android-12.0.0_r34/s

// Copyright (C) 2018 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//      http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

#include "repr/abi_diff_helpers.h"

#include "utils/header_abi_util.h"

#include <llvm/Support/raw_ostream.h>


namespace header_checker {
namespace repr {


std::string Unwind(const std::deque<std::string> *type_queue) {
  if (!type_queue) {
    return "";
  }
  std::string stack_str;
  std::deque<std::string> type_queue_copy = *type_queue;
  while (!type_queue_copy.empty()) {
    stack_str += type_queue_copy.front() + "-> ";
    type_queue_copy.pop_front();
  }
  return stack_str;
}

static void TypeQueueCheckAndPushBack(std::deque<std::string> *type_queue,
                                      const std::string &str) {
  if (type_queue) {
    type_queue->push_back(str);
  }
}

static void TypeQueueCheckAndPop(std::deque<std::string> *type_queue) {
  if (type_queue && !type_queue->empty()) {
    type_queue->pop_back();
  }
}

static bool IsAccessDownGraded(AccessSpecifierIR old_access,
                               AccessSpecifierIR new_access) {
  bool access_downgraded = false;
  switch (old_access) {
    case AccessSpecifierIR::ProtectedAccess:
      if (new_access == AccessSpecifierIR::PrivateAccess) {
        access_downgraded = true;
      }
      break;
    case AccessSpecifierIR::PublicAccess:
      if (new_access != AccessSpecifierIR::PublicAccess) {
        access_downgraded = true;
      }
      break;
    default:
      break;
  }
  return access_downgraded;
}

static std::string ConvertTypeIdToString(
    const AbiElementMap<const TypeIR *> &type_graph,
    const std::string &type_id) {
  auto it = type_graph.find(type_id);
  if (it != type_graph.end()) {
    return it->second->GetName();
  }
  return "type-unexported";
}

template <typename Container>
static void ReplaceReferencesOtherTypeIdWithName(
    const AbiElementMap<const TypeIR *> &type_graph,
    Container &to_fix_elements) {
  for (auto &element : to_fix_elements) {
    element.SetReferencedType(
        ConvertTypeIdToString(type_graph, element.GetReferencedType()));
  }
}

static void ReplaceEnumTypeIRTypeIdsWithTypeNames(
    const AbiElementMap<const TypeIR *> &type_graph, EnumTypeIR *enum_type_ir) {
  // Replace underlying type.
  enum_type_ir->SetUnderlyingType(
      ConvertTypeIdToString(type_graph, enum_type_ir->GetUnderlyingType()));
}

static void ReplaceRecordTypeIRTypeIdsWithTypeNames(
    const AbiElementMap<const TypeIR *> &type_graph,
    RecordTypeIR *record_type_ir) {
  // Replace Fields
  ReplaceReferencesOtherTypeIdWithName(type_graph,
                                       record_type_ir->GetFields());
  // Replace template parameters
  ReplaceReferencesOtherTypeIdWithName(type_graph,
                                       record_type_ir->GetTemplateElements());
  // Replace bases
  ReplaceReferencesOtherTypeIdWithName(type_graph,
                                       record_type_ir->GetBases());
}

static void ReplaceGlobalVarTypeIdsWithTypeNames(
    const AbiElementMap<const TypeIR *> &type_graph,
    GlobalVarIR *global_var_ir) {
  // Replace referenced type id.
  global_var_ir->SetReferencedType(
      ConvertTypeIdToString(type_graph, global_var_ir->GetReferencedType()));
}

static void ReplaceFunctionTypeIdsWithTypeNames(
    const AbiElementMap<const TypeIR *> &type_graph, FunctionIR *function_ir) {
  // Replace return type
  function_ir->SetReturnType(
      ConvertTypeIdToString(type_graph, function_ir->GetReturnType()));
  // Replace function parameters
  ReplaceReferencesOtherTypeIdWithName(type_graph,
                                       function_ir->GetParameters());
  // Replace function template parameters
  ReplaceReferencesOtherTypeIdWithName(type_graph,
                                       function_ir->GetTemplateElements());
}

