//===- lld/unittest/WinLinkDriverTest.cpp ---------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// /// /// \file /// \brief Windows link.exe driver tests. /// //===----------------------------------------------------------------------===// #include "DriverTest.h" #include "lld/ReaderWriter/PECOFFLinkingContext.h" #include "llvm/ADT/Optional.h" #include "llvm/Support/COFF.h" #include #include using namespace llvm; using namespace lld; namespace { class WinLinkParserTest : public ParserTest { protected: const LinkingContext *linkingContext() override { return &_context; } }; } TEST_F(WinLinkParserTest, Basic) { EXPECT_TRUE(parse("link.exe", "/subsystem:console", "/out:a.exe", "-entry:start", "a.obj", "b.obj", "c.obj", nullptr)); EXPECT_EQ(llvm::COFF::IMAGE_SUBSYSTEM_WINDOWS_CUI, _context.getSubsystem()); EXPECT_EQ(llvm::COFF::IMAGE_FILE_MACHINE_I386, _context.getMachineType()); EXPECT_EQ("a.exe", _context.outputPath()); EXPECT_EQ("start", _context.getEntrySymbolName()); EXPECT_EQ(5, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); EXPECT_EQ("b.obj", inputFile(1)); EXPECT_EQ("c.obj", inputFile(2)); EXPECT_TRUE(_context.getInputSearchPaths().empty()); // Unspecified flags will have default values. EXPECT_FALSE(_context.isDll()); EXPECT_EQ(6, _context.getMinOSVersion().majorVersion); EXPECT_EQ(0, _context.getMinOSVersion().minorVersion); EXPECT_EQ(0x400000U, _context.getBaseAddress()); EXPECT_EQ(1024 * 1024U, _context.getStackReserve()); EXPECT_EQ(4096U, _context.getStackCommit()); EXPECT_EQ(4096U, _context.getSectionDefaultAlignment()); EXPECT_FALSE(_context.allowRemainingUndefines()); EXPECT_TRUE(_context.isNxCompat()); EXPECT_FALSE(_context.getLargeAddressAware()); EXPECT_TRUE(_context.getAllowBind()); EXPECT_TRUE(_context.getAllowIsolation()); EXPECT_FALSE(_context.getSwapRunFromCD()); EXPECT_FALSE(_context.getSwapRunFromNet()); EXPECT_TRUE(_context.getBaseRelocationEnabled()); EXPECT_TRUE(_context.isTerminalServerAware()); EXPECT_TRUE(_context.getDynamicBaseEnabled()); EXPECT_TRUE(_context.getCreateManifest()); EXPECT_EQ("", _context.getManifestDependency()); EXPECT_FALSE(_context.getEmbedManifest()); EXPECT_EQ(1, _context.getManifestId()); EXPECT_TRUE(_context.getManifestUAC()); EXPECT_EQ("'asInvoker'", _context.getManifestLevel()); EXPECT_EQ("'false'", _context.getManifestUiAccess()); EXPECT_TRUE(_context.deadStrip()); EXPECT_FALSE(_context.logInputFiles()); } TEST_F(WinLinkParserTest, StartsWithHyphen) { EXPECT_TRUE( parse("link.exe", "-subsystem:console", "-out:a.exe", "a.obj", nullptr)); EXPECT_EQ(llvm::COFF::IMAGE_SUBSYSTEM_WINDOWS_CUI, _context.getSubsystem()); EXPECT_EQ("a.exe", _context.outputPath()); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); } TEST_F(WinLinkParserTest, UppercaseOption) { EXPECT_TRUE( parse("link.exe", "/SUBSYSTEM:CONSOLE", "/OUT:a.exe", "a.obj", nullptr)); EXPECT_EQ(llvm::COFF::IMAGE_SUBSYSTEM_WINDOWS_CUI, _context.getSubsystem()); EXPECT_EQ("a.exe", _context.outputPath()); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); } TEST_F(WinLinkParserTest, Mllvm) { EXPECT_TRUE(parse("link.exe", "/mllvm:-debug", "a.obj", nullptr)); const