bindings/ocaml/capstone.ml - third_party/capstone - Git at Google

 (* Capstone Disassembly Engine
  * By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2014 *)

 open Arm
 open Arm64
 open Mips
 open Ppc
 open X86
 open Sparc
 open Systemz
 open Xcore
 open M680x
 open Printf	(* debug *)

 (* Hardware architectures *)
 type arch =
   | CS_ARCH_ARM
   | CS_ARCH_ARM64
   | CS_ARCH_MIPS
   | CS_ARCH_X86
   | CS_ARCH_PPC
   | CS_ARCH_SPARC
   | CS_ARCH_SYSZ
   | CS_ARCH_XCORE
   | CS_ARCH_M68K
   | CS_ARCH_TMS320C64X
   | CS_ARCH_M680X

 (* Hardware modes *)
 type mode =
   |	CS_MODE_LITTLE_ENDIAN	(* little-endian mode (default mode) *)
   |	CS_MODE_ARM			(* ARM mode *)
   |	CS_MODE_16			(* 16-bit mode (for X86) *)
   |	CS_MODE_32			(* 32-bit mode (for X86) *)
   |	CS_MODE_64			(* 64-bit mode (for X86, PPC) *)
   |	CS_MODE_THUMB		(* ARM's Thumb mode, including Thumb-2 *)
   |	CS_MODE_MCLASS		(* ARM's MClass mode *)
   |	CS_MODE_V8    		(* ARMv8 A32 encodings for ARM *)
   |	CS_MODE_MICRO		(* MicroMips mode (MIPS architecture) *)
   |	CS_MODE_MIPS3		(* Mips3 mode (MIPS architecture) *)
   |	CS_MODE_MIPS32R6	(* Mips32-R6 mode (MIPS architecture) *)
   |	CS_MODE_MIPS2	    (* Mips2 mode (MIPS architecture) *)
   |	CS_MODE_V9			(* SparcV9 mode (Sparc architecture) *)
   |	CS_MODE_BIG_ENDIAN	(* big-endian mode *)
   |	CS_MODE_MIPS32		(* Mips32 mode (for Mips) *)
   |	CS_MODE_MIPS64		(* Mips64 mode (for Mips) *)
   |	CS_MODE_QPX         (* Quad Processing eXtensions mode (PowerPC) *)
   |	CS_MODE_M680X_6301	(* M680X Hitachi 6301,6303 mode *)
   |	CS_MODE_M680X_6309	(* M680X Hitachi 6309 mode *)
   |	CS_MODE_M680X_6800	(* M680X Motorola 6800,6802 mode *)
   |	CS_MODE_M680X_6801	(* M680X Motorola 6801,6803 mode *)
   |	CS_MODE_M680X_6805	(* M680X Motorola 6805 mode *)
   |	CS_MODE_M680X_6808	(* M680X Motorola 6808 mode *)
   |	CS_MODE_M680X_6809	(* M680X Motorola 6809 mode *)
   |	CS_MODE_M680X_6811	(* M680X Motorola/Freescale 68HC11 mode *)
   |	CS_MODE_M680X_CPU12	(* M680X Motorola/Freescale/NXP CPU12 mode *)
   |	CS_MODE_M680X_HCS08	(* M680X Freescale HCS08 mode *)


 (* Runtime option for the disassembled engine *)
 type opt_type =
   |	CS_OPT_SYNTAX		(*  Asssembly output syntax *)
   |	CS_OPT_DETAIL		(* Break down instruction structure into details *)
   |	CS_OPT_MODE		(* Change engine's mode at run-time *)
   |	CS_OPT_MEM		(* User-defined dynamic memory related functions *)
   |	CS_OPT_SKIPDATA		(* Skip data when disassembling. Then engine is in SKIPDATA mode. *)
   |	CS_OPT_SKIPDATA_SETUP 	(* Setup user-defined function for SKIPDATA option *)


 (* Common instruction operand access types - to be consistent across all architectures. *)
 (* It is possible to combine access types, for example: CS_AC_READ | CS_AC_WRITE *)
 let _CS_AC_INVALID = 0;;	(* Uninitialized/invalid access type. *)
 let _CS_AC_READ    = 1 lsl 0;; (* Operand read from memory or register. *)
 let _CS_AC_WRITE   = 1 lsl 1;; (* Operand write to memory or register. *)

