My app dlopens a library with static initialization code. All other libraries do the same and are loaded fine before, but this one dies, when calling a function from another library. This is something like:
0x12311 <-- bad address _static_initialization_0 <-- function call .... dlopen
Now, the function call in the disassembly looks like
However this call ends up calling invalid address 0x12311, i.e. the PLT entry gets the wrong address.
The problem is highly possible that the library in question is kind of 3rd-party one, i.e. comes in binary prebuilt form even though it depends on other libraries. Previous week we did a big optimization and changed a lot of headers and so on. The function MyFunc whos PLT is wrong is located in our (another) library, that got massive optimization changes.
How this is possible? The exact question is:
- what is the mechanism that causes PLT mismatch
- is there a way to fix it without touching the precompiled library - OPTIONAL as I could get the rebuilt version, but I'm still curious why it crashes
Also, the same app works fine when compiled with -O2 optimization, which is what I call strange (the binary library is same in both cases).
P.S. ubuntu 12.04 x86_64 but app is i386.
UPDATE: The suggestion in comments (deleted for some reason) to check LD_DEBUG was good, in LD_DEBUG=bindings I see this in the "crashing" version of app:
10272: /media/EXT/work/build32/bin/libMyLib.so: error: symbol lookup error: undefined symbol: omp_set_num_threads (fatal)
And then it stops binding libMyLib.so symbols, while in non-failing version it keeps binding other symbols. But I don't understand why it then continues execution and tries to load the parent library. Actually the scheme is as follows:
libA -> libB -> libMyLib
libMyLib fails (as indicated by LD_DEBUG output above) so it skips it and also libB completely (!) and continues with binding libA symbols. The non-failing version fully loads libMyLib symbols, then continues with libB symbols, and then with libA symbols.
Frankly to me it looks like ld bug.
As for why optimized version works I suppose omp_ method is not really needed and is thrown out by linker optimization, thus it does not fail to find it at runtime.
Here's what I see in LD_DEBUG=all log after the omp_ symbol is not found for libC:
19225: symbol=omp_set_num_threads; lookup in file=/usr/lib/i386-linux-gnu/libXdmcp.so.6  19225: /media/EXT/Work/libC.so: error: symbol lookup error: undefined symbol: omp_set_num_threads (fatal) 19225: 19225: file=/media/EXT/libA.so ; destroying link map 19225: 19225: file=/media/EXT/libA.so ; dynamically loaded by /media/EXT/libX.so  19225: file=/media/EXT/libA.so ; generating link map 19225: dynamic: 0xf2fdb764 base: 0xf2f81000 size: 0x00064a28 19225: entry: 0xf2f8ffd0 phdr: 0xf2f81034 phnum: 7 19225: 19225: checking for version `GCC_3.0' in file /lib/i386-linux-gnu/libgcc_s.so.1  required by file /media/EXT/libA.so  ... few more checking 19225: object=/media/EXT/libA.so  19225: scope 0: bin/mainapp /lib/i386-linux-gnu/libpthread.so.0 /media/EXT/libX.so ... 19225: scope 1:... 19225: 19225: 19225: relocation processing: /media/EXT/libA.so 19225: symbol=_ZTVN10__cxxabiv117__class_type_infoE; lookup in file=bin/mainapp  19225: symbol=_ZTVN10__cxxabiv117__class_type_infoE; lookup in file=/lib/i386-linux-gnu/libpthread.so.0  19225: symbol=_ZTVN10__cxxabiv117__class_type_infoE; lookup in file=/media/EXT/libX.so  19225: binding file /media/EXT/libA.so  to /media/EXT/libX.so : normal symbol `_ZTVN10__cxxabiv117__class_type_infoE' ... here it continues to bind libA symbols, and after finishing that 19225: 19225: 19225: calling init: /media/EXT/libC.so 19225:
it calls init for the non-initialized libC.so module.
(Just to mention libX.so is the base module that calls dlopen and also contains basic methods used by all other libs.)
After destroying link map for libA the log shows that it is generated again, I just don't understand if loader continues to load libA or starts from scratch this time without bothering about libB/libC. Well, it ignores libB/libC in any case until init is called for libC.