From 40a355a42d4a9444dc753c04c6608dade2f06a23 Mon Sep 17 00:00:00 2001
From: Daniel Baumann <daniel.baumann@progress-linux.org>
Date: Fri, 19 Apr 2024 03:13:27 +0200
Subject: Adding upstream version 125.0.1.

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
---
 js/src/jit/AtomicOp.h                              |  22 +-
 js/src/jit/BaselineCacheIRCompiler.cpp             |  12 +-
 js/src/jit/CacheIR.cpp                             | 539 +++++++++++-----
 js/src/jit/CacheIR.h                               |  10 +
 js/src/jit/CacheIRCompiler.cpp                     | 710 +++++++++++++++++----
 js/src/jit/CacheIRCompiler.h                       |  35 +-
 js/src/jit/CacheIRGenerator.h                      |   7 +-
 js/src/jit/CacheIROps.yaml                         | 115 ++++
 js/src/jit/CacheIRReader.h                         |   3 +
 js/src/jit/CacheIRSpewer.cpp                       |   6 +
 js/src/jit/CacheIRWriter.h                         |   5 +
 js/src/jit/CodeGenerator.cpp                       | 183 ++++--
 js/src/jit/Disassemble.cpp                         |  27 +
 js/src/jit/ExecutableAllocator.h                   |   3 +-
 js/src/jit/GenerateAtomicOperations.py             |  10 -
 js/src/jit/GenerateCacheIRFiles.py                 |   8 +
 js/src/jit/IonAnalysis.cpp                         |  17 +-
 js/src/jit/IonOptimizationLevels.h                 |   4 +-
 js/src/jit/JitFrames.cpp                           | 105 +--
 js/src/jit/JitFrames.h                             |   2 -
 js/src/jit/JitOptions.cpp                          |   4 +
 js/src/jit/JitOptions.h                            |   2 +
 js/src/jit/JitRuntime.h                            |  16 +-
 js/src/jit/JitScript.cpp                           |  11 +-
 js/src/jit/JitSpewer.cpp                           |   3 -
 js/src/jit/JitSpewer.h                             |   2 -
 js/src/jit/JitZone.h                               |   3 +-
 js/src/jit/LIROps.yaml                             |  59 +-
 js/src/jit/Lowering.cpp                            | 139 +++-
 js/src/jit/MIR.cpp                                 |  85 +++
 js/src/jit/MIR.h                                   | 213 +++++--
 js/src/jit/MIROps.yaml                             |  84 ++-
 js/src/jit/MacroAssembler-inl.h                    |  63 +-
 js/src/jit/MacroAssembler.cpp                      | 255 +++++++-
 js/src/jit/MacroAssembler.h                        | 247 ++++---
 js/src/jit/PcScriptCache.h                         |  88 ---
 js/src/jit/RangeAnalysis.cpp                       |  19 +
 js/src/jit/Recover.cpp                             |  11 +-
 js/src/jit/Registers.h                             |   1 +
 js/src/jit/VMFunctions.cpp                         |  82 +--
 js/src/jit/VMFunctions.h                           |  43 +-
 js/src/jit/WarpBuilderShared.cpp                   |   9 +-
 js/src/jit/WarpCacheIRTranspiler.cpp               | 506 +++++++++++----
 js/src/jit/arm/CodeGenerator-arm.cpp               |   4 -
 js/src/jit/arm/MacroAssembler-arm.cpp              | 160 +++--
 js/src/jit/arm64/CodeGenerator-arm64.cpp           |   4 -
 js/src/jit/arm64/MacroAssembler-arm64.cpp          | 122 ++--
 js/src/jit/loong64/Assembler-loong64.cpp           |   6 +-
 js/src/jit/loong64/Assembler-loong64.h             |  11 +-
 js/src/jit/loong64/CodeGenerator-loong64.cpp       |   4 -
 js/src/jit/loong64/MacroAssembler-loong64.cpp      | 178 +++---
 .../jit/mips-shared/CodeGenerator-mips-shared.cpp  |   4 -
 .../jit/mips-shared/MacroAssembler-mips-shared.cpp | 136 ++--
 js/src/jit/mips32/MacroAssembler-mips32.cpp        |  10 +-
 js/src/jit/mips64/MacroAssembler-mips64.cpp        |  42 +-
 js/src/jit/riscv64/CodeGenerator-riscv64.cpp       |   4 -
 js/src/jit/riscv64/MacroAssembler-riscv64.cpp      | 178 +++---
 js/src/jit/shared/Assembler-shared.h               |   4 +-
 js/src/jit/shared/LIR-shared.h                     |  11 +-
 js/src/jit/wasm32/CodeGenerator-wasm32.cpp         |   1 -
 js/src/jit/x64/CodeGenerator-x64.cpp               |   2 +-
 js/src/jit/x64/Lowering-x64.cpp                    |   8 +-
 js/src/jit/x64/MacroAssembler-x64.cpp              |  45 +-
 js/src/jit/x86-shared/CodeGenerator-x86-shared.cpp |   6 -
 js/src/jit/x86-shared/Lowering-x86-shared.cpp      |   4 +-
 .../jit/x86-shared/MacroAssembler-x86-shared-inl.h |   3 +-
 .../jit/x86-shared/MacroAssembler-x86-shared.cpp   | 171 +++--
 js/src/jit/x86-shared/MacroAssembler-x86-shared.h  |   9 -
 js/src/jit/x86/Lowering-x86.cpp                    |   4 +-
 js/src/jit/x86/MacroAssembler-x86.cpp              |  39 +-
 70 files changed, 3348 insertions(+), 1590 deletions(-)
 delete mode 100644 js/src/jit/PcScriptCache.h

(limited to 'js/src/jit')

diff --git a/js/src/jit/AtomicOp.h b/js/src/jit/AtomicOp.h
index 90edb631cb..ed9a6dd74c 100644
--- a/js/src/jit/AtomicOp.h
+++ b/js/src/jit/AtomicOp.h
@@ -7,17 +7,19 @@
 #ifndef jit_AtomicOp_h
 #define jit_AtomicOp_h
 
+#include <stdint.h>
+
 namespace js {
 namespace jit {
 
 // Types of atomic operation, shared by MIR and LIR.
 
-enum AtomicOp {
-  AtomicFetchAddOp,
-  AtomicFetchSubOp,
-  AtomicFetchAndOp,
-  AtomicFetchOrOp,
-  AtomicFetchXorOp
+enum class AtomicOp {
+  Add,
+  Sub,
+  And,
+  Or,
+  Xor,
 };
 
 // Memory barrier types, shared by MIR and LIR.
@@ -26,7 +28,7 @@ enum AtomicOp {
 // distinction (DSB vs DMB on ARM, SYNC vs parameterized SYNC on MIPS)
 // but there's been no reason to use it yet.
 
-enum MemoryBarrierBits {
+enum MemoryBarrierBits : uint8_t {
   MembarLoadLoad = 1,
   MembarLoadStore = 2,
   MembarStoreStore = 4,
@@ -41,16 +43,16 @@ enum MemoryBarrierBits {
 
 static inline constexpr MemoryBarrierBits operator|(MemoryBarrierBits a,
                                                     MemoryBarrierBits b) {
-  return MemoryBarrierBits(int(a) | int(b));
+  return MemoryBarrierBits(static_cast<uint8_t>(a) | static_cast<uint8_t>(b));
 }
 
 static inline constexpr MemoryBarrierBits operator&(MemoryBarrierBits a,
                                                     MemoryBarrierBits b) {
-  return MemoryBarrierBits(int(a) & int(b));
+  return MemoryBarrierBits(static_cast<uint8_t>(a) & static_cast<uint8_t>(b));
 }
 
 static inline constexpr MemoryBarrierBits operator~(MemoryBarrierBits a) {
-  return MemoryBarrierBits(~int(a));
+  return MemoryBarrierBits(~static_cast<uint8_t>(a));
 }
 
 // Standard barrier bits for a full barrier.
diff --git a/js/src/jit/BaselineCacheIRCompiler.cpp b/js/src/jit/BaselineCacheIRCompiler.cpp
index 171771ed51..92490ef8b8 100644
--- a/js/src/jit/BaselineCacheIRCompiler.cpp
+++ b/js/src/jit/BaselineCacheIRCompiler.cpp
@@ -2170,8 +2170,13 @@ void ShapeListObject::trace(JSTracer* trc, JSObject* obj) {
 }
 
 bool ShapeListObject::traceWeak(JSTracer* trc) {
+  uint32_t length = getDenseInitializedLength();
+  if (length == 0) {
+    return false;  // Object may be uninitialized.
+  }
+
   const HeapSlot* src = elements_;
-  const HeapSlot* end = src + getDenseInitializedLength();
+  const HeapSlot* end = src + length;
   HeapSlot* dst = elements_;
   while (src != end) {
     Shape* shape = static_cast<Shape*>(src->toPrivate());
@@ -2184,7 +2189,7 @@ bool ShapeListObject::traceWeak(JSTracer* trc) {
   }
 
   MOZ_ASSERT(dst <= end);
-  size_t length = dst - elements_;
+  length = dst - elements_;
   setDenseInitializedLength(length);
 
   return length != 0;
@@ -3446,6 +3451,9 @@ void BaselineCacheIRCompiler::createThis(Register argcReg, Register calleeReg,
 
   // Restore saved registers.
   masm.PopRegsInMask(liveNonGCRegs);
+
+  // Restore ICStubReg. The stub might have been moved if CreateThisFromIC
+  // discarded JIT code.
   Address stubAddr(FramePointer, BaselineStubFrameLayout::ICStubOffsetFromFP);
   masm.loadPtr(stubAddr, ICStubReg);
 
diff --git a/js/src/jit/CacheIR.cpp b/js/src/jit/CacheIR.cpp
index c2245e38b5..68dbd6bfee 100644
--- a/js/src/jit/CacheIR.cpp
+++ b/js/src/jit/CacheIR.cpp
@@ -520,9 +520,14 @@ enum class NativeGetPropKind {
 
 static NativeGetPropKind IsCacheableGetPropCall(NativeObject* obj,
                                                 NativeObject* holder,
-                                                PropertyInfo prop) {
+                                                PropertyInfo prop,
+                                                jsbytecode* pc = nullptr) {
   MOZ_ASSERT(IsCacheableProtoChain(obj, holder));
 
+  if (pc && JSOp(*pc) == JSOp::GetBoundName) {
+    return NativeGetPropKind::None;
+  }
+
   if (!prop.isAccessorProperty()) {
     return NativeGetPropKind::None;
   }
@@ -615,7 +620,7 @@ static NativeGetPropKind CanAttachNativeGetProp(JSContext* cx, JSObject* obj,
       return NativeGetPropKind::Slot;
     }
 
-    return IsCacheableGetPropCall(nobj, *holder, propInfo->ref());
+    return IsCacheableGetPropCall(nobj, *holder, propInfo->ref(), pc);
   }
 
   if (!prop.isFound()) {
@@ -1975,6 +1980,46 @@ AttachDecision GetPropIRGenerator::tryAttachProxy(HandleObject obj,
   MOZ_CRASH("Unexpected ProxyStubType");
 }
 
+const JSClass* js::jit::ClassFor(GuardClassKind kind) {
+  switch (kind) {
+    case GuardClassKind::Array:
+      return &ArrayObject::class_;
+    case GuardClassKind::PlainObject:
+      return &PlainObject::class_;
+    case GuardClassKind::FixedLengthArrayBuffer:
+      return &FixedLengthArrayBufferObject::class_;
+    case GuardClassKind::ResizableArrayBuffer:
+      return &ResizableArrayBufferObject::class_;
+    case GuardClassKind::FixedLengthSharedArrayBuffer:
+      return &FixedLengthSharedArrayBufferObject::class_;
+    case GuardClassKind::GrowableSharedArrayBuffer:
+      return &GrowableSharedArrayBufferObject::class_;
+    case GuardClassKind::FixedLengthDataView:
+      return &FixedLengthDataViewObject::class_;
+    case GuardClassKind::ResizableDataView:
+      return &ResizableDataViewObject::class_;
+    case GuardClassKind::MappedArguments:
+      return &MappedArgumentsObject::class_;
+    case GuardClassKind::UnmappedArguments:
+      return &UnmappedArgumentsObject::class_;
+    case GuardClassKind::WindowProxy:
+      // Caller needs to handle this case, see
+      // JSRuntime::maybeWindowProxyClass().
+      break;
+    case GuardClassKind::JSFunction:
+      // Caller needs to handle this case. Can be either |js::FunctionClass| or
+      // |js::ExtendedFunctionClass|.
+      break;
+    case GuardClassKind::BoundFunction:
+      return &BoundFunctionObject::class_;
+    case GuardClassKind::Set:
+      return &SetObject::class_;
+    case GuardClassKind::Map:
+      return &MapObject::class_;
+  }
+  MOZ_CRASH("unexpected kind");
+}
+
 // Guards the class of an object. Because shape implies class, and a shape guard
 // is faster than a class guard, if this is our first time attaching a stub, we
 // instead generate a shape guard.
@@ -1983,25 +2028,16 @@ void IRGenerator::emitOptimisticClassGuard(ObjOperandId objId, JSObject* obj,
 #ifdef DEBUG
   switch (kind) {
     case GuardClassKind::Array:
-      MOZ_ASSERT(obj->is<ArrayObject>());
-      break;
     case GuardClassKind::PlainObject:
-      MOZ_ASSERT(obj->is<PlainObject>());
-      break;
     case GuardClassKind::FixedLengthArrayBuffer:
-      MOZ_ASSERT(obj->is<FixedLengthArrayBufferObject>());
-      break;
+    case GuardClassKind::ResizableArrayBuffer:
     case GuardClassKind::FixedLengthSharedArrayBuffer:
-      MOZ_ASSERT(obj->is<FixedLengthSharedArrayBufferObject>());
-      break;
+    case GuardClassKind::GrowableSharedArrayBuffer:
     case GuardClassKind::FixedLengthDataView:
-      MOZ_ASSERT(obj->is<FixedLengthDataViewObject>());
-      break;
+    case GuardClassKind::ResizableDataView:
     case GuardClassKind::Set:
-      MOZ_ASSERT(obj->is<SetObject>());
-      break;
     case GuardClassKind::Map:
-      MOZ_ASSERT(obj->is<MapObject>());
+      MOZ_ASSERT(obj->hasClass(ClassFor(kind)));
       break;
 
     case GuardClassKind::MappedArguments:
@@ -2077,8 +2113,7 @@ AttachDecision GetPropIRGenerator::tryAttachObjectLength(HandleObject obj,
 AttachDecision GetPropIRGenerator::tryAttachTypedArray(HandleObject obj,
                                                        ObjOperandId objId,
                                                        HandleId id) {
-  // TODO: Support resizable typed arrays. (bug 1842999)
-  if (!obj->is<FixedLengthTypedArrayObject>()) {
+  if (!obj->is<TypedArrayObject>()) {
     return AttachDecision::NoAction;
   }
 
@@ -2120,31 +2155,52 @@ AttachDecision GetPropIRGenerator::tryAttachTypedArray(HandleObject obj,
     }
   }
 
-  auto* tarr = &obj->as<FixedLengthTypedArrayObject>();
+  auto* tarr = &obj->as<TypedArrayObject>();
 
   maybeEmitIdGuard(id);
   // Emit all the normal guards for calling this native, but specialize
   // callNativeGetterResult.
   EmitCallGetterResultGuards(writer, tarr, holder, id, *prop, objId, mode_);
   if (isLength) {
-    if (tarr->length() <= INT32_MAX) {
-      writer.loadArrayBufferViewLengthInt32Result(objId);
+    size_t length = tarr->length().valueOr(0);
+    if (tarr->is<FixedLengthTypedArrayObject>()) {
+      if (length <= INT32_MAX) {
+        writer.loadArrayBufferViewLengthInt32Result(objId);
+      } else {
+        writer.loadArrayBufferViewLengthDoubleResult(objId);
+      }
     } else {
-      writer.loadArrayBufferViewLengthDoubleResult(objId);
+      if (length <= INT32_MAX) {
+        writer.resizableTypedArrayLengthInt32Result(objId);
+      } else {
+        writer.resizableTypedArrayLengthDoubleResult(objId);
+      }
     }
     trackAttached("GetProp.TypedArrayLength");
   } else if (isByteOffset) {
-    if (tarr->byteOffset() <= INT32_MAX) {
+    // byteOffset doesn't need to use different code paths for fixed-length and
+    // resizable TypedArrays.
+    size_t byteOffset = tarr->byteOffset().valueOr(0);
+    if (byteOffset <= INT32_MAX) {
       writer.arrayBufferViewByteOffsetInt32Result(objId);
     } else {
       writer.arrayBufferViewByteOffsetDoubleResult(objId);
     }
     trackAttached("GetProp.TypedArrayByteOffset");
   } else {
-    if (tarr->byteLength() <= INT32_MAX) {
-      writer.typedArrayByteLengthInt32Result(objId);
+    size_t byteLength = tarr->byteLength().valueOr(0);
+    if (tarr->is<FixedLengthTypedArrayObject>()) {
+      if (byteLength <= INT32_MAX) {
+        writer.typedArrayByteLengthInt32Result(objId);
+      } else {
+        writer.typedArrayByteLengthDoubleResult(objId);
+      }
     } else {
-      writer.typedArrayByteLengthDoubleResult(objId);
+      if (byteLength <= INT32_MAX) {
+        writer.resizableTypedArrayByteLengthInt32Result(objId);
+      } else {
+        writer.resizableTypedArrayByteLengthDoubleResult(objId);
+      }
     }
     trackAttached("GetProp.TypedArrayByteLength");
   }
@@ -2156,11 +2212,10 @@ AttachDecision GetPropIRGenerator::tryAttachTypedArray(HandleObject obj,
 AttachDecision GetPropIRGenerator::tryAttachDataView(HandleObject obj,
                                                      ObjOperandId objId,
                                                      HandleId id) {
-  // TODO: Support resizable dataviews. (bug 1842999)
-  if (!obj->is<FixedLengthDataViewObject>()) {
+  if (!obj->is<DataViewObject>()) {
     return AttachDecision::NoAction;
   }
-  auto* dv = &obj->as<FixedLengthDataViewObject>();
+  auto* dv = &obj->as<DataViewObject>();
 
   if (mode_ != ICState::Mode::Specialized) {
     return AttachDecision::NoAction;
@@ -2181,6 +2236,12 @@ AttachDecision GetPropIRGenerator::tryAttachDataView(HandleObject obj,
     return AttachDecision::NoAction;
   }
 
+  // byteOffset and byteLength both throw when the ArrayBuffer is out-of-bounds.
+  if (dv->is<ResizableDataViewObject>() &&
+      dv->as<ResizableDataViewObject>().isOutOfBounds()) {
+    return AttachDecision::NoAction;
+  }
+
   NativeObject* holder = nullptr;
   Maybe<PropertyInfo> prop;
   NativeGetPropKind kind =
@@ -2205,18 +2266,33 @@ AttachDecision GetPropIRGenerator::tryAttachDataView(HandleObject obj,
   // callNativeGetterResult.
   EmitCallGetterResultGuards(writer, dv, holder, id, *prop, objId, mode_);
   writer.guardHasAttachedArrayBuffer(objId);
+  if (dv->is<ResizableDataViewObject>()) {
+    writer.guardResizableArrayBufferViewInBounds(objId);
+  }
   if (isByteOffset) {
-    if (dv->byteOffset() <= INT32_MAX) {
+    // byteOffset doesn't need to use different code paths for fixed-length and
+    // resizable DataViews.
+    size_t byteOffset = dv->byteOffset().valueOr(0);
+    if (byteOffset <= INT32_MAX) {
       writer.arrayBufferViewByteOffsetInt32Result(objId);
     } else {
       writer.arrayBufferViewByteOffsetDoubleResult(objId);
     }
     trackAttached("GetProp.DataViewByteOffset");
   } else {
-    if (dv->byteLength() <= INT32_MAX) {
-      writer.loadArrayBufferViewLengthInt32Result(objId);
+    size_t byteLength = dv->byteLength().valueOr(0);
+    if (dv->is<FixedLengthDataViewObject>()) {
+      if (byteLength <= INT32_MAX) {
+        writer.loadArrayBufferViewLengthInt32Result(objId);
+      } else {
+        writer.loadArrayBufferViewLengthDoubleResult(objId);
+      }
     } else {
-      writer.loadArrayBufferViewLengthDoubleResult(objId);
+      if (byteLength <= INT32_MAX) {
+        writer.resizableDataViewByteLengthInt32Result(objId);
+      } else {
+        writer.resizableDataViewByteLengthDoubleResult(objId);
+      }
     }
     trackAttached("GetProp.DataViewByteLength");
   }
@@ -2232,11 +2308,6 @@ AttachDecision GetPropIRGenerator::tryAttachArrayBufferMaybeShared(
   }
   auto* buf = &obj->as<ArrayBufferObjectMaybeShared>();
 
-  // TODO: Support resizable buffers. (bug 1842999)
-  if (buf->isResizable()) {
-    return AttachDecision::NoAction;
-  }
-
   if (mode_ != ICState::Mode::Specialized) {
     return AttachDecision::NoAction;
   }
@@ -2273,10 +2344,18 @@ AttachDecision GetPropIRGenerator::tryAttachArrayBufferMaybeShared(
   // Emit all the normal guards for calling this native, but specialize
   // callNativeGetterResult.
   EmitCallGetterResultGuards(writer, buf, holder, id, *prop, objId, mode_);
-  if (buf->byteLength() <= INT32_MAX) {
-    writer.loadArrayBufferByteLengthInt32Result(objId);
+  if (!buf->is<GrowableSharedArrayBufferObject>()) {
+    if (buf->byteLength() <= INT32_MAX) {
+      writer.loadArrayBufferByteLengthInt32Result(objId);
+    } else {
+      writer.loadArrayBufferByteLengthDoubleResult(objId);
+    }
   } else {
-    writer.loadArrayBufferByteLengthDoubleResult(objId);
+    if (buf->byteLength() <= INT32_MAX) {
+      writer.growableSharedArrayBufferByteLengthInt32Result(objId);
+    } else {
+      writer.growableSharedArrayBufferByteLengthDoubleResult(objId);
+    }
   }
   writer.returnFromIC();
 
@@ -3044,9 +3123,8 @@ AttachDecision GetPropIRGenerator::tryAttachSparseElement(
 
 // For Uint32Array we let the stub return an Int32 if we have not seen a
 // double, to allow better codegen in Warp while avoiding bailout loops.
-static bool ForceDoubleForUint32Array(FixedLengthTypedArrayObject* tarr,
-                                      uint64_t index) {
-  MOZ_ASSERT(index < tarr->length());
+static bool ForceDoubleForUint32Array(TypedArrayObject* tarr, uint64_t index) {
+  MOZ_ASSERT(index < tarr->length().valueOr(0));
 
   if (tarr->type() != Scalar::Type::Uint32) {
     // Return value is only relevant for Uint32Array.
@@ -3059,10 +3137,27 @@ static bool ForceDoubleForUint32Array(FixedLengthTypedArrayObject* tarr,
   return res.isDouble();
 }
 
+static ArrayBufferViewKind ToArrayBufferViewKind(const TypedArrayObject* obj) {
+  if (obj->is<FixedLengthTypedArrayObject>()) {
+    return ArrayBufferViewKind::FixedLength;
+  }
+
+  MOZ_ASSERT(obj->is<ResizableTypedArrayObject>());
+  return ArrayBufferViewKind::Resizable;
+}
+
+static ArrayBufferViewKind ToArrayBufferViewKind(const DataViewObject* obj) {
+  if (obj->is<FixedLengthDataViewObject>()) {
+    return ArrayBufferViewKind::FixedLength;
+  }
+
+  MOZ_ASSERT(obj->is<ResizableDataViewObject>());
+  return ArrayBufferViewKind::Resizable;
+}
+
 AttachDecision GetPropIRGenerator::tryAttachTypedArrayElement(
     HandleObject obj, ObjOperandId objId) {
-  // TODO: Support resizable typed arrays. (bug 1842999)
-  if (!obj->is<FixedLengthTypedArrayObject>()) {
+  if (!obj->is<TypedArrayObject>()) {
     return AttachDecision::NoAction;
   }
 
@@ -3070,12 +3165,12 @@ AttachDecision GetPropIRGenerator::tryAttachTypedArrayElement(
     return AttachDecision::NoAction;
   }
 
-  auto* tarr = &obj->as<FixedLengthTypedArrayObject>();
+  auto* tarr = &obj->as<TypedArrayObject>();
 
   bool handleOOB = false;
   int64_t indexInt64;
   if (!ValueIsInt64Index(idVal_, &indexInt64) || indexInt64 < 0 ||
-      uint64_t(indexInt64) >= tarr->length()) {
+      uint64_t(indexInt64) >= tarr->length().valueOr(0)) {
     handleOOB = true;
   }
 
@@ -3092,8 +3187,9 @@ AttachDecision GetPropIRGenerator::tryAttachTypedArrayElement(
   ValOperandId keyId = getElemKeyValueId();
   IntPtrOperandId intPtrIndexId = guardToIntPtrIndex(idVal_, keyId, handleOOB);
 
+  auto viewKind = ToArrayBufferViewKind(tarr);
   writer.loadTypedArrayElementResult(objId, intPtrIndexId, tarr->type(),
-                                     handleOOB, forceDoubleForUint32);
+                                     handleOOB, forceDoubleForUint32, viewKind);
   writer.returnFromIC();
 
   trackAttached("GetProp.TypedElement");
@@ -3376,7 +3472,7 @@ AttachDecision GetNameIRGenerator::tryAttachGlobalNameGetter(ObjOperandId objId,
 
   GlobalObject* global = &globalLexical->global();
 
-  NativeGetPropKind kind = IsCacheableGetPropCall(global, holder, *prop);
+  NativeGetPropKind kind = IsCacheableGetPropCall(global, holder, *prop, pc_);
   if (kind != NativeGetPropKind::NativeGetter &&
       kind != NativeGetPropKind::ScriptedGetter) {
     return AttachDecision::NoAction;
@@ -3957,11 +4053,19 @@ AttachDecision HasPropIRGenerator::tryAttachNative(NativeObject* obj,
   return AttachDecision::Attach;
 }
 
+static void EmitGuardTypedArray(CacheIRWriter& writer, TypedArrayObject* obj,
+                                ObjOperandId objId) {
+  if (obj->is<FixedLengthTypedArrayObject>()) {
+    writer.guardIsFixedLengthTypedArray(objId);
+  } else {
+    writer.guardIsResizableTypedArray(objId);
+  }
+}
+
 AttachDecision HasPropIRGenerator::tryAttachTypedArray(HandleObject obj,
                                                        ObjOperandId objId,
                                                        ValOperandId keyId) {
-  // TODO: Support resizable typed arrays. (bug 1842999)
-  if (!obj->is<FixedLengthTypedArrayObject>()) {
+  if (!obj->is<TypedArrayObject>()) {
     return AttachDecision::NoAction;
   }
 
@@ -3970,10 +4074,14 @@ AttachDecision HasPropIRGenerator::tryAttachTypedArray(HandleObject obj,
     return AttachDecision::NoAction;
   }
 
-  writer.guardIsFixedLengthTypedArray(objId);
+  auto* tarr = &obj->as<TypedArrayObject>();
+  EmitGuardTypedArray(writer, tarr, objId);
+
   IntPtrOperandId intPtrIndexId =
       guardToIntPtrIndex(idVal_, keyId, /* supportOOB = */ true);
-  writer.loadTypedArrayElementExistsResult(objId, intPtrIndexId);
+
+  auto viewKind = ToArrayBufferViewKind(tarr);
+  writer.loadTypedArrayElementExistsResult(objId, intPtrIndexId, viewKind);
   writer.returnFromIC();
 
   trackAttached("HasProp.TypedArrayObject");
@@ -4940,15 +5048,14 @@ AttachDecision SetPropIRGenerator::tryAttachAddOrUpdateSparseElement(
 
 AttachDecision SetPropIRGenerator::tryAttachSetTypedArrayElement(
     HandleObject obj, ObjOperandId objId, ValOperandId rhsId) {
-  // TODO: Support resizable typed arrays. (bug 1842999)
-  if (!obj->is<FixedLengthTypedArrayObject>()) {
+  if (!obj->is<TypedArrayObject>()) {
     return AttachDecision::NoAction;
   }
   if (!idVal_.isNumber()) {
     return AttachDecision::NoAction;
   }
 
-  auto* tarr = &obj->as<FixedLengthTypedArrayObject>();
+  auto* tarr = &obj->as<TypedArrayObject>();
   Scalar::Type elementType = tarr->type();
 
   // Don't attach if the input type doesn't match the guard added below.
@@ -4959,7 +5066,7 @@ AttachDecision SetPropIRGenerator::tryAttachSetTypedArrayElement(
   bool handleOOB = false;
   int64_t indexInt64;
   if (!ValueIsInt64Index(idVal_, &indexInt64) || indexInt64 < 0 ||
-      uint64_t(indexInt64) >= tarr->length()) {
+      uint64_t(indexInt64) >= tarr->length().valueOr(0)) {
     handleOOB = true;
   }
 
@@ -4980,8 +5087,9 @@ AttachDecision SetPropIRGenerator::tryAttachSetTypedArrayElement(
   ValOperandId keyId = setElemKeyValueId();
   IntPtrOperandId indexId = guardToIntPtrIndex(idVal_, keyId, handleOOB);
 
+  auto viewKind = ToArrayBufferViewKind(tarr);
   writer.storeTypedArrayElement(objId, elementType, indexId, rhsValId,
-                                handleOOB);
+                                handleOOB, viewKind);
   writer.returnFromIC();
 
   trackAttached(handleOOB ? "SetTypedElementOOB" : "SetTypedElement");
@@ -6470,9 +6578,7 @@ AttachDecision InlinableNativeIRGenerator::tryAttachArrayIsArray() {
 AttachDecision InlinableNativeIRGenerator::tryAttachDataViewGet(
     Scalar::Type type) {
   // Ensure |this| is a DataViewObject.
-  // TODO: Support resizable dataviews. (bug 1842999)
-  if (!thisval_.isObject() ||
-      !thisval_.toObject().is<FixedLengthDataViewObject>()) {
+  if (!thisval_.isObject() || !thisval_.toObject().is<DataViewObject>()) {
     return AttachDecision::NoAction;
   }
 
@@ -6488,11 +6594,12 @@ AttachDecision InlinableNativeIRGenerator::tryAttachDataViewGet(
     return AttachDecision::NoAction;
   }
 
-  auto* dv = &thisval_.toObject().as<FixedLengthDataViewObject>();
+  auto* dv = &thisval_.toObject().as<DataViewObject>();
 
   // Bounds check the offset.
-  if (offsetInt64 < 0 ||
-      !dv->offsetIsInBounds(Scalar::byteSize(type), offsetInt64)) {
+  size_t byteLength = dv->byteLength().valueOr(0);
+  if (offsetInt64 < 0 || !DataViewObject::offsetIsInBounds(
+                             Scalar::byteSize(type), offsetInt64, byteLength)) {
     return AttachDecision::NoAction;
   }
 
@@ -6501,7 +6608,7 @@ AttachDecision InlinableNativeIRGenerator::tryAttachDataViewGet(
   bool forceDoubleForUint32 = false;
   if (type == Scalar::Uint32) {
     bool isLittleEndian = argc_ > 1 && args_[1].toBoolean();
-    uint32_t res = dv->read<uint32_t>(offsetInt64, isLittleEndian);
+    uint32_t res = dv->read<uint32_t>(offsetInt64, byteLength, isLittleEndian);
     forceDoubleForUint32 = res >= INT32_MAX;
   }
 
@@ -6515,8 +6622,14 @@ AttachDecision InlinableNativeIRGenerator::tryAttachDataViewGet(
   ValOperandId thisValId =
       writer.loadArgumentFixedSlot(ArgumentKind::This, argc_);
   ObjOperandId objId = writer.guardToObject(thisValId);
-  emitOptimisticClassGuard(objId, &thisval_.toObject(),
-                           GuardClassKind::FixedLengthDataView);
+
+  if (dv->is<FixedLengthDataViewObject>()) {
+    emitOptimisticClassGuard(objId, &thisval_.toObject(),
+                             GuardClassKind::FixedLengthDataView);
+  } else {
+    emitOptimisticClassGuard(objId, &thisval_.toObject(),
+                             GuardClassKind::ResizableDataView);
+  }
 
   // Convert offset to intPtr.
   ValOperandId offsetId =
@@ -6533,8 +6646,10 @@ AttachDecision InlinableNativeIRGenerator::tryAttachDataViewGet(
     boolLittleEndianId = writer.loadBooleanConstant(false);
   }
 
+  auto viewKind = ToArrayBufferViewKind(dv);
   writer.loadDataViewValueResult(objId, intPtrOffsetId, boolLittleEndianId,
-                                 type, forceDoubleForUint32);
+                                 type, forceDoubleForUint32, viewKind);
+
   writer.returnFromIC();
 
   trackAttached("DataViewGet");
@@ -6544,9 +6659,7 @@ AttachDecision InlinableNativeIRGenerator::tryAttachDataViewGet(
 AttachDecision InlinableNativeIRGenerator::tryAttachDataViewSet(
     Scalar::Type type) {
   // Ensure |this| is a DataViewObject.
-  // TODO: Support resizable dataviews. (bug 1842999)
-  if (!thisval_.isObject() ||
-      !thisval_.toObject().is<FixedLengthDataViewObject>()) {
+  if (!thisval_.isObject() || !thisval_.toObject().is<DataViewObject>()) {
     return AttachDecision::NoAction;
   }
 
@@ -6565,11 +6678,12 @@ AttachDecision InlinableNativeIRGenerator::tryAttachDataViewSet(
     return AttachDecision::NoAction;
   }
 
-  auto* dv = &thisval_.toObject().as<FixedLengthDataViewObject>();
+  auto* dv = &thisval_.toObject().as<DataViewObject>();
 
   // Bounds check the offset.
-  if (offsetInt64 < 0 ||
-      !dv->offsetIsInBounds(Scalar::byteSize(type), offsetInt64)) {
+  size_t byteLength = dv->byteLength().valueOr(0);
+  if (offsetInt64 < 0 || !DataViewObject::offsetIsInBounds(
+                             Scalar::byteSize(type), offsetInt64, byteLength)) {
     return AttachDecision::NoAction;
   }
 
@@ -6583,8 +6697,14 @@ AttachDecision InlinableNativeIRGenerator::tryAttachDataViewSet(
   ValOperandId thisValId =
       writer.loadArgumentFixedSlot(ArgumentKind::This, argc_);
   ObjOperandId objId = writer.guardToObject(thisValId);
-  emitOptimisticClassGuard(objId, &thisval_.toObject(),
-                           GuardClassKind::FixedLengthDataView);
+
+  if (dv->is<FixedLengthDataViewObject>()) {
+    emitOptimisticClassGuard(objId, &thisval_.toObject(),
+                             GuardClassKind::FixedLengthDataView);
+  } else {
+    emitOptimisticClassGuard(objId, &thisval_.toObject(),
+                             GuardClassKind::ResizableDataView);
+  }
 
   // Convert offset to intPtr.
   ValOperandId offsetId =
@@ -6606,8 +6726,10 @@ AttachDecision InlinableNativeIRGenerator::tryAttachDataViewSet(
     boolLittleEndianId = writer.loadBooleanConstant(false);
   }
 
+  auto viewKind = ToArrayBufferViewKind(dv);
   writer.storeDataViewValueResult(objId, intPtrOffsetId, numericValueId,
-                                  boolLittleEndianId, type);
+                                  boolLittleEndianId, type, viewKind);
+
   writer.returnFromIC();
 
   trackAttached("DataViewSet");
@@ -6949,19 +7071,84 @@ AttachDecision InlinableNativeIRGenerator::tryAttachGuardToClass(
   return AttachDecision::Attach;
 }
 
+AttachDecision InlinableNativeIRGenerator::tryAttachGuardToClass(
+    GuardClassKind kind) {
+  // Self-hosted code calls this with an object argument.
+  MOZ_ASSERT(argc_ == 1);
+  MOZ_ASSERT(args_[0].isObject());
+
+  // Class must match.
+  const JSClass* clasp = ClassFor(kind);
+  if (args_[0].toObject().getClass() != clasp) {
+    return AttachDecision::NoAction;
+  }
+
+  // Initialize the input operand.
+  initializeInputOperand();
+
+  // Note: we don't need to call emitNativeCalleeGuard for intrinsics.
+
+  // Guard that the argument is an object.
+  ValOperandId argId = writer.loadArgumentFixedSlot(ArgumentKind::Arg0, argc_);
+  ObjOperandId objId = writer.guardToObject(argId);
+
+  // Guard that the object has the correct class.
+  writer.guardClass(objId, kind);
+
+  // Return the object.
+  writer.loadObjectResult(objId);
+  writer.returnFromIC();
+
+  trackAttached("GuardToClass");
+  return AttachDecision::Attach;
+}
+
+AttachDecision InlinableNativeIRGenerator::tryAttachGuardToEitherClass(
+    GuardClassKind kind1, GuardClassKind kind2) {
+  MOZ_ASSERT(kind1 != kind2,
+             "prefer tryAttachGuardToClass for the same class case");
+
+  // Self-hosted code calls this with an object argument.
+  MOZ_ASSERT(argc_ == 1);
+  MOZ_ASSERT(args_[0].isObject());
+
+  // Class must match.
+  const JSClass* clasp1 = ClassFor(kind1);
+  const JSClass* clasp2 = ClassFor(kind2);
+  const JSClass* objClass = args_[0].toObject().getClass();
+  if (objClass != clasp1 && objClass != clasp2) {
+    return AttachDecision::NoAction;
+  }
+
+  // Initialize the input operand.
+  initializeInputOperand();
+
+  // Note: we don't need to call emitNativeCalleeGuard for intrinsics.
+
+  // Guard that the argument is an object.
+  ValOperandId argId = writer.loadArgumentFixedSlot(ArgumentKind::Arg0, argc_);
+  ObjOperandId objId = writer.guardToObject(argId);
+
+  // Guard that the object has the correct class.
+  writer.guardEitherClass(objId, kind1, kind2);
+
+  // Return the object.
+  writer.loadObjectResult(objId);
+  writer.returnFromIC();
+
+  trackAttached("GuardToEitherClass");
+  return AttachDecision::Attach;
+}
+
 AttachDecision InlinableNativeIRGenerator::tryAttachGuardToArrayBuffer() {
-  // TODO: Support resizable ArrayBuffers (bug 1842999), for now simply
-  // pass through to tryAttachGuardToClass which guards on
-  // FixedLengthArrayBufferObject.
-  return tryAttachGuardToClass(InlinableNative::IntrinsicGuardToArrayBuffer);
+  return tryAttachGuardToEitherClass(GuardClassKind::FixedLengthArrayBuffer,
+                                     GuardClassKind::ResizableArrayBuffer);
 }
 
 AttachDecision InlinableNativeIRGenerator::tryAttachGuardToSharedArrayBuffer() {
-  // TODO: Support resizable SharedArrayBuffers (bug 1842999), for now simply
-  // pass through to tryAttachGuardToClass which guards on
-  // FixedLengthSharedArrayBufferObject.
-  return tryAttachGuardToClass(
-      InlinableNative::IntrinsicGuardToSharedArrayBuffer);
+  return tryAttachGuardToEitherClass(
+      GuardClassKind::FixedLengthSharedArrayBuffer,
+      GuardClassKind::GrowableSharedArrayBuffer);
 }
 
 AttachDecision InlinableNativeIRGenerator::tryAttachHasClass(
@@ -8924,7 +9111,7 @@ AttachDecision InlinableNativeIRGenerator::tryAttachReflectGetPrototypeOf() {
   return AttachDecision::Attach;
 }
 
-static bool AtomicsMeetsPreconditions(FixedLengthTypedArrayObject* typedArray,
+static bool AtomicsMeetsPreconditions(TypedArrayObject* typedArray,
                                       const Value& index) {
   switch (typedArray->type()) {
     case Scalar::Int8:
@@ -8954,7 +9141,8 @@ static bool AtomicsMeetsPreconditions(FixedLengthTypedArrayObject* typedArray,
   if (!ValueIsInt64Index(index, &indexInt64)) {
     return false;
   }
-  if (indexInt64 < 0 || uint64_t(indexInt64) >= typedArray->length()) {
+  if (indexInt64 < 0 ||
+      uint64_t(indexInt64) >= typedArray->length().valueOr(0)) {
     return false;
   }
 
@@ -8971,17 +9159,15 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsCompareExchange() {
     return AttachDecision::NoAction;
   }
 
-  // TODO: Support resizable typed arrays. (bug 1842999)
   // Arguments: typedArray, index (number), expected, replacement.
-  if (!args_[0].isObject() ||
-      !args_[0].toObject().is<FixedLengthTypedArrayObject>()) {
+  if (!args_[0].isObject() || !args_[0].toObject().is<TypedArrayObject>()) {
     return AttachDecision::NoAction;
   }
   if (!args_[1].isNumber()) {
     return AttachDecision::NoAction;
   }
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
   if (!AtomicsMeetsPreconditions(typedArray, args_[1])) {
     return AttachDecision::NoAction;
   }
@@ -9022,8 +9208,10 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsCompareExchange() {
   OperandId numericReplacementId =
       emitNumericGuard(replacementId, args_[3], elementType);
 
+  auto viewKind = ToArrayBufferViewKind(typedArray);
   writer.atomicsCompareExchangeResult(objId, intPtrIndexId, numericExpectedId,
-                                      numericReplacementId, typedArray->type());
+                                      numericReplacementId, typedArray->type(),
+                                      viewKind);
   writer.returnFromIC();
 
   trackAttached("AtomicsCompareExchange");
@@ -9040,17 +9228,15 @@ bool InlinableNativeIRGenerator::canAttachAtomicsReadWriteModify() {
     return false;
   }
 
-  // TODO: Support resizable typed arrays. (bug 1842999)
   // Arguments: typedArray, index (number), value.
-  if (!args_[0].isObject() ||
-      !args_[0].toObject().is<FixedLengthTypedArrayObject>()) {
+  if (!args_[0].isObject() || !args_[0].toObject().is<TypedArrayObject>()) {
     return false;
   }
   if (!args_[1].isNumber()) {
     return false;
   }
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
   if (!AtomicsMeetsPreconditions(typedArray, args_[1])) {
     return false;
   }
@@ -9064,7 +9250,7 @@ InlinableNativeIRGenerator::AtomicsReadWriteModifyOperands
 InlinableNativeIRGenerator::emitAtomicsReadWriteModifyOperands() {
   MOZ_ASSERT(canAttachAtomicsReadWriteModify());
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
 
   // Initialize the input operand.
   initializeInputOperand();
@@ -9099,10 +9285,11 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsExchange() {
   auto [objId, intPtrIndexId, numericValueId] =
       emitAtomicsReadWriteModifyOperands();
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
+  auto viewKind = ToArrayBufferViewKind(typedArray);
 
   writer.atomicsExchangeResult(objId, intPtrIndexId, numericValueId,
-                               typedArray->type());
+                               typedArray->type(), viewKind);
   writer.returnFromIC();
 
   trackAttached("AtomicsExchange");
@@ -9117,11 +9304,12 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsAdd() {
   auto [objId, intPtrIndexId, numericValueId] =
       emitAtomicsReadWriteModifyOperands();
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
   bool forEffect = ignoresResult();
+  auto viewKind = ToArrayBufferViewKind(typedArray);
 
   writer.atomicsAddResult(objId, intPtrIndexId, numericValueId,
-                          typedArray->type(), forEffect);
+                          typedArray->type(), forEffect, viewKind);
   writer.returnFromIC();
 
   trackAttached("AtomicsAdd");
@@ -9136,11 +9324,12 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsSub() {
   auto [objId, intPtrIndexId, numericValueId] =
       emitAtomicsReadWriteModifyOperands();
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
   bool forEffect = ignoresResult();
+  auto viewKind = ToArrayBufferViewKind(typedArray);
 
   writer.atomicsSubResult(objId, intPtrIndexId, numericValueId,
-                          typedArray->type(), forEffect);
+                          typedArray->type(), forEffect, viewKind);
   writer.returnFromIC();
 
   trackAttached("AtomicsSub");
@@ -9155,11 +9344,12 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsAnd() {
   auto [objId, intPtrIndexId, numericValueId] =
       emitAtomicsReadWriteModifyOperands();
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
   bool forEffect = ignoresResult();
+  auto viewKind = ToArrayBufferViewKind(typedArray);
 
   writer.atomicsAndResult(objId, intPtrIndexId, numericValueId,
-                          typedArray->type(), forEffect);
+                          typedArray->type(), forEffect, viewKind);
   writer.returnFromIC();
 
   trackAttached("AtomicsAnd");
@@ -9174,11 +9364,12 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsOr() {
   auto [objId, intPtrIndexId, numericValueId] =
       emitAtomicsReadWriteModifyOperands();
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
   bool forEffect = ignoresResult();
+  auto viewKind = ToArrayBufferViewKind(typedArray);
 
   writer.atomicsOrResult(objId, intPtrIndexId, numericValueId,
-                         typedArray->type(), forEffect);
+                         typedArray->type(), forEffect, viewKind);
   writer.returnFromIC();
 
   trackAttached("AtomicsOr");
@@ -9193,11 +9384,12 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsXor() {
   auto [objId, intPtrIndexId, numericValueId] =
       emitAtomicsReadWriteModifyOperands();
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
   bool forEffect = ignoresResult();
+  auto viewKind = ToArrayBufferViewKind(typedArray);
 
   writer.atomicsXorResult(objId, intPtrIndexId, numericValueId,
-                          typedArray->type(), forEffect);
+                          typedArray->type(), forEffect, viewKind);
   writer.returnFromIC();
 
   trackAttached("AtomicsXor");
@@ -9214,17 +9406,15 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsLoad() {
     return AttachDecision::NoAction;
   }
 
-  // TODO: Support resizable typed arrays. (bug 1842999)
   // Arguments: typedArray, index (number).
-  if (!args_[0].isObject() ||
-      !args_[0].toObject().is<FixedLengthTypedArrayObject>()) {
+  if (!args_[0].isObject() || !args_[0].toObject().is<TypedArrayObject>()) {
     return AttachDecision::NoAction;
   }
   if (!args_[1].isNumber()) {
     return AttachDecision::NoAction;
   }
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
   if (!AtomicsMeetsPreconditions(typedArray, args_[1])) {
     return AttachDecision::NoAction;
   }
@@ -9245,7 +9435,8 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsLoad() {
   IntPtrOperandId intPtrIndexId =
       guardToIntPtrIndex(args_[1], indexId, /* supportOOB = */ false);
 
-  writer.atomicsLoadResult(objId, intPtrIndexId, typedArray->type());
+  auto viewKind = ToArrayBufferViewKind(typedArray);
+  writer.atomicsLoadResult(objId, intPtrIndexId, typedArray->type(), viewKind);
   writer.returnFromIC();
 
   trackAttached("AtomicsLoad");
@@ -9271,17 +9462,15 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsStore() {
   // obviously unused or if the argument is already Int32 and thus requires no
   // conversion.
 