 (* Runtime option value (associated with option type above) *)
 let _CS_OPT_OFF = 0L;; (* Turn OFF an option - default option of CS_OPT_DETAIL, CS_OPT_SKIPDATA. *)
 let _CS_OPT_ON = 3L;;  (* Turn ON an option (CS_OPT_DETAIL, CS_OPT_SKIPDATA). *)
 let _CS_OPT_SYNTAX_DEFAULT = 0L;; (* Default asm syntax (CS_OPT_SYNTAX). *)
 let _CS_OPT_SYNTAX_INTEL = 1L;; (* X86 Intel asm syntax - default on X86 (CS_OPT_SYNTAX). *)
 let _CS_OPT_SYNTAX_ATT = 2L;; (* X86 ATT asm syntax (CS_OPT_SYNTAX). *)
 let _CS_OPT_SYNTAX_NOREGNAME = 3L;; (* Prints register name with only number (CS_OPT_SYNTAX) *)

 (* Common instruction operand types - to be consistent across all architectures. *)
 let _CS_OP_INVALID = 0;;  (* uninitialized/invalid operand. *)
 let _CS_OP_REG     = 1;;  (* Register operand. *)
 let _CS_OP_IMM     = 2;;  (* Immediate operand. *)
 let _CS_OP_MEM     = 3;;  (* Memory operand. *)
 let _CS_OP_FP      = 4;;  (* Floating-Point operand. *)

 (* Common instruction groups - to be consistent across all architectures. *)
 let _CS_GRP_INVALID = 0;;  (* uninitialized/invalid group. *)
 let _CS_GRP_JUMP    = 1;;  (* all jump instructions (conditional+direct+indirect jumps) *)
 let _CS_GRP_CALL    = 2;;  (* all call instructions *)
 let _CS_GRP_RET     = 3;;  (* all return instructions *)
 let _CS_GRP_INT     = 4;;  (* all interrupt instructions (int+syscall) *)
 let _CS_GRP_IRET    = 5;;  (* all interrupt return instructions *)
 let _CS_GRP_PRIVILEGE = 6;;  (* all privileged instructions *)

 type cs_arch =
 	| CS_INFO_ARM of cs_arm
 	| CS_INFO_ARM64 of cs_arm64
 	| CS_INFO_MIPS of cs_mips
 	| CS_INFO_X86 of cs_x86
 	| CS_INFO_PPC of cs_ppc
 	| CS_INFO_SPARC of cs_sparc
 	| CS_INFO_SYSZ of cs_sysz
 	| CS_INFO_XCORE of cs_xcore
 	| CS_INFO_M680X of cs_m680x


 type csh = {
 	h: Int64.t;
 	a: arch;
 }

 type cs_insn0 = {
 	id: int;
 	address: int;
 	size: int;
 	bytes: int array;
 	mnemonic: string;
 	op_str: string;
 	regs_read: int array;
 	regs_write: int array;
 	groups: int array;
 	arch: cs_arch;
 }

 external _cs_open: arch -> mode list -> Int64.t option = "ocaml_open"
 external cs_disasm_quick: arch -> mode list -> string -> Int64.t -> Int64.t -> cs_insn0 list = "ocaml_cs_disasm"
 external _cs_disasm_internal: arch -> Int64.t -> string -> Int64.t -> Int64.t -> cs_insn0 list = "ocaml_cs_disasm_internal"
 external _cs_reg_name: Int64.t -> int -> string = "ocaml_register_name"
 external _cs_insn_name: Int64.t -> int -> string = "ocaml_instruction_name"
 external _cs_group_name: Int64.t -> int -> string = "ocaml_group_name"
 external cs_version: unit -> int = "ocaml_version"
 external _cs_option: Int64.t -> opt_type -> Int64.t -> int = "ocaml_option"
 external _cs_close: Int64.t -> int = "ocaml_close"


