[llvm-branch-commits] [llvm] [BOLT] Factor out MCInstReference from gadget scanner (NFC) (PR #138655)

[Anatoly Trosinenko via llvm-branch-commits]

https://github.com/atrosinenko updated https://github.com/llvm/llvm-project/pull/138655

>From cbcac1bc4612b601a5ec963663ba69a5f212feb1 Mon Sep 17 00:00:00 2001
From: Anatoly Trosinenko <atrosinenko at accesssoftek.com>
Date: Mon, 28 Apr 2025 18:35:48 +0300
Subject: [PATCH] [BOLT] Factor out MCInstReference from gadget scanner (NFC)

Move MCInstReference representing a constant reference to an instruction
inside a parent entity - either inside a basic block (which has a
reference to its parent function) or directly to the function (when CFG
information is not available).
---
 bolt/include/bolt/Core/MCInstUtils.h          | 172 +++++++++++++++++
 bolt/include/bolt/Passes/PAuthGadgetScanner.h | 180 +-----------------
 bolt/lib/Core/CMakeLists.txt                  |   1 +
 bolt/lib/Core/MCInstUtils.cpp                 |  57 ++++++
 bolt/lib/Passes/PAuthGadgetScanner.cpp        |  99 ++++------
 5 files changed, 272 insertions(+), 237 deletions(-)
 create mode 100644 bolt/include/bolt/Core/MCInstUtils.h
 create mode 100644 bolt/lib/Core/MCInstUtils.cpp

