The accepted is not really correct. It does work in some circumstances.
(gdb) disas STARTADDRESS ENDADDRESS
The highest upvoted answer is correct. Read no further is you don't wish to understand why it is correct.
(gdb) x/i 0xdeadbeef
With an appropriately meaningless hex address.
I have an STM32 and I have relocated the code with PIC. The normal boot address is 0x8000000, with a 0x200 vector table. So a normal entry is 0x8000200. However, I have programmed the binary to 0x80040200 (two NOR flash sectors away) and wish to debug there.
The issue gdb has with this is 'file foo.elf' is showing that code is in the first range. Special command like 'disassemble' will actually look at the binary on the host. For the cross debug case, gdb would have to look at memory on the remote which could be expensive. So, it appears that the 'x /i' (examine as code) is the best option. The debug information that gdb depends on (where routines start/end) is not present in a random binary chunk.
To combine the answers above for PIC code on an embedded cross system,
You need to create multiple elf files, one for each possible target location. Use the GDB's
file command to select the one with proper symbol locations.
This will NOT work for Cross development
You can use generating gcc debug symbols. The steps are,
- Build normal link address.
- Extract symbols.
symbol-file with an offset for the runtime address.
(gdb) help symbol-file
Load symbol table from executable file FILE.
Usage: symbol-file [-readnow | -readnever] [-o OFF] FILE
OFF is an optional offset which is added to each section address.
You can then switch symbol files to a relocated run address to use the first answer.
If you have a case where the code is relocated, but data is absolute, you need to link twice and choose the relocated elf files (symbols only are relocated and code is the same). This is desirable with NOR flash that is XIP (execute-in-place) as the memory devices for .text and .rodata are different from .data and .bss. Ie, many lower-to-middle scale embedded devices. However, gcc does not support this code generation option (at least on ARM). You must use a 'static base' register (for example,
r9 as u-boot does).