Following up ELF binary entry point and Why do virtual memory addresses for linux binaries start at 0x8048000?, why cannot I make
ld use a different entry point than the default with
If I do so, I either get a
segmentation fault with return code 139, even for addresses close by the default entry point. Why?
I will make the question more specific:
.text .globl _start _start: movl $0x4,%eax # eax = code for 'write' system call movl $1,%ebx # ebx = file descriptor to standard output movl $message,%ecx # ecx = pointer to the message movl $13,%edx # edx = length of the message int $0x80 # make the system call movl $0x0,%ebx # the status returned by 'exit' movl $0x1,%eax # eax = code for 'exit' system call int $0x80 # make the system call .data .globl message message: .string "Hello world\n" # The message as data
If I compile this with
as program.s -o program.o and then link it statically with
ld -N program.o -o program,
readelf -l program shows
0x0000000000400078 as the
VirtAddr of the text segment and
0x400078 as entry point. When run, `Hello world" is printed.
However, when I try to link with
ld -N -e0x400082 -Ttext=0x400082 program.o -o program (moving text segment and entry point by 4 bytes), the program will be
killed. Inspecting it with
readelf -l now shows two different headers of type
LOAD, one at
0x0000000000400082 and one at
When I try
0x400086, it all works, and there is only one
- What's going on here?
- Which memory addresses may I chose, which ones cannot I chose and why?