-  // TODO: Support resizable typed arrays. (bug 1842999)
   // Arguments: typedArray, index (number), value.
-  if (!args_[0].isObject() ||
-      !args_[0].toObject().is<FixedLengthTypedArrayObject>()) {
+  if (!args_[0].isObject() || !args_[0].toObject().is<TypedArrayObject>()) {
     return AttachDecision::NoAction;
   }
   if (!args_[1].isNumber()) {
     return AttachDecision::NoAction;
   }
 
-  auto* typedArray = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* typedArray = &args_[0].toObject().as<TypedArrayObject>();
   if (!AtomicsMeetsPreconditions(typedArray, args_[1])) {
     return AttachDecision::NoAction;
   }
@@ -9323,8 +9512,9 @@ AttachDecision InlinableNativeIRGenerator::tryAttachAtomicsStore() {
     numericValueId = emitNumericGuard(valueId, args_[2], elementType);
   }
 
+  auto viewKind = ToArrayBufferViewKind(typedArray);
   writer.atomicsStoreResult(objId, intPtrIndexId, numericValueId,
-                            typedArray->type());
+                            typedArray->type(), viewKind);
   writer.returnFromIC();
 
   trackAttached("AtomicsStore");
@@ -10182,12 +10372,7 @@ AttachDecision InlinableNativeIRGenerator::tryAttachTypedArrayByteOffset() {
   MOZ_ASSERT(args_[0].isObject());
   MOZ_ASSERT(args_[0].toObject().is<TypedArrayObject>());
 
-  // TODO: Support resizable typed arrays. (bug 1842999)
-  if (!args_[0].toObject().is<FixedLengthTypedArrayObject>()) {
-    return AttachDecision::NoAction;
-  }
-
-  auto* tarr = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  auto* tarr = &args_[0].toObject().as<TypedArrayObject>();
 
   // Initialize the input operand.
   initializeInputOperand();
@@ -10196,12 +10381,25 @@ AttachDecision InlinableNativeIRGenerator::tryAttachTypedArrayByteOffset() {
 
   ValOperandId argId = writer.loadArgumentFixedSlot(ArgumentKind::Arg0, argc_);
   ObjOperandId objArgId = writer.guardToObject(argId);
-  writer.guardIsFixedLengthTypedArray(objArgId);
-  if (tarr->byteOffset() <= INT32_MAX) {
-    writer.arrayBufferViewByteOffsetInt32Result(objArgId);
+
+  EmitGuardTypedArray(writer, tarr, objArgId);
+
+  size_t byteOffset = tarr->byteOffsetMaybeOutOfBounds();
+  if (tarr->is<FixedLengthTypedArrayObject>()) {
+    if (byteOffset <= INT32_MAX) {
+      writer.arrayBufferViewByteOffsetInt32Result(objArgId);
+    } else {
+      writer.arrayBufferViewByteOffsetDoubleResult(objArgId);
+    }
   } else {
-    writer.arrayBufferViewByteOffsetDoubleResult(objArgId);
+    if (byteOffset <= INT32_MAX) {
+      writer.resizableTypedArrayByteOffsetMaybeOutOfBoundsInt32Result(objArgId);
+    } else {
+      writer.resizableTypedArrayByteOffsetMaybeOutOfBoundsDoubleResult(
+          objArgId);
+    }
   }
+
   writer.returnFromIC();
 
   trackAttached("IntrinsicTypedArrayByteOffset");
@@ -10229,7 +10427,7 @@ AttachDecision InlinableNativeIRGenerator::tryAttachTypedArrayElementSize() {
 }
 
 AttachDecision InlinableNativeIRGenerator::tryAttachTypedArrayLength(
-    bool isPossiblyWrapped) {
+    bool isPossiblyWrapped, bool allowOutOfBounds) {
   // Self-hosted code calls this with a single, possibly wrapped,
   // TypedArrayObject argument.
   MOZ_ASSERT(argc_ == 1);
@@ -10242,12 +10440,19 @@ AttachDecision InlinableNativeIRGenerator::tryAttachTypedArrayLength(
 
   MOZ_ASSERT(args_[0].toObject().is<TypedArrayObject>());
 
-  // TODO: Support resizable typed arrays. (bug 1842999)
-  if (!args_[0].toObject().is<FixedLengthTypedArrayObject>()) {
-    return AttachDecision::NoAction;
-  }
+  auto* tarr = &args_[0].toObject().as<TypedArrayObject>();
 
-  auto* tarr = &args_[0].toObject().as<FixedLengthTypedArrayObject>();
+  // Don't optimize when a resizable TypedArray is out-of-bounds and
+  // out-of-bounds isn't allowed.
+  auto length = tarr->length();
+  if (length.isNothing() && !tarr->hasDetachedBuffer()) {
+    MOZ_ASSERT(tarr->is<ResizableTypedArrayObject>());
+    MOZ_ASSERT(tarr->isOutOfBounds());
+
+    if (!allowOutOfBounds) {
+      return AttachDecision::NoAction;
+    }
+  }
 
   // Initialize the input operand.
   initializeInputOperand();
@@ -10261,11 +10466,24 @@ AttachDecision InlinableNativeIRGenerator::tryAttachTypedArrayLength(
     writer.guardIsNotProxy(objArgId);
   }
 
-  writer.guardIsFixedLengthTypedArray(objArgId);
-  if (tarr->length() <= INT32_MAX) {
-    writer.loadArrayBufferViewLengthInt32Result(objArgId);
+  EmitGuardTypedArray(writer, tarr, objArgId);
+
+  if (tarr->is<FixedLengthTypedArrayObject>()) {
+    if (length.valueOr(0) <= INT32_MAX) {
+      writer.loadArrayBufferViewLengthInt32Result(objArgId);
+    } else {
+      writer.loadArrayBufferViewLengthDoubleResult(objArgId);
+    }
   } else {
-    writer.loadArrayBufferViewLengthDoubleResult(objArgId);
+    if (!allowOutOfBounds) {
+      writer.guardResizableArrayBufferViewInBoundsOrDetached(objArgId);
+    }
+
+    if (length.valueOr(0) <= INT32_MAX) {
+      writer.resizableTypedArrayLengthInt32Result(objArgId);
+    } else {
+      writer.resizableTypedArrayLengthDoubleResult(objArgId);
+    }
   }
   writer.returnFromIC();
 
@@ -10273,13 +10491,6 @@ AttachDecision InlinableNativeIRGenerator::tryAttachTypedArrayLength(
   return AttachDecision::Attach;
 }
 
-AttachDecision
-InlinableNativeIRGenerator::tryAttachTypedArrayLengthZeroOnOutOfBounds() {
-  // We don't yet inline resizable buffers, so this operation is equivalent to
-  // the inline code path for tryAttachTypedArrayLength().
-  return tryAttachTypedArrayLength(/* isPossiblyWrapped = */ false);
-}
-
 AttachDecision InlinableNativeIRGenerator::tryAttachArrayBufferByteLength(
     bool isPossiblyWrapped) {
   // Self-hosted code calls this with a single, possibly wrapped,
@@ -10296,11 +10507,6 @@ AttachDecision InlinableNativeIRGenerator::tryAttachArrayBufferByteLength(
 
   auto* buffer = &args_[0].toObject().as<ArrayBufferObject>();
 
-  // TODO: Support resizable buffers. (bug 1842999)
-  if (buffer->isResizable()) {
-    return AttachDecision::NoAction;
-  }
-
   // Initialize the input operand.
   initializeInputOperand();
 
@@ -10662,14 +10868,6 @@ AttachDecision InlinableNativeIRGenerator::tryAttachTypedArrayConstructor() {
   if (args_[0].isObject() && args_[0].toObject().is<ProxyObject>()) {
     return AttachDecision::NoAction;
   }
-  if (args_[0].isObject() &&
-      args_[0].toObject().is<ResizableArrayBufferObject>()) {
-    return AttachDecision::NoAction;
-  }
-  if (args_[0].isObject() &&
-      args_[0].toObject().is<GrowableSharedArrayBufferObject>()) {
-    return AttachDecision::NoAction;
-  }
 
 #ifdef JS_CODEGEN_X86
   // Unfortunately NewTypedArrayFromArrayBufferResult needs more registers than
@@ -10714,9 +10912,13 @@ AttachDecision InlinableNativeIRGenerator::tryAttachTypedArrayConstructor() {
       // From ArrayBuffer.
       if (obj->is<FixedLengthArrayBufferObject>()) {
         writer.guardClass(objId, GuardClassKind::FixedLengthArrayBuffer);
-      } else {
-        MOZ_ASSERT(obj->is<FixedLengthSharedArrayBufferObject>());
+      } else if (obj->is<FixedLengthSharedArrayBufferObject>()) {
         writer.guardClass(objId, GuardClassKind::FixedLengthSharedArrayBuffer);
+      } else if (obj->is<ResizableArrayBufferObject>()) {
+        writer.guardClass(objId, GuardClassKind::ResizableArrayBuffer);
+      } else {
+        MOZ_ASSERT(obj->is<GrowableSharedArrayBufferObject>());
+        writer.guardClass(objId, GuardClassKind::GrowableSharedArrayBuffer);
       }
       ValOperandId byteOffsetId;
       if (argc_ > 1) {
@@ -11584,7 +11786,7 @@ AttachDecision InlinableNativeIRGenerator::tryAttachStub() {
 
     // Map intrinsics.
     case InlinableNative::IntrinsicGuardToMapObject:
-      return tryAttachGuardToClass(native);
+      return tryAttachGuardToClass(GuardClassKind::Map);
     case InlinableNative::IntrinsicGetNextMapEntryForIterator:
       return tryAttachGetNextMapSetEntryForIterator(/* isMap = */ true);
 
@@ -11612,7 +11814,7 @@ AttachDecision InlinableNativeIRGenerator::tryAttachStub() {
 
     // Set intrinsics.
     case InlinableNative::IntrinsicGuardToSetObject:
-      return tryAttachGuardToClass(native);
+      return tryAttachGuardToClass(GuardClassKind::Set);
     case InlinableNative::IntrinsicGetNextSetEntryForIterator:
       return tryAttachGetNextMapSetEntryForIterator(/* isMap = */ false);
 
@@ -11642,11 +11844,14 @@ AttachDecision InlinableNativeIRGenerator::tryAttachStub() {
     case InlinableNative::IntrinsicTypedArrayElementSize:
       return tryAttachTypedArrayElementSize();
     case InlinableNative::IntrinsicTypedArrayLength:
-      return tryAttachTypedArrayLength(/* isPossiblyWrapped = */ false);
+      return tryAttachTypedArrayLength(/* isPossiblyWrapped = */ false,
+                                       /* allowOutOfBounds = */ false);
     case InlinableNative::IntrinsicTypedArrayLengthZeroOnOutOfBounds:
-      return tryAttachTypedArrayLengthZeroOnOutOfBounds();
+      return tryAttachTypedArrayLength(/* isPossiblyWrapped = */ false,
+                                       /* allowOutOfBounds = */ true);
     case InlinableNative::IntrinsicPossiblyWrappedTypedArrayLength:
-      return tryAttachTypedArrayLength(/* isPossiblyWrapped = */ true);
+      return tryAttachTypedArrayLength(/* isPossiblyWrapped = */ true,
+                                       /* allowOutOfBounds = */ false);
 
     // Reflect natives.
     case InlinableNative::ReflectGetPrototypeOf:
diff --git a/js/src/jit/CacheIR.h b/js/src/jit/CacheIR.h
index b483257d12..9bedbb7ddc 100644
--- a/js/src/jit/CacheIR.h
+++ b/js/src/jit/CacheIR.h
@@ -515,8 +515,11 @@ enum class GuardClassKind : uint8_t {
   Array,
   PlainObject,
   FixedLengthArrayBuffer,
+  ResizableArrayBuffer,
   FixedLengthSharedArrayBuffer,
+  GrowableSharedArrayBuffer,
   FixedLengthDataView,
+  ResizableDataView,
   MappedArguments,
   UnmappedArguments,
   WindowProxy,
@@ -526,6 +529,13 @@ enum class GuardClassKind : uint8_t {
   Map,
 };
 
+const JSClass* ClassFor(GuardClassKind kind);
+
+enum class ArrayBufferViewKind : uint8_t {
+  FixedLength,
+  Resizable,
+};
+
 }  // namespace jit
 }  // namespace js
 
diff --git a/js/src/jit/CacheIRCompiler.cpp b/js/src/jit/CacheIRCompiler.cpp
index 73f3831371..1467cebe08 100644
--- a/js/src/jit/CacheIRCompiler.cpp
+++ b/js/src/jit/CacheIRCompiler.cpp
@@ -18,7 +18,6 @@
 #include "jsmath.h"
 
 #include "builtin/DataViewObject.h"
-#include "builtin/MapObject.h"
 #include "builtin/Object.h"
 #include "gc/GCEnum.h"
 #include "gc/SweepingAPI.h"  // js::gc::AutoLockStoreBuffer
@@ -1365,6 +1364,8 @@ bool jit::TraceWeakCacheIRStub(JSTracer* trc, T* stub,
                                const CacheIRStubInfo* stubInfo) {
   using Type = StubField::Type;
 
+  bool isDead = false;
+
   uint32_t field = 0;
   size_t offset = 0;
   while (true) {
@@ -1375,7 +1376,7 @@ bool jit::TraceWeakCacheIRStub(JSTracer* trc, T* stub,
             stubInfo->getStubField<T, Type::WeakShape>(stub, offset);
         auto r = TraceWeakEdge(trc, &shapeField, "cacheir-weak-shape");
         if (r.isDead()) {
-          return false;
+          isDead = true;
         }
         break;
       }
@@ -1384,7 +1385,7 @@ bool jit::TraceWeakCacheIRStub(JSTracer* trc, T* stub,
             stubInfo->getStubField<T, Type::WeakObject>(stub, offset);
         auto r = TraceWeakEdge(trc, &objectField, "cacheir-weak-object");
         if (r.isDead()) {
-          return false;
+          isDead = true;
         }
         break;
       }
@@ -1393,7 +1394,7 @@ bool jit::TraceWeakCacheIRStub(JSTracer* trc, T* stub,
             stubInfo->getStubField<T, Type::WeakBaseScript>(stub, offset);
         auto r = TraceWeakEdge(trc, &scriptField, "cacheir-weak-script");
         if (r.isDead()) {
-          return false;
+          isDead = true;
         }
         break;
       }
@@ -1403,12 +1404,13 @@ bool jit::TraceWeakCacheIRStub(JSTracer* trc, T* stub,
         auto r = TraceWeakEdge(trc, &getterSetterField,
                                "cacheir-weak-getter-setter");
         if (r.isDead()) {
-          return false;
+          isDead = true;
         }
         break;
       }
       case Type::Limit:
-        return true;  // Done.
+        // Done.
+        return !isDead;
       case Type::RawInt32:
       case Type::RawPointer:
       case Type::Shape:
@@ -2148,6 +2150,30 @@ bool CacheIRCompiler::emitGuardNonDoubleType(ValOperandId inputId,
   return true;
 }
 
+static const JSClass* ClassFor(JSContext* cx, GuardClassKind kind) {
+  switch (kind) {
+    case GuardClassKind::Array:
+    case GuardClassKind::PlainObject:
+    case GuardClassKind::FixedLengthArrayBuffer:
+    case GuardClassKind::ResizableArrayBuffer:
+    case GuardClassKind::FixedLengthSharedArrayBuffer:
+    case GuardClassKind::GrowableSharedArrayBuffer:
+    case GuardClassKind::FixedLengthDataView:
+    case GuardClassKind::ResizableDataView:
+    case GuardClassKind::MappedArguments:
+    case GuardClassKind::UnmappedArguments:
+    case GuardClassKind::Set:
+    case GuardClassKind::Map:
+    case GuardClassKind::BoundFunction:
+      return ClassFor(kind);
+    case GuardClassKind::WindowProxy:
+      return cx->runtime()->maybeWindowProxyClass();
+    case GuardClassKind::JSFunction:
+      MOZ_CRASH("must be handled by caller");
+  }
+  MOZ_CRASH("unexpected kind");
+}
+
 bool CacheIRCompiler::emitGuardClass(ObjOperandId objId, GuardClassKind kind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
   Register obj = allocator.useRegister(masm, objId);
@@ -2169,44 +2195,7 @@ bool CacheIRCompiler::emitGuardClass(ObjOperandId objId, GuardClassKind kind) {
     return true;
   }
 
-  const JSClass* clasp = nullptr;
-  switch (kind) {
-    case GuardClassKind::Array:
-      clasp = &ArrayObject::class_;
-      break;
-    case GuardClassKind::PlainObject:
-      clasp = &PlainObject::class_;
-      break;
-    case GuardClassKind::FixedLengthArrayBuffer:
-      clasp = &FixedLengthArrayBufferObject::class_;
-      break;
-    case GuardClassKind::FixedLengthSharedArrayBuffer:
-      clasp = &FixedLengthSharedArrayBufferObject::class_;
-      break;
-    case GuardClassKind::FixedLengthDataView:
-      clasp = &FixedLengthDataViewObject::class_;
-      break;
-    case GuardClassKind::MappedArguments:
-      clasp = &MappedArgumentsObject::class_;
-      break;
-    case GuardClassKind::UnmappedArguments:
-      clasp = &UnmappedArgumentsObject::class_;
-      break;
-    case GuardClassKind::WindowProxy:
-      clasp = cx_->runtime()->maybeWindowProxyClass();
-      break;
-    case GuardClassKind::Set:
-      clasp = &SetObject::class_;
-      break;
-    case GuardClassKind::Map:
-      clasp = &MapObject::class_;
-      break;
-    case GuardClassKind::BoundFunction:
-      clasp = &BoundFunctionObject::class_;
-      break;
-    case GuardClassKind::JSFunction:
-      MOZ_CRASH("JSFunction handled before switch");
-  }
+  const JSClass* clasp = ClassFor(cx_, kind);
   MOZ_ASSERT(clasp);
 
   if (objectGuardNeedsSpectreMitigations(objId)) {
@@ -2220,6 +2209,39 @@ bool CacheIRCompiler::emitGuardClass(ObjOperandId objId, GuardClassKind kind) {
   return true;
 }
 
+bool CacheIRCompiler::emitGuardEitherClass(ObjOperandId objId,
+                                           GuardClassKind kind1,
+                                           GuardClassKind kind2) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+  Register obj = allocator.useRegister(masm, objId);
+  AutoScratchRegister scratch(allocator, masm);
+
+  FailurePath* failure;
+  if (!addFailurePath(&failure)) {
+    return false;
+  }
+
+  // We don't yet need this case, so it's unsupported for now.
+  MOZ_ASSERT(kind1 != GuardClassKind::JSFunction &&
+             kind2 != GuardClassKind::JSFunction);
+
+  const JSClass* clasp1 = ClassFor(cx_, kind1);
+  MOZ_ASSERT(clasp1);
+
+  const JSClass* clasp2 = ClassFor(cx_, kind2);
+  MOZ_ASSERT(clasp2);
+
+  if (objectGuardNeedsSpectreMitigations(objId)) {
+    masm.branchTestObjClass(Assembler::NotEqual, obj, {clasp1, clasp2}, scratch,
+                            obj, failure->label());
+  } else {
+    masm.branchTestObjClassNoSpectreMitigations(
+        Assembler::NotEqual, obj, {clasp1, clasp2}, scratch, failure->label());
+  }
+
+  return true;
+}
+
 bool CacheIRCompiler::emitGuardNullProto(ObjOperandId objId) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
   Register obj = allocator.useRegister(masm, objId);
@@ -2569,6 +2591,22 @@ bool CacheIRCompiler::emitGuardIsFixedLengthTypedArray(ObjOperandId objId) {
   return true;
 }
 
+bool CacheIRCompiler::emitGuardIsResizableTypedArray(ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  Register obj = allocator.useRegister(masm, objId);
+  AutoScratchRegister scratch(allocator, masm);
+
+  FailurePath* failure;
+  if (!addFailurePath(&failure)) {
+    return false;
+  }
+
+  masm.loadObjClassUnsafe(obj, scratch);
+  masm.branchIfClassIsNotResizableTypedArray(scratch, failure->label());
+  return true;
+}
+
 bool CacheIRCompiler::emitGuardIsNotDOMProxy(ObjOperandId objId) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
   Register obj = allocator.useRegister(masm, objId);
@@ -2796,7 +2834,7 @@ bool CacheIRCompiler::emitStringToAtom(StringOperandId stringId) {
   masm.branchTest32(Assembler::NonZero, Address(str, JSString::offsetOfFlags()),
                     Imm32(JSString::ATOM_BIT), &done);
 
-  masm.lookupStringInAtomCacheLastLookups(str, scratch, &vmCall);
+  masm.lookupStringInAtomCacheLastLookups(str, scratch, str, &vmCall);
   masm.jump(&done);
 
   masm.bind(&vmCall);
@@ -4760,17 +4798,30 @@ bool CacheIRCompiler::emitLoadDenseElementHoleResult(ObjOperandId objId,
 }
 
 bool CacheIRCompiler::emitLoadTypedArrayElementExistsResult(
-    ObjOperandId objId, IntPtrOperandId indexId) {
+    ObjOperandId objId, IntPtrOperandId indexId, ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
   AutoOutputRegister output(*this);
   Register obj = allocator.useRegister(masm, objId);
   Register index = allocator.useRegister(masm, indexId);
   AutoScratchRegisterMaybeOutput scratch(allocator, masm, output);
+  Maybe<AutoScratchRegister> scratch2;
+  if (viewKind == ArrayBufferViewKind::Resizable) {
+    scratch2.emplace(allocator, masm);
+  }
 
   Label outOfBounds, done;
 
   // Bounds check.
-  masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
+  if (viewKind == ArrayBufferViewKind::FixedLength) {
+    masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
+  } else {
+    // Bounds check doesn't require synchronization. See IsValidIntegerIndex
+    // abstract operation which reads the underlying buffer byte length using
+    // "unordered" memory order.
+    auto sync = Synchronization::None();
+
+    masm.loadResizableTypedArrayLengthIntPtr(sync, obj, scratch, *scratch2);
+  }
   masm.branchPtr(Assembler::BelowOrEqual, scratch, index, &outOfBounds);
   EmitStoreBoolean(masm, true, output);
   masm.jump(&done);
@@ -5039,6 +5090,46 @@ bool CacheIRCompiler::emitArrayBufferViewByteOffsetDoubleResult(
   return true;
 }
 
+bool CacheIRCompiler::
+    emitResizableTypedArrayByteOffsetMaybeOutOfBoundsInt32Result(
+        ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  AutoScratchRegisterMaybeOutput scratch1(allocator, masm, output);
+  AutoScratchRegister scratch2(allocator, masm);
+  Register obj = allocator.useRegister(masm, objId);
+
+  FailurePath* failure;
+  if (!addFailurePath(&failure)) {
+    return false;
+  }
+
+  masm.loadResizableTypedArrayByteOffsetMaybeOutOfBoundsIntPtr(obj, scratch1,
+                                                               scratch2);
+  masm.guardNonNegativeIntPtrToInt32(scratch1, failure->label());
+  masm.tagValue(JSVAL_TYPE_INT32, scratch1, output.valueReg());
+  return true;
+}
+
+bool CacheIRCompiler::
+    emitResizableTypedArrayByteOffsetMaybeOutOfBoundsDoubleResult(
+        ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  Register obj = allocator.useRegister(masm, objId);
+  AutoScratchRegisterMaybeOutput scratch1(allocator, masm, output);
+  AutoScratchRegister scratch2(allocator, masm);
+
+  ScratchDoubleScope fpscratch(masm);
+  masm.loadResizableTypedArrayByteOffsetMaybeOutOfBoundsIntPtr(obj, scratch1,
+                                                               scratch2);
+  masm.convertIntPtrToDouble(scratch1, fpscratch);
+  masm.boxDouble(fpscratch, output.valueReg(), fpscratch);
+  return true;
+}
+
 bool CacheIRCompiler::emitTypedArrayByteLengthInt32Result(ObjOperandId objId) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
@@ -5081,6 +5172,100 @@ bool CacheIRCompiler::emitTypedArrayByteLengthDoubleResult(ObjOperandId objId) {
   return true;
 }
 
+bool CacheIRCompiler::emitResizableTypedArrayByteLengthInt32Result(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  AutoScratchRegisterMaybeOutput scratch1(allocator, masm, output);
+  AutoScratchRegister scratch2(allocator, masm);
+  Register obj = allocator.useRegister(masm, objId);
+
+  FailurePath* failure;
+  if (!addFailurePath(&failure)) {
+    return false;
+  }
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto sync = Synchronization::Load();
+
+  masm.loadResizableTypedArrayLengthIntPtr(sync, obj, scratch1, scratch2);
+  masm.guardNonNegativeIntPtrToInt32(scratch1, failure->label());
+  masm.typedArrayElementSize(obj, scratch2);
+
+  masm.branchMul32(Assembler::Overflow, scratch2.get(), scratch1,
+                   failure->label());
+
+  masm.tagValue(JSVAL_TYPE_INT32, scratch1, output.valueReg());
+  return true;
+}
+
+bool CacheIRCompiler::emitResizableTypedArrayByteLengthDoubleResult(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  AutoScratchRegisterMaybeOutput scratch1(allocator, masm, output);
+  AutoScratchRegister scratch2(allocator, masm);
+  Register obj = allocator.useRegister(masm, objId);
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto sync = Synchronization::Load();
+
+  masm.loadResizableTypedArrayLengthIntPtr(sync, obj, scratch1, scratch2);
+  masm.typedArrayElementSize(obj, scratch2);
+  masm.mulPtr(scratch2, scratch1);
+
+  ScratchDoubleScope fpscratch(masm);
+  masm.convertIntPtrToDouble(scratch1, fpscratch);
+  masm.boxDouble(fpscratch, output.valueReg(), fpscratch);
+  return true;
+}
+
+bool CacheIRCompiler::emitResizableTypedArrayLengthInt32Result(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  AutoScratchRegisterMaybeOutput scratch1(allocator, masm, output);
+  AutoScratchRegister scratch2(allocator, masm);
+  Register obj = allocator.useRegister(masm, objId);
+
+  FailurePath* failure;
+  if (!addFailurePath(&failure)) {
+    return false;
+  }
+
+  // Explicit |length| accesses are seq-consistent atomic loads.
+  auto sync = Synchronization::Load();
+
+  masm.loadResizableTypedArrayLengthIntPtr(sync, obj, scratch1, scratch2);
+  masm.guardNonNegativeIntPtrToInt32(scratch1, failure->label());
+
+  masm.tagValue(JSVAL_TYPE_INT32, scratch1, output.valueReg());
+  return true;
+}
+
+bool CacheIRCompiler::emitResizableTypedArrayLengthDoubleResult(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  AutoScratchRegisterMaybeOutput scratch1(allocator, masm, output);
+  AutoScratchRegister scratch2(allocator, masm);
+  Register obj = allocator.useRegister(masm, objId);
+
+  // Explicit |length| accesses are seq-consistent atomic loads.
+  auto sync = Synchronization::Load();
+
+  masm.loadResizableTypedArrayLengthIntPtr(sync, obj, scratch1, scratch2);
+
+  ScratchDoubleScope fpscratch(masm);
+  masm.convertIntPtrToDouble(scratch1, fpscratch);
+  masm.boxDouble(fpscratch, output.valueReg(), fpscratch);
+  return true;
+}
+
 bool CacheIRCompiler::emitTypedArrayElementSizeResult(ObjOperandId objId) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
@@ -5093,6 +5278,92 @@ bool CacheIRCompiler::emitTypedArrayElementSizeResult(ObjOperandId objId) {
   return true;
 }
 
+bool CacheIRCompiler::emitResizableDataViewByteLengthInt32Result(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  AutoScratchRegisterMaybeOutput scratch1(allocator, masm, output);
+  AutoScratchRegister scratch2(allocator, masm);
+  Register obj = allocator.useRegister(masm, objId);
+
+  FailurePath* failure;
+  if (!addFailurePath(&failure)) {
+    return false;
+  }
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto sync = Synchronization::Load();
+
+  masm.loadResizableDataViewByteLengthIntPtr(sync, obj, scratch1, scratch2);
+  masm.guardNonNegativeIntPtrToInt32(scratch1, failure->label());
+
+  masm.tagValue(JSVAL_TYPE_INT32, scratch1, output.valueReg());
+  return true;
+}
+
+bool CacheIRCompiler::emitResizableDataViewByteLengthDoubleResult(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  AutoScratchRegisterMaybeOutput scratch1(allocator, masm, output);
+  AutoScratchRegister scratch2(allocator, masm);
+  Register obj = allocator.useRegister(masm, objId);
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto sync = Synchronization::Load();
+
+  masm.loadResizableDataViewByteLengthIntPtr(sync, obj, scratch1, scratch2);
+
+  ScratchDoubleScope fpscratch(masm);
+  masm.convertIntPtrToDouble(scratch1, fpscratch);
+  masm.boxDouble(fpscratch, output.valueReg(), fpscratch);
+  return true;
+}
+
+bool CacheIRCompiler::emitGrowableSharedArrayBufferByteLengthInt32Result(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  AutoScratchRegisterMaybeOutput scratch(allocator, masm, output);
+  Register obj = allocator.useRegister(masm, objId);
+
+  FailurePath* failure;
+  if (!addFailurePath(&failure)) {
+    return false;
+  }
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto sync = Synchronization::Load();
+
+  masm.loadGrowableSharedArrayBufferByteLengthIntPtr(sync, obj, scratch);
+  masm.guardNonNegativeIntPtrToInt32(scratch, failure->label());
+
+  masm.tagValue(JSVAL_TYPE_INT32, scratch, output.valueReg());
+  return true;
+}
+
+bool CacheIRCompiler::emitGrowableSharedArrayBufferByteLengthDoubleResult(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoOutputRegister output(*this);
+  AutoScratchRegisterMaybeOutput scratch(allocator, masm, output);
+  Register obj = allocator.useRegister(masm, objId);
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto sync = Synchronization::Load();
+
+  masm.loadGrowableSharedArrayBufferByteLengthIntPtr(sync, obj, scratch);
+
+  ScratchDoubleScope fpscratch(masm);
+  masm.convertIntPtrToDouble(scratch, fpscratch);
+  masm.boxDouble(fpscratch, output.valueReg(), fpscratch);
+  return true;
+}
+
 bool CacheIRCompiler::emitGuardHasAttachedArrayBuffer(ObjOperandId objId) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
@@ -5108,6 +5379,42 @@ bool CacheIRCompiler::emitGuardHasAttachedArrayBuffer(ObjOperandId objId) {
   return true;
 }
 
+bool CacheIRCompiler::emitGuardResizableArrayBufferViewInBounds(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoScratchRegister scratch(allocator, masm);
+  Register obj = allocator.useRegister(masm, objId);
+
+  FailurePath* failure;
+  if (!addFailurePath(&failure)) {
+    return false;
+  }
+
+  masm.branchIfResizableArrayBufferViewOutOfBounds(obj, scratch,
+                                                   failure->label());
+  return true;
+}
+
+bool CacheIRCompiler::emitGuardResizableArrayBufferViewInBoundsOrDetached(
+    ObjOperandId objId) {
+  JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
+
+  AutoScratchRegister scratch(allocator, masm);
+  Register obj = allocator.useRegister(masm, objId);
+
+  FailurePath* failure;
+  if (!addFailurePath(&failure)) {
+    return false;
+  }
+
+  Label done;
+  masm.branchIfResizableArrayBufferViewInBounds(obj, scratch, &done);
+  masm.branchIfHasAttachedArrayBuffer(obj, scratch, failure->label());
+  masm.bind(&done);
+  return true;
+}
+
 bool CacheIRCompiler::emitIsTypedArrayConstructorResult(ObjOperandId objId) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
@@ -6220,8 +6527,8 @@ bool CacheIRCompiler::emitArrayPush(ObjOperandId objId, ValOperandId rhsId) {
 bool CacheIRCompiler::emitStoreTypedArrayElement(ObjOperandId objId,
                                                  Scalar::Type elementType,
                                                  IntPtrOperandId indexId,
-                                                 uint32_t rhsId,
-                                                 bool handleOOB) {
+                                                 uint32_t rhsId, bool handleOOB,
+                                                 ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
   Register obj = allocator.useRegister(masm, objId);
   Register index = allocator.useRegister(masm, indexId);
@@ -6261,7 +6568,8 @@ bool CacheIRCompiler::emitStoreTypedArrayElement(ObjOperandId objId,
   AutoScratchRegister scratch1(allocator, masm);
   Maybe<AutoScratchRegister> scratch2;
   Maybe<AutoSpectreBoundsScratchRegister> spectreScratch;
-  if (Scalar::isBigIntType(elementType)) {
+  if (Scalar::isBigIntType(elementType) ||
+      viewKind == ArrayBufferViewKind::Resizable) {
     scratch2.emplace(allocator, masm);
   } else {
     spectreScratch.emplace(allocator, masm);
@@ -6276,10 +6584,9 @@ bool CacheIRCompiler::emitStoreTypedArrayElement(ObjOperandId objId,
 
   // Bounds check.
   Label done;
-  Register spectreTemp = scratch2 ? scratch2->get() : spectreScratch->get();
-  masm.loadArrayBufferViewLengthIntPtr(obj, scratch1);
-  masm.spectreBoundsCheckPtr(index, scratch1, spectreTemp,
-                             handleOOB ? &done : failure->label());
+  emitTypedArrayBoundsCheck(viewKind, obj, index, scratch1, scratch2,
+                            spectreScratch,
+                            handleOOB ? &done : failure->label());
 
   // Load the elements vector.
   masm.loadPtr(Address(obj, ArrayBufferViewObject::dataOffset()), scratch1);
@@ -6348,9 +6655,61 @@ static void EmitAllocateBigInt(MacroAssembler& masm, Register result,
   masm.bind(&done);
 }
 
+void CacheIRCompiler::emitTypedArrayBoundsCheck(ArrayBufferViewKind viewKind,
+                                                Register obj, Register index,
+                                                Register scratch,
+                                                Register maybeScratch,
+                                                Register spectreScratch,
+                                                Label* fail) {
+  // |index| must not alias any scratch register.
+  MOZ_ASSERT(index != scratch);
+  MOZ_ASSERT(index != maybeScratch);
+  MOZ_ASSERT(index != spectreScratch);
+
+  if (viewKind == ArrayBufferViewKind::FixedLength) {
+    masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
+    masm.spectreBoundsCheckPtr(index, scratch, spectreScratch, fail);
+  } else {
+    if (maybeScratch == InvalidReg) {
+      // Spill |index| to use it as an additional scratch register.
+      masm.push(index);
+
+      maybeScratch = index;
+    } else {
+      // Use |maybeScratch| when no explicit |spectreScratch| is present.
+      if (spectreScratch == InvalidReg) {
+        spectreScratch = maybeScratch;
+      }
+    }
+
+    // Bounds check doesn't require synchronization. See IsValidIntegerIndex
+    // abstract operation which reads the underlying buffer byte length using
+    // "unordered" memory order.
+    auto sync = Synchronization::None();
+
+    masm.loadResizableTypedArrayLengthIntPtr(sync, obj, scratch, maybeScratch);
+
+    if (maybeScratch == index) {
+      // Restore |index|.
+      masm.pop(index);
+    }
+
+    masm.spectreBoundsCheckPtr(index, scratch, spectreScratch, fail);
+  }
+}
+
+void CacheIRCompiler::emitTypedArrayBoundsCheck(
+    ArrayBufferViewKind viewKind, Register obj, Register index,
+    Register scratch, mozilla::Maybe<Register> maybeScratch,
+    mozilla::Maybe<Register> spectreScratch, Label* fail) {
+  emitTypedArrayBoundsCheck(viewKind, obj, index, scratch,
+                            maybeScratch.valueOr(InvalidReg),
+                            spectreScratch.valueOr(InvalidReg), fail);
+}
+
 bool CacheIRCompiler::emitLoadTypedArrayElementResult(
     ObjOperandId objId, IntPtrOperandId indexId, Scalar::Type elementType,
-    bool handleOOB, bool forceDoubleForUint32) {
+    bool handleOOB, bool forceDoubleForUint32, ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
   AutoOutputRegister output(*this);
   Register obj = allocator.useRegister(masm, objId);
@@ -6372,9 +6731,8 @@ bool CacheIRCompiler::emitLoadTypedArrayElementResult(
 
   // Bounds check.
   Label outOfBounds;
-  masm.loadArrayBufferViewLengthIntPtr(obj, scratch1);
-  masm.spectreBoundsCheckPtr(index, scratch1, scratch2,
-                             handleOOB ? &outOfBounds : failure->label());
+  emitTypedArrayBoundsCheck(viewKind, obj, index, scratch1, scratch2, scratch2,
+                            handleOOB ? &outOfBounds : failure->label());
 
   // Allocate BigInt if needed. The code after this should be infallible.
   Maybe<Register> bigInt;
@@ -6437,11 +6795,40 @@ bool CacheIRCompiler::emitLoadTypedArrayElementResult(
   return true;
 }
 
-static void EmitDataViewBoundsCheck(MacroAssembler& masm, size_t byteSize,
-                                    Register obj, Register offset,
-                                    Register scratch, Label* fail) {
+void CacheIRCompiler::emitDataViewBoundsCheck(ArrayBufferViewKind viewKind,
+                                              size_t byteSize, Register obj,
+                                              Register offset, Register scratch,
+                                              Register maybeScratch,
+                                              Label* fail) {
+  // |offset| must not alias any scratch register.
+  MOZ_ASSERT(offset != scratch);
+  MOZ_ASSERT(offset != maybeScratch);
+
+  if (viewKind == ArrayBufferViewKind::FixedLength) {
+    masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
+  } else {
+    if (maybeScratch == InvalidReg) {
+      // Spill |offset| to use it as an additional scratch register.
+      masm.push(offset);
+
+      maybeScratch = offset;
+    }
+
+    // Bounds check doesn't require synchronization. See GetViewValue and
+    // SetViewValue abstract operations which read the underlying buffer byte
+    // length using "unordered" memory order.
+    auto sync = Synchronization::None();
+
+    masm.loadResizableDataViewByteLengthIntPtr(sync, obj, scratch,
+                                               maybeScratch);
+
+    if (maybeScratch == offset) {
+      // Restore |offset|.
+      masm.pop(offset);
+    }
+  }
+
   // Ensure both offset < length and offset + (byteSize - 1) < length.
-  masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
   if (byteSize == 1) {
     masm.spectreBoundsCheckPtr(offset, scratch, InvalidReg, fail);
   } else {
@@ -6456,7 +6843,7 @@ static void EmitDataViewBoundsCheck(MacroAssembler& masm, size_t byteSize,
 bool CacheIRCompiler::emitLoadDataViewValueResult(
     ObjOperandId objId, IntPtrOperandId offsetId,
     BooleanOperandId littleEndianId, Scalar::Type elementType,
-    bool forceDoubleForUint32) {
+    bool forceDoubleForUint32, ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   AutoOutputRegister output(*this);
@@ -6469,6 +6856,18 @@ bool CacheIRCompiler::emitLoadDataViewValueResult(
   Register64 outputReg64 = output.valueReg().toRegister64();
   Register outputScratch = outputReg64.scratchReg();
 
+  Register boundsCheckScratch;
+#ifndef JS_CODEGEN_X86
+  Maybe<AutoScratchRegister> maybeBoundsCheckScratch;
+  if (viewKind == ArrayBufferViewKind::Resizable) {
+    maybeBoundsCheckScratch.emplace(allocator, masm);
+    boundsCheckScratch = *maybeBoundsCheckScratch;
+  }
+#else
+  // Not enough registers on x86, so use the other part of outputReg64.
+  boundsCheckScratch = outputReg64.secondScratchReg();
+#endif
+
   FailurePath* failure;
   if (!addFailurePath(&failure)) {
     return false;
@@ -6476,8 +6875,8 @@ bool CacheIRCompiler::emitLoadDataViewValueResult(
 
   const size_t byteSize = Scalar::byteSize(elementType);
 
-  EmitDataViewBoundsCheck(masm, byteSize, obj, offset, outputScratch,
-                          failure->label());
+  emitDataViewBoundsCheck(viewKind, byteSize, obj, offset, outputScratch,
+                          boundsCheckScratch, failure->label());
 
   masm.loadPtr(Address(obj, DataViewObject::dataOffset()), outputScratch);
 
@@ -6612,7 +7011,8 @@ bool CacheIRCompiler::emitLoadDataViewValueResult(
 
 bool CacheIRCompiler::emitStoreDataViewValueResult(
     ObjOperandId objId, IntPtrOperandId offsetId, uint32_t valueId,
-    BooleanOperandId littleEndianId, Scalar::Type elementType) {
+    BooleanOperandId littleEndianId, Scalar::Type elementType,
+    ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   AutoOutputRegister output(*this);
@@ -6686,6 +7086,24 @@ bool CacheIRCompiler::emitStoreDataViewValueResult(
   }
 #endif
 
+  Register boundsCheckScratch;
+#ifndef JS_CODEGEN_X86
+  Maybe<AutoScratchRegister> maybeBoundsCheckScratch;
+  if (viewKind == ArrayBufferViewKind::Resizable) {
+    if (scratch2.constructed<AutoScratchRegister>()) {
+      boundsCheckScratch = scratch2.ref<AutoScratchRegister>().get();
+    } else if (scratch2.constructed<AutoScratchRegister64>()) {
+      boundsCheckScratch =
+          scratch2.ref<AutoScratchRegister64>().get().scratchReg();
+    } else {
+      maybeBoundsCheckScratch.emplace(allocator, masm);
+      boundsCheckScratch = *maybeBoundsCheckScratch;
+    }
+  }
+#else
+  // Not enough registers on x86.
+#endif
+
   FailurePath* failure;
   if (!addFailurePath(&failure)) {
     return false;
@@ -6693,8 +7111,8 @@ bool CacheIRCompiler::emitStoreDataViewValueResult(
 
   const size_t byteSize = Scalar::byteSize(elementType);
 
-  EmitDataViewBoundsCheck(masm, byteSize, obj, offset, scratch1,
-                          failure->label());
+  emitDataViewBoundsCheck(viewKind, byteSize, obj, offset, scratch1,
+                          boundsCheckScratch, failure->label());
 
   masm.loadPtr(Address(obj, DataViewObject::dataOffset()), scratch1);
   BaseIndex dest(scratch1, offset, TimesOne);
@@ -8903,7 +9321,8 @@ bool CacheIRCompiler::emitGetFirstDollarIndexResult(StringOperandId strId) {
 
 bool CacheIRCompiler::emitAtomicsCompareExchangeResult(
     ObjOperandId objId, IntPtrOperandId indexId, uint32_t expectedId,
-    uint32_t replacementId, Scalar::Type elementType) {
+    uint32_t replacementId, Scalar::Type elementType,
+    ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   Maybe<AutoOutputRegister> output;
@@ -8936,8 +9355,17 @@ bool CacheIRCompiler::emitAtomicsCompareExchangeResult(
                             : callvm->outputValueReg().scratchReg();
   MOZ_ASSERT(scratch != obj, "scratchReg must not be typeReg");
 
+  Maybe<AutoScratchRegister> scratch2;
+  if (viewKind == ArrayBufferViewKind::Resizable) {
+#ifdef JS_CODEGEN_X86
+    // Not enough spare registers on x86.
+#else
+    scratch2.emplace(allocator, masm);
+#endif
+  }
+
   // Not enough registers on X86.
-  Register spectreTemp = Register::Invalid();
+  constexpr auto spectreTemp = mozilla::Nothing{};
 
   FailurePath* failure;
   if (!addFailurePath(&failure)) {
@@ -8950,8 +9378,8 @@ bool CacheIRCompiler::emitAtomicsCompareExchangeResult(
   MOZ_ASSERT(isBaseline(), "Can't use FailurePath with AutoCallVM in Ion ICs");
 
   // Bounds check.
-  masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
-  masm.spectreBoundsCheckPtr(index, scratch, spectreTemp, failure->label());
+  emitTypedArrayBoundsCheck(viewKind, obj, index, scratch, scratch2,
+                            spectreTemp, failure->label());
 
   // Atomic operations are highly platform-dependent, for example x86/x64 has
   // specific requirements on which registers are used; MIPS needs multiple
@@ -8966,8 +9394,8 @@ bool CacheIRCompiler::emitAtomicsCompareExchangeResult(
     masm.Push(index);
     masm.Push(obj);
 
-    using Fn = BigInt* (*)(JSContext*, FixedLengthTypedArrayObject*, size_t,
-                           const BigInt*, const BigInt*);
+    using Fn = BigInt* (*)(JSContext*, TypedArrayObject*, size_t, const BigInt*,
+                           const BigInt*);
     callvm->call<Fn, jit::AtomicsCompareExchange64>();
     return true;
   }
@@ -9004,15 +9432,20 @@ bool CacheIRCompiler::emitAtomicsCompareExchangeResult(
 
 bool CacheIRCompiler::emitAtomicsReadModifyWriteResult(
     ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
-    Scalar::Type elementType, AtomicsReadWriteModifyFn fn) {
+    Scalar::Type elementType, ArrayBufferViewKind viewKind,
+    AtomicsReadWriteModifyFn fn) {
   AutoOutputRegister output(*this);
   Register obj = allocator.useRegister(masm, objId);
   Register index = allocator.useRegister(masm, indexId);
   Register value = allocator.useRegister(masm, Int32OperandId(valueId));
   AutoScratchRegisterMaybeOutput scratch(allocator, masm, output);
+  Maybe<AutoScratchRegisterMaybeOutputType> scratch2;
+  if (viewKind == ArrayBufferViewKind::Resizable) {
+    scratch2.emplace(allocator, masm, output);
+  }
 
   // Not enough registers on X86.
-  Register spectreTemp = Register::Invalid();
+  constexpr auto spectreTemp = mozilla::Nothing{};
 
   FailurePath* failure;
   if (!addFailurePath(&failure)) {
@@ -9020,8 +9453,8 @@ bool CacheIRCompiler::emitAtomicsReadModifyWriteResult(
   }
 
   // Bounds check.
-  masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
-  masm.spectreBoundsCheckPtr(index, scratch, spectreTemp, failure->label());
+  emitTypedArrayBoundsCheck(viewKind, obj, index, scratch, scratch2,
+                            spectreTemp, failure->label());
 
   // See comment in emitAtomicsCompareExchange for why we use an ABI call.
   {
@@ -9054,15 +9487,20 @@ bool CacheIRCompiler::emitAtomicsReadModifyWriteResult(
 
 template <CacheIRCompiler::AtomicsReadWriteModify64Fn fn>
 bool CacheIRCompiler::emitAtomicsReadModifyWriteResult64(
-    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId) {
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    ArrayBufferViewKind viewKind) {
   AutoCallVM callvm(masm, this, allocator);
   Register obj = allocator.useRegister(masm, objId);
   Register index = allocator.useRegister(masm, indexId);
   Register value = allocator.useRegister(masm, BigIntOperandId(valueId));
   AutoScratchRegisterMaybeOutput scratch(allocator, masm, callvm.output());
+  Maybe<AutoScratchRegisterMaybeOutputType> scratch2;
+  if (viewKind == ArrayBufferViewKind::Resizable) {
+    scratch2.emplace(allocator, masm, callvm.output());
+  }
 
   // Not enough registers on X86.
-  Register spectreTemp = Register::Invalid();
+  constexpr auto spectreTemp = mozilla::Nothing{};
 
   FailurePath* failure;
   if (!addFailurePath(&failure)) {
@@ -9075,8 +9513,8 @@ bool CacheIRCompiler::emitAtomicsReadModifyWriteResult64(
   MOZ_ASSERT(isBaseline(), "Can't use FailurePath with AutoCallVM in Ion ICs");
 
   // Bounds check.
-  masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
-  masm.spectreBoundsCheckPtr(index, scratch, spectreTemp, failure->label());
+  emitTypedArrayBoundsCheck(viewKind, obj, index, scratch, scratch2,
+                            spectreTemp, failure->label());
 
   // See comment in emitAtomicsCompareExchange for why we use a VM call.
 