diff --git a/bolt/include/bolt/Core/MCInstUtils.h b/bolt/include/bolt/Core/MCInstUtils.h
new file mode 100644
index 0000000000000..a3912a8fb265a
--- /dev/null
+++ b/bolt/include/bolt/Core/MCInstUtils.h
@@ -0,0 +1,172 @@
+//===- bolt/Core/MCInstUtils.h ----------------------------------*- 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
+//
+//===----------------------------------------------------------------------===//
+
+#ifndef BOLT_CORE_MCINSTUTILS_H
+#define BOLT_CORE_MCINSTUTILS_H
+
+#include "bolt/Core/BinaryBasicBlock.h"
+
+#include <functional>
+#include <map>
+#include <variant>
+
+namespace llvm {
+namespace bolt {
+
+class BinaryFunction;
+
+/// MCInstReference represents a reference to a constant MCInst as stored either
+/// in a BinaryFunction (i.e. before a CFG is created), or in a BinaryBasicBlock
+/// (after a CFG is created).
+class MCInstReference {
+  using nocfg_const_iterator = std::map<uint32_t, MCInst>::const_iterator;
+
+  // Two cases are possible:
+  // * functions with CFG reconstructed - a function stores a collection of
+  //   basic blocks, each basic block stores a contiguous vector of MCInst
+  // * functions without CFG - there are no basic blocks created,
+  //   the instructions are directly stored in std::map in BinaryFunction
+  //
+  // In both cases, the direct parent of MCInst is stored together with an
+  // iterator pointing to the instruction.
+
+  // Helper struct: CFG is available, the direct parent is a basic block,
+  // iterator's type is `MCInst *`.
+  struct RefInBB {
+    RefInBB(const BinaryBasicBlock *BB, const MCInst *Inst)
+        : BB(BB), It(Inst) {}
+    RefInBB(const RefInBB &Other) = default;
+    RefInBB &operator=(const RefInBB &Other) = default;
+
+    const BinaryBasicBlock *BB;
+    BinaryBasicBlock::const_iterator It;
+
+    bool operator<(const RefInBB &Other) const {
+      if (BB != Other.BB)
+        return std::less<const BinaryBasicBlock *>{}(BB, Other.BB);
+      return It < Other.It;
+    }
+
+    bool operator==(const RefInBB &Other) const {
+      return BB == Other.BB && It == Other.It;
+    }
+  };
+
+  // Helper struct: CFG is *not* available, the direct parent is a function,
+  // iterator's type is std::map<uint32_t, MCInst>::iterator (the mapped value
+  // is an instruction's offset).
+  struct RefInBF {
+    RefInBF(const BinaryFunction *BF, nocfg_const_iterator It)
+        : BF(BF), It(It) {}
+    RefInBF(const RefInBF &Other) = default;
+    RefInBF &operator=(const RefInBF &Other) = default;
+
+    const BinaryFunction *BF;
+    nocfg_const_iterator It;
+
+    bool operator<(const RefInBF &Other) const {
+      if (BF != Other.BF)
+        return std::less<const BinaryFunction *>{}(BF, Other.BF);
+      return It->first < Other.It->first;
+    }
+
+    bool operator==(const RefInBF &Other) const {
+      return BF == Other.BF && It->first == Other.It->first;
+    }
+  };
+
+  std::variant<RefInBB, RefInBF> Reference;
+
+  // Utility methods to be used like this:
+  //
+  //     if (auto *Ref = tryGetRefInBB())
+  //       return Ref->doSomething(...);
+  //     return getRefInBF().doSomethingElse(...);
+  const RefInBB *tryGetRefInBB() const {
+    assert(std::get_if<RefInBB>(&Reference) ||
+           std::get_if<RefInBF>(&Reference));
+    return std::get_if<RefInBB>(&Reference);
+  }
+  const RefInBF &getRefInBF() const {
+    assert(std::get_if<RefInBF>(&Reference));
+    return *std::get_if<RefInBF>(&Reference);
+  }
+
+public:
+  /// Constructs an empty reference.
+  MCInstReference() : Reference(RefInBB(nullptr, nullptr)) {}
+  /// Constructs a reference to the instruction inside the basic block.
+  MCInstReference(const BinaryBasicBlock *BB, const MCInst *Inst)
+      : Reference(RefInBB(BB, Inst)) {
+    assert(BB && Inst && "Neither BB nor Inst should be nullptr");
+  }
+  /// Constructs a reference to the instruction inside the basic block.
+  MCInstReference(const BinaryBasicBlock *BB, unsigned Index)
+      : Reference(RefInBB(BB, &BB->getInstructionAtIndex(Index))) {
+    assert(BB && "Basic block should not be nullptr");
+  }
+  /// Constructs a reference to the instruction inside the function without
+  /// CFG information.
+  MCInstReference(const BinaryFunction *BF, nocfg_const_iterator It)
+      : Reference(RefInBF(BF, It)) {
+    assert(BF && "Function should not be nullptr");
+  }
+
+  /// Locates an instruction inside a function and returns a reference.
+  static MCInstReference get(const MCInst *Inst, const BinaryFunction &BF);
+
+  bool operator<(const MCInstReference &Other) const {
+    return Reference < Other.Reference;
+  }
+
+  bool operator==(const MCInstReference &Other) const {
+    return Reference == Other.Reference;
+  }
+
+  const MCInst &getMCInst() const {
+    if (auto *Ref = tryGetRefInBB())
+      return *Ref->It;
+    return getRefInBF().It->second;
+  }
+
+  operator const MCInst &() const { return getMCInst(); }
+
+  operator bool() const {
+    if (auto *Ref = tryGetRefInBB())
+      return Ref->BB != nullptr;
+    return getRefInBF().BF != nullptr;
+  }
+
+  bool hasCFG() const {
+    return static_cast<bool>(*this) && tryGetRefInBB() != nullptr;
+  }
+
+  const BinaryFunction *getFunction() const {
+    if (auto *Ref = tryGetRefInBB())
+      return Ref->BB->getFunction();
+    return getRefInBF().BF;
+  }
+
+  const BinaryBasicBlock *getBasicBlock() const {
+    if (auto *Ref = tryGetRefInBB())
+      return Ref->BB;
+    return nullptr;
+  }
+
+  raw_ostream &print(raw_ostream &OS) const;
+};
+
+static inline raw_ostream &operator<<(raw_ostream &OS,
+                                      const MCInstReference &Ref) {
+  return Ref.print(OS);
+}
+
+} // namespace bolt
+} // namespace llvm
+
+#endif
diff --git a/bolt/include/bolt/Passes/PAuthGadgetScanner.h b/bolt/include/bolt/Passes/PAuthGadgetScanner.h
index 1df76663b83da..fab5fd1016e33 100644
--- a/bolt/include/bolt/Passes/PAuthGadgetScanner.h
+++ b/bolt/include/bolt/Passes/PAuthGadgetScanner.h
@@ -11,191 +11,13 @@
 