std::vector &options = _context.llvmOptions(); EXPECT_EQ(1U, options.size()); EXPECT_STREQ("-debug", options[0]); } TEST_F(WinLinkParserTest, NoInputFiles) { EXPECT_FALSE(parse("link.exe", nullptr)); EXPECT_EQ("No input files\n", errorMessage()); } // // Tests for implicit file extension interpolation. // TEST_F(WinLinkParserTest, NoFileExtension) { EXPECT_TRUE(parse("link.exe", "foo", "bar", nullptr)); EXPECT_EQ("foo.exe", _context.outputPath()); EXPECT_EQ(4, inputFileCount()); EXPECT_EQ("foo.obj", inputFile(0)); EXPECT_EQ("bar.obj", inputFile(1)); } TEST_F(WinLinkParserTest, NonStandardFileExtension) { EXPECT_TRUE(parse("link.exe", "foo.o", nullptr)); EXPECT_EQ("foo.exe", _context.outputPath()); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("foo.o", inputFile(0)); } TEST_F(WinLinkParserTest, Libpath) { EXPECT_TRUE( parse("link.exe", "/libpath:dir1", "/libpath:dir2", "a.obj", nullptr)); const std::vector &paths = _context.getInputSearchPaths(); EXPECT_EQ(2U, paths.size()); EXPECT_EQ("dir1", paths[0]); EXPECT_EQ("dir2", paths[1]); } // // Tests for input file order // TEST_F(WinLinkParserTest, InputOrder) { EXPECT_TRUE(parse("link.exe", "a.lib", "b.obj", "c.obj", "a.lib", "d.obj", nullptr)); EXPECT_EQ(5, inputFileCount()); EXPECT_EQ("b.obj", inputFile(0)); EXPECT_EQ("c.obj", inputFile(1)); EXPECT_EQ("d.obj", inputFile(2)); EXPECT_EQ("a.lib", inputFile(4, 0)); } // // Tests for command line options that take values. // TEST_F(WinLinkParserTest, AlternateName) { EXPECT_TRUE(parse("link.exe", "/alternatename:sym1=sym2", "a.out", nullptr)); EXPECT_EQ("sym1", _context.getAlternateName("sym2")); EXPECT_EQ("", _context.getAlternateName("foo")); } TEST_F(WinLinkParserTest, Export) { EXPECT_TRUE(parse("link.exe", "/export:foo", "a.out", nullptr)); const std::vector &exports = _context.getDllExports(); EXPECT_EQ(1U, exports.size()); EXPECT_EQ("_foo", exports[0].name); EXPECT_EQ(-1, exports[0].ordinal); EXPECT_FALSE(exports[0].noname); EXPECT_FALSE(exports[0].isData); } TEST_F(WinLinkParserTest, ExportWithOptions) { EXPECT_TRUE(parse("link.exe", "/export:foo,@8,noname,data", "/export:bar,@10,data", "a.out", nullptr)); const std::vector &exports = _context.getDllExports(); EXPECT_EQ(2U, exports.size()); EXPECT_EQ("_foo", exports[0].name); EXPECT_EQ(8, exports[0].ordinal); EXPECT_TRUE(exports[0].noname); EXPECT_TRUE(exports[0].isData); EXPECT_EQ("_bar", exports[1].name); EXPECT_EQ(10, exports[1].ordinal); EXPECT_FALSE(exports[1].noname); EXPECT_TRUE(exports[1].isData); } TEST_F(WinLinkParserTest, ExportDuplicateExports) { EXPECT_TRUE( parse("link.exe", "/export:foo", "/export:foo,@2", "a.out", nullptr)); const