@@ -9093,95 +9531,88 @@ bool CacheIRCompiler::emitAtomicsReadModifyWriteResult64(
 bool CacheIRCompiler::emitAtomicsExchangeResult(ObjOperandId objId,
                                                 IntPtrOperandId indexId,
                                                 uint32_t valueId,
-                                                Scalar::Type elementType) {
+                                                Scalar::Type elementType,
+                                                ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   if (Scalar::isBigIntType(elementType)) {
     return emitAtomicsReadModifyWriteResult64<jit::AtomicsExchange64>(
-        objId, indexId, valueId);
+        objId, indexId, valueId, viewKind);
   }
   return emitAtomicsReadModifyWriteResult(objId, indexId, valueId, elementType,
+                                          viewKind,
                                           AtomicsExchange(elementType));
 }
 
-bool CacheIRCompiler::emitAtomicsAddResult(ObjOperandId objId,
-                                           IntPtrOperandId indexId,
-                                           uint32_t valueId,
-                                           Scalar::Type elementType,
-                                           bool forEffect) {
+bool CacheIRCompiler::emitAtomicsAddResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   if (Scalar::isBigIntType(elementType)) {
-    return emitAtomicsReadModifyWriteResult64<jit::AtomicsAdd64>(objId, indexId,
-                                                                 valueId);
+    return emitAtomicsReadModifyWriteResult64<jit::AtomicsAdd64>(
+        objId, indexId, valueId, viewKind);
   }
   return emitAtomicsReadModifyWriteResult(objId, indexId, valueId, elementType,
-                                          AtomicsAdd(elementType));
+                                          viewKind, AtomicsAdd(elementType));
 }
 
-bool CacheIRCompiler::emitAtomicsSubResult(ObjOperandId objId,
-                                           IntPtrOperandId indexId,
-                                           uint32_t valueId,
-                                           Scalar::Type elementType,
-                                           bool forEffect) {
+bool CacheIRCompiler::emitAtomicsSubResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   if (Scalar::isBigIntType(elementType)) {
-    return emitAtomicsReadModifyWriteResult64<jit::AtomicsSub64>(objId, indexId,
-                                                                 valueId);
+    return emitAtomicsReadModifyWriteResult64<jit::AtomicsSub64>(
+        objId, indexId, valueId, viewKind);
   }
   return emitAtomicsReadModifyWriteResult(objId, indexId, valueId, elementType,
-                                          AtomicsSub(elementType));
+                                          viewKind, AtomicsSub(elementType));
 }
 
-bool CacheIRCompiler::emitAtomicsAndResult(ObjOperandId objId,
-                                           IntPtrOperandId indexId,
-                                           uint32_t valueId,
-                                           Scalar::Type elementType,
-                                           bool forEffect) {
+bool CacheIRCompiler::emitAtomicsAndResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   if (Scalar::isBigIntType(elementType)) {
-    return emitAtomicsReadModifyWriteResult64<jit::AtomicsAnd64>(objId, indexId,
-                                                                 valueId);
+    return emitAtomicsReadModifyWriteResult64<jit::AtomicsAnd64>(
+        objId, indexId, valueId, viewKind);
   }
   return emitAtomicsReadModifyWriteResult(objId, indexId, valueId, elementType,
-                                          AtomicsAnd(elementType));
+                                          viewKind, AtomicsAnd(elementType));
 }
 
-bool CacheIRCompiler::emitAtomicsOrResult(ObjOperandId objId,
-                                          IntPtrOperandId indexId,
-                                          uint32_t valueId,
-                                          Scalar::Type elementType,
-                                          bool forEffect) {
+bool CacheIRCompiler::emitAtomicsOrResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   if (Scalar::isBigIntType(elementType)) {
-    return emitAtomicsReadModifyWriteResult64<jit::AtomicsOr64>(objId, indexId,
-                                                                valueId);
+    return emitAtomicsReadModifyWriteResult64<jit::AtomicsOr64>(
+        objId, indexId, valueId, viewKind);
   }
   return emitAtomicsReadModifyWriteResult(objId, indexId, valueId, elementType,
-                                          AtomicsOr(elementType));
+                                          viewKind, AtomicsOr(elementType));
 }
 
-bool CacheIRCompiler::emitAtomicsXorResult(ObjOperandId objId,
-                                           IntPtrOperandId indexId,
-                                           uint32_t valueId,
-                                           Scalar::Type elementType,
-                                           bool forEffect) {
+bool CacheIRCompiler::emitAtomicsXorResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   if (Scalar::isBigIntType(elementType)) {
-    return emitAtomicsReadModifyWriteResult64<jit::AtomicsXor64>(objId, indexId,
-                                                                 valueId);
+    return emitAtomicsReadModifyWriteResult64<jit::AtomicsXor64>(
+        objId, indexId, valueId, viewKind);
   }
   return emitAtomicsReadModifyWriteResult(objId, indexId, valueId, elementType,
-                                          AtomicsXor(elementType));
+                                          viewKind, AtomicsXor(elementType));
 }
 
 bool CacheIRCompiler::emitAtomicsLoadResult(ObjOperandId objId,
                                             IntPtrOperandId indexId,
-                                            Scalar::Type elementType) {
+                                            Scalar::Type elementType,
+                                            ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   Maybe<AutoOutputRegister> output;
@@ -9195,7 +9626,13 @@ bool CacheIRCompiler::emitAtomicsLoadResult(ObjOperandId objId,
   Register index = allocator.useRegister(masm, indexId);
   AutoScratchRegisterMaybeOutput scratch(allocator, masm,
                                          output ? *output : callvm->output());
-  AutoSpectreBoundsScratchRegister spectreTemp(allocator, masm);
+  Maybe<AutoSpectreBoundsScratchRegister> spectreTemp;
+  Maybe<AutoScratchRegister> scratch2;
+  if (viewKind == ArrayBufferViewKind::FixedLength) {
+    spectreTemp.emplace(allocator, masm);
+  } else {
+    scratch2.emplace(allocator, masm);
+  }
   AutoAvailableFloatRegister floatReg(*this, FloatReg0);
 
   FailurePath* failure;
@@ -9209,8 +9646,8 @@ bool CacheIRCompiler::emitAtomicsLoadResult(ObjOperandId objId,
   MOZ_ASSERT(isBaseline(), "Can't use FailurePath with AutoCallVM in Ion ICs");
 
   // Bounds check.
-  masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
-  masm.spectreBoundsCheckPtr(index, scratch, spectreTemp, failure->label());
+  emitTypedArrayBoundsCheck(viewKind, obj, index, scratch, scratch2,
+                            spectreTemp, failure->label());
 
   // Atomic operations are highly platform-dependent, for example x86/arm32 has
   // specific requirements on which registers are used. Therefore we're using a
@@ -9221,7 +9658,7 @@ bool CacheIRCompiler::emitAtomicsLoadResult(ObjOperandId objId,
     masm.Push(index);
     masm.Push(obj);
 
-    using Fn = BigInt* (*)(JSContext*, FixedLengthTypedArrayObject*, size_t);
+    using Fn = BigInt* (*)(JSContext*, TypedArrayObject*, size_t);
     callvm->call<Fn, jit::AtomicsLoad64>();
     return true;
   }
@@ -9250,7 +9687,8 @@ bool CacheIRCompiler::emitAtomicsLoadResult(ObjOperandId objId,
 bool CacheIRCompiler::emitAtomicsStoreResult(ObjOperandId objId,
                                              IntPtrOperandId indexId,
                                              uint32_t valueId,
-                                             Scalar::Type elementType) {
+                                             Scalar::Type elementType,
+                                             ArrayBufferViewKind viewKind) {
   JitSpew(JitSpew_Codegen, "%s", __FUNCTION__);
 
   AutoOutputRegister output(*this);
@@ -9264,9 +9702,13 @@ bool CacheIRCompiler::emitAtomicsStoreResult(ObjOperandId objId,
     valueBigInt.emplace(allocator.useRegister(masm, BigIntOperandId(valueId)));
   }
   AutoScratchRegisterMaybeOutput scratch(allocator, masm, output);
+  Maybe<AutoScratchRegisterMaybeOutputType> scratch2;
+  if (viewKind == ArrayBufferViewKind::Resizable) {
+    scratch2.emplace(allocator, masm, output);
+  }
 
   // Not enough registers on X86.
-  Register spectreTemp = Register::Invalid();
+  constexpr auto spectreTemp = mozilla::Nothing{};
 
   FailurePath* failure;
   if (!addFailurePath(&failure)) {
@@ -9274,8 +9716,8 @@ bool CacheIRCompiler::emitAtomicsStoreResult(ObjOperandId objId,
   }
 
   // Bounds check.
-  masm.loadArrayBufferViewLengthIntPtr(obj, scratch);
-  masm.spectreBoundsCheckPtr(index, scratch, spectreTemp, failure->label());
+  emitTypedArrayBoundsCheck(viewKind, obj, index, scratch, scratch2,
+                            spectreTemp, failure->label());
 
   if (!Scalar::isBigIntType(elementType)) {
     // Load the elements vector.
@@ -9302,7 +9744,7 @@ bool CacheIRCompiler::emitAtomicsStoreResult(ObjOperandId objId,
     volatileRegs.takeUnchecked(scratch);
     masm.PushRegsInMask(volatileRegs);
 
-    using Fn = void (*)(FixedLengthTypedArrayObject*, size_t, const BigInt*);
+    using Fn = void (*)(TypedArrayObject*, size_t, const BigInt*);
     masm.setupUnalignedABICall(scratch);
     masm.passABIArg(obj);
     masm.passABIArg(index);
diff --git a/js/src/jit/CacheIRCompiler.h b/js/src/jit/CacheIRCompiler.h
index 3b8941e242..69b1dd34ac 100644
--- a/js/src/jit/CacheIRCompiler.h
+++ b/js/src/jit/CacheIRCompiler.h
@@ -25,7 +25,6 @@ class BigInt;
 
 namespace js {
 
-class FixedLengthTypedArrayObject;
 class TypedArrayObject;
 enum class UnaryMathFunction : uint8_t;
 
@@ -846,21 +845,37 @@ class MOZ_RAII CacheIRCompiler {
 
   bool emitDoubleIncDecResult(bool isInc, NumberOperandId inputId);
 
-  using AtomicsReadWriteModifyFn = int32_t (*)(FixedLengthTypedArrayObject*,
-                                               size_t, int32_t);
+  void emitTypedArrayBoundsCheck(ArrayBufferViewKind viewKind, Register obj,
+                                 Register index, Register scratch,
+                                 Register maybeScratch, Register spectreScratch,
+                                 Label* fail);
+
+  void emitTypedArrayBoundsCheck(ArrayBufferViewKind viewKind, Register obj,
+                                 Register index, Register scratch,
+                                 mozilla::Maybe<Register> maybeScratch,
+                                 mozilla::Maybe<Register> spectreScratch,
+                                 Label* fail);
+
+  void emitDataViewBoundsCheck(ArrayBufferViewKind viewKind, size_t byteSize,
+                               Register obj, Register offset, Register scratch,
+                               Register maybeScratch, Label* fail);
+
+  using AtomicsReadWriteModifyFn = int32_t (*)(TypedArrayObject*, size_t,
+                                               int32_t);
 
   [[nodiscard]] bool emitAtomicsReadModifyWriteResult(
       ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
-      Scalar::Type elementType, AtomicsReadWriteModifyFn fn);
+      Scalar::Type elementType, ArrayBufferViewKind viewKind,
+      AtomicsReadWriteModifyFn fn);
 
-  using AtomicsReadWriteModify64Fn =
-      JS::BigInt* (*)(JSContext*, FixedLengthTypedArrayObject*, size_t,
-                      const JS::BigInt*);
+  using AtomicsReadWriteModify64Fn = JS::BigInt* (*)(JSContext*,
+                                                     TypedArrayObject*, size_t,
+                                                     const JS::BigInt*);
 
   template <AtomicsReadWriteModify64Fn fn>
-  [[nodiscard]] bool emitAtomicsReadModifyWriteResult64(ObjOperandId objId,
-                                                        IntPtrOperandId indexId,
-                                                        uint32_t valueId);
+  [[nodiscard]] bool emitAtomicsReadModifyWriteResult64(
+      ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+      ArrayBufferViewKind viewKind);
 
   void emitActivateIterator(Register objBeingIterated, Register iterObject,
                             Register nativeIter, Register scratch,
diff --git a/js/src/jit/CacheIRGenerator.h b/js/src/jit/CacheIRGenerator.h
index 9880b82b71..2e15b2d8a6 100644
--- a/js/src/jit/CacheIRGenerator.h
+++ b/js/src/jit/CacheIRGenerator.h
@@ -636,6 +636,9 @@ class MOZ_RAII InlinableNativeIRGenerator {
   AttachDecision tryAttachIsConstructor();
   AttachDecision tryAttachIsCrossRealmArrayConstructor();
   AttachDecision tryAttachGuardToClass(InlinableNative native);
+  AttachDecision tryAttachGuardToClass(GuardClassKind kind);
+  AttachDecision tryAttachGuardToEitherClass(GuardClassKind kind1,
+                                             GuardClassKind kind2);
   AttachDecision tryAttachGuardToArrayBuffer();
   AttachDecision tryAttachGuardToSharedArrayBuffer();
   AttachDecision tryAttachHasClass(const JSClass* clasp,
@@ -693,8 +696,8 @@ class MOZ_RAII InlinableNativeIRGenerator {
   AttachDecision tryAttachIsTypedArrayConstructor();
   AttachDecision tryAttachTypedArrayByteOffset();
   AttachDecision tryAttachTypedArrayElementSize();
-  AttachDecision tryAttachTypedArrayLength(bool isPossiblyWrapped);
-  AttachDecision tryAttachTypedArrayLengthZeroOnOutOfBounds();
+  AttachDecision tryAttachTypedArrayLength(bool isPossiblyWrapped,
+                                           bool allowOutOfBounds);
   AttachDecision tryAttachArrayBufferByteLength(bool isPossiblyWrapped);
   AttachDecision tryAttachIsConstructing();
   AttachDecision tryAttachGetNextMapSetEntryForIterator(bool isMap);
diff --git a/js/src/jit/CacheIROps.yaml b/js/src/jit/CacheIROps.yaml
index ccaf64d924..974404d5c0 100644
--- a/js/src/jit/CacheIROps.yaml
+++ b/js/src/jit/CacheIROps.yaml
@@ -272,6 +272,16 @@
     obj: ObjId
     kind: GuardClassKindImm
 
+# Guard per GuardClassKind.
+- name: GuardEitherClass
+  shared: true
+  transpile: true
+  cost_estimate: 1
+  args:
+    obj: ObjId
+    kind1: GuardClassKindImm
+    kind2: GuardClassKindImm
+
 # Guard on a realm fuse.
 - name: GuardFuse
   shared: true
@@ -472,6 +482,13 @@
   args:
     obj: ObjId
 
+- name: GuardIsResizableTypedArray
+  shared: true
+  transpile: true
+  cost_estimate: 1
+  args:
+    obj: ObjId
+
 - name: GuardHasProxyHandler
   shared: false
   transpile: true
@@ -1189,6 +1206,20 @@
   args:
     obj: ObjId
 
+- name: ResizableTypedArrayByteOffsetMaybeOutOfBoundsInt32Result
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
+- name: ResizableTypedArrayByteOffsetMaybeOutOfBoundsDoubleResult
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
 - name: TypedArrayByteLengthInt32Result
   shared: true
   transpile: true
@@ -1203,6 +1234,34 @@
   args:
     obj: ObjId
 
+- name: ResizableTypedArrayByteLengthInt32Result
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
+- name: ResizableTypedArrayByteLengthDoubleResult
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
+- name: ResizableTypedArrayLengthInt32Result
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
+- name: ResizableTypedArrayLengthDoubleResult
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
 - name: TypedArrayElementSizeResult
   shared: true
   transpile: true
@@ -1210,6 +1269,34 @@
   args:
     obj: ObjId
 
+- name: ResizableDataViewByteLengthInt32Result
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
+- name: ResizableDataViewByteLengthDoubleResult
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
+- name: GrowableSharedArrayBufferByteLengthInt32Result
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
+- name: GrowableSharedArrayBufferByteLengthDoubleResult
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
 - name: GuardHasAttachedArrayBuffer
   shared: true
   transpile: true
@@ -1217,6 +1304,20 @@
   args:
     obj: ObjId
 
+- name: GuardResizableArrayBufferViewInBounds
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
+- name: GuardResizableArrayBufferViewInBoundsOrDetached
+  shared: true
+  transpile: true
+  cost_estimate: 2
+  args:
+    obj: ObjId
+
 - name: NewArrayIteratorResult
   shared: true
   transpile: true
@@ -1615,6 +1716,7 @@
     index: IntPtrId
     rhs: RawId
     handleOOB: BoolImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsCompareExchangeResult
   shared: true
@@ -1626,6 +1728,7 @@
     expected: RawId
     replacement: RawId
     elementType: ScalarTypeImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsExchangeResult
   shared: true
@@ -1636,6 +1739,7 @@
     index: IntPtrId
     value: RawId
     elementType: ScalarTypeImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsAddResult
   shared: true
@@ -1647,6 +1751,7 @@
     value: RawId
     elementType: ScalarTypeImm
     forEffect: BoolImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsSubResult
   shared: true
@@ -1658,6 +1763,7 @@
     value: RawId
     elementType: ScalarTypeImm
     forEffect: BoolImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsAndResult
   shared: true
@@ -1669,6 +1775,7 @@
     value: RawId
     elementType: ScalarTypeImm
     forEffect: BoolImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsOrResult
   shared: true
@@ -1680,6 +1787,7 @@
     value: RawId
     elementType: ScalarTypeImm
     forEffect: BoolImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsXorResult
   shared: true
@@ -1691,6 +1799,7 @@
     value: RawId
     elementType: ScalarTypeImm
     forEffect: BoolImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsLoadResult
   shared: true
@@ -1700,6 +1809,7 @@
     obj: ObjId
     index: IntPtrId
     elementType: ScalarTypeImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsStoreResult
   shared: true
@@ -1710,6 +1820,7 @@
     index: IntPtrId
     value: RawId
     elementType: ScalarTypeImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: AtomicsIsLockFreeResult
   shared: true
@@ -2051,6 +2162,7 @@
   args:
     obj: ObjId
     index: IntPtrId
+    viewKind: ArrayBufferViewKindImm
 
 - name: LoadDenseElementHoleExistsResult
   shared: true
@@ -2070,6 +2182,7 @@
     elementType: ScalarTypeImm
     handleOOB: BoolImm
     forceDoubleForUint32: BoolImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: LoadDataViewValueResult
   shared: true
@@ -2081,6 +2194,7 @@
     littleEndian: BooleanId
     elementType: ScalarTypeImm
     forceDoubleForUint32: BoolImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: StoreDataViewValueResult
   shared: true
@@ -2092,6 +2206,7 @@
     value: RawId
     littleEndian: BooleanId
     elementType: ScalarTypeImm
+    viewKind: ArrayBufferViewKindImm
 
 - name: LoadInt32ArrayLengthResult
   shared: true
diff --git a/js/src/jit/CacheIRReader.h b/js/src/jit/CacheIRReader.h
index affefdac01..54b298c999 100644
--- a/js/src/jit/CacheIRReader.h
+++ b/js/src/jit/CacheIRReader.h
@@ -96,6 +96,9 @@ class MOZ_RAII CacheIRReader {
 
   uint32_t stubOffset() { return buffer_.readByte() * sizeof(uintptr_t); }
   GuardClassKind guardClassKind() { return GuardClassKind(buffer_.readByte()); }
+  ArrayBufferViewKind arrayBufferViewKind() {
+    return ArrayBufferViewKind(buffer_.readByte());
+  }
   ValueType valueType() { return ValueType(buffer_.readByte()); }
   wasm::ValType::Kind wasmValType() {
     return wasm::ValType::Kind(buffer_.readByte());
diff --git a/js/src/jit/CacheIRSpewer.cpp b/js/src/jit/CacheIRSpewer.cpp
index 921da75d61..613e0f7d85 100644
--- a/js/src/jit/CacheIRSpewer.cpp
+++ b/js/src/jit/CacheIRSpewer.cpp
@@ -106,6 +106,9 @@ class MOZ_RAII CacheIROpsJitSpewer {
   void spewGuardClassKindImm(const char* name, GuardClassKind kind) {
     out_.printf("%s GuardClassKind(%u)", name, unsigned(kind));
   }
+  void spewArrayBufferViewKindImm(const char* name, ArrayBufferViewKind kind) {
+    out_.printf("%s ArrayBufferViewKind(%u)", name, unsigned(kind));
+  }
   void spewWasmValTypeImm(const char* name, wasm::ValType::Kind kind) {
     out_.printf("%s WasmValTypeKind(%u)", name, unsigned(kind));
   }
@@ -251,6 +254,9 @@ class MOZ_RAII CacheIROpsJSONSpewer {
   void spewGuardClassKindImm(const char* name, GuardClassKind kind) {
     spewArgImpl(name, "Imm", unsigned(kind));
   }
+  void spewArrayBufferViewKindImm(const char* name, ArrayBufferViewKind kind) {
+    spewArgImpl(name, "Imm", unsigned(kind));
+  }
   void spewRealmFuseIndexImm(const char* name, RealmFuses::FuseIndex kind) {
     spewArgImpl(name, "Imm", unsigned(kind));
   }
diff --git a/js/src/jit/CacheIRWriter.h b/js/src/jit/CacheIRWriter.h
index 454a1b2511..6a32885d7c 100644
--- a/js/src/jit/CacheIRWriter.h
+++ b/js/src/jit/CacheIRWriter.h
@@ -262,6 +262,11 @@ class MOZ_RAII CacheIRWriter : public JS::CustomAutoRooter {
                   "GuardClassKind must fit in a byte");
     buffer_.writeByte(uint8_t(kind));
   }
+  void writeArrayBufferViewKindImm(ArrayBufferViewKind kind) {
+    static_assert(sizeof(ArrayBufferViewKind) == sizeof(uint8_t),
+                  "ArrayBufferViewKind must fit in a byte");
+    buffer_.writeByte(uint8_t(kind));
+  }
   void writeValueTypeImm(ValueType type) {
     static_assert(sizeof(ValueType) == sizeof(uint8_t),
                   "ValueType must fit in uint8_t");
diff --git a/js/src/jit/CodeGenerator.cpp b/js/src/jit/CodeGenerator.cpp
index 2c41acc736..10a69f0cb3 100644
--- a/js/src/jit/CodeGenerator.cpp
+++ b/js/src/jit/CodeGenerator.cpp
@@ -2167,8 +2167,8 @@ class CreateDependentString {
     NotInlineString,
     Count
   };
-  mozilla::EnumeratedArray<FallbackKind, FallbackKind::Count, Label> fallbacks_,
-      joins_;
+  mozilla::EnumeratedArray<FallbackKind, Label, size_t(FallbackKind::Count)>
+      fallbacks_, joins_;
 
  public:
   CreateDependentString(CharEncoding encoding, Register string, Register temp1,
@@ -4632,6 +4632,17 @@ void CodeGenerator::visitGuardIsFixedLengthTypedArray(
   bailoutFrom(&bail, guard->snapshot());
 }
 
+void CodeGenerator::visitGuardIsResizableTypedArray(
+    LGuardIsResizableTypedArray* guard) {
+  Register obj = ToRegister(guard->input());
+  Register temp = ToRegister(guard->temp0());
+
+  Label bail;
+  masm.loadObjClassUnsafe(obj, temp);
+  masm.branchIfClassIsNotResizableTypedArray(temp, &bail);
+  bailoutFrom(&bail, guard->snapshot());
+}
+
 void CodeGenerator::visitGuardHasProxyHandler(LGuardHasProxyHandler* guard) {
   Register obj = ToRegister(guard->input());
 
@@ -9660,6 +9671,68 @@ void CodeGenerator::visitTypedArrayElementSize(LTypedArrayElementSize* lir) {
   masm.typedArrayElementSize(obj, out);
 }
 
+void CodeGenerator::visitResizableTypedArrayByteOffsetMaybeOutOfBounds(
+    LResizableTypedArrayByteOffsetMaybeOutOfBounds* lir) {
+  Register obj = ToRegister(lir->object());
+  Register out = ToRegister(lir->output());
+  Register temp = ToRegister(lir->temp0());
+
+  masm.loadResizableTypedArrayByteOffsetMaybeOutOfBoundsIntPtr(obj, out, temp);
+}
+
+void CodeGenerator::visitResizableTypedArrayLength(
+    LResizableTypedArrayLength* lir) {
+  Register obj = ToRegister(lir->object());
+  Register out = ToRegister(lir->output());
+  Register temp = ToRegister(lir->temp0());
+
+  masm.loadResizableTypedArrayLengthIntPtr(lir->synchronization(), obj, out,
+                                           temp);
+}
+
+void CodeGenerator::visitResizableDataViewByteLength(
+    LResizableDataViewByteLength* lir) {
+  Register obj = ToRegister(lir->object());
+  Register out = ToRegister(lir->output());
+  Register temp = ToRegister(lir->temp0());
+
+  masm.loadResizableDataViewByteLengthIntPtr(lir->synchronization(), obj, out,
+                                             temp);
+}
+
+void CodeGenerator::visitGrowableSharedArrayBufferByteLength(
+    LGrowableSharedArrayBufferByteLength* lir) {
+  Register obj = ToRegister(lir->object());
+  Register out = ToRegister(lir->output());
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto sync = Synchronization::Load();
+
+  masm.loadGrowableSharedArrayBufferByteLengthIntPtr(sync, obj, out);
+}
+
+void CodeGenerator::visitGuardResizableArrayBufferViewInBounds(
+    LGuardResizableArrayBufferViewInBounds* lir) {
+  Register obj = ToRegister(lir->object());
+  Register temp = ToRegister(lir->temp0());
+
+  Label bail;
+  masm.branchIfResizableArrayBufferViewOutOfBounds(obj, temp, &bail);
+  bailoutFrom(&bail, lir->snapshot());
+}
+
+void CodeGenerator::visitGuardResizableArrayBufferViewInBoundsOrDetached(
+    LGuardResizableArrayBufferViewInBoundsOrDetached* lir) {
+  Register obj = ToRegister(lir->object());
+  Register temp = ToRegister(lir->temp0());
+
+  Label done, bail;
+  masm.branchIfResizableArrayBufferViewInBounds(obj, temp, &done);
+  masm.branchIfHasAttachedArrayBuffer(obj, temp, &bail);
+  masm.bind(&done);
+  bailoutFrom(&bail, lir->snapshot());
+}
+
 void CodeGenerator::visitGuardHasAttachedArrayBuffer(
     LGuardHasAttachedArrayBuffer* lir) {
   Register obj = ToRegister(lir->object());
@@ -15039,15 +15112,19 @@ static bool CreateStackMapFromLSafepoint(LSafepoint& safepoint,
   // REG DUMP AREA, if any.
   size_t regDumpWords = 0;
   const LiveGeneralRegisterSet wasmAnyRefRegs = safepoint.wasmAnyRefRegs();
-  GeneralRegisterForwardIterator wasmAnyRefRegsIter(wasmAnyRefRegs);
+  const LiveGeneralRegisterSet slotsOrElementsRegs =
+      safepoint.slotsOrElementsRegs();
+  const LiveGeneralRegisterSet refRegs(GeneralRegisterSet::Union(
+      wasmAnyRefRegs.set(), slotsOrElementsRegs.set()));
+  GeneralRegisterForwardIterator refRegsIter(refRegs);
   switch (safepoint.wasmSafepointKind()) {
     case WasmSafepointKind::LirCall:
     case WasmSafepointKind::CodegenCall: {
       size_t spilledNumWords = nRegisterDumpBytes / sizeof(void*);
       regDumpWords += spilledNumWords;
 
-      for (; wasmAnyRefRegsIter.more(); ++wasmAnyRefRegsIter) {
-        Register reg = *wasmAnyRefRegsIter;
+      for (; refRegsIter.more(); ++refRegsIter) {
+        Register reg = *refRegsIter;
         size_t offsetFromSpillBase =
             safepoint.liveRegs().gprs().offsetOfPushedRegister(reg) /
             sizeof(void*);
@@ -15055,9 +15132,13 @@ static bool CreateStackMapFromLSafepoint(LSafepoint& safepoint,
                    offsetFromSpillBase <= spilledNumWords);
         size_t index = spilledNumWords - offsetFromSpillBase;
 
-        stackMap->set(index, wasm::StackMap::AnyRef);
+        if (wasmAnyRefRegs.has(reg)) {
+          stackMap->set(index, wasm::StackMap::AnyRef);
+        } else {
+          MOZ_ASSERT(slotsOrElementsRegs.has(reg));
+          stackMap->set(index, wasm::StackMap::ArrayDataPointer);
+        }
       }
-
       // Float and vector registers do not have to be handled; they cannot
       // contain wasm anyrefs, and they are spilled after general-purpose
       // registers. Gprs are therefore closest to the spill base and thus their
@@ -15066,8 +15147,8 @@ static bool CreateStackMapFromLSafepoint(LSafepoint& safepoint,
     case WasmSafepointKind::Trap: {
       regDumpWords += trapExitLayoutNumWords;
 
-      for (; wasmAnyRefRegsIter.more(); ++wasmAnyRefRegsIter) {
-        Register reg = *wasmAnyRefRegsIter;
+      for (; refRegsIter.more(); ++refRegsIter) {
+        Register reg = *refRegsIter;
         size_t offsetFromTop = trapExitLayout.getOffset(reg);
 
         // If this doesn't hold, the associated register wasn't saved by
@@ -15080,7 +15161,12 @@ static bool CreateStackMapFromLSafepoint(LSafepoint& safepoint,
         // offset up from the bottom of the (integer register) save area.
         size_t offsetFromBottom = trapExitLayoutNumWords - 1 - offsetFromTop;
 
-        stackMap->set(offsetFromBottom, wasm::StackMap::AnyRef);
+        if (wasmAnyRefRegs.has(reg)) {
+          stackMap->set(offsetFromBottom, wasm::StackMap::AnyRef);
+        } else {
+          MOZ_ASSERT(slotsOrElementsRegs.has(reg));
+          stackMap->set(offsetFromBottom, wasm::StackMap::ArrayDataPointer);
+        }
       }
     } break;
     default:
@@ -17263,25 +17349,20 @@ void CodeGenerator::visitLoadDataViewElement(LLoadDataViewElement* lir) {
 
 void CodeGenerator::visitLoadTypedArrayElementHole(
     LLoadTypedArrayElementHole* lir) {
-  Register object = ToRegister(lir->object());
+  Register elements = ToRegister(lir->elements());
+  Register index = ToRegister(lir->index());
+  Register length = ToRegister(lir->length());
   const ValueOperand out = ToOutValue(lir);
 
-  // Load the length.
   Register scratch = out.scratchReg();
-  Register scratch2 = ToRegister(lir->temp0());
-  Register index = ToRegister(lir->index());
-  masm.loadArrayBufferViewLengthIntPtr(object, scratch);
 
   // Load undefined if index >= length.
   Label outOfBounds, done;
-  masm.spectreBoundsCheckPtr(index, scratch, scratch2, &outOfBounds);
-
-  // Load the elements vector.
-  masm.loadPtr(Address(object, ArrayBufferViewObject::dataOffset()), scratch);
+  masm.spectreBoundsCheckPtr(index, length, scratch, &outOfBounds);
 
   Scalar::Type arrayType = lir->mir()->arrayType();
   Label fail;
-  BaseIndex source(scratch, index, ScaleFromScalarType(arrayType));
+  BaseIndex source(elements, index, ScaleFromScalarType(arrayType));
   MacroAssembler::Uint32Mode uint32Mode =
       lir->mir()->forceDouble() ? MacroAssembler::Uint32Mode::ForceDouble
                                 : MacroAssembler::Uint32Mode::FailOnDouble;
@@ -17301,37 +17382,38 @@ void CodeGenerator::visitLoadTypedArrayElementHole(
 
 void CodeGenerator::visitLoadTypedArrayElementHoleBigInt(
     LLoadTypedArrayElementHoleBigInt* lir) {
-  Register object = ToRegister(lir->object());
+  Register elements = ToRegister(lir->elements());
+  Register index = ToRegister(lir->index());
+  Register length = ToRegister(lir->length());
   const ValueOperand out = ToOutValue(lir);
 
-  // On x86 there are not enough registers. In that case reuse the output's
-  // type register as temporary.
+  Register temp = ToRegister(lir->temp());
+
+  // On x86 there are not enough registers. In that case reuse the output
+  // registers as temporaries.
 #ifdef JS_CODEGEN_X86
-  MOZ_ASSERT(lir->temp()->isBogusTemp());
-  Register temp = out.typeReg();
+  MOZ_ASSERT(lir->temp64().isBogusTemp());
+  Register64 temp64 = out.toRegister64();
 #else
-  Register temp = ToRegister(lir->temp());
-#endif
   Register64 temp64 = ToRegister64(lir->temp64());
-
-  // Load the length.
-  Register scratch = out.scratchReg();
-  Register index = ToRegister(lir->index());
-  masm.loadArrayBufferViewLengthIntPtr(object, scratch);
+#endif
 
   // Load undefined if index >= length.
   Label outOfBounds, done;
-  masm.spectreBoundsCheckPtr(index, scratch, temp, &outOfBounds);
-
-  // Load the elements vector.
-  masm.loadPtr(Address(object, ArrayBufferViewObject::dataOffset()), scratch);
+  masm.spectreBoundsCheckPtr(index, length, temp, &outOfBounds);
 
   Scalar::Type arrayType = lir->mir()->arrayType();
-  BaseIndex source(scratch, index, ScaleFromScalarType(arrayType));
+  BaseIndex source(elements, index, ScaleFromScalarType(arrayType));
   masm.load64(source, temp64);
 
+#ifdef JS_CODEGEN_X86
+  Register bigInt = temp;
+  Register maybeTemp = InvalidReg;
+#else
   Register bigInt = out.scratchReg();
-  emitCreateBigInt(lir, arrayType, temp64, bigInt, temp);
+  Register maybeTemp = temp;
+#endif
+  emitCreateBigInt(lir, arrayType, temp64, bigInt, maybeTemp);
 
   masm.tagValue(JSVAL_TYPE_BIGINT, bigInt, out);
   masm.jump(&done);
@@ -17679,6 +17761,10 @@ void CodeGenerator::visitStoreTypedArrayElementHoleBigInt(
   masm.bind(&skip);
 }
 
+void CodeGenerator::visitMemoryBarrier(LMemoryBarrier* ins) {
+  masm.memoryBarrier(ins->type());
+}
+
 void CodeGenerator::visitAtomicIsLockFree(LAtomicIsLockFree* lir) {
   Register value = ToRegister(lir->value());
   Register output = ToRegister(lir->output());
@@ -18453,6 +18539,24 @@ void CodeGenerator::visitGuardToClass(LGuardToClass* ins) {
   bailoutFrom(&notEqual, ins->snapshot());
 }
 
+void CodeGenerator::visitGuardToEitherClass(LGuardToEitherClass* ins) {
+  Register lhs = ToRegister(ins->lhs());
+  Register temp = ToRegister(ins->temp0());
+
+  // branchTestObjClass may zero the object register on speculative paths
+  // (we should have a defineReuseInput allocation in this case).
+  Register spectreRegToZero = lhs;
+
+  Label notEqual;
+
+  masm.branchTestObjClass(Assembler::NotEqual, lhs,
+                          {ins->mir()->getClass1(), ins->mir()->getClass2()},
+                          temp, spectreRegToZero, &notEqual);
+
+  // Can't return null-return here, so bail.
+  bailoutFrom(&notEqual, ins->snapshot());
+}
+
 void CodeGenerator::visitGuardToFunction(LGuardToFunction* ins) {
   Register lhs = ToRegister(ins->lhs());
   Register temp = ToRegister(ins->temp0());
@@ -20133,7 +20237,8 @@ void CodeGenerator::visitToHashableString(LToHashableString* ins) {
                     Address(input, JSString::offsetOfFlags()),
                     Imm32(JSString::ATOM_BIT), &isAtom);
 
-  masm.lookupStringInAtomCacheLastLookups(input, output, ool->entry());
+  masm.lookupStringInAtomCacheLastLookups(input, output, output, ool->entry());
+  masm.jump(ool->rejoin());
   masm.bind(&isAtom);
   masm.movePtr(input, output);
   masm.bind(ool->rejoin());
diff --git a/js/src/jit/Disassemble.cpp b/js/src/jit/Disassemble.cpp
index 652c381ce7..df768d4fd1 100644
--- a/js/src/jit/Disassemble.cpp
+++ b/js/src/jit/Disassemble.cpp
@@ -22,6 +22,8 @@
 #    include "jit/arm64/vixl/Instructions-vixl.h"  // vixl::Instruction
 #  elif defined(JS_CODEGEN_ARM)
 #    include "jit/arm/disasm/Disasm-arm.h"  // js::jit::disasm::*
+#  elif defined(JS_CODEGEN_RISCV64)
+#    include "jit/riscv64/disasm/Disasm-riscv64.h"  // js::jit::disasm::*
 #  endif
 #endif
 
@@ -99,6 +101,31 @@ void Disassemble(uint8_t* code, size_t length, InstrCallback callback) {
   }
 }
 
+#elif defined(JS_JITSPEW) && defined(JS_CODEGEN_RISCV64)
+
+bool HasDisassembler() { return true; }
+
+void Disassemble(uint8_t* code, size_t length, InstrCallback callback) {
+  disasm::NameConverter converter;
+  disasm::Disassembler d(converter);
+
+  uint8_t* instr = code;
+  uint8_t* end = code + length;
+
+  while (instr < end) {
+    EmbeddedVector<char, ReasonableBufferSize> buffer;
+    buffer[0] = '\0';
+    uint8_t* next_instr = instr + d.InstructionDecode(buffer, instr);
+
+    JS::UniqueChars formatted =
+        JS_smprintf("0x%p  %08x  %s", instr, *reinterpret_cast<int32_t*>(instr),
+                    buffer.start());
+    callback(formatted.get());
+
+    instr = next_instr;
+  }
+}
+
 #else
 
 bool HasDisassembler() { return false; }
diff --git a/js/src/jit/ExecutableAllocator.h b/js/src/jit/ExecutableAllocator.h
index 85c01562c3..02c8727e85 100644
--- a/js/src/jit/ExecutableAllocator.h
+++ b/js/src/jit/ExecutableAllocator.h
@@ -72,7 +72,8 @@ class ExecutablePool {
   bool m_mark : 1;
 
   // Number of bytes currently allocated for each CodeKind.
-  mozilla::EnumeratedArray<CodeKind, CodeKind::Count, size_t> m_codeBytes;
+  mozilla::EnumeratedArray<CodeKind, size_t, size_t(CodeKind::Count)>
+      m_codeBytes;
 
  public:
   void release(bool willDestroy = false);
diff --git a/js/src/jit/GenerateAtomicOperations.py b/js/src/jit/GenerateAtomicOperations.py
index 8e37e5dcd6..9194b8b685 100644
--- a/js/src/jit/GenerateAtomicOperations.py
+++ b/js/src/jit/GenerateAtomicOperations.py
@@ -50,8 +50,6 @@ def gen_load(fun_name, cpp_type, size, barrier):
     # - MacroAssembler::wasmLoad
     if cpu_arch in ("x86", "x86_64"):
         insns = ""
-        if barrier:
-            insns += fmt_insn("mfence")
         if size == 8:
             insns += fmt_insn("movb (%[arg]), %[res]")
         elif size == 16:
@@ -61,8 +59,6 @@ def gen_load(fun_name, cpp_type, size, barrier):
         else:
             assert size == 64
             insns += fmt_insn("movq (%[arg]), %[res]")
-        if barrier:
-            insns += fmt_insn("mfence")
         return """
             INLINE_ATTR %(cpp_type)s %(fun_name)s(const %(cpp_type)s* arg) {
                 %(cpp_type)s res;
@@ -78,8 +74,6 @@ def gen_load(fun_name, cpp_type, size, barrier):
         }
     if cpu_arch == "aarch64":
         insns = ""
-        if barrier:
-            insns += fmt_insn("dmb ish")
         if size == 8:
             insns += fmt_insn("ldrb %w[res], [%x[arg]]")
         elif size == 16:
@@ -106,8 +100,6 @@ def gen_load(fun_name, cpp_type, size, barrier):
         }
     if cpu_arch == "arm":
         insns = ""
-        if barrier:
-            insns += fmt_insn("dmb sy")
         if size == 8:
             insns += fmt_insn("ldrb %[res], [%[arg]]")
         elif size == 16:
@@ -141,8 +133,6 @@ def gen_store(fun_name, cpp_type, size, barrier):
     # - MacroAssembler::wasmStore
     if cpu_arch in ("x86", "x86_64"):
         insns = ""
-        if barrier:
-            insns += fmt_insn("mfence")
         if size == 8:
             insns += fmt_insn("movb %[val], (%[addr])")
         elif size == 16:
diff --git a/js/src/jit/GenerateCacheIRFiles.py b/js/src/jit/GenerateCacheIRFiles.py
index 5cecf82e64..d71c70b753 100644
--- a/js/src/jit/GenerateCacheIRFiles.py
+++ b/js/src/jit/GenerateCacheIRFiles.py
@@ -82,6 +82,7 @@ arg_writer_info = {
     "BoolImm": ("bool", "writeBoolImm"),
     "ByteImm": ("uint32_t", "writeByteImm"),  # uint32_t to enable fits-in-byte asserts.
     "GuardClassKindImm": ("GuardClassKind", "writeGuardClassKindImm"),
+    "ArrayBufferViewKindImm": ("ArrayBufferViewKind", "writeArrayBufferViewKindImm"),
     "ValueTypeImm": ("ValueType", "writeValueTypeImm"),
     "JSWhyMagicImm": ("JSWhyMagic", "writeJSWhyMagicImm"),
     "CallFlagsImm": ("CallFlags", "writeCallFlagsImm"),
@@ -184,6 +185,11 @@ arg_reader_info = {
     "BoolImm": ("bool", "", "reader.readBool()"),
     "ByteImm": ("uint8_t", "", "reader.readByte()"),
     "GuardClassKindImm": ("GuardClassKind", "", "reader.guardClassKind()"),
+    "ArrayBufferViewKindImm": (
+        "ArrayBufferViewKind",
+        "",
+        "reader.arrayBufferViewKind()",
+    ),
     "ValueTypeImm": ("ValueType", "", "reader.valueType()"),
     "JSWhyMagicImm": ("JSWhyMagic", "", "reader.whyMagic()"),
     "CallFlagsImm": ("CallFlags", "", "reader.callFlags()"),
@@ -272,6 +278,7 @@ arg_spewer_method = {
     "BoolImm": "spewBoolImm",
     "ByteImm": "spewByteImm",
     "GuardClassKindImm": "spewGuardClassKindImm",
+    "ArrayBufferViewKindImm": "spewArrayBufferViewKindImm",
     "ValueTypeImm": "spewValueTypeImm",
     "JSWhyMagicImm": "spewJSWhyMagicImm",
     "CallFlagsImm": "spewCallFlagsImm",
@@ -415,6 +422,7 @@ arg_length = {
     "JSOpImm": 1,
     "ValueTypeImm": 1,
     "GuardClassKindImm": 1,
+    "ArrayBufferViewKindImm": 1,
     "JSWhyMagicImm": 1,
     "WasmValTypeImm": 1,
     "Int32Imm": 4,
diff --git a/js/src/jit/IonAnalysis.cpp b/js/src/jit/IonAnalysis.cpp
index a0c9a51c39..543ed0eb83 100644
--- a/js/src/jit/IonAnalysis.cpp
+++ b/js/src/jit/IonAnalysis.cpp
@@ -747,13 +747,13 @@ static bool IsDiamondPattern(MBasicBlock* initialBlock) {
   MTest* initialTest = ins->toTest();
 
   MBasicBlock* trueBranch = initialTest->ifTrue();
-  if (trueBranch->numPredecessors() != 1 || trueBranch->numSuccessors() != 1) {
+  if (trueBranch->numPredecessors() != 1 || !trueBranch->lastIns()->isGoto()) {
     return false;
   }
 
   MBasicBlock* falseBranch = initialTest->ifFalse();
   if (falseBranch->numPredecessors() != 1 ||
-      falseBranch->numSuccessors() != 1) {
+      !falseBranch->lastIns()->isGoto()) {
     return false;
   }
 
@@ -2228,6 +2228,7 @@ bool TypeAnalyzer::adjustPhiInputs(MPhi* phi) {
         phi->replaceOperand(i, in->toBox()->input());
       } else {
         MInstruction* replacement;
+        MBasicBlock* predecessor = phi->block()->getPredecessor(i);
 
         if (phiType == MIRType::Double && IsFloatType(in->type())) {
           // Convert int32 operands to double.
@@ -2239,14 +2240,14 @@ bool TypeAnalyzer::adjustPhiInputs(MPhi* phi) {
             // See comment below
             if (in->type() != MIRType::Value) {
               MBox* box = MBox::New(alloc(), in);
-              in->block()->insertBefore(in->block()->lastIns(), box);
+              predecessor->insertAtEnd(box);
               in = box;
             }
 
             MUnbox* unbox =
                 MUnbox::New(alloc(), in, MIRType::Double, MUnbox::Fallible);
             unbox->setBailoutKind(BailoutKind::SpeculativePhi);
-            in->block()->insertBefore(in->block()->lastIns(), unbox);
+            predecessor->insertAtEnd(unbox);
             replacement = MToFloat32::New(alloc(), in);
           }
         } else {
@@ -2255,7 +2256,7 @@ bool TypeAnalyzer::adjustPhiInputs(MPhi* phi) {
           // below.
           if (in->type() != MIRType::Value) {
             MBox* box = MBox::New(alloc(), in);
-            in->block()->insertBefore(in->block()->lastIns(), box);
+            predecessor->insertAtEnd(box);
             in = box;
           }
 
@@ -2265,7 +2266,7 @@ bool TypeAnalyzer::adjustPhiInputs(MPhi* phi) {
         }
 
         replacement->setBailoutKind(BailoutKind::SpeculativePhi);
-        in->block()->insertBefore(in->block()->lastIns(), replacement);
+        predecessor->insertAtEnd(replacement);
         phi->replaceOperand(i, replacement);
       }
     }
@@ -4452,6 +4453,10 @@ static bool NeedsKeepAlive(MInstruction* slotsOrElements, MInstruction* use) {
   if (use->type() == MIRType::BigInt) {
     return true;
   }
+  if (use->isLoadTypedArrayElementHole() &&
+      Scalar::isBigIntType(use->toLoadTypedArrayElementHole()->arrayType())) {
+    return true;
+  }
 
   MBasicBlock* block = use->block();
   MInstructionIterator iter(block->begin(slotsOrElements));
diff --git a/js/src/jit/IonOptimizationLevels.h b/js/src/jit/IonOptimizationLevels.h
index e68dfaa124..92e4586131 100644
--- a/js/src/jit/IonOptimizationLevels.h
+++ b/js/src/jit/IonOptimizationLevels.h
@@ -181,8 +181,8 @@ class OptimizationInfo {
 
 class OptimizationLevelInfo {
  private:
-  mozilla::EnumeratedArray<OptimizationLevel, OptimizationLevel::Count,
-                           OptimizationInfo>
+  mozilla::EnumeratedArray<OptimizationLevel, OptimizationInfo,
+                           size_t(OptimizationLevel::Count)>
       infos_;
 
  public:
diff --git a/js/src/jit/JitFrames.cpp b/js/src/jit/JitFrames.cpp
index 7b3cb1184e..176b988e05 100644
--- a/js/src/jit/JitFrames.cpp
+++ b/js/src/jit/JitFrames.cpp
@@ -20,7 +20,6 @@
 #include "jit/JitRuntime.h"
 #include "jit/JitSpewer.h"
 #include "jit/LIR.h"
-#include "jit/PcScriptCache.h"
 #include "jit/Recover.h"
 #include "jit/Safepoints.h"
 #include "jit/ScriptFromCalleeToken.h"
@@ -922,32 +921,32 @@ static void TraceThisAndArguments(JSTracer* trc, const JSJitFrameIter& frame,
     return;
   }
 
-  size_t nargs = layout->numActualArgs();
-  size_t nformals = 0;
-
   JSFunction* fun = CalleeTokenToFunction(layout->calleeToken());
+
+  size_t numFormals = fun->nargs();
+  size_t numArgs = std::max(layout->numActualArgs(), numFormals);
+  size_t firstArg = 0;
+
   if (frame.type() != FrameType::JSJitToWasm &&
       !frame.isExitFrameLayout<CalledFromJitExitFrameLayout>() &&
       !fun->nonLazyScript()->mayReadFrameArgsDirectly()) {
-    nformals = fun->nargs();
+    firstArg = numFormals;
   }
 
-  size_t newTargetOffset = std::max(nargs, fun->nargs());
-
   Value* argv = layout->thisAndActualArgs();
 
   // Trace |this|.
   TraceRoot(trc, argv, "ion-thisv");
 
-  // Trace actual arguments beyond the formals. Note + 1 for thisv.
-  for (size_t i = nformals + 1; i < nargs + 1; i++) {
-    TraceRoot(trc, &argv[i], "ion-argv");
+  // Trace arguments. Note + 1 for thisv.
+  for (size_t i = firstArg; i < numArgs; i++) {
+    TraceRoot(trc, &argv[i + 1], "ion-argv");
   }
 
   // Always trace the new.target from the frame. It's not in the snapshots.
   // +1 to pass |this|
   if (CalleeTokenIsConstructing(layout->calleeToken())) {
-    TraceRoot(trc, &argv[1 + newTargetOffset], "ion-newTarget");
+    TraceRoot(trc, &argv[1 + numArgs], "ion-newTarget");
   }
 }
 
@@ -1539,90 +1538,6 @@ JSScript* GetTopJitJSScript(JSContext* cx) {
   return frame.script();
 }
 
-void GetPcScript(JSContext* cx, JSScript** scriptRes, jsbytecode** pcRes) {
-  JitSpew(JitSpew_IonSnapshots, "Recover PC & Script from the last frame.");
-
-  // Recover the return address so that we can look it up in the
-  // PcScriptCache, as script/pc computation is expensive.
-  JitActivationIterator actIter(cx);
-  OnlyJSJitFrameIter it(actIter);
-  uint8_t* retAddr;
-  if (it.frame().isExitFrame()) {
-    ++it;
-
-    // Skip baseline interpreter entry frames.
-    // Can exist before rectifier frames.
-    if (it.frame().isBaselineInterpreterEntry()) {
-      ++it;
-    }
-
-    // Skip rectifier frames.
-    if (it.frame().isRectifier()) {
-      ++it;
-      MOZ_ASSERT(it.frame().isBaselineStub() || it.frame().isBaselineJS() ||
-                 it.frame().isIonJS());
-    }
-
-    // Skip Baseline/Ion stub and IC call frames.
-    if (it.frame().isBaselineStub()) {
-      ++it;
-      MOZ_ASSERT(it.frame().isBaselineJS());
-    } else if (it.frame().isIonICCall()) {
-      ++it;
-      MOZ_ASSERT(it.frame().isIonJS());
-    }
-
-    MOZ_ASSERT(it.frame().isBaselineJS() || it.frame().isIonJS());
-
-    // Don't use the return address and the cache if the BaselineFrame is
-    // running in the Baseline Interpreter. In this case the bytecode pc is
-    // cheap to get, so we won't benefit from the cache, and the return address
-    // does not map to a single bytecode pc.
-    if (it.frame().isBaselineJS() &&
-        it.frame().baselineFrame()->runningInInterpreter()) {
-      it.frame().baselineScriptAndPc(scriptRes, pcRes);
-      return;
-    }
-
-    retAddr = it.frame().resumePCinCurrentFrame();
-  } else {
-    MOZ_ASSERT(it.frame().isBailoutJS());
-    retAddr = it.frame().returnAddress();
-  }
-
-  MOZ_ASSERT(retAddr);
-
-  uint32_t hash = PcScriptCache::Hash(retAddr);
-
-  // Lazily initialize the cache. The allocation may safely fail and will not
-  // GC.
-  if (MOZ_UNLIKELY(cx->ionPcScriptCache == nullptr)) {
-    cx->ionPcScriptCache =
-        MakeUnique<PcScriptCache>(cx->runtime()->gc.gcNumber());
-  }
-
-  if (cx->ionPcScriptCache.ref() &&
-      cx->ionPcScriptCache->get(cx->runtime(), hash, retAddr, scriptRes,
-                                pcRes)) {
-    return;
-  }
-
-  // Lookup failed: undertake expensive process to determine script and pc.
-  if (it.frame().isIonJS() || it.frame().isBailoutJS()) {
-    InlineFrameIterator ifi(cx, &it.frame());
-    *scriptRes = ifi.script();
-    *pcRes = ifi.pc();
-  } else {
-    MOZ_ASSERT(it.frame().isBaselineJS());
-    it.frame().baselineScriptAndPc(scriptRes, pcRes);
-  }
-
-  // Add entry to cache.
-  if (cx->ionPcScriptCache.ref()) {
-    cx->ionPcScriptCache->add(hash, retAddr, *pcRes, *scriptRes);
-  }
-}
-
 RInstructionResults::RInstructionResults(JitFrameLayout* fp)
     : results_(nullptr), fp_(fp), initialized_(false) {}
 
diff --git a/js/src/jit/JitFrames.h b/js/src/jit/JitFrames.h
index fe9b2942d3..ab882e7986 100644
--- a/js/src/jit/JitFrames.h
+++ b/js/src/jit/JitFrames.h
@@ -771,8 +771,6 @@ class InvalidationBailoutStack {
   void checkInvariants() const;
 };
 
-void GetPcScript(JSContext* cx, JSScript** scriptRes, jsbytecode** pcRes);
-
 // Baseline requires one slot for this/argument type checks.
 static const uint32_t MinJITStackSize = 1;
 
diff --git a/js/src/jit/JitOptions.cpp b/js/src/jit/JitOptions.cpp
index f8cdbef8ba..e9d389cf60 100644
--- a/js/src/jit/JitOptions.cpp
+++ b/js/src/jit/JitOptions.cpp
@@ -376,6 +376,10 @@ DefaultJitOptions::DefaultJitOptions() {
 
   // ***** Irregexp shim flags *****
 
+  // Whether the stage 3 regexp modifiers proposal is enabled.
+  SET_DEFAULT(js_regexp_modifiers, false);
+  // Whether the stage 3 duplicate named capture groups proposal is enabled.
+  SET_DEFAULT(js_regexp_duplicate_named_groups, false);
   // V8 uses this for differential fuzzing to handle stack overflows.
   // We address the same problem in StackLimitCheck::HasOverflowed.
   SET_DEFAULT(correctness_fuzzer_suppressions, false);
diff --git a/js/src/jit/JitOptions.h b/js/src/jit/JitOptions.h
index fd5a9726ed..d1fcae081c 100644
--- a/js/src/jit/JitOptions.h
+++ b/js/src/jit/JitOptions.h
@@ -143,6 +143,8 @@ struct DefaultJitOptions {
   // Irregexp shim flags
   bool correctness_fuzzer_suppressions;
   bool enable_regexp_unaligned_accesses;
+  bool js_regexp_modifiers;
+  bool js_regexp_duplicate_named_groups;
   bool regexp_possessive_quantifier;
   bool regexp_optimization;
   bool regexp_peephole_optimization;
diff --git a/js/src/jit/JitRuntime.h b/js/src/jit/JitRuntime.h
index d0ce8422de..7d038ed0e2 100644
--- a/js/src/jit/JitRuntime.h
+++ b/js/src/jit/JitRuntime.h
@@ -75,15 +75,15 @@ enum class BailoutReturnKind {
 class BaselineICFallbackCode {
   JitCode* code_ = nullptr;
   using OffsetArray =
-      mozilla::EnumeratedArray<BaselineICFallbackKind,
-                               BaselineICFallbackKind::Count, uint32_t>;
+      mozilla::EnumeratedArray<BaselineICFallbackKind, uint32_t,
+                               size_t(BaselineICFallbackKind::Count)>;
   OffsetArray offsets_ = {};
 