 let cs_open _arch _mode: csh = (
 	let _handle = _cs_open _arch _mode in (
 	match _handle with
 	| None -> { h = 0L; a = _arch }
 	| Some v -> { h = v; a = _arch }
 	);
 );;

 let cs_close handle = (
 	_cs_close handle.h;
 )

 let cs_option handle opt value = (
 	_cs_option handle.h opt value;
 );;

 let cs_disasm handle code address count = (
 	_cs_disasm_internal handle.a handle.h code address count;
 );;

 let cs_reg_name handle id = (
 	_cs_reg_name handle.h id;
 );;

 let cs_insn_name handle id = (
 	_cs_insn_name handle.h id;
 );;

 let cs_group_name handle id = (
 	_cs_group_name handle.h id;
 );;

 class cs_insn c a =
 	let csh = c in
 	let (id, address, size, bytes, mnemonic, op_str, regs_read,
         regs_write, groups, arch) =
         (a.id, a.address, a.size, a.bytes, a.mnemonic, a.op_str,
         a.regs_read, a.regs_write, a.groups, a.arch) in
 	object
 		method id = id;
 		method address = address;
 		method size = size;
 	        method bytes = bytes;
 		method mnemonic = mnemonic;
 		method op_str = op_str;
 		method regs_read = regs_read;
 		method regs_write = regs_write;
 		method groups = groups;
 		method arch = arch;
 		method reg_name id = _cs_reg_name csh.h id;
 		method insn_name id = _cs_insn_name csh.h id;
 		method group_name id = _cs_group_name csh.h id;
 	end;;

 let cs_insn_group handle insn group_id =
 	List.exists (fun g -> g == group_id) (Array.to_list insn.groups);;

 let cs_reg_read handle insn reg_id =
 	List.exists (fun g -> g == reg_id) (Array.to_list insn.regs_read);;

 let cs_reg_write handle insn reg_id =
 	List.exists (fun g -> g == reg_id) (Array.to_list insn.regs_write);;


 class cs a m =
 	let mode = m and arch = a in
 	let handle = cs_open arch mode in
 	object
 		method disasm code offset count =
 			let insns = (_cs_disasm_internal arch handle.h code offset count) in
 			List.map (fun x -> new cs_insn handle x) insns;

 	end;;
	(* Capstone Disassembly Engine
	* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2014 *)

	open Arm
	open Arm64
	open Mips
	open Ppc
	open X86
	open Sparc
	open Systemz
	open Xcore
	open M680x
	open Printf (* debug *)

	(* Hardware architectures *)
	type arch =
	\| CS_ARCH_ARM
	\| CS_ARCH_ARM64
	\| CS_ARCH_MIPS
	\| CS_ARCH_X86
	\| CS_ARCH_PPC
	\| CS_ARCH_SPARC
	\| CS_ARCH_SYSZ
	\| CS_ARCH_XCORE
	\| CS_ARCH_M68K
	\| CS_ARCH_TMS320C64X
	\| CS_ARCH_M680X

