[wasm] Fix Liftoff-prologue for tiering to correctly restore state

When using registers during the Liftoff-prologue, we need to make sure
that all reserved registers are correctly pushed to and restored
from stack.

Change-Id: Iac444448cfd99fca70a811cb941d0cf5979d638b
Reviewed-on: https://chromium-review.googlesource.com/1005754
Commit-Queue: Kim-Anh Tran <kimanh@google.com>
Reviewed-by: Andreas Haas <ahaas@chromium.org>
Reviewed-by: Clemens Hammacher <clemensh@chromium.org>
Cr-Commit-Position: refs/heads/master@{#52555}

src/wasm/baseline/liftoff-assembler-defs.h

@@ -30,6 +30,8 @@ constexpr RegList kLiftoffAssemblerGpCacheRegs =
 constexpr RegList kLiftoffAssemblerFpCacheRegs =
     DoubleRegister::ListOf<xmm0, xmm1, xmm2, xmm3, xmm4, xmm5, xmm6>();
 
+constexpr Register kNoParamRegister = edi;
+
 #elif V8_TARGET_ARCH_X64
 
 constexpr RegList kLiftoffAssemblerGpCacheRegs =
@@ -38,6 +40,8 @@ constexpr RegList kLiftoffAssemblerGpCacheRegs =
 constexpr RegList kLiftoffAssemblerFpCacheRegs =
     DoubleRegister::ListOf<xmm0, xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7>();
 
+constexpr Register kNoParamRegister = r8;
+
 #elif V8_TARGET_ARCH_MIPS
 
 constexpr RegList kLiftoffAssemblerGpCacheRegs =
@@ -47,6 +51,8 @@ constexpr RegList kLiftoffAssemblerFpCacheRegs =
     DoubleRegister::ListOf<f0, f2, f4, f6, f8, f10, f12, f14, f16, f18, f20,
                            f22, f24>();
 
+constexpr Register kNoParamRegister = t0;
+
 #elif V8_TARGET_ARCH_MIPS64
 
 constexpr RegList kLiftoffAssemblerGpCacheRegs =
@@ -56,12 +62,18 @@ constexpr RegList kLiftoffAssemblerFpCacheRegs =
     DoubleRegister::ListOf<f0, f2, f4, f6, f8, f10, f12, f14, f16, f18, f20,
                            f22, f24, f26>();
 
+constexpr Register kNoParamRegister = t0;
+
 #else
 
 constexpr RegList kLiftoffAssemblerGpCacheRegs = 0xff;
 
 constexpr RegList kLiftoffAssemblerFpCacheRegs = 0xff;
 
+// This should be an allocatable, general purpose register
+// that is not used for parameters, see {wasm-linkage.cc}.
+constexpr Register kNoParamRegister = Register::no_reg();
+
 #endif
 
 #if V8_TARGET_ARCH_IA32 || V8_TARGET_ARCH_X64

src/wasm/baseline/liftoff-compiler.cc

@@ -216,6 +216,33 @@ class LiftoffCompiler {
     }
   }
 
+  void CollectReservedRegsForParameters(uint32_t input_idx_start,
+                                        uint32_t num_params,
+                                        LiftoffRegList& param_regs) {
+    uint32_t input_idx = input_idx_start;
+    for (uint32_t param_idx = 0; param_idx < num_params; ++param_idx) {
+      ValueType type = __ local_type(param_idx);
+      const int num_lowered_params = 1 + needs_reg_pair(type);
+      RegClass rc = num_lowered_params == 1 ? reg_class_for(type) : kGpReg;
+
+      for (int pair_idx = 0; pair_idx < num_lowered_params; ++pair_idx) {
+        compiler::LinkageLocation param_loc =
+            descriptor_->GetInputLocation(input_idx + pair_idx);
+        if (param_loc.IsRegister()) {
+          DCHECK(!param_loc.IsAnyRegister());
+          int reg_code = param_loc.AsRegister();
+          RegList cache_regs = rc == kGpReg ? kLiftoffAssemblerGpCacheRegs
+                                            : kLiftoffAssemblerFpCacheRegs;
+          if (cache_regs & (1 << reg_code)) {
+            LiftoffRegister in_reg = LiftoffRegister::from_code(rc, reg_code);
+            param_regs.set(in_reg);
+          }
+        }
+      }
+      input_idx += num_lowered_params;
+    }
+  }
+
   // Returns the number of inputs processed (1 or 2).
   uint32_t ProcessParameter(ValueType type, uint32_t input_idx) {
     const int num_lowered_params = 1 + needs_reg_pair(type);
@@ -275,48 +302,88 @@ class LiftoffCompiler {
 
