Update README.md

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There are some other projects that use UEFITool's engine: There are some other projects that use UEFITool's engine:
* UEFIExtract, which uses ffsParser to parse supplied firmware image into a tree structure and dumps the parsed structure recursively on the FS. Jethro Beekman's [tree](https://github.com/jethrogb/uefireverse) utility can be used to work with the extracted tree. * UEFIExtract, which uses ffsParser to parse supplied firmware image into a tree structure and dumps the parsed structure recursively on the FS. Jethro Beekman's [tree](https://github.com/jethrogb/uefireverse) utility can be used to work with the extracted tree.
* UEFIDump, a variation of UEFIExtract that dumps all leaf items into one .dump folder without any hierarchy. This tool is a PoC for non-Qt engine usage.
* UEFIFind, which uses ffsParser to find image elements containing a specified pattern. It was developed for [UBU](http://www.win-raid.com/t154f16-Tool-Guide-News-quot-UEFI-BIOS-Updater-quot-UBU.html) project. * UEFIFind, which uses ffsParser to find image elements containing a specified pattern. It was developed for [UBU](http://www.win-raid.com/t154f16-Tool-Guide-News-quot-UEFI-BIOS-Updater-quot-UBU.html) project.
* [OZMTool](https://github.com/tuxuser/UEFITool/tree/OZM/OZMTool), which uses UEFITool's engine to perform various "hackintosh"-related firmware modifications. * [OZMTool](https://github.com/tuxuser/UEFITool/tree/OZM/OZMTool), which uses UEFITool's engine to perform various "hackintosh"-related firmware modifications.
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## Installation ## Installation
You can either use [pre-built binaries for Windows and OSX](https://github.com/LongSoft/UEFITool/releases/latest) or build a binary yourself. You can either use [pre-built binaries for Windows and OSX](https://github.com/LongSoft/UEFITool/releases) or build a binary yourself.
To build a binary you need a C++ compiler and an instance of Qt4/Qt5 library. * To build a binary that uses Qt library (UEFITool, UEFIExtract, UEFIFind) you need a C++ compiler and an instance of Qt4/Qt5 library. Install both of them, get the sources, generate makefiles using qmake (`qmake UEFITool.pro`) and use your system's make command on that generated files (i.e. `nmake release`, `make release` and so on).
Install both of them, get the sources, generate makefiles using qmake (`qmake UEFITool.pro`) and use your system's make command on that generated files (i.e. `nmake release`, `make release` and so on). * To build a binary that doesn't use Qt (UEFIDump), you need a C++ compiler and CMAKE utility to generate a makefile for your OS and build environment. Install both of them, get the sources, generate makefiles using cmake (`cmake UEFIDump`) and use your system's make command on that generated files (i.e. `nmake release`, `make release` and so on).
## Known issues ## Known issues
* Some vendor-specific firmware update files can be opened incorrectly or can't be opened at all. This includes encrypted HP update files, Dell HDR and EXE files, some InsydeFlash FD files and so on. Enabling support for such files will require massive amount of reverse-engineering which is almost pointless because the updated image can be obtained from BIOS chip where it's already decrypted and unpacked. * Some vendor-specific firmware update files can be opened incorrectly or can't be opened at all. This includes encrypted HP update files, Dell HDR and EXE files, some InsydeFlash FD files and so on. Enabling support for such files will require massive amount of reverse-engineering which is almost pointless because the updated image can be obtained from BIOS chip where it's already decrypted and unpacked.
* Intel Firmware Interface Table (FIT) editing is not supported right now, but it will be added soon. FIT contains pointers to various image components that must be loaded before executing the first CPU instruction from the BIOS chip. Those components include CPU microcode updates, binaries and settings used by BIOS Guard and Boot Guard technologies and some other stuff. More information on FIT can be obtained [here](http://downloadmirror.intel.com/18931/eng/Intel%20TXT%20LAB%20Handout.pdf). * Intel Firmware Interface Table (FIT) editing is not supported right now. FIT contains pointers to various image components that must be loaded before executing the first CPU instruction from the BIOS chip. Those components include CPU microcode updates, binaries and settings used by BIOS Guard and Boot Guard technologies and some other stuff. More information on FIT can be obtained [here](http://downloadmirror.intel.com/18931/eng/Intel%20TXT%20LAB%20Handout.pdf).
* Builder code is still not ready, but I'm working hard on it.