third_party/llvm-7.0/llvm/lib/Object/COFFModuleDefinition.cpp - SwiftShader - Git at Google

 //===--- COFFModuleDefinition.cpp - Simple DEF parser ---------------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // Windows-specific.
 // A parser for the module-definition file (.def file).
 //
 // The format of module-definition files are described in this document:
 // https://msdn.microsoft.com/en-us/library/28d6s79h.aspx
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/Object/COFFModuleDefinition.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/ADT/StringSwitch.h"
 #include "llvm/Object/COFF.h"
 #include "llvm/Object/COFFImportFile.h"
 #include "llvm/Object/Error.h"
 #include "llvm/Support/Error.h"
 #include "llvm/Support/Path.h"
 #include "llvm/Support/raw_ostream.h"

 using namespace llvm::COFF;
 using namespace llvm;

 namespace llvm {
 namespace object {

 enum Kind {
   Unknown,
   Eof,
   Identifier,
   Comma,
   Equal,
   EqualEqual,
   KwBase,
   KwConstant,
   KwData,
   KwExports,
   KwHeapsize,
   KwLibrary,
   KwName,
   KwNoname,
   KwPrivate,
   KwStacksize,
   KwVersion,
 };

 struct Token {
   explicit Token(Kind T = Unknown, StringRef S = "") : K(T), Value(S) {}
   Kind K;
   StringRef Value;
 };

 static bool isDecorated(StringRef Sym, bool MingwDef) {
   // In def files, the symbols can either be listed decorated or undecorated.
   //
   // - For cdecl symbols, only the undecorated form is allowed.
   // - For fastcall and vectorcall symbols, both fully decorated or
   //   undecorated forms can be present.
   // - For stdcall symbols in non-MinGW environments, the decorated form is
   //   fully decorated with leading underscore and trailing stack argument
   //   size - like "_Func@0".
   // - In MinGW def files, a decorated stdcall symbol does not include the
   //   leading underscore though, like "Func@0".

   // This function controls whether a leading underscore should be added to
   // the given symbol name or not. For MinGW, treat a stdcall symbol name such
   // as "Func@0" as undecorated, i.e. a leading underscore must be added.
   // For non-MinGW, look for '@' in the whole string and consider "_Func@0"
   // as decorated, i.e. don't add any more leading underscores.
   // We can't check for a leading underscore here, since function names
   // themselves can start with an underscore, while a second one still needs
   // to be added.
   return Sym.startswith("@") || Sym.contains("@@") || Sym.startswith("?") ||
          (!MingwDef && Sym.contains('@'));
 }

 static Error createError(const Twine &Err) {
   return make_error<StringError>(StringRef(Err.str()),
                                  object_error::parse_failed);
 }

 class Lexer {
 public:
   Lexer(StringRef S) : Buf(S) {}

   Token lex() {
     Buf = Buf.trim();
     if (Buf.empty())
       return Token(Eof);

     switch (Buf[0]) {
     case '\0':
       return Token(Eof);
     case ';': {
       size_t End = Buf.find('\n');
       Buf = (End == Buf.npos) ? "" : Buf.drop_front(End);
       return lex();
     }
     case '=':
       Buf = Buf.drop_front();
       if (Buf.startswith("=")) {
         Buf = Buf.drop_front();
         return Token(EqualEqual, "==");
       }
       return Token(Equal, "=");
     case ',':
       Buf = Buf.drop_front();
       return Token(Comma, ",");
     case '"': {
       StringRef S;
       std::tie(S, Buf) = Buf.substr(1).split('"');
       return Token(Identifier, S);
     }
     default: {
       size_t End = Buf.find_first_of("=,;\r\n \t\v");
       StringRef Word = Buf.substr(0, End);
       Kind K = llvm::StringSwitch<Kind>(Word)
                    .Case("BASE", KwBase)
                    .Case("CONSTANT", KwConstant)
                    .Case("DATA", KwData)
                    .Case("EXPORTS", KwExports)
                    .Case("HEAPSIZE", KwHeapsize)
                    .Case("LIBRARY", KwLibrary)
                    .Case("NAME", KwName)
                    .Case("NONAME", KwNoname)
                    .Case("PRIVATE", KwPrivate)
                    .Case("STACKSIZE", KwStacksize)
                    .Case("VERSION", KwVersion)
                    .Default(Identifier);
       Buf = (End == Buf.npos) ? "" : Buf.drop_front(End);
       return Token(K, Word);
     }
     }
   }

 private:
   StringRef Buf;
 };

 class Parser {
 public:
   explicit Parser(StringRef S, MachineTypes M, bool B)
       : Lex(S), Machine(M), MingwDef(B) {}