   // Inserts a check whether the optimized version of this code already exists.
   // If so, it redirects execution to the optimized code.
-  void JumpToOptimizedCodeIfExisting() {
-    // Check whether we have an optimized function before
-    // continuing to execute the Liftoff-compiled code.
-    // TODO(clemensh): Reduce number of temporary registers.
-    LiftoffRegList pinned;
-    LiftoffRegister wasm_code_addr =
-        pinned.set(__ GetUnusedRegister(kGpReg, pinned));
-    LiftoffRegister target_code_addr =
-        pinned.set(__ GetUnusedRegister(kGpReg, pinned));
-    LiftoffRegister code_start_address =
-        pinned.set(__ GetUnusedRegister(kGpReg, pinned));
+  void JumpToOptimizedCodeIfExisting(LiftoffRegList param_regs) {
+    // We need one register to keep the address of the optimized
+    // code that is not used to keep parameters.
+    LiftoffRegister address_tmp = LiftoffRegister(kNoParamRegister);
+    DCHECK(!param_regs.has(address_tmp));
 
-    // Get the current code's target address ({instructions_.start()}).
-    __ ComputeCodeStartAddress(code_start_address.gp());
+    LiftoffRegList available_regs = kGpCacheRegList & ~param_regs;
+    // We already use the {address_tmp} later, so remove it too.
+    available_regs.clear(address_tmp);
+
+    // We require one general purpose register.
+    if (available_regs.is_empty()) {
+      LiftoffRegList taken_gp_regs = kGpCacheRegList & param_regs;
+      LiftoffRegister reg = taken_gp_regs.GetFirstRegSet();
+      available_regs.set(reg);
+    }
+
+    LiftoffRegister tmp = available_regs.GetFirstRegSet();
+    if (param_regs.has(tmp)) __ PushRegisters(LiftoffRegList::ForRegs(tmp));
 
     static LoadType kPointerLoadType =
         LoadType::ForValueType(LiftoffAssembler::kWasmIntPtr);
     using int_t = std::conditional<kPointerSize == 8, uint64_t, uint32_t>::type;
     static_assert(sizeof(int_t) == sizeof(uintptr_t), "weird uintptr_t");
     // Get the address of the WasmCode* currently stored in the code table.
-    __ LoadConstant(target_code_addr,
+    __ LoadConstant(address_tmp,
                     WasmValue(reinterpret_cast<int_t>(code_table_entry_)),
                     RelocInfo::WASM_CODE_TABLE_ENTRY);
     // Load the corresponding WasmCode*.
-    __ Load(wasm_code_addr, target_code_addr.gp(), Register::no_reg(), 0,
-            kPointerLoadType, pinned);
+    LiftoffRegister wasm_code_address = tmp;
+    __ Load(wasm_code_address, address_tmp.gp(), Register::no_reg(), 0,
+            kPointerLoadType, param_regs);
     // Load its target address ({instuctions_.start()}).
-    __ Load(target_code_addr, wasm_code_addr.gp(), Register::no_reg(),
-            WasmCode::kInstructionStartOffset, kPointerLoadType, pinned);
+    __ Load(address_tmp, wasm_code_address.gp(), Register::no_reg(),
+            WasmCode::kInstructionStartOffset, kPointerLoadType, param_regs);
+    // Get the current code's target address ({instructions_.start()}).
+    LiftoffRegister code_start_address = tmp;
+    __ ComputeCodeStartAddress(code_start_address.gp());
 
