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require 'test/unit'
require_relative '../../lib/jit_support'
return unless JITSupport.rjit_supported?
return unless RubyVM::RJIT.enabled?
return unless RubyVM::RJIT::C.HAVE_LIBCAPSTONE
require 'stringio'
require 'ruby_vm/rjit/assembler'
module RubyVM::RJIT
class TestAssembler < Test::Unit::TestCase
MEM_SIZE = 16 * 1024
def setup
@mem_block ||= C.mmap(MEM_SIZE)
@cb = CodeBlock.new(mem_block: @mem_block, mem_size: MEM_SIZE)
end
def test_add
asm = Assembler.new
asm.add([:rcx], 1) # ADD r/m64, imm8 (Mod 00: [reg])
asm.add(:rax, 0x7f) # ADD r/m64, imm8 (Mod 11: reg)
asm.add(:rbx, 0x7fffffff) # ADD r/m64 imm32 (Mod 11: reg)
asm.add(:rsi, :rdi) # ADD r/m64, r64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: add qword ptr [rcx], 1
0x4: add rax, 0x7f
0x8: add rbx, 0x7fffffff
0xf: add rsi, rdi
EOS
end
def test_and
asm = Assembler.new
asm.and(:rax, 0) # AND r/m64, imm8 (Mod 11: reg)
asm.and(:rbx, 0x7fffffff) # AND r/m64, imm32 (Mod 11: reg)
asm.and(:rcx, [:rdi, 8]) # AND r64, r/m64 (Mod 01: [reg]+disp8)
assert_compile(asm, <<~EOS)
0x0: and rax, 0
0x4: and rbx, 0x7fffffff
0xb: and rcx, qword ptr [rdi + 8]
EOS
end
def test_call
asm = Assembler.new
asm.call(rel32(0xff)) # CALL rel32
asm.call(:rax) # CALL r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: call 0xff
0x5: call rax
EOS
end
def test_cmove
asm = Assembler.new
asm.cmove(:rax, :rcx) # CMOVE r64, r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: cmove rax, rcx
EOS
end
def test_cmovg
asm = Assembler.new
asm.cmovg(:rbx, :rdi) # CMOVG r64, r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: cmovg rbx, rdi
EOS
end
def test_cmovge
asm = Assembler.new
asm.cmovge(:rsp, :rbp) # CMOVGE r64, r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: cmovge rsp, rbp
EOS
end
def test_cmovl
asm = Assembler.new
asm.cmovl(:rdx, :rsp) # CMOVL r64, r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: cmovl rdx, rsp
EOS
end
def test_cmovle
asm = Assembler.new
asm.cmovle(:rax, :rax) # CMOVLE r64, r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: cmovle rax, rax
EOS
end
def test_cmovne
asm = Assembler.new
asm.cmovne(:rax, :rbx) # CMOVNE r64, r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS) # cmovne == cmovnz
0x0: cmovne rax, rbx
EOS
end
def test_cmovnz
asm = Assembler.new
asm.cmovnz(:rax, :rbx) # CMOVNZ r64, r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS) # cmovne == cmovnz
0x0: cmovne rax, rbx
EOS
end
def test_cmovz
asm = Assembler.new
asm.cmovz(:rax, :rbx) # CMOVZ r64, r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS) # cmove == cmovz
0x0: cmove rax, rbx
EOS
end
def test_cmp
asm = Assembler.new
asm.cmp(BytePtr[:rax, 8], 8) # CMP r/m8, imm8 (Mod 01: [reg]+disp8)
asm.cmp(DwordPtr[:rax, 8], 0x100) # CMP r/m32, imm32 (Mod 01: [reg]+disp8)
asm.cmp([:rax, 8], 8) # CMP r/m64, imm8 (Mod 01: [reg]+disp8)
