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A Retargettable CFI implementation in LLVM. Authors: Joseph Battaglia and Oulin Yao
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dbrumley/recfi
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ReCFI Installation Guide ================================ ReCFI is a re-targetable, tunable CFI framework implemented using the LLVM compiler toolchain. This project was funded by Boeing and was created at CMU by Joseph Battaglia and Oulin Yao with the advise of Professor David Brumley. The ReCFI prototype was built and tested on Ubuntu 12.04, using LLVM 3.3. This prototype targets ARM. All bash commands below begin with ">" and should be typed as a single line. 1. Install Dependencies ================================ Install ARM related dependencies: >apt-get install gcc-arm-linux-gnueabi >apt-get install qemu qemu-user You can also install qemu-system if you want to do system-emulation. Because we will be linking LLVM bitcode files, we need to change the default ARM linker to one that accepts plugins. Save a copy of the default linker and switch to ld.gold. >cd /usr/arm-linux-gnueabi/bin >mov ld ld.old >mov ld.gold ld For debugging purposes: >apt-get install gdb-multiarch 2. Build LLVM-3.3 ================================= Download and build LLVM gold plugin by following the directions under the "How To Build It" section at this link: http://llvm.org/releases/3.3/docs/GoldPlugin.html Get LLVM-3.3 and ReCFI source: >git clone http://URL (TODO after move) Create build directory for LLVM-3.3 to keep source clean, then configure the build directory. >cd /path/to/recfi >mkdir build >cd build >../llvm-3.3/configure --enable-debug-symbols --enable-runtime-symbols --with-llvmsrc=/path/to/recfi/llvm-3.3 --with-llvmobj=/path/to/recfi/build --with-binutils-include=/path/to/binutils/src/include Configure poolalloc (contains DSA libraries): >cd /path/to/recfi/build/project/poolalloc >../../../llvm-3.3/project/poolalloc/configure --enable-debug-symbols --enable-runtime-symbols --with-llvmsrc=/path/to/recfi/llvm-3.3 --with-llvmobj=/path/to/recfi/build Build LLVM-3.3. LLVM can be built concurrently using the -j <n> option with make, e.g. "make -j 4". >cd /path/to/recfi/build >make -j 4 >export PATH=$PATH:/path/to/recfi/build/Release+Debug+Asserts/bin 3. Build ReCFI ================================= Generate configuration file (may be asked to provide paths to llvm-3.3 source and build directories). >cd /path/to/recfi/cfi-analysis >cd autoconf >./AutoRegen.sh Create a build directory in cfi-analysis and configure. >cd .. >mkdir build >cd build >../configure --enable-debug-symbols --enable-runtime-symbols --with-llvmsrc=/path/to/recfi/llvm-3.3 --with-llvmobj=/path/to/recfi/build Change absolute paths in Makefiles in the lib directory. Unfortunately, using relative paths in these Makefiles failed to compile. >cd /path/to/recfi/cfi-analysis/lib For every sub-directory in lib, modify the Makefile in the sub-directory such that LLVMSRC has the correct path. Now you can build cfi-analysis. >cd /path/to/recfi/cfi-analysis/build >make 4. Running ReCFI on Coreutils ================================= Download coreutils 8.22 (can use wget): http://ftp.gnu.org/gnu/coreutils/ Create and configure build directory: >cd /path/to/coreutils >mkdir build >cd build >../configure --disable-nls CFLAGS="-g -static -I /usr/arm-linux-gnueabi/include/ -Wno-unknown-warning-option" LDFLAGS="-L /usr/arm-linux-gnueabi/lib -L /usr/lib/gcc/arm-linux-gnueabi" CC=clang Make sure that recfi-ar has the correct absolute path to LLVMgold.so, which should be here: /path/to/recfi/build/Release+Debug+Asserts/lib/LLVMgold.so >cd /path/to/recfi/scripts >vim recfi-ar Build Coreutils. Note that Coreutils versions that generate man-pages (including 8.22) will fail towards the end of the build, but the binaries should still be correct. Binaries will be in coreutils/build/src, and there should be a LLVM bit-code file (.bc) generated for each binary. >make CC=/path/to/recfi/scripts/recfi-gcc AR=/path/to/recfi/scripts/recfi-ar RANLIB=/bin/true Instrument Coreutils with ReCFI, where <cfi policy> is "two", "merge", or "list" >cd /path/to/coreutils/build/ >/path/to/recfi/scripts/opt-script src <cfi policy> Run Coreutils tools: >cd /path/to/coreutils/build/src >qemu-arm ./<tool> [options] There is a known issue with running Coreutils tools hardened using ReCFI. Because we did not recompile system libraries when hardening coreutils, they remain unhardened and are linked during assembling. This will cause a problem if an unhardened library function calls a hardened Coreutil function, since the hardened function will check for a return target ID, which will not exist in the unhardened library function. This causes the checking code to abort. Specifically, this happens when the exit function is invoked, which will call __run_exit_handlers, which will then call a hardened coreutil function via function pointer. This problem will be mitigated if system libraries are compiled to LLVM IR and linked at IR stage rather than assembly stage. Note: If the machine is a 64 bit one, coreutils incorrectly configures the build, manually changing @BITSIZEOF_SIZE_T@ in ./lib/stdint.in.h to 32 fixes it. CREDITS ================== This project was initially developed by CMU Masters Students Joseph Battaglia and Oulin Yao. Funding was provided by Boeing.
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