   Expected<COFFModuleDefinition> parse() {
     do {
       if (Error Err = parseOne())
         return std::move(Err);
     } while (Tok.K != Eof);
     return Info;
   }

 private:
   void read() {
     if (Stack.empty()) {
       Tok = Lex.lex();
       return;
     }
     Tok = Stack.back();
     Stack.pop_back();
   }

   Error readAsInt(uint64_t *I) {
     read();
     if (Tok.K != Identifier || Tok.Value.getAsInteger(10, *I))
       return createError("integer expected");
     return Error::success();
   }

   Error expect(Kind Expected, StringRef Msg) {
     read();
     if (Tok.K != Expected)
       return createError(Msg);
     return Error::success();
   }

   void unget() { Stack.push_back(Tok); }

   Error parseOne() {
     read();
     switch (Tok.K) {
     case Eof:
       return Error::success();
     case KwExports:
       for (;;) {
         read();
         if (Tok.K != Identifier) {
           unget();
           return Error::success();
         }
         if (Error Err = parseExport())
           return Err;
       }
     case KwHeapsize:
       return parseNumbers(&Info.HeapReserve, &Info.HeapCommit);
     case KwStacksize:
       return parseNumbers(&Info.StackReserve, &Info.StackCommit);
     case KwLibrary:
     case KwName: {
       bool IsDll = Tok.K == KwLibrary; // Check before parseName.
       std::string Name;
       if (Error Err = parseName(&Name, &Info.ImageBase))
         return Err;

       Info.ImportName = Name;

       // Set the output file, but don't override /out if it was already passed.
       if (Info.OutputFile.empty()) {
         Info.OutputFile = Name;
         // Append the appropriate file extension if not already present.
         if (!sys::path::has_extension(Name))
           Info.OutputFile += IsDll ? ".dll" : ".exe";
       }

       return Error::success();
     }
     case KwVersion:
       return parseVersion(&Info.MajorImageVersion, &Info.MinorImageVersion);
     default:
       return createError("unknown directive: " + Tok.Value);
     }
   }

   Error parseExport() {
     COFFShortExport E;
     E.Name = Tok.Value;
     read();
     if (Tok.K == Equal) {
       read();
       if (Tok.K != Identifier)
         return createError("identifier expected, but got " + Tok.Value);
       E.ExtName = E.Name;
       E.Name = Tok.Value;
     } else {
       unget();
     }

     if (Machine == IMAGE_FILE_MACHINE_I386) {
       if (!isDecorated(E.Name, MingwDef))
         E.Name = (std::string("_").append(E.Name));
       if (!E.ExtName.empty() && !isDecorated(E.ExtName, MingwDef))
         E.ExtName = (std::string("_").append(E.ExtName));
     }

     for (;;) {
       read();
       if (Tok.K == Identifier && Tok.Value[0] == '@') {
         if (Tok.Value == "@") {
           // "foo @ 10"
           read();
           Tok.Value.getAsInteger(10, E.Ordinal);
         } else if (Tok.Value.drop_front().getAsInteger(10, E.Ordinal)) {
           // "foo \n @bar" - Not an ordinal modifier at all, but the next
           // export (fastcall decorated) - complete the current one.
           unget();
           Info.Exports.push_back(E);
           return Error::success();
         }
         // "foo @10"
         read();
         if (Tok.K == KwNoname) {
           E.Noname = true;
         } else {
           unget();
         }
         continue;
       }
       if (Tok.K == KwData) {
         E.Data = true;
         continue;
       }
       if (Tok.K == KwConstant) {
         E.Constant = true;
         continue;
       }
       if (Tok.K == KwPrivate) {
         E.Private = true;
         continue;
       }
       if (Tok.K == EqualEqual) {
         read();
         E.AliasTarget = Tok.Value;
         if (Machine == IMAGE_FILE_MACHINE_I386 && !isDecorated(E.AliasTarget, MingwDef))
           E.AliasTarget = std::string("_").append(E.AliasTarget);
         continue;
       }
       unget();
       Info.Exports.push_back(E);
       return Error::success();
     }
   }

