bindings/ocaml/test_x86.ml - platform/external/capstone - Gitiles

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

 open Printf
 open Capstone
 open X86
 open X86_const


 let print_string_hex comment str =
 	printf "%s" comment;
 	for i = 0 to (Array.length str - 1) do
 		printf "0x%02x " str.(i)
 	done;
 	printf "\n"


 let _X86_CODE16 = "\x8d\x4c\x32\x08\x01\xd8\x81\xc6\x34\x12\x00\x00";;
 let _X86_CODE32 = "\x8d\x4c\x32\x08\x01\xd8\x81\xc6\x34\x12\x00\x00";;
 let _X86_CODE64 = "\x55\x48\x8b\x05\xb8\x13\x00\x00";;


 let all_tests = [
 	(CS_ARCH_X86, [CS_MODE_16], _X86_CODE16, "X86 16bit (Intel syntax)", 0L);
 	(CS_ARCH_X86, [CS_MODE_32], _X86_CODE32, "X86 32bit (ATT syntax)", _CS_OPT_SYNTAX_ATT);
 	(CS_ARCH_X86, [CS_MODE_32], _X86_CODE32, "X86 32 (Intel syntax)", 0L);
 	(CS_ARCH_X86, [CS_MODE_64], _X86_CODE64, "X86 64 (Intel syntax)", 0L);
 ];;

 let print_op handle i op =
 	( match op.value with
 	| X86_OP_INVALID _ -> ();	(* this would never happens *)
 	| X86_OP_REG reg -> printf "\t\top[%d]: REG = %s\n" i (cs_reg_name handle reg);
 	| X86_OP_IMM imm -> printf "\t\top[%d]: IMM = 0x%x\n" i imm;
 	| X86_OP_MEM mem -> ( printf "\t\top[%d]: MEM\n" i;
 		if mem.base != 0 then
 			printf "\t\t\toperands[%u].mem.base: REG = %s\n" i (cs_reg_name handle  mem.base);
 		if mem.index != 0 then
 			printf "\t\t\toperands[%u].mem.index: REG = %s\n" i (cs_reg_name handle mem.index);
 		if mem.scale != 1 then
 			printf "\t\t\toperands[%u].mem.scale: %d\n" i mem.scale;
 		if mem.disp != 0 then
 			printf "\t\t\toperands[%u].mem.disp: 0x%x\n" i mem.disp;
 		);
 	);
 	();;


 let print_detail handle mode insn =
 	match insn.arch with
 	| CS_INFO_X86 x86 -> (
 			print_string_hex "\tPrefix: " x86.prefix;

 			(* print instruction's opcode *)
 			print_string_hex "\tOpcode: " x86.opcode;

 			(* print operand's size, address size, displacement size & immediate size *)
 			printf "\taddr_size: %u\n" x86.addr_size;

 			(* print modRM byte *)
 			printf "\tmodrm: 0x%x\n" x86.modrm;

 			(* print displacement value *)
 			if x86.disp != 0 then
 			printf "\tdisp: 0x%x\n" x86.disp;

 			(* SIB is invalid in 16-bit mode *)
 			if not (List.mem CS_MODE_16 mode) then (
 				(* print SIB byte *)
 				printf "\tsib: 0x%x\n" x86.sib;

 				(* print sib index/scale/base (if applicable) *)
 				if x86.sib_index != _X86_REG_INVALID then
 				printf "\tsib_index: %s, sib_scale: %u, sib_base: %s\n"
 				(cs_reg_name handle x86.sib_index)
 				x86.sib_scale
 				(cs_reg_name handle x86.sib_base);
 			);

 			(* print all operands info (type & value) *)
 			if (Array.length x86.operands) > 0 then (
 				printf "\top_count: %d\n" (Array.length x86.operands);
 				Array.iteri (print_op handle) x86.operands;
 			);
 			printf "\n";
 	);
 	| _ -> ();
 	;;


 let print_insn handle mode insn =
 	printf "0x%x\t%s\t%s\n" insn.address insn.mnemonic insn.op_str;
 	print_detail handle mode insn


 let print_arch x =
 	let (arch, mode, code, comment, syntax) = x in
 	let handle = cs_open arch mode in (
 		if syntax != 0L then (
 			let err = cs_option handle CS_OPT_SYNTAX syntax in
 			match err with
 			| _ -> ();
 		);
 		let err = cs_option handle CS_OPT_DETAIL _CS_OPT_ON in
 		match err with
 		| _ -> ();
 		let insns = cs_disasm handle code 0x1000L 0L in (
 			printf "*************\n";
 			printf "Platform: %s\n" comment;
 			List.iter (print_insn handle mode) insns;
 		);
 		match cs_close handle with
 		| 0 -> ();
 		| _ -> printf "Failed to close handle";
 	);;