   // Keep track of offset into various baseline stubs' code at return
   // point from called script.
   using BailoutReturnArray =
-      mozilla::EnumeratedArray<BailoutReturnKind, BailoutReturnKind::Count,
-                               uint32_t>;
+      mozilla::EnumeratedArray<BailoutReturnKind, uint32_t,
+                               size_t(BailoutReturnKind::Count)>;
   BailoutReturnArray bailoutReturnOffsets_ = {};
 
  public:
@@ -175,13 +175,13 @@ class JitRuntime {
   WriteOnceData<uint32_t> doubleToInt32ValueStubOffset_{0};
 
   // Thunk to do a generic call from Ion.
-  mozilla::EnumeratedArray<IonGenericCallKind, IonGenericCallKind::Count,
-                           WriteOnceData<uint32_t>>
+  mozilla::EnumeratedArray<IonGenericCallKind, WriteOnceData<uint32_t>,
+                           size_t(IonGenericCallKind::Count)>
       ionGenericCallStubOffset_;
 
   // Thunk used by the debugger for breakpoint and step mode.
-  mozilla::EnumeratedArray<DebugTrapHandlerKind, DebugTrapHandlerKind::Count,
-                           WriteOnceData<JitCode*>>
+  mozilla::EnumeratedArray<DebugTrapHandlerKind, WriteOnceData<JitCode*>,
+                           size_t(DebugTrapHandlerKind::Count)>
       debugTrapHandlers_;
 
   // BaselineInterpreter state.
diff --git a/js/src/jit/JitScript.cpp b/js/src/jit/JitScript.cpp
index f2f6ee2c25..62a14a70b6 100644
--- a/js/src/jit/JitScript.cpp
+++ b/js/src/jit/JitScript.cpp
@@ -517,7 +517,13 @@ void ICScript::purgeStubs(Zone* zone, ICStubSpace& newStubSpace) {
     if (fallback->trialInliningState() == TrialInliningState::Inlined &&
         hasInlinedChild(fallback->pcOffset())) {
       MOZ_ASSERT(active());
-      MOZ_ASSERT(findInlinedChild(fallback->pcOffset())->active());
+#ifdef DEBUG
+      // The callee script must be active. Also assert its bytecode size field
+      // is valid, because this helps catch memory safety issues (bug 1871947).
+      ICScript* callee = findInlinedChild(fallback->pcOffset());
+      MOZ_ASSERT(callee->active());
+      MOZ_ASSERT(callee->bytecodeSize() < inliningRoot()->totalBytecodeSize());
+#endif
 
       JSRuntime* rt = zone->runtimeFromMainThread();
       ICCacheIRStub* prev = nullptr;
@@ -718,6 +724,9 @@ static void MarkActiveICScriptsAndCopyStubs(
           ICCacheIRStub* newStub = stub->clone(cx->runtime(), newStubSpace);
           layout->setStubPtr(newStub);
 
+          // If this is a trial-inlining call site, also preserve the callee
+          // ICScript. Inlined constructor calls invoke CreateThisFromIC (which
+          // can trigger GC) before using the inlined ICScript.
           JSJitFrameIter parentFrame(frame);
           ++parentFrame;
           BaselineFrame* blFrame = parentFrame.baselineFrame();
diff --git a/js/src/jit/JitSpewer.cpp b/js/src/jit/JitSpewer.cpp
index 6fcd25d6e3..11e3165240 100644
--- a/js/src/jit/JitSpewer.cpp
+++ b/js/src/jit/JitSpewer.cpp
@@ -369,7 +369,6 @@ static void PrintHelpAndExit(int status = 0) {
       "compiled functions only).\n"
       "  profiling     Profiling-related information\n"
       "  dump-mir-expr Dump the MIR expressions\n"
-      "  scriptstats   Tracelogger summary stats\n"
       "  warp-snapshots WarpSnapshots created by WarpOracle\n"
       "  warp-transpiler Warp CacheIR transpiler\n"
       "  warp-trial-inlining Trial inlining for Warp\n"
@@ -475,8 +474,6 @@ void jit::CheckLogging() {
       EnableChannel(JitSpew_Profiling);
     } else if (IsFlag(found, "dump-mir-expr")) {
       EnableChannel(JitSpew_MIRExpressions);
-    } else if (IsFlag(found, "scriptstats")) {
-      EnableChannel(JitSpew_ScriptStats);
     } else if (IsFlag(found, "warp-snapshots")) {
       EnableChannel(JitSpew_WarpSnapshots);
     } else if (IsFlag(found, "warp-transpiler")) {
diff --git a/js/src/jit/JitSpewer.h b/js/src/jit/JitSpewer.h
index 2cc56d9cf7..bfc92c74f2 100644
--- a/js/src/jit/JitSpewer.h
+++ b/js/src/jit/JitSpewer.h
@@ -69,8 +69,6 @@ namespace jit {
   _(MarkLoadsUsedAsPropertyKeys)           \
   /* Output a list of MIR expressions */   \
   _(MIRExpressions)                        \
-  /* Spew Tracelogger summary stats */     \
-  _(ScriptStats)                           \
                                            \
   /* BASELINE COMPILER SPEW */             \
                                            \
diff --git a/js/src/jit/JitZone.h b/js/src/jit/JitZone.h
index a17b73c20e..d4f2350b8d 100644
--- a/js/src/jit/JitZone.h
+++ b/js/src/jit/JitZone.h
@@ -141,7 +141,8 @@ class JitZone {
     Count
   };
 
-  mozilla::EnumeratedArray<StubIndex, StubIndex::Count, WeakHeapPtr<JitCode*>>
+  mozilla::EnumeratedArray<StubIndex, WeakHeapPtr<JitCode*>,
+                           size_t(StubIndex::Count)>
       stubs_;
 
   mozilla::Maybe<IonCompilationId> currentCompilationId_;
diff --git a/js/src/jit/LIROps.yaml b/js/src/jit/LIROps.yaml
index 44ef48a4d8..f13c4b0745 100644
--- a/js/src/jit/LIROps.yaml
+++ b/js/src/jit/LIROps.yaml
@@ -1875,6 +1875,49 @@
   operands:
     object: WordSized
 
+# Read the length of a resizable typed array.
+- name: ResizableTypedArrayLength
+  result_type: WordSized
+  operands:
+    object: WordSized
+  arguments:
+    synchronization: js::jit::Synchronization
+  num_temps: 1
+
+# Read the possibly out-of-bounds byteOffset of a resizable typed array.
+- name: ResizableTypedArrayByteOffsetMaybeOutOfBounds
+  result_type: WordSized
+  operands:
+    object: WordSized
+  num_temps: 1
+
+# Read the byte length of a resizable data view.
+- name: ResizableDataViewByteLength
+  result_type: WordSized
+  operands:
+    object: WordSized
+  arguments:
+    synchronization: js::jit::Synchronization
+  num_temps: 1
+
+# Read the byte length of a growable shared array buffer.
+- name: GrowableSharedArrayBufferByteLength
+  result_type: WordSized
+  operands:
+    object: WordSized
+
+# Guard a resizable array buffer view is in-bounds.
+- name: GuardResizableArrayBufferViewInBounds
+  operands:
+    object: WordSized
+  num_temps: 1
+
+# Guard a resizable array buffer view is in-bounds.
+- name: GuardResizableArrayBufferViewInBoundsOrDetached
+  operands:
+    object: WordSized
+  num_temps: 1
+
 - name: GuardHasAttachedArrayBuffer
   operands:
     object: WordSized
@@ -2052,9 +2095,9 @@
 - name: LoadTypedArrayElementHole
   result_type: BoxedValue
   operands:
-    object: WordSized
+    elements: WordSized
     index: WordSized
-  num_temps: 1
+    length: WordSized
   mir_op: true
 
 - name: LoadTypedArrayElementHoleBigInt
@@ -2941,6 +2984,11 @@
     object: WordSized
   num_temps: 1
 
+- name: GuardIsResizableTypedArray
+  operands:
+    object: WordSized
+  num_temps: 1
+
 - name: GuardHasProxyHandler
   operands:
     object: WordSized
@@ -3069,6 +3117,13 @@
   num_temps: 1
   mir_op: true
 
+- name: GuardToEitherClass
+  result_type: WordSized
+  operands:
+    lhs: WordSized
+  num_temps: 1
+  mir_op: true
+
 - name: GuardToFunction
   result_type: WordSized
   operands:
diff --git a/js/src/jit/Lowering.cpp b/js/src/jit/Lowering.cpp
index 8a28ea123c..b0007a114d 100644
--- a/js/src/jit/Lowering.cpp
+++ b/js/src/jit/Lowering.cpp
@@ -3828,6 +3828,20 @@ void LIRGenerator::visitGetNextEntryForIterator(MGetNextEntryForIterator* ins) {
   define(lir, ins);
 }
 
+static auto SynchronizeLoad(MemoryBarrierRequirement requiresBarrier) {
+  if (requiresBarrier == MemoryBarrierRequirement::Required) {
+    return Synchronization::Load();
+  }
+  return Synchronization::None();
+}
+
+static auto SynchronizeStore(MemoryBarrierRequirement requiresBarrier) {
+  if (requiresBarrier == MemoryBarrierRequirement::Required) {
+    return Synchronization::Store();
+  }
+  return Synchronization::None();
+}
+
 void LIRGenerator::visitArrayBufferByteLength(MArrayBufferByteLength* ins) {
   MOZ_ASSERT(ins->object()->type() == MIRType::Object);
   MOZ_ASSERT(ins->type() == MIRType::IntPtr);
@@ -3870,6 +3884,70 @@ void LIRGenerator::visitTypedArrayElementSize(MTypedArrayElementSize* ins) {
          ins);
 }
 
+void LIRGenerator::visitResizableTypedArrayLength(
+    MResizableTypedArrayLength* ins) {
+  MOZ_ASSERT(ins->object()->type() == MIRType::Object);
+  MOZ_ASSERT(ins->type() == MIRType::IntPtr);
+
+  auto sync = SynchronizeLoad(ins->requiresMemoryBarrier());
+  auto* lir = new (alloc())
+      LResizableTypedArrayLength(useRegister(ins->object()), temp(), sync);
+  define(lir, ins);
+}
+
+void LIRGenerator::visitResizableTypedArrayByteOffsetMaybeOutOfBounds(
+    MResizableTypedArrayByteOffsetMaybeOutOfBounds* ins) {
+  MOZ_ASSERT(ins->object()->type() == MIRType::Object);
+  MOZ_ASSERT(ins->type() == MIRType::IntPtr);
+
+  auto* lir = new (alloc()) LResizableTypedArrayByteOffsetMaybeOutOfBounds(
+      useRegister(ins->object()), temp());
+  define(lir, ins);
+}
+
+void LIRGenerator::visitResizableDataViewByteLength(
+    MResizableDataViewByteLength* ins) {
+  MOZ_ASSERT(ins->object()->type() == MIRType::Object);
+  MOZ_ASSERT(ins->type() == MIRType::IntPtr);
+
+  auto sync = SynchronizeLoad(ins->requiresMemoryBarrier());
+  auto* lir = new (alloc())
+      LResizableDataViewByteLength(useRegister(ins->object()), temp(), sync);
+  define(lir, ins);
+}
+
+void LIRGenerator::visitGrowableSharedArrayBufferByteLength(
+    MGrowableSharedArrayBufferByteLength* ins) {
+  MOZ_ASSERT(ins->object()->type() == MIRType::Object);
+  MOZ_ASSERT(ins->type() == MIRType::IntPtr);
+
+  auto* lir = new (alloc())
+      LGrowableSharedArrayBufferByteLength(useRegisterAtStart(ins->object()));
+  define(lir, ins);
+}
+
+void LIRGenerator::visitGuardResizableArrayBufferViewInBounds(
+    MGuardResizableArrayBufferViewInBounds* ins) {
+  MOZ_ASSERT(ins->object()->type() == MIRType::Object);
+
+  auto* lir = new (alloc()) LGuardResizableArrayBufferViewInBounds(
+      useRegister(ins->object()), temp());
+  assignSnapshot(lir, ins->bailoutKind());
+  add(lir, ins);
+  redefine(ins, ins->object());
+}
+
+void LIRGenerator::visitGuardResizableArrayBufferViewInBoundsOrDetached(
+    MGuardResizableArrayBufferViewInBoundsOrDetached* ins) {
+  MOZ_ASSERT(ins->object()->type() == MIRType::Object);
+
+  auto* lir = new (alloc()) LGuardResizableArrayBufferViewInBoundsOrDetached(
+      useRegister(ins->object()), temp());
+  assignSnapshot(lir, ins->bailoutKind());
+  add(lir, ins);
+  redefine(ins, ins->object());
+}
+
 void LIRGenerator::visitGuardHasAttachedArrayBuffer(
     MGuardHasAttachedArrayBuffer* ins) {
   MOZ_ASSERT(ins->object()->type() == MIRType::Object);
@@ -4298,8 +4376,9 @@ void LIRGenerator::visitLoadUnboxedScalar(MLoadUnboxedScalar* ins) {
   MOZ_ASSERT(ins->index()->type() == MIRType::IntPtr);
   MOZ_ASSERT(IsNumericType(ins->type()) || ins->type() == MIRType::Boolean);
 
-  if (Scalar::isBigIntType(ins->storageType()) &&
-      ins->requiresMemoryBarrier()) {
+  auto sync = SynchronizeLoad(ins->requiresMemoryBarrier());
+
+  if (Scalar::isBigIntType(ins->storageType()) && !sync.isNone()) {
     lowerAtomicLoad64(ins);
     return;
   }
@@ -4310,8 +4389,7 @@ void LIRGenerator::visitLoadUnboxedScalar(MLoadUnboxedScalar* ins) {
 
   // NOTE: the generated code must match the assembly code in gen_load in
   // GenerateAtomicOperations.py
-  Synchronization sync = Synchronization::Load();
-  if (ins->requiresMemoryBarrier()) {
+  if (!sync.isNone()) {
     LMemoryBarrier* fence = new (alloc()) LMemoryBarrier(sync.barrierBefore);
     add(fence, ins);
   }
@@ -4338,7 +4416,7 @@ void LIRGenerator::visitLoadUnboxedScalar(MLoadUnboxedScalar* ins) {
     assignSafepoint(lir, ins);
   }
 
-  if (ins->requiresMemoryBarrier()) {
+  if (!sync.isNone()) {
     LMemoryBarrier* fence = new (alloc()) LMemoryBarrier(sync.barrierAfter);
     add(fence, ins);
   }
@@ -4431,29 +4509,32 @@ void LIRGenerator::visitClampToUint8(MClampToUint8* ins) {
 
 void LIRGenerator::visitLoadTypedArrayElementHole(
     MLoadTypedArrayElementHole* ins) {
-  MOZ_ASSERT(ins->object()->type() == MIRType::Object);
+  MOZ_ASSERT(ins->elements()->type() == MIRType::Elements);
   MOZ_ASSERT(ins->index()->type() == MIRType::IntPtr);
+  MOZ_ASSERT(ins->length()->type() == MIRType::IntPtr);
 
   MOZ_ASSERT(ins->type() == MIRType::Value);
 
-  const LUse object = useRegister(ins->object());
+  const LUse elements = useRegister(ins->elements());
   const LAllocation index = useRegister(ins->index());
+  const LAllocation length = useRegister(ins->length());
 
   if (!Scalar::isBigIntType(ins->arrayType())) {
-    auto* lir = new (alloc()) LLoadTypedArrayElementHole(object, index, temp());
+    auto* lir =
+        new (alloc()) LLoadTypedArrayElementHole(elements, index, length);
     if (ins->fallible()) {
       assignSnapshot(lir, ins->bailoutKind());
     }
     defineBox(lir, ins);
   } else {
 #ifdef JS_CODEGEN_X86
-    LDefinition tmp = LDefinition::BogusTemp();
+    LInt64Definition temp64 = LInt64Definition::BogusTemp();
 #else
-    LDefinition tmp = temp();
+    LInt64Definition temp64 = tempInt64();
 #endif
 
-    auto* lir = new (alloc())
-        LLoadTypedArrayElementHoleBigInt(object, index, tmp, tempInt64());
+    auto* lir = new (alloc()) LLoadTypedArrayElementHoleBigInt(
+        elements, index, length, temp(), temp64);
     defineBox(lir, ins);
     assignSafepoint(lir, ins);
   }
@@ -4474,7 +4555,9 @@ void LIRGenerator::visitStoreUnboxedScalar(MStoreUnboxedScalar* ins) {
     MOZ_ASSERT(ins->value()->type() == MIRType::Int32);
   }
 
-  if (ins->isBigIntWrite() && ins->requiresMemoryBarrier()) {
+  auto sync = SynchronizeStore(ins->requiresMemoryBarrier());
+
+  if (ins->isBigIntWrite() && !sync.isNone()) {
     lowerAtomicStore64(ins);
     return;
   }
@@ -4500,8 +4583,7 @@ void LIRGenerator::visitStoreUnboxedScalar(MStoreUnboxedScalar* ins) {
   //
   // NOTE: the generated code must match the assembly code in gen_store in
   // GenerateAtomicOperations.py
-  Synchronization sync = Synchronization::Store();
-  if (ins->requiresMemoryBarrier()) {
+  if (!sync.isNone()) {
     LMemoryBarrier* fence = new (alloc()) LMemoryBarrier(sync.barrierBefore);
     add(fence, ins);
   }
@@ -4511,7 +4593,7 @@ void LIRGenerator::visitStoreUnboxedScalar(MStoreUnboxedScalar* ins) {
     add(new (alloc()) LStoreUnboxedBigInt(elements, index, value, tempInt64()),
         ins);
   }
-  if (ins->requiresMemoryBarrier()) {
+  if (!sync.isNone()) {
     LMemoryBarrier* fence = new (alloc()) LMemoryBarrier(sync.barrierAfter);
     add(fence, ins);
   }
@@ -5154,6 +5236,17 @@ void LIRGenerator::visitGuardIsFixedLengthTypedArray(
   redefine(ins, ins->object());
 }
 
+void LIRGenerator::visitGuardIsResizableTypedArray(
+    MGuardIsResizableTypedArray* ins) {
+  MOZ_ASSERT(ins->object()->type() == MIRType::Object);
+
+  auto* lir = new (alloc())
+      LGuardIsResizableTypedArray(useRegister(ins->object()), temp());
+  assignSnapshot(lir, ins->bailoutKind());
+  add(lir, ins);
+  redefine(ins, ins->object());
+}
+
 void LIRGenerator::visitGuardHasProxyHandler(MGuardHasProxyHandler* ins) {
   MOZ_ASSERT(ins->object()->type() == MIRType::Object);
 
@@ -5694,6 +5787,15 @@ void LIRGenerator::visitGuardToClass(MGuardToClass* ins) {
   defineReuseInput(lir, ins, 0);
 }
 
+void LIRGenerator::visitGuardToEitherClass(MGuardToEitherClass* ins) {
+  MOZ_ASSERT(ins->object()->type() == MIRType::Object);
+  MOZ_ASSERT(ins->type() == MIRType::Object);
+  auto* lir = new (alloc())
+      LGuardToEitherClass(useRegisterAtStart(ins->object()), temp());
+  assignSnapshot(lir, ins->bailoutKind());
+  defineReuseInput(lir, ins, 0);
+}
+
 void LIRGenerator::visitGuardToFunction(MGuardToFunction* ins) {
   MOZ_ASSERT(ins->object()->type() == MIRType::Object);
   MOZ_ASSERT(ins->type() == MIRType::Object);
@@ -7018,6 +7120,11 @@ void LIRGenerator::visitMapObjectSize(MMapObjectSize* ins) {
   define(lir, ins);
 }
 
+void LIRGenerator::visitPostIntPtrConversion(MPostIntPtrConversion* ins) {
+  // This operation is a no-op.
+  redefine(ins, ins->input());
+}
+
 void LIRGenerator::visitConstant(MConstant* ins) {
   if (!IsFloatingPointType(ins->type()) && ins->canEmitAtUses()) {
     emitAtUses(ins);
diff --git a/js/src/jit/MIR.cpp b/js/src/jit/MIR.cpp
index dbaa73c9dd..c6daecb166 100644
--- a/js/src/jit/MIR.cpp
+++ b/js/src/jit/MIR.cpp
@@ -6365,6 +6365,81 @@ AliasSet MGuardHasAttachedArrayBuffer::getAliasSet() const {
   return AliasSet::Load(AliasSet::ObjectFields | AliasSet::FixedSlot);
 }
 
+AliasSet MResizableTypedArrayByteOffsetMaybeOutOfBounds::getAliasSet() const {
+  // Loads the byteOffset and additionally checks for detached buffers, so the
+  // alias set also has to include |ObjectFields| and |FixedSlot|.
+  return AliasSet::Load(AliasSet::ArrayBufferViewLengthOrOffset |
+                        AliasSet::ObjectFields | AliasSet::FixedSlot);
+}
+
+AliasSet MResizableTypedArrayLength::getAliasSet() const {
+  // Loads the length and byteOffset slots, the shared-elements flag, the
+  // auto-length fixed slot, and the shared raw-buffer length.
+  auto flags = AliasSet::ArrayBufferViewLengthOrOffset |
+               AliasSet::ObjectFields | AliasSet::FixedSlot |
+               AliasSet::SharedArrayRawBufferLength;
+
+  // When a barrier is needed make the instruction effectful by giving it a
+  // "store" effect. Also prevent reordering LoadUnboxedScalar before this
+  // instruction by including |UnboxedElement| in the alias set.
+  if (requiresMemoryBarrier() == MemoryBarrierRequirement::Required) {
+    return AliasSet::Store(flags | AliasSet::UnboxedElement);
+  }
+  return AliasSet::Load(flags);
+}
+
+bool MResizableTypedArrayLength::congruentTo(const MDefinition* ins) const {
+  if (requiresMemoryBarrier() == MemoryBarrierRequirement::Required) {
+    return false;
+  }
+  return congruentIfOperandsEqual(ins);
+}
+
+AliasSet MResizableDataViewByteLength::getAliasSet() const {
+  // Loads the length and byteOffset slots, the shared-elements flag, the
+  // auto-length fixed slot, and the shared raw-buffer length.
+  auto flags = AliasSet::ArrayBufferViewLengthOrOffset |
+               AliasSet::ObjectFields | AliasSet::FixedSlot |
+               AliasSet::SharedArrayRawBufferLength;
+
+  // When a barrier is needed make the instruction effectful by giving it a
+  // "store" effect. Also prevent reordering LoadUnboxedScalar before this
+  // instruction by including |UnboxedElement| in the alias set.
+  if (requiresMemoryBarrier() == MemoryBarrierRequirement::Required) {
+    return AliasSet::Store(flags | AliasSet::UnboxedElement);
+  }
+  return AliasSet::Load(flags);
+}
+
+bool MResizableDataViewByteLength::congruentTo(const MDefinition* ins) const {
+  if (requiresMemoryBarrier() == MemoryBarrierRequirement::Required) {
+    return false;
+  }
+  return congruentIfOperandsEqual(ins);
+}
+
+AliasSet MGrowableSharedArrayBufferByteLength::getAliasSet() const {
+  // Requires a barrier, so make the instruction effectful by giving it a
+  // "store" effect. Also prevent reordering LoadUnboxedScalar before this
+  // instruction by including |UnboxedElement| in the alias set.
+  return AliasSet::Store(AliasSet::FixedSlot |
+                         AliasSet::SharedArrayRawBufferLength |
+                         AliasSet::UnboxedElement);
+}
+
+AliasSet MGuardResizableArrayBufferViewInBounds::getAliasSet() const {
+  // Additionally reads the |initialLength| and |initialByteOffset| slots, but
+  // since these can't change after construction, we don't need to track them.
+  return AliasSet::Load(AliasSet::ArrayBufferViewLengthOrOffset);
+}
+
+AliasSet MGuardResizableArrayBufferViewInBoundsOrDetached::getAliasSet() const {
+  // Loads the byteOffset and additionally checks for detached buffers, so the
+  // alias set also has to include |ObjectFields| and |FixedSlot|.
+  return AliasSet::Load(AliasSet::ArrayBufferViewLengthOrOffset |
+                        AliasSet::ObjectFields | AliasSet::FixedSlot);
+}
+
 AliasSet MArrayPush::getAliasSet() const {
   return AliasSet::Store(AliasSet::ObjectFields | AliasSet::Element);
 }
@@ -6882,6 +6957,16 @@ MDefinition* MGuardToClass::foldsTo(TempAllocator& alloc) {
   return object();
 }
 
+MDefinition* MGuardToEitherClass::foldsTo(TempAllocator& alloc) {
+  const JSClass* clasp = GetObjectKnownJSClass(object());
+  if (!clasp || (getClass1() != clasp && getClass2() != clasp)) {
+    return this;
+  }
+
+  AssertKnownClass(alloc, this, object());
+  return object();
+}
+
 MDefinition* MGuardToFunction::foldsTo(TempAllocator& alloc) {
   if (GetObjectKnownClass(object()) != KnownClass::Function) {
     return this;
diff --git a/js/src/jit/MIR.h b/js/src/jit/MIR.h
index 07701847eb..d882665a65 100644
--- a/js/src/jit/MIR.h
+++ b/js/src/jit/MIR.h
@@ -421,10 +421,13 @@ class AliasSet {
     // The generation counter associated with the global object
     GlobalGenerationCounter = 1 << 26,
 
-    Last = GlobalGenerationCounter,
+    // The SharedArrayRawBuffer::length field.
+    SharedArrayRawBufferLength = 1 << 27,
+
+    Last = SharedArrayRawBufferLength,
 
     Any = Last | (Last - 1),
-    NumCategories = 27,
+    NumCategories = 28,
 
     // Indicates load or store.
     Store_ = 1 << 31
@@ -657,7 +660,13 @@ class MDefinition : public MNode {
   virtual HashNumber valueHash() const;
   virtual bool congruentTo(const MDefinition* ins) const { return false; }
   const MDefinition* skipObjectGuards() const;
+
+  // Note that, for a call `congruentIfOperandsEqual(ins)` inside some class
+  // MFoo, if `true` is returned then we are ensured that `ins` is also an
+  // MFoo, so it is safe to do `ins->toMFoo()` without first checking whether
+  // `ins->isMFoo()`.
   bool congruentIfOperandsEqual(const MDefinition* ins) const;
+
   virtual MDefinition* foldsTo(TempAllocator& alloc);
   virtual void analyzeEdgeCasesForward();
   virtual void analyzeEdgeCasesBackward();
@@ -1277,6 +1286,35 @@ class MVariadicT : public T {
 // initializes the operands_ array and must be checked for OOM.
 using MVariadicInstruction = MVariadicT<MInstruction>;
 
+// All barriered operations:
+// - MCompareExchangeTypedArrayElement
+// - MExchangeTypedArrayElement
+// - MAtomicTypedArrayElementBinop
+// - MGrowableSharedArrayBufferByteLength
+//
+// And operations which are optionally barriered:
+// - MLoadUnboxedScalar
+// - MStoreUnboxedScalar
+// - MResizableTypedArrayLength
+// - MResizableDataViewByteLength
+//
+// Must have the following attributes:
+//
+// - Not movable
+// - Not removable
+// - Not congruent with any other instruction
+// - Effectful (they alias every TypedArray store)
+//
+// The intended effect of those constraints is to prevent all loads and stores
+// preceding the barriered operation from being moved to after the barriered
+// operation, and vice versa, and to prevent the barriered operation from being
+// removed or hoisted.
+
+enum class MemoryBarrierRequirement : bool {
+  NotRequired,
+  Required,
+};
+
 MIR_OPCODE_CLASS_GENERATED
 
 // Truncation barrier. This is intended for protecting its input against
@@ -7040,44 +7078,22 @@ class MArrayPopShift : public MUnaryInstruction,
   ALLOW_CLONE(MArrayPopShift)
 };
 
-// All barriered operations - MCompareExchangeTypedArrayElement,
-// MExchangeTypedArrayElement, and MAtomicTypedArrayElementBinop, as
-// well as MLoadUnboxedScalar and MStoreUnboxedScalar when they are
-// marked as requiring a memory barrer - have the following
-// attributes:
-//
-// - Not movable
-// - Not removable
-// - Not congruent with any other instruction
-// - Effectful (they alias every TypedArray store)
-//
-// The intended effect of those constraints is to prevent all loads
-// and stores preceding the barriered operation from being moved to
-// after the barriered operation, and vice versa, and to prevent the
-// barriered operation from being removed or hoisted.
-
-enum MemoryBarrierRequirement {
-  DoesNotRequireMemoryBarrier,
-  DoesRequireMemoryBarrier
-};
-
-// Also see comments at MMemoryBarrierRequirement, above.
-
 // Load an unboxed scalar value from an array buffer view or other object.
 class MLoadUnboxedScalar : public MBinaryInstruction,
                            public NoTypePolicy::Data {
   int32_t offsetAdjustment_ = 0;
   Scalar::Type storageType_;
-  bool requiresBarrier_;
+  MemoryBarrierRequirement requiresBarrier_;
 
-  MLoadUnboxedScalar(
-      MDefinition* elements, MDefinition* index, Scalar::Type storageType,
-      MemoryBarrierRequirement requiresBarrier = DoesNotRequireMemoryBarrier)
+  MLoadUnboxedScalar(MDefinition* elements, MDefinition* index,
+                     Scalar::Type storageType,
+                     MemoryBarrierRequirement requiresBarrier =
+                         MemoryBarrierRequirement::NotRequired)
       : MBinaryInstruction(classOpcode, elements, index),
         storageType_(storageType),
-        requiresBarrier_(requiresBarrier == DoesRequireMemoryBarrier) {
+        requiresBarrier_(requiresBarrier) {
     setResultType(MIRType::Value);
-    if (requiresBarrier_) {
+    if (requiresBarrier_ == MemoryBarrierRequirement::Required) {
       setGuard();  // Not removable or movable
     } else {
       setMovable();
@@ -7097,7 +7113,7 @@ class MLoadUnboxedScalar : public MBinaryInstruction,
     // Bailout if the result does not fit in an int32.
     return storageType_ == Scalar::Uint32 && type() == MIRType::Int32;
   }
-  bool requiresMemoryBarrier() const { return requiresBarrier_; }
+  auto requiresMemoryBarrier() const { return requiresBarrier_; }
   int32_t offsetAdjustment() const { return offsetAdjustment_; }
   void setOffsetAdjustment(int32_t offsetAdjustment) {
     offsetAdjustment_ = offsetAdjustment;
@@ -7105,14 +7121,14 @@ class MLoadUnboxedScalar : public MBinaryInstruction,
   AliasSet getAliasSet() const override {
     // When a barrier is needed make the instruction effectful by
     // giving it a "store" effect.
-    if (requiresBarrier_) {
+    if (requiresBarrier_ == MemoryBarrierRequirement::Required) {
       return AliasSet::Store(AliasSet::UnboxedElement);
     }
     return AliasSet::Load(AliasSet::UnboxedElement);
   }
 
   bool congruentTo(const MDefinition* ins) const override {
-    if (requiresBarrier_) {
+    if (requiresBarrier_ == MemoryBarrierRequirement::Required) {
       return false;
     }
     if (!ins->isLoadUnboxedScalar()) {
@@ -7198,26 +7214,29 @@ class MLoadDataViewElement : public MTernaryInstruction,
 };
 
 // Load a value from a typed array. Out-of-bounds accesses are handled in-line.
-class MLoadTypedArrayElementHole : public MBinaryInstruction,
-                                   public SingleObjectPolicy::Data {
+class MLoadTypedArrayElementHole : public MTernaryInstruction,
+                                   public NoTypePolicy::Data {
   Scalar::Type arrayType_;
   bool forceDouble_;
 
-  MLoadTypedArrayElementHole(MDefinition* object, MDefinition* index,
-                             Scalar::Type arrayType, bool forceDouble)
-      : MBinaryInstruction(classOpcode, object, index),
+  MLoadTypedArrayElementHole(MDefinition* elements, MDefinition* index,
+                             MDefinition* length, Scalar::Type arrayType,
+                             bool forceDouble)
+      : MTernaryInstruction(classOpcode, elements, index, length),
         arrayType_(arrayType),
         forceDouble_(forceDouble) {
     setResultType(MIRType::Value);
     setMovable();
+    MOZ_ASSERT(elements->type() == MIRType::Elements);
     MOZ_ASSERT(index->type() == MIRType::IntPtr);
+    MOZ_ASSERT(length->type() == MIRType::IntPtr);
     MOZ_ASSERT(arrayType >= 0 && arrayType < Scalar::MaxTypedArrayViewType);
   }
 
  public:
   INSTRUCTION_HEADER(LoadTypedArrayElementHole)
   TRIVIAL_NEW_WRAPPERS
-  NAMED_OPERANDS((0, object), (1, index))
+  NAMED_OPERANDS((0, elements), (1, index), (2, length))
 
   Scalar::Type arrayType() const { return arrayType_; }
   bool forceDouble() const { return forceDouble_; }
@@ -7239,8 +7258,7 @@ class MLoadTypedArrayElementHole : public MBinaryInstruction,
     return congruentIfOperandsEqual(other);
   }
   AliasSet getAliasSet() const override {
-    return AliasSet::Load(AliasSet::UnboxedElement | AliasSet::ObjectFields |
-                          AliasSet::ArrayBufferViewLengthOrOffset);
+    return AliasSet::Load(AliasSet::UnboxedElement);
   }
   bool canProduceFloat32() const override {
     return arrayType_ == Scalar::Float32;
@@ -7280,16 +7298,16 @@ class StoreUnboxedScalarBase {
 class MStoreUnboxedScalar : public MTernaryInstruction,
                             public StoreUnboxedScalarBase,
                             public StoreUnboxedScalarPolicy::Data {
-  bool requiresBarrier_;
+  MemoryBarrierRequirement requiresBarrier_;
 
-  MStoreUnboxedScalar(
-      MDefinition* elements, MDefinition* index, MDefinition* value,
-      Scalar::Type storageType,
-      MemoryBarrierRequirement requiresBarrier = DoesNotRequireMemoryBarrier)
+  MStoreUnboxedScalar(MDefinition* elements, MDefinition* index,
+                      MDefinition* value, Scalar::Type storageType,
+                      MemoryBarrierRequirement requiresBarrier =
+                          MemoryBarrierRequirement::NotRequired)
       : MTernaryInstruction(classOpcode, elements, index, value),
         StoreUnboxedScalarBase(storageType),
-        requiresBarrier_(requiresBarrier == DoesRequireMemoryBarrier) {
-    if (requiresBarrier_) {
+        requiresBarrier_(requiresBarrier) {
+    if (requiresBarrier_ == MemoryBarrierRequirement::Required) {
       setGuard();  // Not removable or movable
     }
     MOZ_ASSERT(elements->type() == MIRType::Elements);
@@ -7305,7 +7323,7 @@ class MStoreUnboxedScalar : public MTernaryInstruction,
   AliasSet getAliasSet() const override {
     return AliasSet::Store(AliasSet::UnboxedElement);
   }
-  bool requiresMemoryBarrier() const { return requiresBarrier_; }
+  auto requiresMemoryBarrier() const { return requiresBarrier_; }
   TruncateKind operandTruncateKind(size_t index) const override;
 
   bool canConsumeFloat32(MUse* use) const override {
@@ -8997,6 +9015,55 @@ class MGuardToClass : public MUnaryInstruction,
   }
 };
 
+class MGuardToEitherClass : public MUnaryInstruction,
+                            public SingleObjectPolicy::Data {
+  const JSClass* class1_;
+  const JSClass* class2_;
+
+  MGuardToEitherClass(MDefinition* object, const JSClass* clasp1,
+                      const JSClass* clasp2)
+      : MUnaryInstruction(classOpcode, object),
+        class1_(clasp1),
+        class2_(clasp2) {
+    MOZ_ASSERT(object->type() == MIRType::Object);
+    MOZ_ASSERT(clasp1 != clasp2, "Use MGuardToClass instead");
+    MOZ_ASSERT(!clasp1->isJSFunction(), "Use MGuardToFunction instead");
+    MOZ_ASSERT(!clasp2->isJSFunction(), "Use MGuardToFunction instead");
+    setResultType(MIRType::Object);
+    setMovable();
+
+    // We will bail out if the class type is incorrect, so we need to ensure we
+    // don't eliminate this instruction
+    setGuard();
+  }
+
+ public:
+  INSTRUCTION_HEADER(GuardToEitherClass)
+  TRIVIAL_NEW_WRAPPERS
+  NAMED_OPERANDS((0, object))
+
+  const JSClass* getClass1() const { return class1_; }
+  const JSClass* getClass2() const { return class2_; }
+
+  MDefinition* foldsTo(TempAllocator& alloc) override;
+  AliasSet getAliasSet() const override { return AliasSet::None(); }
+  bool congruentTo(const MDefinition* ins) const override {
+    if (!ins->isGuardToEitherClass()) {
+      return false;
+    }
+    const auto* other = ins->toGuardToEitherClass();
+    if (getClass1() != other->getClass1() &&
+        getClass1() != other->getClass2()) {
+      return false;
+    }
+    if (getClass2() != other->getClass1() &&
+        getClass2() != other->getClass2()) {
+      return false;
+    }
+    return congruentIfOperandsEqual(ins);
+  }
+};
+
 class MGuardToFunction : public MUnaryInstruction,
                          public SingleObjectPolicy::Data {
   explicit MGuardToFunction(MDefinition* object)
@@ -9337,6 +9404,23 @@ class MObjectToIterator : public MUnaryInstruction,
   void setWantsIndices(bool value) { wantsIndices_ = value; }
 };
 
+class MPostIntPtrConversion : public MUnaryInstruction,
+                              public NoTypePolicy::Data {
+  explicit MPostIntPtrConversion(MDefinition* input)
+      : MUnaryInstruction(classOpcode, input) {
+    // Passes through the input.
+    setResultType(input->type());
+
+    // Note: Must be non-movable so we can attach a resume point.
+  }
+
+ public:
+  INSTRUCTION_HEADER(PostIntPtrConversion)
+  TRIVIAL_NEW_WRAPPERS
+
+  AliasSet getAliasSet() const override { return AliasSet::None(); }
+};
+
 // Flips the input's sign bit, independently of the rest of the number's
 // payload. Note this is different from multiplying by minus-one, which has
 // side-effects for e.g. NaNs.
@@ -10808,6 +10892,8 @@ class MWasmReinterpret : public MUnaryInstruction, public NoTypePolicy::Data {
 
   AliasSet getAliasSet() const override { return AliasSet::None(); }
   bool congruentTo(const MDefinition* ins) const override {
+    // No need to check type() here, because congruentIfOperandsEqual will
+    // check it.
     return congruentIfOperandsEqual(ins);
   }
 
@@ -10867,7 +10953,8 @@ class MWasmTernarySimd128 : public MTernaryInstruction,
 
   AliasSet getAliasSet() const override { return AliasSet::None(); }
   bool congruentTo(const MDefinition* ins) const override {
-    return congruentIfOperandsEqual(ins);
+    return congruentIfOperandsEqual(ins) &&
+           simdOp() == ins->toWasmTernarySimd128()->simdOp();
   }
 #ifdef ENABLE_WASM_SIMD
   MDefinition* foldsTo(TempAllocator& alloc) override;
@@ -10908,8 +10995,8 @@ class MWasmBinarySimd128 : public MBinaryInstruction,
 
   AliasSet getAliasSet() const override { return AliasSet::None(); }
   bool congruentTo(const MDefinition* ins) const override {
-    return ins->toWasmBinarySimd128()->simdOp() == simdOp_ &&
-           congruentIfOperandsEqual(ins);
+    return congruentIfOperandsEqual(ins) &&
+           ins->toWasmBinarySimd128()->simdOp() == simdOp_;
   }
 #ifdef ENABLE_WASM_SIMD
   MDefinition* foldsTo(TempAllocator& alloc) override;
@@ -10945,8 +11032,8 @@ class MWasmBinarySimd128WithConstant : public MUnaryInstruction,
 
   AliasSet getAliasSet() const override { return AliasSet::None(); }
   bool congruentTo(const MDefinition* ins) const override {
-    return ins->toWasmBinarySimd128WithConstant()->simdOp() == simdOp_ &&
-           congruentIfOperandsEqual(ins) &&
+    return congruentIfOperandsEqual(ins) &&
+           ins->toWasmBinarySimd128WithConstant()->simdOp() == simdOp_ &&
            rhs_.bitwiseEqual(ins->toWasmBinarySimd128WithConstant()->rhs());
   }
 
@@ -10978,9 +11065,9 @@ class MWasmReplaceLaneSimd128 : public MBinaryInstruction,
 
   AliasSet getAliasSet() const override { return AliasSet::None(); }
   bool congruentTo(const MDefinition* ins) const override {
-    return ins->toWasmReplaceLaneSimd128()->simdOp() == simdOp_ &&
-           ins->toWasmReplaceLaneSimd128()->laneIndex() == laneIndex_ &&
-           congruentIfOperandsEqual(ins);
+    return congruentIfOperandsEqual(ins) &&
+           ins->toWasmReplaceLaneSimd128()->simdOp() == simdOp_ &&
+           ins->toWasmReplaceLaneSimd128()->laneIndex() == laneIndex_;
   }
 
   uint32_t laneIndex() const { return laneIndex_; }
@@ -11006,8 +11093,8 @@ class MWasmScalarToSimd128 : public MUnaryInstruction,
 
   AliasSet getAliasSet() const override { return AliasSet::None(); }
   bool congruentTo(const MDefinition* ins) const override {
-    return ins->toWasmScalarToSimd128()->simdOp() == simdOp_ &&
-           congruentIfOperandsEqual(ins);
+    return congruentIfOperandsEqual(ins) &&
+           ins->toWasmScalarToSimd128()->simdOp() == simdOp_;
   }
 #ifdef ENABLE_WASM_SIMD
   MDefinition* foldsTo(TempAllocator& alloc) override;
@@ -11036,9 +11123,9 @@ class MWasmReduceSimd128 : public MUnaryInstruction, public NoTypePolicy::Data {
 
   AliasSet getAliasSet() const override { return AliasSet::None(); }
   bool congruentTo(const MDefinition* ins) const override {
-    return ins->toWasmReduceSimd128()->simdOp() == simdOp_ &&
-           ins->toWasmReduceSimd128()->imm() == imm_ &&
-           congruentIfOperandsEqual(ins);
+    return congruentIfOperandsEqual(ins) &&
+           ins->toWasmReduceSimd128()->simdOp() == simdOp_ &&
+           ins->toWasmReduceSimd128()->imm() == imm_;
   }
 #ifdef ENABLE_WASM_SIMD
   MDefinition* foldsTo(TempAllocator& alloc) override;
diff --git a/js/src/jit/MIROps.yaml b/js/src/jit/MIROps.yaml
index 565c3c9c2b..7f0df52742 100644
--- a/js/src/jit/MIROps.yaml
+++ b/js/src/jit/MIROps.yaml
@@ -1331,7 +1331,6 @@
   folds_to: custom
   congruent_to: if_operands_equal
   alias_set: none
-  movable: true
   can_recover: true
 
 - name: ModuleMetadata
@@ -1492,6 +1491,54 @@
   alias_set: custom
   clone: true
 
+# Implements the TypedArrayByteOffset intrinsic for resizable typed arrays,
+# which calls TypedArrayObject::byteOffsetMaybeOutOfBounds().
+- name: ResizableTypedArrayByteOffsetMaybeOutOfBounds
+  operands:
+    object: Object
+  result_type: IntPtr
+  movable: true
+  congruent_to: if_operands_equal
+  alias_set: custom
+  compute_range: custom
+
+# Read the length of a resizable typed array.
+- name: ResizableTypedArrayLength
+  operands:
+    object: Object
+  arguments:
+    requiresMemoryBarrier: MemoryBarrierRequirement
+  result_type: IntPtr
+  # Not removable or movable when a barrier is needed.
+  guard: true
+  movable: false
+  congruent_to: custom
+  alias_set: custom
+  compute_range: custom
+
+# Read the byteLength of a resizable dataview.
+- name: ResizableDataViewByteLength
+  operands:
+    object: Object
+  arguments:
+    requiresMemoryBarrier: MemoryBarrierRequirement
+  result_type: IntPtr
+  # Not removable or movable when a barrier is needed.
+  guard: true
+  movable: false
+  congruent_to: custom
+  alias_set: custom
+  compute_range: custom
+
+# Read the byte length of a growable shared array buffer as IntPtr.
+- name: GrowableSharedArrayBufferByteLength
+  operands:
+    object: Object
+  result_type: IntPtr
+  guard: true
+  movable: false
+  alias_set: custom
+
 # Return the element size of a typed array.
 - name: TypedArrayElementSize
   operands:
@@ -1513,6 +1560,26 @@
   congruent_to: if_operands_equal
   alias_set: custom
 
+# Guard a resizable typed array is in-bounds.
+- name: GuardResizableArrayBufferViewInBounds
+  operands:
+    object: Object
+  result_type: Object
+  guard: true
+  movable: true
+  congruent_to: if_operands_equal
+  alias_set: custom
+
+# Guard a resizable typed array is in-bounds or detached.
+- name: GuardResizableArrayBufferViewInBoundsOrDetached
+  operands:
+    object: Object
+  result_type: Object
+  guard: true
+  movable: true
+  congruent_to: if_operands_equal
+  alias_set: custom
+
 - name: GuardNumberToIntPtrIndex
   gen_boilerplate: false
 
@@ -1951,6 +2018,15 @@
   congruent_to: if_operands_equal
   alias_set: none
 
+- name: GuardIsResizableTypedArray
+  operands:
+    object: Object
+  result_type: Object
+  guard: true
+  movable: true
+  congruent_to: if_operands_equal
+  alias_set: none
+
 - name: GuardHasProxyHandler
   operands:
     object: Object
@@ -2510,6 +2586,9 @@
 - name: GuardToClass
   gen_boilerplate: false
 
+- name: GuardToEitherClass
+  gen_boilerplate: false
+
 - name: GuardToFunction
   gen_boilerplate: false
 
@@ -3106,6 +3185,9 @@
   congruent_to: if_operands_equal
   alias_set: custom
 
+- name: PostIntPtrConversion
+  gen_boilerplate: false
+
 - name: WasmNeg
   gen_boilerplate: false
 
diff --git a/js/src/jit/MacroAssembler-inl.h b/js/src/jit/MacroAssembler-inl.h
index beba576a22..e1df31eff9 100644
--- a/js/src/jit/MacroAssembler-inl.h
+++ b/js/src/jit/MacroAssembler-inl.h
@@ -606,9 +606,7 @@ void MacroAssembler::branchTestObjClass(Condition cond, Register obj,
   MOZ_ASSERT(obj != scratch);
   MOZ_ASSERT(scratch != spectreRegToZero);
 
-  loadPtr(Address(obj, JSObject::offsetOfShape()), scratch);
-  loadPtr(Address(scratch, Shape::offsetOfBaseShape()), scratch);
-  loadPtr(Address(scratch, BaseShape::offsetOfClasp()), scratch);
+  loadObjClassUnsafe(obj, scratch);
   branchPtr(cond, clasp, scratch, label);
 
   if (JitOptions.spectreObjectMitigations) {
@@ -620,9 +618,7 @@ void MacroAssembler::branchTestObjClassNoSpectreMitigations(
     Condition cond, Register obj, const Address& clasp, Register scratch,
     Label* label) {
   MOZ_ASSERT(obj != scratch);
-  loadPtr(Address(obj, JSObject::offsetOfShape()), scratch);
-  loadPtr(Address(scratch, Shape::offsetOfBaseShape()), scratch);
-  loadPtr(Address(scratch, BaseShape::offsetOfClasp()), scratch);
+  loadObjClassUnsafe(obj, scratch);
   branchPtr(cond, clasp, scratch, label);
 }
 
@@ -633,9 +629,7 @@ void MacroAssembler::branchTestObjClass(Condition cond, Register obj,
   MOZ_ASSERT(obj != scratch);
   MOZ_ASSERT(scratch != spectreRegToZero);
 
-  loadPtr(Address(obj, JSObject::offsetOfShape()), scratch);
-  loadPtr(Address(scratch, Shape::offsetOfBaseShape()), scratch);
-  loadPtr(Address(scratch, BaseShape::offsetOfClasp()), scratch);
+  loadObjClassUnsafe(obj, scratch);
   branchPtr(cond, clasp, scratch, label);
 
   if (JitOptions.spectreObjectMitigations) {
@@ -643,20 +637,51 @@ void MacroAssembler::branchTestObjClass(Condition cond, Register obj,
   }
 }
 
-void MacroAssembler::branchTestClassIsFunction(Condition cond, Register clasp,
-                                               Label* label) {
+void MacroAssembler::branchTestClass(
+    Condition cond, Register clasp,
+    std::pair<const JSClass*, const JSClass*> classes, Label* label) {
   MOZ_ASSERT(cond == Assembler::Equal || cond == Assembler::NotEqual);
 
   if (cond == Assembler::Equal) {
-    branchPtr(Assembler::Equal, clasp, ImmPtr(&FunctionClass), label);
-    branchPtr(Assembler::Equal, clasp, ImmPtr(&ExtendedFunctionClass), label);
+    branchPtr(Assembler::Equal, clasp, ImmPtr(classes.first), label);
+    branchPtr(Assembler::Equal, clasp, ImmPtr(classes.second), label);
     return;
   }
 
-  Label isFunction;
-  branchPtr(Assembler::Equal, clasp, ImmPtr(&FunctionClass), &isFunction);
-  branchPtr(Assembler::NotEqual, clasp, ImmPtr(&ExtendedFunctionClass), label);
-  bind(&isFunction);
+  Label isClass;
+  branchPtr(Assembler::Equal, clasp, ImmPtr(classes.first), &isClass);
+  branchPtr(Assembler::NotEqual, clasp, ImmPtr(classes.second), label);
+  bind(&isClass);
+}
+
+void MacroAssembler::branchTestObjClass(
+    Condition cond, Register obj,
+    std::pair<const JSClass*, const JSClass*> classes, Register scratch,
+    Register spectreRegToZero, Label* label) {
+  MOZ_ASSERT(scratch != spectreRegToZero);
+
+  branchTestObjClassNoSpectreMitigations(cond, obj, classes, scratch, label);
+
+  if (JitOptions.spectreObjectMitigations) {
+    spectreZeroRegister(cond, scratch, spectreRegToZero);
+  }
+}
+
+void MacroAssembler::branchTestObjClassNoSpectreMitigations(
+    Condition cond, Register obj,
+    std::pair<const JSClass*, const JSClass*> classes, Register scratch,
+    Label* label) {
+  MOZ_ASSERT(cond == Assembler::Equal || cond == Assembler::NotEqual);
+  MOZ_ASSERT(obj != scratch);
+
+  loadObjClassUnsafe(obj, scratch);
+  branchTestClass(cond, scratch, classes, label);
+}
+
+void MacroAssembler::branchTestClassIsFunction(Condition cond, Register clasp,
+                                               Label* label) {
+  return branchTestClass(cond, clasp, {&FunctionClass, &ExtendedFunctionClass},
+                         label);
 }
 
 void MacroAssembler::branchTestObjIsFunction(Condition cond, Register obj,
@@ -677,9 +702,7 @@ void MacroAssembler::branchTestObjIsFunctionNoSpectreMitigations(
   MOZ_ASSERT(cond == Assembler::Equal || cond == Assembler::NotEqual);
   MOZ_ASSERT(obj != scratch);
 