std::vector &exports = _context.getDllExports(); EXPECT_EQ(1U, exports.size()); EXPECT_EQ("_foo", exports[0].name); EXPECT_EQ(-1, exports[0].ordinal); } TEST_F(WinLinkParserTest, ExportDuplicateOrdinals) { EXPECT_FALSE( parse("link.exe", "/export:foo,@1", "/export:bar,@1", "a.out", nullptr)); } TEST_F(WinLinkParserTest, ExportInvalid1) { EXPECT_FALSE(parse("link.exe", "/export:foo,@0", "a.out", nullptr)); } TEST_F(WinLinkParserTest, ExportInvalid2) { EXPECT_FALSE(parse("link.exe", "/export:foo,@65536", "a.out", nullptr)); } TEST_F(WinLinkParserTest, MachineX86) { EXPECT_TRUE(parse("link.exe", "/machine:x86", "a.obj", nullptr)); EXPECT_EQ(llvm::COFF::IMAGE_FILE_MACHINE_I386, _context.getMachineType()); } TEST_F(WinLinkParserTest, MachineX64) { EXPECT_TRUE(parse("link.exe", "/machine:x64", "a.obj", nullptr)); EXPECT_EQ(llvm::COFF::IMAGE_FILE_MACHINE_AMD64, _context.getMachineType()); } TEST_F(WinLinkParserTest, MachineArm) { EXPECT_TRUE(parse("link.exe", "/machine:arm", "a.obj", nullptr)); EXPECT_EQ(llvm::COFF::IMAGE_FILE_MACHINE_ARMNT, _context.getMachineType()); } TEST_F(WinLinkParserTest, MachineUnknown) { EXPECT_FALSE(parse("link.exe", "/machine:nosucharch", "a.obj", nullptr)); EXPECT_EQ("error: unknown machine type: nosucharch\n", errorMessage()); } TEST_F(WinLinkParserTest, MajorImageVersion) { EXPECT_TRUE(parse("link.exe", "/version:7", "foo.o", nullptr)); EXPECT_EQ(7, _context.getImageVersion().majorVersion); EXPECT_EQ(0, _context.getImageVersion().minorVersion); } TEST_F(WinLinkParserTest, MajorMinorImageVersion) { EXPECT_TRUE(parse("link.exe", "/version:72.35", "foo.o", nullptr)); EXPECT_EQ(72, _context.getImageVersion().majorVersion); EXPECT_EQ(35, _context.getImageVersion().minorVersion); } TEST_F(WinLinkParserTest, MinMajorOSVersion) { EXPECT_TRUE(parse("link.exe", "/subsystem:windows,3", "foo.o", nullptr)); EXPECT_EQ(llvm::COFF::IMAGE_SUBSYSTEM_WINDOWS_GUI, _context.getSubsystem()); EXPECT_EQ(3, _context.getMinOSVersion().majorVersion); EXPECT_EQ(0, _context.getMinOSVersion().minorVersion); } TEST_F(WinLinkParserTest, MinMajorMinorOSVersion) { EXPECT_TRUE(parse("link.exe", "/subsystem:windows,3.1", "foo.o", nullptr)); EXPECT_EQ(llvm::COFF::IMAGE_SUBSYSTEM_WINDOWS_GUI, _context.getSubsystem()); EXPECT_EQ(3, _context.getMinOSVersion().majorVersion); EXPECT_EQ(1, _context.getMinOSVersion().minorVersion); } TEST_F(WinLinkParserTest, Base) { EXPECT_TRUE(parse("link.exe", "/base:8388608", "a.obj", nullptr)); EXPECT_EQ(0x800000U, _context.getBaseAddress()); } TEST_F(WinLinkParserTest, InvalidBase) { EXPECT_FALSE(parse("link.exe", "/base:1234", "a.obj", nullptr)); EXPECT_TRUE(StringRef(errorMessage()) .startswith("Base address have to be