src/third_party/llvm-project/lld/ELF/ScriptLexer.cpp - cobalt - Git at Google

 //===- ScriptLexer.cpp ----------------------------------------------------===//
 //
 //                             The LLVM Linker
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file defines a lexer for the linker script.
 //
 // The linker script's grammar is not complex but ambiguous due to the
 // lack of the formal specification of the language. What we are trying to
 // do in this and other files in LLD is to make a "reasonable" linker
 // script processor.
 //
 // Among simplicity, compatibility and efficiency, we put the most
 // emphasis on simplicity when we wrote this lexer. Compatibility with the
 // GNU linkers is important, but we did not try to clone every tiny corner
 // case of their lexers, as even ld.bfd and ld.gold are subtly different
 // in various corner cases. We do not care much about efficiency because
 // the time spent in parsing linker scripts is usually negligible.
 //
 // Our grammar of the linker script is LL(2), meaning that it needs at
 // most two-token lookahead to parse. The only place we need two-token
 // lookahead is labels in version scripts, where we need to parse "local :"
 // as if "local:".
 //
 // Overall, this lexer works fine for most linker scripts. There might
 // be room for improving compatibility, but that's probably not at the
 // top of our todo list.
 //
 //===----------------------------------------------------------------------===//

 #include "ScriptLexer.h"
 #include "lld/Common/ErrorHandler.h"
 #include "llvm/ADT/Twine.h"

 using namespace llvm;
 using namespace lld;
 using namespace lld::elf;

 // Returns a whole line containing the current token.
 StringRef ScriptLexer::getLine() {
   StringRef S = getCurrentMB().getBuffer();
   StringRef Tok = Tokens[Pos - 1];

   size_t Pos = S.rfind('\n', Tok.data() - S.data());
   if (Pos != StringRef::npos)
     S = S.substr(Pos + 1);
   return S.substr(0, S.find_first_of("\r\n"));
 }

 // Returns 1-based line number of the current token.
 size_t ScriptLexer::getLineNumber() {
   StringRef S = getCurrentMB().getBuffer();
   StringRef Tok = Tokens[Pos - 1];
   return S.substr(0, Tok.data() - S.data()).count('\n') + 1;
 }

 // Returns 0-based column number of the current token.
 size_t ScriptLexer::getColumnNumber() {
   StringRef Tok = Tokens[Pos - 1];
   return Tok.data() - getLine().data();
 }

 std::string ScriptLexer::getCurrentLocation() {
   std::string Filename = getCurrentMB().getBufferIdentifier();
   return (Filename + ":" + Twine(getLineNumber())).str();
 }

 ScriptLexer::ScriptLexer(MemoryBufferRef MB) { tokenize(MB); }

 // We don't want to record cascading errors. Keep only the first one.
 void ScriptLexer::setError(const Twine &Msg) {
   if (errorCount())
     return;

   std::string S = (getCurrentLocation() + ": " + Msg).str();
   if (Pos)
     S += "\n>>> " + getLine().str() + "\n>>> " +
          std::string(getColumnNumber(), ' ') + "^";
   error(S);
 }

 // Split S into linker script tokens.
 void ScriptLexer::tokenize(MemoryBufferRef MB) {
   std::vector<StringRef> Vec;
   MBs.push_back(MB);
   StringRef S = MB.getBuffer();
   StringRef Begin = S;

   for (;;) {
     S = skipSpace(S);
     if (S.empty())
       break;

     // Quoted token. Note that double-quote characters are parts of a token
     // because, in a glob match context, only unquoted tokens are interpreted
     // as glob patterns. Double-quoted tokens are literal patterns in that
     // context.
     if (S.startswith("\"")) {
       size_t E = S.find("\"", 1);
       if (E == StringRef::npos) {
         StringRef Filename = MB.getBufferIdentifier();
         size_t Lineno = Begin.substr(0, S.data() - Begin.data()).count('\n');
         error(Filename + ":" + Twine(Lineno + 1) + ": unclosed quote");
         return;
       }

       Vec.push_back(S.take_front(E + 1));
       S = S.substr(E + 1);
       continue;
     }

     // ">foo" is parsed to ">" and "foo", but ">>" is parsed to ">>".
     // "|", "||", "&" and "&&" are different operators.
     if (S.startswith("<<") || S.startswith("<=") || S.startswith(">>") ||
         S.startswith(">=") || S.startswith("||") || S.startswith("&&")) {
       Vec.push_back(S.substr(0, 2));
       S = S.substr(2);
       continue;
     }

     // Unquoted token. This is more relaxed than tokens in C-like language,
     // so that you can write "file-name.cpp" as one bare token, for example.
     size_t Pos = S.find_first_not_of(
         "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"
         "0123456789_.$/\\~=+[]*?-!^:");