     // If the current code's target address is the same as the
     // target address of the stored WasmCode, then continue executing, otherwise
     // jump to the updated WasmCode.
     Label cont;
     __ emit_cond_jump(kEqual, &cont, LiftoffAssembler::kWasmIntPtr,
-                      target_code_addr.gp(), code_start_address.gp());
-    __ LeaveFrame(StackFrame::WASM_COMPILED);
-    __ emit_jump(target_code_addr.gp());
+                      address_tmp.gp(), code_start_address.gp());
+
+    if (param_regs.has(tmp)) __ PopRegisters(LiftoffRegList::ForRegs(tmp));
+    __ emit_jump(address_tmp.gp());
+
     __ bind(&cont);
+    if (param_regs.has(tmp)) __ PopRegisters(LiftoffRegList::ForRegs(tmp));
   }
 
   void StartFunctionBody(Decoder* decoder, Control* block) {
+    // Input 0 is the call target, the instance is at 1.
+    constexpr int kInstanceParameterIndex = 1;
+    // Store the instance parameter to a special stack slot.
+    compiler::LinkageLocation instance_loc =
+        descriptor_->GetInputLocation(kInstanceParameterIndex);
+    DCHECK(instance_loc.IsRegister());
+    DCHECK(!instance_loc.IsAnyRegister());
+    Register instance_reg = Register::from_code(instance_loc.AsRegister());
+
+    // Parameter 0 is the instance parameter.
+    uint32_t num_params =
+        static_cast<uint32_t>(decoder->sig_->parameter_count());
+
+    if (FLAG_wasm_tier_up) {
+      if (!kNoParamRegister.is_valid()) {
+        unsupported(decoder, "Please define kNoParamRegister.");
+        return;
+      }
+
+      // Collect all registers that are allocated on function entry.
+      LiftoffRegList param_regs;
+      param_regs.set(instance_reg);
+
+      CollectReservedRegsForParameters(kInstanceParameterIndex + 1, num_params,
+                                       param_regs);
+      JumpToOptimizedCodeIfExisting(param_regs);
+    }
+
     __ EnterFrame(StackFrame::WASM_COMPILED);
     __ set_has_frame(true);
     pc_offset_stack_frame_construction_ = __ PrepareStackFrame();
@@ -327,21 +394,11 @@ class LiftoffCompiler {
     // finish compilation without errors even if we hit unimplemented
     // LiftoffAssembler methods.
     if (DidAssemblerBailout(decoder)) return;
-    // Parameter 0 is the instance parameter.
-    uint32_t num_params =
-        static_cast<uint32_t>(decoder->sig_->parameter_count());
     for (uint32_t i = 0; i < __ num_locals(); ++i) {
       if (!CheckSupportedType(decoder, kTypes_ilfd, __ local_type(i), "param"))
         return;
     }
-    // Input 0 is the call target, the instance is at 1.
-    constexpr int kInstanceParameterIndex = 1;
-    // Store the instance parameter to a special stack slot.
-    compiler::LinkageLocation instance_loc =
-        descriptor_->GetInputLocation(kInstanceParameterIndex);
-    DCHECK(instance_loc.IsRegister());
-    DCHECK(!instance_loc.IsAnyRegister());
-    Register instance_reg = Register::from_code(instance_loc.AsRegister());
+
     __ SpillInstance(instance_reg);
     // Input 0 is the code target, 1 is the instance. First parameter at 2.
     uint32_t input_idx = kInstanceParameterIndex + 1;
@@ -384,14 +441,6 @@ class LiftoffCompiler {
     StackCheck(0);
 