multiple of 64K")); } TEST_F(WinLinkParserTest, StackReserve) { EXPECT_TRUE(parse("link.exe", "/stack:8192", "a.obj", nullptr)); EXPECT_EQ(8192U, _context.getStackReserve()); EXPECT_EQ(4096U, _context.getStackCommit()); } TEST_F(WinLinkParserTest, StackReserveAndCommit) { EXPECT_TRUE(parse("link.exe", "/stack:16384,8192", "a.obj", nullptr)); EXPECT_EQ(16384U, _context.getStackReserve()); EXPECT_EQ(8192U, _context.getStackCommit()); } TEST_F(WinLinkParserTest, InvalidStackSize) { EXPECT_FALSE(parse("link.exe", "/stack:8192,16384", "a.obj", nullptr)); EXPECT_TRUE(StringRef(errorMessage()).startswith("Invalid stack size")); } TEST_F(WinLinkParserTest, HeapReserve) { EXPECT_TRUE(parse("link.exe", "/heap:8192", "a.obj", nullptr)); EXPECT_EQ(8192U, _context.getHeapReserve()); EXPECT_EQ(4096U, _context.getHeapCommit()); } TEST_F(WinLinkParserTest, HeapReserveAndCommit) { EXPECT_TRUE(parse("link.exe", "/heap:16384,8192", "a.obj", nullptr)); EXPECT_EQ(16384U, _context.getHeapReserve()); EXPECT_EQ(8192U, _context.getHeapCommit()); } TEST_F(WinLinkParserTest, InvalidHeapSize) { EXPECT_FALSE(parse("link.exe", "/heap:8192,16384", "a.obj", nullptr)); EXPECT_TRUE(StringRef(errorMessage()).startswith("Invalid heap size")); } TEST_F(WinLinkParserTest, SectionAlignment) { EXPECT_TRUE(parse("link.exe", "/align:8192", "a.obj", nullptr)); EXPECT_EQ(8192U, _context.getSectionDefaultAlignment()); } TEST_F(WinLinkParserTest, InvalidAlignment) { EXPECT_FALSE(parse("link.exe", "/align:1000", "a.obj", nullptr)); EXPECT_EQ("Section alignment must be a power of 2, but got 1000\n", errorMessage()); } TEST_F(WinLinkParserTest, Include) { EXPECT_TRUE(parse("link.exe", "/include:foo", "a.out", nullptr)); auto symbols = _context.initialUndefinedSymbols(); EXPECT_FALSE(symbols.empty()); EXPECT_EQ("foo", symbols[0]); } TEST_F(WinLinkParserTest, Merge) { EXPECT_TRUE(parse("link.exe", "/merge:.foo=.bar", "/merge:.bar=.baz", "a.out", nullptr)); EXPECT_EQ(".baz", _context.getOutputSectionName(".foo")); EXPECT_EQ(".baz", _context.getOutputSectionName(".bar")); EXPECT_EQ(".abc", _context.getOutputSectionName(".abc")); } TEST_F(WinLinkParserTest, Merge_Circular) { EXPECT_FALSE(parse("link.exe", "/merge:.foo=.bar", "/merge:.bar=.foo", "a.out", nullptr)); } TEST_F(WinLinkParserTest, Implib) { EXPECT_TRUE(parse("link.exe", "/implib:foo.dll.lib", "a.out", nullptr)); EXPECT_EQ("foo.dll.lib", _context.getOutputImportLibraryPath()); } TEST_F(WinLinkParserTest, ImplibDefault) { EXPECT_TRUE(parse("link.exe", "/out:foobar.dll", "a.out", nullptr)); EXPECT_EQ("foobar.lib", _context.getOutputImportLibraryPath()); } // // Tests for /section // namespace { const uint32_t discardable = llvm::COFF::IMAGE_SCN_MEM_DISCARDABLE; const uint32_t not_cached = llvm::COFF::IMAGE_SCN_MEM_NOT_CACHED; const uint32_t not_paged = llvm::COFF::IMAGE_SCN_MEM_NOT_PAGED; const uint32_t shared = llvm::COFF::IMAGE_SCN_MEM_SHARED; const uint32_t execute = llvm::COFF::IMAGE_SCN_MEM_EXECUTE; const uint32_t read = llvm::COFF::IMAGE_SCN_MEM_READ; const uint32_t write = llvm::COFF::IMAGE_SCN_MEM_WRITE; #define TEST_SECTION(testname, arg, expect) \ TEST_F(WinLinkParserTest, testname) { \ EXPECT_TRUE(parse("link.exe", "/section:.text," arg, "a.obj", nullptr)); \ EXPECT_EQ(expect, _context.getSectionAttributes(".text", execute | read)); \ } TEST_SECTION(SectionD, "d", execute | read | discardable) TEST_SECTION(SectionE, "e", execute) TEST_SECTION(SectionK, "k", execute | read | not_cached) TEST_SECTION(SectionP, "p", execute | read | not_paged) TEST_SECTION(SectionR, "r", read) TEST_SECTION(SectionS, "s", execute | read | shared) TEST_SECTION(SectionW, "w", write) #undef TEST_SECTION TEST_F(WinLinkParserTest, Section) { EXPECT_TRUE(parse("link.exe", "/section:.text,dekprsw", "/section:.text,!dekprsw", "a.obj", nullptr)); EXPECT_EQ(0U, _context.getSectionAttributes(".text", execute | read)); } TEST_F(WinLinkParserTest, SectionNegate) { EXPECT_TRUE(parse("link.exe", "/section:.text,!e", "a.obj", nullptr)); EXPECT_EQ(read, _context.getSectionAttributes(".text", execute | read)); } TEST_F(WinLinkParserTest, SectionMultiple) { EXPECT_TRUE(parse("link.exe", "/section:.foo,e", "/section:.foo,rw", "/section:.foo,!d", "a.obj", nullptr)); uint32_t flags = execute | read | not_paged | discardable; uint32_t expected = execute | read | write | not_paged; EXPECT_EQ(expected, _context.getSectionAttributes(".foo", flags)); } } // end anonymous namespace // // Tests for /defaultlib and /nodefaultlib. // TEST_F(WinLinkParserTest, DefaultLib) { EXPECT_TRUE(parse("link.exe", "/defaultlib:user32.lib", "/defaultlib:kernel32", "a.obj", nullptr)); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); EXPECT_EQ("user32.lib", inputFile(2, 0)); EXPECT_EQ("kernel32.lib", inputFile(2, 1)); } TEST_F(WinLinkParserTest, DefaultLibDuplicates) { EXPECT_TRUE(parse("link.exe", "/defaultlib:user32.lib", "/defaultlib:user32.lib", "a.obj", nullptr)); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); EXPECT_EQ("user32.lib", inputFile(2, 0)); } TEST_F(WinLinkParserTest, NoDefaultLib) { EXPECT_TRUE(parse("link.exe", "/defaultlib:user32.lib", "/defaultlib:kernel32", "/nodefaultlib:user32.lib", "a.obj", nullptr)); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); EXPECT_EQ("kernel32.lib", inputFile(2, 0)); } TEST_F(WinLinkParserTest, NoDefaultLibCase) { EXPECT_TRUE(parse("link.exe", "/defaultlib:user32", "/defaultlib:kernel32", "/nodefaultlib:USER32.LIB", "a.obj", nullptr)); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); EXPECT_EQ("kernel32.lib", inputFile(2, 