//===- MsgPackWriterTest.cpp ------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/BinaryFormat/MsgPackWriter.h" #include "llvm/BinaryFormat/MsgPack.h" #include "gtest/gtest.h" using namespace llvm; using namespace llvm::msgpack; struct MsgPackWriter : testing::Test { std::string Buffer; llvm::raw_string_ostream OStream; Writer MPWriter; MsgPackWriter() : OStream(Buffer), MPWriter(OStream) {} }; TEST_F(MsgPackWriter, TestWriteNil) { MPWriter.writeNil(); EXPECT_EQ(OStream.str(), "\xc0"); } TEST_F(MsgPackWriter, TestWriteBool) { MPWriter.write(true); MPWriter.write(false); EXPECT_EQ(OStream.str(), "\xc3\xc2"); } TEST_F(MsgPackWriter, TestWriteFixPositiveInt) { // FixPositiveInt form bitpattern starts with 0, so max FixPositiveInt // is 01111111 = 127 for (uint64_t u = 0; u <= 127; ++u) { Buffer.clear(); MPWriter.write(u); std::string Output = OStream.str(); EXPECT_EQ(Output.size(), 1u); EXPECT_EQ(Output.data()[0], static_cast(u)); } } TEST_F(MsgPackWriter, TestWriteUInt8Min) { // See TestWriteFixPositiveInt for why 128 is the min non-fix Int8 uint64_t u = 128; MPWriter.write(u); EXPECT_EQ(OStream.str(), "\xcc\x80"); } TEST_F(MsgPackWriter, TestWriteUInt8) { uint64_t u = 221; MPWriter.write(u); EXPECT_EQ(OStream.str(), "\xcc\xdd"); } TEST_F(MsgPackWriter, TestWriteUInt8Max) { uint64_t u = UINT8_MAX; MPWriter.write(u); EXPECT_EQ(OStream.str(), "\xcc\xff"); } TEST_F(MsgPackWriter, TestWriteUInt16Min) { uint64_t u = static_cast(UINT8_MAX) + 1; MPWriter.write(u); EXPECT_EQ(OStream.str(), std::string("\xcd\x01\x00", 3)); } TEST_F(MsgPackWriter, TestWriteUInt16) { uint64_t u = 43981; MPWriter.write(u); EXPECT_EQ(OStream.str(), "\xcd\xab\xcd"); } TEST_F(MsgPackWriter, TestWriteUInt16Max) { uint64_t u = UINT16_MAX; MPWriter.write(u); EXPECT_EQ(OStream.str(), "\xcd\xff\xff"); } TEST_F(MsgPackWriter, TestWriteUInt32Min) { uint64_t u = static_cast(UINT16_MAX) + 1; MPWriter.write(u); EXPECT_EQ(OStream.str(), std::string("\xce\x00\x01\x00\x00", 5)); } TEST_F(MsgPackWriter, TestWriteUInt32) { uint64_t u = 2882400186; MPWriter.write(u); EXPECT_EQ(OStream.str(), "\xce\xab\xcd\xef\xba"); } TEST_F(MsgPackWriter, TestWriteUInt32Max) { uint64_t u = UINT32_MAX; MPWriter.write(u); EXPECT_EQ(OStream.str(), "\xce\xff\xff\xff\xff"); } TEST_F(MsgPackWriter, TestWriteUInt64Min) { uint64_t u = static_cast(UINT32_MAX) + 1; MPWriter.write(u); EXPECT_EQ(OStream.str(), std::string("\xcf\x00\x00\x00\x01\x00\x00\x00\x00", 9)); } TEST_F(MsgPackWriter, TestWriteUInt64) { uint64_t u = 0x010203040506074a; MPWriter.write(u); EXPECT_EQ(OStream.str(), "\xcf\x01\x02\x03\x04\x05\x06\x07\x4a"); } TEST_F(MsgPackWriter, TestWriteUInt64Max) { uint64_t u = UINT64_MAX; MPWriter.write(u); EXPECT_EQ(OStream.str(), "\xcf\xff\xff\xff\xff\xff\xff\xff\xff"); } TEST_F(MsgPackWriter, TestWriteFixNegativeInt) { // Positive values will be written in a UInt form, so max FixNegativeInt is -1 // // FixNegativeInt form bitpattern starts with 111, so min FixNegativeInt // is 11100000 = -32 for (int64_t i = -1; i >= -32; --i) { Buffer.clear(); MPWriter.write(i); std::string Output = OStream.str(); EXPECT_EQ(Output.size(), 1u); EXPECT_EQ(static_cast(Output.data()[0]), static_cast(i)); } } TEST_F(MsgPackWriter, TestWriteInt8Max) { // See TestWriteFixNegativeInt for why -33 is the max non-fix Int8 int64_t i = -33; MPWriter.write(i); EXPECT_EQ(OStream.str(), "\xd0\xdf"); } TEST_F(MsgPackWriter, TestWriteInt8) { int64_t i = -40; MPWriter.write(i); EXPECT_EQ(OStream.str(), "\xd0\xd8"); } TEST_F(MsgPackWriter, TestWriteInt8Min) { int64_t i = INT8_MIN; MPWriter.write(i); EXPECT_EQ(OStream.str(), "\xd0\x80"); } TEST_F(MsgPackWriter, TestWriteInt16Max) { int64_t i = static_cast(INT8_MIN) - 1; MPWriter.write(i); EXPECT_EQ(OStream.str(), "\xd1\xff\x7f"); } TEST_F(MsgPackWriter, TestWriteInt16) { int64_t i = -4369; MPWriter.write(i); EXPECT_EQ(OStream.str(), "\xd1\xee\xef"); } TEST_F(MsgPackWriter, TestWriteInt16Min) { int64_t i = INT16_MIN; MPWriter.write(i); EXPECT_EQ(OStream.str(), std::string("\xd1\x80\x00", 3)); } TEST_F(MsgPackWriter, TestWriteInt32Max) { int64_t i = static_cast(INT16_MIN) - 1; MPWriter.write(i); EXPECT_EQ(OStream.str(), "\xd2\xff\xff\x7f\xff"); } TEST_F(MsgPackWriter, TestWriteInt32) { int64_t i = -286331153; MPWriter.write(i); EXPECT_EQ(OStream.str(), "\xd2\xee\xee\xee\xef"); } TEST_F(MsgPackWriter, TestWriteInt32Min) { int64_t i = INT32_MIN; MPWriter.write(i); EXPECT_EQ(OStream.str(), std::string("\xd2\x80\x00\x00\x00", 5)); } TEST_F(MsgPackWriter, TestWriteInt64Max) { int64_t i = static_cast(INT32_MIN) - 1; MPWriter.write(i); EXPECT_EQ(OStream.str(), "\xd3\xff\xff\xff\xff\x7f\xff\xff\xff"); } TEST_F(MsgPackWriter, TestWriteInt64) { int64_t i = -1229782938247303441; MPWriter.write(i); EXPECT_EQ(OStream.str(), "\xd3\xee\xee\xee\xee\xee\xee\xee\xef"); } TEST_F(MsgPackWriter, TestWriteInt64Min) { int64_t i = INT64_MIN; MPWriter.write(i); EXPECT_EQ(OStream.str(), std::string("\xd3\x80\x00\x00\x00\x00\x00\x00\x00", 9)); } TEST_F(MsgPackWriter, TestWriteFloat32) { float f = -3.6973142664068907e+28; MPWriter.write(f); EXPECT_EQ(OStream.str(), "\xca\xee\xee\xee\xef"); } TEST_F(MsgPackWriter, TestWriteFloat64) { double d = -2.2899894549927042e+226; MPWriter.write(d); EXPECT_EQ(OStream.str(), "\xcb\xee\xee\xee\xee\xee\xee\xee\xef"); } TEST_F(MsgPackWriter, TestWriteFixStrMin) { std::string s; MPWriter.write(s); EXPECT_EQ(OStream.str(), "\xa0"); } TEST_F(MsgPackWriter, TestWriteFixStr) { std::string s = "foo"; MPWriter.write(s); EXPECT_EQ(OStream.str(), "\xa3" "foo"); } TEST_F(MsgPackWriter, TestWriteFixStrMax) { // FixStr format's size is a 5 bit unsigned integer, so max is 11111 = 31 std::string s(31, 'a'); MPWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xbf") + s); } TEST_F(MsgPackWriter, TestWriteStr8Min) { // See TestWriteFixStrMax for why 32 is the min non-fix Str8 std::string s(32, 'a'); MPWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xd9\x20") + s); } TEST_F(MsgPackWriter, TestWriteStr8) { std::string s(33, 'a'); MPWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xd9\x21") + s); } TEST_F(MsgPackWriter, TestWriteStr8Max) { std::string s(UINT8_MAX, 'a'); MPWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xd9\xff") + s); } TEST_F(MsgPackWriter, TestWriteStr16Min) { std::string s(static_cast(UINT8_MAX) + 1, 'a'); MPWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xda\x01\x00", 3) + s); } TEST_F(MsgPackWriter, TestWriteStr16) { std::string s(511, 'a'); MPWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xda\x01\xff") + s); } TEST_F(MsgPackWriter, TestWriteStr16Max) { std::string s(UINT16_MAX, 