void ReplaceTypeIdsWithTypeNames(
    const AbiElementMap<const TypeIR *> &type_graph,
    LinkableMessageIR *lm) {
  switch (lm->GetKind()) {
    case FunctionKind:
      ReplaceFunctionTypeIdsWithTypeNames(
          type_graph, static_cast<FunctionIR *>(lm));
      break;
    case GlobalVarKind:
      ReplaceGlobalVarTypeIdsWithTypeNames(
          type_graph, static_cast<GlobalVarIR *>(lm));
      break;
    case RecordTypeKind:
      ReplaceRecordTypeIRTypeIdsWithTypeNames(
          type_graph, static_cast<RecordTypeIR *>(lm));
      break;
    case EnumTypeKind:
      ReplaceEnumTypeIRTypeIdsWithTypeNames(
          type_graph, static_cast<EnumTypeIR *>(lm));
      break;
    default:
      // This method should not be called on any other LinkableMessage
      assert(0);
  }
}

void AbiDiffHelper::CompareEnumFields(
    const std::vector<EnumFieldIR> &old_fields,
    const std::vector<EnumFieldIR> &new_fields,
    EnumTypeDiffIR *enum_type_diff_ir) {
  AbiElementMap<const EnumFieldIR *> old_fields_map;
  AbiElementMap<const EnumFieldIR *> new_fields_map;
  utils::AddToMap(&old_fields_map, old_fields,
                  [](const EnumFieldIR *f) {return f->GetName();},
                  [](const EnumFieldIR *f) {return f;});

  utils::AddToMap(&new_fields_map, new_fields,
                  [](const EnumFieldIR *f) {return f->GetName();},
                  [](const EnumFieldIR *f) {return f;});

  std::vector<const EnumFieldIR *> removed_fields =
      utils::FindRemovedElements(old_fields_map, new_fields_map);

  std::vector<const EnumFieldIR *> added_fields =
      utils::FindRemovedElements(new_fields_map, old_fields_map);

  enum_type_diff_ir->SetFieldsAdded(std::move(added_fields));

  enum_type_diff_ir->SetFieldsRemoved(std::move(removed_fields));

  std::vector<std::pair<const EnumFieldIR *,
                        const EnumFieldIR *>> cf =
      utils::FindCommonElements(old_fields_map, new_fields_map);
  std::vector<EnumFieldDiffIR> enum_field_diffs;
  for (auto &&common_fields : cf) {
    if (common_fields.first->GetValue() != common_fields.second->GetValue()) {
      EnumFieldDiffIR enum_field_diff_ir(common_fields.first,
                                                   common_fields.second);
      enum_field_diffs.emplace_back(std::move(enum_field_diff_ir));
    }
  }
  enum_type_diff_ir->SetFieldsDiff(std::move(enum_field_diffs));
}

DiffStatus AbiDiffHelper::CompareEnumTypes(
    const EnumTypeIR *old_type, const EnumTypeIR *new_type,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  if (old_type->GetLinkerSetKey() != new_type->GetLinkerSetKey()) {
    return DiffStatus::direct_diff;
  }
  auto enum_type_diff_ir = std::make_unique<EnumTypeDiffIR>();
  enum_type_diff_ir->SetName(old_type->GetName());
  const std::string &old_underlying_type =
      ConvertTypeIdToString(old_types_, old_type->GetUnderlyingType());
  const std::string &new_underlying_type =
      ConvertTypeIdToString(new_types_, new_type->GetUnderlyingType());
  if (old_underlying_type != new_underlying_type) {
    enum_type_diff_ir->SetUnderlyingTypeDiff(
        std::make_unique<std::pair<std::string, std::string>>(
            old_underlying_type, new_underlying_type));
  }
  CompareEnumFields(old_type->GetFields(), new_type->GetFields(),
                    enum_type_diff_ir.get());
  if ((enum_type_diff_ir->IsExtended() ||
       enum_type_diff_ir->IsIncompatible()) &&
      (ir_diff_dumper_ && !ir_diff_dumper_->AddDiffMessageIR(
          enum_type_diff_ir.get(), Unwind(type_queue), diff_kind))) {
    llvm::errs() << "AddDiffMessage on EnumTypeDiffIR failed\n";
    ::exit(1);
  }
  return DiffStatus::no_diff;
}

