Everything about Gdb totally explained
The
GNU Debugger, usually called just
GDB, is the standard
debugger for the
GNU software system. It is a portable debugger that runs on many
Unix-like systems and works for many
programming languages, including
Ada,
C,
C++,
FreeBASIC, and
Fortran.
History
GDB was first written by
Richard Stallman in
1986 as part of his
GNU system, after his
GNU Emacs was "reasonably stable". GDB is
free software released under the
GNU General Public License (GPL). It was modeled after the
Dbx debugger, which came with
Berkeley Unix distributions.
From 1990 to 1993 it was maintained by
John Gilmore while he worked for
Cygnus Solutions. Now it's maintained by GDB Steering Committee which is appointed by
Free Software Foundation.
Technical details
Features
GDB offers extensive facilities for tracing and altering the execution of
computer programs. The user can monitor and modify the values of programs' internal
variables, and even call
functions independently of the program's normal behavior.
GDB target processors (as of
2003) include:
Alpha,
ARM,
AVR,
H8/300,
System/370,
System 390,
X86 and
X86-64,
IA-64 "Itanium",
Motorola 68000,
MIPS,
PA-RISC,
PowerPC,
SuperH,
SPARC, and
VAX.
Lesser-known target processors supported in the standard release have included
A29K,
ARC,
CRIS,
D10V,
D30V,
FR-30,
FR-V,
Intel i960,
M32R,
68HC11,
Motorola 88000,
MCORE,
MN10200,
MN10300,
NS32K,
Stormy16,
V850, and
Z8000. (Newer releases will likely not support some of these.)
GDB has compiled-in
simulators for target processors even for lesser-known target processors such like M32R or V850.
GDB is still actively developed. As of early 2007, the focus is on adding "reversible debugging" support — allowing a debugging session to step backwards, much like rewinding a crashed program to see what happened. Adding reversible debugging is one of the
High Priority Free Software Projects.
Remote debugging
GDB offers a 'remote' mode often used when debugging embedded systems. Remote operation is when GDB runs on one machine and the program being debugged runs on another. GDB can communicate to the remote 'stub' which understands GDB protocol via Serial or TCP/IP.
The same mode is also used by KGDB for debugging a running
Linux kernel on the source level with gdb. With kgdb, kernel developers can debug a kernel in much the same way as they debug application programs. It makes it possible to place breakpoints in kernel code, step through the code and observe variables. On architectures where hardware debugging registers are available, watchpoints can be set which trigger breakpoints when specified memory addresses are executed or accessed. kgdb requires an additional machine which is connected to the machine to be debugged using a
serial cable or
ethernet. On
FreeBSD, it's also possible to debug using
Firewire DMA.
Limitations
The debugger doesn't contain its own
graphical user interface, and defaults to a
command-line interface. Several front-ends have been built for it, such as
DDD,
Eclipse CDT,
Xcode debugger, GDBtk/
Insight
and the "GUD mode" in
GNU Emacs. These offer facilities similar to debuggers found in
integrated development environments.
Some other debugging tools have been designed to work with GDB, such as
memory leak detectors.
Examples of commands
| $ gdb prog.out | debug prog.out (from the shell)
|
| gdb> run -v | run the loaded program with the parameters
|
| gdb> bt | backtrace (in case the program crashed)
|
| gdb> info registers | dump all registers
|
| gdb> disass $pc-32 $pc+32 | disassemble
|
An example session
This is an example GDB session on the example program in
Stack trace:
GNU gdb Red Hat Linux (6.3.0.0-1.21rh)
Copyright 2004 Free Software Foundation, Inc.
GDB is free software, covered by the GNU General Public License, and you are
welcome to change it and/or distribute copies of it under certain conditions.
Type "show copying" to see the conditions.
There is absolutely no warranty for GDB. Type "show warranty" for details.
This GDB was configured as "i386-redhat-linux-gnu"...Using host libthread_db library "/lib/libthread_db.so.1".
(gdb) run
Starting program: /home/sam/programming/crash
Reading symbols from shared object read from target memory...done.
Loaded system supplied DSO at 0xc11000
This program will demonstrate gdb
Program received signal SIGSEGV, Segmentation fault.
0x08048428 in function_2 (x=24) at crash.c:22
22 return *y;
(gdb) edit
(gdb) shell gcc crash.c -o crash -gstabs+
(gdb) run
The program being debugged has been started already.
Start it from the beginning? (y or n) y
warning: can't close "shared object read from target memory": File in wrong format
`/home/sam/programming/crash' has changed; re-reading symbols.
Starting program: /home/sam/programming/crash
Reading symbols from shared object read from target memory...done.
Loaded system supplied DSO at 0xa3e000
This program will demonstrate gdb
24
Program exited normally.
(gdb) quit
The program is being run. After the cause of the segmentation fault is found, the program is edited to use the correct behavior. The corrected program is recompiled with
GCC and then run.
Further Information
Get more info on 'Gdb'.
|
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