时间:2021-07-01 10:21:17 帮助过:22人阅读
来自https://www.tutorialspoint.com/gnu_debugger/gdb_quick_guide.htm
A Debugging Symbol Table maps instructions in the compiled binary program to their corresponding variable, function, or line in the source code. This mapping could be something like:
Program instruction ? item name, item type, original file, line number defined.
Symbol tables may be embedded into the program or stored as a separate file. So if you plan to debug your program, then it is required to create a symbol table which will have the required information to debug the program.
We can infer the following facts about symbol tables:
A symbol table works for a particular version of the program – if the program changes, a new table must be created.
Debug builds are often larger and slower than retail (non-debug) builds; debug builds contain the symbol table and other ancillary information.
If you wish to debug a binary program you did not compile yourself, you must get the symbol tables from the author.
To let GDB be able to read all that information line by line from the symbol table, we need to compile it a bit differently. Normally we compile our programs as:
gcc hello.cc -o hello
Instead of doing this, we need to compile with the -g flag as shown below:
gcc -g hello.cc -o hello
GDB offers a big list of commands, however the following commands are the ones used most frequently:
gcc -g myprogram.c
Compiles myprogram.c with the debugging option (-g). You still get an a.out, but it contains debugging information that lets you use variables and function names inside GDB, rather than raw memory locations (not fun).
gdb a.out
Opens GDB with file a.out, but does not run the program. You’ll see a prompt (gdb) - all examples are from this prompt.
r
r arg1 arg2
r < file1
Three ways to run “a.out”, loaded previously. You can run it directly (r), pass arguments (r arg1 arg2), or feed in a file. You will usually set breakpoints before running.
help
h breakpoints
Lists help topics (help) or gets help on a specific topic (h breakpoints). GDB is well-documented.
q - Quit GDB
Stepping through Code
Stepping lets you trace the path of your program, and zero in on the code that is crashing or returning invalid input.
l
l 50
l myfunction
Lists 10 lines of source code for current line (l), a specific line (l 50), or for a function (l myfunction).
next
Runs the program until next line, then pauses. If the current line is a function, it executes the entire function, then pauses. next is good for walking through your code quickly.
step
Runs the next instruction, not line. If the current instruction is setting a variable, it is the same as next. If it’s a function, it will jump into the function, execute the first statement, then pause. step is good for diving into the details of your code.
finish
Finishes executing the current function, then pause (also called step out). Useful if you accidentally stepped into a function.
Breakpoints or Watchpoints
Breakpoints play an important role in debugging. They pause (break) a program when it reaches a certain point. You can examine and change variables and resume execution. This is helpful when some input failure occurs, or inputs are to be tested.
break 45
break myfunction
Sets a breakpoint at line 45, or at myfunction. The program will pause when it reaches the breakpoint.
watch x == 3
Sets a watchpoint, which pauses the program when a condition changes (when x == 3 changes). Watchpoints are great for certain inputs (myPtr != NULL) without having to break on every function call.
continue
Resumes execution after being paused by a breakpoint/watchpoint. The program will continue until it hits the next breakpoint/watchpoint.
delete N
Deletes breakpoint N (breakpoints are numbered when created).
Setting Variables
Viewing and changing variables at runtime is a critical part of debugging. Try providing invalid inputs to functions or running other test cases to find the root cause of problems. Typically, you will view/set variables when the program is paused.
print x
Prints current value of variable x. Being able to use the original variable names is why the (-g) flag is needed; programs compiled regularly have this information removed.
set x = 3
set x = y
Sets x to a set value (3) or to another variable (y)
call myfunction()
call myotherfunction(x)
call strlen(mystring)
Calls user-defined or system functions. This is extremely useful, but beware of calling buggy functions.
display x
Constantly displays the value of variable x, which is shown after every step or pause. Useful if you are constantly checking for a certain value.
undisplay x
Removes the constant display of a variable displayed by display command.
Backtrace and Changing Frames
A stack is a list of the current function calls - it shows you where you are in the program. A frame stores the details of a single function call, such as the arguments.
bt
Backtraces or prints the current function stack to show where you are in the current program. If main calls function a(), which calls b(), which calls c(), the backtrace is
c <= current location
b
a
main
up
down
Move to the next frame up or down in the function stack. If you are in c, you can move to b or a to examine local variables.
return
Returns from current function.
Handling Signals
Signals are messages thrown after certain events, such as a timer or error. GDB may pause when it encounters a signal; you may wish to ignore them instead.
handle [signalname] [action]
handle SIGUSR1 nostop
handle SIGUSR1 noprint
handle SIGUSR1 ignore
Instruct GDB to ignore a certain signal (SIGUSR1) when it occurs. There are varying levels of ignoring.
GDB - Debugging Examples
Go through the following examples to understand the procedure of debugging a program and core dumped.
Debugging Example 1
This example demonstrates how you would capture an error that is happening due to an exception raised while dividing by zero.
Debugging Example 2
This example demonstrates a program that can dump a core due to non-initialized memory.
Both the programs are written in C++ and generate core dump due to different reasons. After going through these two examples, you should be in a position to debug your C or C++ programs generating core dumps.
GDB - Summary
After going through this tutorial, you must have gained a good understanding of debugging a C or C++ program using GNU Debugger. Now it should be very easy for you to learn the functionality of other debuggers because they are very similar to GDB. It is highly recommended that you go through other debuggers as well to become familiar with their features.
There are quite a few good debuggers available in the market:
DBX Debugger - This debugger ships along with Sun Solaris and you can get complete information about this debugger using the man page of dbx, i.e., man dbx.
DDD Debugger - This is a graphical version of dbx and freely available on Linux. To have a complete detail, use the man page of ddd, i.e., man ddd.
You can get a comprehensive detail about GNU Debugger from the following link: Debugging with GDB
GDB debug
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