static std::string RemoveThunkInfoFromMangledName(const std::string &name) {
  if (name.find("_ZTv") != 0 && name.find("_ZTh") != 0 &&
      name.find("_ZTc") != 0) {
    return name;
  }
  size_t base_name_pos = name.find("N");
  if (base_name_pos == std::string::npos) {
    return name;
  }
  return "_Z" + name.substr(base_name_pos);
}

bool AbiDiffHelper::CompareVTableComponents(
    const VTableComponentIR &old_component,
    const VTableComponentIR &new_component) {
  // Vtable components in prebuilts/abi-dumps/vndk/28 don't have thunk info.
  if (old_component.GetName() != new_component.GetName()) {
    if (RemoveThunkInfoFromMangledName(old_component.GetName()) ==
        RemoveThunkInfoFromMangledName(new_component.GetName())) {
      llvm::errs() << "WARNING: Ignore difference between "
                   << old_component.GetName() << " and "
                   << new_component.GetName() << "\n";
    } else {
      return false;
    }
  }
  return old_component.GetValue() == new_component.GetValue() &&
         old_component.GetKind() == new_component.GetKind();
}

bool AbiDiffHelper::CompareVTables(
    const RecordTypeIR *old_record,
    const RecordTypeIR *new_record) {

  const std::vector<VTableComponentIR> &old_components =
      old_record->GetVTableLayout().GetVTableComponents();
  const std::vector<VTableComponentIR> &new_components =
      new_record->GetVTableLayout().GetVTableComponents();
  if (old_components.size() > new_components.size()) {
    // Something in the vtable got deleted.
    return false;
  }
  uint32_t i = 0;
  while (i < old_components.size()) {
    auto &old_element = old_components.at(i);
    auto &new_element = new_components.at(i);
    if (!CompareVTableComponents(old_element, new_element)) {
      return false;
    }
    i++;
  }
  return true;
}

bool AbiDiffHelper::CompareSizeAndAlignment(
    const TypeIR *old_type,
    const TypeIR *new_type) {
  return old_type->GetSize() == new_type->GetSize() &&
      old_type->GetAlignment() == new_type->GetAlignment();
}

DiffStatusPair<std::unique_ptr<RecordFieldDiffIR>>
AbiDiffHelper::CompareCommonRecordFields(
    const RecordFieldIR *old_field,
    const RecordFieldIR *new_field,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {

  DiffStatus field_diff_status =
      CompareAndDumpTypeDiff(old_field->GetReferencedType(),
                             new_field->GetReferencedType(),
                             type_queue, diff_kind);

  if (old_field->GetOffset() != new_field->GetOffset() ||
      // TODO: Should this be an inquality check instead ? Some compilers can
      // make signatures dependant on absolute values of access specifiers.
      IsAccessDownGraded(old_field->GetAccess(), new_field->GetAccess()) ||
      (field_diff_status == DiffStatus::direct_diff)) {
    return std::make_pair(
        DiffStatus::direct_diff,
        std::make_unique<RecordFieldDiffIR>(old_field, new_field)
        );
  }
  return std::make_pair(field_diff_status, nullptr);
}


GenericFieldDiffInfo<RecordFieldIR, RecordFieldDiffIR>
AbiDiffHelper::CompareRecordFields(
    const std::vector<RecordFieldIR> &old_fields,
    const std::vector<RecordFieldIR> &new_fields,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  GenericFieldDiffInfo<RecordFieldIR, RecordFieldDiffIR>
      diffed_removed_added_fields;
  AbiElementMap<const RecordFieldIR *> old_fields_map;
  AbiElementMap<const RecordFieldIR *> new_fields_map;
  std::map<uint64_t, const RecordFieldIR *> old_fields_offset_map;
  std::map<uint64_t, const RecordFieldIR *> new_fields_offset_map;