     // A character that cannot start a word (which is usually a
     // punctuation) forms a single character token.
     if (Pos == 0)
       Pos = 1;
     Vec.push_back(S.substr(0, Pos));
     S = S.substr(Pos);
   }

   Tokens.insert(Tokens.begin() + Pos, Vec.begin(), Vec.end());
 }

 // Skip leading whitespace characters or comments.
 StringRef ScriptLexer::skipSpace(StringRef S) {
   for (;;) {
     if (S.startswith("/*")) {
       size_t E = S.find("*/", 2);
       if (E == StringRef::npos) {
         error("unclosed comment in a linker script");
         return "";
       }
       S = S.substr(E + 2);
       continue;
     }
     if (S.startswith("#")) {
       size_t E = S.find('\n', 1);
       if (E == StringRef::npos)
         E = S.size() - 1;
       S = S.substr(E + 1);
       continue;
     }
     size_t Size = S.size();
     S = S.ltrim();
     if (S.size() == Size)
       return S;
   }
 }

 // An erroneous token is handled as if it were the last token before EOF.
 bool ScriptLexer::atEOF() { return errorCount() || Tokens.size() == Pos; }

 // Split a given string as an expression.
 // This function returns "3", "*" and "5" for "3*5" for example.
 static std::vector<StringRef> tokenizeExpr(StringRef S) {
   StringRef Ops = "+-*/:!~"; // List of operators

   // Quoted strings are literal strings, so we don't want to split it.
   if (S.startswith("\""))
     return {S};

   // Split S with operators as separators.
   std::vector<StringRef> Ret;
   while (!S.empty()) {
     size_t E = S.find_first_of(Ops);

     // No need to split if there is no operator.
     if (E == StringRef::npos) {
       Ret.push_back(S);
       break;
     }

     // Get a token before the opreator.
     if (E != 0)
       Ret.push_back(S.substr(0, E));

     // Get the operator as a token. Keep != as one token.
     if (S.substr(E).startswith("!=")) {
       Ret.push_back(S.substr(E, 2));
       S = S.substr(E + 2);
     } else {
       Ret.push_back(S.substr(E, 1));
       S = S.substr(E + 1);
     }
   }
   return Ret;
 }

 // In contexts where expressions are expected, the lexer should apply
 // different tokenization rules than the default one. By default,
 // arithmetic operator characters are regular characters, but in the
 // expression context, they should be independent tokens.
 //
 // For example, "foo*3" should be tokenized to "foo", "*" and "3" only
 // in the expression context.
 //
 // This function may split the current token into multiple tokens.
 void ScriptLexer::maybeSplitExpr() {
   if (!InExpr || errorCount() || atEOF())
     return;

   std::vector<StringRef> V = tokenizeExpr(Tokens[Pos]);
   if (V.size() == 1)
     return;
   Tokens.erase(Tokens.begin() + Pos);
   Tokens.insert(Tokens.begin() + Pos, V.begin(), V.end());
 }

 StringRef ScriptLexer::next() {
   maybeSplitExpr();

   if (errorCount())
     return "";
   if (atEOF()) {
     setError("unexpected EOF");
     return "";
   }
   return Tokens[Pos++];
 }

 StringRef ScriptLexer::peek() {
   StringRef Tok = next();
   if (errorCount())
     return "";
   Pos = Pos - 1;
   return Tok;
 }

 bool ScriptLexer::consume(StringRef Tok) {
   if (peek() == Tok) {
     skip();
     return true;
   }
   return false;
 }

 // Consumes Tok followed by ":". Space is allowed between Tok and ":".
 bool ScriptLexer::consumeLabel(StringRef Tok) {
   if (consume((Tok + ":").str()))
     return true;
   if (Tokens.size() >= Pos + 2 && Tokens[Pos] == Tok &&
       Tokens[Pos + 1] == ":") {
     Pos += 2;
     return true;
   }
   return false;
 }

 void ScriptLexer::skip() { (void)next(); }

 void ScriptLexer::expect(StringRef Expect) {
   if (errorCount())
     return;
   StringRef Tok = next();
   if (Tok != Expect)
     setError(Expect + " expected, but got " + Tok);
 }

 // Returns true if S encloses T.
 static bool encloses(StringRef S, StringRef T) {
   return S.bytes_begin() <= T.bytes_begin() && T.bytes_end() <= S.bytes_end();
 }