0)); } TEST_F(WinLinkParserTest, NoDefaultLibAll) { EXPECT_TRUE(parse("link.exe", "/defaultlib:user32.lib", "/defaultlib:kernel32", "/nodefaultlib", "a.obj", nullptr)); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); } TEST_F(WinLinkParserTest, DisallowLib) { EXPECT_TRUE(parse("link.exe", "/defaultlib:user32.lib", "/defaultlib:kernel32", "/disallowlib:user32.lib", "a.obj", nullptr)); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); EXPECT_EQ("kernel32.lib", inputFile(2, 0)); } // // Tests for DLL. // TEST_F(WinLinkParserTest, NoEntry) { EXPECT_TRUE(parse("link.exe", "/noentry", "/dll", "a.obj", nullptr)); EXPECT_TRUE(_context.isDll()); EXPECT_EQ(0x10000000U, _context.getBaseAddress()); EXPECT_EQ("", _context.entrySymbolName()); } TEST_F(WinLinkParserTest, NoEntryError) { // /noentry without /dll is an error. EXPECT_FALSE(parse("link.exe", "/noentry", "a.obj", nullptr)); EXPECT_EQ("/noentry must be specified with /dll\n", errorMessage()); } // // Tests for DELAYLOAD. // TEST_F(WinLinkParserTest, DelayLoad) { EXPECT_TRUE(parse("link.exe", "/delayload:abc.dll", "/delayload:def.dll", "a.obj", nullptr)); EXPECT_TRUE(_context.isDelayLoadDLL("abc.dll")); EXPECT_TRUE(_context.isDelayLoadDLL("DEF.DLL")); EXPECT_FALSE(_context.isDelayLoadDLL("xyz.dll")); } // // Tests for SEH. // TEST_F(WinLinkParserTest, SafeSEH) { EXPECT_TRUE(parse("link.exe", "/safeseh", "a.obj", nullptr)); EXPECT_TRUE(_context.requireSEH()); EXPECT_FALSE(_context.noSEH()); } TEST_F(WinLinkParserTest, NoSafeSEH) { EXPECT_TRUE(parse("link.exe", "/safeseh:no", "a.obj", nullptr)); EXPECT_FALSE(_context.requireSEH()); EXPECT_TRUE(_context.noSEH()); } // // Tests for boolean flags. // TEST_F(WinLinkParserTest, Force) { EXPECT_TRUE(parse("link.exe", "/force", "a.obj", nullptr)); EXPECT_TRUE(_context.allowRemainingUndefines()); } TEST_F(WinLinkParserTest, ForceUnresolved) { EXPECT_TRUE(parse("link.exe", "/force:unresolved", "a.obj", nullptr)); EXPECT_TRUE(_context.allowRemainingUndefines()); } TEST_F(WinLinkParserTest, NoNxCompat) { EXPECT_TRUE(parse("link.exe", "/nxcompat:no", "a.obj", nullptr)); EXPECT_FALSE(_context.isNxCompat()); } TEST_F(WinLinkParserTest, LargeAddressAware) { EXPECT_TRUE(parse("link.exe", "/largeaddressaware", "a.obj", nullptr)); EXPECT_TRUE(_context.getLargeAddressAware()); } TEST_F(WinLinkParserTest, NoLargeAddressAware) { EXPECT_TRUE(parse("link.exe", "/largeaddressaware:no", "a.obj", nullptr)); EXPECT_FALSE(_context.getLargeAddressAware()); } TEST_F(WinLinkParserTest, AllowBind) { EXPECT_TRUE(parse("link.exe", "/allowbind", "a.obj", nullptr)); EXPECT_TRUE(_context.getAllowBind()); } TEST_F(WinLinkParserTest, NoAllowBind) { EXPECT_TRUE(parse("link.exe", "/allowbind:no", "a.obj", nullptr)); EXPECT_FALSE(_context.getAllowBind()); } TEST_F(WinLinkParserTest, AllowIsolation) { EXPECT_TRUE(parse("link.exe", "/allowisolation", "a.obj", nullptr)); EXPECT_TRUE(_context.getAllowIsolation()); } TEST_F(