  utils::AddToMap(
      &old_fields_map, old_fields,
      [](const RecordFieldIR *f) {return f->GetName();},
      [](const RecordFieldIR *f) {return f;});
  utils::AddToMap(
      &new_fields_map, new_fields,
      [](const RecordFieldIR *f) {return f->GetName();},
      [](const RecordFieldIR *f) {return f;});
  utils::AddToMap(
      &old_fields_offset_map, old_fields,
      [](const RecordFieldIR *f) {return f->GetOffset();},
      [](const RecordFieldIR *f) {return f;});
  utils::AddToMap(
      &new_fields_offset_map, new_fields,
      [](const RecordFieldIR *f) {return f->GetOffset();},
      [](const RecordFieldIR *f) {return f;});
  // If a field is removed from the map field_name -> offset see if another
  // field is present at the same offset and compare the size and type etc,
  // remove it from the removed fields if they're compatible.
  DiffStatus final_diff_status = DiffStatus::no_diff;
  std::vector<const RecordFieldIR *> removed_fields =
      utils::FindRemovedElements(old_fields_map, new_fields_map);

  std::vector<const RecordFieldIR *> added_fields =
      utils::FindRemovedElements(new_fields_map, old_fields_map);

  auto predicate =
      [&](const RecordFieldIR *removed_field,
          std::map<uint64_t, const RecordFieldIR *> &field_off_map) {
        uint64_t old_field_offset = removed_field->GetOffset();
        auto corresponding_field_at_same_offset =
            field_off_map.find(old_field_offset);
        // Correctly reported as removed, so do not remove.
        if (corresponding_field_at_same_offset == field_off_map.end()) {
          return false;
        }

        auto comparison_result = CompareCommonRecordFields(
            removed_field, corresponding_field_at_same_offset->second,
            type_queue, diff_kind);
        // No actual diff, so remove it.
        return (comparison_result.second == nullptr);
      };

  removed_fields.erase(
      std::remove_if(
          removed_fields.begin(), removed_fields.end(),
          std::bind(predicate, std::placeholders::_1, new_fields_offset_map)),
      removed_fields.end());
  added_fields.erase(
      std::remove_if(
          added_fields.begin(), added_fields.end(),
          std::bind(predicate, std::placeholders::_1, old_fields_offset_map)),
      added_fields.end());

  diffed_removed_added_fields.removed_fields_ = std::move(removed_fields);
  diffed_removed_added_fields.added_fields_ = std::move(added_fields);

  std::vector<std::pair<
      const RecordFieldIR *, const RecordFieldIR *>> cf =
      utils::FindCommonElements(old_fields_map, new_fields_map);
  bool common_field_diff_exists = false;
  for (auto &&common_fields : cf) {
    auto diffed_field_ptr = CompareCommonRecordFields(
        common_fields.first, common_fields.second, type_queue, diff_kind);
    if (!common_field_diff_exists &&
        (diffed_field_ptr.first &
        (DiffStatus::direct_diff | DiffStatus::indirect_diff))) {
        common_field_diff_exists = true;
    }
    if (diffed_field_ptr.second != nullptr) {
      diffed_removed_added_fields.diffed_fields_.emplace_back(
          std::move(*(diffed_field_ptr.second.release())));
    }
  }
  if (diffed_removed_added_fields.diffed_fields_.size() != 0 ||
      diffed_removed_added_fields.removed_fields_.size() != 0) {
    final_diff_status = DiffStatus::direct_diff;
  } else if (common_field_diff_exists) {
    final_diff_status = DiffStatus::indirect_diff;
  }
  diffed_removed_added_fields.diff_status_ = final_diff_status;
  return diffed_removed_added_fields;
}

bool AbiDiffHelper::CompareBaseSpecifiers(
    const std::vector<CXXBaseSpecifierIR> &old_base_specifiers,
    const std::vector<CXXBaseSpecifierIR> &new_base_specifiers,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  if (old_base_specifiers.size() != new_base_specifiers.size()) {
    return false;
  }
  int i = 0;
  while (i < old_base_specifiers.size()) {
    if (CompareAndDumpTypeDiff(old_base_specifiers.at(i).GetReferencedType(),
                               new_base_specifiers.at(i).GetReferencedType(),
                               type_queue, diff_kind) ==
        DiffStatus::direct_diff ||
        (old_base_specifiers.at(i).GetAccess() !=
         new_base_specifiers.at(i).GetAccess())) {
      return false;
    }
    i++;
  }
  return true;
}

