IDA processor module for the hexagon (QDSP6v55) processor
This is the processor found in recent qualcomm basebands ( MSM9xxx ) with LTE support, like the apple iPhone5 and Samsung Galaxy s3 ( GT-i9305 ) or Galaxy S5 ( SM-G900F )
Several versions of the programmers reference manual can be found online:
- 80-NB419-1 Rev. A Hexagon V2 Programmer’s Reference Manual
- 80-N2040-9 Rev. A Hexagon V4 Programmer’s Reference Manual
- 80-N2040-8 Rev. H Hexagon V5/V55 Programmer’s Reference Manual
- both the v4 and v5 refman can be found in this zip
- 80-N2040-9 Rev. F Hexagon V5x Programmer’s Reference Manual
- 80-N2040-33 Rev. D Hexagon V6x Programmer’s Reference Manual
- both the v5.x and v6.x refman can be found in the Hexagon LLVM Tools 8.0 Document Bundle, which is installed as part of the Hexagon SDK
- 80-N2040-30 Rev B Hexagon V60 HVX Programmer's Reference Manual
- 80-N2040-37 Rev A Hexagon V62 HVX Programmer's Reference Manual
- 80-N2040-36 Rev B Hexagon V62 Programmer's Reference Manual
check out https://developer.qualcomm.com/hexagon-processor for updates from qualcomm.
Available disassemblers:
- Sourcery CodeBench Lite 5.1 2012.03-151 for Hexagon ELF
- lauterbach trace32
- codeaurora quic
- Hexagon SDK v2.0
- llvm
Note: The Hexagon SDK uses LLVM, but with more hexagon instructions than the publicly available llvm code.
This processor module is a wrapper for the objdump code found on sourcery.mentor.com
Binaries for OSX, Linux and Windows can be found under releases:
There are two variants of the hexagon module: one for ida and one for ida64. Copy the hexagon{64}.{dylib,dll,so} file to the procs subdirectory of your IDA installation. This module can probably also be used with the IDA Evaluation version. The IDA Free version can be used to view and change existing hexagon disassemblies, but it can not be used to start from scratch.
Start IDA, select 'Qualcomm Hexagon DSP v4:QDSP6' from the processor type.
When loading an ELF binary, IDA will tell you 'Undefined or unknown machine type 164.' you should answer 'Yes'. Then IDA well tell you about unknown flag bits, you can ignore that as well. IDA may also tell you the ELF has an illegal entry point.
The build uses cmake
to generate build files for your platform.
The top level Makefile
can call cmake in several ways.
- On linux and MacOS build by typing
make
. - On Windows: either
make vc
, ormake nmake
.
You need the IDASDK ( Password protected ).
The sourcery hexagon gnutools, install them in a subdirectory named hx/sourceryg++-2012.03-151-hexagon/binutils-hexagon-2012.03
.
You need a c++20 compiler, like visualstudio 2019, or any recent gcc or clang.
You can point cmake to the right SDK by setting the environment variable IDASDK
to the basepath of the sdk.
On windows, first run the following command, to setup the right visualstudio environment.
vsdevcmd -arch=amd64
- Stack variables not yet recognized
- The first instruction of a segment is not always disassembled correctly, you can see it switch sometimes. ( this is because the objdump hexagon code keeps internal state in local static variables )
- Switches are not yet recognized
- Indirect jumps and calls are not yet marked as such
- basic block ends are not correct in graph view
- processor type is fixed to v5.5
- module may crash when encountering some invalid instructions ( lumia 820 modem )
- 'loop' instruction should have a code xref, instead of a data xref.
Note that this is NOT nescesary when using cmake.
- create a build directory
- Run ../pathtosource/configure with
--target=hexagon
and--disable-werror
Willem Hengeveld ([email protected])
2013-06-10 version 1.0 2016-02-01 version 1.1 2017-12-05 version 1.2 - for idapro v7 2022-02-12 version 1.3 - for IDA v7.7
- fixed incorrect code ref from
memw
instruction - fixed incorrect label for some
jump
instructions - now using changed plugin architecture for IDA7.
Free