Debugging in Source Mode
Debugging an application is easier if you can analyze the source of the code, instead of the disassembled binaries.
WinDbg, CDB, and KD can use source code in debugging, if the source language is C, C++, or assembly.
To use source debugging, you must have your compiler or linker create symbol files (.pdb files) when the binaries are built. These symbol files show the debugger how the binary instructions correspond to the source lines.
Also, the debugger must be able to access the actual source files , because symbol files do not contain the actual source text.
If it is possible, the compiler and linker should not optimize your code. Source debugging and access to local variables are more difficult, and sometimes almost impossible, if the code has been optimized. If you are using the Build utility as your compiler and linker, set the MSC_OPTIMIZATION macro to /Od /Oi to avoid optimization.
To debug in source mode, the debugger must be able to find the source files and the symbol files. For more information, see Source Code.
The debugger can display source information whenever it has proper symbols and source files for the thread that is currently being debugged.
If you start a new user-mode application by using the debugger, the initial break occurs when Ntdll.dll loads the application. Because the debugger does not have access to the Ntdll.dll source files, you cannot access source information for your application at this point.
To move the program counter to the beginning of the application, add a breakpoint at the entry point to your binary. In the Debugger Command window, type the following command.
bp main g
The application is then loaded and stops when the main function is entered. (Of course, you can use any entry point, not only main.)
If the application throws an exception, it breaks into the debugger. Source information is available at this point. However, if you issue a break by using the CTRL+C, CTRL+BREAK, or Debug | Break command, the debugger creates a new thread, so you cannot see your source code.
After you have reached a thread that you have source files for, you can use the Debugger Command window to execute source debugging commands. If you are using WinDbg, the Source window appears. If you have already opened a Source window by clicking Open Source File on the File menu, WinDbg typically create a new window for the source. You can close the previous window without affecting the debugging process.
If you are using WinDbg, a Source window appears as soon as the program counter is in code that the debugger has source information for.
WinDbg displays one Source window for each source file that you or WinDbg opened. For more information about the text properties of this window, see Source Windows.
You can then step through your application or execute to a breakpoint or to the cursor. For more information about stepping and tracing commands, see Controlling the Target.
If you are in source mode, the appropriate Source window moves to the foreground as you step through your application. Because there are also Microsoft Windows routines that are called during the application's execution, the debugger might move a Disassembly window to the foreground when this kind of call occurs (because the debugger does not have access to the source for these functions). When the program counter returns to known source files, the appropriate Source window becomes active.
As you move through the application, WinDbg highlights your location in the Source window and the Disassembly window. Lines at which breakpoints are set are also highlighted. The source code is colored according to the parsing of the language. If the Source window has been selected, you can hover over a symbol with the mouse to evaluate it. For more information about these features and how to control them, see Source Windows.
To activate source mode in WinDbg, use the l+t command, click Source Mode on the Debug menu, or click the Source mode on button () on the toolbar.
When source mode is active, the ASM indicator appears unavailable on the status bar.
You can view or alter the values of any local variables as you step through a function in source mode. For more information, see Reading and Writing Memory.
If you are using CDB, you do not have a separate Source window. However, you can still view your progress as you step through the source.
Before you can do source debugging in CDB, you have to load source line symbols by issuing the .lines (Toggle Source Line Support) command or by starting the debugger with the -lines command-line option.
If you execute an l+t command, all program stepping is performed one source line at a time. Use l-t to step one assembly instruction at a time. If you are using WinDbg, this command has the same effect as selecting or clearing Source Mode on the Debug menu or using the toolbar buttons.
The l+s command displays the current source line and line number at the prompt. If you want to see only the line number, use l+l instead.
If you use l+o and l+s, only the source line is displayed while you step through the program. The program counter, disassembly code, and register information are hidden. This kind of display enables you to quickly step through the code and view nothing but the source.
You can use the lsp (Set Number of Source Lines) command to specify exactly how many source lines are displayed when you step through or execute the application.
The following sequence of commands is an effective way to step through a source file.
.lines enable source line information bp main set initial breakpoint l+t stepping will be done by source line l+s source lines will be displayed at prompt g run program until "main" is entered pr execute one source line, and toggle register display off p execute one source line
Because ENTER repeats the last command, you can now step through the application by using the ENTER key. Each step causes the source line, memory offset, and assembly code to appear.
For more information about how to interpret the disassembly display, see Debugging in Assembly Mode.
When the assembly code is displayed, any memory location that is being accessed is displayed at the right end of the line. You can use the d* (Display Memory) and e* (Enter Values) commands to view or change the values in these locations.
If you have to view each assembly instruction to determine offsets or memory information, use l-t to step by assembly instructions instead of source lines. The source line information can still be displayed. Each source line corresponds to one or more assembly instructions.
All of these commands are available in WinDbg and in CDB. You can use the commands to view source line information from WinDbg's Debugger Command window instead of from the Source window.
You can also perform source debugging by using the expression evaluator to determine the offset that corresponds to a specific source line.
The following command displays a memory offset.
If you omit filename, the debugger searches for the source file that corresponds to the current program counter.
The debugger reads linenumber as a decimal number unless you add 0x before it, regardless of the current default radix. If you omit linenumber, the expression evaluates to the initial address of the executable file that corresponds to the source file.
This syntax is understood in CDB only if the .lines command or the -lines command-line option has loaded source line symbols.
This technique is very versatile, because you can use it regardless of where the program counter is pointing. For example, this technique enables you to set breakpoints in advance, by using commands such as the following.
When you are debugging in source mode, there can be multiple function calls on a single source line. You cannot use the p and t commands to separate these function calls.
For example, in the following command, the t command steps into both GetTickCount and printf, while the p command steps over both function calls.
printf( "%x\n", GetTickCount() );
If you want to step over certain calls while tracing into other calls, use .step_filter (Set Step Filter) to indicate which calls to step over.
You can use _step_filter to filter out framework functions (for example, Microsoft Foundation Classes (MFC) or Active Template Library (ATL) calls).
Build date: 11/16/2013