зеркало из https://github.com/mozilla/gecko-dev.git
500 строки
18 KiB
C++
500 строки
18 KiB
C++
/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef CustomMatchers_h__
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#define CustomMatchers_h__
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#include "MemMoveAnnotation.h"
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#include "Utils.h"
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#if CLANG_VERSION_FULL >= 1300
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// Starting with clang-13 Expr::isRValue has been renamed to Expr::isPRValue
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#define isRValue isPRValue
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#endif
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namespace clang {
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namespace ast_matchers {
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/// This matcher will match any function declaration that is declared as a heap
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/// allocator.
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AST_MATCHER(FunctionDecl, heapAllocator) {
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return hasCustomAttribute<moz_heap_allocator>(&Node);
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}
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/// This matcher will match any declaration that is marked as not accepting
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/// arithmetic expressions in its arguments.
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AST_MATCHER(Decl, noArithmeticExprInArgs) {
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return hasCustomAttribute<moz_no_arith_expr_in_arg>(&Node);
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}
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/// This matcher will match any C++ class that is marked as having a trivial
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/// constructor and destructor.
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AST_MATCHER(CXXRecordDecl, hasTrivialCtorDtor) {
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return hasCustomAttribute<moz_trivial_ctor_dtor>(&Node);
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}
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/// This matcher will match any C++ class that is marked as having a trivial
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/// destructor.
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AST_MATCHER(CXXRecordDecl, hasTrivialDtor) {
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return hasCustomAttribute<moz_trivial_dtor>(&Node);
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}
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AST_MATCHER(CXXConstructExpr, allowsTemporary) {
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return hasCustomAttribute<moz_allow_temporary>(Node.getConstructor());
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}
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/// This matcher will match lvalue-ref-qualified methods.
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AST_MATCHER(CXXMethodDecl, isLValueRefQualified) {
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return Node.getRefQualifier() == RQ_LValue;
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}
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/// This matcher will match rvalue-ref-qualified methods.
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AST_MATCHER(CXXMethodDecl, isRValueRefQualified) {
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return Node.getRefQualifier() == RQ_RValue;
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}
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AST_POLYMORPHIC_MATCHER(isFirstParty,
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AST_POLYMORPHIC_SUPPORTED_TYPES(Decl, Stmt)) {
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return !inThirdPartyPath(&Node, &Finder->getASTContext()) &&
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!ASTIsInSystemHeader(Finder->getASTContext(), Node);
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}
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AST_MATCHER(DeclaratorDecl, isNotSpiderMonkey) {
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// Detect SpiderMonkey path. Not as strict as isFirstParty, but this is
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// expected to disappear soon by getting a common style guide between DOM and
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// SpiderMonkey.
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std::string Path = Node.getBeginLoc().printToString(
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Finder->getASTContext().getSourceManager());
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return Path.find("js") == std::string::npos &&
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Path.find("xpc") == std::string::npos &&
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Path.find("XPC") == std::string::npos;
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}
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/// This matcher will match temporary expressions.
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/// We need this matcher for compatibility with clang 3.* (clang 4 and above
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/// insert a MaterializeTemporaryExpr everywhere).
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AST_MATCHER(Expr, isTemporary) {
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return Node.isRValue() || Node.isXValue() ||
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isa<MaterializeTemporaryExpr>(&Node);
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}
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/// This matcher will match any method declaration that is marked as returning
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/// a pointer deleted by the destructor of the class.
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AST_MATCHER(CXXMethodDecl, noDanglingOnTemporaries) {
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return hasCustomAttribute<moz_no_dangling_on_temporaries>(&Node);
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}
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/// This matcher will match any function declaration that is marked to prohibit
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/// calling AddRef or Release on its return value.
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AST_MATCHER(FunctionDecl, hasNoAddRefReleaseOnReturnAttr) {
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return hasCustomAttribute<moz_no_addref_release_on_return>(&Node);
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}
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/// This matcher will match any function declaration that is marked as being
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/// allowed to run script.
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AST_MATCHER(FunctionDecl, hasCanRunScriptAnnotation) {
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return hasCustomAttribute<moz_can_run_script>(&Node);
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}
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/// This matcher will match all arithmetic binary operators.