 #include "bolt/Core/BinaryContext.h"
 #include "bolt/Core/BinaryFunction.h"
+#include "bolt/Core/MCInstUtils.h"
 #include "bolt/Passes/BinaryPasses.h"
 #include "llvm/Support/raw_ostream.h"
 #include <memory>
 
 namespace llvm {
 namespace bolt {
-
-/// @brief  MCInstReference represents a reference to an MCInst as stored either
-/// in a BinaryFunction (i.e. before a CFG is created), or in a BinaryBasicBlock
-/// (after a CFG is created). It aims to store the necessary information to be
-/// able to find the specific MCInst in either the BinaryFunction or
-/// BinaryBasicBlock data structures later, so that e.g. the InputAddress of
-/// the corresponding instruction can be computed.
-
-struct MCInstInBBReference {
-  BinaryBasicBlock *BB;
-  int64_t BBIndex;
-  MCInstInBBReference(BinaryBasicBlock *BB, int64_t BBIndex)
-      : BB(BB), BBIndex(BBIndex) {}
-  MCInstInBBReference() : BB(nullptr), BBIndex(0) {}
-  static MCInstInBBReference get(const MCInst *Inst, BinaryFunction &BF) {
-    for (BinaryBasicBlock &BB : BF)
-      for (size_t I = 0; I < BB.size(); ++I)
-        if (Inst == &BB.getInstructionAtIndex(I))
-          return MCInstInBBReference(&BB, I);
-    return {};
-  }
-  bool operator==(const MCInstInBBReference &RHS) const {
-    return BB == RHS.BB && BBIndex == RHS.BBIndex;
-  }
-  bool operator<(const MCInstInBBReference &RHS) const {
-    if (BB != RHS.BB)
-      return BB < RHS.BB;
-    return BBIndex < RHS.BBIndex;
-  }
-  operator MCInst &() const {
-    assert(BB != nullptr);
-    return BB->getInstructionAtIndex(BBIndex);
-  }
-  uint64_t getAddress() const {
-    // 4 bytes per instruction on AArch64.
-    // FIXME: the assumption of 4 byte per instruction needs to be fixed before
-    // this method gets used on any non-AArch64 binaries (but should be fine for
-    // pac-ret analysis, as that is an AArch64-specific feature).
-    return BB->getFunction()->getAddress() + BB->getOffset() + BBIndex * 4;
-  }
-};
-
-raw_ostream &operator<<(raw_ostream &OS, const MCInstInBBReference &);
-
-struct MCInstInBFReference {
-  BinaryFunction *BF;
-  uint64_t Offset;
-  MCInstInBFReference(BinaryFunction *BF, uint64_t Offset)
-      : BF(BF), Offset(Offset) {}
-
-  static MCInstInBFReference get(const MCInst *Inst, BinaryFunction &BF) {
-    for (auto &I : BF.instrs())
-      if (Inst == &I.second)
-        return MCInstInBFReference(&BF, I.first);
-    return {};
-  }
-
-  MCInstInBFReference() : BF(nullptr), Offset(0) {}
-  bool operator==(const MCInstInBFReference &RHS) const {
-    return BF == RHS.BF && Offset == RHS.Offset;
-  }
-  bool operator<(const MCInstInBFReference &RHS) const {
-    if (BF != RHS.BF)
-      return BF < RHS.BF;
-    return Offset < RHS.Offset;
-  }
-  operator MCInst &() const {
-    assert(BF != nullptr);
-    return *BF->getInstructionAtOffset(Offset);
-  }
-
-  uint64_t getOffset() const { return Offset; }
-
