How does a debugger work?
I keep wondering how does a debugger work? Particulary the one that can be 'attached' to already running executable. I understand that compiler translates code to machine language, but then how does debugger 'know' what it is being attached to?
Solution 1:
The details of how a debugger works will depend on what you are debugging, and what the OS is. For native debugging on Windows you can find some details on MSDN: Win32 Debugging API.
The user tells the debugger which process to attach to, either by name or by process ID. If it is a name then the debugger will look up the process ID, and initiate the debug session via a system call; under Windows this would be DebugActiveProcess.
Once attached, the debugger will enter an event loop much like for any UI, but instead of events coming from the windowing system, the OS will generate events based on what happens in the process being debugged – for example an exception occurring. See WaitForDebugEvent.
The debugger is able to read and write the target process' virtual memory, and even adjust its register values through APIs provided by the OS. See the list of debugging functions for Windows.
The debugger is able to use information from symbol files to translate from addresses to variable names and locations in the source code. The symbol file information is a separate set of APIs and isn't a core part of the OS as such. On Windows this is through the Debug Interface Access SDK.
If you are debugging a managed environment (.NET, Java, etc.) the process will typically look similar, but the details are different, as the virtual machine environment provides the debug API rather than the underlying OS.
Solution 2:
As I understand it:
For software breakpoints on x86, the debugger replaces the first byte of the instruction with CC
(int3
). This is done with WriteProcessMemory
on Windows. When the CPU gets to that instruction, and executes the int3
, this causes the CPU to generate a debug exception. The OS receives this interrupt, realizes the process is being debugged, and notifies the debugger process that the breakpoint was hit.
After the breakpoint is hit and the process is stopped, the debugger looks in its list of breakpoints, and replaces the CC
with the byte that was there originally. The debugger sets TF
, the Trap Flag in EFLAGS
(by modifying the CONTEXT
), and continues the process. The Trap Flag causes the CPU to automatically generate a single-step exception (INT 1
) on the next instruction.
When the process being debugged stops the next time, the debugger again replaces the first byte of the breakpoint instruction with CC
, and the process continues.
I'm not sure if this is exactly how it's implemented by all debuggers, but I've written a Win32 program that manages to debug itself using this mechanism. Completely useless, but educational.
Solution 3:
In Linux, debugging a process begins with the ptrace(2) system call. This article has a great tutorial on how to use ptrace
to implement some simple debugging constructs.
Solution 4:
If you're on a Windows OS, a great resource for this would be "Debugging Applications for Microsoft .NET and Microsoft Windows" by John Robbins:
- http://www.amazon.com/dp/0735615365
(or even the older edition: "Debugging Applications")
The book has has a chapter on how a debugger works that includes code for a couple of simple (but working) debuggers.
Since I'm not familiar with details of Unix/Linux debugging, this stuff may not apply at all to other OS's. But I'd guess that as an introduction to a very complex subject the concepts - if not the details and APIs - should 'port' to most any OS.