[wasm] Introduce a faster param transformation in the js-to-wasm wrapper

This CL introduces a fast path for transforming JavaScript
parameters to WebAssembly when calling an exported WebAssembly
function from JavaScript.

A transformation is considered fast when it does not require a call
to a built-in function, thus spilling registers for the call can be
avoided.

Bug: v8:10943
Change-Id: I5563bfdf77a68bef7ab8afc6d0f4ab2d2ea67bd4
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2418857Reviewed-by: Jakob Kummerow <jkummerow@chromium.org>
Reviewed-by: Andreas Haas <ahaas@chromium.org>
Commit-Queue: Vicky Kontoura <vkont@google.com>
Cr-Commit-Position: refs/heads/master@{#70033}

src/compiler/wasm-compiler.cc

@@ -6226,6 +6226,26 @@ class WasmWrapperGraphBuilder : public WasmGraphBuilder {
     }
   }
 
+  Node* FromJSFast(Node* input, wasm::ValueType type) {
+    switch (type.kind()) {
+      case wasm::ValueType::kI32:
+        return BuildChangeSmiToInt32(input);
+      case wasm::ValueType::kRef:
+      case wasm::ValueType::kOptRef:
+      case wasm::ValueType::kF32:
+      case wasm::ValueType::kF64:
+      case wasm::ValueType::kI64:
+      case wasm::ValueType::kRtt:
+      case wasm::ValueType::kS128:
+      case wasm::ValueType::kI8:
+      case wasm::ValueType::kI16:
+      case wasm::ValueType::kBottom:
+      case wasm::ValueType::kStmt:
+        UNREACHABLE();
+        break;
+    }
+  }
+
   void BuildModifyThreadInWasmFlag(bool new_value) {
     if (!trap_handler::IsTrapHandlerEnabled()) return;
     Node* isolate_root = BuildLoadIsolateRoot();
@@ -6296,55 +6316,15 @@ class WasmWrapperGraphBuilder : public WasmGraphBuilder {
     return SetControl(CALL_BUILTIN(WasmAllocateJSArray, array_length, context));
   }
 
-  void BuildJSToWasmWrapper(bool is_import) {
-    const int wasm_count = static_cast<int>(sig_->parameter_count());
-    const int rets_count = static_cast<int>(sig_->return_count());
-
-    // Build the start and the JS parameter nodes.
-    SetEffectControl(Start(wasm_count + 5));
-
-    // Create the js_closure and js_context parameters.
-    Node* js_closure =
-        graph()->NewNode(mcgraph()->common()->Parameter(
-                             Linkage::kJSCallClosureParamIndex, "%closure"),
-                         graph()->start());
-    Node* js_context = graph()->NewNode(
-        mcgraph()->common()->Parameter(
-            Linkage::GetJSCallContextParamIndex(wasm_count + 1), "%context"),
-        graph()->start());
-
-    // Create the instance_node node to pass as parameter. It is loaded from
-    // an actual reference to an instance or a placeholder reference,
-    // called {WasmExportedFunction} via the {WasmExportedFunctionData}
-    // structure.
-    Node* function_data = BuildLoadFunctionDataFromExportedFunction(js_closure);
-    instance_node_.set(
-        BuildLoadInstanceFromExportedFunctionData(function_data));
-
-    if (!wasm::IsJSCompatibleSignature(sig_, module_, enabled_features_)) {
-      // Throw a TypeError. Use the js_context of the calling javascript
-      // function (passed as a parameter), such that the generated code is
-      // js_context independent.
-      BuildCallToRuntimeWithContext(Runtime::kWasmThrowTypeError, js_context,
-                                    nullptr, 0);
-      TerminateThrow(effect(), control());
-      return;
-    }
-
-    const int args_count = wasm_count + 1;  // +1 for wasm_code.
-    base::SmallVector<Node*, 16> args(args_count);
-    base::SmallVector<Node*, 1> rets(rets_count);
-
-    // Convert JS parameters to wasm numbers.
-    for (int i = 0; i < wasm_count; ++i) {
-      Node* param = Param(i + 1);
-      Node* wasm_param = FromJS(param, js_context, sig_->GetParam(i));
-      args[i + 1] = wasm_param;
-    }
-
+  Node* BuildCallAndReturn(bool is_import, Node* js_context,
+                           Node* function_data,
+                           base::SmallVector<Node*, 16> args) {
     // Set the ThreadInWasm flag before we do the actual call.
     BuildModifyThreadInWasmFlag(true);
 