 MemoryBufferRef ScriptLexer::getCurrentMB() {
   // Find input buffer containing the current token.
   assert(!MBs.empty() && Pos > 0);
   for (MemoryBufferRef MB : MBs)
     if (encloses(MB.getBuffer(), Tokens[Pos - 1]))
       return MB;
   llvm_unreachable("getCurrentMB: failed to find a token");
 }
	//===- ScriptLexer.cpp ----------------------------------------------------===//
	//
	// The LLVM Linker
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines a lexer for the linker script.
	//
	// The linker script's grammar is not complex but ambiguous due to the
	// lack of the formal specification of the language. What we are trying to
	// do in this and other files in LLD is to make a "reasonable" linker
	// script processor.
	//
	// Among simplicity, compatibility and efficiency, we put the most
	// emphasis on simplicity when we wrote this lexer. Compatibility with the
	// GNU linkers is important, but we did not try to clone every tiny corner
	// case of their lexers, as even ld.bfd and ld.gold are subtly different
	// in various corner cases. We do not care much about efficiency because
	// the time spent in parsing linker scripts is usually negligible.
	//
	// Our grammar of the linker script is LL(2), meaning that it needs at
	// most two-token lookahead to parse. The only place we need two-token
	// lookahead is labels in version scripts, where we need to parse "local :"
	// as if "local:".
	//
	// Overall, this lexer works fine for most linker scripts. There might
	// be room for improving compatibility, but that's probably not at the
	// top of our todo list.
	//
	//===----------------------------------------------------------------------===//

	#include "ScriptLexer.h"
	#include "lld/Common/ErrorHandler.h"
	#include "llvm/ADT/Twine.h"

	using namespace llvm;
	using namespace lld;
	using namespace lld::elf;

	// Returns a whole line containing the current token.
	StringRef ScriptLexer::getLine() {
	StringRef S = getCurrentMB().getBuffer();
	StringRef Tok = Tokens[Pos - 1];

	size_t Pos = S.rfind('\n', Tok.data() - S.data());
	if (Pos != StringRef::npos)
	S = S.substr(Pos + 1);
	return S.substr(0, S.find_first_of("\r\n"));
	}

	// Returns 1-based line number of the current token.
	size_t ScriptLexer::getLineNumber() {
	StringRef S = getCurrentMB().getBuffer();
	StringRef Tok = Tokens[Pos - 1];
	return S.substr(0, Tok.data() - S.data()).count('\n') + 1;
	}

	// Returns 0-based column number of the current token.
	size_t ScriptLexer::getColumnNumber() {
	StringRef Tok = Tokens[Pos - 1];
	return Tok.data() - getLine().data();
	}

	std::string ScriptLexer::getCurrentLocation() {
	std::string Filename = getCurrentMB().getBufferIdentifier();
	return (Filename + ":" + Twine(getLineNumber())).str();
	}

	ScriptLexer::ScriptLexer(MemoryBufferRef MB) { tokenize(MB); }

	// We don't want to record cascading errors. Keep only the first one.
	void ScriptLexer::setError(const Twine &Msg) {
	if (errorCount())
	return;

	std::string S = (getCurrentLocation() + ": " + Msg).str();
	if (Pos)
	S += "\n>>> " + getLine().str() + "\n>>> " +
	std::string(getColumnNumber(), ' ') + "^";
	error(S);
	}

	// Split S into linker script tokens.
	void ScriptLexer::tokenize(MemoryBufferRef MB) {
	std::vector<StringRef> Vec;
	MBs.push_back(MB);
	StringRef S = MB.getBuffer();
	StringRef Begin = S;

	for (;;) {
	S = skipSpace(S);
	if (S.empty())
	break;

	// Quoted token. Note that double-quote characters are parts of a token
	// because, in a glob match context, only unquoted tokens are interpreted
	// as glob patterns. Double-quoted tokens are literal patterns in that
	// context.
	if (S.startswith("\"")) {
	size_t E = S.find("\"", 1);
	if (E == StringRef::npos) {
	StringRef Filename = MB.getBufferIdentifier();
	size_t Lineno = Begin.substr(0, S.data() - Begin.data()).count('\n');
	error(Filename + ":" + Twine(Lineno + 1) + ": unclosed quote");
	return;
	}

	Vec.push_back(S.take_front(E + 1));
	S = S.substr(E + 1);
	continue;
	}

	// ">foo" is parsed to ">" and "foo", but ">>" is parsed to ">>".
	// "\|", "\|\|", "&" and "&&" are different operators.
	if (S.startswith("<<") \|\| S.startswith("<=") \|\| S.startswith(">>") \|\|
	S.startswith(">=") \|\| S.startswith("\|\|") \|\| S.startswith("&&")) {
	Vec.push_back(S.substr(0, 2));
	S = S.substr(2);
	continue;
	}

	// Unquoted token. This is more relaxed than tokens in C-like language,
	// so that you can write "file-name.cpp" as one bare token, for example.
	size_t Pos = S.find_first_not_of(
	"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"
	"0123456789_.$/\\~=+[]*?-!^:");

