A hacky debugger UI for hackers
Go to file
snare c05f5b71d5 Fix ambiguous command line option for newer LLDB 2016-09-05 12:21:18 +10:00
examples repr errors before creating APIGenericErrorResponse's 2016-03-22 17:47:09 +00:00
tests Multithreaded server request handler intercepts SIGCHLD signal needed by GDB 2016-05-30 12:47:07 +02:00
voltron Fix help 2016-09-05 11:23:01 +10:00
.gitignore .DS_Store 2013-10-30 05:16:31 +11:00
.travis.yml OS X and Linux Travis CI 2016-04-13 22:42:04 +10:00
LICENSE Cram it 2016-04-09 22:27:02 +10:00
README.md Contributions 2016-09-04 15:33:33 +10:00
install.sh Fix ambiguous command line option for newer LLDB 2016-09-05 12:21:18 +10:00
setup.cfg What's a release? 2016-02-24 23:38:03 +11:00
setup.py Require new scruffy so we can PEP8 some stuff 2016-09-02 18:08:28 +10:00

README.md

Voltron

build

Voltron is an extensible debugger UI toolkit written in Python. It aims to improve the user experience of various debuggers (LLDB, GDB, VDB and WinDbg) by enabling the attachment of utility views that can retrieve and display data from the debugger host. By running these views in other TTYs, you can build a customised debugger user interface to suit your needs.

Voltron does not aim to be everything to everyone. It's not a wholesale replacement for your debugger's CLI. Rather, it aims to complement your existing setup and allow you to extend your CLI debugger as much or as little as you like. If you just want a view of the register contents in a window alongside your debugger, you can do that. If you want to go all out and have something that looks more like OllyDbg, you can do that too.

Built-in views are provided for:

  • Registers
  • Disassembly
  • Stack
  • Memory
  • Breakpoints
  • Backtrace

The author's setup looks something like this:

voltron example LLDB

Any debugger command can be split off into a view and highlighted with a specified Pygments lexer:

command views

More screenshots are here.

Support

voltron supports LLDB, GDB, VDB and WinDbg/CDB (via PyKD) and runs on macOS, Linux and Windows.

WinDbg support is new, please open an issue if you have problems.

The following architectures are supported:

lldb gdb vdb windbg
x86
x86_64
arm
arm64
powerpc

Installation

Download the source and run the install script:

$ git clone https://github.com/snare/voltron
$ cd voltron
$ ./install.sh

If you want to install Python packages into the user site-packages directory, use the -u flag:

$ ./install.sh -u

If you are on Windows without a shell, have problems installing, or would prefer to install manually, please see the manual installation documentation.

Quick Start

  1. If your debugger has an init script (.lldbinit for LLDB or .gdbinit for GDB) configure it to load Voltron when it starts by sourcing the entry.py entry point script. The full path will be inside the voltron package. For example, on macOS it might be /Library/Python/2.7/site-packages/voltron/entry.py. The install.sh script will add this to your .gdbinit or .lldbinit file automatically if it detects GDB or LLDB in your path.

    LLDB:

     command script import /path/to/voltron/entry.py
    

    GDB:

     source /path/to/voltron/entry.py
     set disassembly-flavor intel
    
  2. Start your debugger and initialise Voltron manually if necessary.

    On recent versions of LLDB you do not need to initialise Voltron manually:

     $ lldb target_binary
    

    On older versions of LLDB you need to call voltron init after you load the inferior:

     $ lldb target_binary
     (lldb) voltron init
    

    GDB:

     $ gdb target_binary
    

    VDB:

     $ ./vdbbin target_binary
     > script /path/to/voltron/entry.py
    

    WinDbg/CDB (requires PyKD):

     > cdb -c '.load C:\path\to\pykd.pyd ; !py --global C:\path\to\voltron\entry.py' target_binary
    