WinLinkParserTest, NoAllowIsolation) { EXPECT_TRUE(parse("link.exe", "/allowisolation:no", "a.obj", nullptr)); EXPECT_FALSE(_context.getAllowIsolation()); } TEST_F(WinLinkParserTest, SwapRunFromCD) { EXPECT_TRUE(parse("link.exe", "/swaprun:cd", "a.obj", nullptr)); EXPECT_TRUE(_context.getSwapRunFromCD()); } TEST_F(WinLinkParserTest, SwapRunFromNet) { EXPECT_TRUE(parse("link.exe", "/swaprun:net", "a.obj", nullptr)); EXPECT_TRUE(_context.getSwapRunFromNet()); } TEST_F(WinLinkParserTest, Debug) { EXPECT_TRUE(parse("link.exe", "/debug", "a.out", nullptr)); EXPECT_FALSE(_context.deadStrip()); } TEST_F(WinLinkParserTest, Fixed) { EXPECT_TRUE(parse("link.exe", "/fixed", "a.out", nullptr)); EXPECT_FALSE(_context.getBaseRelocationEnabled()); EXPECT_FALSE(_context.getDynamicBaseEnabled()); } TEST_F(WinLinkParserTest, NoFixed) { EXPECT_TRUE(parse("link.exe", "/fixed:no", "a.out", nullptr)); EXPECT_TRUE(_context.getBaseRelocationEnabled()); } TEST_F(WinLinkParserTest, TerminalServerAware) { EXPECT_TRUE(parse("link.exe", "/tsaware", "a.out", nullptr)); EXPECT_TRUE(_context.isTerminalServerAware()); } TEST_F(WinLinkParserTest, NoTerminalServerAware) { EXPECT_TRUE(parse("link.exe", "/tsaware:no", "a.out", nullptr)); EXPECT_FALSE(_context.isTerminalServerAware()); } TEST_F(WinLinkParserTest, DynamicBase) { EXPECT_TRUE(parse("link.exe", "/dynamicbase", "a.out", nullptr)); EXPECT_TRUE(_context.getDynamicBaseEnabled()); } TEST_F(WinLinkParserTest, NoDynamicBase) { EXPECT_TRUE(parse("link.exe", "/dynamicbase:no", "a.out", nullptr)); EXPECT_FALSE(_context.getDynamicBaseEnabled()); } // // Test for /failifmismatch // TEST_F(WinLinkParserTest, FailIfMismatch_Match) { EXPECT_TRUE(parse("link.exe", "/failifmismatch:foo=bar", "/failifmismatch:foo=bar", "/failifmismatch:abc=def", "a.out", nullptr)); } TEST_F(WinLinkParserTest, FailIfMismatch_Mismatch) { EXPECT_FALSE(parse("link.exe", "/failifmismatch:foo=bar", "/failifmismatch:foo=baz", "a.out", nullptr)); } // // Tests for /manifest, /manifestuac, /manifestfile, and /manifestdependency. // TEST_F(WinLinkParserTest, Manifest_Default) { EXPECT_TRUE(parse("link.exe", "/manifest", "a.out", nullptr)); EXPECT_TRUE(_context.getCreateManifest()); EXPECT_FALSE(_context.getEmbedManifest()); EXPECT_EQ(1, _context.getManifestId()); EXPECT_EQ("'asInvoker'", _context.getManifestLevel()); EXPECT_EQ("'false'", _context.getManifestUiAccess()); } TEST_F(WinLinkParserTest, Manifest_No) { EXPECT_TRUE(parse("link.exe", "/manifest:no", "a.out", nullptr)); EXPECT_FALSE(_context.getCreateManifest()); } TEST_F(WinLinkParserTest, Manifestuac_no) { EXPECT_TRUE(parse("link.exe", "/manifestuac:NO", "a.out", nullptr)); EXPECT_FALSE(_context.getManifestUAC()); } TEST_F(WinLinkParserTest, Manifestuac_Level) { EXPECT_TRUE(parse("link.exe", "/manifestuac:level='requireAdministrator'", "a