	(* Hardware modes *)
	type mode =
	\| CS_MODE_LITTLE_ENDIAN (* little-endian mode (default mode) *)
	\| CS_MODE_ARM (* ARM mode *)
	\| CS_MODE_16 (* 16-bit mode (for X86) *)
	\| CS_MODE_32 (* 32-bit mode (for X86) *)
	\| CS_MODE_64 (* 64-bit mode (for X86, PPC) *)
	\| CS_MODE_THUMB (* ARM's Thumb mode, including Thumb-2 *)
	\| CS_MODE_MCLASS (* ARM's MClass mode *)
	\| CS_MODE_V8 (* ARMv8 A32 encodings for ARM *)
	\| CS_MODE_MICRO (* MicroMips mode (MIPS architecture) *)
	\| CS_MODE_MIPS3 (* Mips3 mode (MIPS architecture) *)
	\| CS_MODE_MIPS32R6 (* Mips32-R6 mode (MIPS architecture) *)
	\| CS_MODE_MIPS2 (* Mips2 mode (MIPS architecture) *)
	\| CS_MODE_V9 (* SparcV9 mode (Sparc architecture) *)
	\| CS_MODE_BIG_ENDIAN (* big-endian mode *)
	\| CS_MODE_MIPS32 (* Mips32 mode (for Mips) *)
	\| CS_MODE_MIPS64 (* Mips64 mode (for Mips) *)
	\| CS_MODE_QPX (* Quad Processing eXtensions mode (PowerPC) *)
	\| CS_MODE_M680X_6301 (* M680X Hitachi 6301,6303 mode *)
	\| CS_MODE_M680X_6309 (* M680X Hitachi 6309 mode *)
	\| CS_MODE_M680X_6800 (* M680X Motorola 6800,6802 mode *)
	\| CS_MODE_M680X_6801 (* M680X Motorola 6801,6803 mode *)
	\| CS_MODE_M680X_6805 (* M680X Motorola 6805 mode *)
	\| CS_MODE_M680X_6808 (* M680X Motorola 6808 mode *)
	\| CS_MODE_M680X_6809 (* M680X Motorola 6809 mode *)
	\| CS_MODE_M680X_6811 (* M680X Motorola/Freescale 68HC11 mode *)
	\| CS_MODE_M680X_CPU12 (* M680X Motorola/Freescale/NXP CPU12 mode *)
	\| CS_MODE_M680X_HCS08 (* M680X Freescale HCS08 mode *)



	(* Runtime option for the disassembled engine *)
	type opt_type =
	\| CS_OPT_SYNTAX (* Asssembly output syntax *)
	\| CS_OPT_DETAIL (* Break down instruction structure into details *)
	\| CS_OPT_MODE (* Change engine's mode at run-time *)
	\| CS_OPT_MEM (* User-defined dynamic memory related functions *)
	\| CS_OPT_SKIPDATA (* Skip data when disassembling. Then engine is in SKIPDATA mode. *)
	\| CS_OPT_SKIPDATA_SETUP (* Setup user-defined function for SKIPDATA option *)


	(* Common instruction operand access types - to be consistent across all architectures. *)
	(* It is possible to combine access types, for example: CS_AC_READ \| CS_AC_WRITE *)
	let _CS_AC_INVALID = 0;; (* Uninitialized/invalid access type. *)
	let _CS_AC_READ = 1 lsl 0;; (* Operand read from memory or register. *)
	let _CS_AC_WRITE = 1 lsl 1;; (* Operand write to memory or register. *)

	(* Runtime option value (associated with option type above) *)
	let _CS_OPT_OFF = 0L;; (* Turn OFF an option - default option of CS_OPT_DETAIL, CS_OPT_SKIPDATA. *)
	let _CS_OPT_ON = 3L;; (* Turn ON an option (CS_OPT_DETAIL, CS_OPT_SKIPDATA). *)
	let _CS_OPT_SYNTAX_DEFAULT = 0L;; (* Default asm syntax (CS_OPT_SYNTAX). *)
	let _CS_OPT_SYNTAX_INTEL = 1L;; (* X86 Intel asm syntax - default on X86 (CS_OPT_SYNTAX). *)
	let _CS_OPT_SYNTAX_ATT = 2L;; (* X86 ATT asm syntax (CS_OPT_SYNTAX). *)
	let _CS_OPT_SYNTAX_NOREGNAME = 3L;; (* Prints register name with only number (CS_OPT_SYNTAX) *)

	(* Common instruction operand types - to be consistent across all architectures. *)
	let _CS_OP_INVALID = 0;; (* uninitialized/invalid operand. *)
	let _CS_OP_REG = 1;; (* Register operand. *)
	let _CS_OP_IMM = 2;; (* Immediate operand. *)
	let _CS_OP_MEM = 3;; (* Memory operand. *)
	let _CS_OP_FP = 4;; (* Floating-Point operand. *)