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AST_MATCHER(BinaryOperator, binaryArithmeticOperator) {
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BinaryOperatorKind OpCode = Node.getOpcode();
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return OpCode == BO_Mul || OpCode == BO_Div || OpCode == BO_Rem ||
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OpCode == BO_Add || OpCode == BO_Sub || OpCode == BO_Shl ||
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OpCode == BO_Shr || OpCode == BO_And || OpCode == BO_Xor ||
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OpCode == BO_Or || OpCode == BO_MulAssign || OpCode == BO_DivAssign ||
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OpCode == BO_RemAssign || OpCode == BO_AddAssign ||
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OpCode == BO_SubAssign || OpCode == BO_ShlAssign ||
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OpCode == BO_ShrAssign || OpCode == BO_AndAssign ||
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OpCode == BO_XorAssign || OpCode == BO_OrAssign;
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}
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/// This matcher will match all arithmetic unary operators.
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AST_MATCHER(UnaryOperator, unaryArithmeticOperator) {
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UnaryOperatorKind OpCode = Node.getOpcode();
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return OpCode == UO_PostInc || OpCode == UO_PostDec || OpCode == UO_PreInc ||
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OpCode == UO_PreDec || OpCode == UO_Plus || OpCode == UO_Minus ||
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OpCode == UO_Not;
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}
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/// This matcher will match the unary dereference operator
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AST_MATCHER(UnaryOperator, unaryDereferenceOperator) {
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UnaryOperatorKind OpCode = Node.getOpcode();
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return OpCode == UO_Deref;
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}
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/// This matcher will match == and != binary operators.
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AST_MATCHER(BinaryOperator, binaryEqualityOperator) {
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BinaryOperatorKind OpCode = Node.getOpcode();
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return OpCode == BO_EQ || OpCode == BO_NE;
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}
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/// This matcher will match comma operator.
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AST_MATCHER(BinaryOperator, binaryCommaOperator) {
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BinaryOperatorKind OpCode = Node.getOpcode();
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return OpCode == BO_Comma;
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}
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/// This matcher will match floating point types.
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AST_MATCHER(QualType, isFloat) { return Node->isRealFloatingType(); }
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/// This matcher will match locations in system headers. This is adopted from
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/// isExpansionInSystemHeader in newer clangs, but modified in order to work
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/// with old clangs that we use on infra.
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AST_POLYMORPHIC_MATCHER(isInSystemHeader,
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AST_POLYMORPHIC_SUPPORTED_TYPES(Decl, Stmt)) {
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return ASTIsInSystemHeader(Finder->getASTContext(), Node);
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}
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/// This matcher will match a file "gtest-port.h". The file contains
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/// known fopen usages that are OK.
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AST_MATCHER(CallExpr, isInWhitelistForFopenUsage) {
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static const char Whitelist[] = "gtest-port.h";
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SourceLocation Loc = Node.getBeginLoc();
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StringRef FileName =
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getFilename(Finder->getASTContext().getSourceManager(), Loc);
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return llvm::sys::path::rbegin(FileName)->equals(Whitelist);
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}
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/// This matcher will match a list of files. These files contain
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/// known NaN-testing expressions which we would like to whitelist.
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AST_MATCHER(BinaryOperator, isInWhitelistForNaNExpr) {
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const char *whitelist[] = {"SkScalar.h", "json_writer.cpp", "State.cpp"};
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SourceLocation Loc = Node.getOperatorLoc();
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StringRef FileName =
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getFilename(Finder->getASTContext().getSourceManager(), Loc);
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for (auto itr = std::begin(whitelist); itr != std::end(whitelist); itr++) {
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if (llvm::sys::path::rbegin(FileName)->equals(*itr)) {
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return true;
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}
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}
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return false;
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}
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AST_MATCHER(CallExpr, isInWhiteListForPrincipalGetUri) {
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const auto Whitelist = {"nsIPrincipal.h", "BasePrincipal.cpp",
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"ContentPrincipal.cpp"};
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SourceLocation Loc = Node.getBeginLoc();
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StringRef Filename =
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getFilename(Finder->getASTContext().getSourceManager(), Loc);
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for (auto Exclusion : Whitelist) {
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if (Filename.find(Exclusion) != std::string::npos) {
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return true;
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}
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}
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return false;
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}
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/// This matcher will match a list of files which contain NS_NewNamedThread
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/// code or names of existing threads that we would like to ignore.