	// A character that cannot start a word (which is usually a
	// punctuation) forms a single character token.
	if (Pos == 0)
	Pos = 1;
	Vec.push_back(S.substr(0, Pos));
	S = S.substr(Pos);
	}

	Tokens.insert(Tokens.begin() + Pos, Vec.begin(), Vec.end());
	}

	// Skip leading whitespace characters or comments.
	StringRef ScriptLexer::skipSpace(StringRef S) {
	for (;;) {
	if (S.startswith("/*")) {
	size_t E = S.find("*/", 2);
	if (E == StringRef::npos) {
	error("unclosed comment in a linker script");
	return "";
	}
	S = S.substr(E + 2);
	continue;
	}
	if (S.startswith("#")) {
	size_t E = S.find('\n', 1);
	if (E == StringRef::npos)
	E = S.size() - 1;
	S = S.substr(E + 1);
	continue;
	}
	size_t Size = S.size();
	S = S.ltrim();
	if (S.size() == Size)
	return S;
	}
	}

	// An erroneous token is handled as if it were the last token before EOF.
	bool ScriptLexer::atEOF() { return errorCount() \|\| Tokens.size() == Pos; }

	// Split a given string as an expression.
	// This function returns "3", "" and "5" for "35" for example.
	static std::vector<StringRef> tokenizeExpr(StringRef S) {
	StringRef Ops = "+-*/:!~"; // List of operators

	// Quoted strings are literal strings, so we don't want to split it.
	if (S.startswith("\""))
	return {S};

	// Split S with operators as separators.
	std::vector<StringRef> Ret;
	while (!S.empty()) {
	size_t E = S.find_first_of(Ops);

	// No need to split if there is no operator.
	if (E == StringRef::npos) {
	Ret.push_back(S);
	break;
	}

	// Get a token before the opreator.
	if (E != 0)
	Ret.push_back(S.substr(0, E));

	// Get the operator as a token. Keep != as one token.
	if (S.substr(E).startswith("!=")) {
	Ret.push_back(S.substr(E, 2));
	S = S.substr(E + 2);
	} else {
	Ret.push_back(S.substr(E, 1));
	S = S.substr(E + 1);
	}
	}
	return Ret;
	}

	// In contexts where expressions are expected, the lexer should apply
	// different tokenization rules than the default one. By default,
	// arithmetic operator characters are regular characters, but in the
	// expression context, they should be independent tokens.
	//
	// For example, "foo3" should be tokenized to "foo", "" and "3" only
	// in the expression context.
	//
	// This function may split the current token into multiple tokens.
	void ScriptLexer::maybeSplitExpr() {
	if (!InExpr \|\| errorCount() \|\| atEOF())
	return;

	std::vector<StringRef> V = tokenizeExpr(Tokens[Pos]);
	if (V.size() == 1)
	return;
	Tokens.erase(Tokens.begin() + Pos);
	Tokens.insert(Tokens.begin() + Pos, V.begin(), V.end());
	}

	StringRef ScriptLexer::next() {
	maybeSplitExpr();

	if (errorCount())
	return "";
	if (atEOF()) {
	setError("unexpected EOF");
	return "";
	}
	return Tokens[Pos++];
	}

	StringRef ScriptLexer::peek() {
	StringRef Tok = next();
	if (errorCount())
	return "";
	Pos = Pos - 1;
	return Tok;
	}

	bool ScriptLexer::consume(StringRef Tok) {
	if (peek() == Tok) {
	skip();
	return true;
	}
	return false;
	}

	// Consumes Tok followed by ":". Space is allowed between Tok and ":".
	bool ScriptLexer::consumeLabel(StringRef Tok) {
	if (consume((Tok + ":").str()))
	return true;
	if (Tokens.size() >= Pos + 2 && Tokens[Pos] == Tok &&
	Tokens[Pos + 1] == ":") {
	Pos += 2;
	return true;
	}
	return false;
	}

	void ScriptLexer::skip() { (void)next(); }

	void ScriptLexer::expect(StringRef Expect) {
	if (errorCount())
	return;
	StringRef Tok = next();
	if (Tok != Expect)
	setError(Expect + " expected, but got " + Tok);
	}

	// Returns true if S encloses T.
	static bool encloses(StringRef S, StringRef T) {
	return S.bytes_begin() <= T.bytes_begin() && T.bytes_end() <= S.bytes_end();
	}

	MemoryBufferRef ScriptLexer::getCurrentMB() {
	// Find input buffer containing the current token.
	assert(!MBs.empty() && Pos > 0);
	for (MemoryBufferRef MB : MBs)
	if (encloses(MB.getBuffer(), Tokens[Pos - 1]))
	return MB;
	llvm_unreachable("getCurrentMB: failed to find a token");
	}