DiffStatus AbiDiffHelper::CompareTemplateInfo(
    const std::vector<TemplateElementIR> &old_template_elements,
    const std::vector<TemplateElementIR> &new_template_elements,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  uint32_t old_template_size = old_template_elements.size();
  uint32_t i = 0;
  if (old_template_size != new_template_elements.size()) {
    return DiffStatus::direct_diff;
  }
  DiffStatus final_diff_status = DiffStatus::no_diff;
  while (i < old_template_size) {
    const TemplateElementIR &old_template_element =
        old_template_elements[i];
    const TemplateElementIR &new_template_element =
        new_template_elements[i];
    auto template_element_diff =
        CompareAndDumpTypeDiff(old_template_element.GetReferencedType(),
                               new_template_element.GetReferencedType(),
                               type_queue, diff_kind);
    if (template_element_diff &
        (DiffStatus::direct_diff | DiffStatus::indirect_diff)) {
      final_diff_status = template_element_diff;
    }
    i++;
  }
  return final_diff_status;
}

template <typename DiffContainer, typename T>
static std::vector<DiffContainer> ConvertToDiffContainerVector(
    std::vector<std::pair<T, T>> &nc_vector) {
  std::vector<DiffContainer> cptr_vec;
  for (auto &e : nc_vector) {
    cptr_vec.emplace_back(&e.first, &e.second);
  }
  return cptr_vec;
}

template <typename T>
static std::vector<const T*> ConvertToConstPtrVector(
    std::vector<T> &nc_vector) {
  std::vector<const T*> cptr_vec;
  for (auto &e : nc_vector) {
    cptr_vec.emplace_back(&e);
  }
  return cptr_vec;
}

static std::vector<RecordFieldIR> FixupRemovedFieldTypeIds(
    const std::vector<const RecordFieldIR *> &removed_fields,
    const AbiElementMap<const TypeIR *> &old_types) {
  std::vector<RecordFieldIR> removed_fields_dup;
  for (auto &removed_field : removed_fields) {
    removed_fields_dup.emplace_back(*removed_field);
    RecordFieldIR &it = removed_fields_dup[removed_fields_dup.size() -1];
    it.SetReferencedType(
        ConvertTypeIdToString(old_types, it.GetReferencedType()));
  }
  return removed_fields_dup;
}

std::vector<std::pair<RecordFieldIR, RecordFieldIR>>
AbiDiffHelper::FixupDiffedFieldTypeIds(
    const std::vector<RecordFieldDiffIR> &field_diffs) {
  std::vector<std::pair<RecordFieldIR, RecordFieldIR>>
      diffed_fields_dup;
  for (auto &field_diff : field_diffs) {
    diffed_fields_dup.emplace_back(*(field_diff.old_field_),
                                   *(field_diff.new_field_));
    auto &it = diffed_fields_dup[diffed_fields_dup.size() - 1];
    RecordFieldIR &old_field = it.first;
    RecordFieldIR &new_field = it.second;
    old_field.SetReferencedType(
        ConvertTypeIdToString(old_types_, old_field.GetReferencedType()));
    new_field.SetReferencedType(
        ConvertTypeIdToString(new_types_, new_field.GetReferencedType()));
  }
  return diffed_fields_dup;
}

DiffStatus AbiDiffHelper::CompareFunctionTypes(
    const FunctionTypeIR *old_type,
    const FunctionTypeIR *new_type,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  DiffStatus param_diffs = CompareFunctionParameters(old_type->GetParameters(),
                                                     new_type->GetParameters(),
                                                     type_queue, diff_kind);
  DiffStatus return_type_diff =
      CompareAndDumpTypeDiff(old_type->GetReturnType(),
                             new_type->GetReturnType(),
                             type_queue, diff_kind);

  if (param_diffs == DiffStatus::direct_diff ||
      return_type_diff == DiffStatus::direct_diff) {
    return DiffStatus::direct_diff;
  }

  if (param_diffs == DiffStatus::indirect_diff ||
      return_type_diff == DiffStatus::indirect_diff) {
    return DiffStatus::indirect_diff;
  }