   // HEAPSIZE/STACKSIZE reserve[,commit]
   Error parseNumbers(uint64_t *Reserve, uint64_t *Commit) {
     if (Error Err = readAsInt(Reserve))
       return Err;
     read();
     if (Tok.K != Comma) {
       unget();
       Commit = nullptr;
       return Error::success();
     }
     if (Error Err = readAsInt(Commit))
       return Err;
     return Error::success();
   }

   // NAME outputPath [BASE=address]
   Error parseName(std::string *Out, uint64_t *Baseaddr) {
     read();
     if (Tok.K == Identifier) {
       *Out = Tok.Value;
     } else {
       *Out = "";
       unget();
       return Error::success();
     }
     read();
     if (Tok.K == KwBase) {
       if (Error Err = expect(Equal, "'=' expected"))
         return Err;
       if (Error Err = readAsInt(Baseaddr))
         return Err;
     } else {
       unget();
       *Baseaddr = 0;
     }
     return Error::success();
   }

   // VERSION major[.minor]
   Error parseVersion(uint32_t *Major, uint32_t *Minor) {
     read();
     if (Tok.K != Identifier)
       return createError("identifier expected, but got " + Tok.Value);
     StringRef V1, V2;
     std::tie(V1, V2) = Tok.Value.split('.');
     if (V1.getAsInteger(10, *Major))
       return createError("integer expected, but got " + Tok.Value);
     if (V2.empty())
       *Minor = 0;
     else if (V2.getAsInteger(10, *Minor))
       return createError("integer expected, but got " + Tok.Value);
     return Error::success();
   }

   Lexer Lex;
   Token Tok;
   std::vector<Token> Stack;
   MachineTypes Machine;
   COFFModuleDefinition Info;
   bool MingwDef;
 };

 Expected<COFFModuleDefinition> parseCOFFModuleDefinition(MemoryBufferRef MB,
                                                          MachineTypes Machine,
                                                          bool MingwDef) {
   return Parser(MB.getBuffer(), Machine, MingwDef).parse();
 }

 } // namespace object
 } // namespace llvm
	//===--- COFFModuleDefinition.cpp - Simple DEF parser ---------------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// Windows-specific.
	// A parser for the module-definition file (.def file).
	//
	// The format of module-definition files are described in this document:
	// https://msdn.microsoft.com/en-us/library/28d6s79h.aspx
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/Object/COFFModuleDefinition.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/ADT/StringSwitch.h"
	#include "llvm/Object/COFF.h"
	#include "llvm/Object/COFFImportFile.h"
	#include "llvm/Object/Error.h"
	#include "llvm/Support/Error.h"
	#include "llvm/Support/Path.h"
	#include "llvm/Support/raw_ostream.h"

	using namespace llvm::COFF;
	using namespace llvm;

	namespace llvm {
	namespace object {

	enum Kind {
	Unknown,
	Eof,
	Identifier,
	Comma,
	Equal,
	EqualEqual,
	KwBase,
	KwConstant,
	KwData,
	KwExports,
	KwHeapsize,
	KwLibrary,
	KwName,
	KwNoname,
	KwPrivate,
	KwStacksize,
	KwVersion,
	};

	struct Token {
	explicit Token(Kind T = Unknown, StringRef S = "") : K(T), Value(S) {}
	Kind K;
	StringRef Value;
	};

	static bool isDecorated(StringRef Sym, bool MingwDef) {
	// In def files, the symbols can either be listed decorated or undecorated.
	//
	// - For cdecl symbols, only the undecorated form is allowed.
	// - For fastcall and vectorcall symbols, both fully decorated or
	// undecorated forms can be present.
	// - For stdcall symbols in non-MinGW environments, the decorated form is
	// fully decorated with leading underscore and trailing stack argument
	// size - like "_Func@0".
	// - In MinGW def files, a decorated stdcall symbol does not include the
	// leading underscore though, like "Func@0".

