_dl_start symbol is in
ld-linux-x86-64.so.2 (the dynamic loader), and that symbol is private to ld-linux. This means that the only way to find it from inside the program is to do the same thing GDB does: read the symbol table of
ld-linux, and search it for the "_dl_start" function (by name). Linking to it directly (as Martin suggested) can not and will not work (as you've already discovered).
Reading ELF symbol tables is not very complicated -- you just have to find
.strtab sections, and read the
.symtab as a table of
Elf64_Sym entries. Or use
libelf (start here).
An additional complication is that
ld-linux could be stripped (the symbol table is not required for it to work). If it is stipped, neither GDB, nor your program will be able to find
Finally, it is somewhat likely that your attempt to find
_dl_start is pointless: you do realize that this function is called long before the first instruction of your program is executed. By the time you hit
_dl_start has long finished, never to be called again.
I still wonder how gdb gets the address of _dl_start in ld-linux (it is stripped)
ld-linux is stripped, GDB will not be able to find
_dl_start in it. Since you GDB does find it, either
ld-linux is not actually stripped, or
- you have "separate debuginfo" package for glibc installed.
To verify that
ld-linux is really fully stripped, run
nm /lib64/ld-linux-x86-64.so.2 | grep _dl_start and
readelf -S /lib64/ld-linux-x86-64.so.2 | grep symtab. Both commands should produce no output.
To see where GDB is loading symbols from, you can use
set print symbol-loading on command (before running the executable).
I wanted to to call _dl_start (after preparing the stack and adjusting the auxiliary vector) to create an executable image of a program stored already in memory (file representation)...
I don't see how that could possibly work.
_dl_start expects certain state (e.g. its global variables to be zeroed out) before it is called, so calling it for a second time is very likely to result in assertion failure even if you don't adjust the aux vector. And assert is even more likely if you do adjust aux vector in some non-trivial way, which is (apparently) your goal.