#include "asm/chunk.h" #include "asm/assembler.h" #include "asm/parse.h" #include "asm/segment.h" #include "asm/intel64/all_ops.h" #include "minicc.h" #include #include "gmock/gmock.h" #include "gtest/gtest.h" #include #include #include #include #include #include #include #include #include using namespace std::string_literals; namespace fs = std::filesystem; class AsmTest: public ::testing::Test { protected: AsmTest() { //debug = true; } ~AsmTest() { } void SetUp(){ } void TearDown(){ } }; class AsmParseTest: public ::testing::Test { protected: AsmParseTest() { //debug = true; } ~AsmParseTest() { } void SetUp(){ } void TearDown(){ } }; TEST_F(AsmTest, Intel64_add) { Segment segment; Asm::Args args{{Asm::Args::Register32("eax"), Asm::Args::Immediate32(1)}}; segment.push_back(makeOp("add", args)); ASSERT_EQ(segment.size(), 1); ASSERT_EQ(segment.getCode(), std::vector({0x05, 0x01, 0x00, 0x00, 0x00})); } TEST_F(AsmTest, Intel64_int_0) { Segment segment; Asm::Args args{{Asm::Args::Immediate8(0)}}; segment.push_back(makeOp("int", args)); ASSERT_EQ(segment.size(), 1); ASSERT_EQ(segment.getCode(), std::vector{0xCE}); } TEST_F(AsmTest, Intel64_int_1) { Segment segment; Asm::Args args{{Asm::Args::Immediate8(1)}}; segment.push_back(makeOp("int", args)); ASSERT_EQ(segment.size(), 1); ASSERT_EQ(segment.getCode(), std::vector{0xF1}); } TEST_F(AsmTest, Intel64_int_5) { Segment segment; Asm::Args args{{Asm::Args::Immediate8(5)}}; segment.push_back(makeOp("int", args)); ASSERT_EQ(segment.size(), 1); ASSERT_EQ(segment.getCode(), std::vector({0xCD, 0x05})); } TEST_F(AsmTest, Intel64_nop) { Segment segment; segment.push_back(makeOp("nop")); ASSERT_EQ(segment.size(), 1); ASSERT_EQ(segment.getCode(), std::vector{0x90}); } TEST_F(AsmTest, Intel64_ret) { Segment segment; segment.push_back(makeOp("ret")); ASSERT_EQ(segment.size(), 1); ASSERT_EQ(segment.getCode(), std::vector{0xC3}); } TEST_F(AsmTest, Intel64_multiple) { Segment segment; segment.push_back(makeOp("nop")); Asm::Args args0{{Asm::Args::Immediate8(5)}}; segment.push_back(makeOp("int", args0)); segment.push_back(makeOp("ret")); segment.push_back(makeLabel("data1")); segment.push_back(makeOp("ret")); Asm::Args args1{{Asm::Args::Label("data1")}}; segment.push_back(makeOp("jmp", args1)); segment.push_back(makeData({1, 2, 3})); segment.insertAddresses(); ASSERT_EQ(segment.size(), 7); ASSERT_EQ(segment.getCode(), std::vector( { 0x90, // nop 0xCD, 0x05, // int 5 0xC3, // ret // data1: 0xC3, // ret 0xE9, 0xFF, 0xFF, 0xFF, 0xFF, // jmp data1 0x01, 0x02, 0x03 // data })); segment.optimize(); ASSERT_EQ(segment.size(), 7); ASSERT_EQ(segment.getCode(), std::vector( { 0x90, // nop 0xCD, 0x05, // int 5 0xC3, // ret // data1: 0xC3, // ret 0xEB, 0xFF, // jmp data1 0x01, 0x02, 0x03 // data })); } TEST_F(AsmParseTest, parse_empty) { std::vector> chunks0{parseAsm("")}; ASSERT_EQ(chunks0.size(), 0); std::vector> chunks1{parseAsm("\n\n")}; ASSERT_EQ(chunks1.size(), 0); std::vector> chunks2{parseAsm("\n\n")}; ASSERT_EQ(chunks2.size(), 0); } TEST_F(AsmParseTest, parse_op_0) { std::vector> chunks0{parseAsm("nop")}; ASSERT_EQ(chunks0.size(), 1); } TEST_F(AsmParseTest, parse_op_1) { std::vector> chunks1{parseAsm("neg edi")}; ASSERT_EQ(chunks1.size(), 1); } TEST_F(AsmParseTest, parse_op_2) { std::vector> chunks2{parseAsm("add eax, edx")}; ASSERT_EQ(chunks2.size(), 1); } TEST_F(AsmParseTest, parse_op_3) { std::vector> chunks3{parseAsm("add eax, 3")}; ASSERT_EQ(chunks3.size(), 1); } TEST_F(AsmParseTest, parse_op_4) { std::vector> chunks4{parseAsm("add [edi], 3")}; ASSERT_EQ(chunks4.size(), 1); } TEST_F(AsmParseTest, parse_op_5) { std::vector> chunks5{parseAsm("add byte ptr [edi], 3")}; ASSERT_EQ(chunks5.size(), 1); } TEST_F(AsmParseTest, parse_op_6) { std::vector> chunks6{parseAsm("add dword ptr[edi], 3")}; ASSERT_EQ(chunks6.size(), 1); } TEST_F(AsmParseTest, parse_op_7) { std::vector> chunks7{parseAsm("add qword ptr[edi], 3")}; ASSERT_EQ(chunks7.size(), 1); } TEST_F(AsmParseTest, parse_label) { std::vector> chunks0{parseAsm("label1:")}; ASSERT_EQ(chunks0.size(), 1); std::vector> chunks1{parseAsm("label2: add eax, 3")}; ASSERT_EQ(chunks1.size(), 2); } TEST_F(AsmParseTest, parse_multiline) { std::vector> chunks1{parseAsm("add eax, 3\n")}; ASSERT_EQ(chunks1.size(), 1); std::vector> chunks2{parseAsm("label2: add eax, 3\n mul rdx")}; ASSERT_EQ(chunks2.size(), 3); std::vector> chunks3{parseAsm("label2: add eax, 3\n mul rdx\n")}; ASSERT_EQ(chunks3.size(), 3); std::vector> chunks4{parseAsm("label2: add eax, 3\n\n\n mul rdx")}; ASSERT_EQ(chunks4.size(), 3); } TEST_F(AsmParseTest, parse_comment) { std::vector> chunks0{parseAsm(" ; Comment 1")}; ASSERT_EQ(chunks0.size(), 0); std::vector> chunks1{parseAsm("label2: add eax, 3 ; A comment")}; ASSERT_EQ(chunks1.size(), 2); std::vector> chunks3{parseAsm("label2: add eax, 3 // Another comment")}; ASSERT_EQ(chunks3.size(), 2); std::vector> chunks4{parseAsm("label2: add eax, 3 // Another comment\nadd rax, rdi")}; ASSERT_EQ(chunks4.size(), 3); std::vector> chunks5{parseAsm("label2: add eax, 3 // Another comment\n \t add rax, rdi")}; ASSERT_EQ(chunks5.size(), 3); } TEST_F(AsmParseTest, parse_error) { ASSERT_THROW(parseAsm(" add label1:"), std::runtime_error); ASSERT_THROW(parseAsm(" add eax , "), std::runtime_error); ASSERT_THROW(parseAsm(" add eax,"), std::runtime_error); }