//===- ScriptLexer.cpp ----------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // 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. // // 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" #include "llvm/Support/ErrorHandling.h" #include 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() { if (pos == 0) return 1; StringRef s = getCurrentMB().getBuffer(); StringRef tok = tokens[pos - 1]; const size_t tokOffset = tok.data() - s.data(); // For the first token, or when going backwards, start from the beginning of // the buffer. If this token is after the previous token, start from the // previous token. size_t line = 1; size_t start = 0; if (lastLineNumberOffset > 0 && tokOffset >= lastLineNumberOffset) { start = lastLineNumberOffset; line = lastLineNumber; } line += s.substr(start, tokOffset - start).count('\n'); // Store the line number of this token for reuse. lastLineNumberOffset = tokOffset; lastLineNumber = line; return line; } // 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 = std::string(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 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.starts_with("\"")) { 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; } // Some operators form separate tokens. if (s.starts_with("<<=") || s.starts_with(">>=")) { vec.push_back(s.substr(0, 3)); s = s.substr(3); continue; } if (s.size() > 1 && ((s[1] == '=' && strchr("*/+-<>&^|", s[0])) || (s[0] == s[1] && strchr("<>&|", s[0])))) { 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.starts_with("/*")) { size_t e = s.find("*/", 2); if (e == StringRef::npos) { setError("unclosed comment in a linker script"); return ""; } s = s.substr(e + 2); continue; } if (s.starts_with("#")) { 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 tokenizeExpr(StringRef s) { StringRef ops = "!~*/+-<>?^:="; // List of operators // Quoted strings are literal strings, so we don't want to split it. if (s.starts_with("\"")) return {s}; // Split S with operators as separators. std::vector 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 operator. if (e != 0) ret.push_back(s.substr(0, e)); // Get the operator as a token. // Keep !=, ==, >=, <=, << and >> operators as a single tokens. if (s.substr(e).starts_with("!=") || s.substr(e).starts_with("==") || s.substr(e).starts_with(">=") || s.substr(e).starts_with("<=") || s.substr(e).starts_with("<<") || s.substr(e).starts_with(">>")) { 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 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 (next() == tok) return true; --pos; 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()); if (pos == 0) return mbs.back(); for (MemoryBufferRef mb : mbs) if (encloses(mb.getBuffer(), tokens[pos - 1])) return mb; llvm_unreachable("getCurrentMB: failed to find a token"); }