/* * Copyright (c) 1998, 2025, 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_CODE_CODEBLOB_HPP #define SHARE_CODE_CODEBLOB_HPP #include "asm/codeBuffer.hpp" #include "compiler/compilerDefinitions.hpp" #include "compiler/oopMap.hpp" #include "runtime/javaFrameAnchor.hpp" #include "runtime/frame.hpp" #include "runtime/handles.hpp" #include "utilities/align.hpp" #include "utilities/macros.hpp" class ImmutableOopMap; class ImmutableOopMapSet; class JNIHandleBlock; class OopMapSet; // CodeBlob Types // Used in the CodeCache to assign CodeBlobs to different CodeHeaps enum class CodeBlobType { MethodNonProfiled = 0, // Execution level 1 and 4 (non-profiled) nmethods (including native nmethods) MethodProfiled = 1, // Execution level 2 and 3 (profiled) nmethods NonNMethod = 2, // Non-nmethods like Buffers, Adapters and Runtime Stubs All = 3, // All types (No code cache segmentation) NumTypes = 4 // Number of CodeBlobTypes }; // CodeBlob - superclass for all entries in the CodeCache. // // Subtypes are: // nmethod : JIT Compiled Java methods // RuntimeBlob : Non-compiled method code; generated glue code // BufferBlob : Used for non-relocatable code such as interpreter, stubroutines, etc. // AdapterBlob : Used to hold C2I/I2C adapters // VtableBlob : Used for holding vtable chunks // MethodHandlesAdapterBlob : Used to hold MethodHandles adapters // RuntimeStub : Call to VM runtime methods // SingletonBlob : Super-class for all blobs that exist in only one instance // DeoptimizationBlob : Used for deoptimization // SafepointBlob : Used to handle illegal instruction exceptions // ExceptionBlob : Used for stack unrolling // UncommonTrapBlob : Used to handle uncommon traps // UpcallStub : Used for upcalls from native code // // // Layout in the CodeCache: // - header // - content space // - instruction space // Outside of the CodeCache: // - mutable_data // - relocation info // - additional data for subclasses enum class CodeBlobKind : u1 { None, Nmethod, Buffer, Adapter, Vtable, MHAdapter, RuntimeStub, Deoptimization, Safepoint, #ifdef COMPILER2 Exception, UncommonTrap, #endif Upcall, Number_Of_Kinds }; class UpcallStub; // for as_upcall_stub() class RuntimeStub; // for as_runtime_stub() class JavaFrameAnchor; // for UpcallStub::jfa_for_frame class AdapterBlob; class ExceptionBlob; class DeoptimizationBlob; class SafepointBlob; class UncommonTrapBlob; class CodeBlob { friend class VMStructs; friend class JVMCIVMStructs; private: void restore_mutable_data(address reloc_data); protected: // order fields from large to small to minimize padding between fields ImmutableOopMapSet* _oop_maps; // OopMap for this CodeBlob const char* _name; address _mutable_data; int _size; // total size of CodeBlob in bytes int _relocation_size; // size of relocation (could be bigger than 64Kb) int _content_offset; // offset to where content region begins (this includes consts, insts, stubs) int _code_offset; // offset to where instructions region begins (this includes insts, stubs) int _data_offset; // offset to where data region begins int _frame_size; // size of stack frame in words (NOT slots. On x64 these are 64bit words) int _mutable_data_size; S390_ONLY(int _ctable_offset;) uint16_t _header_size; // size of header (depends on subclass) int16_t _frame_complete_offset; // instruction offsets in [0.._frame_complete_offset) have // not finished setting up their frame. Beware of pc's in // that range. There is a similar range(s) on returns // which we don't detect. CodeBlobKind _kind; // Kind of this code blob bool _caller_must_gc_arguments; #ifndef PRODUCT AsmRemarks _asm_remarks; DbgStrings _dbg_strings; #endif void print_on_impl(outputStream* st) const; void print_value_on_impl(outputStream* st) const; class Vptr { public: virtual void print_on(const CodeBlob* instance, outputStream* st) const = 0; virtual void print_value_on(const CodeBlob* instance, outputStream* st) const = 0; virtual void