-  uint64_t getAddress() const { return BF->getAddress() + getOffset(); }
-};
-
-raw_ostream &operator<<(raw_ostream &OS, const MCInstInBFReference &);
-
-struct MCInstReference {
-  enum Kind { FunctionParent, BasicBlockParent };
-  Kind ParentKind;
-  union U {
-    MCInstInBBReference BBRef;
-    MCInstInBFReference BFRef;
-    U(MCInstInBBReference BBRef) : BBRef(BBRef) {}
-    U(MCInstInBFReference BFRef) : BFRef(BFRef) {}
-  } U;
-  MCInstReference(MCInstInBBReference BBRef)
-      : ParentKind(BasicBlockParent), U(BBRef) {}
-  MCInstReference(MCInstInBFReference BFRef)
-      : ParentKind(FunctionParent), U(BFRef) {}
-  MCInstReference(BinaryBasicBlock *BB, int64_t BBIndex)
-      : MCInstReference(MCInstInBBReference(BB, BBIndex)) {}
-  MCInstReference(BinaryFunction *BF, uint32_t Offset)
-      : MCInstReference(MCInstInBFReference(BF, Offset)) {}
-
-  static MCInstReference get(const MCInst *Inst, BinaryFunction &BF) {
-    if (BF.hasCFG())
-      return MCInstInBBReference::get(Inst, BF);
-    return MCInstInBFReference::get(Inst, BF);
-  }
-
-  bool operator<(const MCInstReference &RHS) const {
-    if (ParentKind != RHS.ParentKind)
-      return ParentKind < RHS.ParentKind;
-    switch (ParentKind) {
-    case BasicBlockParent:
-      return U.BBRef < RHS.U.BBRef;
-    case FunctionParent:
-      return U.BFRef < RHS.U.BFRef;
-    }
-    llvm_unreachable("");
-  }
-
-  bool operator==(const MCInstReference &RHS) const {
-    if (ParentKind != RHS.ParentKind)
-      return false;
-    switch (ParentKind) {
-    case BasicBlockParent:
-      return U.BBRef == RHS.U.BBRef;
-    case FunctionParent:
-      return U.BFRef == RHS.U.BFRef;
-    }
-    llvm_unreachable("");
-  }
-
-  operator MCInst &() const {
-    switch (ParentKind) {
-    case BasicBlockParent:
-      return U.BBRef;
-    case FunctionParent:
-      return U.BFRef;
-    }
-    llvm_unreachable("");
-  }
-
-  operator bool() const {
-    switch (ParentKind) {
-    case BasicBlockParent:
-      return U.BBRef.BB != nullptr;
-    case FunctionParent:
-      return U.BFRef.BF != nullptr;
-    }
-    llvm_unreachable("");
-  }
-
-  uint64_t getAddress() const {
-    switch (ParentKind) {
-    case BasicBlockParent:
-      return U.BBRef.getAddress();
-    case FunctionParent:
-      return U.BFRef.getAddress();
-    }
-    llvm_unreachable("");
-  }
-
-  BinaryFunction *getFunction() const {
-    switch (ParentKind) {
-    case FunctionParent:
-      return U.BFRef.BF;
-    case BasicBlockParent:
-      return U.BBRef.BB->getFunction();
-    }
-    llvm_unreachable("");
-  }
-
-  BinaryBasicBlock *getBasicBlock() const {
-    switch (ParentKind) {
-    case FunctionParent:
-      return nullptr;
-    case BasicBlockParent:
-      return U.BBRef.BB;
-    }
-    llvm_unreachable("");
-  }
-};
-
-raw_ostream &operator<<(raw_ostream &OS, const MCInstReference &);
-
 namespace PAuthGadgetScanner {
 