	// This function controls whether a leading underscore should be added to
	// the given symbol name or not. For MinGW, treat a stdcall symbol name such
	// as "Func@0" as undecorated, i.e. a leading underscore must be added.
	// For non-MinGW, look for '@' in the whole string and consider "_Func@0"
	// as decorated, i.e. don't add any more leading underscores.
	// We can't check for a leading underscore here, since function names
	// themselves can start with an underscore, while a second one still needs
	// to be added.
	return Sym.startswith("@") \|\| Sym.contains("@@") \|\| Sym.startswith("?") \|\|
	(!MingwDef && Sym.contains('@'));
	}

	static Error createError(const Twine &Err) {
	return make_error<StringError>(StringRef(Err.str()),
	object_error::parse_failed);
	}

	class Lexer {
	public:
	Lexer(StringRef S) : Buf(S) {}

	Token lex() {
	Buf = Buf.trim();
	if (Buf.empty())
	return Token(Eof);

	switch (Buf[0]) {
	case '\0':
	return Token(Eof);
	case ';': {
	size_t End = Buf.find('\n');
	Buf = (End == Buf.npos) ? "" : Buf.drop_front(End);
	return lex();
	}
	case '=':
	Buf = Buf.drop_front();
	if (Buf.startswith("=")) {
	Buf = Buf.drop_front();
	return Token(EqualEqual, "==");
	}
	return Token(Equal, "=");
	case ',':
	Buf = Buf.drop_front();
	return Token(Comma, ",");
	case '"': {
	StringRef S;
	std::tie(S, Buf) = Buf.substr(1).split('"');
	return Token(Identifier, S);
	}
	default: {
	size_t End = Buf.find_first_of("=,;\r\n \t\v");
	StringRef Word = Buf.substr(0, End);
	Kind K = llvm::StringSwitch<Kind>(Word)
	.Case("BASE", KwBase)
	.Case("CONSTANT", KwConstant)
	.Case("DATA", KwData)
	.Case("EXPORTS", KwExports)
	.Case("HEAPSIZE", KwHeapsize)
	.Case("LIBRARY", KwLibrary)
	.Case("NAME", KwName)
	.Case("NONAME", KwNoname)
	.Case("PRIVATE", KwPrivate)
	.Case("STACKSIZE", KwStacksize)
	.Case("VERSION", KwVersion)
	.Default(Identifier);
	Buf = (End == Buf.npos) ? "" : Buf.drop_front(End);
	return Token(K, Word);
	}
	}
	}

	private:
	StringRef Buf;
	};

	class Parser {
	public:
	explicit Parser(StringRef S, MachineTypes M, bool B)
	: Lex(S), Machine(M), MingwDef(B) {}

	Expected<COFFModuleDefinition> parse() {
	do {
	if (Error Err = parseOne())
	return std::move(Err);
	} while (Tok.K != Eof);
	return Info;
	}

	private:
	void read() {
	if (Stack.empty()) {
	Tok = Lex.lex();
	return;
	}
	Tok = Stack.back();
	Stack.pop_back();
	}

	Error readAsInt(uint64_t *I) {
	read();
	if (Tok.K != Identifier \|\| Tok.Value.getAsInteger(10, *I))
	return createError("integer expected");
	return Error::success();
	}

	Error expect(Kind Expected, StringRef Msg) {
	read();
	if (Tok.K != Expected)
	return createError(Msg);
	return Error::success();
	}

	void unget() { Stack.push_back(Tok); }

	Error parseOne() {
	read();
	switch (Tok.K) {
	case Eof:
	return Error::success();
	case KwExports:
	for (;;) {
	read();
	if (Tok.K != Identifier) {
	unget();
	return Error::success();
	}
	if (Error Err = parseExport())
	return Err;
	}
	case KwHeapsize:
	return parseNumbers(&Info.HeapReserve, &Info.HeapCommit);
	case KwStacksize:
	return parseNumbers(&Info.StackReserve, &Info.StackCommit);
	case KwLibrary:
	case KwName: {
	bool IsDll = Tok.K == KwLibrary; // Check before parseName.
	std::string Name;
	if (Error Err = parseName(&Name, &Info.ImageBase))
	return Err;

	Info.ImportName = Name;

	// Set the output file, but don't override /out if it was already passed.
	if (Info.OutputFile.empty()) {
	Info.OutputFile = Name;
	// Append the appropriate file extension if not already present.
	if (!sys::path::has_extension(Name))
	Info.OutputFile += IsDll ? ".dll" : ".exe";
	}

	return Error::success();
	}
	case KwVersion:
	return parseVersion(&Info.MajorImageVersion, &Info.MinorImageVersion);
	default:
	return createError("unknown directive: " + Tok.Value);
	}
	}

