llvm-project/clang/lib/Sema/SemaBoundsSafety.cpp

//===-- SemaBoundsSafety.cpp - Bounds Safety specific routines-*- C++ -*---===//
//
// 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
//
//===----------------------------------------------------------------------===//
/// \file
/// This file declares semantic analysis functions specific to `-fbounds-safety`
/// (Bounds Safety) and also its attributes when used without `-fbounds-safety`
/// (e.g. `counted_by`)
///
//===----------------------------------------------------------------------===//
#include "clang/Sema/Sema.h"

namespace clang {

static CountAttributedType::DynamicCountPointerKind
getCountAttrKind(bool CountInBytes, bool OrNull) {
  if (CountInBytes)
    return OrNull ? CountAttributedType::SizedByOrNull
                  : CountAttributedType::SizedBy;
  return OrNull ? CountAttributedType::CountedByOrNull
                : CountAttributedType::CountedBy;
}

static const RecordDecl *GetEnclosingNamedOrTopAnonRecord(const FieldDecl *FD) {
  const auto *RD = FD->getParent();
  // An unnamed struct is anonymous struct only if it's not instantiated.
  // However, the struct may not be fully processed yet to determine
  // whether it's anonymous or not. In that case, this function treats it as
  // an anonymous struct and tries to find a named parent.
  while (RD && (RD->isAnonymousStructOrUnion() ||
                (!RD->isCompleteDefinition() && RD->getName().empty()))) {
    const auto *Parent = dyn_cast<RecordDecl>(RD->getParent());
    if (!Parent)
      break;
    RD = Parent;
  }
  return RD;
}

enum class CountedByInvalidPointeeTypeKind {
  INCOMPLETE,
  SIZELESS,
  FUNCTION,
  FLEXIBLE_ARRAY_MEMBER,
  VALID,
};

bool Sema::CheckCountedByAttrOnField(FieldDecl *FD, Expr *E, bool CountInBytes,
                                     bool OrNull) {
  // Check the context the attribute is used in

  unsigned Kind = getCountAttrKind(CountInBytes, OrNull);

  if (FD->getParent()->isUnion()) {
    Diag(FD->getBeginLoc(), diag::err_count_attr_in_union)
        << Kind << FD->getSourceRange();
    return true;
  }

  const auto FieldTy = FD->getType();
  if (FieldTy->isArrayType() && (CountInBytes || OrNull)) {
    Diag(FD->getBeginLoc(),
         diag::err_count_attr_not_on_ptr_or_flexible_array_member)
        << Kind << FD->getLocation() << /* suggest counted_by */ 1;
    return true;
  }
  if (!FieldTy->isArrayType() && !FieldTy->isPointerType()) {
    Diag(FD->getBeginLoc(),
         diag::err_count_attr_not_on_ptr_or_flexible_array_member)
        << Kind << FD->getLocation() << /* do not suggest counted_by */ 0;
    return true;
  }

  LangOptions::StrictFlexArraysLevelKind StrictFlexArraysLevel =
      LangOptions::StrictFlexArraysLevelKind::IncompleteOnly;
  if (FieldTy->isArrayType() &&
      !Decl::isFlexibleArrayMemberLike(getASTContext(), FD, FieldTy,
                                       StrictFlexArraysLevel, true)) {
    Diag(FD->getBeginLoc(),
         diag::err_counted_by_attr_on_array_not_flexible_array_member)
        << Kind << FD->getLocation();
    return true;
  }

