Declare global arch arrays with contents (next branch) (#1186)

* Declare global arch arrays with contents (#1171)

This eliminates the need for archs_enable() and eliminates the racey
initialization.

This makes the architecture-specific init and option functions
non-static so that they may be called from a different file.

Cherry-picked 853a2870

* Add cs_arch_disallowed_mode_mask global

Cherry-pick 94bce437:
mips: CS_MODE_MIPS32R6 implies CS_MODE_32

Cherry-pick 8998a3a1:
ppc: fix endian check (#1029)
Fixes bug where endianness could not be set for ppc.

Remove `big_endian` field of `cs_struct`.
Added a helper macro `MODE_IS_BIG_ENDIAN()` to check if
`CS_MODE_BIG_ENDIAN` is set.

Refactored `cs_open()` check for valid mode out of arch-specific code
into arch-independent code. Also added a valid mode check to
`cs_option()`.  The checks use a new global array
`cs_arch_disallowed_mode_mask[]`.

* Make global arrays static

Make all_arch uint32_t to guarantee a certain number of bits (with
adequate room for growth).
30 files changed
tree: 6e30d2faf33eee73874c86692102d5ec562c0ee0
  1. .appveyor.yml
  2. .gitattributes
  3. .gitignore
  4. .travis.yml
  5. CMakeLists.txt
  6. COMPILE.TXT
  7. COMPILE_CMAKE.TXT
  8. COMPILE_MSVC.TXT
  9. CREDITS.TXT
  10. ChangeLog
  11. HACK.TXT
  12. LEB128.h
  13. LICENSE.TXT
  14. LICENSE_LLVM.TXT
  15. MCDisassembler.h
  16. MCFixedLenDisassembler.h
  17. MCInst.c
  18. MCInst.h
  19. MCInstrDesc.c
  20. MCInstrDesc.h
  21. MCRegisterInfo.c
  22. MCRegisterInfo.h
  23. Makefile
  24. MathExtras.h
  25. README.md
  26. RELEASE_NOTES
  27. SStream.c
  28. SStream.h
  29. TODO
  30. arch/
  31. bindings/
  32. capstone.pc.in
  33. config.mk
  34. contrib/
  35. cs.c
  36. cs_priv.h
  37. cstool/
  38. docs/
  39. functions.mk
  40. include/
  41. make.sh
  42. msvc/
  43. nmake-x86.bat
  44. nmake.bat
  45. packages/
  46. pkgconfig.mk
  47. suite/
  48. tests/
  49. utils.c
  50. utils.h
  51. windows/
  52. windowsce/
  53. xcode/
README.md

Capstone Engine

Build Status Build status

Capstone is a disassembly framework with the target of becoming the ultimate disasm engine for binary analysis and reversing in the security community.

Created by Nguyen Anh Quynh, then developed and maintained by a small community, Capstone offers some unparalleled features:

  • Support multiple hardware architectures: ARM, ARM64 (ARMv8), Ethereum VM, M68K, Mips, PPC, Sparc, SystemZ, TMS320C64X, M680X, XCore and X86 (including X86_64).

  • Having clean/simple/lightweight/intuitive architecture-neutral API.

  • Provide details on disassembled instruction (called “decomposer” by others).

  • Provide semantics of the disassembled instruction, such as list of implicit registers read & written.

  • Implemented in pure C language, with lightweight bindings for PHP, PowerShell, Emacs, Haskell, Perl, Python, Ruby, C#, NodeJS, Java, GO, C++, OCaml, Lua, Rust, Delphi, Free Pascal & Vala ready either in main code, or provided externally by the community).

  • Native support for all popular platforms: Windows, Mac OSX, iOS, Android, Linux, *BSD, Solaris, etc.

  • Thread-safe by design.

  • Special support for embedding into firmware or OS kernel.

  • High performance & suitable for malware analysis (capable of handling various X86 malware tricks).

  • Distributed under the open source BSD license.

Further information is available at http://www.capstone-engine.org

Compile

See COMPILE.TXT file for how to compile and install Capstone.

Documentation

See docs/README for how to customize & program your own tools with Capstone.

Hack

See HACK.TXT file for the structure of the source code.

License

This project is released under the BSD license. If you redistribute the binary or source code of Capstone, please attach file LICENSE.TXT with your products.