-  loadPtr(Address(obj, JSObject::offsetOfShape()), scratch);
-  loadPtr(Address(scratch, Shape::offsetOfBaseShape()), scratch);
-  loadPtr(Address(scratch, BaseShape::offsetOfClasp()), scratch);
+  loadObjClassUnsafe(obj, scratch);
   branchTestClassIsFunction(cond, scratch, label);
 }
 
diff --git a/js/src/jit/MacroAssembler.cpp b/js/src/jit/MacroAssembler.cpp
index 54da676014..3b094d49dc 100644
--- a/js/src/jit/MacroAssembler.cpp
+++ b/js/src/jit/MacroAssembler.cpp
@@ -2661,6 +2661,7 @@ void MacroAssembler::loadMegamorphicSetPropCache(Register dest) {
 
 void MacroAssembler::lookupStringInAtomCacheLastLookups(Register str,
                                                         Register scratch,
+                                                        Register output,
                                                         Label* fail) {
   Label found;
 
@@ -2680,7 +2681,7 @@ void MacroAssembler::lookupStringInAtomCacheLastLookups(Register str,
   // and jump back up to our usual atom handling code
   bind(&found);
   size_t atomOffset = StringToAtomCache::LastLookup::offsetOfAtom();
-  loadPtr(Address(scratch, atomOffset), str);
+  loadPtr(Address(scratch, atomOffset), output);
 }
 
 void MacroAssembler::loadAtomHash(Register id, Register outHash, Label* done) {
@@ -2740,7 +2741,7 @@ void MacroAssembler::loadAtomOrSymbolAndHash(ValueOperand value, Register outId,
   loadAtomHash(outId, outHash, &done);
 
   bind(&nonAtom);
-  lookupStringInAtomCacheLastLookups(outId, outHash, cacheMiss);
+  lookupStringInAtomCacheLastLookups(outId, outHash, outId, cacheMiss);
   jump(&atom);
 
   bind(&done);
@@ -3255,6 +3256,95 @@ void MacroAssembler::loadArrayBufferViewLengthIntPtr(Register obj,
   loadPrivate(slotAddr, output);
 }
 
+void MacroAssembler::loadGrowableSharedArrayBufferByteLengthIntPtr(
+    Synchronization sync, Register obj, Register output) {
+  // Load the SharedArrayRawBuffer.
+  loadPrivate(Address(obj, SharedArrayBufferObject::rawBufferOffset()), output);
+
+  memoryBarrierBefore(sync);
+
+  // Load the byteLength of the SharedArrayRawBuffer into |output|.
+  static_assert(sizeof(mozilla::Atomic<size_t>) == sizeof(size_t));
+  loadPtr(Address(output, SharedArrayRawBuffer::offsetOfByteLength()), output);
+
+  memoryBarrierAfter(sync);
+}
+
+void MacroAssembler::loadResizableArrayBufferViewLengthIntPtr(
+    ResizableArrayBufferView view, Synchronization sync, Register obj,
+    Register output, Register scratch) {
+  // Inline implementation of ArrayBufferViewObject::length(), when the input is
+  // guaranteed to be a resizable arraybuffer view object.
+
+  loadArrayBufferViewLengthIntPtr(obj, output);
+
+  Label done;
+  branchPtr(Assembler::NotEqual, output, ImmWord(0), &done);
+
+  // Load obj->elements in |scratch|.
+  loadPtr(Address(obj, NativeObject::offsetOfElements()), scratch);
+
+  // If backed by non-shared memory, detached and out-of-bounds both return
+  // zero, so we're done here.
+  branchTest32(Assembler::Zero,
+               Address(scratch, ObjectElements::offsetOfFlags()),
+               Imm32(ObjectElements::SHARED_MEMORY), &done);
+
+  // Load the auto-length slot.
+  unboxBoolean(Address(obj, ArrayBufferViewObject::autoLengthOffset()),
+               scratch);
+
+  // If non-auto length, there's nothing to do.
+  branchTest32(Assembler::Zero, scratch, scratch, &done);
+
+  // Load bufferByteLength into |output|.
+  {
+    // Resizable TypedArrays are guaranteed to have an ArrayBuffer.
+    unboxObject(Address(obj, ArrayBufferViewObject::bufferOffset()), output);
+
+    // Load the byte length from the raw-buffer of growable SharedArrayBuffers.
+    loadGrowableSharedArrayBufferByteLengthIntPtr(sync, output, output);
+  }
+
+  // Load the byteOffset into |scratch|.
+  loadArrayBufferViewByteOffsetIntPtr(obj, scratch);
+
+  // Compute the accessible byte length |bufferByteLength - byteOffset|.
+  subPtr(scratch, output);
+
+  if (view == ResizableArrayBufferView::TypedArray) {
+    // Compute the array length from the byte length.
+    resizableTypedArrayElementShiftBy(obj, output, scratch);
+  }
+
+  bind(&done);
+}
+
+void MacroAssembler::loadResizableTypedArrayByteOffsetMaybeOutOfBoundsIntPtr(
+    Register obj, Register output, Register scratch) {
+  // Inline implementation of TypedArrayObject::byteOffsetMaybeOutOfBounds(),
+  // when the input is guaranteed to be a resizable typed array object.
+
+  loadArrayBufferViewByteOffsetIntPtr(obj, output);
+
+  // TypedArray is neither detached nor out-of-bounds when byteOffset non-zero.
+  Label done;
+  branchPtr(Assembler::NotEqual, output, ImmWord(0), &done);
+
+  // We're done when the initial byteOffset is zero.
+  loadPrivate(Address(obj, ArrayBufferViewObject::initialByteOffsetOffset()),
+              output);
+  branchPtr(Assembler::Equal, output, ImmWord(0), &done);
+
+  // If the buffer is attached, return initialByteOffset.
+  branchIfHasAttachedArrayBuffer(obj, scratch, &done);
+
+  // Otherwise return zero to match the result for fixed-length TypedArrays.
+  movePtr(ImmWord(0), output);
+
+  bind(&done);
+}
+
 void MacroAssembler::loadDOMExpandoValueGuardGeneration(
     Register obj, ValueOperand output,
     JS::ExpandoAndGeneration* expandoAndGeneration, uint64_t generation,
@@ -7433,11 +7523,11 @@ void MacroAssembler::debugAssertCanonicalInt32(Register r) {
 }
 #endif
 
-void MacroAssembler::memoryBarrierBefore(const Synchronization& sync) {
+void MacroAssembler::memoryBarrierBefore(Synchronization sync) {
   memoryBarrier(sync.barrierBefore);
 }
 
-void MacroAssembler::memoryBarrierAfter(const Synchronization& sync) {
+void MacroAssembler::memoryBarrierAfter(Synchronization sync) {
   memoryBarrier(sync.barrierAfter);
 }
 
@@ -7834,6 +7924,74 @@ void MacroAssembler::typedArrayElementSize(Register obj, Register output) {
   bind(&done);
 }
 
+void MacroAssembler::resizableTypedArrayElementShiftBy(Register obj,
+                                                       Register output,
+                                                       Register scratch) {
+  loadObjClassUnsafe(obj, scratch);
+
+#ifdef DEBUG
+  Label invalidClass, validClass;
+  branchPtr(Assembler::Below, scratch,
+            ImmPtr(std::begin(TypedArrayObject::resizableClasses)),
+            &invalidClass);
+  branchPtr(Assembler::Below, scratch,
+            ImmPtr(std::end(TypedArrayObject::resizableClasses)), &validClass);
+  bind(&invalidClass);
+  assumeUnreachable("value isn't a valid ResizableLengthTypedArray class");
+  bind(&validClass);
+#endif
+
+  auto classForType = [](Scalar::Type type) {
+    MOZ_ASSERT(type < Scalar::MaxTypedArrayViewType);
+    return &TypedArrayObject::resizableClasses[type];
+  };
+
+  Label zero, one, two, three;
+
+  static_assert(ValidateSizeRange(Scalar::Int8, Scalar::Int16),
+                "element shift is zero in [Int8, Int16)");
+  branchPtr(Assembler::Below, scratch, ImmPtr(classForType(Scalar::Int16)),
+            &zero);
+
+  static_assert(ValidateSizeRange(Scalar::Int16, Scalar::Int32),
+                "element shift is one in [Int16, Int32)");
+  branchPtr(Assembler::Below, scratch, ImmPtr(classForType(Scalar::Int32)),
+            &one);
+
+  static_assert(ValidateSizeRange(Scalar::Int32, Scalar::Float64),
+                "element shift is two in [Int32, Float64)");
+  branchPtr(Assembler::Below, scratch, ImmPtr(classForType(Scalar::Float64)),
+            &two);
+
+  static_assert(ValidateSizeRange(Scalar::Float64, Scalar::Uint8Clamped),
+                "element shift is three in [Float64, Uint8Clamped)");
+  branchPtr(Assembler::Below, scratch,
+            ImmPtr(classForType(Scalar::Uint8Clamped)), &three);
+
+  static_assert(ValidateSizeRange(Scalar::Uint8Clamped, Scalar::BigInt64),
+                "element shift is zero in [Uint8Clamped, BigInt64)");
+  branchPtr(Assembler::Below, scratch, ImmPtr(classForType(Scalar::BigInt64)),
+            &zero);
+
+  static_assert(
+      ValidateSizeRange(Scalar::BigInt64, Scalar::MaxTypedArrayViewType),
+      "element shift is three in [BigInt64, MaxTypedArrayViewType)");
+  // Fall through for BigInt64 and BigUint64
+
+  bind(&three);
+  rshiftPtr(Imm32(3), output);
+  jump(&zero);
+
+  bind(&two);
+  rshiftPtr(Imm32(2), output);
+  jump(&zero);
+
+  bind(&one);
+  rshiftPtr(Imm32(1), output);
+
+  bind(&zero);
+}
+
 void MacroAssembler::branchIfClassIsNotTypedArray(Register clasp,
                                                   Label* notTypedArray) {
   // Inline implementation of IsTypedArrayClass().
@@ -7867,28 +8025,103 @@ void MacroAssembler::branchIfClassIsNotFixedLengthTypedArray(
             notTypedArray);
 }
 
-void MacroAssembler::branchIfHasDetachedArrayBuffer(Register obj, Register temp,
+void MacroAssembler::branchIfClassIsNotResizableTypedArray(
+    Register clasp, Label* notTypedArray) {
+  // Inline implementation of IsResizableTypedArrayClass().
+
+  const auto* firstTypedArrayClass =
+      std::begin(TypedArrayObject::resizableClasses);
+  const auto* lastTypedArrayClass =
+      std::prev(std::end(TypedArrayObject::resizableClasses));
+
+  branchPtr(Assembler::Below, clasp, ImmPtr(firstTypedArrayClass),
+            notTypedArray);
+  branchPtr(Assembler::Above, clasp, ImmPtr(lastTypedArrayClass),
+            notTypedArray);
+}
+
+void MacroAssembler::branchIfHasDetachedArrayBuffer(BranchIfDetached branchIf,
+                                                    Register obj, Register temp,
                                                     Label* label) {
   // Inline implementation of ArrayBufferViewObject::hasDetachedBuffer().
 
+  // TODO: The data-slot of detached views is set to undefined, which would be
+  // a faster way to detect detached buffers.
+
+  // auto cond = branchIf == BranchIfDetached::Yes ? Assembler::Equal
+  //                                               : Assembler::NotEqual;
+  // branchTestUndefined(cond, Address(obj,
+  //                     ArrayBufferViewObject::dataOffset()), label);
+
+  Label done;
+  Label* ifNotDetached = branchIf == BranchIfDetached::Yes ? &done : label;
+  Condition detachedCond =
+      branchIf == BranchIfDetached::Yes ? Assembler::NonZero : Assembler::Zero;
+
   // Load obj->elements in temp.
   loadPtr(Address(obj, NativeObject::offsetOfElements()), temp);
 
   // Shared buffers can't be detached.
-  Label done;
   branchTest32(Assembler::NonZero,
                Address(temp, ObjectElements::offsetOfFlags()),
-               Imm32(ObjectElements::SHARED_MEMORY), &done);
+               Imm32(ObjectElements::SHARED_MEMORY), ifNotDetached);
 
   // An ArrayBufferView with a null/true buffer has never had its buffer
   // exposed, so nothing can possibly detach it.
   fallibleUnboxObject(Address(obj, ArrayBufferViewObject::bufferOffset()), temp,
-                      &done);
+                      ifNotDetached);
 
-  // Load the ArrayBuffer flags and branch if the detached flag is set.
+  // Load the ArrayBuffer flags and branch if the detached flag is (not) set.
   unboxInt32(Address(temp, ArrayBufferObject::offsetOfFlagsSlot()), temp);
-  branchTest32(Assembler::NonZero, temp, Imm32(ArrayBufferObject::DETACHED),
-               label);
+  branchTest32(detachedCond, temp, Imm32(ArrayBufferObject::DETACHED), label);
+
+  if (branchIf == BranchIfDetached::Yes) {
+    bind(&done);
+  }
+}
+
+void MacroAssembler::branchIfResizableArrayBufferViewOutOfBounds(Register obj,
+                                                                 Register temp,
+                                                                 Label* label) {
+  // Implementation of ArrayBufferViewObject::isOutOfBounds().
+
+  Label done;
+
+  loadArrayBufferViewLengthIntPtr(obj, temp);
+  branchPtr(Assembler::NotEqual, temp, ImmWord(0), &done);
+
+  loadArrayBufferViewByteOffsetIntPtr(obj, temp);
+  branchPtr(Assembler::NotEqual, temp, ImmWord(0), &done);
+
+  loadPrivate(Address(obj, ArrayBufferViewObject::initialLengthOffset()), temp);
+  branchPtr(Assembler::NotEqual, temp, ImmWord(0), label);
+
+  loadPrivate(Address(obj, ArrayBufferViewObject::initialByteOffsetOffset()),
+              temp);
+  branchPtr(Assembler::NotEqual, temp, ImmWord(0), label);
+
+  bind(&done);
+}
+
+void MacroAssembler::branchIfResizableArrayBufferViewInBounds(Register obj,
+                                                              Register temp,
+                                                              Label* label) {
+  // Implementation of ArrayBufferViewObject::isOutOfBounds().
+
+  Label done;
+
+  loadArrayBufferViewLengthIntPtr(obj, temp);
+  branchPtr(Assembler::NotEqual, temp, ImmWord(0), label);
+
+  loadArrayBufferViewByteOffsetIntPtr(obj, temp);
+  branchPtr(Assembler::NotEqual, temp, ImmWord(0), label);
+
+  loadPrivate(Address(obj, ArrayBufferViewObject::initialLengthOffset()), temp);
+  branchPtr(Assembler::NotEqual, temp, ImmWord(0), &done);
+
+  loadPrivate(Address(obj, ArrayBufferViewObject::initialByteOffsetOffset()),
+              temp);
+  branchPtr(Assembler::Equal, temp, ImmWord(0), label);
 
   bind(&done);
 }
diff --git a/js/src/jit/MacroAssembler.h b/js/src/jit/MacroAssembler.h
index 43974a6ccc..361de3ac5f 100644
--- a/js/src/jit/MacroAssembler.h
+++ b/js/src/jit/MacroAssembler.h
@@ -13,6 +13,8 @@
 #include "mozilla/Maybe.h"
 #include "mozilla/Variant.h"
 
+#include <utility>
+
 #if defined(JS_CODEGEN_X86)
 #  include "jit/x86/MacroAssembler-x86.h"
 #elif defined(JS_CODEGEN_X64)
@@ -1784,6 +1786,21 @@ class MacroAssembler : public MacroAssemblerSpecific {
                                  Register scratch, Register spectreRegToZero,
                                  Label* label);
 
+ private:
+  inline void branchTestClass(Condition cond, Register clasp,
+                              std::pair<const JSClass*, const JSClass*> classes,
+                              Label* label);
+
+ public:
+  inline void branchTestObjClass(
+      Condition cond, Register obj,
+      std::pair<const JSClass*, const JSClass*> classes, Register scratch,
+      Register spectreRegToZero, Label* label);
+  inline void branchTestObjClassNoSpectreMitigations(
+      Condition cond, Register obj,
+      std::pair<const JSClass*, const JSClass*> classes, Register scratch,
+      Label* label);
+
   inline void branchTestObjShape(Condition cond, Register obj,
                                  const Shape* shape, Register scratch,
                                  Register spectreRegToZero, Label* label);
@@ -4191,23 +4208,23 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // MIPS: `valueTemp`, `offsetTemp` and `maskTemp` must be defined for 8-bit
   // and 16-bit wide operations.
 
-  void compareExchange(Scalar::Type type, const Synchronization& sync,
+  void compareExchange(Scalar::Type type, Synchronization sync,
                        const Address& mem, Register expected,
                        Register replacement, Register output)
       DEFINED_ON(arm, arm64, x86_shared);
 
-  void compareExchange(Scalar::Type type, const Synchronization& sync,
+  void compareExchange(Scalar::Type type, Synchronization sync,
                        const BaseIndex& mem, Register expected,
                        Register replacement, Register output)
       DEFINED_ON(arm, arm64, x86_shared);
 
-  void compareExchange(Scalar::Type type, const Synchronization& sync,
+  void compareExchange(Scalar::Type type, Synchronization sync,
                        const Address& mem, Register expected,
                        Register replacement, Register valueTemp,
                        Register offsetTemp, Register maskTemp, Register output)
       DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void compareExchange(Scalar::Type type, const Synchronization& sync,
+  void compareExchange(Scalar::Type type, Synchronization sync,
                        const BaseIndex& mem, Register expected,
                        Register replacement, Register valueTemp,
                        Register offsetTemp, Register maskTemp, Register output)
@@ -4218,12 +4235,12 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // ARM: Registers must be distinct; `replacement` and `output` must be
   // (even,odd) pairs.
 
-  void compareExchange64(const Synchronization& sync, const Address& mem,
+  void compareExchange64(Synchronization sync, const Address& mem,
                          Register64 expected, Register64 replacement,
                          Register64 output)
       DEFINED_ON(arm, arm64, x64, x86, mips64, loong64, riscv64);
 
-  void compareExchange64(const Synchronization& sync, const BaseIndex& mem,
+  void compareExchange64(Synchronization sync, const BaseIndex& mem,
                          Register64 expected, Register64 replacement,
                          Register64 output)
       DEFINED_ON(arm, arm64, x64, x86, mips64, loong64, riscv64);
@@ -4232,20 +4249,20 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // MIPS: `valueTemp`, `offsetTemp` and `maskTemp` must be defined for 8-bit
   // and 16-bit wide operations.
 
-  void atomicExchange(Scalar::Type type, const Synchronization& sync,
+  void atomicExchange(Scalar::Type type, Synchronization sync,
                       const Address& mem, Register value, Register output)
       DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicExchange(Scalar::Type type, const Synchronization& sync,
+  void atomicExchange(Scalar::Type type, Synchronization sync,
                       const BaseIndex& mem, Register value, Register output)
       DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicExchange(Scalar::Type type, const Synchronization& sync,
+  void atomicExchange(Scalar::Type type, Synchronization sync,
                       const Address& mem, Register value, Register valueTemp,
                       Register offsetTemp, Register maskTemp, Register output)
       DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void atomicExchange(Scalar::Type type, const Synchronization& sync,
+  void atomicExchange(Scalar::Type type, Synchronization sync,
                       const BaseIndex& mem, Register value, Register valueTemp,
                       Register offsetTemp, Register maskTemp, Register output)
       DEFINED_ON(mips_shared, loong64, riscv64);
@@ -4254,11 +4271,11 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // ARM: `value` and `output` must be distinct and (even,odd) pairs.
   // ARM64: `value` and `output` must be distinct.
 
-  void atomicExchange64(const Synchronization& sync, const Address& mem,
+  void atomicExchange64(Synchronization sync, const Address& mem,
                         Register64 value, Register64 output)
       DEFINED_ON(arm, arm64, x64, x86, mips64, loong64, riscv64);
 
-  void atomicExchange64(const Synchronization& sync, const BaseIndex& mem,
+  void atomicExchange64(Synchronization sync, const BaseIndex& mem,
                         Register64 value, Register64 output)
       DEFINED_ON(arm, arm64, x64, x86, mips64, loong64, riscv64);
 
@@ -4275,33 +4292,31 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // MIPS: `valueTemp`, `offsetTemp` and `maskTemp` must be defined for 8-bit
   // and 16-bit wide operations; `value` and `output` must differ.
 
-  void atomicFetchOp(Scalar::Type type, const Synchronization& sync,
-                     AtomicOp op, Register value, const Address& mem,
-                     Register temp, Register output)
-      DEFINED_ON(arm, arm64, x86_shared);
+  void atomicFetchOp(Scalar::Type type, Synchronization sync, AtomicOp op,
+                     Register value, const Address& mem, Register temp,
+                     Register output) DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicFetchOp(Scalar::Type type, const Synchronization& sync,
-                     AtomicOp op, Imm32 value, const Address& mem,
-                     Register temp, Register output) DEFINED_ON(x86_shared);
+  void atomicFetchOp(Scalar::Type type, Synchronization sync, AtomicOp op,
+                     Imm32 value, const Address& mem, Register temp,
+                     Register output) DEFINED_ON(x86_shared);
 
-  void atomicFetchOp(Scalar::Type type, const Synchronization& sync,
-                     AtomicOp op, Register value, const BaseIndex& mem,
-                     Register temp, Register output)
-      DEFINED_ON(arm, arm64, x86_shared);
+  void atomicFetchOp(Scalar::Type type, Synchronization sync, AtomicOp op,
+                     Register value, const BaseIndex& mem, Register temp,
+                     Register output) DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicFetchOp(Scalar::Type type, const Synchronization& sync,
-                     AtomicOp op, Imm32 value, const BaseIndex& mem,
-                     Register temp, Register output) DEFINED_ON(x86_shared);
+  void atomicFetchOp(Scalar::Type type, Synchronization sync, AtomicOp op,
+                     Imm32 value, const BaseIndex& mem, Register temp,
+                     Register output) DEFINED_ON(x86_shared);
 
-  void atomicFetchOp(Scalar::Type type, const Synchronization& sync,
-                     AtomicOp op, Register value, const Address& mem,
-                     Register valueTemp, Register offsetTemp, Register maskTemp,
-                     Register output) DEFINED_ON(mips_shared, loong64, riscv64);
+  void atomicFetchOp(Scalar::Type type, Synchronization sync, AtomicOp op,
+                     Register value, const Address& mem, Register valueTemp,
+                     Register offsetTemp, Register maskTemp, Register output)
+      DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void atomicFetchOp(Scalar::Type type, const Synchronization& sync,
-                     AtomicOp op, Register value, const BaseIndex& mem,
-                     Register valueTemp, Register offsetTemp, Register maskTemp,
-                     Register output) DEFINED_ON(mips_shared, loong64, riscv64);
+  void atomicFetchOp(Scalar::Type type, Synchronization sync, AtomicOp op,
+                     Register value, const BaseIndex& mem, Register valueTemp,
+                     Register offsetTemp, Register maskTemp, Register output)
+      DEFINED_ON(mips_shared, loong64, riscv64);
 
   // x86:
   //   `temp` must be ecx:ebx; `output` must be edx:eax.
@@ -4313,23 +4328,21 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // ARM64:
   //   Registers `value`, `temp`, and `output` must all differ.
 
-  void atomicFetchOp64(const Synchronization& sync, AtomicOp op,
-                       Register64 value, const Address& mem, Register64 temp,
-                       Register64 output)
+  void atomicFetchOp64(Synchronization sync, AtomicOp op, Register64 value,
+                       const Address& mem, Register64 temp, Register64 output)
       DEFINED_ON(arm, arm64, x64, mips64, loong64, riscv64);
 
-  void atomicFetchOp64(const Synchronization& sync, AtomicOp op,
-                       const Address& value, const Address& mem,
-                       Register64 temp, Register64 output) DEFINED_ON(x86);
+  void atomicFetchOp64(Synchronization sync, AtomicOp op, const Address& value,
+                       const Address& mem, Register64 temp, Register64 output)
+      DEFINED_ON(x86);
 
-  void atomicFetchOp64(const Synchronization& sync, AtomicOp op,
-                       Register64 value, const BaseIndex& mem, Register64 temp,
-                       Register64 output)
+  void atomicFetchOp64(Synchronization sync, AtomicOp op, Register64 value,
+                       const BaseIndex& mem, Register64 temp, Register64 output)
       DEFINED_ON(arm, arm64, x64, mips64, loong64, riscv64);
 
-  void atomicFetchOp64(const Synchronization& sync, AtomicOp op,
-                       const Address& value, const BaseIndex& mem,
-                       Register64 temp, Register64 output) DEFINED_ON(x86);
+  void atomicFetchOp64(Synchronization sync, AtomicOp op, const Address& value,
+                       const BaseIndex& mem, Register64 temp, Register64 output)
+      DEFINED_ON(x86);
 
   // x64:
   //   `value` can be any register.
@@ -4338,18 +4351,18 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // ARM64:
   //   Registers `value` and `temp` must differ.
 
-  void atomicEffectOp64(const Synchronization& sync, AtomicOp op,
-                        Register64 value, const Address& mem) DEFINED_ON(x64);
+  void atomicEffectOp64(Synchronization sync, AtomicOp op, Register64 value,
+                        const Address& mem) DEFINED_ON(x64);
 
-  void atomicEffectOp64(const Synchronization& sync, AtomicOp op,
-                        Register64 value, const Address& mem, Register64 temp)
+  void atomicEffectOp64(Synchronization sync, AtomicOp op, Register64 value,
+                        const Address& mem, Register64 temp)
       DEFINED_ON(arm, arm64, mips64, loong64, riscv64);
 
-  void atomicEffectOp64(const Synchronization& sync, AtomicOp op,
-                        Register64 value, const BaseIndex& mem) DEFINED_ON(x64);
+  void atomicEffectOp64(Synchronization sync, AtomicOp op, Register64 value,
+                        const BaseIndex& mem) DEFINED_ON(x64);
 
-  void atomicEffectOp64(const Synchronization& sync, AtomicOp op,
-                        Register64 value, const BaseIndex& mem, Register64 temp)
+  void atomicEffectOp64(Synchronization sync, AtomicOp op, Register64 value,
+                        const BaseIndex& mem, Register64 temp)
       DEFINED_ON(arm, arm64, mips64, loong64, riscv64);
 
   // 64-bit atomic load. On 64-bit systems, use regular load with
@@ -4358,16 +4371,16 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // x86: `temp` must be ecx:ebx; `output` must be edx:eax.
   // ARM: `output` must be (even,odd) pair.
 
-  void atomicLoad64(const Synchronization& sync, const Address& mem,
-                    Register64 temp, Register64 output) DEFINED_ON(x86);
+  void atomicLoad64(Synchronization sync, const Address& mem, Register64 temp,
+                    Register64 output) DEFINED_ON(x86);
 
-  void atomicLoad64(const Synchronization& sync, const BaseIndex& mem,
-                    Register64 temp, Register64 output) DEFINED_ON(x86);
+  void atomicLoad64(Synchronization sync, const BaseIndex& mem, Register64 temp,
+                    Register64 output) DEFINED_ON(x86);
 
-  void atomicLoad64(const Synchronization& sync, const Address& mem,
-                    Register64 output) DEFINED_ON(arm);
+  void atomicLoad64(Synchronization sync, const Address& mem, Register64 output)
+      DEFINED_ON(arm);
 
-  void atomicLoad64(const Synchronization& sync, const BaseIndex& mem,
+  void atomicLoad64(Synchronization sync, const BaseIndex& mem,
                     Register64 output) DEFINED_ON(arm);
 
   // 64-bit atomic store. On 64-bit systems, use regular store with
@@ -4376,10 +4389,10 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // x86: `value` must be ecx:ebx; `temp` must be edx:eax.
   // ARM: `value` and `temp` must be (even,odd) pairs.
 
-  void atomicStore64(const Synchronization& sync, const Address& mem,
-                     Register64 value, Register64 temp) DEFINED_ON(x86, arm);
+  void atomicStore64(Synchronization sync, const Address& mem, Register64 value,
+                     Register64 temp) DEFINED_ON(x86, arm);
 
-  void atomicStore64(const Synchronization& sync, const BaseIndex& mem,
+  void atomicStore64(Synchronization sync, const BaseIndex& mem,
                      Register64 value, Register64 temp) DEFINED_ON(x86, arm);
 
   // ========================================================================
@@ -4594,105 +4607,105 @@ class MacroAssembler : public MacroAssemblerSpecific {
   // For additional register constraints, see the primitive 32-bit operations
   // and/or wasm operations above.
 
-  void compareExchangeJS(Scalar::Type arrayType, const Synchronization& sync,
+  void compareExchangeJS(Scalar::Type arrayType, Synchronization sync,
                          const Address& mem, Register expected,
                          Register replacement, Register temp,
                          AnyRegister output) DEFINED_ON(arm, arm64, x86_shared);
 
-  void compareExchangeJS(Scalar::Type arrayType, const Synchronization& sync,
+  void compareExchangeJS(Scalar::Type arrayType, Synchronization sync,
                          const BaseIndex& mem, Register expected,
                          Register replacement, Register temp,
                          AnyRegister output) DEFINED_ON(arm, arm64, x86_shared);
 
-  void compareExchangeJS(Scalar::Type arrayType, const Synchronization& sync,
+  void compareExchangeJS(Scalar::Type arrayType, Synchronization sync,
                          const Address& mem, Register expected,
                          Register replacement, Register valueTemp,
                          Register offsetTemp, Register maskTemp, Register temp,
                          AnyRegister output)
       DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void compareExchangeJS(Scalar::Type arrayType, const Synchronization& sync,
+  void compareExchangeJS(Scalar::Type arrayType, Synchronization sync,
                          const BaseIndex& mem, Register expected,
                          Register replacement, Register valueTemp,
                          Register offsetTemp, Register maskTemp, Register temp,
                          AnyRegister output)
       DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void atomicExchangeJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicExchangeJS(Scalar::Type arrayType, Synchronization sync,
                         const Address& mem, Register value, Register temp,
                         AnyRegister output) DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicExchangeJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicExchangeJS(Scalar::Type arrayType, Synchronization sync,
                         const BaseIndex& mem, Register value, Register temp,
                         AnyRegister output) DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicExchangeJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicExchangeJS(Scalar::Type arrayType, Synchronization sync,
                         const Address& mem, Register value, Register valueTemp,
                         Register offsetTemp, Register maskTemp, Register temp,
                         AnyRegister output)
       DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void atomicExchangeJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicExchangeJS(Scalar::Type arrayType, Synchronization sync,
                         const BaseIndex& mem, Register value,
                         Register valueTemp, Register offsetTemp,
                         Register maskTemp, Register temp, AnyRegister output)
       DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void atomicFetchOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicFetchOpJS(Scalar::Type arrayType, Synchronization sync,
                        AtomicOp op, Register value, const Address& mem,
                        Register temp1, Register temp2, AnyRegister output)
       DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicFetchOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicFetchOpJS(Scalar::Type arrayType, Synchronization sync,
                        AtomicOp op, Register value, const BaseIndex& mem,
                        Register temp1, Register temp2, AnyRegister output)
       DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicFetchOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicFetchOpJS(Scalar::Type arrayType, Synchronization sync,
                        AtomicOp op, Imm32 value, const Address& mem,
                        Register temp1, Register temp2, AnyRegister output)
       DEFINED_ON(x86_shared);
 
-  void atomicFetchOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicFetchOpJS(Scalar::Type arrayType, Synchronization sync,
                        AtomicOp op, Imm32 value, const BaseIndex& mem,
                        Register temp1, Register temp2, AnyRegister output)
       DEFINED_ON(x86_shared);
 
-  void atomicFetchOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicFetchOpJS(Scalar::Type arrayType, Synchronization sync,
                        AtomicOp op, Register value, const Address& mem,
                        Register valueTemp, Register offsetTemp,
                        Register maskTemp, Register temp, AnyRegister output)
       DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void atomicFetchOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicFetchOpJS(Scalar::Type arrayType, Synchronization sync,
                        AtomicOp op, Register value, const BaseIndex& mem,
                        Register valueTemp, Register offsetTemp,
                        Register maskTemp, Register temp, AnyRegister output)
       DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void atomicEffectOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicEffectOpJS(Scalar::Type arrayType, Synchronization sync,
                         AtomicOp op, Register value, const Address& mem,
                         Register temp) DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicEffectOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicEffectOpJS(Scalar::Type arrayType, Synchronization sync,
                         AtomicOp op, Register value, const BaseIndex& mem,
                         Register temp) DEFINED_ON(arm, arm64, x86_shared);
 
-  void atomicEffectOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicEffectOpJS(Scalar::Type arrayType, Synchronization sync,
                         AtomicOp op, Imm32 value, const Address& mem,
                         Register temp) DEFINED_ON(x86_shared);
 
-  void atomicEffectOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicEffectOpJS(Scalar::Type arrayType, Synchronization sync,
                         AtomicOp op, Imm32 value, const BaseIndex& mem,
                         Register temp) DEFINED_ON(x86_shared);
 
-  void atomicEffectOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicEffectOpJS(Scalar::Type arrayType, Synchronization sync,
                         AtomicOp op, Register value, const Address& mem,
                         Register valueTemp, Register offsetTemp,
                         Register maskTemp)
       DEFINED_ON(mips_shared, loong64, riscv64);
 
-  void atomicEffectOpJS(Scalar::Type arrayType, const Synchronization& sync,
+  void atomicEffectOpJS(Scalar::Type arrayType, Synchronization sync,
                         AtomicOp op, Register value, const BaseIndex& mem,
                         Register valueTemp, Register offsetTemp,
                         Register maskTemp)
@@ -5245,8 +5258,8 @@ class MacroAssembler : public MacroAssemblerSpecific {
   void storeToTypedBigIntArray(Scalar::Type arrayType, Register64 value,
                                const Address& dest);
 
-  void memoryBarrierBefore(const Synchronization& sync);
-  void memoryBarrierAfter(const Synchronization& sync);
+  void memoryBarrierBefore(Synchronization sync);
+  void memoryBarrierAfter(Synchronization sync);
 
   void debugAssertIsObject(const ValueOperand& val);
   void debugAssertObjHasFixedSlots(Register obj, Register scratch);
@@ -5284,12 +5297,41 @@ class MacroAssembler : public MacroAssemblerSpecific {
                                       Label* label);
 
   void typedArrayElementSize(Register obj, Register output);
+
+ private:
+  // Shift |output| by the element shift of the ResizableTypedArray in |obj|.
+  void resizableTypedArrayElementShiftBy(Register obj, Register output,
+                                         Register scratch);
+
+ public:
   void branchIfClassIsNotTypedArray(Register clasp, Label* notTypedArray);
   void branchIfClassIsNotFixedLengthTypedArray(Register clasp,
                                                Label* notTypedArray);
+  void branchIfClassIsNotResizableTypedArray(Register clasp,
+                                             Label* notTypedArray);
+
+ private:
+  enum class BranchIfDetached { No, Yes };
+
+  void branchIfHasDetachedArrayBuffer(BranchIfDetached branchIf, Register obj,
+                                      Register temp, Label* label);
 
+ public:
   void branchIfHasDetachedArrayBuffer(Register obj, Register temp,
-                                      Label* label);
+                                      Label* label) {
+    branchIfHasDetachedArrayBuffer(BranchIfDetached::Yes, obj, temp, label);
+  }
+
+  void branchIfHasAttachedArrayBuffer(Register obj, Register temp,
+                                      Label* label) {
+    branchIfHasDetachedArrayBuffer(BranchIfDetached::No, obj, temp, label);
+  }
+
+  void branchIfResizableArrayBufferViewOutOfBounds(Register obj, Register temp,
+                                                   Label* label);
+
+  void branchIfResizableArrayBufferViewInBounds(Register obj, Register temp,
+                                                Label* label);
 
   void branchIfNativeIteratorNotReusable(Register ni, Label* notReusable);
   void branchNativeIteratorIndices(Condition cond, Register ni, Register temp,
@@ -5560,7 +5602,7 @@ class MacroAssembler : public MacroAssemblerSpecific {
 
   void loadMegamorphicCache(Register dest);
   void lookupStringInAtomCacheLastLookups(Register str, Register scratch,
-                                          Label* fail);
+                                          Register output, Label* fail);
   void loadMegamorphicSetPropCache(Register dest);
 
   void loadAtomOrSymbolAndHash(ValueOperand value, Register outId,
@@ -5627,6 +5669,35 @@ class MacroAssembler : public MacroAssemblerSpecific {
   void loadArrayBufferViewByteOffsetIntPtr(Register obj, Register output);
   void loadArrayBufferViewLengthIntPtr(Register obj, Register output);
 
+  void loadGrowableSharedArrayBufferByteLengthIntPtr(Synchronization sync,
+                                                     Register obj,
+                                                     Register output);
+
+ private:
+  enum class ResizableArrayBufferView { TypedArray, DataView };
+
+  void loadResizableArrayBufferViewLengthIntPtr(ResizableArrayBufferView view,
+                                                Synchronization sync,
+                                                Register obj, Register output,
+                                                Register scratch);
+
+ public:
+  void loadResizableTypedArrayLengthIntPtr(Synchronization sync, Register obj,
+                                           Register output, Register scratch) {
+    loadResizableArrayBufferViewLengthIntPtr(
+        ResizableArrayBufferView::TypedArray, sync, obj, output, scratch);
+  }
+
+  void loadResizableDataViewByteLengthIntPtr(Synchronization sync, Register obj,
+                                             Register output,
+                                             Register scratch) {
+    loadResizableArrayBufferViewLengthIntPtr(ResizableArrayBufferView::DataView,
+                                             sync, obj, output, scratch);
+  }
+
+  void loadResizableTypedArrayByteOffsetMaybeOutOfBoundsIntPtr(
+      Register obj, Register output, Register scratch);
+
  private:
   void isCallableOrConstructor(bool isCallable, Register obj, Register output,
                                Label* isProxy);
diff --git a/js/src/jit/PcScriptCache.h b/js/src/jit/PcScriptCache.h
deleted file mode 100644
index c83c479c85..0000000000
--- a/js/src/jit/PcScriptCache.h
+++ /dev/null
@@ -1,88 +0,0 @@
-/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
- * vim: set ts=8 sts=2 et sw=2 tw=80:
- * This Source Code Form is subject to the terms of the Mozilla Public
- * License, v. 2.0. If a copy of the MPL was not distributed with this
- * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
-
-#ifndef jit_PcScriptCache_h
-#define jit_PcScriptCache_h
-
-#include "mozilla/Array.h"
-#include "js/TypeDecls.h"
-#include "vm/Runtime.h"
-
-// Defines a fixed-size hash table solely for the purpose of caching
-// jit::GetPcScript(). One cache is attached to each JSRuntime; it functions as
-// if cleared on GC.
-
-namespace js {
-namespace jit {
-
-struct PcScriptCacheEntry {
-  uint8_t* returnAddress;  // Key into the hash table.
-  jsbytecode* pc;          // Cached PC.
-  JSScript* script;        // Cached script.
-};
-
-struct PcScriptCache {
- private:
-  static const uint32_t Length = 73;
-
-  // GC number at the time the cache was filled or created.
-  // Storing and checking against this number allows us to not bother
-  // clearing this cache on every GC -- only when actually necessary.
-  uint64_t gcNumber;
-
-  // List of cache entries.
-  mozilla::Array<PcScriptCacheEntry, Length> entries;
-
- public:
-  explicit PcScriptCache(uint64_t gcNumber) { clear(gcNumber); }
-
-  void clear(uint64_t gcNumber) {
-    for (uint32_t i = 0; i < Length; i++) {
-      entries[i].returnAddress = nullptr;
-    }
-    this->gcNumber = gcNumber;
-  }
-
-  // Get a value from the cache. May perform lazy allocation.
-  [[nodiscard]] bool get(JSRuntime* rt, uint32_t hash, uint8_t* addr,
-                         JSScript** scriptRes, jsbytecode** pcRes) {
-    // If a GC occurred, lazily clear the cache now.
-    if (gcNumber != rt->gc.gcNumber()) {
-      clear(rt->gc.gcNumber());
-      return false;
-    }
-
-    if (entries[hash].returnAddress != addr) {
-      return false;
-    }
-
-    *scriptRes = entries[hash].script;
-    if (pcRes) {
-      *pcRes = entries[hash].pc;
-    }
-
-    return true;
-  }
-
-  void add(uint32_t hash, uint8_t* addr, jsbytecode* pc, JSScript* script) {
-    MOZ_ASSERT(addr);
-    MOZ_ASSERT(pc);
-    MOZ_ASSERT(script);
-    entries[hash].returnAddress = addr;
-    entries[hash].pc = pc;
-    entries[hash].script = script;
-  }
-
-  static uint32_t Hash(uint8_t* addr) {
-    uint32_t key = (uint32_t)((uintptr_t)addr);
-    return ((key >> 3) * 2654435761u) % Length;
-  }
-};
-
-}  // namespace jit
-}  // namespace js
-
-#endif /* jit_PcScriptCache_h */
diff --git a/js/src/jit/RangeAnalysis.cpp b/js/src/jit/RangeAnalysis.cpp
index 4ed15daabb..bd8380a690 100644
--- a/js/src/jit/RangeAnalysis.cpp
+++ b/js/src/jit/RangeAnalysis.cpp
@@ -1802,6 +1802,25 @@ void MArrayBufferViewByteOffset::computeRange(TempAllocator& alloc) {
   }
 }
 
+void MResizableTypedArrayByteOffsetMaybeOutOfBounds::computeRange(
+    TempAllocator& alloc) {
+  if constexpr (ArrayBufferObject::ByteLengthLimit <= INT32_MAX) {
+    setRange(Range::NewUInt32Range(alloc, 0, INT32_MAX));
+  }
+}
+
+void MResizableTypedArrayLength::computeRange(TempAllocator& alloc) {
+  if constexpr (ArrayBufferObject::ByteLengthLimit <= INT32_MAX) {
+    setRange(Range::NewUInt32Range(alloc, 0, INT32_MAX));
+  }
+}
+
+void MResizableDataViewByteLength::computeRange(TempAllocator& alloc) {
+  if constexpr (ArrayBufferObject::ByteLengthLimit <= INT32_MAX) {
+    setRange(Range::NewUInt32Range(alloc, 0, INT32_MAX));
+  }
+}
+
 void MTypedArrayElementSize::computeRange(TempAllocator& alloc) {
   constexpr auto MaxTypedArraySize = sizeof(double);
 
diff --git a/js/src/jit/Recover.cpp b/js/src/jit/Recover.cpp
index e70722bffe..220ffe7bb2 100644
--- a/js/src/jit/Recover.cpp
+++ b/js/src/jit/Recover.cpp
@@ -11,6 +11,7 @@
 #include "builtin/Object.h"
 #include "builtin/RegExp.h"
 #include "builtin/String.h"
+#include "jit/AtomicOperations.h"
 #include "jit/Bailouts.h"
 #include "jit/CompileInfo.h"
 #include "jit/Ion.h"
@@ -2013,15 +2014,11 @@ bool MAtomicIsLockFree::writeRecoverData(CompactBufferWriter& writer) const {
 RAtomicIsLockFree::RAtomicIsLockFree(CompactBufferReader& reader) {}
 
 bool RAtomicIsLockFree::recover(JSContext* cx, SnapshotIterator& iter) const {
-  RootedValue operand(cx, iter.read());
+  Value operand = iter.read();
   MOZ_ASSERT(operand.isInt32());
 
-  int32_t result;
-  if (!js::AtomicIsLockFree(cx, operand, &result)) {
-    return false;
-  }
-
-  iter.storeInstructionResult(Int32Value(result));
+  bool result = AtomicOperations::isLockfreeJS(operand.toInt32());
+  iter.storeInstructionResult(BooleanValue(result));
   return true;
 }
 
diff --git a/js/src/jit/Registers.h b/js/src/jit/Registers.h
index 1ae9c1954c..43e94e6bff 100644
--- a/js/src/jit/Registers.h
+++ b/js/src/jit/Registers.h
@@ -205,6 +205,7 @@ struct Register64 {
     return high != other.high || low != other.low;
   }
   Register scratchReg() { return high; }
+  Register secondScratchReg() { return low; }
   static Register64 Invalid() {
     return Register64(Register::Invalid(), Register::Invalid());
   }
diff --git a/js/src/jit/VMFunctions.cpp b/js/src/jit/VMFunctions.cpp
index 29777d08c7..ed3f63c88c 100644
--- a/js/src/jit/VMFunctions.cpp
+++ b/js/src/jit/VMFunctions.cpp
@@ -2557,13 +2557,14 @@ BigInt* BigIntAsUintN(JSContext* cx, HandleBigInt x, int32_t bits) {
 }
 
 template <typename T>
-static int32_t AtomicsCompareExchange(FixedLengthTypedArrayObject* typedArray,
+static int32_t AtomicsCompareExchange(TypedArrayObject* typedArray,
                                       size_t index, int32_t expected,
                                       int32_t replacement) {
   AutoUnsafeCallWithABI unsafe;
 
   MOZ_ASSERT(!typedArray->hasDetachedBuffer());
-  MOZ_ASSERT(index < typedArray->length());
+  MOZ_ASSERT_IF(typedArray->hasResizableBuffer(), !typedArray->isOutOfBounds());
+  MOZ_ASSERT(index < typedArray->length().valueOr(0));
 
   SharedMem<T*> addr = typedArray->dataPointerEither().cast<T*>();
   return jit::AtomicOperations::compareExchangeSeqCst(addr + index, T(expected),
@@ -2590,12 +2591,13 @@ AtomicsCompareExchangeFn AtomicsCompareExchange(Scalar::Type elementType) {
 }
 
 template <typename T>
-static int32_t AtomicsExchange(FixedLengthTypedArrayObject* typedArray,
-                               size_t index, int32_t value) {
+static int32_t AtomicsExchange(TypedArrayObject* typedArray, size_t index,
+                               int32_t value) {
   AutoUnsafeCallWithABI unsafe;
 
   MOZ_ASSERT(!typedArray->hasDetachedBuffer());
-  MOZ_ASSERT(index < typedArray->length());
+  MOZ_ASSERT_IF(typedArray->hasResizableBuffer(), !typedArray->isOutOfBounds());
+  MOZ_ASSERT(index < typedArray->length().valueOr(0));
 
   SharedMem<T*> addr = typedArray->dataPointerEither().cast<T*>();
   return jit::AtomicOperations::exchangeSeqCst(addr + index, T(value));
@@ -2621,12 +2623,13 @@ AtomicsReadWriteModifyFn AtomicsExchange(Scalar::Type elementType) {
 }
 
 template <typename T>
-static int32_t AtomicsAdd(FixedLengthTypedArrayObject* typedArray, size_t index,
+static int32_t AtomicsAdd(TypedArrayObject* typedArray, size_t index,
                           int32_t value) {
   AutoUnsafeCallWithABI unsafe;
 
   MOZ_ASSERT(!typedArray->hasDetachedBuffer());
-  MOZ_ASSERT(index < typedArray->length());
+  MOZ_ASSERT_IF(typedArray->hasResizableBuffer(), !typedArray->isOutOfBounds());
+  MOZ_ASSERT(index < typedArray->length().valueOr(0));
 
   SharedMem<T*> addr = typedArray->dataPointerEither().cast<T*>();
   return jit::AtomicOperations::fetchAddSeqCst(addr + index, T(value));
@@ -2652,12 +2655,13 @@ AtomicsReadWriteModifyFn AtomicsAdd(Scalar::Type elementType) {
 }
 
 template <typename T>
-static int32_t AtomicsSub(FixedLengthTypedArrayObject* typedArray, size_t index,
+static int32_t AtomicsSub(TypedArrayObject* typedArray, size_t index,
                           int32_t value) {
   AutoUnsafeCallWithABI unsafe;
 
   MOZ_ASSERT(!typedArray->hasDetachedBuffer());
-  MOZ_ASSERT(index < typedArray->length());
+  MOZ_ASSERT_IF(typedArray->hasResizableBuffer(), !typedArray->isOutOfBounds());
+  MOZ_ASSERT(index < typedArray->length().valueOr(0));
 
   SharedMem<T*> addr = typedArray->dataPointerEither().cast<T*>();
   return jit::AtomicOperations::fetchSubSeqCst(addr + index, T(value));
@@ -2683,12 +2687,13 @@ AtomicsReadWriteModifyFn AtomicsSub(Scalar::Type elementType) {
 }
 
 template <typename T>
-static int32_t AtomicsAnd(FixedLengthTypedArrayObject* typedArray, size_t index,
+static int32_t AtomicsAnd(TypedArrayObject* typedArray, size_t index,
                           int32_t value) {
   AutoUnsafeCallWithABI unsafe;
 
   MOZ_ASSERT(!typedArray->hasDetachedBuffer());
-  MOZ_ASSERT(index < typedArray->length());
+  MOZ_ASSERT_IF(typedArray->hasResizableBuffer(), !typedArray->isOutOfBounds());
+  MOZ_ASSERT(index < typedArray->length().valueOr(0));
 
   SharedMem<T*> addr = typedArray->dataPointerEither().cast<T*>();
   return jit::AtomicOperations::fetchAndSeqCst(addr + index, T(value));
@@ -2714,12 +2719,13 @@ AtomicsReadWriteModifyFn AtomicsAnd(Scalar::Type elementType) {
 }
 
 template <typename T>
-static int32_t AtomicsOr(FixedLengthTypedArrayObject* typedArray, size_t index,
+static int32_t AtomicsOr(TypedArrayObject* typedArray, size_t index,
                          int32_t value) {
   AutoUnsafeCallWithABI unsafe;
 
   MOZ_ASSERT(!typedArray->hasDetachedBuffer());
-  MOZ_ASSERT(index < typedArray->length());
+  MOZ_ASSERT_IF(typedArray->hasResizableBuffer(), !typedArray->isOutOfBounds());
+  MOZ_ASSERT(index < typedArray->length().valueOr(0));
 