  CountedByInvalidPointeeTypeKind InvalidTypeKind =
      CountedByInvalidPointeeTypeKind::VALID;
  QualType PointeeTy;
  int SelectPtrOrArr = 0;
  if (FieldTy->isPointerType()) {
    PointeeTy = FieldTy->getPointeeType();
    SelectPtrOrArr = 0;
  } else {
    assert(FieldTy->isArrayType());
    const ArrayType *AT = getASTContext().getAsArrayType(FieldTy);
    PointeeTy = AT->getElementType();
    SelectPtrOrArr = 1;
  }
  // Note: The `Decl::isFlexibleArrayMemberLike` check earlier on means
  // only `PointeeTy->isStructureTypeWithFlexibleArrayMember()` is reachable
  // when `FieldTy->isArrayType()`.
  bool ShouldWarn = false;
  if (PointeeTy->isIncompleteType() && !CountInBytes) {
    InvalidTypeKind = CountedByInvalidPointeeTypeKind::INCOMPLETE;
  } else if (PointeeTy->isSizelessType()) {
    InvalidTypeKind = CountedByInvalidPointeeTypeKind::SIZELESS;
  } else if (PointeeTy->isFunctionType()) {
    InvalidTypeKind = CountedByInvalidPointeeTypeKind::FUNCTION;
  } else if (PointeeTy->isStructureTypeWithFlexibleArrayMember()) {
    if (FieldTy->isArrayType() && !getLangOpts().BoundsSafety) {
      // This is a workaround for the Linux kernel that has already adopted
      // `counted_by` on a FAM where the pointee is a struct with a FAM. This
      // should be an error because computing the bounds of the array cannot be
      // done correctly without manually traversing every struct object in the
      // array at runtime. To allow the code to be built this error is
      // downgraded to a warning.
      ShouldWarn = true;
    }
    InvalidTypeKind = CountedByInvalidPointeeTypeKind::FLEXIBLE_ARRAY_MEMBER;
  }

  if (InvalidTypeKind != CountedByInvalidPointeeTypeKind::VALID) {
    unsigned DiagID = ShouldWarn
                          ? diag::warn_counted_by_attr_elt_type_unknown_size
                          : diag::err_counted_by_attr_pointee_unknown_size;
    Diag(FD->getBeginLoc(), DiagID)
        << SelectPtrOrArr << PointeeTy << (int)InvalidTypeKind
        << (ShouldWarn ? 1 : 0) << Kind << FD->getSourceRange();
    return true;
  }

  // Check the expression

  if (!E->getType()->isIntegerType() || E->getType()->isBooleanType()) {
    Diag(E->getBeginLoc(), diag::err_count_attr_argument_not_integer)
        << Kind << E->getSourceRange();
    return true;
  }

  auto *DRE = dyn_cast<DeclRefExpr>(E);
  if (!DRE) {
    Diag(E->getBeginLoc(),
         diag::err_count_attr_only_support_simple_decl_reference)
        << Kind << E->getSourceRange();
    return true;
  }

  auto *CountDecl = DRE->getDecl();
  FieldDecl *CountFD = dyn_cast<FieldDecl>(CountDecl);
  if (auto *IFD = dyn_cast<IndirectFieldDecl>(CountDecl)) {
    CountFD = IFD->getAnonField();
  }
  if (!CountFD) {
    Diag(E->getBeginLoc(), diag::err_count_attr_must_be_in_structure)
        << CountDecl << Kind << E->getSourceRange();

    Diag(CountDecl->getBeginLoc(),
         diag::note_flexible_array_counted_by_attr_field)
        << CountDecl << CountDecl->getSourceRange();
    return true;
  }

  if (FD->getParent() != CountFD->getParent()) {
    if (CountFD->getParent()->isUnion()) {
      Diag(CountFD->getBeginLoc(), diag::err_count_attr_refer_to_union)
          << Kind << CountFD->getSourceRange();
      return true;
    }
    // Whether CountRD is an anonymous struct is not determined at this
    // point. Thus, an additional diagnostic in case it's not anonymous struct
    // is done later in `Parser::ParseStructDeclaration`.
    auto *RD = GetEnclosingNamedOrTopAnonRecord(FD);
    auto *CountRD = GetEnclosingNamedOrTopAnonRecord(CountFD);

    if (RD != CountRD) {
      Diag(E->getBeginLoc(), diag::err_count_attr_param_not_in_same_struct)
          << CountFD << Kind << FieldTy->isArrayType() << E->getSourceRange();
      Diag(CountFD->getBeginLoc(),
           diag::note_flexible_array_counted_by_attr_field)
          << CountFD << CountFD->getSourceRange();
      return true;
    }
  }
  return false;
}