'a'); MPWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xda\xff\xff") + s); } TEST_F(MsgPackWriter, TestWriteStr32Min) { std::string s(static_cast(UINT16_MAX) + 1, 'a'); MPWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xdb\x00\x01\x00\x00", 5) + s); } TEST_F(MsgPackWriter, TestWriteStr32) { std::string s(131071, 'a'); MPWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xdb\x00\x01\xff\xff", 5) + s); } TEST_F(MsgPackWriter, TestWriteBin8Min) { std::string s; MPWriter.write(MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc4\x00", 2) + s); } TEST_F(MsgPackWriter, TestWriteBin8) { std::string s(5, 'a'); MPWriter.write(MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc4\x05") + s); } TEST_F(MsgPackWriter, TestWriteBin8Max) { std::string s(UINT8_MAX, 'a'); MPWriter.write(MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc4\xff") + s); } TEST_F(MsgPackWriter, TestWriteBin16Min) { std::string s(static_cast(UINT8_MAX) + 1, 'a'); MPWriter.write(MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc5\x01\x00", 3) + s); } TEST_F(MsgPackWriter, TestWriteBin16) { std::string s(511, 'a'); MPWriter.write(MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), "\xc5\x01\xff" + s); } TEST_F(MsgPackWriter, TestWriteBin16Max) { std::string s(UINT16_MAX, 'a'); MPWriter.write(MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc5\xff\xff") + s); } TEST_F(MsgPackWriter, TestWriteBin32Min) { std::string s(static_cast(UINT16_MAX) + 1, 'a'); MPWriter.write(MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc6\x00\x01\x00\x00", 5) + s); } TEST_F(MsgPackWriter, TestWriteBin32) { std::string s(131071, 'a'); MPWriter.write(MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc6\x00\x01\xff\xff", 5) + s); } TEST_F(MsgPackWriter, TestWriteFixArrayMin) { MPWriter.writeArraySize(0); EXPECT_EQ(OStream.str(), "\x90"); } TEST_F(MsgPackWriter, TestWriteFixArray) { MPWriter.writeArraySize(4); EXPECT_EQ(OStream.str(), "\x94"); } TEST_F(MsgPackWriter, TestWriteFixArrayMax) { // FixArray format's size is a 4 bit unsigned integer, so max is 1111 = 15 MPWriter.writeArraySize(15); EXPECT_EQ(OStream.str(), "\x9f"); } TEST_F(MsgPackWriter, TestWriteArray16Min) { // See TestWriteFixArrayMax for why 16 is the min non-fix Array16 MPWriter.writeArraySize(16); EXPECT_EQ(OStream.str(), std::string("\xdc\x00\x10", 3)); } TEST_F(MsgPackWriter, TestWriteArray16) { MPWriter.writeArraySize(273); EXPECT_EQ(OStream.str(), "\xdc\x01\x11"); } TEST_F(MsgPackWriter, TestWriteArray16Max) { MPWriter.writeArraySize(UINT16_MAX); EXPECT_EQ(OStream.str(), "\xdc\xff\xff"); } TEST_F(MsgPackWriter, TestWriteArray32Min) { MPWriter.writeArraySize(static_cast(UINT16_MAX) + 1); EXPECT_EQ(OStream.str(), std::string("\xdd\x00\x01\x00\x00", 5)); } TEST_F(MsgPackWriter, TestWriteArray32) { MPWriter.writeArraySize(131071); EXPECT_EQ(OStream.str(), std::string("\xdd\x00\x01\xff\xff", 5)); } TEST_F(MsgPackWriter, TestWriteArray32Max) { MPWriter.writeArraySize(UINT32_MAX); EXPECT_EQ(OStream.str(), "\xdd\xff\xff\xff\xff"); } TEST_F(MsgPackWriter, TestWriteFixMapMin) { MPWriter.writeMapSize(0); EXPECT_EQ(OStream.str(), "\x80"); } TEST_F(MsgPackWriter, TestWriteFixMap) { MPWriter.writeMapSize(4); EXPECT_EQ(OStream.str(), "\x84"); } TEST_F(MsgPackWriter, TestWriteFixMapMax) { // FixMap format's size is a 4 bit unsigned integer, so