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

	open Printf
	open Capstone
	open X86
	open X86_const


	let print_string_hex comment str =
	printf "%s" comment;
	for i = 0 to (Array.length str - 1) do
	printf "0x%02x " str.(i)
	done;
	printf "\n"


	let _X86_CODE16 = "\x8d\x4c\x32\x08\x01\xd8\x81\xc6\x34\x12\x00\x00";;
	let _X86_CODE32 = "\x8d\x4c\x32\x08\x01\xd8\x81\xc6\x34\x12\x00\x00";;
	let _X86_CODE64 = "\x55\x48\x8b\x05\xb8\x13\x00\x00";;


	let all_tests = [
	(CS_ARCH_X86, [CS_MODE_16], _X86_CODE16, "X86 16bit (Intel syntax)", 0L);
	(CS_ARCH_X86, [CS_MODE_32], _X86_CODE32, "X86 32bit (ATT syntax)", _CS_OPT_SYNTAX_ATT);
	(CS_ARCH_X86, [CS_MODE_32], _X86_CODE32, "X86 32 (Intel syntax)", 0L);
	(CS_ARCH_X86, [CS_MODE_64], _X86_CODE64, "X86 64 (Intel syntax)", 0L);
	];;

	let print_op handle i op =
	( match op.value with
	\| X86_OP_INVALID _ -> (); (* this would never happens *)
	\| X86_OP_REG reg -> printf "\t\top[%d]: REG = %s\n" i (cs_reg_name handle reg);
	\| X86_OP_IMM imm -> printf "\t\top[%d]: IMM = 0x%x\n" i imm;
	\| X86_OP_MEM mem -> ( printf "\t\top[%d]: MEM\n" i;
	if mem.base != 0 then
	printf "\t\t\toperands[%u].mem.base: REG = %s\n" i (cs_reg_name handle mem.base);
	if mem.index != 0 then
	printf "\t\t\toperands[%u].mem.index: REG = %s\n" i (cs_reg_name handle mem.index);
	if mem.scale != 1 then
	printf "\t\t\toperands[%u].mem.scale: %d\n" i mem.scale;
	if mem.disp != 0 then
	printf "\t\t\toperands[%u].mem.disp: 0x%x\n" i mem.disp;
	);
	);
	();;


	let print_detail handle mode insn =
	match insn.arch with
	\| CS_INFO_X86 x86 -> (
	print_string_hex "\tPrefix: " x86.prefix;

	(* print instruction's opcode *)
	print_string_hex "\tOpcode: " x86.opcode;

	(* print operand's size, address size, displacement size & immediate size *)
	printf "\taddr_size: %u\n" x86.addr_size;

	(* print modRM byte *)
	printf "\tmodrm: 0x%x\n" x86.modrm;

	(* print displacement value *)
	if x86.disp != 0 then
	printf "\tdisp: 0x%x\n" x86.disp;

	(* SIB is invalid in 16-bit mode *)
	if not (List.mem CS_MODE_16 mode) then (
	(* print SIB byte *)
	printf "\tsib: 0x%x\n" x86.sib;

	(* print sib index/scale/base (if applicable) *)
	if x86.sib_index != _X86_REG_INVALID then
	printf "\tsib_index: %s, sib_scale: %u, sib_base: %s\n"
	(cs_reg_name handle x86.sib_index)
	x86.sib_scale
	(cs_reg_name handle x86.sib_base);
	);

	(* print all operands info (type & value) *)
	if (Array.length x86.operands) > 0 then (
	printf "\top_count: %d\n" (Array.length x86.operands);
	Array.iteri (print_op handle) x86.operands;
	);
	printf "\n";
	);
	\| _ -> ();
	;;


	let print_insn handle mode insn =
	printf "0x%x\t%s\t%s\n" insn.address insn.mnemonic insn.op_str;
	print_detail handle mode insn


	let print_arch x =
	let (arch, mode, code, comment, syntax) = x in
	let handle = cs_open arch mode in (
	if syntax != 0L then (
	let err = cs_option handle CS_OPT_SYNTAX syntax in
	match err with
	\| _ -> ();
	);
	let err = cs_option handle CS_OPT_DETAIL _CS_OPT_ON in
	match err with
	\| _ -> ();
	let insns = cs_disasm handle code 0x1000L 0L in (
	printf "*************\n";
	printf "Platform: %s\n" comment;
	List.iter (print_insn handle mode) insns;
	);
	match cs_close handle with
	\| 0 -> ();
	\| _ -> printf "Failed to close handle";
	);;

	List.iter print_arch all_tests;;