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AST_MATCHER(CallExpr, isInAllowlistForThreads) {
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// Get the source location of the call.
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SourceLocation Loc = Node.getRParenLoc();
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StringRef FileName =
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getFilename(Finder->getASTContext().getSourceManager(), Loc);
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const auto rbegin = [](StringRef s) { return llvm::sys::path::rbegin(s); };
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const auto rend = [](StringRef s) { return llvm::sys::path::rend(s); };
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// Files in the allowlist are (definitionally) explicitly permitted to create
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// new threads.
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for (auto thread_file : allow_thread_files) {
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// All the provided path-elements must match.
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const bool match = [&] {
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auto it1 = rbegin(FileName), it2 = rbegin(thread_file),
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end1 = rend(FileName), end2 = rend(thread_file);
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for (; it2 != end2; ++it1, ++it2) {
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if (it1 == end1 || !it1->equals(*it2)) {
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return false;
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}
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}
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return true;
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}();
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if (match) {
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return true;
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}
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}
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// Check the first arg (the name of the thread).
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const StringLiteral *nameArg =
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dyn_cast<StringLiteral>(Node.getArg(0)->IgnoreImplicit());
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if (nameArg) {
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const StringRef name = nameArg->getString();
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for (auto thread_name : allow_thread_names) {
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if (name.equals(thread_name)) {
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return true;
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}
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}
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}
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return false;
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}
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/// This matcher will match all accesses to AddRef or Release methods.
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AST_MATCHER(MemberExpr, isAddRefOrRelease) {
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ValueDecl *Member = Node.getMemberDecl();
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CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(Member);
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if (Method) {
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const auto &Name = getNameChecked(Method);
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return Name == "AddRef" || Name == "Release";
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}
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return false;
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}
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/// This matcher will select classes which are refcounted AND have an mRefCnt
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/// member.
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AST_MATCHER(CXXRecordDecl, hasRefCntMember) {
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return isClassRefCounted(&Node) && getClassRefCntMember(&Node);
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}
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/// This matcher will select classes which are refcounted.
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AST_MATCHER(CXXRecordDecl, isRefCounted) { return isClassRefCounted(&Node); }
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AST_MATCHER(QualType, hasVTable) { return typeHasVTable(Node); }
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AST_MATCHER(CXXRecordDecl, hasNeedsNoVTableTypeAttr) {
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return hasCustomAttribute<moz_needs_no_vtable_type>(&Node);
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}
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/// This matcher will select classes which are non-memmovable
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AST_MATCHER(QualType, isNonMemMovable) {
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return NonMemMovable.hasEffectiveAnnotation(Node);
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}
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/// This matcher will select classes which require a memmovable template arg
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AST_MATCHER(CXXRecordDecl, needsMemMovableTemplateArg) {
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return hasCustomAttribute<moz_needs_memmovable_type>(&Node);
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}
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/// This matcher will select classes which require all members to be memmovable
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AST_MATCHER(CXXRecordDecl, needsMemMovableMembers) {
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return hasCustomAttribute<moz_needs_memmovable_members>(&Node);
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}
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AST_MATCHER(CXXConstructorDecl, isInterestingImplicitCtor) {
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const CXXConstructorDecl *Declaration = Node.getCanonicalDecl();
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return
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// Skip constructors in system headers
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!ASTIsInSystemHeader(Declaration->getASTContext(), *Declaration) &&
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// Skip ignored namespaces and paths
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!isInIgnoredNamespaceForImplicitCtor(Declaration) &&
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!inThirdPartyPath(Declaration) &&
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// We only want Converting constructors
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Declaration->isConvertingConstructor(false) &&
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// We don't want copy of move constructors, as those are allowed to be
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// implicit
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!Declaration->isCopyOrMoveConstructor() &&
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// We don't want inheriting constructors, since using declarations can't
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// have attributes
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!Declaration->isInheritingConstructor() &&
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// We don't want deleted constructors.
