/* * Copyright (c) 2011, 2019, 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_JVMCI_JVMCICODEINSTALLER_HPP #define SHARE_JVMCI_JVMCICODEINSTALLER_HPP #include "code/debugInfoRec.hpp" #include "code/exceptionHandlerTable.hpp" #include "code/nativeInst.hpp" #include "jvmci/jvmci.hpp" #include "jvmci/jvmciEnv.hpp" #if INCLUDE_AOT class RelocBuffer : public StackObj { enum { stack_size = 1024 }; public: RelocBuffer() : _size(0), _buffer(0) {} ~RelocBuffer(); void ensure_size(size_t bytes); void set_size(size_t bytes); address begin() const; size_t size() const { return _size; } private: size_t _size; char _static_buffer[stack_size]; char *_buffer; }; class CodeInstaller; class AOTOopRecorder : public OopRecorder { public: AOTOopRecorder(CodeInstaller* code_inst, Arena* arena = NULL, bool deduplicate = false); virtual int find_index(Metadata* h); virtual int find_index(jobject h); int nr_meta_refs() const; jobject meta_element(int pos) const; private: void record_meta_ref(jobject ref, int index); GrowableArray* _meta_refs; CodeInstaller* _code_inst; }; #endif // INCLUDE_AOT class CodeMetadata { public: CodeMetadata() {} CodeBlob* get_code_blob() const { return _cb; } PcDesc* get_pc_desc() const { return _pc_desc; } int get_nr_pc_desc() const { return _nr_pc_desc; } u_char* get_scopes_desc() const { return _scopes_desc; } int get_scopes_size() const { return _nr_scopes_desc; } #if INCLUDE_AOT RelocBuffer* get_reloc_buffer() { return &_reloc_buffer; } AOTOopRecorder* get_oop_recorder() { return _oop_recorder; } #endif ExceptionHandlerTable* get_exception_table() { return _exception_table; } ImplicitExceptionTable* get_implicit_exception_table() { return _implicit_exception_table; } void set_pc_desc(PcDesc* desc, int count) { _pc_desc = desc; _nr_pc_desc = count; } void set_scopes(u_char* scopes, int size) { _scopes_desc = scopes; _nr_scopes_desc = size; } #if INCLUDE_AOT void set_oop_recorder(AOTOopRecorder* recorder) { _oop_recorder = recorder; } #endif void set_exception_table(ExceptionHandlerTable* table) { _exception_table = table; } void set_implicit_exception_table(ImplicitExceptionTable* table) { _implicit_exception_table = table; } private: CodeBlob* _cb; PcDesc* _pc_desc; int _nr_pc_desc; u_char* _scopes_desc; int _nr_scopes_desc; #if INCLUDE_AOT RelocBuffer _reloc_buffer; AOTOopRecorder* _oop_recorder; #endif ExceptionHandlerTable* _exception_table; ImplicitExceptionTable* _implicit_exception_table; }; /* * This class handles the conversion from a InstalledCode to a CodeBlob or an nmethod. */ class CodeInstaller : public StackObj { friend class JVMCIVMStructs; private: enum MarkId { VERIFIED_ENTRY = 1, UNVERIFIED_ENTRY = 2, OSR_ENTRY = 3, EXCEPTION_HANDLER_ENTRY = 4, DEOPT_HANDLER_ENTRY = 5, INVOKEINTERFACE = 6, INVOKEVIRTUAL = 7, INVOKESTATIC = 8, INVOKESPECIAL = 9, INLINE_INVOKE = 10, POLL_NEAR = 11, POLL_RETURN_NEAR = 12, POLL_FAR = 13, POLL_RETURN_FAR = 14, CARD_TABLE_ADDRESS = 15, CARD_TABLE_SHIFT = 16, HEAP_TOP_ADDRESS = 17, HEAP_END_ADDRESS = 18, NARROW_KLASS_BASE_ADDRESS = 19, NARROW_OOP_BASE_ADDRESS = 20, CRC_TABLE_ADDRESS = 21, LOG_OF_HEAP_REGION_GRAIN_BYTES = 22, INLINE_CONTIGUOUS_ALLOCATION_SUPPORTED = 23, INVOKE_INVALID = -1 }; Arena _arena; JVMCIEnv* _jvmci_env; JVMCIPrimitiveArray _data_section_handle; JVMCIObjectArray _data_section_patches_handle; JVMCIObjectArray _sites_handle; #ifndef PRODUCT JVMCIObjectArray _comments_handle; #endif JVMCIPrimitiveArray _code_handle; JVMCIObject _word_kind_handle; CodeOffsets _offsets; jint _code_size; jint _total_frame_size; jint _orig_pc_offset; jint _parameter_count; jint _constants_size; bool _has_wide_vector; MarkId _next_call_type; address _invoke_mark_pc; CodeSection* _instructions; CodeSection* _constants; OopRecorder* _oop_recorder; DebugInformationRecorder* _debug_recorder; Dependencies* _dependencies; ExceptionHandlerTable _exception_handler_table; ImplicitExceptionTable _implicit_exception_table; bool _immutable_pic_compilation; // Installer is called for Immutable PIC compilation. static ConstantOopWriteValue* _oop_null_scope_value; static ConstantIntValue* _int_m1_scope_value; static ConstantIntValue* _int_0_scope_value; static ConstantIntValue* _int_1_scope_value; static ConstantIntValue* _int_2_scope_value; static LocationValue* _illegal_value; jint pd_next_offset(NativeInstruction* inst, jint pc_offset, JVMCIObject method, JVMCI_TRAPS); void pd_patch_OopConstant(int pc_offset, JVMCIObject constant, JVMCI_TRAPS); void