   SharedMem<T*> addr = typedArray->dataPointerEither().cast<T*>();
   return jit::AtomicOperations::fetchOrSeqCst(addr + index, T(value));
@@ -2745,12 +2751,13 @@ AtomicsReadWriteModifyFn AtomicsOr(Scalar::Type elementType) {
 }
 
 template <typename T>
-static int32_t AtomicsXor(FixedLengthTypedArrayObject* typedArray, size_t index,
+static int32_t AtomicsXor(TypedArrayObject* typedArray, size_t index,
                           int32_t value) {
   AutoUnsafeCallWithABI unsafe;
 
   MOZ_ASSERT(!typedArray->hasDetachedBuffer());
-  MOZ_ASSERT(index < typedArray->length());
+  MOZ_ASSERT_IF(typedArray->hasResizableBuffer(), !typedArray->isOutOfBounds());
+  MOZ_ASSERT(index < typedArray->length().valueOr(0));
 
   SharedMem<T*> addr = typedArray->dataPointerEither().cast<T*>();
   return jit::AtomicOperations::fetchXorSeqCst(addr + index, T(value));
@@ -2776,12 +2783,12 @@ AtomicsReadWriteModifyFn AtomicsXor(Scalar::Type elementType) {
 }
 
 template <typename AtomicOp, typename... Args>
-static BigInt* AtomicAccess64(JSContext* cx,
-                              FixedLengthTypedArrayObject* typedArray,
+static BigInt* AtomicAccess64(JSContext* cx, TypedArrayObject* typedArray,
                               size_t index, AtomicOp op, Args... args) {
   MOZ_ASSERT(Scalar::isBigIntType(typedArray->type()));
   MOZ_ASSERT(!typedArray->hasDetachedBuffer());
-  MOZ_ASSERT(index < typedArray->length());
+  MOZ_ASSERT_IF(typedArray->hasResizableBuffer(), !typedArray->isOutOfBounds());
+  MOZ_ASSERT(index < typedArray->length().valueOr(0));
 
   if (typedArray->type() == Scalar::BigInt64) {
     SharedMem<int64_t*> addr = typedArray->dataPointerEither().cast<int64_t*>();
@@ -2795,11 +2802,12 @@ static BigInt* AtomicAccess64(JSContext* cx,
 }
 
 template <typename AtomicOp, typename... Args>
-static auto AtomicAccess64(FixedLengthTypedArrayObject* typedArray,
-                           size_t index, AtomicOp op, Args... args) {
+static auto AtomicAccess64(TypedArrayObject* typedArray, size_t index,
+                           AtomicOp op, Args... args) {
   MOZ_ASSERT(Scalar::isBigIntType(typedArray->type()));
   MOZ_ASSERT(!typedArray->hasDetachedBuffer());
-  MOZ_ASSERT(index < typedArray->length());
+  MOZ_ASSERT_IF(typedArray->hasResizableBuffer(), !typedArray->isOutOfBounds());
+  MOZ_ASSERT(index < typedArray->length().valueOr(0));
 
   if (typedArray->type() == Scalar::BigInt64) {
     SharedMem<int64_t*> addr = typedArray->dataPointerEither().cast<int64_t*>();
@@ -2810,14 +2818,14 @@ static auto AtomicAccess64(FixedLengthTypedArrayObject* typedArray,
   return op(addr + index, BigInt::toUint64(args)...);
 }
 
-BigInt* AtomicsLoad64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
+BigInt* AtomicsLoad64(JSContext* cx, TypedArrayObject* typedArray,
                       size_t index) {
   return AtomicAccess64(cx, typedArray, index, [](auto addr) {
     return jit::AtomicOperations::loadSeqCst(addr);
   });
 }
 
-void AtomicsStore64(FixedLengthTypedArrayObject* typedArray, size_t index,
+void AtomicsStore64(TypedArrayObject* typedArray, size_t index,
                     const BigInt* value) {
   AutoUnsafeCallWithABI unsafe;
 
@@ -2829,8 +2837,7 @@ void AtomicsStore64(FixedLengthTypedArrayObject* typedArray, size_t index,
       value);
 }
 
-BigInt* AtomicsCompareExchange64(JSContext* cx,
-                                 FixedLengthTypedArrayObject* typedArray,
+BigInt* AtomicsCompareExchange64(JSContext* cx, TypedArrayObject* typedArray,
                                  size_t index, const BigInt* expected,
                                  const BigInt* replacement) {
   return AtomicAccess64(
@@ -2842,9 +2849,8 @@ BigInt* AtomicsCompareExchange64(JSContext* cx,
       expected, replacement);
 }
 
-BigInt* AtomicsExchange64(JSContext* cx,
-                          FixedLengthTypedArrayObject* typedArray, size_t index,
-                          const BigInt* value) {
+BigInt* AtomicsExchange64(JSContext* cx, TypedArrayObject* typedArray,
+                          size_t index, const BigInt* value) {
   return AtomicAccess64(
       cx, typedArray, index,
       [](auto addr, auto val) {
@@ -2853,8 +2859,8 @@ BigInt* AtomicsExchange64(JSContext* cx,
       value);
 }
 
-BigInt* AtomicsAdd64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                     size_t index, const BigInt* value) {
+BigInt* AtomicsAdd64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                     const BigInt* value) {
   return AtomicAccess64(
       cx, typedArray, index,
       [](auto addr, auto val) {
@@ -2863,8 +2869,8 @@ BigInt* AtomicsAdd64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
       value);
 }
 
-BigInt* AtomicsAnd64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                     size_t index, const BigInt* value) {
+BigInt* AtomicsAnd64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                     const BigInt* value) {
   return AtomicAccess64(
       cx, typedArray, index,
       [](auto addr, auto val) {
@@ -2873,8 +2879,8 @@ BigInt* AtomicsAnd64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
       value);
 }
 
-BigInt* AtomicsOr64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                    size_t index, const BigInt* value) {
+BigInt* AtomicsOr64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                    const BigInt* value) {
   return AtomicAccess64(
       cx, typedArray, index,
       [](auto addr, auto val) {
@@ -2883,8 +2889,8 @@ BigInt* AtomicsOr64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
       value);
 }
 
-BigInt* AtomicsSub64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                     size_t index, const BigInt* value) {
+BigInt* AtomicsSub64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                     const BigInt* value) {
   return AtomicAccess64(
       cx, typedArray, index,
       [](auto addr, auto val) {
@@ -2893,8 +2899,8 @@ BigInt* AtomicsSub64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
       value);
 }
 
-BigInt* AtomicsXor64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                     size_t index, const BigInt* value) {
+BigInt* AtomicsXor64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                     const BigInt* value) {
   return AtomicAccess64(
       cx, typedArray, index,
       [](auto addr, auto val) {
diff --git a/js/src/jit/VMFunctions.h b/js/src/jit/VMFunctions.h
index cfce36caaa..a68dd8279f 100644
--- a/js/src/jit/VMFunctions.h
+++ b/js/src/jit/VMFunctions.h
@@ -27,7 +27,6 @@ namespace js {
 
 class AbstractGeneratorObject;
 class ArrayObject;
-class FixedLengthTypedArrayObject;
 class GlobalObject;
 class InterpreterFrame;
 class LexicalScope;
@@ -640,11 +639,11 @@ bool StringBigIntCompare(JSContext* cx, HandleString x, HandleBigInt y,
 BigInt* BigIntAsIntN(JSContext* cx, HandleBigInt x, int32_t bits);
 BigInt* BigIntAsUintN(JSContext* cx, HandleBigInt x, int32_t bits);
 
-using AtomicsCompareExchangeFn = int32_t (*)(FixedLengthTypedArrayObject*,
-                                             size_t, int32_t, int32_t);
+using AtomicsCompareExchangeFn = int32_t (*)(TypedArrayObject*, size_t, int32_t,
+                                             int32_t);
 
-using AtomicsReadWriteModifyFn = int32_t (*)(FixedLengthTypedArrayObject*,
-                                             size_t, int32_t);
+using AtomicsReadWriteModifyFn = int32_t (*)(TypedArrayObject*, size_t,
+                                             int32_t);
 
 AtomicsCompareExchangeFn AtomicsCompareExchange(Scalar::Type elementType);
 AtomicsReadWriteModifyFn AtomicsExchange(Scalar::Type elementType);
@@ -654,31 +653,29 @@ AtomicsReadWriteModifyFn AtomicsAnd(Scalar::Type elementType);
 AtomicsReadWriteModifyFn AtomicsOr(Scalar::Type elementType);
 AtomicsReadWriteModifyFn AtomicsXor(Scalar::Type elementType);
 
-BigInt* AtomicsLoad64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
+BigInt* AtomicsLoad64(JSContext* cx, TypedArrayObject* typedArray,
                       size_t index);
 
-void AtomicsStore64(FixedLengthTypedArrayObject* typedArray, size_t index,
+void AtomicsStore64(TypedArrayObject* typedArray, size_t index,
                     const BigInt* value);
 
-BigInt* AtomicsCompareExchange64(JSContext* cx,
-                                 FixedLengthTypedArrayObject* typedArray,
+BigInt* AtomicsCompareExchange64(JSContext* cx, TypedArrayObject* typedArray,
                                  size_t index, const BigInt* expected,
                                  const BigInt* replacement);
 
-BigInt* AtomicsExchange64(JSContext* cx,
-                          FixedLengthTypedArrayObject* typedArray, size_t index,
-                          const BigInt* value);
-
-BigInt* AtomicsAdd64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                     size_t index, const BigInt* value);
-BigInt* AtomicsAnd64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                     size_t index, const BigInt* value);
-BigInt* AtomicsOr64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                    size_t index, const BigInt* value);
-BigInt* AtomicsSub64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                     size_t index, const BigInt* value);
-BigInt* AtomicsXor64(JSContext* cx, FixedLengthTypedArrayObject* typedArray,
-                     size_t index, const BigInt* value);
+BigInt* AtomicsExchange64(JSContext* cx, TypedArrayObject* typedArray,
+                          size_t index, const BigInt* value);
+
+BigInt* AtomicsAdd64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                     const BigInt* value);
+BigInt* AtomicsAnd64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                     const BigInt* value);
+BigInt* AtomicsOr64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                    const BigInt* value);
+BigInt* AtomicsSub64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                     const BigInt* value);
+BigInt* AtomicsXor64(JSContext* cx, TypedArrayObject* typedArray, size_t index,
+                     const BigInt* value);
 
 JSAtom* AtomizeStringNoGC(JSContext* cx, JSString* str);
 
diff --git a/js/src/jit/WarpBuilderShared.cpp b/js/src/jit/WarpBuilderShared.cpp
index 89e93d6150..e04984690c 100644
--- a/js/src/jit/WarpBuilderShared.cpp
+++ b/js/src/jit/WarpBuilderShared.cpp
@@ -22,9 +22,12 @@ WarpBuilderShared::WarpBuilderShared(WarpSnapshot& snapshot,
 
 bool WarpBuilderShared::resumeAfter(MInstruction* ins, BytecodeLocation loc) {
   // resumeAfter should only be used with effectful instructions. The only
-  // exception is MInt64ToBigInt, it's used to convert the result of a call into
-  // Wasm code so we attach the resume point to that instead of to the call.
-  MOZ_ASSERT(ins->isEffectful() || ins->isInt64ToBigInt());
+  // exceptions are:
+  // 1. MInt64ToBigInt, which is used to convert the result of a call into Wasm
+  //    code so we attach the resume point to that instead of to the call.
+  // 2. MPostIntPtrConversion which is used after conversion from IntPtr.
+  MOZ_ASSERT(ins->isEffectful() || ins->isInt64ToBigInt() ||
+             ins->isPostIntPtrConversion());
   MOZ_ASSERT(!ins->isMovable());
 
   MResumePoint* resumePoint = MResumePoint::New(
diff --git a/js/src/jit/WarpCacheIRTranspiler.cpp b/js/src/jit/WarpCacheIRTranspiler.cpp
index 7654232ecd..9a99e0f5c3 100644
--- a/js/src/jit/WarpCacheIRTranspiler.cpp
+++ b/js/src/jit/WarpCacheIRTranspiler.cpp
@@ -11,8 +11,6 @@
 
 #include "jsmath.h"
 
-#include "builtin/DataViewObject.h"
-#include "builtin/MapObject.h"
 #include "jit/AtomicOp.h"
 #include "jit/CacheIR.h"
 #include "jit/CacheIRCompiler.h"
@@ -26,7 +24,6 @@
 #include "jit/WarpBuilderShared.h"
 #include "jit/WarpSnapshot.h"
 #include "js/ScalarType.h"  // js::Scalar::Type
-#include "vm/ArgumentsObject.h"
 #include "vm/BytecodeLocation.h"
 #include "wasm/WasmCode.h"
 
@@ -52,7 +49,8 @@ class MOZ_RAII WarpCacheIRTranspiler : public WarpBuilderShared {
 
   // Array mapping call arguments to OperandId.
   using ArgumentKindArray =
-      mozilla::EnumeratedArray<ArgumentKind, ArgumentKind::NumKinds, OperandId>;
+      mozilla::EnumeratedArray<ArgumentKind, OperandId,
+                               size_t(ArgumentKind::NumKinds)>;
   ArgumentKindArray argumentOperandIds_;
 
   void setArgumentId(ArgumentKind kind, OperandId id) {
@@ -255,14 +253,20 @@ class MOZ_RAII WarpCacheIRTranspiler : public WarpBuilderShared {
                                  ObjOperandId objId, uint32_t offsetOffset,
                                  ValOperandId rhsId, uint32_t newShapeOffset);
 
-  void addDataViewData(MDefinition* obj, Scalar::Type type,
-                       MDefinition** offset, MInstruction** elements);
+  MInstruction* emitTypedArrayLength(ArrayBufferViewKind viewKind,
+                                     MDefinition* obj);
 
-  [[nodiscard]] bool emitAtomicsBinaryOp(ObjOperandId objId,
-                                         IntPtrOperandId indexId,
-                                         uint32_t valueId,
-                                         Scalar::Type elementType,
-                                         bool forEffect, AtomicOp op);
+  MInstruction* emitDataViewLength(ArrayBufferViewKind viewKind,
+                                   MDefinition* obj);
+
+  void addDataViewData(ArrayBufferViewKind viewKind, MDefinition* obj,
+                       Scalar::Type type, MDefinition** offset,
+                       MInstruction** elements);
+
+  [[nodiscard]] bool emitAtomicsBinaryOp(
+      ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+      Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind,
+      AtomicOp op);
 
   [[nodiscard]] bool emitLoadArgumentSlot(ValOperandId resultId,
                                           uint32_t slotIndex);
@@ -347,9 +351,14 @@ bool WarpCacheIRTranspiler::transpile(
 
   // Effectful instructions should have a resume point. MIonToWasmCall is an
   // exception: we can attach the resume point to the MInt64ToBigInt instruction
-  // instead.
+  // instead. Other exceptions are MResizableTypedArrayLength and
+  // MResizableDataViewByteLength, and MGrowableSharedArrayBufferByteLength,
+  // which add the resume point to MPostIntPtrConversion.
   MOZ_ASSERT_IF(effectful_,
-                effectful_->resumePoint() || effectful_->isIonToWasmCall());
+                effectful_->resumePoint() || effectful_->isIonToWasmCall() ||
+                    effectful_->isResizableTypedArrayLength() ||
+                    effectful_->isResizableDataViewByteLength() ||
+                    effectful_->isGrowableSharedArrayBufferByteLength());
   return true;
 }
 
@@ -385,31 +394,44 @@ bool WarpCacheIRTranspiler::emitGuardClass(ObjOperandId objId,
   return true;
 }
 
+bool WarpCacheIRTranspiler::emitGuardEitherClass(ObjOperandId objId,
+                                                 GuardClassKind kind1,
+                                                 GuardClassKind kind2) {
+  MDefinition* def = getOperand(objId);
+
+  // We don't yet need this case, so it's unsupported for now.
+  MOZ_ASSERT(kind1 != GuardClassKind::JSFunction &&
+             kind2 != GuardClassKind::JSFunction);
+
+  const JSClass* classp1 = classForGuardClassKind(kind1);
+  const JSClass* classp2 = classForGuardClassKind(kind2);
+  auto* ins = MGuardToEitherClass::New(alloc(), def, classp1, classp2);
+
+  add(ins);
+
+  setOperand(objId, ins);
+  return true;
+}
+
 const JSClass* WarpCacheIRTranspiler::classForGuardClassKind(
     GuardClassKind kind) {
   switch (kind) {
     case GuardClassKind::Array:
-      return &ArrayObject::class_;
     case GuardClassKind::PlainObject:
-      return &PlainObject::class_;
     case GuardClassKind::FixedLengthArrayBuffer:
-      return &FixedLengthArrayBufferObject::class_;
+    case GuardClassKind::ResizableArrayBuffer:
     case GuardClassKind::FixedLengthSharedArrayBuffer:
-      return &FixedLengthSharedArrayBufferObject::class_;
+    case GuardClassKind::GrowableSharedArrayBuffer:
     case GuardClassKind::FixedLengthDataView:
-      return &FixedLengthDataViewObject::class_;
+    case GuardClassKind::ResizableDataView:
     case GuardClassKind::MappedArguments:
-      return &MappedArgumentsObject::class_;
     case GuardClassKind::UnmappedArguments:
-      return &UnmappedArgumentsObject::class_;
-    case GuardClassKind::WindowProxy:
-      return mirGen().runtime->maybeWindowProxyClass();
     case GuardClassKind::Set:
-      return &SetObject::class_;
     case GuardClassKind::Map:
-      return &MapObject::class_;
     case GuardClassKind::BoundFunction:
-      return &BoundFunctionObject::class_;
+      return ClassFor(kind);
+    case GuardClassKind::WindowProxy:
+      return mirGen().runtime->maybeWindowProxyClass();
     case GuardClassKind::JSFunction:
       break;
   }
@@ -830,6 +852,16 @@ bool WarpCacheIRTranspiler::emitGuardIsFixedLengthTypedArray(
   return true;
 }
 
+bool WarpCacheIRTranspiler::emitGuardIsResizableTypedArray(ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  auto* ins = MGuardIsResizableTypedArray::New(alloc(), obj);
+  add(ins);
+
+  setOperand(objId, ins);
+  return true;
+}
+
 bool WarpCacheIRTranspiler::emitGuardHasProxyHandler(ObjOperandId objId,
                                                      uint32_t handlerOffset) {
   MDefinition* obj = getOperand(objId);
@@ -2121,13 +2153,35 @@ bool WarpCacheIRTranspiler::emitCallObjectHasSparseElementResult(
   return true;
 }
 
+MInstruction* WarpCacheIRTranspiler::emitTypedArrayLength(
+    ArrayBufferViewKind viewKind, MDefinition* obj) {
+  if (viewKind == ArrayBufferViewKind::FixedLength) {
+    auto* length = MArrayBufferViewLength::New(alloc(), obj);
+    add(length);
+
+    return length;
+  }
+
+  // Bounds check doesn't require a memory barrier. See IsValidIntegerIndex
+  // abstract operation which reads the underlying buffer byte length using
+  // "unordered" memory order.
+  auto barrier = MemoryBarrierRequirement::NotRequired;
+
+  // Movable and removable because no memory barrier is needed.
+  auto* length = MResizableTypedArrayLength::New(alloc(), obj, barrier);
+  length->setMovable();
+  length->setNotGuard();
+  add(length);
+
+  return length;
+}
+
 bool WarpCacheIRTranspiler::emitLoadTypedArrayElementExistsResult(
-    ObjOperandId objId, IntPtrOperandId indexId) {
+    ObjOperandId objId, IntPtrOperandId indexId, ArrayBufferViewKind viewKind) {
   MDefinition* obj = getOperand(objId);
   MDefinition* index = getOperand(indexId);
 
-  auto* length = MArrayBufferViewLength::New(alloc(), obj);
-  add(length);
+  auto* length = emitTypedArrayLength(viewKind, obj);
 
   // Unsigned comparison to catch negative indices.
   auto* ins = MCompare::New(alloc(), index, length, JSOp::Lt,
@@ -2165,27 +2219,29 @@ static MIRType MIRTypeForArrayBufferViewRead(Scalar::Type arrayType,
 
 bool WarpCacheIRTranspiler::emitLoadTypedArrayElementResult(
     ObjOperandId objId, IntPtrOperandId indexId, Scalar::Type elementType,
-    bool handleOOB, bool forceDoubleForUint32) {
+    bool handleOOB, bool forceDoubleForUint32, ArrayBufferViewKind viewKind) {
   MDefinition* obj = getOperand(objId);
   MDefinition* index = getOperand(indexId);
 
+  auto* length = emitTypedArrayLength(viewKind, obj);
+
+  if (!handleOOB) {
+    // MLoadTypedArrayElementHole does the bounds checking.
+    index = addBoundsCheck(index, length);
+  }
+
+  auto* elements = MArrayBufferViewElements::New(alloc(), obj);
+  add(elements);
+
   if (handleOOB) {
     auto* load = MLoadTypedArrayElementHole::New(
-        alloc(), obj, index, elementType, forceDoubleForUint32);
+        alloc(), elements, index, length, elementType, forceDoubleForUint32);
     add(load);
 
     pushResult(load);
     return true;
   }
 
-  auto* length = MArrayBufferViewLength::New(alloc(), obj);
-  add(length);
-
-  index = addBoundsCheck(index, length);
-
-  auto* elements = MArrayBufferViewElements::New(alloc(), obj);
-  add(elements);
-
   auto* load = MLoadUnboxedScalar::New(alloc(), elements, index, elementType);
   load->setResultType(
       MIRTypeForArrayBufferViewRead(elementType, forceDoubleForUint32));
@@ -2717,17 +2773,14 @@ bool WarpCacheIRTranspiler::emitStoreDenseElementHole(ObjOperandId objId,
   return resumeAfter(store);
 }
 
-bool WarpCacheIRTranspiler::emitStoreTypedArrayElement(ObjOperandId objId,
-                                                       Scalar::Type elementType,
-                                                       IntPtrOperandId indexId,
-                                                       uint32_t rhsId,
-                                                       bool handleOOB) {
+bool WarpCacheIRTranspiler::emitStoreTypedArrayElement(
+    ObjOperandId objId, Scalar::Type elementType, IntPtrOperandId indexId,
+    uint32_t rhsId, bool handleOOB, ArrayBufferViewKind viewKind) {
   MDefinition* obj = getOperand(objId);
   MDefinition* index = getOperand(indexId);
   MDefinition* rhs = getOperand(ValOperandId(rhsId));
 
-  auto* length = MArrayBufferViewLength::New(alloc(), obj);
-  add(length);
+  auto* length = emitTypedArrayLength(viewKind, obj);
 
   if (!handleOOB) {
     // MStoreTypedArrayElementHole does the bounds checking.
@@ -2749,11 +2802,34 @@ bool WarpCacheIRTranspiler::emitStoreTypedArrayElement(ObjOperandId objId,
   return resumeAfter(store);
 }
 
-void WarpCacheIRTranspiler::addDataViewData(MDefinition* obj, Scalar::Type type,
+MInstruction* WarpCacheIRTranspiler::emitDataViewLength(
+    ArrayBufferViewKind viewKind, MDefinition* obj) {
+  if (viewKind == ArrayBufferViewKind::FixedLength) {
+    auto* length = MArrayBufferViewLength::New(alloc(), obj);
+    add(length);
+
+    return length;
+  }
+
+  // Bounds check doesn't require a memory barrier. See GetViewValue and
+  // SetViewValue abstract operations which read the underlying buffer byte
+  // length using "unordered" memory order.
+  auto barrier = MemoryBarrierRequirement::NotRequired;
+
+  // Movable and removable because no memory barrier is needed.
+  auto* length = MResizableDataViewByteLength::New(alloc(), obj, barrier);
+  length->setMovable();
+  length->setNotGuard();
+  add(length);
+
+  return length;
+}
+
+void WarpCacheIRTranspiler::addDataViewData(ArrayBufferViewKind viewKind,
+                                            MDefinition* obj, Scalar::Type type,
                                             MDefinition** offset,
                                             MInstruction** elements) {
-  MInstruction* length = MArrayBufferViewLength::New(alloc(), obj);
-  add(length);
+  auto* length = emitDataViewLength(viewKind, obj);
 
   // Adjust the length to account for accesses near the end of the dataview.
   if (size_t byteSize = Scalar::byteSize(type); byteSize > 1) {
@@ -2773,14 +2849,14 @@ void WarpCacheIRTranspiler::addDataViewData(MDefinition* obj, Scalar::Type type,
 bool WarpCacheIRTranspiler::emitLoadDataViewValueResult(
     ObjOperandId objId, IntPtrOperandId offsetId,
     BooleanOperandId littleEndianId, Scalar::Type elementType,
-    bool forceDoubleForUint32) {
+    bool forceDoubleForUint32, ArrayBufferViewKind viewKind) {
   MDefinition* obj = getOperand(objId);
   MDefinition* offset = getOperand(offsetId);
   MDefinition* littleEndian = getOperand(littleEndianId);
 
   // Add bounds check and get the DataViewObject's elements.
   MInstruction* elements;
-  addDataViewData(obj, elementType, &offset, &elements);
+  addDataViewData(viewKind, obj, elementType, &offset, &elements);
 
   // Load the element.
   MInstruction* load;
@@ -2802,7 +2878,8 @@ bool WarpCacheIRTranspiler::emitLoadDataViewValueResult(
 
 bool WarpCacheIRTranspiler::emitStoreDataViewValueResult(
     ObjOperandId objId, IntPtrOperandId offsetId, uint32_t valueId,
-    BooleanOperandId littleEndianId, Scalar::Type elementType) {
+    BooleanOperandId littleEndianId, Scalar::Type elementType,
+    ArrayBufferViewKind viewKind) {
   MDefinition* obj = getOperand(objId);
   MDefinition* offset = getOperand(offsetId);
   MDefinition* value = getOperand(ValOperandId(valueId));
@@ -2810,7 +2887,7 @@ bool WarpCacheIRTranspiler::emitStoreDataViewValueResult(
 
   // Add bounds check and get the DataViewObject's elements.
   MInstruction* elements;
-  addDataViewData(obj, elementType, &offset, &elements);
+  addDataViewData(viewKind, obj, elementType, &offset, &elements);
 
   // Store the element.
   MInstruction* store;
@@ -4067,6 +4144,78 @@ bool WarpCacheIRTranspiler::emitArrayBufferViewByteOffsetDoubleResult(
   return true;
 }
 
+bool WarpCacheIRTranspiler::
+    emitResizableTypedArrayByteOffsetMaybeOutOfBoundsInt32Result(
+        ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  auto* byteOffset =
+      MResizableTypedArrayByteOffsetMaybeOutOfBounds::New(alloc(), obj);
+  add(byteOffset);
+
+  auto* byteOffsetInt32 = MNonNegativeIntPtrToInt32::New(alloc(), byteOffset);
+  add(byteOffsetInt32);
+
+  pushResult(byteOffsetInt32);
+  return true;
+}
+
+bool WarpCacheIRTranspiler::
+    emitResizableTypedArrayByteOffsetMaybeOutOfBoundsDoubleResult(
+        ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  auto* byteOffset =
+      MResizableTypedArrayByteOffsetMaybeOutOfBounds::New(alloc(), obj);
+  add(byteOffset);
+
+  auto* byteOffsetDouble = MIntPtrToDouble::New(alloc(), byteOffset);
+  add(byteOffsetDouble);
+
+  pushResult(byteOffsetDouble);
+  return true;
+}
+
+bool WarpCacheIRTranspiler::emitResizableTypedArrayLengthInt32Result(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  // Explicit |length| accesses are seq-consistent atomic loads.
+  auto barrier = MemoryBarrierRequirement::Required;
+
+  auto* length = MResizableTypedArrayLength::New(alloc(), obj, barrier);
+  addEffectful(length);
+
+  auto* lengthInt32 = MNonNegativeIntPtrToInt32::New(alloc(), length);
+  add(lengthInt32);
+
+  auto* postConversion = MPostIntPtrConversion::New(alloc(), lengthInt32);
+  add(postConversion);
+
+  pushResult(postConversion);
+  return resumeAfterUnchecked(postConversion);
+}
+
+bool WarpCacheIRTranspiler::emitResizableTypedArrayLengthDoubleResult(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  // Explicit |length| accesses are seq-consistent atomic loads.
+  auto barrier = MemoryBarrierRequirement::Required;
+
+  auto* length = MResizableTypedArrayLength::New(alloc(), obj, barrier);
+  addEffectful(length);
+
+  auto* lengthDouble = MIntPtrToDouble::New(alloc(), length);
+  add(lengthDouble);
+
+  auto* postConversion = MPostIntPtrConversion::New(alloc(), lengthDouble);
+  add(postConversion);
+
+  pushResult(postConversion);
+  return resumeAfterUnchecked(postConversion);
+}
+
 bool WarpCacheIRTranspiler::emitTypedArrayByteLengthInt32Result(
     ObjOperandId objId) {
   MDefinition* obj = getOperand(objId);
@@ -4112,6 +4261,63 @@ bool WarpCacheIRTranspiler::emitTypedArrayByteLengthDoubleResult(
   return true;
 }
 
+bool WarpCacheIRTranspiler::emitResizableTypedArrayByteLengthInt32Result(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto barrier = MemoryBarrierRequirement::Required;
+
+  auto* length = MResizableTypedArrayLength::New(alloc(), obj, barrier);
+  addEffectful(length);
+
+  auto* lengthInt32 = MNonNegativeIntPtrToInt32::New(alloc(), length);
+  add(lengthInt32);
+
+  auto* size = MTypedArrayElementSize::New(alloc(), obj);
+  add(size);
+
+  auto* mul = MMul::New(alloc(), lengthInt32, size, MIRType::Int32);
+  mul->setCanBeNegativeZero(false);
+  add(mul);
+
+  auto* postConversion = MPostIntPtrConversion::New(alloc(), mul);
+  add(postConversion);
+
+  pushResult(postConversion);
+  return resumeAfterUnchecked(postConversion);
+}
+
+bool WarpCacheIRTranspiler::emitResizableTypedArrayByteLengthDoubleResult(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto barrier = MemoryBarrierRequirement::Required;
+
+  auto* length = MResizableTypedArrayLength::New(alloc(), obj, barrier);
+  addEffectful(length);
+
+  auto* lengthDouble = MIntPtrToDouble::New(alloc(), length);
+  add(lengthDouble);
+
+  auto* size = MTypedArrayElementSize::New(alloc(), obj);
+  add(size);
+
+  auto* sizeDouble = MToDouble::New(alloc(), size);
+  add(sizeDouble);
+
+  auto* mul = MMul::New(alloc(), lengthDouble, sizeDouble, MIRType::Double);
+  mul->setCanBeNegativeZero(false);
+  add(mul);
+
+  auto* postConversion = MPostIntPtrConversion::New(alloc(), mul);
+  add(postConversion);
+
+  pushResult(postConversion);
+  return resumeAfterUnchecked(postConversion);
+}
+
 bool WarpCacheIRTranspiler::emitTypedArrayElementSizeResult(
     ObjOperandId objId) {
   MDefinition* obj = getOperand(objId);
@@ -4123,6 +4329,80 @@ bool WarpCacheIRTranspiler::emitTypedArrayElementSizeResult(
   return true;
 }
 
+bool WarpCacheIRTranspiler::emitResizableDataViewByteLengthInt32Result(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto barrier = MemoryBarrierRequirement::Required;
+
+  auto* length = MResizableDataViewByteLength::New(alloc(), obj, barrier);
+  addEffectful(length);
+
+  auto* lengthInt32 = MNonNegativeIntPtrToInt32::New(alloc(), length);
+  add(lengthInt32);
+
+  auto* postConversion = MPostIntPtrConversion::New(alloc(), lengthInt32);
+  add(postConversion);
+
+  pushResult(postConversion);
+  return resumeAfterUnchecked(postConversion);
+}
+
+bool WarpCacheIRTranspiler::emitResizableDataViewByteLengthDoubleResult(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  // Explicit |byteLength| accesses are seq-consistent atomic loads.
+  auto barrier = MemoryBarrierRequirement::Required;
+
+  auto* length = MResizableDataViewByteLength::New(alloc(), obj, barrier);
+  addEffectful(length);
+
+  auto* lengthDouble = MIntPtrToDouble::New(alloc(), length);
+  add(lengthDouble);
+
+  auto* postConversion = MPostIntPtrConversion::New(alloc(), lengthDouble);
+  add(postConversion);
+
+  pushResult(postConversion);
+  return resumeAfterUnchecked(postConversion);
+}
+
+bool WarpCacheIRTranspiler::emitGrowableSharedArrayBufferByteLengthInt32Result(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  auto* length = MGrowableSharedArrayBufferByteLength::New(alloc(), obj);
+  addEffectful(length);
+
+  auto* lengthInt32 = MNonNegativeIntPtrToInt32::New(alloc(), length);
+  add(lengthInt32);
+
+  auto* postConversion = MPostIntPtrConversion::New(alloc(), lengthInt32);
+  add(postConversion);
+
+  pushResult(postConversion);
+  return resumeAfterUnchecked(postConversion);
+}
+
+bool WarpCacheIRTranspiler::emitGrowableSharedArrayBufferByteLengthDoubleResult(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  auto* length = MGrowableSharedArrayBufferByteLength::New(alloc(), obj);
+  addEffectful(length);
+
+  auto* lengthDouble = MIntPtrToDouble::New(alloc(), length);
+  add(lengthDouble);
+
+  auto* postConversion = MPostIntPtrConversion::New(alloc(), lengthDouble);
+  add(postConversion);
+
+  pushResult(postConversion);
+  return resumeAfterUnchecked(postConversion);
+}
+
 bool WarpCacheIRTranspiler::emitGuardHasAttachedArrayBuffer(
     ObjOperandId objId) {
   MDefinition* obj = getOperand(objId);
@@ -4134,6 +4414,29 @@ bool WarpCacheIRTranspiler::emitGuardHasAttachedArrayBuffer(
   return true;
 }
 
+bool WarpCacheIRTranspiler::emitGuardResizableArrayBufferViewInBounds(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  auto* ins = MGuardResizableArrayBufferViewInBounds::New(alloc(), obj);
+  add(ins);
+
+  setOperand(objId, ins);
+  return true;
+}
+
+bool WarpCacheIRTranspiler::emitGuardResizableArrayBufferViewInBoundsOrDetached(
+    ObjOperandId objId) {
+  MDefinition* obj = getOperand(objId);
+
+  auto* ins =
+      MGuardResizableArrayBufferViewInBoundsOrDetached::New(alloc(), obj);
+  add(ins);
+
+  setOperand(objId, ins);
+  return true;
+}
+
 bool WarpCacheIRTranspiler::emitIsTypedArrayConstructorResult(
     ObjOperandId objId) {
   MDefinition* obj = getOperand(objId);
@@ -4318,14 +4621,14 @@ bool WarpCacheIRTranspiler::emitNewTypedArrayFromArrayResult(
 
 bool WarpCacheIRTranspiler::emitAtomicsCompareExchangeResult(
     ObjOperandId objId, IntPtrOperandId indexId, uint32_t expectedId,
-    uint32_t replacementId, Scalar::Type elementType) {
+    uint32_t replacementId, Scalar::Type elementType,
+    ArrayBufferViewKind viewKind) {
   MDefinition* obj = getOperand(objId);
   MDefinition* index = getOperand(indexId);
   MDefinition* expected = getOperand(ValOperandId(expectedId));
   MDefinition* replacement = getOperand(ValOperandId(replacementId));
 
-  auto* length = MArrayBufferViewLength::New(alloc(), obj);
-  add(length);
+  auto* length = emitTypedArrayLength(viewKind, obj);
 
   index = addBoundsCheck(index, length);
 
@@ -4347,13 +4650,12 @@ bool WarpCacheIRTranspiler::emitAtomicsCompareExchangeResult(
 
 bool WarpCacheIRTranspiler::emitAtomicsExchangeResult(
     ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
-    Scalar::Type elementType) {
+    Scalar::Type elementType, ArrayBufferViewKind viewKind) {
   MDefinition* obj = getOperand(objId);
   MDefinition* index = getOperand(indexId);
   MDefinition* value = getOperand(ValOperandId(valueId));
 
-  auto* length = MArrayBufferViewLength::New(alloc(), obj);
-  add(length);
+  auto* length = emitTypedArrayLength(viewKind, obj);
 
   index = addBoundsCheck(index, length);
 
@@ -4373,17 +4675,15 @@ bool WarpCacheIRTranspiler::emitAtomicsExchangeResult(
   return resumeAfter(exchange);
 }
 
-bool WarpCacheIRTranspiler::emitAtomicsBinaryOp(ObjOperandId objId,
-                                                IntPtrOperandId indexId,
-                                                uint32_t valueId,
-                                                Scalar::Type elementType,
-                                                bool forEffect, AtomicOp op) {
+bool WarpCacheIRTranspiler::emitAtomicsBinaryOp(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind,
+    AtomicOp op) {
   MDefinition* obj = getOperand(objId);
   MDefinition* index = getOperand(indexId);
   MDefinition* value = getOperand(ValOperandId(valueId));
 
-  auto* length = MArrayBufferViewLength::New(alloc(), obj);
-  add(length);
+  auto* length = emitTypedArrayLength(viewKind, obj);
 
   index = addBoundsCheck(index, length);
 
@@ -4409,59 +4709,48 @@ bool WarpCacheIRTranspiler::emitAtomicsBinaryOp(ObjOperandId objId,
   return resumeAfter(binop);
 }
 
-bool WarpCacheIRTranspiler::emitAtomicsAddResult(ObjOperandId objId,
-                                                 IntPtrOperandId indexId,
-                                                 uint32_t valueId,
-                                                 Scalar::Type elementType,
-                                                 bool forEffect) {
+bool WarpCacheIRTranspiler::emitAtomicsAddResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   return emitAtomicsBinaryOp(objId, indexId, valueId, elementType, forEffect,
-                             AtomicFetchAddOp);
+                             viewKind, AtomicOp::Add);
 }
 
-bool WarpCacheIRTranspiler::emitAtomicsSubResult(ObjOperandId objId,
-                                                 IntPtrOperandId indexId,
-                                                 uint32_t valueId,
-                                                 Scalar::Type elementType,
-                                                 bool forEffect) {
+bool WarpCacheIRTranspiler::emitAtomicsSubResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   return emitAtomicsBinaryOp(objId, indexId, valueId, elementType, forEffect,
-                             AtomicFetchSubOp);
+                             viewKind, AtomicOp::Sub);
 }
 
-bool WarpCacheIRTranspiler::emitAtomicsAndResult(ObjOperandId objId,
-                                                 IntPtrOperandId indexId,
-                                                 uint32_t valueId,
-                                                 Scalar::Type elementType,
-                                                 bool forEffect) {
+bool WarpCacheIRTranspiler::emitAtomicsAndResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   return emitAtomicsBinaryOp(objId, indexId, valueId, elementType, forEffect,
-                             AtomicFetchAndOp);
+                             viewKind, AtomicOp::And);
 }
 
-bool WarpCacheIRTranspiler::emitAtomicsOrResult(ObjOperandId objId,
-                                                IntPtrOperandId indexId,
-                                                uint32_t valueId,
-                                                Scalar::Type elementType,
-                                                bool forEffect) {
+bool WarpCacheIRTranspiler::emitAtomicsOrResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   return emitAtomicsBinaryOp(objId, indexId, valueId, elementType, forEffect,
-                             AtomicFetchOrOp);
+                             viewKind, AtomicOp::Or);
 }
 
-bool WarpCacheIRTranspiler::emitAtomicsXorResult(ObjOperandId objId,
-                                                 IntPtrOperandId indexId,
-                                                 uint32_t valueId,
-                                                 Scalar::Type elementType,
-                                                 bool forEffect) {
+bool WarpCacheIRTranspiler::emitAtomicsXorResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, bool forEffect, ArrayBufferViewKind viewKind) {
   return emitAtomicsBinaryOp(objId, indexId, valueId, elementType, forEffect,
-                             AtomicFetchXorOp);
+                             viewKind, AtomicOp::Xor);
 }
 
-bool WarpCacheIRTranspiler::emitAtomicsLoadResult(ObjOperandId objId,
-                                                  IntPtrOperandId indexId,
-                                                  Scalar::Type elementType) {
+bool WarpCacheIRTranspiler::emitAtomicsLoadResult(
+    ObjOperandId objId, IntPtrOperandId indexId, Scalar::Type elementType,
+    ArrayBufferViewKind viewKind) {
   MDefinition* obj = getOperand(objId);
   MDefinition* index = getOperand(indexId);
 
-  auto* length = MArrayBufferViewLength::New(alloc(), obj);
-  add(length);
+  auto* length = emitTypedArrayLength(viewKind, obj);
 
   index = addBoundsCheck(index, length);
 
@@ -4473,7 +4762,7 @@ bool WarpCacheIRTranspiler::emitAtomicsLoadResult(ObjOperandId objId,
       MIRTypeForArrayBufferViewRead(elementType, forceDoubleForUint32);
 
   auto* load = MLoadUnboxedScalar::New(alloc(), elements, index, elementType,
-                                       DoesRequireMemoryBarrier);
+                                       MemoryBarrierRequirement::Required);
   load->setResultType(knownType);
   addEffectful(load);
 
@@ -4481,24 +4770,23 @@ bool WarpCacheIRTranspiler::emitAtomicsLoadResult(ObjOperandId objId,
   return resumeAfter(load);
 }
 
-bool WarpCacheIRTranspiler::emitAtomicsStoreResult(ObjOperandId objId,
-                                                   IntPtrOperandId indexId,
-                                                   uint32_t valueId,
-                                                   Scalar::Type elementType) {
+bool WarpCacheIRTranspiler::emitAtomicsStoreResult(
+    ObjOperandId objId, IntPtrOperandId indexId, uint32_t valueId,
+    Scalar::Type elementType, ArrayBufferViewKind viewKind) {
   MDefinition* obj = getOperand(objId);
   MDefinition* index = getOperand(indexId);
   MDefinition* value = getOperand(ValOperandId(valueId));
 
-  auto* length = MArrayBufferViewLength::New(alloc(), obj);
-  add(length);
+  auto* length = emitTypedArrayLength(viewKind, obj);
 
   index = addBoundsCheck(index, length);
 
   auto* elements = MArrayBufferViewElements::New(alloc(), obj);
   add(elements);
 
-  auto* store = MStoreUnboxedScalar::New(alloc(), elements, index, value,
-                                         elementType, DoesRequireMemoryBarrier);
+  auto* store =
+      MStoreUnboxedScalar::New(alloc(), elements, index, value, elementType,
+                               MemoryBarrierRequirement::Required);
   addEffectful(store);
 
   pushResult(value);
diff --git a/js/src/jit/arm/CodeGenerator-arm.cpp b/js/src/jit/arm/CodeGenerator-arm.cpp
index 0c35309c7e..98675164a9 100644
--- a/js/src/jit/arm/CodeGenerator-arm.cpp
+++ b/js/src/jit/arm/CodeGenerator-arm.cpp
@@ -2404,10 +2404,6 @@ void CodeGenerator::visitNegF(LNegF* ins) {
   masm.ma_vneg_f32(input, ToFloatRegister(ins->output()));
 }
 
-void CodeGenerator::visitMemoryBarrier(LMemoryBarrier* ins) {
-  masm.memoryBarrier(ins->type());
-}
-
 void CodeGenerator::visitWasmTruncateToInt32(LWasmTruncateToInt32* lir) {
   auto input = ToFloatRegister(lir->input());
   auto output = ToRegister(lir->output());
diff --git a/js/src/jit/arm/MacroAssembler-arm.cpp b/js/src/jit/arm/MacroAssembler-arm.cpp
index 50d5d6645c..be8348a1fc 100644
--- a/js/src/jit/arm/MacroAssembler-arm.cpp
+++ b/js/src/jit/arm/MacroAssembler-arm.cpp
@@ -5008,7 +5008,7 @@ static Register ComputePointerForAtomic(MacroAssembler& masm,
 template <typename T>
 static void CompareExchange(MacroAssembler& masm,
                             const wasm::MemoryAccessDesc* access,
-                            Scalar::Type type, const Synchronization& sync,
+                            Scalar::Type type, Synchronization sync,
                             const T& mem, Register oldval, Register newval,
                             Register output) {
   bool signExtend = Scalar::isSignedIntType(type);
@@ -5087,15 +5087,13 @@ static void CompareExchange(MacroAssembler& masm,
   masm.memoryBarrierAfter(sync);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const Address& address, Register oldval,
                                      Register newval, Register output) {
   CompareExchange(*this, nullptr, type, sync, address, oldval, newval, output);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const BaseIndex& address, Register oldval,
                                      Register newval, Register output) {
   CompareExchange(*this, nullptr, type, sync, address, oldval, newval, output);
@@ -5118,7 +5116,7 @@ void MacroAssembler::wasmCompareExchange(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void AtomicExchange(MacroAssembler& masm,
                            const wasm::MemoryAccessDesc* access,
-                           Scalar::Type type, const Synchronization& sync,
+                           Scalar::Type type, Synchronization sync,
                            const T& mem, Register value, Register output) {
   bool signExtend = Scalar::isSignedIntType(type);
   unsigned nbytes = Scalar::byteSize(type);
@@ -5175,15 +5173,13 @@ static void AtomicExchange(MacroAssembler& masm,
   masm.memoryBarrierAfter(sync);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const Address& address, Register value,
                                     Register output) {
   AtomicExchange(*this, nullptr, type, sync, address, value, output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const BaseIndex& address, Register value,
                                     Register output) {
   AtomicExchange(*this, nullptr, type, sync, address, value, output);
@@ -5225,8 +5221,8 @@ void MacroAssembler::wasmAtomicExchange(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void AtomicFetchOp(MacroAssembler& masm,
                           const wasm::MemoryAccessDesc* access,
-                          Scalar::Type type, const Synchronization& sync,
-                          AtomicOp op, const Register& value, const T& mem,
+                          Scalar::Type type, Synchronization sync, AtomicOp op,
+                          const Register& value, const T& mem,
                           Register flagTemp, Register output) {
   bool signExtend = Scalar::isSignedIntType(type);
   unsigned nbytes = Scalar::byteSize(type);
@@ -5274,19 +5270,19 @@ static void AtomicFetchOp(MacroAssembler& masm,
   }
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_add(scratch, output, O2Reg(value));
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_sub(scratch, output, O2Reg(value));
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(scratch, output, O2Reg(value));
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_orr(scratch, output, O2Reg(value));
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_eor(scratch, output, O2Reg(value));
       break;
     default:
@@ -5312,17 +5308,17 @@ static void AtomicFetchOp(MacroAssembler& masm,
   masm.memoryBarrierAfter(sync);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const Address& mem,
-                                   Register temp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const Address& mem, Register temp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, type, sync, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const BaseIndex& mem,
-                                   Register temp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const BaseIndex& mem, Register temp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, type, sync, op, value, mem, temp, output);
 }
 
@@ -5357,8 +5353,8 @@ void MacroAssembler::wasmAtomicFetchOp(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void AtomicEffectOp(MacroAssembler& masm,
                            const wasm::MemoryAccessDesc* access,
-                           Scalar::Type type, const Synchronization& sync,
-                           AtomicOp op, const Register& value, const T& mem,
+                           Scalar::Type type, Synchronization sync, AtomicOp op,
+                           const Register& value, const T& mem,
                            Register flagTemp) {
   unsigned nbytes = Scalar::byteSize(type);
 
@@ -5396,19 +5392,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
   }
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_add(scratch, scratch, O2Reg(value));
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_sub(scratch, scratch, O2Reg(value));
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(scratch, scratch, O2Reg(value));
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_orr(scratch, scratch, O2Reg(value));
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_eor(scratch, scratch, O2Reg(value));
       break;
     default:
@@ -5451,7 +5447,7 @@ void MacroAssembler::wasmAtomicEffectOp(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void AtomicLoad64(MacroAssembler& masm,
                          const wasm::MemoryAccessDesc* access,
-                         const Synchronization& sync, const T& mem,
+                         Synchronization sync, const T& mem,
                          Register64 output) {
   MOZ_ASSERT((output.low.code() & 1) == 0);
   MOZ_ASSERT(output.low.code() + 1 == output.high.code());
@@ -5495,7 +5491,7 @@ void MacroAssembler::wasmAtomicLoad64(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void CompareExchange64(MacroAssembler& masm,
                               const wasm::MemoryAccessDesc* access,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register64 expect, Register64 replace,
                               Register64 output) {
   MOZ_ASSERT(expect != replace && replace != output && output != expect);
@@ -5556,13 +5552,13 @@ void MacroAssembler::wasmCompareExchange64(const wasm::MemoryAccessDesc& access,
                     output);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
-                                       const Address& mem, Register64 expect,
-                                       Register64 replace, Register64 output) {
+void MacroAssembler::compareExchange64(Synchronization sync, const Address& mem,
+                                       Register64 expect, Register64 replace,
+                                       Register64 output) {
   CompareExchange64(*this, nullptr, sync, mem, expect, replace, output);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
+void MacroAssembler::compareExchange64(Synchronization sync,
                                        const BaseIndex& mem, Register64 expect,
                                        Register64 replace, Register64 output) {
   CompareExchange64(*this, nullptr, sync, mem, expect, replace, output);
@@ -5571,7 +5567,7 @@ void MacroAssembler::compareExchange64(const Synchronization& sync,
 template <typename T>
 static void AtomicExchange64(MacroAssembler& masm,
                              const wasm::MemoryAccessDesc* access,
-                             const Synchronization& sync, const T& mem,
+                             Synchronization sync, const T& mem,
                              Register64 value, Register64 output) {
   MOZ_ASSERT(output != value);
 
@@ -5624,13 +5620,12 @@ void MacroAssembler::wasmAtomicExchange64(const wasm::MemoryAccessDesc& access,
   WasmAtomicExchange64(*this, access, mem, value, output);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
-                                      const Address& mem, Register64 value,
-                                      Register64 output) {
+void MacroAssembler::atomicExchange64(Synchronization sync, const Address& mem,
+                                      Register64 value, Register64 output) {
   AtomicExchange64(*this, nullptr, sync, mem, value, output);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
+void MacroAssembler::atomicExchange64(Synchronization sync,
                                       const BaseIndex& mem, Register64 value,
                                       Register64 output) {
   AtomicExchange64(*this, nullptr, sync, mem, value, output);
@@ -5639,9 +5634,8 @@ void MacroAssembler::atomicExchange64(const Synchronization& sync,
 template <typename T>
 static void AtomicFetchOp64(MacroAssembler& masm,
                             const wasm::MemoryAccessDesc* access,
-                            const Synchronization& sync, AtomicOp op,
-                            Register64 value, const T& mem, Register64 temp,
-                            Register64 output) {
+                            Synchronization sync, AtomicOp op, Register64 value,
+                            const T& mem, Register64 temp, Register64 output) {
   MOZ_ASSERT(temp.low != InvalidReg && temp.high != InvalidReg);
   MOZ_ASSERT(output != value);
   MOZ_ASSERT(temp != value);
@@ -5671,23 +5665,23 @@ static void AtomicFetchOp64(MacroAssembler& masm,
                 FaultingCodeOffset(load.getOffset()));
   }
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_add(temp.low, output.low, O2Reg(value.low), SetCC);
       masm.as_adc(temp.high, output.high, O2Reg(value.high));
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_sub(temp.low, output.low, O2Reg(value.low), SetCC);
       masm.as_sbc(temp.high, output.high, O2Reg(value.high));
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(temp.low, output.low, O2Reg(value.low));
       masm.as_and(temp.high, output.high, O2Reg(value.high));
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_orr(temp.low, output.low, O2Reg(value.low));
       masm.as_orr(temp.high, output.high, O2Reg(value.high));
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_eor(temp.low, output.low, O2Reg(value.low));
       masm.as_eor(temp.high, output.high, O2Reg(value.high));
       break;
@@ -5725,25 +5719,25 @@ void MacroAssembler::wasmAtomicFetchOp64(const wasm::MemoryAccessDesc& access,
   WasmAtomicFetchOp64(*this, access, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const Address& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const BaseIndex& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const Address& mem,
                                       Register64 temp) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, temp);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const BaseIndex& mem,
                                       Register64 temp) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, temp);
@@ -5754,7 +5748,7 @@ void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
 
 template <typename T>
 static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register oldval, Register newval, Register temp,
                               AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
@@ -5766,15 +5760,14 @@ static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
-                                       const Address& mem, Register oldval,
-                                       Register newval, Register temp,
-                                       AnyRegister output) {
+                                       Synchronization sync, const Address& mem,
+                                       Register oldval, Register newval,
+                                       Register temp, AnyRegister output) {
   CompareExchangeJS(*this, arrayType, sync, mem, oldval, newval, temp, output);
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
+                                       Synchronization sync,
                                        const BaseIndex& mem, Register oldval,
                                        Register newval, Register temp,
                                        AnyRegister output) {
@@ -5783,9 +5776,8 @@ void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                             const Synchronization& sync, const T& mem,
-                             Register value, Register temp,
-                             AnyRegister output) {
+                             Synchronization sync, const T& mem, Register value,
+                             Register temp, AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicExchange(arrayType, sync, mem, value, temp);
     masm.convertUInt32ToDouble(temp, output.fpu());
@@ -5795,14 +5787,14 @@ static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
-                                      const Address& mem, Register value,
-                                      Register temp, AnyRegister output) {
+                                      Synchronization sync, const Address& mem,
+                                      Register value, Register temp,
+                                      AnyRegister output) {
   AtomicExchangeJS(*this, arrayType, sync, mem, value, temp, output);
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
+                                      Synchronization sync,
                                       const BaseIndex& mem, Register value,
                                       Register temp, AnyRegister output) {
   AtomicExchangeJS(*this, arrayType, sync, mem, value, temp, output);
@@ -5810,9 +5802,9 @@ void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
-                            const Synchronization& sync, AtomicOp op,
-                            Register value, const T& mem, Register temp1,
-                            Register temp2, AnyRegister output) {
+                            Synchronization sync, AtomicOp op, Register value,
+                            const T& mem, Register temp1, Register temp2,
+                            AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicFetchOp(arrayType, sync, op, value, mem, temp2, temp1);
     masm.convertUInt32ToDouble(temp1, output.fpu());
@@ -5822,7 +5814,7 @@ static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const Address& mem,
                                      Register temp1, Register temp2,
                                      AnyRegister output) {
@@ -5830,7 +5822,7 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const BaseIndex& mem,
                                      Register temp1, Register temp2,
                                      AnyRegister output) {
@@ -5838,14 +5830,14 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const BaseIndex& mem,
                                       Register temp) {
   AtomicEffectOp(*this, nullptr, arrayType, sync, op, value, mem, temp);
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const Address& mem,
                                       Register temp) {
   AtomicEffectOp(*this, nullptr, arrayType, sync, op, value, mem, temp);
@@ -5854,25 +5846,23 @@ void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
 // ========================================================================
 // Primitive atomic operations.
 