  3. In another terminal (I use iTerm panes) start one of the UI views. On LLDB and WinDbg the views will update immediately. On GDB and VDB they will not update until the inferior stops (at a breakpoint, after a step, etc):

     $ voltron view register
     $ voltron view stack
     $ voltron view disasm
     $ voltron view backtrace
    
  4. Set a breakpoint and run your inferior.

     (*db) b main
     (*db) run
    
  5. When the debugger hits the breakpoint, the views will be updated to reflect the current state of registers, stack, memory, etc. Views are updated after each command is executed in the debugger CLI, using the debugger's "stop hook" mechanism. So each time you step, or continue and hit a breakpoint, the views will update.

Documentation

See the wiki on github.

FAQ

Q. Why am I getting an ImportError loading Voltron?

A. You might have multiple versions of Python installed and have installed Voltron using the wrong one. See the more detailed installation instructions.

Q. Why do the views just say "Connection refused"?

A. When running with GDB, Voltron starts and stops the webserver when the inferior starts and stops, due to a limitation in the GDB API. Set a breakpoint and run the inferior, and the views will connect and update upon the breakpoint being hit.

Q. GEF? PEDA? PwnDbg? fG's gdbinit?

A. All super great extensions for GDB. These tools primarily provide sets of additional commands for exploitation tasks, but each also provides a "context" display with a view of registers, stack, code, etc, like Voltron. These tools print their context display in the debugger console each time the debugger stops. Voltron takes a different approach by embedding an RPC server implant in the debugger and enabling the attachment of views from other terminals (or even web browsers, or now synchronising with Binary Ninja), which allows the user to build a cleaner multi-window interface to their debugger. Voltron works great alongside all of these tools. You can just disable the context display in your GDB extension of choice and hook up some Voltron views, while still getting all the benefits of the useful commands added by these tools.

Bugs and Errata

See the issue tracker on github for more information or to submit issues.

If you're experiencing an ImportError loading Voltron, please ensure you've followed the installation instructions for your platform.

GDB

  1. There is no clean way to hook GDB's exit, only the inferior's exit, so the Voltron server is started and stopped along with the inferior. This results in views showing "Connection refused" before the inferior has been started.

  2. Due to a limitation in the GDB API, the views are only updated each time the debugger is stopped (e.g. by hitting a breakpoint), so view contents are not populated immediately when the view is connected, only when the first breakpoint is hit.

  3. If the stack view is causing GDB to hang then it must be launched after the debugger has been launched, the inferior started, and the debugger stopped (e.g. a breakpoint hit). This has been fixed, but this note will remain until another release is issued.

LLDB

On older versions of LLDB, the voltron init command must be run manually after loading the debug target, as a target must be loaded before Voltron's hooks can be installed. Voltron will attempt to automatically register its event handler, and it will inform the user if voltron init is required.

WinDbg

More information about WinDbg/CDB support here.

Misc

  1. The authors primarily use Voltron with the most recent version of LLDB on macOS. We will try to test everything on as many platforms and architectures as possible before releases, but LLDB/macOS/x64 is going to be by far the most frequently-used combination. Hopefully Voltron doesn't set your pets on fire, but YMMV.

  2. Intel is the only disassembly flavour currently supported for syntax highlighting.

License

See the LICENSE file.

If you use this and don't hate it, buy me a beer at a conference some time. This license also extends to other contributors - richo definitely deserves a few beers for his contributions.

Credits

Thanks to my former employers Assurance and Azimuth Security for giving me time to spend working on this.

Props to richo for all his contributions to Voltron.

fG!'s gdbinit was the original inspiration for this project.

Thanks to Willi for implementing the VDB support.

Voltron now uses Capstone for disassembly as well as the debugger hosts' internal disassembly mechanism. Capstone is a powerful, open source, multi-architecture disassembler upon which the next generation of reverse engineering and debugging tools are being built. Check it out.

Thanks to grazfather for ongoing contributions.