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4.3.2. Running GDB
This section will describe a basic execution of GDB, using the following simple program:
hello.c
#include <stdio.h> char hello[] = { "Hello, World!" }; int main() { fprintf (stdout, "%s\n", hello); return (0); }
The following procedure illustrates the debugging process in its most basic form.
Procedure 4.1. Debugging a 'Hello World' Program
- Compile hello.c into an executable with the debug flag set, as in:
gcc -g -o hello hello.c
Ensure that the resulting binaryhello
is in the same directory ashello.c
. - Run
gdb
on thehello
binary, that is,gdb hello
. - After several introductory comments,
gdb
will display the default GDB prompt:(gdb)
- The variable
hello
is global, so it can be seen even before themain
procedure starts:gdb) p hello $1 = "Hello, World!" (gdb) p hello[0] $2 = 72 'H' (gdb) p *hello $3 = 72 'H' (gdb)
Note that theprint
targetshello[0]
and*hello
require the evaluation of an expression, as does, for example,*(hello + 1)
:(gdb) p *(hello + 1) $4 = 101 'e'
- Next, list the source:
(gdb) l 1 #include <stdio.h> 2 3 char hello[] = { "Hello, World!" }; 4 5 int 6 main() 7 { 8 fprintf (stdout, "%s\n", hello); 9 return (0); 10 }
Thelist
reveals that thefprintf
call is on line 8. Apply a breakpoint on that line and resume the code:(gdb) br 8 Breakpoint 1 at 0x80483ed: file hello.c, line 8. (gdb) r Starting program: /home/moller/tinkering/gdb-manual/hello Breakpoint 1, main () at hello.c:8 8 fprintf (stdout, "%s\n", hello);
- Finally, use the
next
command to step past thefprintf
call, executing it:(gdb) n Hello, World! 9 return (0);
The following sections describe more complex applications of GDB.