#    This file is part of Metasm, the Ruby assembly manipulation suite
#    Copyright (C) 2006-2009 Yoann GUILLOT
#
#    Licence is LGPL, see LICENCE in the top-level directory


require 'test/unit'
require 'metasm'

class TestIa32 < Test::Unit::TestCase
	@@cpu32 = Metasm::Ia32.new
	@@cpu16 = Metasm::Ia32.new(16)
	def assemble(src, cpu=@@cpu32)
		Metasm::Shellcode.assemble(cpu, src).encode_string
	end

	def assert_equal(a, b) super(b, a) end

	def bin(s)
		if s.respond_to?(:force_encoding)
			s.force_encoding('BINARY')
		else
			s
		end
	end

	def test_basic
		assert_equal(assemble("nop"), bin("\x90"))
		assert_equal(assemble("push eax"), bin("\x50"))
		assert_equal(assemble("push 2"), bin("\x6a\x02"))
		assert_equal(assemble("push 142"), bin("\x68\x8e\0\0\0"))
		assert_equal(assemble("cmp al, 'a'"), bin("\x3c\x61"))
	end

	def test_sz
		assert_equal(assemble("dec eax"), bin("\x48"))
		assert_equal(assemble("dec ax"), bin("\x66\x48"))
		assert_equal(assemble("dec al"), bin("\xfe\xc8"))
		assert_equal(assemble("arpl [edi+70h], bp"), "cop")
	end

	def test_16
		assert_equal(assemble("push 142", @@cpu16), bin("\x68\x8e\0"))
		assert_equal(assemble("code16 push 142", @@cpu16), bin("\x68\x8e\0"))
		assert_equal(assemble("code16 push 142"), bin("\x68\x8e\0"))
		assert_equal(assemble("push.i16 142"), bin("\x66\x68\x8e\0"))
		assert_equal(assemble("mov eax, 42"), bin("\xb8\x2a\0\0\0"))
		assert_equal(assemble("code16 mov ax, 42"), bin("\xb8\x2a\0"))
	end

	def test_jmp
		assert_equal(assemble("jmp $"), bin("\xeb\xfe"))
		assert_equal(assemble("jmp.i32 $"), bin("\xe9\xfb\xff\xff\xff"))
	end

	def test_opsz
		assert_equal(assemble("cbw"), bin("\x66\x98"))
		assert_equal(assemble("cwde"), bin("\x98"))

		assert_equal(assemble("cbw", @@cpu16), bin("\x98"))
		assert_equal(assemble("cwde", @@cpu16), bin("\x66\x98"))

		assert_equal(assemble("cmpxchg8b [eax]"), bin("\x0f\xc7\x08"))
		assert_equal(assemble("cmpxchg8b [bx]", @@cpu16), bin("\x66\x0f\xc7\x0f"))
	end

	def test_mrmsz
		assert_equal(assemble("mov [eax], ebx"), bin("\x89\x18"))
		assert_equal(assemble("mov [eax], bl"), bin("\x88\x18"))
		assert_equal(assemble("mov ebx, [eax]"), bin("\x8b\x18"))
		assert_equal(assemble("mov bl, [eax]"), bin("\x8a\x18"))
		assert_equal(assemble("mov bl, [bx]"), bin("\x67\x8a\x1f"))
		assert_equal(assemble("mov bl, [bx]", @@cpu16), bin("\x8a\x1f"))
		assert_equal(assemble("code16 mov bl, [bx]"), bin("\x8a\x1f"))
		assert_equal(assemble("mov bl, [0]"), bin("\x8a\x1d\0\0\0\0"))
		assert_equal(assemble("mov.a16 bl, [0]"), bin("\x67\x8a\x1e\0\0"))
	end

	def test_err
		assert_raise(Metasm::ParseError) { assemble("add eax") }
		assert_raise(Metasm::ParseError) { assemble("add add, ebx") }
		assert_raise(Metasm::ParseError) { assemble("add 42, ebx") }
		assert_raise(Metasm::ParseError) { assemble("add [bx+ax]") }
	end

	def test_C
		src = "int bla(void) { volatile int i=0; return (int)++i; }"
		assert_equal(Metasm::Shellcode.compile_c(@@cpu32, src).encode_string,
				["5589E583EC04C745FC00000000FF45FC8B45FC89EC5DC3"].pack('H*'))
	end

	def disassemble(bin, cpu=@@cpu32)
		Metasm::Shellcode.disassemble(cpu, bin)
	end

	def test_dasm
		d = disassemble(bin("\x90"))
		assert_equal(d.decoded[0].class, Metasm::DecodedInstruction)
		assert_equal(d.decoded[0].opcode.name, "nop")

		assert_equal(disassemble(bin("\x66\x0f\xc7\x08")).decoded[0], nil)
		assert_equal(disassemble(bin("\x0f\xc7\x08")).decoded[0].opcode.name, "cmpxchg8b")
	end

	def test_pfx
		assert_equal(assemble("nop"), bin("\x90"))
		assert_equal(assemble("pause"), bin("\xf3\x90"))
		assert_equal(disassemble(bin("\x90")).decoded.values.first.opcode.name, "nop")
		assert_equal(disassemble(bin("\xf3\x90")).decoded.values.first.opcode.name, "pause")
	end

	def test_avx
		assert_equal(disassemble(bin("\xc4\xc3\x75\x42\xc2\x03")).decoded[0].instruction.to_s, "vmpsadbw ymm0, ymm1, ymm2, 3")
		assert_equal(assemble("vmpsadbw ymm0, ymm1, ymm2, 3"), bin("\xc4\xc3\x75\x42\xc2\x03"))
		assert_equal(assemble("vpblendvb xmm1, xmm2, xmm3, xmm4"), bin("\xc4\xc3\x69\x4c\xcb\x40"))
		assert_equal(assemble("vgatherdpd xmm1, qword ptr [edx+xmm1], xmm2"), bin("\xc4\xc2\xe9\x92\x0c\x0a"))
		assert_equal(disassemble(bin("\xc4\xc2\xe9\x92\x0c\x0a")).decoded[0].instruction.to_s, "vgatherdpd xmm1, qword ptr [edx+xmm1], xmm2")
	end

	def backtrace(asm, expr, cpu=@@cpu32)
		raw = assemble(asm + "\n nop", cpu)
		disassemble(raw, cpu).backtrace(expr, raw.length-1).first
	end

	def test_backtrace
		assert_equal(backtrace("mov eax, 10", :eax), Metasm::Expression[10])
		assert_equal(backtrace("mov eax, 0x1234\n ror eax, 8", :eax), Metasm::Expression[0x34000012])
		assert_equal(backtrace("mov eax, 0x1234\n ror al, 4", :eax), Metasm::Expression[0x1243])
		assert_equal(backtrace("mov eax, 0x1234\n shr al, 4", :eax), Metasm::Expression[0x1203])
		assert_equal(backtrace("mov eax, 0x1234\n shl ah, 4", :eax), Metasm::Expression[0x2034])
		assert_equal(backtrace("mov eax, 0xf000_0000\n add eax, 0x2000_0000\n shr eax, 28", :eax), Metasm::Expression[1])
		assert_equal(backtrace("mov eax, 0xf000_0000\n add eax, 0x2000_0000\n ror eax, 28", :eax), Metasm::Expression[1])
		assert_equal(backtrace("mov eax, 1\n mov ebx, 2\n xchg al, bl", :eax), Metasm::Expression[2])
		assert_equal(backtrace("mov eax, 0x01020304\n xchg al, ah", :eax), Metasm::Expression[0x01020403])
	end
end