	Error parseExport() {
	COFFShortExport E;
	E.Name = Tok.Value;
	read();
	if (Tok.K == Equal) {
	read();
	if (Tok.K != Identifier)
	return createError("identifier expected, but got " + Tok.Value);
	E.ExtName = E.Name;
	E.Name = Tok.Value;
	} else {
	unget();
	}

	if (Machine == IMAGE_FILE_MACHINE_I386) {
	if (!isDecorated(E.Name, MingwDef))
	E.Name = (std::string("_").append(E.Name));
	if (!E.ExtName.empty() && !isDecorated(E.ExtName, MingwDef))
	E.ExtName = (std::string("_").append(E.ExtName));
	}

	for (;;) {
	read();
	if (Tok.K == Identifier && Tok.Value[0] == '@') {
	if (Tok.Value == "@") {
	// "foo @ 10"
	read();
	Tok.Value.getAsInteger(10, E.Ordinal);
	} else if (Tok.Value.drop_front().getAsInteger(10, E.Ordinal)) {
	// "foo \n @bar" - Not an ordinal modifier at all, but the next
	// export (fastcall decorated) - complete the current one.
	unget();
	Info.Exports.push_back(E);
	return Error::success();
	}
	// "foo @10"
	read();
	if (Tok.K == KwNoname) {
	E.Noname = true;
	} else {
	unget();
	}
	continue;
	}
	if (Tok.K == KwData) {
	E.Data = true;
	continue;
	}
	if (Tok.K == KwConstant) {
	E.Constant = true;
	continue;
	}
	if (Tok.K == KwPrivate) {
	E.Private = true;
	continue;
	}
	if (Tok.K == EqualEqual) {
	read();
	E.AliasTarget = Tok.Value;
	if (Machine == IMAGE_FILE_MACHINE_I386 && !isDecorated(E.AliasTarget, MingwDef))
	E.AliasTarget = std::string("_").append(E.AliasTarget);
	continue;
	}
	unget();
	Info.Exports.push_back(E);
	return Error::success();
	}
	}

	// HEAPSIZE/STACKSIZE reserve[,commit]
	Error parseNumbers(uint64_t Reserve, uint64_t Commit) {
	if (Error Err = readAsInt(Reserve))
	return Err;
	read();
	if (Tok.K != Comma) {
	unget();
	Commit = nullptr;
	return Error::success();
	}
	if (Error Err = readAsInt(Commit))
	return Err;
	return Error::success();
	}

	// NAME outputPath [BASE=address]
	Error parseName(std::string Out, uint64_t Baseaddr) {
	read();
	if (Tok.K == Identifier) {
	*Out = Tok.Value;
	} else {
	*Out = "";
	unget();
	return Error::success();
	}
	read();
	if (Tok.K == KwBase) {
	if (Error Err = expect(Equal, "'=' expected"))
	return Err;
	if (Error Err = readAsInt(Baseaddr))
	return Err;
	} else {
	unget();
	*Baseaddr = 0;
	}
	return Error::success();
	}

	// VERSION major[.minor]
	Error parseVersion(uint32_t Major, uint32_t Minor) {
	read();
	if (Tok.K != Identifier)
	return createError("identifier expected, but got " + Tok.Value);
	StringRef V1, V2;
	std::tie(V1, V2) = Tok.Value.split('.');
	if (V1.getAsInteger(10, *Major))
	return createError("integer expected, but got " + Tok.Value);
	if (V2.empty())
	*Minor = 0;
	else if (V2.getAsInteger(10, *Minor))
	return createError("integer expected, but got " + Tok.Value);
	return Error::success();
	}

	Lexer Lex;
	Token Tok;
	std::vector<Token> Stack;
	MachineTypes Machine;
	COFFModuleDefinition Info;
	bool MingwDef;
	};

	Expected<COFFModuleDefinition> parseCOFFModuleDefinition(MemoryBufferRef MB,
	MachineTypes Machine,
	bool MingwDef) {
	return Parser(MB.getBuffer(), Machine, MingwDef).parse();
	}

	} // namespace object
	} // namespace llvm