asm.cmp([:rbx, 8], 0x100) # CMP r/m64, imm32 (Mod 01: [reg]+disp8)
asm.cmp([:rax, 0x100], 8) # CMP r/m64, imm8 (Mod 10: [reg]+disp32)
asm.cmp(:rax, 8) # CMP r/m64, imm8 (Mod 11: reg)
asm.cmp(:rax, 0x100) # CMP r/m64, imm32 (Mod 11: reg)
asm.cmp([:rax, 8], :rbx) # CMP r/m64, r64 (Mod 01: [reg]+disp8)
asm.cmp([:rax, -0x100], :rbx) # CMP r/m64, r64 (Mod 10: [reg]+disp32)
asm.cmp(:rax, :rbx) # CMP r/m64, r64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: cmp byte ptr [rax + 8], 8
0x4: cmp dword ptr [rax + 8], 0x100
0xb: cmp qword ptr [rax + 8], 8
0x10: cmp qword ptr [rbx + 8], 0x100
0x18: cmp qword ptr [rax + 0x100], 8
0x20: cmp rax, 8
0x24: cmp rax, 0x100
0x2b: cmp qword ptr [rax + 8], rbx
0x2f: cmp qword ptr [rax - 0x100], rbx
0x36: cmp rax, rbx
EOS
end
def test_jbe
asm = Assembler.new
asm.jbe(rel32(0xff)) # JBE rel32
assert_compile(asm, <<~EOS)
0x0: jbe 0xff
EOS
end
def test_je
asm = Assembler.new
asm.je(rel32(0xff)) # JE rel32
assert_compile(asm, <<~EOS)
0x0: je 0xff
EOS
end
def test_jl
asm = Assembler.new
asm.jl(rel32(0xff)) # JL rel32
assert_compile(asm, <<~EOS)
0x0: jl 0xff
EOS
end
def test_jmp
asm = Assembler.new
label = asm.new_label('label')
asm.jmp(label) # JZ rel8
asm.write_label(label)
asm.jmp(rel32(0xff)) # JMP rel32
asm.jmp([:rax, 8]) # JMP r/m64 (Mod 01: [reg]+disp8)
asm.jmp(:rax) # JMP r/m64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: jmp 2
0x2: jmp 0xff
0x7: jmp qword ptr [rax + 8]
0xa: jmp rax
EOS
end
def test_jne
asm = Assembler.new
asm.jne(rel32(0xff)) # JNE rel32
assert_compile(asm, <<~EOS)
0x0: jne 0xff
EOS
end
def test_jnz
asm = Assembler.new
asm.jnz(rel32(0xff)) # JNZ rel32
assert_compile(asm, <<~EOS)
0x0: jne 0xff
EOS
end
def test_jo
asm = Assembler.new
asm.jo(rel32(0xff)) # JO rel32
assert_compile(asm, <<~EOS)
0x0: jo 0xff
EOS
end
def test_jz
asm = Assembler.new
asm.jz(rel32(0xff)) # JZ rel32
assert_compile(asm, <<~EOS)
0x0: je 0xff
EOS
end
def test_lea
asm = Assembler.new
asm.lea(:rax, [:rax, 8]) # LEA r64,m (Mod 01: [reg]+disp8)
asm.lea(:rax, [:rax, 0xffff]) # LEA r64,m (Mod 10: [reg]+disp32)
assert_compile(asm, <<~EOS)
0x0: lea rax, [rax + 8]
0x4: lea rax, [rax + 0xffff]
EOS
end
def test_mov
asm = Assembler.new
asm.mov(:eax, DwordPtr[:rbx, 8]) # MOV r32 r/m32 (Mod 01: [reg]+disp8)
asm.mov(:eax, 0x100) # MOV r32, imm32 (Mod 11: reg)
asm.mov(:rax, [:rbx]) # MOV r64, r/m64 (Mod 00: [reg])
asm.mov(:rax, [:rbx, 8]) # MOV r64, r/m64 (Mod 01: [reg]+disp8)
asm.mov(:rax, [:rbx, 0x100]) # MOV r64, r/m64 (Mod 10: [reg]+disp32)
asm.mov(:rax, :rbx) # MOV r64, r/m64 (Mod 11: reg)
asm.mov(:rax, 0x100) # MOV r/m64, imm32 (Mod 11: reg)
asm.mov(:rax, 0x100000000) # MOV r64, imm64
asm.mov(DwordPtr[:rax, 8], 0x100) # MOV r/m32, imm32 (Mod 01: [reg]+disp8)
asm.mov([:rax], 0x100) # MOV r/m64, imm32 (Mod 00: [reg])
asm.mov([:rax], :rbx) # MOV r/m64, r64 (Mod 00: [reg])
asm.mov([:rax, 8], 0x100) # MOV r/m64, imm32 (Mod 01: [reg]+disp8)