.out", nullptr)); EXPECT_EQ("'requireAdministrator'", _context.getManifestLevel()); EXPECT_EQ("'false'", _context.getManifestUiAccess()); } TEST_F(WinLinkParserTest, Manifestuac_UiAccess) { EXPECT_TRUE(parse("link.exe", "/manifestuac:uiAccess='true'", "a.out", nullptr)); EXPECT_EQ("'asInvoker'", _context.getManifestLevel()); EXPECT_EQ("'true'", _context.getManifestUiAccess()); } TEST_F(WinLinkParserTest, Manifestuac_LevelAndUiAccess) { EXPECT_TRUE(parse("link.exe", "/manifestuac:level='requireAdministrator' uiAccess='true'", "a.out", nullptr)); EXPECT_EQ("'requireAdministrator'", _context.getManifestLevel()); EXPECT_EQ("'true'", _context.getManifestUiAccess()); } TEST_F(WinLinkParserTest, Manifestfile) { EXPECT_TRUE(parse("link.exe", "/manifestfile:bar.manifest", "a.out", nullptr)); EXPECT_EQ("bar.manifest", _context.getManifestOutputPath()); } TEST_F(WinLinkParserTest, Manifestdependency) { EXPECT_TRUE(parse("link.exe", "/manifestdependency:foo bar", "a.out", nullptr)); EXPECT_EQ("foo bar", _context.getManifestDependency()); } // // Test for /OPT // TEST_F(WinLinkParserTest, OptNoRef) { EXPECT_TRUE(parse("link.exe", "/opt:noref", "a.obj", nullptr)); EXPECT_FALSE(_context.deadStrip()); } TEST_F(WinLinkParserTest, OptIgnore) { EXPECT_TRUE(parse("link.exe", "/opt:ref", "/opt:icf", "/opt:noicf", "/opt:icf=foo", "/opt:lbr", "/opt:nolbr", "a.obj", nullptr)); } TEST_F(WinLinkParserTest, OptUnknown) { EXPECT_FALSE(parse("link.exe", "/opt:foo", "a.obj", nullptr)); } // // Test for /PROFILE // TEST_F(WinLinkParserTest, Profile) { EXPECT_TRUE(parse("link.exe", "/profile", "a.obj", nullptr)); EXPECT_TRUE(_context.deadStrip()); EXPECT_TRUE(_context.getBaseRelocationEnabled()); EXPECT_TRUE(_context.getDynamicBaseEnabled()); } // // Test for command line flags that are ignored. // TEST_F(WinLinkParserTest, Ignore) { // There are some no-op command line options that are recognized for // compatibility with link.exe. EXPECT_TRUE(parse("link.exe", "/nologo", "/errorreport:prompt", "/incremental", "/incremental:no", "/delay:unload", "/disallowlib:foo", "/pdb:foo", "/pdbaltpath:bar", "/verbose", "/verbose:icf", "/wx", "/wx:no", "/tlbid:1", "/tlbout:foo", "/idlout:foo", "/ignore:4000", "/ignoreidl", "/implib:foo", "/safeseh", "/safeseh:no", "/functionpadmin", "a.obj", nullptr)); EXPECT_EQ("", errorMessage()); EXPECT_EQ(3, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); } // // Test for "--" // TEST_F(WinLinkParserTest, DashDash) { EXPECT_TRUE(parse("link.exe", "/subsystem:console", "/out:a.exe", "a.obj", "--", "b.obj", "-c.obj", nullptr)); EXPECT_EQ(llvm::COFF::IMAGE_SUBSYSTEM_WINDOWS_CUI, _context.getSubsystem()); EXPECT_EQ("a.exe", _context.outputPath()); EXPECT_EQ(5, inputFileCount()); EXPECT_EQ("a.obj", inputFile(0)); EXPECT_EQ("b.obj", inputFile(1)); EXPECT_EQ("-c.obj", inputFile(2)); }