// Copyright 2017 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef V8_WASM_BASELINE_S390_LIFTOFF_ASSEMBLER_S390_H_ #define V8_WASM_BASELINE_S390_LIFTOFF_ASSEMBLER_S390_H_ #include "src/wasm/baseline/liftoff-assembler.h" #define BAILOUT(reason) bailout("s390 " reason) namespace v8 { namespace internal { namespace wasm { int LiftoffAssembler::PrepareStackFrame() { BAILOUT("PrepareStackFrame"); return 0; } void LiftoffAssembler::PatchPrepareStackFrame(int offset, uint32_t stack_slots) { BAILOUT("PatchPrepareStackFrame"); } void LiftoffAssembler::FinishCode() {} void LiftoffAssembler::AbortCompilation() {} void LiftoffAssembler::LoadConstant(LiftoffRegister reg, WasmValue value, RelocInfo::Mode rmode) { BAILOUT("LoadConstant"); } void LiftoffAssembler::LoadFromInstance(Register dst, uint32_t offset, int size) { BAILOUT("LoadFromInstance"); } void LiftoffAssembler::SpillInstance(Register instance) { BAILOUT("SpillInstance"); } void LiftoffAssembler::FillInstanceInto(Register dst) { BAILOUT("FillInstanceInto"); } void LiftoffAssembler::Load(LiftoffRegister dst, Register src_addr, Register offset_reg, uint32_t offset_imm, LoadType type, LiftoffRegList pinned, uint32_t* protected_load_pc, bool is_load_mem) { BAILOUT("Load"); } void LiftoffAssembler::Store(Register dst_addr, Register offset_reg, uint32_t offset_imm, LiftoffRegister src, StoreType type, LiftoffRegList pinned, uint32_t* protected_store_pc, bool is_store_mem) { BAILOUT("Store"); } void LiftoffAssembler::LoadCallerFrameSlot(LiftoffRegister dst, uint32_t caller_slot_idx, ValueType type) { BAILOUT("LoadCallerFrameSlot"); } void LiftoffAssembler::MoveStackValue(uint32_t dst_index, uint32_t src_index, ValueType type) { BAILOUT("MoveStackValue"); } void LiftoffAssembler::Move(Register dst, Register src, ValueType type) { BAILOUT("Move Register"); } void LiftoffAssembler::Move(DoubleRegister dst, DoubleRegister src, ValueType type) { BAILOUT("Move DoubleRegister"); } void LiftoffAssembler::Spill(uint32_t index, LiftoffRegister reg, ValueType type) { BAILOUT("Spill register"); } void LiftoffAssembler::Spill(uint32_t index, WasmValue value) { BAILOUT("Spill value"); } void LiftoffAssembler::Fill(LiftoffRegister reg, uint32_t index, ValueType type) { BAILOUT("Fill"); } void LiftoffAssembler::FillI64Half(Register, uint32_t half_index) { BAILOUT("FillI64Half"); } #define UNIMPLEMENTED_GP_BINOP(name) \ void LiftoffAssembler::emit_##name(Register dst, Register lhs, \ Register rhs) { \ BAILOUT("gp binop: " #name); \ } #define UNIMPLEMENTED_I64_BINOP(name) \ void LiftoffAssembler::emit_##name(LiftoffRegister dst, LiftoffRegister lhs, \ LiftoffRegister rhs) { \ BAILOUT("i64 binop: " #name); \ } #define UNIMPLEMENTED_GP_UNOP(name) \ bool LiftoffAssembler::emit_##name(Register dst, Register src) { \ BAILOUT("gp unop: " #name); \ return true; \ } #define UNIMPLEMENTED_FP_BINOP(name) \ void LiftoffAssembler::emit_##name(DoubleRegister dst, DoubleRegister lhs, \ DoubleRegister rhs) { \ BAILOUT("fp binop: " #name); \ } #define UNIMPLEMENTED_FP_UNOP(name) \ void LiftoffAssembler::emit_##name(DoubleRegister dst, DoubleRegister src) { \ BAILOUT("fp unop: " #name); \ } #define UNIMPLEMENTED_FP_UNOP_RETURN_TRUE(name) \ bool LiftoffAssembler::emit_##name(DoubleRegister