asm.mov([:rax, 8], :rbx) # MOV r/m64, r64 (Mod 01: [reg]+disp8)
asm.mov([:rax, 0x100], 0x100) # MOV r/m64, imm32 (Mod 10: [reg]+disp32)
asm.mov([:rax, 0x100], :rbx) # MOV r/m64, r64 (Mod 10: [reg]+disp32)
assert_compile(asm, <<~EOS)
0x0: mov eax, dword ptr [rbx + 8]
0x3: mov eax, 0x100
0x8: mov rax, qword ptr [rbx]
0xb: mov rax, qword ptr [rbx + 8]
0xf: mov rax, qword ptr [rbx + 0x100]
0x16: mov rax, rbx
0x19: mov rax, 0x100
0x20: movabs rax, 0x100000000
0x2a: mov dword ptr [rax + 8], 0x100
0x31: mov qword ptr [rax], 0x100
0x38: mov qword ptr [rax], rbx
0x3b: mov qword ptr [rax + 8], 0x100
0x43: mov qword ptr [rax + 8], rbx
0x47: mov qword ptr [rax + 0x100], 0x100
0x52: mov qword ptr [rax + 0x100], rbx
EOS
end
def test_or
asm = Assembler.new
asm.or(:rax, 0) # OR r/m64, imm8 (Mod 11: reg)
asm.or(:rax, 0xffff) # OR r/m64, imm32 (Mod 11: reg)
asm.or(:rax, [:rbx, 8]) # OR r64, r/m64 (Mod 01: [reg]+disp8)
assert_compile(asm, <<~EOS)
0x0: or rax, 0
0x4: or rax, 0xffff
0xb: or rax, qword ptr [rbx + 8]
EOS
end
def test_push
asm = Assembler.new
asm.push(:rax) # PUSH r64
assert_compile(asm, <<~EOS)
0x0: push rax
EOS
end
def test_pop
asm = Assembler.new
asm.pop(:rax) # POP r64
assert_compile(asm, <<~EOS)
0x0: pop rax
EOS
end
def test_ret
asm = Assembler.new
asm.ret # RET
assert_compile(asm, "0x0: ret \n")
end
def test_sar
asm = Assembler.new
asm.sar(:rax, 0) # SAR r/m64, imm8 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: sar rax, 0
EOS
end
def test_sub
asm = Assembler.new
asm.sub(:rax, 8) # SUB r/m64, imm8 (Mod 11: reg)
asm.sub(:rax, :rbx) # SUB r/m64, r64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: sub rax, 8
0x4: sub rax, rbx
EOS
end
def test_test
asm = Assembler.new
asm.test(BytePtr[:rax, 8], 16) # TEST r/m8*, imm8 (Mod 01: [reg]+disp8)
asm.test([:rax, 8], 8) # TEST r/m64, imm32 (Mod 01: [reg]+disp8)
asm.test([:rax, 0xffff], 0xffff) # TEST r/m64, imm32 (Mod 10: [reg]+disp32)
asm.test(:rax, 0xffff) # TEST r/m64, imm32 (Mod 11: reg)
asm.test(:eax, :ebx) # TEST r/m32, r32 (Mod 11: reg)
asm.test(:rax, :rbx) # TEST r/m64, r64 (Mod 11: reg)
assert_compile(asm, <<~EOS)
0x0: test byte ptr [rax + 8], 0x10
0x4: test qword ptr [rax + 8], 8
0xc: test qword ptr [rax + 0xffff], 0xffff
0x17: test rax, 0xffff
0x1e: test eax, ebx
0x20: test rax, rbx
EOS
end
def test_xor
asm = Assembler.new
asm.xor(:rax, :rbx)
assert_compile(asm, <<~EOS)
0x0: xor rax, rbx
EOS
end
private
def rel32(offset)
@cb.write_addr + 0xff
end
def assert_compile(asm, expected)
actual = compile(asm)
assert_equal expected, actual, "---\n#{actual}---"
end
def compile(asm)
start_addr = @cb.write_addr
@cb.write(asm)
end_addr = @cb.write_addr
io = StringIO.new
@cb.dump_disasm(start_addr, end_addr, io:, color: false, test: true)
io.seek(0)
disasm = io.read
disasm.gsub!(/^ /, '')
disasm.sub!(/\n\z/, '')
disasm
end
end
end
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