     DCHECK_EQ(__ num_locals(), __ cache_state()->stack_height());
-
-    // TODO(kimanh): if possible, we want to move this check further up,
-    // in order to avoid unnecessary overhead each time we enter
-    // a Liftoff-compiled function that will jump to a Turbofan-compiled
-    // function.
-    if (FLAG_wasm_tier_up) {
-      JumpToOptimizedCodeIfExisting();
-    }
   }
 
   void GenerateOutOfLineCode(OutOfLineCode& ool) {

test/cctest/wasm/test-run-wasm.cc

@@ -3293,6 +3293,69 @@ WASM_EXEC_TEST(I64ShrUOnDifferentRegisters) {
       });
 }
 
+TEST(Liftoff_prologue) {
+  // The tested prologue is only inserted in tiering mode. The prologue
+  // is responsible for jumping to the optimized, tiered up code if
+  // it exists.
+  FlagScope<bool> tier_up_scope(&v8::internal::FLAG_wasm_tier_up, true);
+
+  // The number of parameters define how many registers are used
+  // on a function call. The Liftoff-prologue has to make sure to
+  // correctly save prior, and restore all parameters
+  // after the prologue.
+  const uint8_t kNumParams = 4;
+  ValueType int_types[kNumParams + 1];
+  for (int i = 0; i < kNumParams + 1; i++) int_types[i] = kWasmI32;
+  FunctionSig sig_i_x(1, kNumParams, int_types);
+
+  WasmRunner<int32_t, int32_t, int32_t, int32_t, int32_t> r(
+      WasmExecutionMode::kExecuteLiftoff);
+
+  // Define two functions: {add_locals} and {sub_locals}, whereas
+  // {sub_locals} shall be our mockup optimized code.
+  std::vector<byte> add_locals, sub_locals;
+  ADD_CODE(add_locals, WASM_I32_ADD(WASM_GET_LOCAL(0), WASM_GET_LOCAL(1)));
+  ADD_CODE(sub_locals, WASM_I32_SUB(WASM_GET_LOCAL(0), WASM_GET_LOCAL(1)));
+
+  for (int i = 2; i < kNumParams; ++i) {
+    ADD_CODE(add_locals, WASM_GET_LOCAL(i), kExprI32Add);
+    ADD_CODE(sub_locals, WASM_GET_LOCAL(i), kExprI32Sub);
+  }
+
+  WasmFunctionCompiler& add_compiler = r.NewFunction(&sig_i_x);
+  add_compiler.Build(&add_locals[0], &add_locals[0] + add_locals.size());
+
+  WasmFunctionCompiler& sub_compiler = r.NewFunction(&sig_i_x);
+  sub_compiler.Build(&sub_locals[0], &sub_locals[0] + sub_locals.size());
+
+  // Create a calling function, which shall call {add_locals}.
+  std::vector<byte> call;
+  for (int i = 0; i < kNumParams; ++i) {
+    ADD_CODE(call, WASM_GET_LOCAL(i));
+  }
+  ADD_CODE(call, kExprCallFunction,
+           static_cast<byte>(add_compiler.function_index()));
+  r.Build(&call[0], &call[0] + call.size());
+
+  NativeModule* native_module =
+      r.builder().instance_object()->compiled_module()->GetNativeModule();
+
+  // This test only works if we managed to compile with Liftoff.
+  if (native_module->GetCode(add_compiler.function_index())->is_liftoff()) {
+    // First run should execute {add_locals}.
+    CHECK_EQ(10, r.Call(1, 2, 3, 4));
+
+    // Update the native_module to contain the "optimized" code ({sub_locals}).
+    native_module->SetCode(
+        add_compiler.function_index(),
+        native_module->GetCode(sub_compiler.function_index()));
+
+    // Second run should execute {add_locals}, which should detect that
+    // the code was updated, and run {sub_locals}.
+    CHECK_EQ(-8, r.Call(1, 2, 3, 4));
+  }
+}
+
 #undef B1
 #undef B2
 #undef RET