dst, DoubleRegister src) { \ BAILOUT("fp unop: " #name); \ return true; \ } #define UNIMPLEMENTED_I32_SHIFTOP(name) \ void LiftoffAssembler::emit_##name(Register dst, Register src, \ Register amount, LiftoffRegList pinned) { \ BAILOUT("i32 shiftop: " #name); \ } #define UNIMPLEMENTED_I64_SHIFTOP(name) \ void LiftoffAssembler::emit_##name(LiftoffRegister dst, LiftoffRegister src, \ Register amount, LiftoffRegList pinned) { \ BAILOUT("i64 shiftop: " #name); \ } UNIMPLEMENTED_GP_BINOP(i32_add) UNIMPLEMENTED_GP_BINOP(i32_sub) UNIMPLEMENTED_GP_BINOP(i32_mul) UNIMPLEMENTED_GP_BINOP(i32_and) UNIMPLEMENTED_GP_BINOP(i32_or) UNIMPLEMENTED_GP_BINOP(i32_xor) UNIMPLEMENTED_I32_SHIFTOP(i32_shl) UNIMPLEMENTED_I32_SHIFTOP(i32_sar) UNIMPLEMENTED_I32_SHIFTOP(i32_shr) UNIMPLEMENTED_I64_BINOP(i64_add) UNIMPLEMENTED_I64_BINOP(i64_sub) UNIMPLEMENTED_I64_BINOP(i64_mul) #ifdef V8_TARGET_ARCH_S390X UNIMPLEMENTED_I64_BINOP(i64_and) UNIMPLEMENTED_I64_BINOP(i64_or) UNIMPLEMENTED_I64_BINOP(i64_xor) #endif UNIMPLEMENTED_I64_SHIFTOP(i64_shl) UNIMPLEMENTED_I64_SHIFTOP(i64_sar) UNIMPLEMENTED_I64_SHIFTOP(i64_shr) UNIMPLEMENTED_GP_UNOP(i32_clz) UNIMPLEMENTED_GP_UNOP(i32_ctz) UNIMPLEMENTED_GP_UNOP(i32_popcnt) UNIMPLEMENTED_FP_BINOP(f32_add) UNIMPLEMENTED_FP_BINOP(f32_sub) UNIMPLEMENTED_FP_BINOP(f32_mul) UNIMPLEMENTED_FP_BINOP(f32_div) UNIMPLEMENTED_FP_BINOP(f32_min) UNIMPLEMENTED_FP_BINOP(f32_max) UNIMPLEMENTED_FP_UNOP(f32_abs) UNIMPLEMENTED_FP_UNOP(f32_neg) UNIMPLEMENTED_FP_UNOP(f32_ceil) UNIMPLEMENTED_FP_UNOP(f32_floor) UNIMPLEMENTED_FP_UNOP(f32_trunc) UNIMPLEMENTED_FP_UNOP(f32_nearest_int) UNIMPLEMENTED_FP_UNOP(f32_sqrt) UNIMPLEMENTED_FP_BINOP(f64_add) UNIMPLEMENTED_FP_BINOP(f64_sub) UNIMPLEMENTED_FP_BINOP(f64_mul) UNIMPLEMENTED_FP_BINOP(f64_div) UNIMPLEMENTED_FP_BINOP(f64_min) UNIMPLEMENTED_FP_BINOP(f64_max) UNIMPLEMENTED_FP_UNOP(f64_abs) UNIMPLEMENTED_FP_UNOP(f64_neg) UNIMPLEMENTED_FP_UNOP_RETURN_TRUE(f64_ceil) UNIMPLEMENTED_FP_UNOP_RETURN_TRUE(f64_floor) UNIMPLEMENTED_FP_UNOP_RETURN_TRUE(f64_trunc) UNIMPLEMENTED_FP_UNOP_RETURN_TRUE(f64_nearest_int) UNIMPLEMENTED_FP_UNOP(f64_sqrt) #undef UNIMPLEMENTED_GP_BINOP #undef UNIMPLEMENTED_I64_BINOP #undef UNIMPLEMENTED_GP_UNOP #undef UNIMPLEMENTED_FP_BINOP #undef UNIMPLEMENTED_FP_UNOP #undef UNIMPLEMENTED_FP_UNOP_RETURN_TRUE #undef UNIMPLEMENTED_I32_SHIFTOP #undef UNIMPLEMENTED_I64_SHIFTOP void LiftoffAssembler::emit_i32_divs(Register dst, Register lhs, Register rhs, Label* trap_div_by_zero, Label* trap_div_unrepresentable) { BAILOUT("i32_divs"); } void LiftoffAssembler::emit_i32_divu(Register dst, Register lhs, Register rhs, Label* trap_div_by_zero) { BAILOUT("i32_divu"); } void LiftoffAssembler::emit_i32_rems(Register dst, Register lhs, Register rhs, Label* trap_div_by_zero) { BAILOUT("i32_rems"); } void LiftoffAssembler::emit_i32_remu(Register dst, Register lhs, Register rhs, Label* trap_div_by_zero) { BAILOUT("i32_remu"); } bool LiftoffAssembler::emit_i64_divs(LiftoffRegister dst, LiftoffRegister lhs, LiftoffRegister rhs, Label* trap_div_by_zero, Label* trap_div_unrepresentable) { BAILOUT("i64_divs"); return true; } bool LiftoffAssembler::emit_i64_divu(LiftoffRegister dst, LiftoffRegister lhs, LiftoffRegister rhs, Label* trap_div_by_zero) { BAILOUT("i64_divu"); return true; } bool