 // The report classes are designed to be used in an immutable manner.
diff --git a/bolt/lib/Core/CMakeLists.txt b/bolt/lib/Core/CMakeLists.txt
index 8c1f5d0bb37b5..05afd5b333de5 100644
--- a/bolt/lib/Core/CMakeLists.txt
+++ b/bolt/lib/Core/CMakeLists.txt
@@ -31,6 +31,7 @@ add_llvm_library(LLVMBOLTCore
   GDBIndex.cpp
   HashUtilities.cpp
   JumpTable.cpp
+  MCInstUtils.cpp
   MCPlusBuilder.cpp
   ParallelUtilities.cpp
   Relocation.cpp
diff --git a/bolt/lib/Core/MCInstUtils.cpp b/bolt/lib/Core/MCInstUtils.cpp
new file mode 100644
index 0000000000000..40f6edd59135c
--- /dev/null
+++ b/bolt/lib/Core/MCInstUtils.cpp
@@ -0,0 +1,57 @@
+//===- bolt/Passes/MCInstUtils.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
+//
+//===----------------------------------------------------------------------===//
+
+#include "bolt/Core/MCInstUtils.h"
+
+#include "bolt/Core/BinaryBasicBlock.h"
+#include "bolt/Core/BinaryFunction.h"
+
+#include <iterator>
+
+using namespace llvm;
+using namespace llvm::bolt;
+
+MCInstReference MCInstReference::get(const MCInst *Inst,
+                                     const BinaryFunction &BF) {
+  if (BF.hasCFG()) {
+    for (BinaryBasicBlock &BB : BF)
+      for (MCInst &MI : BB)
+        if (&MI == Inst)
+          return MCInstReference(&BB, Inst);
+    return {};
+  }
+
+  for (auto I = BF.instrs().begin(), E = BF.instrs().end(); I != E; ++I) {
+    if (&I->second == Inst)
+      return MCInstReference(&BF, I);
+  }
+  return {};
+}
+
+raw_ostream &MCInstReference::print(raw_ostream &OS) const {
+  if (const RefInBB *Ref = tryGetRefInBB()) {
+    OS << "MCInstBBRef<";
+    if (Ref->BB == nullptr) {
+      OS << "BB:(null)";
+    } else {
+      unsigned IndexInBB = std::distance(Ref->BB->begin(), Ref->It);
+      OS << "BB:" << Ref->BB->getName() << ":" << IndexInBB;
+    }
+    OS << ">";
+    return OS;
+  }
+
+  const RefInBF &Ref = getRefInBF();
+  OS << "MCInstBFRef<";
+  if (Ref.BF == nullptr)
+    OS << "BF:(null)";
+  else
+    OS << "BF:" << Ref.BF->getPrintName() << ":" << Ref.It->first;
+  OS << ">";
+  return OS;
+}
diff --git a/bolt/lib/Passes/PAuthGadgetScanner.cpp b/bolt/lib/Passes/PAuthGadgetScanner.cpp
index 835ee26aaf08a..10a3f9716c201 100644
--- a/bolt/lib/Passes/PAuthGadgetScanner.cpp
+++ b/bolt/lib/Passes/PAuthGadgetScanner.cpp
@@ -24,39 +24,6 @@
 