+    const int rets_count = static_cast<int>(sig_->return_count());
+    base::SmallVector<Node*, 1> rets(rets_count);
+
     if (is_import) {
       // Call to an imported function.
       // Load function index from {WasmExportedFunctionData}.
@@ -6389,7 +6369,145 @@ class WasmWrapperGraphBuilder : public WasmGraphBuilder {
         STORE_FIXED_ARRAY_SLOT_ANY(fixed_array, i, value);
       }
     }
+    return jsval;
+  }
+
+  bool QualifiesForFastTransform(const wasm::FunctionSig*) {
+    const int wasm_count = static_cast<int>(sig_->parameter_count());
+    for (int i = 0; i < wasm_count; ++i) {
+      wasm::ValueType type = sig_->GetParam(i);
+      switch (type.kind()) {
+        case wasm::ValueType::kRef:
+        case wasm::ValueType::kOptRef:
+        case wasm::ValueType::kF32:
+        case wasm::ValueType::kF64:
+        case wasm::ValueType::kI64:
+        case wasm::ValueType::kRtt:
+        case wasm::ValueType::kS128:
+        case wasm::ValueType::kI8:
+        case wasm::ValueType::kI16:
+        case wasm::ValueType::kBottom:
+        case wasm::ValueType::kStmt:
+          return false;
+        case wasm::ValueType::kI32:
+          break;
+      }
+    }
+    return true;
+  }
+
+  Node* CanTransformFast(Node* input, wasm::ValueType type) {
+    switch (type.kind()) {
+      case wasm::ValueType::kI32: {
+        Node* is_smi = gasm_->Word32Equal(
+            gasm_->Word32And(BuildTruncateIntPtrToInt32(input),
+                             gasm_->Int32Constant(kSmiTagMask)),
+            gasm_->Int32Constant(0));
+        return is_smi;
+      }
+      case wasm::ValueType::kRef:
+      case wasm::ValueType::kOptRef:
+      case wasm::ValueType::kF32:
+      case wasm::ValueType::kF64:
+      case wasm::ValueType::kI64:
+      case wasm::ValueType::kRtt:
+      case wasm::ValueType::kS128:
+      case wasm::ValueType::kI8:
+      case wasm::ValueType::kI16:
+      case wasm::ValueType::kBottom:
+      case wasm::ValueType::kStmt:
+        UNREACHABLE();
+        break;
+    }
+  }
+
+  void BuildJSToWasmWrapper(bool is_import) {
+    const int wasm_count = static_cast<int>(sig_->parameter_count());
+
+    // Build the start and the JS parameter nodes.
+    SetEffectControl(Start(wasm_count + 5));
+
+    // Create the js_closure and js_context parameters.
+    Node* js_closure =
+        graph()->NewNode(mcgraph()->common()->Parameter(
+                             Linkage::kJSCallClosureParamIndex, "%closure"),
+                         graph()->start());
+    Node* js_context = graph()->NewNode(
+        mcgraph()->common()->Parameter(
+            Linkage::GetJSCallContextParamIndex(wasm_count + 1), "%context"),
+        graph()->start());
+
+    // Create the instance_node node to pass as parameter. It is loaded from
+    // an actual reference to an instance or a placeholder reference,
+    // called {WasmExportedFunction} via the {WasmExportedFunctionData}
+    // structure.
+    Node* function_data = BuildLoadFunctionDataFromExportedFunction(js_closure);
+    instance_node_.set(
+        BuildLoadInstanceFromExportedFunctionData(function_data));
+
+    if (!wasm::IsJSCompatibleSignature(sig_, module_, enabled_features_)) {
+      // Throw a TypeError. Use the js_context of the calling javascript
+      // function (passed as a parameter), such that the generated code is
+      // js_context independent.
+      BuildCallToRuntimeWithContext(Runtime::kWasmThrowTypeError, js_context,
+                                    nullptr, 0);
+      TerminateThrow(effect(), control());
+      return;
+    }
+
+    const int args_count = wasm_count + 1;  // +1 for wasm_code.
+
+    // Check whether the signature of the function allows for a fast
+    // transformation. Create a fast transformation path, only if it does.
+    bool include_fast_path = QualifiesForFastTransform(sig_);
+
+    // Prepare Param() nodes. Param() nodes can only be created once,
+    // so we need to use the same nodes along all possible transformation paths.
+    base::SmallVector<Node*, 16> params(args_count);
+    for (int i = 0; i < wasm_count; ++i) params[i + 1] = Param(i + 1);
+
+    auto done = gasm_->MakeLabel(MachineRepresentation::kTagged);
+    if (include_fast_path) {
+      auto slow_path = gasm_->MakeDeferredLabel();
+      // Create a condition to determine the transformation path to be used
+      // on runtime.
+      Node* use_fast_path = gasm_->Int32Constant(1);
+      for (int i = 0; i < wasm_count; ++i) {
+        Node* can_transform_fast =
+            CanTransformFast(params[i + 1], sig_->GetParam(i));
+        use_fast_path = gasm_->Word32And(can_transform_fast, use_fast_path);
+      }
+      gasm_->GotoIfNot(use_fast_path, &slow_path);
+      // Convert JS parameters to wasm numbers using the fast transformation
+      // and build the call.
+      base::SmallVector<Node*, 16> args(args_count);
+      for (int i = 0; i < wasm_count; ++i) {
+        Node* wasm_param = FromJSFast(params[i + 1], sig_->GetParam(i));
+        args[i + 1] = wasm_param;
+      }
+      Node* jsval =
+          BuildCallAndReturn(is_import, js_context, function_data, args);
+      gasm_->Goto(&done, jsval);
+      gasm_->Bind(&slow_path);
+    }
+    // Convert JS parameters to wasm numbers using the default transformation
+    // and build the call.
+    base::SmallVector<Node*, 16> args(args_count);
+    for (int i = 0; i < wasm_count; ++i) {
+      Node* wasm_param = FromJS(params[i + 1], js_context, sig_->GetParam(i));
+      args[i + 1] = wasm_param;
+    }
+    Node* jsval =
+        BuildCallAndReturn(is_import, js_context, function_data, args);
+    // If both the default and a fast transformation paths are present,
+    // get the return value based on the path used.
+    if (include_fast_path) {
+      gasm_->Goto(&done, jsval);
+      gasm_->Bind(&done);
+      Return(done.PhiAt(0));
+    } else {
       Return(jsval);
+    }
     if (ContainsInt64(sig_)) LowerInt64(kCalledFromJS);
   }