Due to a change in occupation, I no longer have access to IDA, so this project is unmaintained. If you are interested in becoming a maintainer, please let me know. Otherwise, it is unlikely I'll will merge anything but trivial merge requests.
dwarfexport is an IDA Pro plugin that allows the user to export dwarf debug
information. This can then be imported in to gdb and other tools, allowing
you to debug using info you have recovered in IDA even when you cannot connect
the IDA debugger.
First you must build dwarfexport to make the plugin available in the bin folder
of this project. Just add this file to your IDA plugins folder and you will have a
new option "Edit->Plugins->Export Dwarf Debug Info". Click this and select a folder
for the output.
The plugin will generate two files in the output directory. One will be a .c file
with the decompiled functions from the Hexrays decompiler. The other is a .dbg
file that contains the debug information. Note that because the plugin performs
decompilation on every function in the binary, it can take a while to run.
Move these to the device you want to debug on and load gdb (e.x, gdb a.out).
You will have full debug information, like normal gdb with source (shown below
using TUI mode):
Note: You may need to run list to get the source file loaded.
The following options are available from the plugin GUI
Use Decompiler: On architectures where the decompiler is available, opt out of
using it.
Attach Debug Info: When checked, a .dbg file is created with the debug information.
However, this will only work if the target is an ELF file. When the target is not an ELF
file, uncheck this option to create a group of binary files (one for reach ELF section that
would have been created).
dwarfexport depends on the IDA SDK as well as a libdwarf. Once you have these
available (a statically compiled copy of libdwarf is provided), you can set the
environment variables IDASDK_PATH and IDA_PATH to the SDK path and your IDA
folder location respectively. Then build the plugin using make.
Windows build can be performed using MSVC Compiler (cl.exe) and NMAKE
(nmake.exe). First, download and extract libdwarf source code into
deps/libdwarf and libelf source code into
deps/libelf-0.8.13. The commands below assume WSL/MinGW/Cygwin, but you can
use any other method that you prefer.
$ git clone git://git.code.sf.net/p/libdwarf/code deps/libdwarf
$ (cd deps/libdwarf && git checkout 988618dc8be8)
$ curl https://fossies.org/linux/misc/old/libelf-0.8.13.tar.gz | tar -C deps -xz
Because IDA is now 100% x64 binaries as of IDA 7, you must invoke NMAKE through the x64 Native Tools Command Prompt for VS as follows:
dwarfexport> nmake /f Makefile.MSVC IDA_PATH="C:\Program Files\IDA Pro 7.7" IDASDK_PATH="C:\Program Files\IDA Pro 7.7\sdk"
The output file will be placed into bin\dwarfexport64.dll.
To build dwarfexport on macOS, you must build and install 32-bit versions of libelf and libdwarf.
# Download, build, and install libelf (it's a libdwarf prereq)
$ mkdir -p thirdparty
$ pushd thirdparty
$ wget http://www.mr511.de/software/libelf-0.8.13.tar.gz
$ tar zxf libelf-0.8.13.tar.gz
$ pushd libelf-0.8.13
$ CFLAGS=-m32 CXXFLAGS=-m32 ./configure
$ make && make install
$ popd
# Clone, build, and install libdwarf
$ git clone [email protected]:tomhughes/libdwarf.git
$ pushd libdwarf/
$ CFLAGS=-m32 CXXFLAGS=-m32 ./configure
$ make && make install
$ popd
$ popd
# Build dwarfexport for macos
$ IDA_PATH="/Applications/IDA\ Pro\ 6.95/idaq.app/Contents/MacOS/" IDASDK_PATH="<PATH TO IDASDK>" make -f Makefile.osx
There are three functions that need to be modified to add support for a new
architectures. They are all located in platform.cpp:
translate_register_num: Translates from IDA register numbers to DWARF numbers.
The IDA register numbering can be found by running idaapi.ph_get_regnames().
The index of a register in the returned list is its 'IDA register number'. A variety
of resources exist to find the DWARF mapping for a given architecture. For example,
wine has the numbers
for some architectures (see x86_64_map_dwarf_register).
disassembler_lvar_reg_and_offset: This function should set the reg and offset
parameters to a dwarf register and the offset from that register that should be
used to read from a stack variable 'member'. So reg will typically be a register
containing a pointer to the top or bottom of the stack (so DW_OP_breg5 is register 5
which is EBP on x86), and the offset will then be the offset from the bottom or top
of the stack.
decompiler_lvar_reg_and_offset: On architectures supporting the decompiler, this
function should be modified to perform the same work as the above function, but with
a lvar_t from the Hexrays decompiler. Note that it may be acceptable to reuse the
disassembler logic.
dwarfexport is licensed under the terms of the LGPLv2.1. See the LICENSE file for
details.