LiftoffAssembler::emit_i64_rems(LiftoffRegister dst, LiftoffRegister lhs, LiftoffRegister rhs, Label* trap_div_by_zero) { BAILOUT("i64_rems"); return true; } bool LiftoffAssembler::emit_i64_remu(LiftoffRegister dst, LiftoffRegister lhs, LiftoffRegister rhs, Label* trap_div_by_zero) { BAILOUT("i64_remu"); return true; } void LiftoffAssembler::emit_i32_to_intptr(Register dst, Register src) { #ifdef V8_TARGET_ARCH_S390X BAILOUT("emit_i32_to_intptr"); #else // This is a nop on s390. #endif } bool LiftoffAssembler::emit_type_conversion(WasmOpcode opcode, LiftoffRegister dst, LiftoffRegister src, Label* trap) { BAILOUT("emit_type_conversion"); return true; } void LiftoffAssembler::emit_jump(Label* label) { BAILOUT("emit_jump"); } void LiftoffAssembler::emit_jump(Register target) { BAILOUT("emit_jump"); } void LiftoffAssembler::emit_cond_jump(Condition cond, Label* label, ValueType type, Register lhs, Register rhs) { BAILOUT("emit_cond_jump"); } void LiftoffAssembler::emit_i32_eqz(Register dst, Register src) { BAILOUT("emit_i32_eqz"); } void LiftoffAssembler::emit_i32_set_cond(Condition cond, Register dst, Register lhs, Register rhs) { BAILOUT("emit_i32_set_cond"); } void LiftoffAssembler::emit_i64_eqz(Register dst, LiftoffRegister src) { BAILOUT("emit_i64_eqz"); } void LiftoffAssembler::emit_i64_set_cond(Condition cond, Register dst, LiftoffRegister lhs, LiftoffRegister rhs) { BAILOUT("emit_i64_set_cond"); } void LiftoffAssembler::emit_f32_set_cond(Condition cond, Register dst, DoubleRegister lhs, DoubleRegister rhs) { BAILOUT("emit_f32_set_cond"); } void LiftoffAssembler::emit_f64_set_cond(Condition cond, Register dst, DoubleRegister lhs, DoubleRegister rhs) { BAILOUT("emit_f64_set_cond"); } void LiftoffAssembler::StackCheck(Label* ool_code, Register limit_address) { BAILOUT("StackCheck"); } void LiftoffAssembler::CallTrapCallbackForTesting() { BAILOUT("CallTrapCallbackForTesting"); } void LiftoffAssembler::AssertUnreachable(AbortReason reason) { BAILOUT("AssertUnreachable"); } void LiftoffAssembler::PushRegisters(LiftoffRegList regs) { BAILOUT("PushRegisters"); } void LiftoffAssembler::PopRegisters(LiftoffRegList regs) { BAILOUT("PopRegisters"); } void LiftoffAssembler::DropStackSlotsAndRet(uint32_t num_stack_slots) { BAILOUT("DropStackSlotsAndRet"); } void LiftoffAssembler::CallC(wasm::FunctionSig* sig, const LiftoffRegister* args, const LiftoffRegister* rets, ValueType out_argument_type, int stack_bytes, ExternalReference ext_ref) { BAILOUT("CallC"); } void LiftoffAssembler::CallNativeWasmCode(Address addr) { BAILOUT("CallNativeWasmCode"); } void LiftoffAssembler::CallIndirect(wasm::FunctionSig* sig, compiler::CallDescriptor* call_descriptor, Register target) { BAILOUT("CallIndirect"); } void LiftoffAssembler::CallRuntimeStub(WasmCode::RuntimeStubId sid) { BAILOUT("CallRuntimeStub"); } void LiftoffAssembler::AllocateStackSlot(Register addr, uint32_t size) { BAILOUT("AllocateStackSlot"); } void LiftoffAssembler::DeallocateStackSlot(uint32_t size) { BAILOUT("DeallocateStackSlot"); } void LiftoffStackSlots::Construct() { asm_->BAILOUT("LiftoffStackSlots::Construct"); } } // namespace wasm } // namespace internal } // namespace v8 #undef BAILOUT #endif // V8_WASM_BASELINE_S390_LIFTOFF_ASSEMBLER_S390_H_