} // namespace clang
[clang][NFC] Move Bounds Safety Sema code to `SemaBoundsSafety.cpp` (#99330) This patch adds a new `SemaBoundsSafety.cpp` source file and moves the existing `CheckCountedByAttrOnField` function and related helper functions and types from `SemaDeclAttr.cpp` into the new source file. The `CheckCountedByAttrOnField` function is now a method on the Sema class and now has doxygen comments. The goal behind this refactor is to clearly separate the `-fbounds-safety` Sema code from everything else. Although `counted_by(_or_null)` and `sized_by(_or_null)` attributes have a meaning outside of `-fbounds-safety` it seems reasonable to also have the Sema logic live in `SemaBoundsSafety.cpp` since the intention is that the attributes will have the same semantics (but not necessarily the same enforcement). As `-fbounds-safety` is upstreamed additional Sema checks will be added to `SemaBoundsSafety.cpp`. rdar://131777237 2024-07-19 13:06:26 +01:00			`//===-- SemaBoundsSafety.cpp - Bounds Safety specific routines-- C++ ----===//`
			`//`
			`// 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`
			`//`
			`//===----------------------------------------------------------------------===//`
			`/// \file`
			/// This file declares semantic analysis functions specific to `-fbounds-safety`
			/// (Bounds Safety) and also its attributes when used without `-fbounds-safety`
			/// (e.g. `counted_by`)
			`///`
			`//===----------------------------------------------------------------------===//`
			`#include "clang/Sema/Sema.h"`

			`namespace clang {`

			`static CountAttributedType::DynamicCountPointerKind`
			`getCountAttrKind(bool CountInBytes, bool OrNull) {`
			`if (CountInBytes)`
			`return OrNull ? CountAttributedType::SizedByOrNull`
			`: CountAttributedType::SizedBy;`
			`return OrNull ? CountAttributedType::CountedByOrNull`
			`: CountAttributedType::CountedBy;`
			`}`

			`static const RecordDecl GetEnclosingNamedOrTopAnonRecord(const FieldDecl FD) {`
			`const auto *RD = FD->getParent();`
			`// An unnamed struct is anonymous struct only if it's not instantiated.`
			`// However, the struct may not be fully processed yet to determine`
			`// whether it's anonymous or not. In that case, this function treats it as`
			`// an anonymous struct and tries to find a named parent.`
			`while (RD && (RD->isAnonymousStructOrUnion() \|\|`
			`(!RD->isCompleteDefinition() && RD->getName().empty()))) {`
			`const auto *Parent = dyn_cast<RecordDecl>(RD->getParent());`
			`if (!Parent)`
			`break;`
			`RD = Parent;`
			`}`
			`return RD;`
			`}`

			`enum class CountedByInvalidPointeeTypeKind {`
			`INCOMPLETE,`
			`SIZELESS,`
			`FUNCTION,`
			`FLEXIBLE_ARRAY_MEMBER,`
			`VALID,`
			`};`

