/* * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #ifndef SHARE_VM_PRIMS_METHODHANDLEWALK_HPP #define SHARE_VM_PRIMS_METHODHANDLEWALK_HPP #include "prims/methodHandles.hpp" // Low-level parser for method handle chains. class MethodHandleChain : StackObj { public: typedef MethodHandles::EntryKind EntryKind; private: Handle _root; // original target Handle _method_handle; // current target bool _is_last; // final guy in chain bool _is_bound; // has a bound argument BasicType _arg_type; // if is_bound, the bound argument type int _arg_slot; // if is_bound or is_adapter, affected argument slot jint _conversion; // conversion field of AMH or -1 methodHandle _last_method; // if is_last, which method we target Bytecodes::Code _last_invoke; // if is_last, type of invoke const char* _lose_message; // saved argument to lose() void set_method_handle(Handle target, TRAPS); void set_last_method(oop target, TRAPS); static BasicType compute_bound_arg_type(oop target, methodOop m, int arg_slot, TRAPS); oop MethodHandle_type_oop() { return java_dyn_MethodHandle::type(method_handle_oop()); } oop MethodHandle_vmtarget_oop() { return java_dyn_MethodHandle::vmtarget(method_handle_oop()); } int MethodHandle_vmslots() { return java_dyn_MethodHandle::vmslots(method_handle_oop()); } int DirectMethodHandle_vmindex() { return sun_dyn_DirectMethodHandle::vmindex(method_handle_oop()); } oop BoundMethodHandle_argument_oop() { return sun_dyn_BoundMethodHandle::argument(method_handle_oop()); } int BoundMethodHandle_vmargslot() { return sun_dyn_BoundMethodHandle::vmargslot(method_handle_oop()); } int AdapterMethodHandle_conversion() { return sun_dyn_AdapterMethodHandle::conversion(method_handle_oop()); } public: MethodHandleChain(Handle root, TRAPS) : _root(root) { set_method_handle(root, THREAD); } bool is_adapter() { return _conversion != -1; } bool is_bound() { return _is_bound; } bool is_last() { return _is_last; } void next(TRAPS) { assert(!is_last(), ""); set_method_handle(MethodHandle_vmtarget_oop(), THREAD); } Handle method_handle() { return _method_handle; } oop method_handle_oop() { return _method_handle(); } oop method_type_oop() { return MethodHandle_type_oop(); } oop vmtarget_oop() { return MethodHandle_vmtarget_oop(); } jint adapter_conversion() { assert(is_adapter(), ""); return _conversion; } int adapter_conversion_op() { return MethodHandles::adapter_conversion_op(adapter_conversion()); } BasicType adapter_conversion_src_type() { return MethodHandles::adapter_conversion_src_type(adapter_conversion()); } BasicType adapter_conversion_dest_type() { return MethodHandles::adapter_conversion_dest_type(adapter_conversion()); } int adapter_conversion_stack_move() { return MethodHandles::adapter_conversion_stack_move(adapter_conversion()); } int adapter_conversion_stack_pushes() { return adapter_conversion_stack_move() / MethodHandles::stack_move_unit(); } int adapter_conversion_vminfo() { return MethodHandles::adapter_conversion_vminfo(adapter_conversion()); } int adapter_arg_slot() { assert(is_adapter(), ""); return _arg_slot; } oop adapter_arg_oop() { assert(is_adapter(), ""); return BoundMethodHandle_argument_oop(); } BasicType bound_arg_type() { assert(is_bound(), ""); return _arg_type; } int bound_arg_slot() { assert(is_bound(), ""); return _arg_slot; } oop bound_arg_oop() { assert(is_bound(), ""); return BoundMethodHandle_argument_oop(); } methodOop last_method_oop() { assert(is_last(), ""); return _last_method(); } Bytecodes::Code last_invoke_code() { assert(is_last(), ""); return _last_invoke; } void lose(const char* msg, TRAPS); const char* lose_message() { return _lose_message; } }; // Structure walker for method handles. // Does abstract interpretation on top of low-level parsing. // You supply the tokens shuffled by the abstract interpretation. class MethodHandleWalker : StackObj { public: // Stack values: enum TokenType { tt_void, tt_parameter, tt_temporary, tt_constant, tt_illegal }; // Argument token: class ArgToken { private: TokenType _tt; BasicType _bt; jvalue _value; Handle _handle; public: ArgToken(TokenType tt = tt_illegal) : _tt(tt) {} ArgToken(TokenType tt, BasicType bt, jvalue value) : _tt(tt), _bt(bt), _value(value) {} ArgToken(TokenType tt, BasicType bt, int index) : _tt(tt), _bt(bt) { _value.i = index; } ArgToken(TokenType tt, BasicType bt, Handle value) : _tt(tt), _bt(bt) { _handle = value; } TokenType token_type() const { return _tt; } BasicType basic_type() const { return _bt; } int index() const { return _value.i; } Handle object() const { return _handle; } jint get_jint() const { return _value.i; } jlong get_jlong() const { return _value.j; } jfloat get_jfloat() const { return _value.f; } jdouble get_jdouble() const { return _value.d; } }; // Abstract interpretation state: struct SlotState { BasicType _type; ArgToken _arg; SlotState() : _type(), _arg() {} }; static SlotState make_state(BasicType type, ArgToken arg) { SlotState ss; ss._type = type; ss._arg = arg; return ss; } private: MethodHandleChain _chain; bool _for_invokedynamic; int _local_index; GrowableArray _outgoing; // current outgoing parameter slots int _outgoing_argc; // # non-empty outgoing slots // Replace a value of type old_type at slot (and maybe slot+1) with the new value. // If old_type != T_VOID, remove the old argument at that point. // If new_type != T_VOID, insert the new argument at that point. // Insert or delete a second empty slot as needed. void change_argument(BasicType old_type, int slot, BasicType new_type, const ArgToken& new_arg); SlotState* slot_state(int slot) { if (slot < 0 || slot >= _outgoing.length()) return NULL; return _outgoing.adr_at(slot); } BasicType slot_type(int slot) { SlotState* ss = slot_state(slot); if (ss == NULL) return T_ILLEGAL; return ss->_type; } bool slot_has_argument(int slot) { return slot_type(slot) < T_VOID; } #ifdef ASSERT int argument_count_slow(); #endif // Return a bytecode for converting src to dest, if one exists. Bytecodes::Code conversion_code(BasicType src, BasicType dest); void walk_incoming_state(TRAPS); public: MethodHandleWalker(Handle root, bool for_invokedynamic, TRAPS) : _chain(root, THREAD), _for_invokedynamic(for_invokedynamic), _outgoing(THREAD, 10), _outgoing_argc(0) { _local_index = for_invokedynamic ? 0 : 1; } MethodHandleChain& chain() { return _chain; } bool for_invokedynamic() const { return _for_invokedynamic; } int new_local_index(BasicType bt) { //int index = _for_invokedynamic ? _local_index : _local_index - 1; int index = _local_index; _local_index += type2size[bt]; return index; } int max_locals() const { return _local_index; } // plug-in abstract interpretation steps: virtual ArgToken make_parameter( BasicType type, klassOop tk, int argnum, TRAPS ) = 0; virtual ArgToken make_prim_constant( BasicType type, jvalue* con, TRAPS ) = 0; virtual ArgToken make_oop_constant( oop con, TRAPS ) = 0; virtual ArgToken make_conversion( BasicType type, klassOop tk, Bytecodes::Code op, const ArgToken& src, TRAPS ) = 0; virtual ArgToken make_fetch( BasicType type, klassOop tk, Bytecodes::Code op, const ArgToken& base, const ArgToken& offset, TRAPS ) = 0; virtual ArgToken make_invoke( methodOop m, vmIntrinsics::ID iid, Bytecodes::Code op, bool tailcall, int argc, ArgToken* argv, TRAPS ) = 0; // For make_invoke, the methodOop can be NULL if the intrinsic ID // is something other than vmIntrinsics::_none. // and in case anyone cares to related the previous actions to the chain: virtual void set_method_handle(oop mh) { } void lose(const char* msg, TRAPS) { chain().lose(msg, THREAD); } const char* lose_message() { return chain().lose_message(); } ArgToken walk(TRAPS); }; // An abstract interpreter for method handle chains. // Produces an account of the semantics of a chain, in terms of a static IR. // The IR happens to be JVM bytecodes. class MethodHandleCompiler : public MethodHandleWalker { private: methodHandle _callee; KlassHandle _rklass; // Return type for casting. BasicType _rtype; KlassHandle _target_klass; Thread* _thread; // Fake constant pool entry. class ConstantValue { private: int _tag; // Constant pool tag type. JavaValue _value; Handle _handle; public: // Constructor for oop types. ConstantValue(int tag, Handle con) : _tag(tag), _handle(con) { assert(tag == JVM_CONSTANT_Utf8 || tag == JVM_CONSTANT_Class || tag == JVM_CONSTANT_String || tag == JVM_CONSTANT_Object, "must be oop type"); } // Constructor for oop reference types. ConstantValue(int tag, int index) : _tag(tag) { assert(JVM_CONSTANT_Fieldref <= tag && tag <= JVM_CONSTANT_NameAndType, "must be ref type"); _value.set_jint(index); } ConstantValue(int tag, int first_index, int second_index) : _tag(tag) { assert(JVM_CONSTANT_Fieldref <= tag && tag <= JVM_CONSTANT_NameAndType, "must be ref type"); _value.set_jint(first_index << 16 | second_index); } // Constructor for primitive types. ConstantValue(BasicType bt, jvalue con) { _value.set_type(bt); switch (bt) { case T_INT: _tag = JVM_CONSTANT_Integer; _value.set_jint( con.i); break; case T_LONG: _tag = JVM_CONSTANT_Long; _value.set_jlong( con.j); break; case T_FLOAT: _tag = JVM_CONSTANT_Float; _value.set_jfloat( con.f); break; case T_DOUBLE: _tag = JVM_CONSTANT_Double; _value.set_jdouble(con.d); break; default: ShouldNotReachHere(); } } int tag() const { return _tag; } symbolOop symbol_oop() const { return (symbolOop) _handle(); } klassOop klass_oop() const { return (klassOop) _handle(); } oop object_oop() const { return _handle(); } int index() const { return _value.get_jint(); } int first_index() const { return _value.get_jint() >> 16; } int second_index() const { return _value.get_jint() & 0x0000FFFF; } bool is_primitive() const { return is_java_primitive(_value.get_type()); } jint get_jint() const { return _value.get_jint(); } jlong get_jlong() const { return _value.get_jlong(); } jfloat get_jfloat() const { return _value.get_jfloat(); } jdouble get_jdouble() const { return _value.get_jdouble(); } }; // Fake constant pool. GrowableArray _constants; // Accumulated compiler state: GrowableArray _bytecode; int _cur_stack; int _max_stack; int _num_params; int _name_index; int _signature_index; void stack_push(BasicType bt) { _cur_stack += type2size[bt]; if (_cur_stack > _max_stack) _max_stack = _cur_stack; } void stack_pop(BasicType bt) { _cur_stack -= type2size[bt]; assert(_cur_stack >= 0, "sanity"); } unsigned char* bytecode() const { return _bytecode.adr_at(0); } int bytecode_length() const { return _bytecode.length(); } // Fake constant pool. int cpool_oop_put(int tag, Handle con) { if (con.is_null()) return 0; ConstantValue* cv = new ConstantValue(tag, con); return _constants.append(cv); } int cpool_oop_reference_put(int tag, int first_index, int second_index) { if (first_index == 0 && second_index == 0) return 0; assert(first_index != 0 && second_index != 0, "no zero indexes"); ConstantValue* cv = new ConstantValue(tag, first_index, second_index); return _constants.append(cv); } int cpool_primitive_put(BasicType type, jvalue* con); int cpool_int_put(jint value) { jvalue con; con.i = value; return cpool_primitive_put(T_INT, &con); } int cpool_long_put(jlong value) { jvalue con; con.j = value; return cpool_primitive_put(T_LONG, &con); } int cpool_float_put(jfloat value) { jvalue con; con.f = value; return cpool_primitive_put(T_FLOAT, &con); } int cpool_double_put(jdouble value) { jvalue con; con.d = value; return cpool_primitive_put(T_DOUBLE, &con); } int cpool_object_put(Handle obj) { return cpool_oop_put(JVM_CONSTANT_Object, obj); } int cpool_symbol_put(symbolOop sym) { return cpool_oop_put(JVM_CONSTANT_Utf8, sym); } int cpool_klass_put(klassOop klass) { return cpool_oop_put(JVM_CONSTANT_Class, klass); } int cpool_methodref_put(int class_index, int name_and_type_index) { return cpool_oop_reference_put(JVM_CONSTANT_Methodref, class_index, name_and_type_index); } int cpool_name_and_type_put(int name_index, int signature_index) { return cpool_oop_reference_put(JVM_CONSTANT_NameAndType, name_index, signature_index); } void emit_bc(Bytecodes::Code op, int index = 0); void emit_load(BasicType bt, int index); void emit_store(BasicType bt, int index); void emit_load_constant(ArgToken arg); virtual ArgToken make_parameter(BasicType type, klassOop tk, int argnum, TRAPS) { return ArgToken(tt_parameter, type, argnum); } virtual ArgToken make_oop_constant(oop con, TRAPS) { Handle h(THREAD, con); return ArgToken(tt_constant, T_OBJECT, h); } virtual ArgToken make_prim_constant(BasicType type, jvalue* con, TRAPS) { return ArgToken(tt_constant, type, *con); } virtual ArgToken make_conversion(BasicType type, klassOop tk, Bytecodes::Code op, const ArgToken& src, TRAPS); virtual ArgToken make_fetch(BasicType type, klassOop tk, Bytecodes::Code op, const ArgToken& base, const ArgToken& offset, TRAPS); virtual ArgToken make_invoke(methodOop m, vmIntrinsics::ID iid, Bytecodes::Code op, bool tailcall, int argc, ArgToken* argv, TRAPS); // Get a real constant pool. constantPoolHandle get_constant_pool(TRAPS) const; // Get a real methodOop. methodHandle get_method_oop(TRAPS) const; public: MethodHandleCompiler(Handle root, methodHandle call_method, bool for_invokedynamic, TRAPS); // Compile the given MH chain into bytecode. methodHandle compile(TRAPS); // Tests if the given class is a MH adapter holder. static bool klass_is_method_handle_adapter_holder(klassOop klass) { return (klass == SystemDictionary::MethodHandle_klass()); } }; #endif // SHARE_VM_PRIMS_METHODHANDLEWALK_HPP