pd_patch_MetaspaceConstant(int pc_offset, JVMCIObject constant, JVMCI_TRAPS); void pd_patch_DataSectionReference(int pc_offset, int data_offset, JVMCI_TRAPS); void pd_relocate_ForeignCall(NativeInstruction* inst, jlong foreign_call_destination, JVMCI_TRAPS); void pd_relocate_JavaMethod(CodeBuffer &cbuf, JVMCIObject method, jint pc_offset, JVMCI_TRAPS); void pd_relocate_poll(address pc, jint mark, JVMCI_TRAPS); JVMCIObjectArray sites() { return _sites_handle; } JVMCIPrimitiveArray code() { return _code_handle; } JVMCIPrimitiveArray data_section() { return _data_section_handle; } JVMCIObjectArray data_section_patches() { return _data_section_patches_handle; } #ifndef PRODUCT JVMCIObjectArray comments() { return _comments_handle; } #endif JVMCIObject word_kind() { return _word_kind_handle; } public: CodeInstaller(JVMCIEnv* jvmci_env, bool immutable_pic_compilation) : _arena(mtJVMCI), _jvmci_env(jvmci_env), _immutable_pic_compilation(immutable_pic_compilation) {} #if INCLUDE_AOT JVMCI::CodeInstallResult gather_metadata(JVMCIObject target, JVMCIObject compiled_code, CodeMetadata& metadata, JVMCI_TRAPS); #endif JVMCI::CodeInstallResult install(JVMCICompiler* compiler, JVMCIObject target, JVMCIObject compiled_code, CodeBlob*& cb, JVMCIObject installed_code, FailedSpeculation** failed_speculations, char* speculations, int speculations_len, JVMCI_TRAPS); JVMCIEnv* jvmci_env() { return _jvmci_env; } JVMCIRuntime* runtime() { return _jvmci_env->runtime(); } static address runtime_call_target_address(oop runtime_call); static VMReg get_hotspot_reg(jint jvmciRegisterNumber, JVMCI_TRAPS); static bool is_general_purpose_reg(VMReg hotspotRegister); const OopMapSet* oopMapSet() const { return _debug_recorder->_oopmaps; } protected: Location::Type get_oop_type(JVMCIObject value); ScopeValue* get_scope_value(JVMCIObject value, BasicType type, GrowableArray* objects, ScopeValue* &second, JVMCI_TRAPS); MonitorValue* get_monitor_value(JVMCIObject value, GrowableArray* objects, JVMCI_TRAPS); void* record_metadata_reference(CodeSection* section, address dest, JVMCIObject constant, JVMCI_TRAPS); #ifdef _LP64 narrowKlass record_narrow_metadata_reference(CodeSection* section, address dest, JVMCIObject constant, JVMCI_TRAPS); #endif // extract the fields of the HotSpotCompiledCode void initialize_fields(JVMCIObject target, JVMCIObject compiled_code, JVMCI_TRAPS); void initialize_dependencies(JVMCIObject compiled_code, OopRecorder* oop_recorder, JVMCI_TRAPS); int estimate_stubs_size(JVMCI_TRAPS); // perform data and call relocation on the CodeBuffer JVMCI::CodeInstallResult initialize_buffer(CodeBuffer& buffer, bool check_size, JVMCI_TRAPS); void assumption_NoFinalizableSubclass(JVMCIObject assumption); void assumption_ConcreteSubtype(JVMCIObject assumption); void assumption_LeafType(JVMCIObject assumption); void assumption_ConcreteMethod(JVMCIObject assumption); void assumption_CallSiteTargetValue(JVMCIObject assumption, JVMCI_TRAPS); void site_Safepoint(CodeBuffer& buffer, jint pc_offset, JVMCIObject site, JVMCI_TRAPS); void site_Infopoint(CodeBuffer& buffer, jint pc_offset, JVMCIObject site, JVMCI_TRAPS); void site_Call(CodeBuffer& buffer, jint pc_offset, JVMCIObject site, JVMCI_TRAPS); void site_DataPatch(CodeBuffer& buffer, jint pc_offset, JVMCIObject site, JVMCI_TRAPS); void site_Mark(CodeBuffer& buffer, jint pc_offset, JVMCIObject site, JVMCI_TRAPS); void site_ExceptionHandler(jint pc_offset, JVMCIObject site); OopMap* create_oop_map(JVMCIObject debug_info, JVMCI_TRAPS); VMReg getVMRegFromLocation(JVMCIObject location, int total_frame_size, JVMCI_TRAPS); /** * Specifies the level of detail to record for a scope. */ enum ScopeMode { // Only record a method and BCI BytecodePosition, // Record a method, bci and JVM frame state FullFrame }; int map_jvmci_bci(int bci); void record_scope(jint pc_offset, JVMCIObject debug_info, ScopeMode scope_mode, bool return_oop, JVMCI_TRAPS); void record_scope(jint pc_offset, JVMCIObject debug_info, ScopeMode scope_mode, JVMCI_TRAPS) { record_scope(pc_offset, debug_info, scope_mode, false /* return_oop */, JVMCIENV); } void record_scope(jint pc_offset, JVMCIObject position, ScopeMode scope_mode, GrowableArray* objects, bool return_oop, JVMCI_TRAPS); void record_object_value(ObjectValue* sv, JVMCIObject value, GrowableArray* objects, JVMCI_TRAPS); GrowableArray* record_virtual_objects(JVMCIObject debug_info, JVMCI_TRAPS); int estimateStubSpace(int static_call_stubs); }; #endif // SHARE_JVMCI_JVMCICODEINSTALLER_HPP