	(* Common instruction groups - to be consistent across all architectures. *)
	let _CS_GRP_INVALID = 0;; (* uninitialized/invalid group. *)
	let _CS_GRP_JUMP = 1;; (* all jump instructions (conditional+direct+indirect jumps) *)
	let _CS_GRP_CALL = 2;; (* all call instructions *)
	let _CS_GRP_RET = 3;; (* all return instructions *)
	let _CS_GRP_INT = 4;; (* all interrupt instructions (int+syscall) *)
	let _CS_GRP_IRET = 5;; (* all interrupt return instructions *)
	let _CS_GRP_PRIVILEGE = 6;; (* all privileged instructions *)

	type cs_arch =
	\| CS_INFO_ARM of cs_arm
	\| CS_INFO_ARM64 of cs_arm64
	\| CS_INFO_MIPS of cs_mips
	\| CS_INFO_X86 of cs_x86
	\| CS_INFO_PPC of cs_ppc
	\| CS_INFO_SPARC of cs_sparc
	\| CS_INFO_SYSZ of cs_sysz
	\| CS_INFO_XCORE of cs_xcore
	\| CS_INFO_M680X of cs_m680x


	type csh = {
	h: Int64.t;
	a: arch;
	}

	type cs_insn0 = {
	id: int;
	address: int;
	size: int;
	bytes: int array;
	mnemonic: string;
	op_str: string;
	regs_read: int array;
	regs_write: int array;
	groups: int array;
	arch: cs_arch;
	}

	external _cs_open: arch -> mode list -> Int64.t option = "ocaml_open"
	external cs_disasm_quick: arch -> mode list -> string -> Int64.t -> Int64.t -> cs_insn0 list = "ocaml_cs_disasm"
	external _cs_disasm_internal: arch -> Int64.t -> string -> Int64.t -> Int64.t -> cs_insn0 list = "ocaml_cs_disasm_internal"
	external _cs_reg_name: Int64.t -> int -> string = "ocaml_register_name"
	external _cs_insn_name: Int64.t -> int -> string = "ocaml_instruction_name"
	external _cs_group_name: Int64.t -> int -> string = "ocaml_group_name"
	external cs_version: unit -> int = "ocaml_version"
	external _cs_option: Int64.t -> opt_type -> Int64.t -> int = "ocaml_option"
	external _cs_close: Int64.t -> int = "ocaml_close"


	let cs_open _arch _mode: csh = (
	let _handle = _cs_open _arch _mode in (
	match _handle with
	\| None -> { h = 0L; a = _arch }
	\| Some v -> { h = v; a = _arch }
	);
	);;

	let cs_close handle = (
	_cs_close handle.h;
	)

	let cs_option handle opt value = (
	_cs_option handle.h opt value;
	);;

	let cs_disasm handle code address count = (
	_cs_disasm_internal handle.a handle.h code address count;
	);;

	let cs_reg_name handle id = (
	_cs_reg_name handle.h id;
	);;

	let cs_insn_name handle id = (
	_cs_insn_name handle.h id;
	);;

	let cs_group_name handle id = (
	_cs_group_name handle.h id;
	);;

	class cs_insn c a =
	let csh = c in
	let (id, address, size, bytes, mnemonic, op_str, regs_read,
	regs_write, groups, arch) =
	(a.id, a.address, a.size, a.bytes, a.mnemonic, a.op_str,
	a.regs_read, a.regs_write, a.groups, a.arch) in
	object
	method id = id;
	method address = address;
	method size = size;
	method bytes = bytes;
	method mnemonic = mnemonic;
	method op_str = op_str;
	method regs_read = regs_read;
	method regs_write = regs_write;
	method groups = groups;
	method arch = arch;
	method reg_name id = _cs_reg_name csh.h id;
	method insn_name id = _cs_insn_name csh.h id;
	method group_name id = _cs_group_name csh.h id;
	end;;

	let cs_insn_group handle insn group_id =
	List.exists (fun g -> g == group_id) (Array.to_list insn.groups);;

	let cs_reg_read handle insn reg_id =
	List.exists (fun g -> g == reg_id) (Array.to_list insn.regs_read);;

	let cs_reg_write handle insn reg_id =
	List.exists (fun g -> g == reg_id) (Array.to_list insn.regs_write);;


	class cs a m =
	let mode = m and arch = a in
	let handle = cs_open arch mode in
	object
	method disasm code offset count =
	let insns = (_cs_disasm_internal arch handle.h code offset count) in
	List.map (fun x -> new cs_insn handle x) insns;

	end;;