-void MacroAssembler::atomicLoad64(const Synchronization& sync,
-                                  const Address& mem, Register64 output) {
+void MacroAssembler::atomicLoad64(Synchronization sync, const Address& mem,
+                                  Register64 output) {
   AtomicLoad64(*this, nullptr, sync, mem, output);
 }
 
-void MacroAssembler::atomicLoad64(const Synchronization& sync,
-                                  const BaseIndex& mem, Register64 output) {
+void MacroAssembler::atomicLoad64(Synchronization sync, const BaseIndex& mem,
+                                  Register64 output) {
   AtomicLoad64(*this, nullptr, sync, mem, output);
 }
 
-void MacroAssembler::atomicStore64(const Synchronization& sync,
-                                   const Address& mem, Register64 value,
-                                   Register64 temp) {
+void MacroAssembler::atomicStore64(Synchronization sync, const Address& mem,
+                                   Register64 value, Register64 temp) {
   AtomicExchange64(*this, nullptr, sync, mem, value, temp);
 }
 
-void MacroAssembler::atomicStore64(const Synchronization& sync,
-                                   const BaseIndex& mem, Register64 value,
-                                   Register64 temp) {
+void MacroAssembler::atomicStore64(Synchronization sync, const BaseIndex& mem,
+                                   Register64 value, Register64 temp) {
   AtomicExchange64(*this, nullptr, sync, mem, value, temp);
 }
 
diff --git a/js/src/jit/arm64/CodeGenerator-arm64.cpp b/js/src/jit/arm64/CodeGenerator-arm64.cpp
index ff3ea96a7d..a232135419 100644
--- a/js/src/jit/arm64/CodeGenerator-arm64.cpp
+++ b/js/src/jit/arm64/CodeGenerator-arm64.cpp
@@ -2563,10 +2563,6 @@ void CodeGenerator::visitWasmStoreI64(LWasmStoreI64* lir) {
                     ToRegister(lir->memoryBase()), ToRegister(lir->ptr()));
 }
 
-void CodeGenerator::visitMemoryBarrier(LMemoryBarrier* ins) {
-  masm.memoryBarrier(ins->type());
-}
-
 void CodeGenerator::visitWasmAddOffset(LWasmAddOffset* lir) {
   MWasmAddOffset* mir = lir->mir();
   Register base = ToRegister(lir->base());
diff --git a/js/src/jit/arm64/MacroAssembler-arm64.cpp b/js/src/jit/arm64/MacroAssembler-arm64.cpp
index 682f69df59..e3ec2494ff 100644
--- a/js/src/jit/arm64/MacroAssembler-arm64.cpp
+++ b/js/src/jit/arm64/MacroAssembler-arm64.cpp
@@ -2324,8 +2324,8 @@ template <typename T>
 static void CompareExchange(MacroAssembler& masm,
                             const wasm::MemoryAccessDesc* access,
                             Scalar::Type type, Width targetWidth,
-                            const Synchronization& sync, const T& mem,
-                            Register oldval, Register newval, Register output) {
+                            Synchronization sync, const T& mem, Register oldval,
+                            Register newval, Register output) {
   MOZ_ASSERT(oldval != output && newval != output);
 
   vixl::UseScratchRegisterScope temps(&masm);
@@ -2395,8 +2395,8 @@ template <typename T>
 static void AtomicExchange(MacroAssembler& masm,
                            const wasm::MemoryAccessDesc* access,
                            Scalar::Type type, Width targetWidth,
-                           const Synchronization& sync, const T& mem,
-                           Register value, Register output) {
+                           Synchronization sync, const T& mem, Register value,
+                           Register output) {
   MOZ_ASSERT(value != output);
 
   vixl::UseScratchRegisterScope temps(&masm);
@@ -2458,9 +2458,8 @@ template <bool wantResult, typename T>
 static void AtomicFetchOp(MacroAssembler& masm,
                           const wasm::MemoryAccessDesc* access,
                           Scalar::Type type, Width targetWidth,
-                          const Synchronization& sync, AtomicOp op,
-                          const T& mem, Register value, Register temp,
-                          Register output) {
+                          Synchronization sync, AtomicOp op, const T& mem,
+                          Register value, Register temp, Register output) {
   MOZ_ASSERT(value != output);
   MOZ_ASSERT(value != temp);
   MOZ_ASSERT_IF(wantResult, output != temp);
@@ -2514,25 +2513,25 @@ static void AtomicFetchOp(MacroAssembler& masm,
   }
 
     switch (op) {
-      case AtomicFetchAddOp:
+      case AtomicOp::Add:
         FETCH_OP_CASE(add, value);
         break;
-      case AtomicFetchSubOp: {
+      case AtomicOp::Sub: {
         Register scratch = temps.AcquireX().asUnsized();
         masm.Neg(X(scratch), X(value));
         FETCH_OP_CASE(add, scratch);
         break;
       }
-      case AtomicFetchAndOp: {
+      case AtomicOp::And: {
         Register scratch = temps.AcquireX().asUnsized();
         masm.Eor(X(scratch), X(value), Operand(~0));
         FETCH_OP_CASE(clr, scratch);
         break;
       }
-      case AtomicFetchOrOp:
+      case AtomicOp::Or:
         FETCH_OP_CASE(set, value);
         break;
-      case AtomicFetchXorOp:
+      case AtomicOp::Xor:
         FETCH_OP_CASE(eor, value);
         break;
     }
@@ -2558,19 +2557,19 @@ static void AtomicFetchOp(MacroAssembler& masm,
   masm.bind(&again);
   LoadExclusive(masm, access, type, targetWidth, ptr, output);
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.Add(X(temp), X(output), X(value));
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.Sub(X(temp), X(output), X(value));
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.And(X(temp), X(output), X(value));
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.Orr(X(temp), X(output), X(value));
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.Eor(X(temp), X(output), X(value));
       break;
   }
@@ -2583,72 +2582,69 @@ static void AtomicFetchOp(MacroAssembler& masm,
   masm.memoryBarrierAfter(sync);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const Address& mem, Register oldval,
                                      Register newval, Register output) {
   CompareExchange(*this, nullptr, type, Width::_32, sync, mem, oldval, newval,
                   output);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const BaseIndex& mem, Register oldval,
                                      Register newval, Register output) {
   CompareExchange(*this, nullptr, type, Width::_32, sync, mem, oldval, newval,
                   output);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
-                                       const Address& mem, Register64 expect,
-                                       Register64 replace, Register64 output) {
+void MacroAssembler::compareExchange64(Synchronization sync, const Address& mem,
+                                       Register64 expect, Register64 replace,
+                                       Register64 output) {
   CompareExchange(*this, nullptr, Scalar::Int64, Width::_64, sync, mem,
                   expect.reg, replace.reg, output.reg);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
+void MacroAssembler::compareExchange64(Synchronization sync,
                                        const BaseIndex& mem, Register64 expect,
                                        Register64 replace, Register64 output) {
   CompareExchange(*this, nullptr, Scalar::Int64, Width::_64, sync, mem,
                   expect.reg, replace.reg, output.reg);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
-                                      const Address& mem, Register64 value,
-                                      Register64 output) {
+void MacroAssembler::atomicExchange64(Synchronization sync, const Address& mem,
+                                      Register64 value, Register64 output) {
   AtomicExchange(*this, nullptr, Scalar::Int64, Width::_64, sync, mem,
                  value.reg, output.reg);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
+void MacroAssembler::atomicExchange64(Synchronization sync,
                                       const BaseIndex& mem, Register64 value,
                                       Register64 output) {
   AtomicExchange(*this, nullptr, Scalar::Int64, Width::_64, sync, mem,
                  value.reg, output.reg);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const Address& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp<true>(*this, nullptr, Scalar::Int64, Width::_64, sync, op, mem,
                       value.reg, temp.reg, output.reg);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const BaseIndex& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp<true>(*this, nullptr, Scalar::Int64, Width::_64, sync, op, mem,
                       value.reg, temp.reg, output.reg);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const Address& mem,
                                       Register64 temp) {
   AtomicFetchOp<false>(*this, nullptr, Scalar::Int64, Width::_64, sync, op, mem,
                        value.reg, temp.reg, temp.reg);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const BaseIndex& mem,
                                       Register64 temp) {
   AtomicFetchOp<false>(*this, nullptr, Scalar::Int64, Width::_64, sync, op, mem,
@@ -2669,15 +2665,13 @@ void MacroAssembler::wasmCompareExchange(const wasm::MemoryAccessDesc& access,
                   oldval, newval, output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const Address& mem, Register value,
                                     Register output) {
   AtomicExchange(*this, nullptr, type, Width::_32, sync, mem, value, output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const BaseIndex& mem, Register value,
                                     Register output) {
   AtomicExchange(*this, nullptr, type, Width::_32, sync, mem, value, output);
@@ -2697,18 +2691,18 @@ void MacroAssembler::wasmAtomicExchange(const wasm::MemoryAccessDesc& access,
                  value, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const Address& mem,
-                                   Register temp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const Address& mem, Register temp,
+                                   Register output) {
   AtomicFetchOp<true>(*this, nullptr, type, Width::_32, sync, op, mem, value,
                       temp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const BaseIndex& mem,
-                                   Register temp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const BaseIndex& mem, Register temp,
+                                   Register output) {
   AtomicFetchOp<true>(*this, nullptr, type, Width::_32, sync, op, mem, value,
                       temp, output);
 }
@@ -2804,7 +2798,7 @@ void MacroAssembler::wasmAtomicEffectOp64(const wasm::MemoryAccessDesc& access,
 
 template <typename T>
 static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register oldval, Register newval, Register temp,
                               AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
@@ -2816,15 +2810,14 @@ static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
-                                       const Address& mem, Register oldval,
-                                       Register newval, Register temp,
-                                       AnyRegister output) {
+                                       Synchronization sync, const Address& mem,
+                                       Register oldval, Register newval,
+                                       Register temp, AnyRegister output) {
   CompareExchangeJS(*this, arrayType, sync, mem, oldval, newval, temp, output);
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
+                                       Synchronization sync,
                                        const BaseIndex& mem, Register oldval,
                                        Register newval, Register temp,
                                        AnyRegister output) {
@@ -2833,9 +2826,8 @@ void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                             const Synchronization& sync, const T& mem,
-                             Register value, Register temp,
-                             AnyRegister output) {
+                             Synchronization sync, const T& mem, Register value,
+                             Register temp, AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicExchange(arrayType, sync, mem, value, temp);
     masm.convertUInt32ToDouble(temp, output.fpu());
@@ -2845,14 +2837,14 @@ static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
-                                      const Address& mem, Register value,
-                                      Register temp, AnyRegister output) {
+                                      Synchronization sync, const Address& mem,
+                                      Register value, Register temp,
+                                      AnyRegister output) {
   AtomicExchangeJS(*this, arrayType, sync, mem, value, temp, output);
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
+                                      Synchronization sync,
                                       const BaseIndex& mem, Register value,
                                       Register temp, AnyRegister output) {
   AtomicExchangeJS(*this, arrayType, sync, mem, value, temp, output);
@@ -2860,9 +2852,9 @@ void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
-                            const Synchronization& sync, AtomicOp op,
-                            Register value, const T& mem, Register temp1,
-                            Register temp2, AnyRegister output) {
+                            Synchronization sync, AtomicOp op, Register value,
+                            const T& mem, Register temp1, Register temp2,
+                            AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicFetchOp(arrayType, sync, op, value, mem, temp2, temp1);
     masm.convertUInt32ToDouble(temp1, output.fpu());
@@ -2872,7 +2864,7 @@ static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const Address& mem,
                                      Register temp1, Register temp2,
                                      AnyRegister output) {
@@ -2880,7 +2872,7 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const BaseIndex& mem,
                                      Register temp1, Register temp2,
                                      AnyRegister output) {
@@ -2888,7 +2880,7 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const BaseIndex& mem,
                                       Register temp) {
   AtomicFetchOp<false>(*this, nullptr, arrayType, Width::_32, sync, op, mem,
@@ -2896,7 +2888,7 @@ void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const Address& mem,
                                       Register temp) {
   AtomicFetchOp<false>(*this, nullptr, arrayType, Width::_32, sync, op, mem,
diff --git a/js/src/jit/loong64/Assembler-loong64.cpp b/js/src/jit/loong64/Assembler-loong64.cpp
index 6c7a5f53da..07dac546c1 100644
--- a/js/src/jit/loong64/Assembler-loong64.cpp
+++ b/js/src/jit/loong64/Assembler-loong64.cpp
@@ -103,15 +103,15 @@ uint32_t js::jit::SA3(uint32_t value) {
 }
 
 Register js::jit::toRK(Instruction& i) {
-  return Register::FromCode((i.encode() & RKMask) >> RKShift);
+  return Register::FromCode(((i.encode() >> RKShift) & RKMask));
 }
 
 Register js::jit::toRJ(Instruction& i) {
-  return Register::FromCode((i.encode() & RJMask) >> RJShift);
+  return Register::FromCode(((i.encode() >> RJShift) & RJMask));
 }
 
 Register js::jit::toRD(Instruction& i) {
-  return Register::FromCode((i.encode() & RDMask) >> RDShift);
+  return Register::FromCode(((i.encode() >> RDShift) & RDMask));
 }
 
 Register js::jit::toR(Instruction& i) {
diff --git a/js/src/jit/loong64/Assembler-loong64.h b/js/src/jit/loong64/Assembler-loong64.h
index 4e0b8d6b66..a385d71f5f 100644
--- a/js/src/jit/loong64/Assembler-loong64.h
+++ b/js/src/jit/loong64/Assembler-loong64.h
@@ -309,6 +309,7 @@ static const uint32_t Imm26Shift = 0;
 static const uint32_t Imm26Bits = 26;
 static const uint32_t CODEShift = 0;
 static const uint32_t CODEBits = 15;
+static const uint32_t HINTBits = 5;
 
 // LoongArch instruction field bit masks.
 static const uint32_t RJMask = (1 << RJBits) - 1;
@@ -316,7 +317,9 @@ static const uint32_t RKMask = (1 << RKBits) - 1;
 static const uint32_t RDMask = (1 << RDBits) - 1;
 static const uint32_t SA2Mask = (1 << SA2Bits) - 1;
 static const uint32_t SA3Mask = (1 << SA3Bits) - 1;
+static const uint32_t CDMask = (1 << CDBits) - 1;
 static const uint32_t CONDMask = (1 << CONDBits) - 1;
+static const uint32_t HINTMask = (1 << HINTBits) - 1;
 static const uint32_t LSBWMask = (1 << LSBWBits) - 1;
 static const uint32_t LSBDMask = (1 << LSBDBits) - 1;
 static const uint32_t MSBWMask = (1 << MSBWBits) - 1;
@@ -1611,7 +1614,7 @@ class InstReg : public Instruction {
   InstReg(OpcodeField op, int32_t cond, FloatRegister fk, FloatRegister fj,
           AssemblerLOONG64::FPConditionBit cd)
       : Instruction(op | (cond & CONDMask) << CONDShift | FK(fk) | FJ(fj) |
-                    (cd & RDMask)) {
+                    (cd & CDMask)) {
     MOZ_ASSERT(is_uintN(cond, 5));
   }
 
@@ -1700,7 +1703,7 @@ class InstImm : public Instruction {
   }
   InstImm(OpcodeField op, int32_t si12, Register rj, int32_t hint)
       : Instruction(op | (si12 & Imm12Mask) << Imm12Shift | RJ(rj) |
-                    (hint & RDMask)) {
+                    (hint & HINTMask)) {
     MOZ_ASSERT(op == op_preld);
   }
   InstImm(OpcodeField op, int32_t msb, int32_t lsb, Register rj, Register rd,
@@ -1738,7 +1741,9 @@ class InstImm : public Instruction {
   uint32_t extractRJ() {
     return extractBitField(RJShift + RJBits - 1, RJShift);
   }
-  void setRJ(uint32_t rj) { data = (data & ~RJMask) | (rj << RJShift); }
+  void setRJ(uint32_t rj) {
+    data = (data & ~(RJMask << RJShift)) | (rj << RJShift);
+  }
   uint32_t extractRD() {
     return extractBitField(RDShift + RDBits - 1, RDShift);
   }
diff --git a/js/src/jit/loong64/CodeGenerator-loong64.cpp b/js/src/jit/loong64/CodeGenerator-loong64.cpp
index 4c4dfd18ff..76d3047680 100644
--- a/js/src/jit/loong64/CodeGenerator-loong64.cpp
+++ b/js/src/jit/loong64/CodeGenerator-loong64.cpp
@@ -1988,10 +1988,6 @@ void CodeGenerator::visitNotF(LNotF* ins) {
                           Assembler::DoubleEqualOrUnordered);
 }
 
-void CodeGenerator::visitMemoryBarrier(LMemoryBarrier* ins) {
-  masm.memoryBarrier(ins->type());
-}
-
 void CodeGenerator::visitWasmLoad(LWasmLoad* lir) { emitWasmLoad(lir); }
 
 void CodeGenerator::visitWasmStore(LWasmStore* lir) { emitWasmStore(lir); }
diff --git a/js/src/jit/loong64/MacroAssembler-loong64.cpp b/js/src/jit/loong64/MacroAssembler-loong64.cpp
index 528c120058..1c07f7f91a 100644
--- a/js/src/jit/loong64/MacroAssembler-loong64.cpp
+++ b/js/src/jit/loong64/MacroAssembler-loong64.cpp
@@ -3357,7 +3357,7 @@ void MacroAssembler::convertIntPtrToDouble(Register src, FloatRegister dest) {
 template <typename T>
 static void CompareExchange(MacroAssembler& masm,
                             const wasm::MemoryAccessDesc* access,
-                            Scalar::Type type, const Synchronization& sync,
+                            Scalar::Type type, Synchronization sync,
                             const T& mem, Register oldval, Register newval,
                             Register valueTemp, Register offsetTemp,
                             Register maskTemp, Register output) {
@@ -3463,7 +3463,7 @@ static void CompareExchange(MacroAssembler& masm,
 template <typename T>
 static void CompareExchange64(MacroAssembler& masm,
                               const wasm::MemoryAccessDesc* access,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register64 expect, Register64 replace,
                               Register64 output) {
   MOZ_ASSERT(expect != output && replace != output);
@@ -3499,7 +3499,7 @@ static void CompareExchange64(MacroAssembler& masm,
 template <typename T>
 static void AtomicExchange(MacroAssembler& masm,
                            const wasm::MemoryAccessDesc* access,
-                           Scalar::Type type, const Synchronization& sync,
+                           Scalar::Type type, Synchronization sync,
                            const T& mem, Register value, Register valueTemp,
                            Register offsetTemp, Register maskTemp,
                            Register output) {
@@ -3602,7 +3602,7 @@ static void AtomicExchange(MacroAssembler& masm,
 template <typename T>
 static void AtomicExchange64(MacroAssembler& masm,
                              const wasm::MemoryAccessDesc* access,
-                             const Synchronization& sync, const T& mem,
+                             Synchronization sync, const T& mem,
                              Register64 value, Register64 output) {
   MOZ_ASSERT(value != output);
   ScratchRegisterScope scratch(masm);
@@ -3633,10 +3633,10 @@ static void AtomicExchange64(MacroAssembler& masm,
 template <typename T>
 static void AtomicFetchOp(MacroAssembler& masm,
                           const wasm::MemoryAccessDesc* access,
-                          Scalar::Type type, const Synchronization& sync,
-                          AtomicOp op, const T& mem, Register value,
-                          Register valueTemp, Register offsetTemp,
-                          Register maskTemp, Register output) {
+                          Scalar::Type type, Synchronization sync, AtomicOp op,
+                          const T& mem, Register value, Register valueTemp,
+                          Register offsetTemp, Register maskTemp,
+                          Register output) {
   ScratchRegisterScope scratch(masm);
   SecondScratchRegisterScope scratch2(masm);
   bool signExtend = Scalar::isSignedIntType(type);
@@ -3671,19 +3671,19 @@ static void AtomicFetchOp(MacroAssembler& masm,
     masm.as_ll_w(output, scratch, 0);
 
     switch (op) {
-      case AtomicFetchAddOp:
+      case AtomicOp::Add:
         masm.as_add_w(scratch2, output, value);
         break;
-      case AtomicFetchSubOp:
+      case AtomicOp::Sub:
         masm.as_sub_w(scratch2, output, value);
         break;
-      case AtomicFetchAndOp:
+      case AtomicOp::And:
         masm.as_and(scratch2, output, value);
         break;
-      case AtomicFetchOrOp:
+      case AtomicOp::Or:
         masm.as_or(scratch2, output, value);
         break;
-      case AtomicFetchXorOp:
+      case AtomicOp::Xor:
         masm.as_xor(scratch2, output, value);
         break;
       default:
@@ -3718,19 +3718,19 @@ static void AtomicFetchOp(MacroAssembler& masm,
   masm.as_srl_w(output, scratch2, offsetTemp);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_add_w(valueTemp, output, value);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_sub_w(valueTemp, output, value);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(valueTemp, output, value);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_or(valueTemp, output, value);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_xor(valueTemp, output, value);
       break;
     default:
@@ -3778,9 +3778,8 @@ static void AtomicFetchOp(MacroAssembler& masm,
 template <typename T>
 static void AtomicFetchOp64(MacroAssembler& masm,
                             const wasm::MemoryAccessDesc* access,
-                            const Synchronization& sync, AtomicOp op,
-                            Register64 value, const T& mem, Register64 temp,
-                            Register64 output) {
+                            Synchronization sync, AtomicOp op, Register64 value,
+                            const T& mem, Register64 temp, Register64 output) {
   MOZ_ASSERT(value != output);
   MOZ_ASSERT(value != temp);
   ScratchRegisterScope scratch(masm);
@@ -3801,19 +3800,19 @@ static void AtomicFetchOp64(MacroAssembler& masm,
   masm.as_ll_d(output.reg, scratch, 0);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_add_d(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_sub_d(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_or(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_xor(temp.reg, output.reg, value.reg);
       break;
     default:
@@ -3826,8 +3825,7 @@ static void AtomicFetchOp64(MacroAssembler& masm,
   masm.memoryBarrierAfter(sync);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const Address& mem, Register oldval,
                                      Register newval, Register valueTemp,
                                      Register offsetTemp, Register maskTemp,
@@ -3836,8 +3834,7 @@ void MacroAssembler::compareExchange(Scalar::Type type,
                   offsetTemp, maskTemp, output);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const BaseIndex& mem, Register oldval,
                                      Register newval, Register valueTemp,
                                      Register offsetTemp, Register maskTemp,
@@ -3846,13 +3843,13 @@ void MacroAssembler::compareExchange(Scalar::Type type,
                   offsetTemp, maskTemp, output);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
-                                       const Address& mem, Register64 expect,
-                                       Register64 replace, Register64 output) {
+void MacroAssembler::compareExchange64(Synchronization sync, const Address& mem,
+                                       Register64 expect, Register64 replace,
+                                       Register64 output) {
   CompareExchange64(*this, nullptr, sync, mem, expect, replace, output);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
+void MacroAssembler::compareExchange64(Synchronization sync,
                                        const BaseIndex& mem, Register64 expect,
                                        Register64 replace, Register64 output) {
   CompareExchange64(*this, nullptr, sync, mem, expect, replace, output);
@@ -3894,8 +3891,7 @@ void MacroAssembler::wasmCompareExchange64(const wasm::MemoryAccessDesc& access,
                     output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const Address& mem, Register value,
                                     Register valueTemp, Register offsetTemp,
                                     Register maskTemp, Register output) {
@@ -3903,8 +3899,7 @@ void MacroAssembler::atomicExchange(Scalar::Type type,
                  maskTemp, output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const BaseIndex& mem, Register value,
                                     Register valueTemp, Register offsetTemp,
                                     Register maskTemp, Register output) {
@@ -3912,13 +3907,12 @@ void MacroAssembler::atomicExchange(Scalar::Type type,
                  maskTemp, output);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
-                                      const Address& mem, Register64 value,
-                                      Register64 output) {
+void MacroAssembler::atomicExchange64(Synchronization sync, const Address& mem,
+                                      Register64 value, Register64 output) {
   AtomicExchange64(*this, nullptr, sync, mem, value, output);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
+void MacroAssembler::atomicExchange64(Synchronization sync,
                                       const BaseIndex& mem, Register64 value,
                                       Register64 output) {
   AtomicExchange64(*this, nullptr, sync, mem, value, output);
@@ -3940,43 +3934,43 @@ void MacroAssembler::wasmAtomicExchange(const wasm::MemoryAccessDesc& access,
                  valueTemp, offsetTemp, maskTemp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const Address& mem,
-                                   Register valueTemp, Register offsetTemp,
-                                   Register maskTemp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const Address& mem, Register valueTemp,
+                                   Register offsetTemp, Register maskTemp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, type, sync, op, mem, value, valueTemp,
                 offsetTemp, maskTemp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const BaseIndex& mem,
-                                   Register valueTemp, Register offsetTemp,
-                                   Register maskTemp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const BaseIndex& mem, Register valueTemp,
+                                   Register offsetTemp, Register maskTemp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, type, sync, op, mem, value, valueTemp,
                 offsetTemp, maskTemp, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const Address& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const BaseIndex& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const Address& mem,
                                       Register64 temp) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, temp);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const BaseIndex& mem,
                                       Register64 temp) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, temp);
@@ -4003,10 +3997,9 @@ void MacroAssembler::wasmAtomicFetchOp(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void AtomicEffectOp(MacroAssembler& masm,
                            const wasm::MemoryAccessDesc* access,
-                           Scalar::Type type, const Synchronization& sync,
-                           AtomicOp op, const T& mem, Register value,
-                           Register valueTemp, Register offsetTemp,
-                           Register maskTemp) {
+                           Scalar::Type type, Synchronization sync, AtomicOp op,
+                           const T& mem, Register value, Register valueTemp,
+                           Register offsetTemp, Register maskTemp) {
   ScratchRegisterScope scratch(masm);
   SecondScratchRegisterScope scratch2(masm);
   unsigned nbytes = Scalar::byteSize(type);
@@ -4040,19 +4033,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
     masm.as_ll_w(scratch2, scratch, 0);
 
     switch (op) {
-      case AtomicFetchAddOp:
+      case AtomicOp::Add:
         masm.as_add_w(scratch2, scratch2, value);
         break;
-      case AtomicFetchSubOp:
+      case AtomicOp::Sub:
         masm.as_sub_w(scratch2, scratch2, value);
         break;
-      case AtomicFetchAndOp:
+      case AtomicOp::And:
         masm.as_and(scratch2, scratch2, value);
         break;
-      case AtomicFetchOrOp:
+      case AtomicOp::Or:
         masm.as_or(scratch2, scratch2, value);
         break;
-      case AtomicFetchXorOp:
+      case AtomicOp::Xor:
         masm.as_xor(scratch2, scratch2, value);
         break;
       default:
@@ -4087,19 +4080,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
   masm.as_srl_w(valueTemp, scratch2, offsetTemp);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_add_w(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_sub_w(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_or(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_xor(valueTemp, valueTemp, value);
       break;
     default:
@@ -4184,7 +4177,7 @@ void MacroAssembler::wasmAtomicFetchOp64(const wasm::MemoryAccessDesc& access,
 
 template <typename T>
 static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register oldval, Register newval,
                               Register valueTemp, Register offsetTemp,
                               Register maskTemp, Register temp,
@@ -4201,10 +4194,10 @@ static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                             const Synchronization& sync, const T& mem,
-                             Register value, Register valueTemp,
-                             Register offsetTemp, Register maskTemp,
-                             Register temp, AnyRegister output) {
+                             Synchronization sync, const T& mem, Register value,
+                             Register valueTemp, Register offsetTemp,
+                             Register maskTemp, Register temp,
+                             AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicExchange(arrayType, sync, mem, value, valueTemp, offsetTemp,
                         maskTemp, temp);
@@ -4217,8 +4210,8 @@ static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
-                            const Synchronization& sync, AtomicOp op,
-                            Register value, const T& mem, Register valueTemp,
+                            Synchronization sync, AtomicOp op, Register value,
+                            const T& mem, Register valueTemp,
                             Register offsetTemp, Register maskTemp,
                             Register temp, AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
@@ -4232,17 +4225,17 @@ static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
-                                       const Address& mem, Register oldval,
-                                       Register newval, Register valueTemp,
-                                       Register offsetTemp, Register maskTemp,
-                                       Register temp, AnyRegister output) {
+                                       Synchronization sync, const Address& mem,
+                                       Register oldval, Register newval,
+                                       Register valueTemp, Register offsetTemp,
+                                       Register maskTemp, Register temp,
+                                       AnyRegister output) {
   CompareExchangeJS(*this, arrayType, sync, mem, oldval, newval, valueTemp,
                     offsetTemp, maskTemp, temp, output);
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
+                                       Synchronization sync,
                                        const BaseIndex& mem, Register oldval,
                                        Register newval, Register valueTemp,
                                        Register offsetTemp, Register maskTemp,
@@ -4252,17 +4245,16 @@ void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
-                                      const Address& mem, Register value,
-                                      Register valueTemp, Register offsetTemp,
-                                      Register maskTemp, Register temp,
-                                      AnyRegister output) {
+                                      Synchronization sync, const Address& mem,
+                                      Register value, Register valueTemp,
+                                      Register offsetTemp, Register maskTemp,
+                                      Register temp, AnyRegister output) {
   AtomicExchangeJS(*this, arrayType, sync, mem, value, valueTemp, offsetTemp,
                    maskTemp, temp, output);
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
+                                      Synchronization sync,
                                       const BaseIndex& mem, Register value,
                                       Register valueTemp, Register offsetTemp,
                                       Register maskTemp, Register temp,
@@ -4272,7 +4264,7 @@ void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const Address& mem,
                                      Register valueTemp, Register offsetTemp,
                                      Register maskTemp, Register temp,
@@ -4282,7 +4274,7 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const BaseIndex& mem,
                                      Register valueTemp, Register offsetTemp,
                                      Register maskTemp, Register temp,
@@ -4292,7 +4284,7 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const BaseIndex& mem,
                                       Register valueTemp, Register offsetTemp,
                                       Register maskTemp) {
@@ -4301,7 +4293,7 @@ void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const Address& mem,
                                       Register valueTemp, Register offsetTemp,
                                       Register maskTemp) {
diff --git a/js/src/jit/mips-shared/CodeGenerator-mips-shared.cpp b/js/src/jit/mips-shared/CodeGenerator-mips-shared.cpp
index 424ddab061..f7f1d7a16d 100644
--- a/js/src/jit/mips-shared/CodeGenerator-mips-shared.cpp
+++ b/js/src/jit/mips-shared/CodeGenerator-mips-shared.cpp
@@ -1401,10 +1401,6 @@ void CodeGenerator::visitNotF(LNotF* ins) {
                           Assembler::DoubleEqualOrUnordered);
 }
 
-void CodeGenerator::visitMemoryBarrier(LMemoryBarrier* ins) {
-  masm.memoryBarrier(ins->type());
-}
-
 void CodeGeneratorMIPSShared::generateInvalidateEpilogue() {
   // Ensure that there is enough space in the buffer for the OsiPoint
   // patching to occur. Otherwise, we could overwrite the invalidation
diff --git a/js/src/jit/mips-shared/MacroAssembler-mips-shared.cpp b/js/src/jit/mips-shared/MacroAssembler-mips-shared.cpp
index 052c76ba0f..284bbe0a12 100644
--- a/js/src/jit/mips-shared/MacroAssembler-mips-shared.cpp
+++ b/js/src/jit/mips-shared/MacroAssembler-mips-shared.cpp
@@ -2262,7 +2262,7 @@ void MacroAssembler::enterFakeExitFrameForWasm(Register cxreg, Register scratch,
 template <typename T>
 static void CompareExchange(MacroAssembler& masm,
                             const wasm::MemoryAccessDesc* access,
-                            Scalar::Type type, const Synchronization& sync,
+                            Scalar::Type type, Synchronization sync,
                             const T& mem, Register oldval, Register newval,
                             Register valueTemp, Register offsetTemp,
                             Register maskTemp, Register output) {
@@ -2366,8 +2366,7 @@ static void CompareExchange(MacroAssembler& masm,
   masm.bind(&end);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const Address& mem, Register oldval,
                                      Register newval, Register valueTemp,
                                      Register offsetTemp, Register maskTemp,
@@ -2376,8 +2375,7 @@ void MacroAssembler::compareExchange(Scalar::Type type,
                   offsetTemp, maskTemp, output);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const BaseIndex& mem, Register oldval,
                                      Register newval, Register valueTemp,
                                      Register offsetTemp, Register maskTemp,
@@ -2407,7 +2405,7 @@ void MacroAssembler::wasmCompareExchange(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void AtomicExchange(MacroAssembler& masm,
                            const wasm::MemoryAccessDesc* access,
-                           Scalar::Type type, const Synchronization& sync,
+                           Scalar::Type type, Synchronization sync,
                            const T& mem, Register value, Register valueTemp,
                            Register offsetTemp, Register maskTemp,
                            Register output) {
@@ -2508,8 +2506,7 @@ static void AtomicExchange(MacroAssembler& masm,
   masm.memoryBarrierAfter(sync);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const Address& mem, Register value,
                                     Register valueTemp, Register offsetTemp,
                                     Register maskTemp, Register output) {
@@ -2517,8 +2514,7 @@ void MacroAssembler::atomicExchange(Scalar::Type type,
                  maskTemp, output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const BaseIndex& mem, Register value,
                                     Register valueTemp, Register offsetTemp,
                                     Register maskTemp, Register output) {
@@ -2545,10 +2541,10 @@ void MacroAssembler::wasmAtomicExchange(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void AtomicFetchOp(MacroAssembler& masm,
                           const wasm::MemoryAccessDesc* access,
-                          Scalar::Type type, const Synchronization& sync,
-                          AtomicOp op, const T& mem, Register value,
-                          Register valueTemp, Register offsetTemp,
-                          Register maskTemp, Register output) {
+                          Scalar::Type type, Synchronization sync, AtomicOp op,
+                          const T& mem, Register value, Register valueTemp,
+                          Register offsetTemp, Register maskTemp,
+                          Register output) {
   bool signExtend = Scalar::isSignedIntType(type);
   unsigned nbytes = Scalar::byteSize(type);
 
@@ -2580,19 +2576,19 @@ static void AtomicFetchOp(MacroAssembler& masm,
     masm.as_ll(output, SecondScratchReg, 0);
 
     switch (op) {
-      case AtomicFetchAddOp:
+      case AtomicOp::Add:
         masm.as_addu(ScratchRegister, output, value);
         break;
-      case AtomicFetchSubOp:
+      case AtomicOp::Sub:
         masm.as_subu(ScratchRegister, output, value);
         break;
-      case AtomicFetchAndOp:
+      case AtomicOp::And:
         masm.as_and(ScratchRegister, output, value);
         break;
-      case AtomicFetchOrOp:
+      case AtomicOp::Or:
         masm.as_or(ScratchRegister, output, value);
         break;
-      case AtomicFetchXorOp:
+      case AtomicOp::Xor:
         masm.as_xor(ScratchRegister, output, value);
         break;
       default:
@@ -2630,19 +2626,19 @@ static void AtomicFetchOp(MacroAssembler& masm,
   masm.as_srlv(output, ScratchRegister, offsetTemp);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_addu(valueTemp, output, value);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_subu(valueTemp, output, value);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(valueTemp, output, value);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_or(valueTemp, output, value);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_xor(valueTemp, output, value);
       break;
     default:
@@ -2688,20 +2684,20 @@ static void AtomicFetchOp(MacroAssembler& masm,
   masm.memoryBarrierAfter(sync);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const Address& mem,
-                                   Register valueTemp, Register offsetTemp,
-                                   Register maskTemp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const Address& mem, Register valueTemp,
+                                   Register offsetTemp, Register maskTemp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, type, sync, op, mem, value, valueTemp,
                 offsetTemp, maskTemp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const BaseIndex& mem,
-                                   Register valueTemp, Register offsetTemp,
-                                   Register maskTemp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const BaseIndex& mem, Register valueTemp,
+                                   Register offsetTemp, Register maskTemp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, type, sync, op, mem, value, valueTemp,
                 offsetTemp, maskTemp, output);
 }
@@ -2727,10 +2723,9 @@ void MacroAssembler::wasmAtomicFetchOp(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void AtomicEffectOp(MacroAssembler& masm,
                            const wasm::MemoryAccessDesc* access,
-                           Scalar::Type type, const Synchronization& sync,
-                           AtomicOp op, const T& mem, Register value,
-                           Register valueTemp, Register offsetTemp,
-                           Register maskTemp) {
+                           Scalar::Type type, Synchronization sync, AtomicOp op,
+                           const T& mem, Register value, Register valueTemp,
+                           Register offsetTemp, Register maskTemp) {
   unsigned nbytes = Scalar::byteSize(type);
 
   switch (nbytes) {
@@ -2761,19 +2756,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
     masm.as_ll(ScratchRegister, SecondScratchReg, 0);
 
     switch (op) {
-      case AtomicFetchAddOp:
+      case AtomicOp::Add:
         masm.as_addu(ScratchRegister, ScratchRegister, value);
         break;
-      case AtomicFetchSubOp:
+      case AtomicOp::Sub:
         masm.as_subu(ScratchRegister, ScratchRegister, value);
         break;
-      case AtomicFetchAndOp:
+      case AtomicOp::And:
         masm.as_and(ScratchRegister, ScratchRegister, value);
         break;
-      case AtomicFetchOrOp:
+      case AtomicOp::Or:
         masm.as_or(ScratchRegister, ScratchRegister, value);
         break;
-      case AtomicFetchXorOp:
+      case AtomicOp::Xor:
         masm.as_xor(ScratchRegister, ScratchRegister, value);
         break;
       default:
@@ -2811,19 +2806,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
   masm.as_srlv(valueTemp, ScratchRegister, offsetTemp);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_addu(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_subu(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_or(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_xor(valueTemp, valueTemp, value);
       break;
     default:
@@ -2875,7 +2870,7 @@ void MacroAssembler::wasmAtomicEffectOp(const wasm::MemoryAccessDesc& access,
 
 template <typename T>
 static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register oldval, Register newval,
                               Register valueTemp, Register offsetTemp,
                               Register maskTemp, Register temp,
@@ -2891,17 +2886,17 @@ static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
-                                       const Address& mem, Register oldval,
-                                       Register newval, Register valueTemp,
-                                       Register offsetTemp, Register maskTemp,
-                                       Register temp, AnyRegister output) {
+                                       Synchronization sync, const Address& mem,
+                                       Register oldval, Register newval,
+                                       Register valueTemp, Register offsetTemp,
+                                       Register maskTemp, Register temp,
+                                       AnyRegister output) {
   CompareExchangeJS(*this, arrayType, sync, mem, oldval, newval, valueTemp,
                     offsetTemp, maskTemp, temp, output);
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
+                                       Synchronization sync,
                                        const BaseIndex& mem, Register oldval,
                                        Register newval, Register valueTemp,
                                        Register offsetTemp, Register maskTemp,
@@ -2912,10 +2907,10 @@ void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                             const Synchronization& sync, const T& mem,
-                             Register value, Register valueTemp,
-                             Register offsetTemp, Register maskTemp,
-                             Register temp, AnyRegister output) {
+                             Synchronization sync, const T& mem, Register value,
+                             Register valueTemp, Register offsetTemp,
+                             Register maskTemp, Register temp,
+                             AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicExchange(arrayType, sync, mem, value, valueTemp, offsetTemp,
                         maskTemp, temp);
@@ -2927,17 +2922,16 @@ static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
-                                      const Address& mem, Register value,
-                                      Register valueTemp, Register offsetTemp,
-                                      Register maskTemp, Register temp,
-                                      AnyRegister output) {
+                                      Synchronization sync, const Address& mem,
+                                      Register value, Register valueTemp,
+                                      Register offsetTemp, Register maskTemp,
+                                      Register temp, AnyRegister output) {
   AtomicExchangeJS(*this, arrayType, sync, mem, value, valueTemp, offsetTemp,
                    maskTemp, temp, output);
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
+                                      Synchronization sync,
                                       const BaseIndex& mem, Register value,
                                       Register valueTemp, Register offsetTemp,
                                       Register maskTemp, Register temp,
@@ -2948,8 +2942,8 @@ void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
-                            const Synchronization& sync, AtomicOp op,
-                            Register value, const T& mem, Register valueTemp,
+                            Synchronization sync, AtomicOp op, Register value,
+                            const T& mem, Register valueTemp,
                             Register offsetTemp, Register maskTemp,
                             Register temp, AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
@@ -2963,7 +2957,7 @@ static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const Address& mem,
                                      Register valueTemp, Register offsetTemp,
                                      Register maskTemp, Register temp,
@@ -2973,7 +2967,7 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const BaseIndex& mem,
                                      Register valueTemp, Register offsetTemp,
                                      Register maskTemp, Register temp,
@@ -2983,7 +2977,7 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const BaseIndex& mem,
                                       Register valueTemp, Register offsetTemp,
                                       Register maskTemp) {
@@ -2992,7 +2986,7 @@ void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const Address& mem,
                                       Register valueTemp, Register offsetTemp,
                                       Register maskTemp) {
diff --git a/js/src/jit/mips32/MacroAssembler-mips32.cpp b/js/src/jit/mips32/MacroAssembler-mips32.cpp
index f4b3d557a5..747db53799 100644
--- a/js/src/jit/mips32/MacroAssembler-mips32.cpp
+++ b/js/src/jit/mips32/MacroAssembler-mips32.cpp
@@ -2745,27 +2745,27 @@ static void AtomicFetchOp64(MacroAssembler& masm,
   masm.load64(Address(SecondScratchReg, 0), output);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_addu(temp.low, output.low, value.low);
       masm.as_sltu(temp.high, temp.low, output.low);
       masm.as_addu(temp.high, temp.high, output.high);
       masm.as_addu(temp.high, temp.high, value.high);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_sltu(temp.high, output.low, value.low);
       masm.as_subu(temp.high, output.high, temp.high);
       masm.as_subu(temp.low, output.low, value.low);
       masm.as_subu(temp.high, temp.high, value.high);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(temp.low, output.low, value.low);
       masm.as_and(temp.high, output.high, value.high);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_or(temp.low, output.low, value.low);
       masm.as_or(temp.high, output.high, value.high);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_xor(temp.low, output.low, value.low);
       masm.as_xor(temp.high, output.high, value.high);
       break;
diff --git a/js/src/jit/mips64/MacroAssembler-mips64.cpp b/js/src/jit/mips64/MacroAssembler-mips64.cpp
index cbf66ccac4..1530bfcbc8 100644
--- a/js/src/jit/mips64/MacroAssembler-mips64.cpp
+++ b/js/src/jit/mips64/MacroAssembler-mips64.cpp
@@ -2611,7 +2611,7 @@ void MacroAssemblerMIPS64Compat::wasmStoreI64Impl(
 template <typename T>
 static void CompareExchange64(MacroAssembler& masm,
                               const wasm::MemoryAccessDesc* access,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register64 expect, Register64 replace,
                               Register64 output) {
   MOZ_ASSERT(expect != output && replace != output);
@@ -2658,13 +2658,13 @@ void MacroAssembler::wasmCompareExchange64(const wasm::MemoryAccessDesc& access,
                     output);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
-                                       const Address& mem, Register64 expect,
-                                       Register64 replace, Register64 output) {
+void MacroAssembler::compareExchange64(Synchronization sync, const Address& mem,
+                                       Register64 expect, Register64 replace,
+                                       Register64 output) {
   CompareExchange64(*this, nullptr, sync, mem, expect, replace, output);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
+void MacroAssembler::compareExchange64(Synchronization sync,
                                        const BaseIndex& mem, Register64 expect,
                                        Register64 replace, Register64 output) {
   CompareExchange64(*this, nullptr, sync, mem, expect, replace, output);
@@ -2673,7 +2673,7 @@ void MacroAssembler::compareExchange64(const Synchronization& sync,
 template <typename T>
 static void AtomicExchange64(MacroAssembler& masm,
                              const wasm::MemoryAccessDesc* access,
-                             const Synchronization& sync, const T& mem,
+                             Synchronization sync, const T& mem,
                              Register64 value, Register64 output) {
   MOZ_ASSERT(value != output);
   masm.computeEffectiveAddress(mem, SecondScratchReg);
@@ -2717,13 +2717,12 @@ void MacroAssembler::wasmAtomicExchange64(const wasm::MemoryAccessDesc& access,
   WasmAtomicExchange64(*this, access, mem, src, output);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
-                                      const Address& mem, Register64 value,
-                                      Register64 output) {
+void MacroAssembler::atomicExchange64(Synchronization sync, const Address& mem,
+                                      Register64 value, Register64 output) {
   AtomicExchange64(*this, nullptr, sync, mem, value, output);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
+void MacroAssembler::atomicExchange64(Synchronization sync,
                                       const BaseIndex& mem, Register64 value,
                                       Register64 output) {
   AtomicExchange64(*this, nullptr, sync, mem, value, output);
@@ -2732,9 +2731,8 @@ void MacroAssembler::atomicExchange64(const Synchronization& sync,
 template <typename T>
 static void AtomicFetchOp64(MacroAssembler& masm,
                             const wasm::MemoryAccessDesc* access,
-                            const Synchronization& sync, AtomicOp op,
-                            Register64 value, const T& mem, Register64 temp,
-                            Register64 output) {
+                            Synchronization sync, AtomicOp op, Register64 value,
+                            const T& mem, Register64 temp, Register64 output) {
   MOZ_ASSERT(value != output);
   MOZ_ASSERT(value != temp);
   masm.computeEffectiveAddress(mem, SecondScratchReg);
@@ -2751,19 +2749,19 @@ static void AtomicFetchOp64(MacroAssembler& masm,
   masm.as_lld(output.reg, SecondScratchReg, 0);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.as_daddu(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.as_dsubu(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.as_and(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.as_or(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.as_xor(temp.reg, output.reg, value.reg);
       break;
     default:
@@ -2790,25 +2788,25 @@ void MacroAssembler::wasmAtomicFetchOp64(const wasm::MemoryAccessDesc& access,
   AtomicFetchOp64(*this, &access, access.sync(), op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const Address& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const BaseIndex& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const Address& mem,
                                       Register64 temp) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, temp);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const BaseIndex& mem,
                                       Register64 temp) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, temp);
diff --git a/js/src/jit/riscv64/CodeGenerator-riscv64.cpp b/js/src/jit/riscv64/CodeGenerator-riscv64.cpp
index 1c890799ed..3cfb91a036 100644
--- a/js/src/jit/riscv64/CodeGenerator-riscv64.cpp
+++ b/js/src/jit/riscv64/CodeGenerator-riscv64.cpp
@@ -1986,10 +1986,6 @@ void CodeGenerator::visitNotF(LNotF* ins) {
   masm.ma_compareF32(dest, Assembler::DoubleEqualOrUnordered, in, fpscratch);
 }
 