prepare_for_archiving(CodeBlob* instance) const { instance->prepare_for_archiving_impl(); }; virtual void post_restore(CodeBlob* instance) const { instance->post_restore_impl(); }; }; static const Vptr* vptr(CodeBlobKind kind); const Vptr* vptr() const; CodeBlob(const char* name, CodeBlobKind kind, CodeBuffer* cb, int size, uint16_t header_size, int16_t frame_complete_offset, int frame_size, OopMapSet* oop_maps, bool caller_must_gc_arguments, int mutable_data_size); // Simple CodeBlob used for simple BufferBlob. CodeBlob(const char* name, CodeBlobKind kind, int size, uint16_t header_size); void operator delete(void* p) { } void prepare_for_archiving_impl(); void post_restore_impl(); public: ~CodeBlob() { assert(_oop_maps == nullptr, "Not flushed"); } // Returns the space needed for CodeBlob static unsigned int allocation_size(CodeBuffer* cb, int header_size); static unsigned int align_code_offset(int offset); // Deletion void purge(); // Typing bool is_nmethod() const { return _kind == CodeBlobKind::Nmethod; } bool is_buffer_blob() const { return _kind == CodeBlobKind::Buffer; } bool is_runtime_stub() const { return _kind == CodeBlobKind::RuntimeStub; } bool is_deoptimization_stub() const { return _kind == CodeBlobKind::Deoptimization; } #ifdef COMPILER2 bool is_uncommon_trap_stub() const { return _kind == CodeBlobKind::UncommonTrap; } bool is_exception_stub() const { return _kind == CodeBlobKind::Exception; } #else bool is_uncommon_trap_stub() const { return false; } bool is_exception_stub() const { return false; } #endif bool is_safepoint_stub() const { return _kind == CodeBlobKind::Safepoint; } bool is_adapter_blob() const { return _kind == CodeBlobKind::Adapter; } bool is_vtable_blob() const { return _kind == CodeBlobKind::Vtable; } bool is_method_handles_adapter_blob() const { return _kind == CodeBlobKind::MHAdapter; } bool is_upcall_stub() const { return _kind == CodeBlobKind::Upcall; } // Casting nmethod* as_nmethod_or_null() const { return is_nmethod() ? (nmethod*) this : nullptr; } nmethod* as_nmethod() const { assert(is_nmethod(), "must be nmethod"); return (nmethod*) this; } CodeBlob* as_codeblob() const { return (CodeBlob*) this; } AdapterBlob* as_adapter_blob() const { assert(is_adapter_blob(), "must be adapter blob"); return (AdapterBlob*) this; } ExceptionBlob* as_exception_blob() const { assert(is_exception_stub(), "must be exception stub"); return (ExceptionBlob*) this; } DeoptimizationBlob* as_deoptimization_blob() const { assert(is_deoptimization_stub(), "must be deopt stub"); return (DeoptimizationBlob*) this; } SafepointBlob* as_safepoint_blob() const { assert(is_safepoint_stub(), "must be safepoint stub"); return (SafepointBlob*) this; } UpcallStub* as_upcall_stub() const { assert(is_upcall_stub(), "must be upcall stub"); return (UpcallStub*) this; } RuntimeStub* as_runtime_stub() const { assert(is_runtime_stub(), "must be runtime blob"); return (RuntimeStub*) this; } UncommonTrapBlob* as_uncommon_trap_blob() const { assert(is_uncommon_trap_stub(), "must be uncommon trap stub"); return (UncommonTrapBlob*) this; } // Boundaries address header_begin() const { return (address) this; } address header_end() const { return ((address) this) + _header_size; } address content_begin() const { return (address) header_begin() + _content_offset; } address content_end() const { return (address) header_begin() + _data_offset; } address code_begin() const { return (address) header_begin() + _code_offset; } address code_end() const { return (address) header_begin() + _data_offset; } address data_begin() const { return (address) header_begin() + _data_offset; } address data_end() const { return (address) header_begin() + _size; } address blob_end() const { return (address) header_begin() + _size; } // code_end == content_end is true for all types of blobs for now, it is also checked in the constructor int mutable_data_size() const { return _mutable_data_size; } address mutable_data_begin() const { return _mutable_data; } address mutable_data_end() const { return _mutable_data + _mutable_data_size; } relocInfo* relocation_begin() const { return (relocInfo*)_mutable_data; } relocInfo* relocation_end() const { return (relocInfo*)((address)relocation_begin() + _relocation_size); } // Offsets int content_offset() const { return _content_offset; } int code_offset() const { return _code_offset; } // This field holds the beginning of the const section in the old code buffer. // It is needed to fix relocations of pc-relative loads when resizing the // the constant pool or moving it. S390_ONLY(address ctable_begin() const { return header_begin() + _ctable_offset; }) void set_ctable_begin(address ctable) { S390_ONLY(_ctable_offset = ctable - header_begin();) } // Sizes int size() const { return _size; } int header_size() const { return _header_size; } int relocation_size() const { return pointer_delta_as_int((address) relocation_end(), (address) relocation_begin()); } int content_size() const { return pointer_delta_as_int(content_end(), content_begin()); } int code_size() const { return pointer_delta_as_int(code_end(), code_begin()); } // Only used from CodeCache::free_unused_tail() after the Interpreter blob was trimmed void adjust_size(size_t used) { _size = (int)used; _data_offset = _size; } // Containment bool blob_contains(address addr) const { return header_begin() <= addr && addr < blob_end(); } bool code_contains(address addr) const { return code_begin() <= addr && addr < code_end(); } bool contains(address addr) const { return content_begin() <= addr && addr < content_end(); } bool is_frame_complete_at(address addr) const { return _frame_complete_offset != CodeOffsets::frame_never_safe && code_contains(addr) && addr >= code_begin() + _frame_complete_offset; } int frame_complete_offset() const { return _frame_complete_offset; } // OopMap for frame ImmutableOopMapSet* oop_maps() const { return _oop_maps; } void set_oop_maps(OopMapSet* p); void set_oop_maps(ImmutableOopMapSet* p) { _oop_maps = p; } const ImmutableOopMap* oop_map_for_slot(int slot, address return_address) const; const ImmutableOopMap* oop_map_for_return_address(address return_address) const; // Frame support. Sizes are in word units. int frame_size() const { return _frame_size; } void set_frame_size(int size) { _frame_size = size; } // Returns true, if the next frame is responsible for GC'ing oops passed as arguments bool caller_must_gc_arguments(JavaThread* thread) const { return _caller_must_gc_arguments; } // Naming const char* name() const { return _name; } void set_name(const char* name) { _name = name; } // Debugging void verify(); void print() const; void print_on(outputStream* st) const; void print_value_on(outputStream* st) const; void dump_for_addr(address addr, outputStream* st, bool verbose) const; void print_code_on(outputStream* st); // Print to stream, any comments associated with offset. void print_block_comment(outputStream* stream, address block_begin) const; #ifndef PRODUCT AsmRemarks &asm_remarks() { return _asm_remarks; } DbgStrings &dbg_strings() { return _dbg_strings; } void use_remarks(AsmRemarks &remarks) { _asm_remarks.share(remarks); } void use_strings(DbgStrings &strings) { _dbg_strings.share(strings); } #endif void copy_to(address buffer) { memcpy(buffer, this, this->size()); } // methods to archive a blob into AOT code cache void prepare_for_archiving(); static void archive_blob(CodeBlob* blob, address archive_buffer); // methods to restore a blob from AOT code cache into the CodeCache void post_restore(); CodeBlob* restore(address code_cache_buffer, const char* name, address archived_reloc_data, ImmutableOopMapSet* archived_oop_maps); static CodeBlob* create(CodeBlob* archived_blob, const char* name, address archived_reloc_data, ImmutableOopMapSet* archived_oop_maps); }; //---------------------------------------------------------------------------------------------------- // RuntimeBlob: used