capstone/COMPILE.TXT
david942j cac94ccee5 New architecture: BPF (#1388)
* Basic changes of new arch - BPF

* Define some constants

* defined some API methods

* Able to print MISC instruction

* Follow Linux coding style

* Ability to show ALU insn names

* decode return

* Add suite/MC/BPF

* decode jump

* decode store

* decode load

* print instruction done

* try to implement BPF_reg_access

* Implements explicit accessed registers and fix some tiny bugs

* Fix unhandled ja case

* Added BPF_REG_OFF do fix wrong display in jump class

* Great I'm able to decode cBPF with eyes

* Fix: misunderstood the 16-byte instruction's imm

* Add ldxdw

* Add extended-all.cs

* Implements cstest/bpf_getdetail.c

* Fix memory leak

* Add BPF to fuzz

* Implemented regs_read and regs_write

* Fix missing write-access on ALU's dst

* Updated cstool/, test_basic.c, test_detail.c, and test_iter.c

* Updated docs

* Fix type of cs_bpf#operands

* Implements python bindings

* Fix some bugs found by self code review

* Remove dummy tests

* remove typeof

* Address comments

* Fix MSVC's warnings and add test_bpf.py to bindings/python/Makefile

* Fix: call is not offset
2019-02-18 17:39:51 +08:00

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This documentation explains how to compile, install & run Capstone on MacOSX,
Linux, *BSD & Solaris. We also show steps to cross-compile for Microsoft Windows.
To natively compile for Windows using Microsoft Visual Studio, see COMPILE_MSVC.TXT.
To compile using CMake, see COMPILE_CMAKE.TXT.
To compile using XCode on MacOSX, see xcode/README.md.
To compile for Windows CE (a.k.a, Windows Embedded Compact), see windowsce/COMPILE.md.
*-*-*-*-*-*
Capstone requires no prerequisite packages, so it is easy to compile & install.
(0) Tailor Capstone to your need.
Out of all archtitectures supported by Capstone, if you just need several
selected archs, choose the ones you want to compile in by editing "config.mk"
before going to next steps.
By default, all architectures are compiled.
The other way of customize Capstone without having to edit config.mk is to
pass the desired options on the commandline to ./make.sh. Currently,
Capstone supports 5 options, as followings.
- CAPSTONE_ARCHS: specify list of architectures to compiled in.
- CAPSTONE_USE_SYS_DYN_MEM: change this if you have your own dynamic memory management.
- CAPSTONE_DIET: use this to make the output binaries more compact.
- CAPSTONE_X86_REDUCE: another option to make X86 binary smaller.
- CAPSTONE_X86_ATT_DISABLE: disables AT&T syntax on x86.
- CAPSTONE_STATIC: build static library.
- CAPSTONE_SHARED: build dynamic (shared) library.
By default, Capstone uses system dynamic memory management, both DIET and X86_REDUCE
modes are disable, and builds all the static & shared libraries.
To avoid editing config.mk for these customization, we can pass their values to
make.sh, as followings.
$ CAPSTONE_ARCHS="arm aarch64 x86" CAPSTONE_USE_SYS_DYN_MEM=no CAPSTONE_DIET=yes CAPSTONE_X86_REDUCE=yes ./make.sh
NOTE: on commandline, put these values in front of ./make.sh, not after it.
For each option, refer to docs/README for more details.
(1) Compile from source
On *nix (such as MacOSX, Linux, *BSD, Solaris):
- To compile for current platform, run:
$ ./make.sh
- On 64-bit OS, run the command below to cross-compile Capstone for 32-bit binary:
$ ./make.sh nix32
(2) Install Capstone on *nix
To install Capstone, run:
$ sudo ./make.sh install
For FreeBSD/OpenBSD, where sudo is unavailable, run:
$ su; ./make.sh install
Users are then required to enter root password to copy Capstone into machine
system directories.
Afterwards, run ./tests/test* to see the tests disassembling sample code.
NOTE: The core framework installed by "./make.sh install" consist of
following files:
/usr/include/capstone/capstone.h
/usr/include/capstone/x86.h
/usr/include/capstone/arm.h
/usr/include/capstone/arm64.h
/usr/include/capstone/evm.h
/usr/include/capstone/wasm.h
/usr/include/capstone/m68k.h
/usr/include/capstone/m680x.h
/usr/include/capstone/mips.h
/usr/include/capstone/ppc.h
/usr/include/capstone/sparc.h
/usr/include/capstone/systemz.h
/usr/include/capstone/tms320c64x.h
/usr/include/capstone/xcore.h
/usr/include/capstone/bpf.h
/usr/include/capstone/platform.h
/usr/lib/libcapstone.so (for Linux/*nix), or /usr/lib/libcapstone.dylib (OSX)
/usr/lib/libcapstone.a
(3) Cross-compile for Windows from *nix
To cross-compile for Windows, Linux & gcc-mingw-w64-i686 (and also gcc-mingw-w64-x86-64
for 64-bit binaries) are required.
- To cross-compile Windows 32-bit binary, simply run:
$ ./make.sh cross-win32
- To cross-compile Windows 64-bit binary, run:
$ ./make.sh cross-win64
Resulted files libcapstone.dll, libcapstone.dll.a & tests/test*.exe can then
be used on Windows machine.
(4) Cross-compile for iOS from Mac OSX.
To cross-compile for iOS (iPhone/iPad/iPod), Mac OSX with XCode installed is required.
- To cross-compile for ArmV7 (iPod 4, iPad 1/2/3, iPhone4, iPhone4S), run:
$ ./make.sh ios_armv7
- To cross-compile for ArmV7s (iPad 4, iPhone 5C, iPad mini), run:
$ ./make.sh ios_armv7s
- To cross-compile for Arm64 (iPhone 5S, iPad mini Retina, iPad Air), run:
$ ./make.sh ios_arm64
- To cross-compile for all iDevices (armv7 + armv7s + arm64), run:
$ ./make.sh ios
Resulted files libcapstone.dylib, libcapstone.a & tests/test* can then
be used on iOS devices.
(5) Cross-compile for Android
To cross-compile for Android (smartphone/tablet), Android NDK is required.
NOTE: Only ARM and ARM64 are currently supported.
$ NDK=/android/android-ndk-r10e ./make.sh cross-android arm
or
$ NDK=/android/android-ndk-r10e ./make.sh cross-android arm64
Resulted files libcapstone.so, libcapstone.a & tests/test* can then
be used on Android devices.
(6) Compile on Windows with Cygwin
To compile under Cygwin gcc-mingw-w64-i686 or x86_64-w64-mingw32 run:
- To compile Windows 32-bit binary under Cygwin, run:
$ ./make.sh cygwin-mingw32
- To compile Windows 64-bit binary under Cygwin, run:
$ ./make.sh cygwin-mingw64
Resulted files libcapstone.dll, libcapstone.dll.a & tests/test*.exe can then
be used on Windows machine.
(7) By default, "cc" (default C compiler on the system) is used as compiler.
- To use "clang" compiler instead, run the command below:
$ ./make.sh clang
- To use "gcc" compiler instead, run:
$ ./make.sh gcc
(8) To uninstall Capstone, run the command below:
$ sudo ./make.sh uninstall
(9) Language bindings
So far, Python, Ocaml & Java are supported by bindings in the main code.
Look for the bindings under directory bindings/, and refer to README file
of corresponding languages.
Community also provide bindings for C#, Go, Ruby, NodeJS, C++ & Vala. Links to
these can be found at address http://capstone-engine.org/download.html