  return DiffStatus::no_diff;
}

DiffStatus AbiDiffHelper::CompareRecordTypes(
    const RecordTypeIR *old_type,
    const RecordTypeIR *new_type,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  auto record_type_diff_ir = std::make_unique<RecordTypeDiffIR>();
  // Compare names.
  if (!old_type->IsAnonymous() && !new_type->IsAnonymous() &&
      old_type->GetLinkerSetKey() != new_type->GetLinkerSetKey()) {
    // Do not dump anything since the record types themselves are fundamentally
    // different.
    return DiffStatus::direct_diff;
  }
  DiffStatus final_diff_status = DiffStatus::no_diff;
  record_type_diff_ir->SetName(old_type->GetName());
  if (IsAccessDownGraded(old_type->GetAccess(), new_type->GetAccess())) {
    final_diff_status = DiffStatus::indirect_diff;
    record_type_diff_ir->SetAccessDiff(
        std::make_unique<AccessSpecifierDiffIR>(
            old_type->GetAccess(), new_type->GetAccess()));
  }

  if (!CompareSizeAndAlignment(old_type, new_type)) {
    final_diff_status = DiffStatus::indirect_diff;
    record_type_diff_ir->SetTypeDiff(
        std::make_unique<TypeDiffIR>(
            std::make_pair(old_type->GetSize(), new_type->GetSize()),
            std::make_pair(old_type->GetAlignment(),
                           new_type->GetAlignment())));
  }
  if (!CompareVTables(old_type, new_type)) {
    final_diff_status = DiffStatus::indirect_diff;
    record_type_diff_ir->SetVTableLayoutDiff(
        std::make_unique<VTableLayoutDiffIR>(
            old_type->GetVTableLayout(), new_type->GetVTableLayout()));
  }
  auto &old_fields_dup = old_type->GetFields();
  auto &new_fields_dup = new_type->GetFields();
  auto field_status_and_diffs = CompareRecordFields(
      old_fields_dup, new_fields_dup, type_queue, diff_kind);
  // TODO: Combine this with base class diffs as well.
  final_diff_status = final_diff_status | field_status_and_diffs.diff_status_;

  std::vector<CXXBaseSpecifierIR> old_bases = old_type->GetBases();
  std::vector<CXXBaseSpecifierIR> new_bases = new_type->GetBases();

  if (!CompareBaseSpecifiers(old_bases, new_bases, type_queue, diff_kind) &&
      ir_diff_dumper_) {
    ReplaceReferencesOtherTypeIdWithName(old_types_, old_bases);
    ReplaceReferencesOtherTypeIdWithName(new_types_, new_bases);
    record_type_diff_ir->SetBaseSpecifierDiffs (
        std::make_unique<CXXBaseSpecifierDiffIR>(old_bases,
                                                           new_bases));
  }
  if (ir_diff_dumper_) {
    // Make copies of the fields removed and diffed, since we have to change
    // type ids -> type strings.
    std::vector<std::pair<RecordFieldIR, RecordFieldIR>> field_diff_dups =
        FixupDiffedFieldTypeIds(field_status_and_diffs.diffed_fields_);
    std::vector<RecordFieldDiffIR> field_diffs_fixed =
        ConvertToDiffContainerVector<RecordFieldDiffIR,
                                     RecordFieldIR>(field_diff_dups);

    std::vector<RecordFieldIR> field_removed_dups =
        FixupRemovedFieldTypeIds(field_status_and_diffs.removed_fields_,
                                 old_types_);
    std::vector<const RecordFieldIR *> fields_removed_fixed =
        ConvertToConstPtrVector(field_removed_dups);

    std::vector<RecordFieldIR> field_added_dups =
        FixupRemovedFieldTypeIds(field_status_and_diffs.added_fields_,
                                 new_types_);
    std::vector<const RecordFieldIR *> fields_added_fixed =
        ConvertToConstPtrVector(field_added_dups);

    record_type_diff_ir->SetFieldDiffs(std::move(field_diffs_fixed));
    record_type_diff_ir->SetFieldsRemoved(std::move(fields_removed_fixed));
    record_type_diff_ir->SetFieldsAdded(std::move(fields_added_fixed));

    if (record_type_diff_ir->DiffExists() &&
        !ir_diff_dumper_->AddDiffMessageIR(record_type_diff_ir.get(),
                                           Unwind(type_queue), diff_kind)) {
      llvm::errs() << "AddDiffMessage on record type failed\n";
      ::exit(1);
    }
  }

  final_diff_status = final_diff_status |
      CompareTemplateInfo(old_type->GetTemplateElements(),
                          new_type->GetTemplateElements(),
                          type_queue, diff_kind);