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!Declaration->isDeleted();
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}
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AST_MATCHER_P(Expr, ignoreTrivials, internal::Matcher<Expr>, InnerMatcher) {
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return InnerMatcher.matches(*IgnoreTrivials(&Node), Finder, Builder);
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}
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// Takes two matchers: the first one is a condition; the second is a matcher to
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// be applied once we are done unwrapping trivials. While the condition does
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// not match and we're looking at a trivial, will keep unwrapping the trivial
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// and trying again. Once the condition matches, we will go ahead and unwrap all
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// trivials and apply the inner matcher to the result.
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//
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// The expected use here is if we want to condition a match on some typecheck
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// but apply the match to only non-trivials, because there are trivials (e.g.
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// casts) that can change types.
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AST_MATCHER_P2(Expr, ignoreTrivialsConditional, internal::Matcher<Expr>,
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Condition, internal::Matcher<Expr>, InnerMatcher) {
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const Expr *node = &Node;
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while (true) {
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if (Condition.matches(*node, Finder, Builder)) {
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return InnerMatcher.matches(*IgnoreTrivials(node), Finder, Builder);
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}
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const Expr *newNode = MaybeSkipOneTrivial(node);
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if (newNode == node) {
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return false;
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}
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node = newNode;
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}
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}
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// We can't call this "isImplicit" since it clashes with an existing matcher in
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// clang.
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AST_MATCHER(CXXConstructorDecl, isMarkedImplicit) {
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return hasCustomAttribute<moz_implicit>(&Node);
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}
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AST_MATCHER(CXXRecordDecl, isConcreteClass) { return !Node.isAbstract(); }
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AST_MATCHER(QualType, autoNonAutoableType) {
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if (const AutoType *T = Node->getContainedAutoType()) {
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if (const CXXRecordDecl *Rec = T->getAsCXXRecordDecl()) {
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return hasCustomAttribute<moz_non_autoable>(Rec);
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}
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}
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return false;
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}
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AST_MATCHER(CXXConstructorDecl, isExplicitMoveConstructor) {
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return Node.isExplicit() && Node.isMoveConstructor();
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}
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AST_MATCHER(CXXConstructorDecl, isCompilerProvidedCopyConstructor) {
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return !Node.isUserProvided() && Node.isCopyConstructor();
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}
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AST_MATCHER(CallExpr, isAssertAssignmentTestFunc) {
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static const std::string AssertName = "MOZ_AssertAssignmentTest";
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const FunctionDecl *Method = Node.getDirectCallee();
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return Method && Method->getDeclName().isIdentifier() &&
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Method->getName() == AssertName;
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}
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AST_MATCHER(CallExpr, isSnprintfLikeFunc) {
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static const std::string Snprintf = "snprintf";
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static const std::string Vsnprintf = "vsnprintf";
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const FunctionDecl *Func = Node.getDirectCallee();
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if (!Func || isa<CXXMethodDecl>(Func)) {
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return false;
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}
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StringRef Name = getNameChecked(Func);
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if (Name != Snprintf && Name != Vsnprintf) {
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return false;
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}
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return !inThirdPartyPath(Node.getBeginLoc(),
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Finder->getASTContext().getSourceManager()) &&
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!isIgnoredPathForSprintfLiteral(
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&Node, Finder->getASTContext().getSourceManager());
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}
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AST_MATCHER(CXXRecordDecl, isLambdaDecl) { return Node.isLambda(); }
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AST_MATCHER(QualType, isRefPtr) { return typeIsRefPtr(Node); }
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AST_MATCHER(QualType, isSmartPtrToRefCounted) {
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auto *D = getNonTemplateSpecializedCXXRecordDecl(Node);
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if (!D) {
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return false;
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}
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D = D->getCanonicalDecl();
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return D && hasCustomAttribute<moz_is_smartptr_to_refcounted>(D);
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}
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AST_MATCHER(ClassTemplateSpecializationDecl, isSmartPtrToRefCountedDecl) {
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auto *D = dyn_cast_or_null<CXXRecordDecl>(
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Node.getSpecializedTemplate()->getTemplatedDecl());
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if (!D) {
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return false;
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}
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D = D->getCanonicalDecl();
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return D && hasCustomAttribute<moz_is_smartptr_to_refcounted>(D);
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}
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AST_MATCHER(CXXRecordDecl, hasBaseClasses) {
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const CXXRecordDecl *Decl = Node.getCanonicalDecl();
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// Must have definition and should inherit other classes
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return Decl && Decl->hasDefinition() && Decl->getNumBases();
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}
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AST_MATCHER(CXXMethodDecl, isRequiredBaseMethod) {
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const CXXMethodDecl *Decl = Node.getCanonicalDecl();
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return Decl && hasCustomAttribute<moz_required_base_method>(Decl);
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}
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AST_MATCHER(CXXMethodDecl, isNonVirtual) {
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const CXXMethodDecl *Decl = Node.getCanonicalDecl();
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return Decl && !Decl->isVirtual();
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}
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AST_MATCHER(FunctionDecl, isMozMustReturnFromCaller) {
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const FunctionDecl *Decl = Node.getCanonicalDecl();
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return Decl &&
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hasCustomAttribute<moz_must_return_from_caller_if_this_is_arg>(Decl);
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}
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AST_MATCHER(FunctionDecl, isMozTemporaryLifetimeBound) {
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const FunctionDecl *Decl = Node.getCanonicalDecl();
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return Decl && hasCustomAttribute<moz_lifetime_bound>(Decl);
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}
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/// This matcher will select default args which have nullptr as the value.