 namespace llvm {
 namespace bolt {
-
-raw_ostream &operator<<(raw_ostream &OS, const MCInstInBBReference &Ref) {
-  OS << "MCInstBBRef<";
-  if (Ref.BB == nullptr)
-    OS << "BB:(null)";
-  else
-    OS << "BB:" << Ref.BB->getName() << ":" << Ref.BBIndex;
-  OS << ">";
-  return OS;
-}
-
-raw_ostream &operator<<(raw_ostream &OS, const MCInstInBFReference &Ref) {
-  OS << "MCInstBFRef<";
-  if (Ref.BF == nullptr)
-    OS << "BF:(null)";
-  else
-    OS << "BF:" << Ref.BF->getPrintName() << ":" << Ref.getOffset();
-  OS << ">";
-  return OS;
-}
-
-raw_ostream &operator<<(raw_ostream &OS, const MCInstReference &Ref) {
-  switch (Ref.ParentKind) {
-  case MCInstReference::BasicBlockParent:
-    OS << Ref.U.BBRef;
-    return OS;
-  case MCInstReference::FunctionParent:
-    OS << Ref.U.BFRef;
-    return OS;
-  }
-  llvm_unreachable("");
-}
-
 namespace PAuthGadgetScanner {
 
 [[maybe_unused]] static void traceInst(const BinaryContext &BC, StringRef Label,
@@ -93,10 +60,10 @@ template <typename T> static void iterateOverInstrs(BinaryFunction &BF, T Fn) {
   if (BF.hasCFG()) {
     for (BinaryBasicBlock &BB : BF)
       for (int64_t I = 0, E = BB.size(); I < E; ++I)
-        Fn(MCInstInBBReference(&BB, I));
+        Fn(MCInstReference(&BB, I));
   } else {
-    for (auto I : BF.instrs())
-      Fn(MCInstInBFReference(&BF, I.first));
+    for (auto I = BF.instrs().begin(), E = BF.instrs().end(); I != E; ++I)
+      Fn(MCInstReference(&BF, I));
   }
 }
 
@@ -1499,7 +1466,7 @@ void FunctionAnalysisContext::findUnsafeUses(
 
       // Arbitrarily attach the report to the first instruction of BB.
       Reports.push_back(
-          make_generic_report(MCInstReference::get(FirstInst, BF),
+          make_generic_report(MCInstReference(&BB, FirstInst),
                               "Warning: the function has unreachable basic "
                               "blocks (possibly incomplete CFG)"));
       UnreachableBBReported = true;
@@ -1660,31 +1627,49 @@ void Analysis::runOnFunction(BinaryFunction &BF,
   }
 }
 
+// Compute the instruction address for printing (may be slow).
+static uint64_t getAddress(const MCInstReference &Inst) {
+  const BinaryFunction *BF = Inst.getFunction();
+
+  if (Inst.hasCFG()) {
+    const BinaryBasicBlock *BB = Inst.getBasicBlock();
+
+    auto It = static_cast<BinaryBasicBlock::const_iterator>(&Inst.getMCInst());
+    unsigned IndexInBB = std::distance(BB->begin(), It);
+
+    // FIXME: this assumes all instructions are 4 bytes in size. This is true
+    // for AArch64, but it might be good to extract this function so it can be
+    // used elsewhere and for other targets too.
+    return BF->getAddress() + BB->getOffset() + IndexInBB * 4;
+  }
+
+  for (auto I = BF->instrs().begin(), E = BF->instrs().end(); I != E; ++I) {
+    if (&I->second == &Inst.getMCInst())
+      return BF->getAddress() + I->first;
+  }
+  llvm_unreachable("Instruction not found in function");
+}
+
 static void printBB(const BinaryContext &BC, const BinaryBasicBlock *BB,
                     size_t StartIndex = 0, size_t EndIndex = -1) {
   if (EndIndex == (size_t)-1)
     EndIndex = BB->size() - 1;
   const BinaryFunction *BF = BB->getFunction();
   for (unsigned I = StartIndex; I <= EndIndex; ++I) {
-    // FIXME: this assumes all instructions are 4 bytes in size. This is true
-    // for AArch64, but it might be good to extract this function so it can be
-    // used elsewhere and for other targets too.
-    uint64_t Address = BB->getOffset() + BF->getAddress() + 4 * I;
-    const MCInst &Inst = BB->getInstructionAtIndex(I);
+    MCInstReference Inst(BB, I);
     if (BC.MIB->isCFI(Inst))
       continue;
-    BC.printInstruction(outs(), Inst, Address, BF);
+    BC.printInstruction(outs(), Inst, getAddress(Inst), BF);
   }
 }
 