  // Records cannot be 'extended' compatibly, without a certain amount of risk.
  return ((final_diff_status &
           (DiffStatus::direct_diff | DiffStatus::indirect_diff)) ?
          DiffStatus::indirect_diff : DiffStatus::no_diff);
}

DiffStatus AbiDiffHelper::CompareLvalueReferenceTypes(
    const LvalueReferenceTypeIR *old_type,
    const LvalueReferenceTypeIR *new_type,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  return CompareAndDumpTypeDiff(old_type->GetReferencedType(),
                                new_type->GetReferencedType(),
                                type_queue, diff_kind);
}

DiffStatus AbiDiffHelper::CompareRvalueReferenceTypes(
    const RvalueReferenceTypeIR *old_type,
    const RvalueReferenceTypeIR *new_type,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  return CompareAndDumpTypeDiff(old_type->GetReferencedType(),
                                new_type->GetReferencedType(),
                                type_queue, diff_kind);
}

DiffStatus AbiDiffHelper::CompareQualifiedTypes(
    const QualifiedTypeIR *old_type,
    const QualifiedTypeIR *new_type,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  // If all the qualifiers are not the same, return direct_diff, else
  // recursively compare the unqualified types.
  if (old_type->IsConst() != new_type->IsConst() ||
      old_type->IsVolatile() != new_type->IsVolatile() ||
      old_type->IsRestricted() != new_type->IsRestricted()) {
    return DiffStatus::direct_diff;
  }
  return CompareAndDumpTypeDiff(old_type->GetReferencedType(),
                                new_type->GetReferencedType(),
                                type_queue, diff_kind);
}

DiffStatus AbiDiffHelper::ComparePointerTypes(
    const PointerTypeIR *old_type,
    const PointerTypeIR *new_type,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  // The following need to be the same for two pointer types to be considered
  // equivalent:
  // 1) Number of pointer indirections are the same.
  // 2) The ultimate pointee is the same.
  assert(CompareSizeAndAlignment(old_type, new_type));
  return CompareAndDumpTypeDiff(old_type->GetReferencedType(),
                                new_type->GetReferencedType(),
                                type_queue, diff_kind);
}

DiffStatus AbiDiffHelper::CompareBuiltinTypes(
    const BuiltinTypeIR *old_type,
    const BuiltinTypeIR *new_type) {
  // If the size, alignment and is_unsigned are the same, return no_diff
  // else return direct_diff.
  if (!CompareSizeAndAlignment(old_type, new_type) ||
      old_type->IsUnsigned() != new_type->IsUnsigned() ||
      old_type->IsIntegralType() != new_type->IsIntegralType()) {
    return DiffStatus::direct_diff;
  }
  return DiffStatus::no_diff;
}

DiffStatus AbiDiffHelper::CompareFunctionParameters(
    const std::vector<ParamIR> &old_parameters,
    const std::vector<ParamIR> &new_parameters,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  size_t old_parameters_size = old_parameters.size();
  if (old_parameters_size != new_parameters.size()) {
    return DiffStatus::direct_diff;
  }
  uint64_t i = 0;
  while (i < old_parameters_size) {
    const ParamIR &old_parameter = old_parameters.at(i);
    const ParamIR &new_parameter = new_parameters.at(i);
    if ((CompareAndDumpTypeDiff(old_parameter.GetReferencedType(),
                               new_parameter.GetReferencedType(),
                               type_queue, diff_kind) ==
        DiffStatus::direct_diff) ||
        (old_parameter.GetIsDefault() != new_parameter.GetIsDefault())) {
      return DiffStatus::direct_diff;
    }
    i++;
  }
  return DiffStatus::no_diff;
}

