however, that your problem may be considerably different so it is not possible to apply the same solution.

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