ds2 is a debug server designed to be used with LLDB to perform remote debugging of Linux, Android, FreeBSD, Windows and Windows Phone targets. Windows/Windows Phone support is still under active development.
Launch ds2 with something like:
$ ./ds2 gdbserver localhost:4242 /path/to/TestSimpleOutput
ds2 is now ready to accept connections on port 4242 from lldb.
$ lldb /path/to/TestSimpleOutput
Current executable set to '/path/to/TestSimpleOutput' (x86_64).
(lldb) gdb-remote localhost:4242
Process 8336 stopped
* thread #1: tid = 8336, 0x00007ffff7ddb2d0, name = 'TestSimpleOutput', stop reason = signal SIGTRAP
frame #0: 0x00007ffff7ddb2d0
-> 0x7ffff7ddb2d0: movq %rsp, %rdi
0x7ffff7ddb2d3: callq 0x7ffff7ddea70
0x7ffff7ddb2d8: movq %rax, %r12
0x7ffff7ddb2db: movl 0x221b17(%rip), %eax
(lldb) b main
Breakpoint 1: where = TestSimpleOutput`main + 29 at TestSimpleOutput.cpp:6, address = 0x000000000040096d
[... debug debug ...]
(lldb) c
Process 8336 resuming
Process 8336 exited with status = 0 (0x00000000)
(lldb)
ds2 accepts the following options:
usage: ds2 [RUN_MODE] [OPTIONS] [[HOST]:PORT] [-- PROGRAM [ARGUMENTS...]]
-a, --attach ARG attach to the name or PID specified
-f, --daemonize detach and become a daemon
-d, --debug enable debug log output
-F, --fd ARG use a file descriptor to communicate
-g, --gdb-compat force ds2 to run in gdb compat mode
-o, --log-file ARG output log messages to the file specified
-N, --named-pipe ARG determine a port dynamically and write back to FIFO
-n, --no-colors disable colored output
-D, --remote-debug enable log for remote protocol packets
-R, --reverse-connect connect back to the debugger at [HOST]:PORT
-e, --set-env ARG... add an element to the environment before launch
-S, --setsid make ds2 run in its own session
-E, --unset-env ARG... remove an element from the environment before lauch
-l, --listen ARG specify the [host]:port to listen on
[host]:port the [host]:port to connect to
After building ds2 for your target, run it with the binary to debug, or attach
to an already running process. Then, start LLDB as usual and attach to the ds2
instance with the gdb-remote
command.
The run mode and port number must be specified, where run mode is either
g[dbserver]
or p[latform]
. In most cases, the g[dbserver]
option is desired.
ds2 uses CMake to generate its build system. A variety of CMake toolchain files are provided to help with cross compilation for other targets.
ds2 needs cmake, a C++11 compiler, flex and bison.
After cloning the ds2 repository, run the following commands to build for the current host:
cd ds2
mkdir build && cd build
cmake ..
make
ds2 builds on Windows using Visual Studio. You'll need:
- Windows builds of CMake for which you can grab binaries here;
- flex and bison binaries -- easiest way to get these is to install them with
Cygwin and add that to your
PATH
(usuallyC:\cygwin\bin
); - an install of Visual Studio -- we use VS2015, but VS2013 should work too.
Then, as with linux, use CMake to generate the build system, then use msbuild (or the script provided) to build the binary:
cd ds2
mkdir build && cd build
cmake ..
..\Support\Scripts\build-windows.bat
ds2 can be built for Windows Phone, which will generate a dll that can later be loaded in by the application we are debugging as a separate process. This needs Visual Studio 2015.
To build for Windows Phone, use the Toolchain-WinStore.cmake
toolchain file
as well as the "Visual Studio 14 2015 ARM" CMake generator.
cd ds2
mkdir build && cd build
cmake -G "Visual Studio 14 2015 ARM" -DCMAKE_TOOLCHAIN_FILE=../Support/CMake/Toolchain-WinStore.cmake" ..
..\Support\Scripts\build-windows.bat
For Android native debugging, it is possible to build ds2 with the Android NDK. A script is provided to download the Android NDK automatically for you.
Support/Scripts/prepare-android-ndk.sh
will download a working version
of the NDK, extract it, and install it to /tmp/android-ndk
.
cd ds2
./Support/Scripts/prepare-android-ndk.sh
mkdir build && cd build
cmake -DCMAKE_TOOLCHAIN_FILE=../Support/CMake/Toolchain-Android-ARM.cmake ..
make
Note that this will build ds2 targeting the highest level API level that the
NDK supports. If you want to target another api level, e.g. 21, add the flag
-DCMAKE_SYSTEM_VERSION=21
to your cmake invocation.
If you would like to use ds2 to run tests in the LLDB test suite using an
Android device, you should use the script
Support/Scripts/prepare-android-ndk.sh
to get a checkout of the android NDK.
The LLDB test suite expects an NDK to exist on your host, and that script will
download and unpack it where the CMake Toolchain files expect it to be.
Cross-compiling for Linux-ARM is also possible. On Ubuntu 14.04, install an arm
toolchain (for instance g++-4.8-arm-linux-gnueabihf
) and use the provided
toolchain file.
cd ds2
mkdir build && cd build
cmake -DCMAKE_TOOLCHAIN_FILE=../Support/CMake/Toolchain-Linux-ARM.cmake ..
make
This will generate a binary that you can copy to your device to start debugging.
See the CONTRIBUTING.md
file for how to help out.
ds2 is licensed under the University of Illinois/NCSA Open Source License.
We also provide an additional patent grant which can be found in the PATENTS
file in the root directory of this source tree.
regsgen2, a tool used to generate register definitions is also licensed under
the University of Illinois/NCSA Open Source License and uses a json library
licensed under the Boost Software License. A complete copy of the latter can be
found in Tools/libjson/LICENSE_1_0.txt
.