DiffStatus AbiDiffHelper::CompareAndDumpTypeDiff(
    const TypeIR *old_type, const TypeIR *new_type,
    LinkableMessageKind kind, std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  if (kind == LinkableMessageKind::BuiltinTypeKind) {
    return CompareBuiltinTypes(
        static_cast<const BuiltinTypeIR *>(old_type),
        static_cast<const BuiltinTypeIR *>(new_type));
  }

  if (kind == LinkableMessageKind::QualifiedTypeKind) {
    return CompareQualifiedTypes(
        static_cast<const QualifiedTypeIR *>(old_type),
        static_cast<const QualifiedTypeIR *>(new_type),
        type_queue, diff_kind);
  }

  if (kind == LinkableMessageKind::EnumTypeKind) {
    return CompareEnumTypes(
        static_cast<const EnumTypeIR *>(old_type),
        static_cast<const EnumTypeIR *>(new_type),
        type_queue, diff_kind);
  }

  if (kind == LinkableMessageKind::LvalueReferenceTypeKind) {
    return CompareLvalueReferenceTypes(
        static_cast<const LvalueReferenceTypeIR *>(old_type),
        static_cast<const LvalueReferenceTypeIR *>(new_type),
        type_queue, diff_kind);
  }

  if (kind == LinkableMessageKind::RvalueReferenceTypeKind) {
    return CompareRvalueReferenceTypes(
        static_cast<const RvalueReferenceTypeIR *>(old_type),
        static_cast<const RvalueReferenceTypeIR *>(new_type),
        type_queue, diff_kind);
  }

  if (kind == LinkableMessageKind::PointerTypeKind) {
    return ComparePointerTypes(
        static_cast<const PointerTypeIR *>(old_type),
        static_cast<const PointerTypeIR *>(new_type),
        type_queue, diff_kind);
  }

  if (kind == LinkableMessageKind::RecordTypeKind) {
    return CompareRecordTypes(
        static_cast<const RecordTypeIR *>(old_type),
        static_cast<const RecordTypeIR *>(new_type),
        type_queue, diff_kind);
  }

  if (kind == LinkableMessageKind::FunctionTypeKind) {
    return CompareFunctionTypes(
        static_cast<const FunctionTypeIR *>(old_type),
        static_cast<const FunctionTypeIR *>(new_type),
        type_queue, diff_kind);
  }
  return DiffStatus::no_diff;
}

static DiffStatus CompareDistinctKindMessages(
    const TypeIR *old_type, const TypeIR *new_type) {
  // For these types to be considered ABI compatible, the very least requirement
  // is that their sizes and alignments should be equal.
  // TODO: Fill in
  return DiffStatus::direct_diff;
}

DiffStatus AbiDiffHelper::CompareAndDumpTypeDiff(
    const std::string &old_type_id, const std::string &new_type_id,
    std::deque<std::string> *type_queue,
    DiffMessageIR::DiffKind diff_kind) {
  // Check the map for type ids which have already been compared
  // These types have already been diffed, return without further comparison.
  if (!type_cache_->insert(old_type_id + new_type_id).second) {
    return DiffStatus::no_diff;
  }

  TypeQueueCheckAndPushBack(
      type_queue, ConvertTypeIdToString(old_types_,old_type_id));

  AbiElementMap<const TypeIR *>::const_iterator old_it =
      old_types_.find(old_type_id);
  AbiElementMap<const TypeIR *>::const_iterator new_it =
      new_types_.find(new_type_id);

  if (old_it == old_types_.end() || new_it == new_types_.end()) {
    TypeQueueCheckAndPop(type_queue);
    // One of the types were hidden, we cannot compare further.
    if (diff_policy_options_.consider_opaque_types_different_) {
      return DiffStatus::opaque_diff;
    }
    return DiffStatus::no_diff;
  }

  LinkableMessageKind old_kind = old_it->second->GetKind();
  LinkableMessageKind new_kind = new_it->second->GetKind();
  DiffStatus diff_status = DiffStatus::no_diff;
  if (old_kind != new_kind) {
    diff_status = CompareDistinctKindMessages(old_it->second, new_it->second);
  } else {
    diff_status = CompareAndDumpTypeDiff(old_it->second , new_it->second ,
                                         old_kind, type_queue, diff_kind);
  }

  TypeQueueCheckAndPop(type_queue);

  if (diff_policy_options_.consider_opaque_types_different_ &&
      diff_status == DiffStatus::opaque_diff) {
    // If `-considered-opaque-types-different` is specified and the comparison
    // of `referenced_type` results in `opaque_diff`, then check the type name
    // at this level.
    return (old_it->second->GetName() == new_it->second->GetName() ?
            DiffStatus::no_diff : DiffStatus::direct_diff);
  }

  return diff_status;
}


}  // namespace repr
}  // namespace header_checker