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AST_MATCHER(CXXDefaultArgExpr, isNullDefaultArg) {
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const Expr *Expr = Node.getExpr();
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return Expr && Expr->isNullPointerConstant(Finder->getASTContext(),
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Expr::NPC_NeverValueDependent);
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}
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AST_MATCHER(UsingDirectiveDecl, isUsingNamespaceMozillaJava) {
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const NamespaceDecl *Namespace = Node.getNominatedNamespace();
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const std::string &FQName = Namespace->getQualifiedNameAsString();
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static const char NAMESPACE[] = "mozilla::java";
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static const char PREFIX[] = "mozilla::java::";
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// We match both the `mozilla::java` namespace itself as well as any other
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// namespaces contained within the `mozilla::java` namespace.
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return !FQName.compare(NAMESPACE) ||
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!FQName.compare(0, sizeof(PREFIX) - 1, PREFIX);
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}
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AST_MATCHER(MemberExpr, hasKnownLiveAnnotation) {
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ValueDecl *Member = Node.getMemberDecl();
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FieldDecl *Field = dyn_cast<FieldDecl>(Member);
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return Field && hasCustomAttribute<moz_known_live>(Field);
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}
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#define GENERATE_JSTYPEDEF_PAIR(templateName) \
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{templateName "Function", templateName "<JSFunction*>"}, \
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{templateName "Id", templateName "<JS::PropertyKey>"}, \
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{templateName "Object", templateName "<JSObject*>"}, \
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{templateName "Script", templateName "<JSScript*>"}, \
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{templateName "String", templateName "<JSString*>"}, \
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{templateName "Symbol", templateName "<JS::Symbol*>"}, \
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{templateName "BigInt", templateName "<JS::BigInt*>"}, \
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{templateName "Value", templateName "<JS::Value>"}, \
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{templateName "ValueVector", templateName "Vector<JS::Value>"}, \
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{templateName "ObjectVector", templateName "Vector<JSObject*>"}, { \
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templateName "IdVector", templateName "Vector<JS::PropertyKey>" \
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}
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static const char *const JSHandleRootedTypedefMap[][2] = {
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|
GENERATE_JSTYPEDEF_PAIR("JS::Handle"),
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|
GENERATE_JSTYPEDEF_PAIR("JS::MutableHandle"),
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|
GENERATE_JSTYPEDEF_PAIR("JS::Rooted"),
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|
// Technically there is no PersistentRootedValueVector, and that's okay
|
|
GENERATE_JSTYPEDEF_PAIR("JS::PersistentRooted"),
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|
};
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|
|
|
AST_MATCHER(DeclaratorDecl, isUsingJSHandleRootedTypedef) {
|
|
QualType Type = Node.getType();
|
|
std::string TypeName = Type.getAsString();
|
|
for (auto &pair : JSHandleRootedTypedefMap) {
|
|
if (!TypeName.compare(pair[0])) {
|
|
return true;
|
|
}
|
|
}
|
|
return false;
|
|
}
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|
|
|
} // namespace ast_matchers
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|
} // namespace clang
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|
|
|
#undef isRValue
|
|
#endif
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