 static void reportFoundGadgetInSingleBBSingleRelatedInst(
     raw_ostream &OS, const BinaryContext &BC, const MCInstReference RelatedInst,
     const MCInstReference Location) {
-  BinaryBasicBlock *BB = Location.getBasicBlock();
-  assert(RelatedInst.ParentKind == MCInstReference::BasicBlockParent);
-  assert(Location.ParentKind == MCInstReference::BasicBlockParent);
-  MCInstInBBReference RelatedInstBB = RelatedInst.U.BBRef;
-  if (BB == RelatedInstBB.BB) {
+  const BinaryBasicBlock *BB = Location.getBasicBlock();
+  assert(RelatedInst.hasCFG());
+  assert(Location.hasCFG());
+  if (BB == RelatedInst.getBasicBlock()) {
     OS << "  This happens in the following basic block:\n";
     printBB(BC, BB);
   }
@@ -1692,16 +1677,16 @@ static void reportFoundGadgetInSingleBBSingleRelatedInst(
 
 void Diagnostic::printBasicInfo(raw_ostream &OS, const BinaryContext &BC,
                                 StringRef IssueKind) const {
-  BinaryFunction *BF = Location.getFunction();
-  BinaryBasicBlock *BB = Location.getBasicBlock();
+  const BinaryBasicBlock *BB = Location.getBasicBlock();
+  const BinaryFunction *BF = Location.getFunction();
 
   OS << "\nGS-PAUTH: " << IssueKind;
   OS << " in function " << BF->getPrintName();
   if (BB)
     OS << ", basic block " << BB->getName();
-  OS << ", at address " << llvm::format("%x", Location.getAddress()) << "\n";
+  OS << ", at address " << llvm::format("%x", getAddress(Location)) << "\n";
   OS << "  The instruction is ";
-  BC.printInstruction(OS, Location, Location.getAddress(), BF);
+  BC.printInstruction(OS, Location, getAddress(Location), BF);
 }
 
 void GadgetDiagnostic::generateReport(raw_ostream &OS,
@@ -1714,22 +1699,20 @@ static void printRelatedInstrs(raw_ostream &OS, const MCInstReference Location,
   const BinaryFunction &BF = *Location.getFunction();
   const BinaryContext &BC = BF.getBinaryContext();
 
-  // Sort by address to ensure output is deterministic.
+  // Sort the references to make output deterministic.
   SmallVector<MCInstReference> RI(RelatedInstrs);
-  llvm::sort(RI, [](const MCInstReference &A, const MCInstReference &B) {
-    return A.getAddress() < B.getAddress();
-  });
+  llvm::sort(RI);
   for (unsigned I = 0; I < RI.size(); ++I) {
     MCInstReference InstRef = RI[I];
     OS << "  " << (I + 1) << ". ";
-    BC.printInstruction(OS, InstRef, InstRef.getAddress(), &BF);
+    BC.printInstruction(OS, InstRef, getAddress(InstRef), &BF);
   };
   if (RelatedInstrs.size() == 1) {
     const MCInstReference RelatedInst = RelatedInstrs[0];
     // Printing the details for the MCInstReference::FunctionParent case
     // is not implemented not to overcomplicate the code, as most functions
     // are expected to have CFG information.
-    if (RelatedInst.ParentKind == MCInstReference::BasicBlockParent)
+    if (RelatedInst.hasCFG())
       reportFoundGadgetInSingleBBSingleRelatedInst(OS, BC, RelatedInst,
                                                    Location);
   }