-void CodeGenerator::visitMemoryBarrier(LMemoryBarrier* ins) {
-  masm.memoryBarrier(ins->type());
-}
-
 void CodeGenerator::visitWasmLoad(LWasmLoad* lir) { emitWasmLoad(lir); }
 
 void CodeGenerator::visitWasmStore(LWasmStore* lir) { emitWasmStore(lir); }
diff --git a/js/src/jit/riscv64/MacroAssembler-riscv64.cpp b/js/src/jit/riscv64/MacroAssembler-riscv64.cpp
index 93ccf1cc27..dc5721ea9f 100644
--- a/js/src/jit/riscv64/MacroAssembler-riscv64.cpp
+++ b/js/src/jit/riscv64/MacroAssembler-riscv64.cpp
@@ -2243,7 +2243,7 @@ uint32_t MacroAssembler::pushFakeReturnAddress(Register scratch) {
 template <typename T>
 static void AtomicExchange(MacroAssembler& masm,
                            const wasm::MemoryAccessDesc* access,
-                           Scalar::Type type, const Synchronization& sync,
+                           Scalar::Type type, Synchronization sync,
                            const T& mem, Register value, Register valueTemp,
                            Register offsetTemp, Register maskTemp,
                            Register output) {
@@ -2352,7 +2352,7 @@ static void AtomicExchange(MacroAssembler& masm,
 template <typename T>
 static void AtomicExchange64(MacroAssembler& masm,
                              const wasm::MemoryAccessDesc* access,
-                             const Synchronization& sync, const T& mem,
+                             Synchronization sync, const T& mem,
                              Register64 value, Register64 output) {
   MOZ_ASSERT(value != output);
   UseScratchRegisterScope temps(&masm);
@@ -2382,9 +2382,8 @@ static void AtomicExchange64(MacroAssembler& masm,
 template <typename T>
 static void AtomicFetchOp64(MacroAssembler& masm,
                             const wasm::MemoryAccessDesc* access,
-                            const Synchronization& sync, AtomicOp op,
-                            Register64 value, const T& mem, Register64 temp,
-                            Register64 output) {
+                            Synchronization sync, AtomicOp op, Register64 value,
+                            const T& mem, Register64 temp, Register64 output) {
   MOZ_ASSERT(value != output);
   MOZ_ASSERT(value != temp);
   UseScratchRegisterScope temps(&masm);
@@ -2405,19 +2404,19 @@ static void AtomicFetchOp64(MacroAssembler& masm,
   masm.lr_d(true, true, output.reg, SecondScratchReg);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.add(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.sub(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.and_(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.or_(temp.reg, output.reg, value.reg);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.xor_(temp.reg, output.reg, value.reg);
       break;
     default:
@@ -2433,10 +2432,9 @@ static void AtomicFetchOp64(MacroAssembler& masm,
 template <typename T>
 static void AtomicEffectOp(MacroAssembler& masm,
                            const wasm::MemoryAccessDesc* access,
-                           Scalar::Type type, const Synchronization& sync,
-                           AtomicOp op, const T& mem, Register value,
-                           Register valueTemp, Register offsetTemp,
-                           Register maskTemp) {
+                           Scalar::Type type, Synchronization sync, AtomicOp op,
+                           const T& mem, Register value, Register valueTemp,
+                           Register offsetTemp, Register maskTemp) {
   ScratchRegisterScope scratch(masm);
   UseScratchRegisterScope temps(&masm);
   Register scratch2 = temps.Acquire();
@@ -2471,19 +2469,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
     masm.lr_w(true, true, scratch2, scratch);
 
     switch (op) {
-      case AtomicFetchAddOp:
+      case AtomicOp::Add:
         masm.addw(scratch2, scratch2, value);
         break;
-      case AtomicFetchSubOp:
+      case AtomicOp::Sub:
         masm.subw(scratch2, scratch2, value);
         break;
-      case AtomicFetchAndOp:
+      case AtomicOp::And:
         masm.and_(scratch2, scratch2, value);
         break;
-      case AtomicFetchOrOp:
+      case AtomicOp::Or:
         masm.or_(scratch2, scratch2, value);
         break;
-      case AtomicFetchXorOp:
+      case AtomicOp::Xor:
         masm.xor_(scratch2, scratch2, value);
         break;
       default:
@@ -2519,19 +2517,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
   masm.srlw(valueTemp, scratch2, offsetTemp);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.addw(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.subw(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.and_(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.or_(valueTemp, valueTemp, value);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.xor_(valueTemp, valueTemp, value);
       break;
     default:
@@ -2563,10 +2561,10 @@ static void AtomicEffectOp(MacroAssembler& masm,
 template <typename T>
 static void AtomicFetchOp(MacroAssembler& masm,
                           const wasm::MemoryAccessDesc* access,
-                          Scalar::Type type, const Synchronization& sync,
-                          AtomicOp op, const T& mem, Register value,
-                          Register valueTemp, Register offsetTemp,
-                          Register maskTemp, Register output) {
+                          Scalar::Type type, Synchronization sync, AtomicOp op,
+                          const T& mem, Register value, Register valueTemp,
+                          Register offsetTemp, Register maskTemp,
+                          Register output) {
   ScratchRegisterScope scratch(masm);
   UseScratchRegisterScope temps(&masm);
   Register scratch2 = temps.Acquire();
@@ -2602,19 +2600,19 @@ static void AtomicFetchOp(MacroAssembler& masm,
     masm.lr_w(true, true, output, scratch);
 
     switch (op) {
-      case AtomicFetchAddOp:
+      case AtomicOp::Add:
         masm.addw(scratch2, output, value);
         break;
-      case AtomicFetchSubOp:
+      case AtomicOp::Sub:
         masm.subw(scratch2, output, value);
         break;
-      case AtomicFetchAndOp:
+      case AtomicOp::And:
         masm.and_(scratch2, output, value);
         break;
-      case AtomicFetchOrOp:
+      case AtomicOp::Or:
         masm.or_(scratch2, output, value);
         break;
-      case AtomicFetchXorOp:
+      case AtomicOp::Xor:
         masm.xor_(scratch2, output, value);
         break;
       default:
@@ -2650,19 +2648,19 @@ static void AtomicFetchOp(MacroAssembler& masm,
   masm.srlw(output, scratch2, offsetTemp);
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.addw(valueTemp, output, value);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.subw(valueTemp, output, value);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.and_(valueTemp, output, value);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.or_(valueTemp, output, value);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.xor_(valueTemp, output, value);
       break;
     default:
@@ -2715,7 +2713,7 @@ static void AtomicFetchOp(MacroAssembler& masm,
 
 template <typename T>
 static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register oldval, Register newval,
                               Register valueTemp, Register offsetTemp,
                               Register maskTemp, Register temp,
@@ -2732,10 +2730,10 @@ static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                             const Synchronization& sync, const T& mem,
-                             Register value, Register valueTemp,
-                             Register offsetTemp, Register maskTemp,
-                             Register temp, AnyRegister output) {
+                             Synchronization sync, const T& mem, Register value,
+                             Register valueTemp, Register offsetTemp,
+                             Register maskTemp, Register temp,
+                             AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicExchange(arrayType, sync, mem, value, valueTemp, offsetTemp,
                         maskTemp, temp);
@@ -2748,8 +2746,8 @@ static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
-                            const Synchronization& sync, AtomicOp op,
-                            Register value, const T& mem, Register valueTemp,
+                            Synchronization sync, AtomicOp op, Register value,
+                            const T& mem, Register valueTemp,
                             Register offsetTemp, Register maskTemp,
                             Register temp, AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
@@ -2763,7 +2761,7 @@ static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const BaseIndex& mem,
                                       Register valueTemp, Register offsetTemp,
                                       Register maskTemp) {
@@ -2772,37 +2770,35 @@ void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Register value, const Address& mem,
                                       Register valueTemp, Register offsetTemp,
                                       Register maskTemp) {
   AtomicEffectOp(*this, nullptr, arrayType, sync, op, mem, value, valueTemp,
                  offsetTemp, maskTemp);
 }
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
-                                      const Address& mem, Register64 value,
-                                      Register64 output) {
+void MacroAssembler::atomicExchange64(Synchronization sync, const Address& mem,
+                                      Register64 value, Register64 output) {
   AtomicExchange64(*this, nullptr, sync, mem, value, output);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization& sync,
+void MacroAssembler::atomicExchange64(Synchronization sync,
                                       const BaseIndex& mem, Register64 value,
                                       Register64 output) {
   AtomicExchange64(*this, nullptr, sync, mem, value, output);
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
-                                      const Address& mem, Register value,
-                                      Register valueTemp, Register offsetTemp,
-                                      Register maskTemp, Register temp,
-                                      AnyRegister output) {
+                                      Synchronization sync, const Address& mem,
+                                      Register value, Register valueTemp,
+                                      Register offsetTemp, Register maskTemp,
+                                      Register temp, AnyRegister output) {
   AtomicExchangeJS(*this, arrayType, sync, mem, value, valueTemp, offsetTemp,
                    maskTemp, temp, output);
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
+                                      Synchronization sync,
                                       const BaseIndex& mem, Register value,
                                       Register valueTemp, Register offsetTemp,
                                       Register maskTemp, Register temp,
@@ -2811,8 +2807,7 @@ void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
                    maskTemp, temp, output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const Address& mem, Register value,
                                     Register valueTemp, Register offsetTemp,
                                     Register maskTemp, Register output) {
@@ -2820,8 +2815,7 @@ void MacroAssembler::atomicExchange(Scalar::Type type,
                  maskTemp, output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type,
-                                    const Synchronization& sync,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization sync,
                                     const BaseIndex& mem, Register value,
                                     Register valueTemp, Register offsetTemp,
                                     Register maskTemp, Register output) {
@@ -2830,7 +2824,7 @@ void MacroAssembler::atomicExchange(Scalar::Type type,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const Address& mem,
                                      Register valueTemp, Register offsetTemp,
                                      Register maskTemp, Register temp,
@@ -2840,7 +2834,7 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const BaseIndex& mem,
                                      Register valueTemp, Register offsetTemp,
                                      Register maskTemp, Register temp,
@@ -2849,20 +2843,20 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
                   maskTemp, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const Address& mem,
-                                   Register valueTemp, Register offsetTemp,
-                                   Register maskTemp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const Address& mem, Register valueTemp,
+                                   Register offsetTemp, Register maskTemp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, type, sync, op, mem, value, valueTemp,
                 offsetTemp, maskTemp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type type,
-                                   const Synchronization& sync, AtomicOp op,
-                                   Register value, const BaseIndex& mem,
-                                   Register valueTemp, Register offsetTemp,
-                                   Register maskTemp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type type, Synchronization sync,
+                                   AtomicOp op, Register value,
+                                   const BaseIndex& mem, Register valueTemp,
+                                   Register offsetTemp, Register maskTemp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, type, sync, op, mem, value, valueTemp,
                 offsetTemp, maskTemp, output);
 }
@@ -3058,7 +3052,7 @@ void MacroAssembler::comment(const char* msg) { Assembler::comment(msg); }
 template <typename T>
 static void CompareExchange64(MacroAssembler& masm,
                               const wasm::MemoryAccessDesc* access,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register64 expect, Register64 replace,
                               Register64 output) {
   MOZ_ASSERT(expect != output && replace != output);
@@ -3092,30 +3086,30 @@ static void CompareExchange64(MacroAssembler& masm,
   masm.bind(&exit);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
-                                       const Address& mem, Register64 expect,
-                                       Register64 replace, Register64 output) {
+void MacroAssembler::compareExchange64(Synchronization sync, const Address& mem,
+                                       Register64 expect, Register64 replace,
+                                       Register64 output) {
   CompareExchange64(*this, nullptr, sync, mem, expect, replace, output);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization& sync,
+void MacroAssembler::compareExchange64(Synchronization sync,
                                        const BaseIndex& mem, Register64 expect,
                                        Register64 replace, Register64 output) {
   CompareExchange64(*this, nullptr, sync, mem, expect, replace, output);
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
-                                       const Address& mem, Register oldval,
-                                       Register newval, Register valueTemp,
-                                       Register offsetTemp, Register maskTemp,
-                                       Register temp, AnyRegister output) {
+                                       Synchronization sync, const Address& mem,
+                                       Register oldval, Register newval,
+                                       Register valueTemp, Register offsetTemp,
+                                       Register maskTemp, Register temp,
+                                       AnyRegister output) {
   CompareExchangeJS(*this, arrayType, sync, mem, oldval, newval, valueTemp,
                     offsetTemp, maskTemp, temp, output);
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
+                                       Synchronization sync,
                                        const BaseIndex& mem, Register oldval,
                                        Register newval, Register valueTemp,
                                        Register offsetTemp, Register maskTemp,
@@ -3947,25 +3941,25 @@ void MacroAssembler::wasmAtomicFetchOp64(const wasm::MemoryAccessDesc& access,
   AtomicFetchOp64(*this, &access, access.sync(), op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const Address& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const BaseIndex& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const Address& mem,
                                       Register64 temp) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, temp);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const BaseIndex& mem,
                                       Register64 temp) {
   AtomicFetchOp64(*this, nullptr, sync, op, value, mem, temp, temp);
@@ -4034,7 +4028,7 @@ void MacroAssembler::wasmCompareExchange64(const wasm::MemoryAccessDesc& access,
 template <typename T>
 static void CompareExchange(MacroAssembler& masm,
                             const wasm::MemoryAccessDesc* access,
-                            Scalar::Type type, const Synchronization& sync,
+                            Scalar::Type type, Synchronization sync,
                             const T& mem, Register oldval, Register newval,
                             Register valueTemp, Register offsetTemp,
                             Register maskTemp, Register output) {
@@ -4140,8 +4134,7 @@ static void CompareExchange(MacroAssembler& masm,
   masm.bind(&end);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const Address& mem, Register oldval,
                                      Register newval, Register valueTemp,
                                      Register offsetTemp, Register maskTemp,
@@ -4150,8 +4143,7 @@ void MacroAssembler::compareExchange(Scalar::Type type,
                   offsetTemp, maskTemp, output);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type,
-                                     const Synchronization& sync,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization sync,
                                      const BaseIndex& mem, Register oldval,
                                      Register newval, Register valueTemp,
                                      Register offsetTemp, Register maskTemp,
diff --git a/js/src/jit/shared/Assembler-shared.h b/js/src/jit/shared/Assembler-shared.h
index 8abf68504b..6cdf76981b 100644
--- a/js/src/jit/shared/Assembler-shared.h
+++ b/js/src/jit/shared/Assembler-shared.h
@@ -552,7 +552,7 @@ class MemoryAccessDesc {
   explicit MemoryAccessDesc(
       uint32_t memoryIndex, Scalar::Type type, uint32_t align, uint64_t offset,
       BytecodeOffset trapOffset, mozilla::DebugOnly<bool> hugeMemory,
-      const jit::Synchronization& sync = jit::Synchronization::None())
+      jit::Synchronization sync = jit::Synchronization::None())
       : memoryIndex_(memoryIndex),
         offset64_(offset),
         align_(align),
@@ -592,7 +592,7 @@ class MemoryAccessDesc {
   uint32_t align() const { return align_; }
   Scalar::Type type() const { return type_; }
   unsigned byteSize() const { return Scalar::byteSize(type()); }
-  const jit::Synchronization& sync() const { return sync_; }
+  jit::Synchronization sync() const { return sync_; }
   BytecodeOffset trapOffset() const { return trapOffset_; }
   wasm::SimdOp widenSimdOp() const {
     MOZ_ASSERT(isWidenSimd128Load());
diff --git a/js/src/jit/shared/LIR-shared.h b/js/src/jit/shared/LIR-shared.h
index 1a838f78c3..d8b5693d85 100644
--- a/js/src/jit/shared/LIR-shared.h
+++ b/js/src/jit/shared/LIR-shared.h
@@ -2185,25 +2185,28 @@ class LLoadDataViewElement : public LInstructionHelper<1, 3, 1 + INT64_PIECES> {
 };
 
 class LLoadTypedArrayElementHoleBigInt
-    : public LInstructionHelper<BOX_PIECES, 2, 1 + INT64_PIECES> {
+    : public LInstructionHelper<BOX_PIECES, 3, 1 + INT64_PIECES> {
  public:
   LIR_HEADER(LoadTypedArrayElementHoleBigInt)
 
-  LLoadTypedArrayElementHoleBigInt(const LAllocation& object,
+  LLoadTypedArrayElementHoleBigInt(const LAllocation& elements,
                                    const LAllocation& index,
+                                   const LAllocation& length,
                                    const LDefinition& temp,
                                    const LInt64Definition& temp64)
       : LInstructionHelper(classOpcode) {
-    setOperand(0, object);
+    setOperand(0, elements);
     setOperand(1, index);
+    setOperand(2, length);
     setTemp(0, temp);
     setInt64Temp(1, temp64);
   }
   const MLoadTypedArrayElementHole* mir() const {
     return mir_->toLoadTypedArrayElementHole();
   }
-  const LAllocation* object() { return getOperand(0); }
+  const LAllocation* elements() { return getOperand(0); }
   const LAllocation* index() { return getOperand(1); }
+  const LAllocation* length() { return getOperand(2); }
   const LDefinition* temp() { return getTemp(0); }
   const LInt64Definition temp64() { return getInt64Temp(1); }
 };
diff --git a/js/src/jit/wasm32/CodeGenerator-wasm32.cpp b/js/src/jit/wasm32/CodeGenerator-wasm32.cpp
index 923297a0c1..4c27637203 100644
--- a/js/src/jit/wasm32/CodeGenerator-wasm32.cpp
+++ b/js/src/jit/wasm32/CodeGenerator-wasm32.cpp
@@ -175,7 +175,6 @@ void CodeGenerator::visitWasmAtomicBinopHeapForEffect(
 }
 void CodeGenerator::visitWasmStackArg(LWasmStackArg* ins) { MOZ_CRASH(); }
 void CodeGenerator::visitWasmStackArgI64(LWasmStackArgI64* ins) { MOZ_CRASH(); }
-void CodeGenerator::visitMemoryBarrier(LMemoryBarrier* ins) { MOZ_CRASH(); }
 void CodeGenerator::visitSimd128(LSimd128* ins) { MOZ_CRASH(); }
 void CodeGenerator::visitWasmTernarySimd128(LWasmTernarySimd128* ins) {
   MOZ_CRASH();
diff --git a/js/src/jit/x64/CodeGenerator-x64.cpp b/js/src/jit/x64/CodeGenerator-x64.cpp
index 9e5319842b..86d4bca0e0 100644
--- a/js/src/jit/x64/CodeGenerator-x64.cpp
+++ b/js/src/jit/x64/CodeGenerator-x64.cpp
@@ -432,7 +432,7 @@ void CodeGenerator::visitAtomicTypedArrayElementBinop64(
 
   // Add and Sub don't need |fetchTemp| and can save a `mov` when the value and
   // output register are equal to each other.
-  if (atomicOp == AtomicFetchAddOp || atomicOp == AtomicFetchSubOp) {
+  if (atomicOp == AtomicOp::Add || atomicOp == AtomicOp::Sub) {
     fetchTemp = Register64::Invalid();
     fetchOut = temp1;
     createTemp = temp2.reg;
diff --git a/js/src/jit/x64/Lowering-x64.cpp b/js/src/jit/x64/Lowering-x64.cpp
index 55d83e3f05..9f9b1713c2 100644
--- a/js/src/jit/x64/Lowering-x64.cpp
+++ b/js/src/jit/x64/Lowering-x64.cpp
@@ -208,8 +208,8 @@ void LIRGenerator::visitAtomicTypedArrayElementBinop(
     //
     // For AND/OR/XOR we need to use a CMPXCHG loop with rax as a temp register.
 
-    bool bitOp = !(ins->operation() == AtomicFetchAddOp ||
-                   ins->operation() == AtomicFetchSubOp);
+    bool bitOp = !(ins->operation() == AtomicOp::Add ||
+                   ins->operation() == AtomicOp::Sub);
 
     LInt64Definition temp1 = tempInt64();
     LInt64Definition temp2;
@@ -427,8 +427,8 @@ void LIRGenerator::visitWasmAtomicBinopHeap(MWasmAtomicBinopHeap* ins) {
   // *mem does not have the expected value, so reloading it at the
   // top of the loop would be redundant.
 
-  bool bitOp = !(ins->operation() == AtomicFetchAddOp ||
-                 ins->operation() == AtomicFetchSubOp);
+  bool bitOp =
+      !(ins->operation() == AtomicOp::Add || ins->operation() == AtomicOp::Sub);
   bool reuseInput = false;
   LAllocation value;
 
diff --git a/js/src/jit/x64/MacroAssembler-x64.cpp b/js/src/jit/x64/MacroAssembler-x64.cpp
index 5106e7e382..ebc8c91eaa 100644
--- a/js/src/jit/x64/MacroAssembler-x64.cpp
+++ b/js/src/jit/x64/MacroAssembler-x64.cpp
@@ -1459,7 +1459,7 @@ static void AtomicFetchOp64(MacroAssembler& masm,
                             Register output) {
   // NOTE: the generated code must match the assembly code in gen_fetchop in
   // GenerateAtomicOperations.py
-  if (op == AtomicFetchAddOp) {
+  if (op == AtomicOp::Add) {
     if (value != output) {
       masm.movq(value, output);
     }
@@ -1468,7 +1468,7 @@ static void AtomicFetchOp64(MacroAssembler& masm,
                   FaultingCodeOffset(masm.currentOffset()));
     }
     masm.lock_xaddq(output, Operand(mem));
-  } else if (op == AtomicFetchSubOp) {
+  } else if (op == AtomicOp::Sub) {
     if (value != output) {
       masm.movq(value, output);
     }
@@ -1492,13 +1492,13 @@ static void AtomicFetchOp64(MacroAssembler& masm,
     masm.bind(&again);
     masm.movq(rax, temp);
     switch (op) {
-      case AtomicFetchAndOp:
+      case AtomicOp::And:
         masm.andq(value, temp);
         break;
-      case AtomicFetchOrOp:
+      case AtomicOp::Or:
         masm.orq(value, temp);
         break;
-      case AtomicFetchXorOp:
+      case AtomicOp::Xor:
         masm.xorq(value, temp);
         break;
       default:
@@ -1532,19 +1532,19 @@ static void AtomicEffectOp64(MacroAssembler& masm,
                 FaultingCodeOffset(masm.currentOffset()));
   }
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       masm.lock_addq(value, Operand(mem));
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       masm.lock_subq(value, Operand(mem));
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       masm.lock_andq(value, Operand(mem));
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       masm.lock_orq(value, Operand(mem));
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       masm.lock_xorq(value, Operand(mem));
       break;
     default:
@@ -1558,8 +1558,8 @@ void MacroAssembler::wasmAtomicEffectOp64(const wasm::MemoryAccessDesc& access,
   AtomicEffectOp64(*this, &access, op, value.reg, mem);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization&,
-                                       const Address& mem, Register64 expected,
+void MacroAssembler::compareExchange64(Synchronization, const Address& mem,
+                                       Register64 expected,
                                        Register64 replacement,
                                        Register64 output) {
   // NOTE: the generated code must match the assembly code in gen_cmpxchg in
@@ -1571,8 +1571,7 @@ void MacroAssembler::compareExchange64(const Synchronization&,
   lock_cmpxchgq(replacement.reg, Operand(mem));
 }
 
-void MacroAssembler::compareExchange64(const Synchronization&,
-                                       const BaseIndex& mem,
+void MacroAssembler::compareExchange64(Synchronization, const BaseIndex& mem,
                                        Register64 expected,
                                        Register64 replacement,
                                        Register64 output) {
@@ -1583,9 +1582,8 @@ void MacroAssembler::compareExchange64(const Synchronization&,
   lock_cmpxchgq(replacement.reg, Operand(mem));
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization&,
-                                      const Address& mem, Register64 value,
-                                      Register64 output) {
+void MacroAssembler::atomicExchange64(Synchronization, const Address& mem,
+                                      Register64 value, Register64 output) {
   // NOTE: the generated code must match the assembly code in gen_exchange in
   // GenerateAtomicOperations.py
   if (value != output) {
@@ -1594,33 +1592,32 @@ void MacroAssembler::atomicExchange64(const Synchronization&,
   xchgq(output.reg, Operand(mem));
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization&,
-                                      const BaseIndex& mem, Register64 value,
-                                      Register64 output) {
+void MacroAssembler::atomicExchange64(Synchronization, const BaseIndex& mem,
+                                      Register64 value, Register64 output) {
   if (value != output) {
     movq(value.reg, output.reg);
   }
   xchgq(output.reg, Operand(mem));
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const Address& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, op, value.reg, mem, temp.reg, output.reg);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization sync, AtomicOp op,
                                      Register64 value, const BaseIndex& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, op, value.reg, mem, temp.reg, output.reg);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const Address& mem) {
   AtomicEffectOp64(*this, nullptr, op, value.reg, mem);
 }
 
-void MacroAssembler::atomicEffectOp64(const Synchronization& sync, AtomicOp op,
+void MacroAssembler::atomicEffectOp64(Synchronization sync, AtomicOp op,
                                       Register64 value, const BaseIndex& mem) {
   AtomicEffectOp64(*this, nullptr, op, value.reg, mem);
 }
diff --git a/js/src/jit/x86-shared/CodeGenerator-x86-shared.cpp b/js/src/jit/x86-shared/CodeGenerator-x86-shared.cpp
index 434a54669b..692e884f06 100644
--- a/js/src/jit/x86-shared/CodeGenerator-x86-shared.cpp
+++ b/js/src/jit/x86-shared/CodeGenerator-x86-shared.cpp
@@ -2078,12 +2078,6 @@ void CodeGenerator::visitAtomicTypedArrayElementBinopForEffect(
   }
 }
 
-void CodeGenerator::visitMemoryBarrier(LMemoryBarrier* ins) {
-  if (ins->type() & MembarStoreLoad) {
-    masm.storeLoadFence();
-  }
-}
-
 void CodeGeneratorX86Shared::visitOutOfLineWasmTruncateCheck(
     OutOfLineWasmTruncateCheck* ool) {
   FloatRegister input = ool->input();
diff --git a/js/src/jit/x86-shared/Lowering-x86-shared.cpp b/js/src/jit/x86-shared/Lowering-x86-shared.cpp
index bd5986298d..6d90f2f96b 100644
--- a/js/src/jit/x86-shared/Lowering-x86-shared.cpp
+++ b/js/src/jit/x86-shared/Lowering-x86-shared.cpp
@@ -732,8 +732,8 @@ void LIRGeneratorX86Shared::lowerAtomicTypedArrayElementBinop(
   // There are optimization opportunities:
   //  - better register allocation in the x86 8-bit case, Bug #1077036.
 
-  bool bitOp = !(ins->operation() == AtomicFetchAddOp ||
-                 ins->operation() == AtomicFetchSubOp);
+  bool bitOp =
+      !(ins->operation() == AtomicOp::Add || ins->operation() == AtomicOp::Sub);
   bool fixedOutput = true;
   bool reuseInput = false;
   LDefinition tempDef1 = LDefinition::BogusTemp();
diff --git a/js/src/jit/x86-shared/MacroAssembler-x86-shared-inl.h b/js/src/jit/x86-shared/MacroAssembler-x86-shared-inl.h
index 9848086e7f..8ce3f68224 100644
--- a/js/src/jit/x86-shared/MacroAssembler-x86-shared-inl.h
+++ b/js/src/jit/x86-shared/MacroAssembler-x86-shared-inl.h
@@ -1246,7 +1246,8 @@ template FaultingCodeOffset MacroAssembler::storeFloat32(FloatRegister src,
 
 void MacroAssembler::memoryBarrier(MemoryBarrierBits barrier) {
   if (barrier & MembarStoreLoad) {
-    storeLoadFence();
+    // This implementation follows Linux.
+    masm.mfence();
   }
 }
 
diff --git a/js/src/jit/x86-shared/MacroAssembler-x86-shared.cpp b/js/src/jit/x86-shared/MacroAssembler-x86-shared.cpp
index e474f83530..1520321260 100644
--- a/js/src/jit/x86-shared/MacroAssembler-x86-shared.cpp
+++ b/js/src/jit/x86-shared/MacroAssembler-x86-shared.cpp
@@ -1143,13 +1143,13 @@ static void CompareExchange(MacroAssembler& masm,
   ExtendTo32(masm, type, output);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type, const Synchronization&,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization,
                                      const Address& mem, Register oldval,
                                      Register newval, Register output) {
   CompareExchange(*this, nullptr, type, mem, oldval, newval, output);
 }
 
-void MacroAssembler::compareExchange(Scalar::Type type, const Synchronization&,
+void MacroAssembler::compareExchange(Scalar::Type type, Synchronization,
                                      const BaseIndex& mem, Register oldval,
                                      Register newval, Register output) {
   CompareExchange(*this, nullptr, type, mem, oldval, newval, output);
@@ -1201,13 +1201,13 @@ static void AtomicExchange(MacroAssembler& masm,
   ExtendTo32(masm, type, output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type, const Synchronization&,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization,
                                     const Address& mem, Register value,
                                     Register output) {
   AtomicExchange(*this, nullptr, type, mem, value, output);
 }
 
-void MacroAssembler::atomicExchange(Scalar::Type type, const Synchronization&,
+void MacroAssembler::atomicExchange(Scalar::Type type, Synchronization,
                                     const BaseIndex& mem, Register value,
                                     Register output) {
   AtomicExchange(*this, nullptr, type, mem, value, output);
@@ -1227,7 +1227,7 @@ void MacroAssembler::wasmAtomicExchange(const wasm::MemoryAccessDesc& access,
 
 static void SetupValue(MacroAssembler& masm, AtomicOp op, Imm32 src,
                        Register output) {
-  if (op == AtomicFetchSubOp) {
+  if (op == AtomicOp::Sub) {
     masm.movl(Imm32(-src.value), output);
   } else {
     masm.movl(src, output);
@@ -1239,7 +1239,7 @@ static void SetupValue(MacroAssembler& masm, AtomicOp op, Register src,
   if (src != output) {
     masm.movl(src, output);
   }
-  if (op == AtomicFetchSubOp) {
+  if (op == AtomicOp::Sub) {
     masm.negl(output);
   }
 }
@@ -1269,15 +1269,14 @@ static void AtomicFetchOp(MacroAssembler& masm,
     masm.j(MacroAssembler::NonZero, &again);                  \
   } while (0)
 
-  MOZ_ASSERT_IF(op == AtomicFetchAddOp || op == AtomicFetchSubOp,
-                temp == InvalidReg);
+  MOZ_ASSERT_IF(op == AtomicOp::Add || op == AtomicOp::Sub, temp == InvalidReg);
 
   switch (Scalar::byteSize(arrayType)) {
     case 1:
       CheckBytereg(output);
       switch (op) {
-        case AtomicFetchAddOp:
-        case AtomicFetchSubOp:
+        case AtomicOp::Add:
+        case AtomicOp::Sub:
           CheckBytereg(value);  // But not for the bitwise ops
           SetupValue(masm, op, value, output);
           if (access) {
@@ -1286,17 +1285,17 @@ static void AtomicFetchOp(MacroAssembler& masm,
           }
           masm.lock_xaddb(output, Operand(mem));
           break;
-        case AtomicFetchAndOp:
+        case AtomicOp::And:
           CheckBytereg(temp);
           ATOMIC_BITOP_BODY(movb, wasm::TrapMachineInsn::Load8, andl,
                             lock_cmpxchgb);
           break;
-        case AtomicFetchOrOp:
+        case AtomicOp::Or:
           CheckBytereg(temp);
           ATOMIC_BITOP_BODY(movb, wasm::TrapMachineInsn::Load8, orl,
                             lock_cmpxchgb);
           break;
-        case AtomicFetchXorOp:
+        case AtomicOp::Xor:
           CheckBytereg(temp);
           ATOMIC_BITOP_BODY(movb, wasm::TrapMachineInsn::Load8, xorl,
                             lock_cmpxchgb);
@@ -1307,8 +1306,8 @@ static void AtomicFetchOp(MacroAssembler& masm,
       break;
     case 2:
       switch (op) {
-        case AtomicFetchAddOp:
-        case AtomicFetchSubOp:
+        case AtomicOp::Add:
+        case AtomicOp::Sub:
           SetupValue(masm, op, value, output);
           if (access) {
             masm.append(*access, wasm::TrapMachineInsn::Atomic,
@@ -1316,15 +1315,15 @@ static void AtomicFetchOp(MacroAssembler& masm,
           }
           masm.lock_xaddw(output, Operand(mem));
           break;
-        case AtomicFetchAndOp:
+        case AtomicOp::And:
           ATOMIC_BITOP_BODY(movw, wasm::TrapMachineInsn::Load16, andl,
                             lock_cmpxchgw);
           break;
-        case AtomicFetchOrOp:
+        case AtomicOp::Or:
           ATOMIC_BITOP_BODY(movw, wasm::TrapMachineInsn::Load16, orl,
                             lock_cmpxchgw);
           break;
-        case AtomicFetchXorOp:
+        case AtomicOp::Xor:
           ATOMIC_BITOP_BODY(movw, wasm::TrapMachineInsn::Load16, xorl,
                             lock_cmpxchgw);
           break;
@@ -1334,8 +1333,8 @@ static void AtomicFetchOp(MacroAssembler& masm,
       break;
     case 4:
       switch (op) {
-        case AtomicFetchAddOp:
-        case AtomicFetchSubOp:
+        case AtomicOp::Add:
+        case AtomicOp::Sub:
           SetupValue(masm, op, value, output);
           if (access) {
             masm.append(*access, wasm::TrapMachineInsn::Atomic,
@@ -1343,15 +1342,15 @@ static void AtomicFetchOp(MacroAssembler& masm,
           }
           masm.lock_xaddl(output, Operand(mem));
           break;
-        case AtomicFetchAndOp:
+        case AtomicOp::And:
           ATOMIC_BITOP_BODY(movl, wasm::TrapMachineInsn::Load32, andl,
                             lock_cmpxchgl);
           break;
-        case AtomicFetchOrOp:
+        case AtomicOp::Or:
           ATOMIC_BITOP_BODY(movl, wasm::TrapMachineInsn::Load32, orl,
                             lock_cmpxchgl);
           break;
-        case AtomicFetchXorOp:
+        case AtomicOp::Xor:
           ATOMIC_BITOP_BODY(movl, wasm::TrapMachineInsn::Load32, xorl,
                             lock_cmpxchgl);
           break;
@@ -1367,30 +1366,29 @@ static void AtomicFetchOp(MacroAssembler& masm,
 #undef ATOMIC_BITOP_BODY
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type arrayType,
-                                   const Synchronization&, AtomicOp op,
-                                   Register value, const BaseIndex& mem,
-                                   Register temp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type arrayType, Synchronization,
+                                   AtomicOp op, Register value,
+                                   const BaseIndex& mem, Register temp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, arrayType, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type arrayType,
-                                   const Synchronization&, AtomicOp op,
-                                   Register value, const Address& mem,
-                                   Register temp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type arrayType, Synchronization,
+                                   AtomicOp op, Register value,
+                                   const Address& mem, Register temp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, arrayType, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type arrayType,
-                                   const Synchronization&, AtomicOp op,
-                                   Imm32 value, const BaseIndex& mem,
-                                   Register temp, Register output) {
+void MacroAssembler::atomicFetchOp(Scalar::Type arrayType, Synchronization,
+                                   AtomicOp op, Imm32 value,
+                                   const BaseIndex& mem, Register temp,
+                                   Register output) {
   AtomicFetchOp(*this, nullptr, arrayType, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp(Scalar::Type arrayType,
-                                   const Synchronization&, AtomicOp op,
-                                   Imm32 value, const Address& mem,
+void MacroAssembler::atomicFetchOp(Scalar::Type arrayType, Synchronization,
+                                   AtomicOp op, Imm32 value, const Address& mem,
                                    Register temp, Register output) {
   AtomicFetchOp(*this, nullptr, arrayType, op, value, mem, temp, output);
 }
@@ -1436,19 +1434,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
   switch (Scalar::byteSize(arrayType)) {
     case 1:
       switch (op) {
-        case AtomicFetchAddOp:
+        case AtomicOp::Add:
           masm.lock_addb(value, Operand(mem));
           break;
-        case AtomicFetchSubOp:
+        case AtomicOp::Sub:
           masm.lock_subb(value, Operand(mem));
           break;
-        case AtomicFetchAndOp:
+        case AtomicOp::And:
           masm.lock_andb(value, Operand(mem));
           break;
-        case AtomicFetchOrOp:
+        case AtomicOp::Or:
           masm.lock_orb(value, Operand(mem));
           break;
-        case AtomicFetchXorOp:
+        case AtomicOp::Xor:
           masm.lock_xorb(value, Operand(mem));
           break;
         default:
@@ -1457,19 +1455,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
       break;
     case 2:
       switch (op) {
-        case AtomicFetchAddOp:
+        case AtomicOp::Add:
           masm.lock_addw(value, Operand(mem));
           break;
-        case AtomicFetchSubOp:
+        case AtomicOp::Sub:
           masm.lock_subw(value, Operand(mem));
           break;
-        case AtomicFetchAndOp:
+        case AtomicOp::And:
           masm.lock_andw(value, Operand(mem));
           break;
-        case AtomicFetchOrOp:
+        case AtomicOp::Or:
           masm.lock_orw(value, Operand(mem));
           break;
-        case AtomicFetchXorOp:
+        case AtomicOp::Xor:
           masm.lock_xorw(value, Operand(mem));
           break;
         default:
@@ -1478,19 +1476,19 @@ static void AtomicEffectOp(MacroAssembler& masm,
       break;
     case 4:
       switch (op) {
-        case AtomicFetchAddOp:
+        case AtomicOp::Add:
           masm.lock_addl(value, Operand(mem));
           break;
-        case AtomicFetchSubOp:
+        case AtomicOp::Sub:
           masm.lock_subl(value, Operand(mem));
           break;
-        case AtomicFetchAndOp:
+        case AtomicOp::And:
           masm.lock_andl(value, Operand(mem));
           break;
-        case AtomicFetchOrOp:
+        case AtomicOp::Or:
           masm.lock_orl(value, Operand(mem));
           break;
-        case AtomicFetchXorOp:
+        case AtomicOp::Xor:
           masm.lock_xorl(value, Operand(mem));
           break;
         default:
@@ -1535,7 +1533,7 @@ void MacroAssembler::wasmAtomicEffectOp(const wasm::MemoryAccessDesc& access,
 
 template <typename T>
 static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                              const Synchronization& sync, const T& mem,
+                              Synchronization sync, const T& mem,
                               Register oldval, Register newval, Register temp,
                               AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
@@ -1547,15 +1545,14 @@ static void CompareExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
-                                       const Address& mem, Register oldval,
-                                       Register newval, Register temp,
-                                       AnyRegister output) {
+                                       Synchronization sync, const Address& mem,
+                                       Register oldval, Register newval,
+                                       Register temp, AnyRegister output) {
   CompareExchangeJS(*this, arrayType, sync, mem, oldval, newval, temp, output);
 }
 
 void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
-                                       const Synchronization& sync,
+                                       Synchronization sync,
                                        const BaseIndex& mem, Register oldval,
                                        Register newval, Register temp,
                                        AnyRegister output) {
@@ -1564,9 +1561,8 @@ void MacroAssembler::compareExchangeJS(Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
-                             const Synchronization& sync, const T& mem,
-                             Register value, Register temp,
-                             AnyRegister output) {
+                             Synchronization sync, const T& mem, Register value,
+                             Register temp, AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicExchange(arrayType, sync, mem, value, temp);
     masm.convertUInt32ToDouble(temp, output.fpu());
@@ -1576,14 +1572,14 @@ static void AtomicExchangeJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
-                                      const Address& mem, Register value,
-                                      Register temp, AnyRegister output) {
+                                      Synchronization sync, const Address& mem,
+                                      Register value, Register temp,
+                                      AnyRegister output) {
   AtomicExchangeJS(*this, arrayType, sync, mem, value, temp, output);
 }
 
 void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
-                                      const Synchronization& sync,
+                                      Synchronization sync,
                                       const BaseIndex& mem, Register value,
                                       Register temp, AnyRegister output) {
   AtomicExchangeJS(*this, arrayType, sync, mem, value, temp, output);
@@ -1591,9 +1587,9 @@ void MacroAssembler::atomicExchangeJS(Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
-                            const Synchronization& sync, AtomicOp op,
-                            Register value, const T& mem, Register temp1,
-                            Register temp2, AnyRegister output) {
+                            Synchronization sync, AtomicOp op, Register value,
+                            const T& mem, Register temp1, Register temp2,
+                            AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicFetchOp(arrayType, sync, op, value, mem, temp2, temp1);
     masm.convertUInt32ToDouble(temp1, output.fpu());
@@ -1603,7 +1599,7 @@ static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const Address& mem,
                                      Register temp1, Register temp2,
                                      AnyRegister output) {
@@ -1611,39 +1607,36 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Register value, const BaseIndex& mem,
                                      Register temp1, Register temp2,
                                      AnyRegister output) {
   AtomicFetchOpJS(*this, arrayType, sync, op, value, mem, temp1, temp2, output);
 }
 
-void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization&, AtomicOp op,
-                                      Register value, const BaseIndex& mem,
-                                      Register temp) {
+void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType, Synchronization,
+                                      AtomicOp op, Register value,
+                                      const BaseIndex& mem, Register temp) {
   MOZ_ASSERT(temp == InvalidReg);
   AtomicEffectOp(*this, nullptr, arrayType, op, value, mem);
 }
 
-void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization&, AtomicOp op,
-                                      Register value, const Address& mem,
-                                      Register temp) {
+void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType, Synchronization,
+                                      AtomicOp op, Register value,
+                                      const Address& mem, Register temp) {
   MOZ_ASSERT(temp == InvalidReg);
   AtomicEffectOp(*this, nullptr, arrayType, op, value, mem);
 }
 
-void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization&, AtomicOp op,
-                                      Imm32 value, const Address& mem,
-                                      Register temp) {
+void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType, Synchronization,
+                                      AtomicOp op, Imm32 value,
+                                      const Address& mem, Register temp) {
   MOZ_ASSERT(temp == InvalidReg);
   AtomicEffectOp(*this, nullptr, arrayType, op, value, mem);
 }
 
 void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
-                                      const Synchronization& sync, AtomicOp op,
+                                      Synchronization sync, AtomicOp op,
                                       Imm32 value, const BaseIndex& mem,
                                       Register temp) {
   MOZ_ASSERT(temp == InvalidReg);
@@ -1652,9 +1645,9 @@ void MacroAssembler::atomicEffectOpJS(Scalar::Type arrayType,
 
 template <typename T>
 static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
-                            const Synchronization& sync, AtomicOp op,
-                            Imm32 value, const T& mem, Register temp1,
-                            Register temp2, AnyRegister output) {
+                            Synchronization sync, AtomicOp op, Imm32 value,
+                            const T& mem, Register temp1, Register temp2,
+                            AnyRegister output) {
   if (arrayType == Scalar::Uint32) {
     masm.atomicFetchOp(arrayType, sync, op, value, mem, temp2, temp1);
     masm.convertUInt32ToDouble(temp1, output.fpu());
@@ -1664,7 +1657,7 @@ static void AtomicFetchOpJS(MacroAssembler& masm, Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Imm32 value, const Address& mem,
                                      Register temp1, Register temp2,
                                      AnyRegister output) {
@@ -1672,7 +1665,7 @@ void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
 }
 
 void MacroAssembler::atomicFetchOpJS(Scalar::Type arrayType,
-                                     const Synchronization& sync, AtomicOp op,
+                                     Synchronization sync, AtomicOp op,
                                      Imm32 value, const BaseIndex& mem,
                                      Register temp1, Register temp2,
                                      AnyRegister output) {
diff --git a/js/src/jit/x86-shared/MacroAssembler-x86-shared.h b/js/src/jit/x86-shared/MacroAssembler-x86-shared.h
index dd1ae53537..21af90e90d 100644
--- a/js/src/jit/x86-shared/MacroAssembler-x86-shared.h
+++ b/js/src/jit/x86-shared/MacroAssembler-x86-shared.h
@@ -161,15 +161,6 @@ class MacroAssemblerX86Shared : public Assembler {
   void atomic_inc32(const Operand& addr) { lock_incl(addr); }
   void atomic_dec32(const Operand& addr) { lock_decl(addr); }
 
-  void storeLoadFence() {
-    // This implementation follows Linux.
-    if (HasSSE2()) {
-      masm.mfence();
-    } else {
-      lock_addl(Imm32(0), Operand(Address(esp, 0)));
-    }
-  }
-
   void branch16(Condition cond, Register lhs, Register rhs, Label* label) {
     cmpw(rhs, lhs);
     j(cond, label);
diff --git a/js/src/jit/x86/Lowering-x86.cpp b/js/src/jit/x86/Lowering-x86.cpp
index 0577a0976e..e958e998c2 100644
--- a/js/src/jit/x86/Lowering-x86.cpp
+++ b/js/src/jit/x86/Lowering-x86.cpp
@@ -635,8 +635,8 @@ void LIRGenerator::visitWasmAtomicBinopHeap(MWasmAtomicBinopHeap* ins) {
   //  - better 8-bit register allocation and instruction selection, Bug
   //  #1077036.
 
-  bool bitOp = !(ins->operation() == AtomicFetchAddOp ||
-                 ins->operation() == AtomicFetchSubOp);
+  bool bitOp =
+      !(ins->operation() == AtomicOp::Add || ins->operation() == AtomicOp::Sub);
   LDefinition tempDef = LDefinition::BogusTemp();
   LAllocation value;
 
diff --git a/js/src/jit/x86/MacroAssembler-x86.cpp b/js/src/jit/x86/MacroAssembler-x86.cpp
index a68d7b03b7..232303b429 100644
--- a/js/src/jit/x86/MacroAssembler-x86.cpp
+++ b/js/src/jit/x86/MacroAssembler-x86.cpp
@@ -1423,19 +1423,19 @@ static void AtomicFetchOp64(MacroAssembler& masm,
   } while (0)
 
   switch (op) {
-    case AtomicFetchAddOp:
+    case AtomicOp::Add:
       ATOMIC_OP_BODY(add64FromMemory);
       break;
-    case AtomicFetchSubOp:
+    case AtomicOp::Sub:
       ATOMIC_OP_BODY(sub64FromMemory);
       break;
-    case AtomicFetchAndOp:
+    case AtomicOp::And:
       ATOMIC_OP_BODY(and64FromMemory);
       break;
-    case AtomicFetchOrOp:
+    case AtomicOp::Or:
       ATOMIC_OP_BODY(or64FromMemory);
       break;
-    case AtomicFetchXorOp:
+    case AtomicOp::Xor:
       ATOMIC_OP_BODY(xor64FromMemory);
       break;
     default:
@@ -1626,60 +1626,57 @@ void MacroAssembler::wasmTruncateFloat32ToUInt64(
 // ========================================================================
 // Primitive atomic operations.
 
-void MacroAssembler::atomicLoad64(const Synchronization&, const Address& mem,
+void MacroAssembler::atomicLoad64(Synchronization, const Address& mem,
                                   Register64 temp, Register64 output) {
   AtomicLoad64(*this, nullptr, mem, temp, output);
 }
 
-void MacroAssembler::atomicLoad64(const Synchronization&, const BaseIndex& mem,
+void MacroAssembler::atomicLoad64(Synchronization, const BaseIndex& mem,
                                   Register64 temp, Register64 output) {
   AtomicLoad64(*this, nullptr, mem, temp, output);
 }
 
-void MacroAssembler::atomicStore64(const Synchronization&, const Address& mem,
+void MacroAssembler::atomicStore64(Synchronization, const Address& mem,
                                    Register64 value, Register64 temp) {
   AtomicExchange64(*this, nullptr, mem, value, temp);
 }
 
-void MacroAssembler::atomicStore64(const Synchronization&, const BaseIndex& mem,
+void MacroAssembler::atomicStore64(Synchronization, const BaseIndex& mem,
                                    Register64 value, Register64 temp) {
   AtomicExchange64(*this, nullptr, mem, value, temp);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization&,
-                                       const Address& mem, Register64 expected,
+void MacroAssembler::compareExchange64(Synchronization, const Address& mem,
+                                       Register64 expected,
                                        Register64 replacement,
                                        Register64 output) {
   CompareExchange64(*this, nullptr, mem, expected, replacement, output);
 }
 
-void MacroAssembler::compareExchange64(const Synchronization&,
-                                       const BaseIndex& mem,
+void MacroAssembler::compareExchange64(Synchronization, const BaseIndex& mem,
                                        Register64 expected,
                                        Register64 replacement,
                                        Register64 output) {
   CompareExchange64(*this, nullptr, mem, expected, replacement, output);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization&,
-                                      const Address& mem, Register64 value,
-                                      Register64 output) {
+void MacroAssembler::atomicExchange64(Synchronization, const Address& mem,
+                                      Register64 value, Register64 output) {
   AtomicExchange64(*this, nullptr, mem, value, output);
 }
 
-void MacroAssembler::atomicExchange64(const Synchronization&,
-                                      const BaseIndex& mem, Register64 value,
-                                      Register64 output) {
+void MacroAssembler::atomicExchange64(Synchronization, const BaseIndex& mem,
+                                      Register64 value, Register64 output) {
   AtomicExchange64(*this, nullptr, mem, value, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization&, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization, AtomicOp op,
                                      const Address& value, const Address& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, op, value, mem, temp, output);
 }
 
-void MacroAssembler::atomicFetchOp64(const Synchronization&, AtomicOp op,
+void MacroAssembler::atomicFetchOp64(Synchronization, AtomicOp op,
                                      const Address& value, const BaseIndex& mem,
                                      Register64 temp, Register64 output) {
   AtomicFetchOp64(*this, nullptr, op, value, mem, temp, output);
-- 
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