For dynamic linked programs, the kernel detects the
PT_INTERP header in the ELF file and first mmaps the dynamic linker (
/lib/ld-linux.so.2 or similar), and starts execution at the
e_entry address from the main ELF header of the dynamic linker. The initial state of the stack contains the information the dynamic linker needs to find the main program binary (already in memory). It's responsible for reading this and finding all the additional libraries that must be loaded, loading them, performing relocations, and jumping to the
e_entry address of the main program.
For static linked programs, the kernel uses the
e_entry address from the main program's ELF header directly.
In either case, the main program begins with a routine written in assembly traditionally called
_start (but the name is not important as long as its address is in the
e_entry field of the ELF header). It uses the initial stack contents to determine
environ, etc. and calls the right implementation-internal functions (usually written in C) to run global constructors (if any) and perform any libc initialization needed prior to the entry to
main. This usually ends with a call to
exit(main(argc, argv)); or equivalent.