[BoundsSafety][NFC] Remove the unused parameter 'Decls' from 'Sema::C… (#102076) …heckCountedByAttrOnField' llvm::SmallVectorImpl<TypeCoupledDeclRefInfo> &Decls is a vector of declarations referred to by the argument of 'counted_by' attributes and fields. 'BuildCountAttributedArrayOrPointerType' had been made self-contained to produce the 'Decls' within itself to allow 'TreeTransform' to invoke the function without having to call 'Sema::CheckCountedByAttrOnField' again. Thus, 'Decls' produced by `Sema::CheckCountedByAttrOnField` is never used. 2024-08-06 10:04:25 -07:00			`bool Sema::CheckCountedByAttrOnField(FieldDecl FD, Expr E, bool CountInBytes,`
			`bool OrNull) {`
[clang][NFC] Move Bounds Safety Sema code to `SemaBoundsSafety.cpp` (#99330) This patch adds a new `SemaBoundsSafety.cpp` source file and moves the existing `CheckCountedByAttrOnField` function and related helper functions and types from `SemaDeclAttr.cpp` into the new source file. The `CheckCountedByAttrOnField` function is now a method on the Sema class and now has doxygen comments. The goal behind this refactor is to clearly separate the `-fbounds-safety` Sema code from everything else. Although `counted_by(_or_null)` and `sized_by(_or_null)` attributes have a meaning outside of `-fbounds-safety` it seems reasonable to also have the Sema logic live in `SemaBoundsSafety.cpp` since the intention is that the attributes will have the same semantics (but not necessarily the same enforcement). As `-fbounds-safety` is upstreamed additional Sema checks will be added to `SemaBoundsSafety.cpp`. rdar://131777237 2024-07-19 13:06:26 +01:00			`// Check the context the attribute is used in`

			`unsigned Kind = getCountAttrKind(CountInBytes, OrNull);`

			`if (FD->getParent()->isUnion()) {`
			`Diag(FD->getBeginLoc(), diag::err_count_attr_in_union)`
			`<< Kind << FD->getSourceRange();`
			`return true;`
			`}`

			`const auto FieldTy = FD->getType();`
			`if (FieldTy->isArrayType() && (CountInBytes \|\| OrNull)) {`
			`Diag(FD->getBeginLoc(),`
			`diag::err_count_attr_not_on_ptr_or_flexible_array_member)`
			`<< Kind << FD->getLocation() << /* suggest counted_by */ 1;`
			`return true;`
			`}`
			`if (!FieldTy->isArrayType() && !FieldTy->isPointerType()) {`
			`Diag(FD->getBeginLoc(),`
			`diag::err_count_attr_not_on_ptr_or_flexible_array_member)`
			`<< Kind << FD->getLocation() << /* do not suggest counted_by */ 0;`
			`return true;`
			`}`

			`LangOptions::StrictFlexArraysLevelKind StrictFlexArraysLevel =`
			`LangOptions::StrictFlexArraysLevelKind::IncompleteOnly;`
			`if (FieldTy->isArrayType() &&`
			`!Decl::isFlexibleArrayMemberLike(getASTContext(), FD, FieldTy,`
			`StrictFlexArraysLevel, true)) {`
			`Diag(FD->getBeginLoc(),`
			`diag::err_counted_by_attr_on_array_not_flexible_array_member)`
			`<< Kind << FD->getLocation();`
			`return true;`
			`}`

			`CountedByInvalidPointeeTypeKind InvalidTypeKind =`
			`CountedByInvalidPointeeTypeKind::VALID;`
			`QualType PointeeTy;`
			`int SelectPtrOrArr = 0;`
			`if (FieldTy->isPointerType()) {`
			`PointeeTy = FieldTy->getPointeeType();`
			`SelectPtrOrArr = 0;`
			`} else {`
			`assert(FieldTy->isArrayType());`
			`const ArrayType *AT = getASTContext().getAsArrayType(FieldTy);`
			`PointeeTy = AT->getElementType();`
			`SelectPtrOrArr = 1;`
			`}`
			// Note: The `Decl::isFlexibleArrayMemberLike` check earlier on means
			// only `PointeeTy->isStructureTypeWithFlexibleArrayMember()` is reachable
			// when `FieldTy->isArrayType()`.
			`bool ShouldWarn = false;`
			`if (PointeeTy->isIncompleteType() && !CountInBytes) {`
			`InvalidTypeKind = CountedByInvalidPointeeTypeKind::INCOMPLETE;`
			`} else if (PointeeTy->isSizelessType()) {`
			`InvalidTypeKind = CountedByInvalidPointeeTypeKind::SIZELESS;`
			`} else if (PointeeTy->isFunctionType()) {`
			`InvalidTypeKind = CountedByInvalidPointeeTypeKind::FUNCTION;`
			`} else if (PointeeTy->isStructureTypeWithFlexibleArrayMember()) {`
			`if (FieldTy->isArrayType() && !getLangOpts().BoundsSafety) {`
			`// This is a workaround for the Linux kernel that has already adopted`
			// `counted_by` on a FAM where the pointee is a struct with a FAM. This
			`// should be an error because computing the bounds of the array cannot be`
			`// done correctly without manually traversing every struct object in the`
			`// array at runtime. To allow the code to be built this error is`
			`// downgraded to a warning.`
			`ShouldWarn = true;`
			`}`
			`InvalidTypeKind = CountedByInvalidPointeeTypeKind::FLEXIBLE_ARRAY_MEMBER;`
			`}`