max is 1111 = 15 MPWriter.writeMapSize(15); EXPECT_EQ(OStream.str(), "\x8f"); } TEST_F(MsgPackWriter, TestWriteMap16Min) { // See TestWriteFixMapMax for why 16 is the min non-fix Map16 MPWriter.writeMapSize(16); EXPECT_EQ(OStream.str(), std::string("\xde\x00\x10", 3)); } TEST_F(MsgPackWriter, TestWriteMap16) { MPWriter.writeMapSize(273); EXPECT_EQ(OStream.str(), "\xde\x01\x11"); } TEST_F(MsgPackWriter, TestWriteMap16Max) { MPWriter.writeMapSize(UINT16_MAX); EXPECT_EQ(OStream.str(), "\xde\xff\xff"); } TEST_F(MsgPackWriter, TestWriteMap32Min) { MPWriter.writeMapSize(static_cast(UINT16_MAX) + 1); EXPECT_EQ(OStream.str(), std::string("\xdf\x00\x01\x00\x00", 5)); } TEST_F(MsgPackWriter, TestWriteMap32) { MPWriter.writeMapSize(131071); EXPECT_EQ(OStream.str(), std::string("\xdf\x00\x01\xff\xff", 5)); } TEST_F(MsgPackWriter, TestWriteMap32Max) { MPWriter.writeMapSize(UINT32_MAX); EXPECT_EQ(OStream.str(), std::string("\xdf\xff\xff\xff\xff", 5)); } // FixExt formats are only available for these specific lengths: 1, 2, 4, 8, 16 TEST_F(MsgPackWriter, TestWriteFixExt1) { std::string s(1, 'a'); MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xd4\x01") + s); } TEST_F(MsgPackWriter, TestWriteFixExt2) { std::string s(2, 'a'); MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xd5\x01") + s); } TEST_F(MsgPackWriter, TestWriteFixExt4) { std::string s(4, 'a'); MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xd6\x01") + s); } TEST_F(MsgPackWriter, TestWriteFixExt8) { std::string s(8, 'a'); MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xd7\x01") + s); } TEST_F(MsgPackWriter, TestWriteFixExt16) { std::string s(16, 'a'); MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xd8\x01") + s); } TEST_F(MsgPackWriter, TestWriteExt8Min) { std::string s; MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc7\x00\x01", 3) + s); } TEST_F(MsgPackWriter, TestWriteExt8) { std::string s(0x2a, 'a'); MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc7\x2a\x01") + s); } TEST_F(MsgPackWriter, TestWriteExt8Max) { std::string s(UINT8_MAX, 'a'); MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc7\xff\x01") + s); } TEST_F(MsgPackWriter, TestWriteExt16Min) { std::string s(static_cast(UINT8_MAX) + 1, 'a'); MPWriter.writeExt(0x02, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc8\x01\x00\x02", 4) + s); } TEST_F(MsgPackWriter, TestWriteExt16) { std::string s(273, 'a'); MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc8\x01\x11\x01") + s); } TEST_F(MsgPackWriter, TestWriteExt16Max) { std::string s(UINT16_MAX, 'a'); MPWriter.writeExt(0x01, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc8\xff\xff\x01") + s); } TEST_F(MsgPackWriter, TestWriteExt32Min) { std::string s(static_cast(UINT16_MAX) + 1, 'a'); MPWriter.writeExt(0x02, MemoryBufferRef(s, "")); EXPECT_EQ(OStream.str(), std::string("\xc9\x00\x01\x00\x00\x02", 6) + s); } TEST_F(MsgPackWriter, TestWriteCompatibleNoStr8) { Writer CompatWriter(OStream, true); std::string s(32, 'a'); CompatWriter.write(s); EXPECT_EQ(OStream.str(), std::string("\xda\x00\x20", 3) + s); } TEST_F(MsgPackWriter, TestWriteCompatibleNoBin) { Writer CompatWriter(OStream, true); std::string s; #ifdef GTEST_HAS_DEATH_TEST #ifndef NDEBUG EXPECT_DEATH(CompatWriter.write(MemoryBufferRef(s, "")), "compatible mode"); #endif #endif }