			`if (InvalidTypeKind != CountedByInvalidPointeeTypeKind::VALID) {`
			`unsigned DiagID = ShouldWarn`
			`? diag::warn_counted_by_attr_elt_type_unknown_size`
			`: diag::err_counted_by_attr_pointee_unknown_size;`
			`Diag(FD->getBeginLoc(), DiagID)`
			`<< SelectPtrOrArr << PointeeTy << (int)InvalidTypeKind`
			`<< (ShouldWarn ? 1 : 0) << Kind << FD->getSourceRange();`
			`return true;`
			`}`

			`// Check the expression`

			`if (!E->getType()->isIntegerType() \|\| E->getType()->isBooleanType()) {`
			`Diag(E->getBeginLoc(), diag::err_count_attr_argument_not_integer)`
			`<< Kind << E->getSourceRange();`
			`return true;`
			`}`

			`auto *DRE = dyn_cast<DeclRefExpr>(E);`
			`if (!DRE) {`
			`Diag(E->getBeginLoc(),`
			`diag::err_count_attr_only_support_simple_decl_reference)`
			`<< Kind << E->getSourceRange();`
			`return true;`
			`}`

			`auto *CountDecl = DRE->getDecl();`
			`FieldDecl *CountFD = dyn_cast<FieldDecl>(CountDecl);`
			`if (auto *IFD = dyn_cast<IndirectFieldDecl>(CountDecl)) {`
			`CountFD = IFD->getAnonField();`
			`}`
			`if (!CountFD) {`
			`Diag(E->getBeginLoc(), diag::err_count_attr_must_be_in_structure)`
			`<< CountDecl << Kind << E->getSourceRange();`

			`Diag(CountDecl->getBeginLoc(),`
			`diag::note_flexible_array_counted_by_attr_field)`
			`<< CountDecl << CountDecl->getSourceRange();`
			`return true;`
			`}`

			`if (FD->getParent() != CountFD->getParent()) {`
			`if (CountFD->getParent()->isUnion()) {`
			`Diag(CountFD->getBeginLoc(), diag::err_count_attr_refer_to_union)`
			`<< Kind << CountFD->getSourceRange();`
			`return true;`
			`}`
			`// Whether CountRD is an anonymous struct is not determined at this`
			`// point. Thus, an additional diagnostic in case it's not anonymous struct`
			// is done later in `Parser::ParseStructDeclaration`.
			`auto *RD = GetEnclosingNamedOrTopAnonRecord(FD);`
			`auto *CountRD = GetEnclosingNamedOrTopAnonRecord(CountFD);`

			`if (RD != CountRD) {`
			`Diag(E->getBeginLoc(), diag::err_count_attr_param_not_in_same_struct)`
			`<< CountFD << Kind << FieldTy->isArrayType() << E->getSourceRange();`
			`Diag(CountFD->getBeginLoc(),`
			`diag::note_flexible_array_counted_by_attr_field)`
			`<< CountFD << CountFD->getSourceRange();`
			`return true;`
			`}`
			`}`
			`return false;`
			`}`

			`} // namespace clang`