for non-compiled method code (adapters, stubs, blobs) class RuntimeBlob : public CodeBlob { friend class VMStructs; public: // Creation // a) simple CodeBlob RuntimeBlob(const char* name, CodeBlobKind kind, int size, uint16_t header_size) : CodeBlob(name, kind, size, header_size) {} // b) full CodeBlob // frame_complete is the offset from the beginning of the instructions // to where the frame setup (from stackwalk viewpoint) is complete. RuntimeBlob( const char* name, CodeBlobKind kind, CodeBuffer* cb, int size, uint16_t header_size, int16_t frame_complete, int frame_size, OopMapSet* oop_maps, bool caller_must_gc_arguments = false ); static void free(RuntimeBlob* blob); // Deal with Disassembler, VTune, Forte, JvmtiExport, MemoryService. static void trace_new_stub(RuntimeBlob* blob, const char* name1, const char* name2 = ""); class Vptr : public CodeBlob::Vptr { }; }; class WhiteBox; //---------------------------------------------------------------------------------------------------- // BufferBlob: used to hold non-relocatable machine code such as the interpreter, stubroutines, etc. class BufferBlob: public RuntimeBlob { friend class VMStructs; friend class AdapterBlob; friend class VtableBlob; friend class MethodHandlesAdapterBlob; friend class UpcallStub; friend class WhiteBox; private: // Creation support BufferBlob(const char* name, CodeBlobKind kind, int size); BufferBlob(const char* name, CodeBlobKind kind, CodeBuffer* cb, int size); void* operator new(size_t s, unsigned size) throw(); public: // Creation static BufferBlob* create(const char* name, uint buffer_size); static BufferBlob* create(const char* name, CodeBuffer* cb); static void free(BufferBlob* buf); void print_on_impl(outputStream* st) const; void print_value_on_impl(outputStream* st) const; class Vptr : public RuntimeBlob::Vptr { void print_on(const CodeBlob* instance, outputStream* st) const override { ((const BufferBlob*)instance)->print_on_impl(st); } void print_value_on(const CodeBlob* instance, outputStream* st) const override { ((const BufferBlob*)instance)->print_value_on_impl(st); } }; static const Vptr _vpntr; }; //---------------------------------------------------------------------------------------------------- // AdapterBlob: used to hold C2I/I2C adapters class AdapterBlob: public BufferBlob { private: AdapterBlob(int size, CodeBuffer* cb); public: // Creation static AdapterBlob* create(CodeBuffer* cb); }; //--------------------------------------------------------------------------------------------------- class VtableBlob: public BufferBlob { private: VtableBlob(const char*, int); void* operator new(size_t s, unsigned size) throw(); public: // Creation static VtableBlob* create(const char* name, int buffer_size); }; //---------------------------------------------------------------------------------------------------- // MethodHandlesAdapterBlob: used to hold MethodHandles adapters class MethodHandlesAdapterBlob: public BufferBlob { private: MethodHandlesAdapterBlob(int size): BufferBlob("MethodHandles adapters", CodeBlobKind::MHAdapter, size) {} public: // Creation static MethodHandlesAdapterBlob* create(int buffer_size); }; //---------------------------------------------------------------------------------------------------- // RuntimeStub: describes stubs used by compiled code to call a (static) C++ runtime routine class RuntimeStub: public RuntimeBlob { friend class VMStructs; private: // Creation support RuntimeStub( const char* name, CodeBuffer* cb, int size, int16_t frame_complete, int frame_size, OopMapSet* oop_maps, bool caller_must_gc_arguments ); void* operator new(size_t s, unsigned size) throw(); public: // Creation static RuntimeStub* new_runtime_stub( const char* stub_name, CodeBuffer* cb, int16_t frame_complete, int frame_size, OopMapSet* oop_maps, bool caller_must_gc_arguments, bool alloc_fail_is_fatal=true ); static void free(RuntimeStub* stub) { RuntimeBlob::free(stub); } address entry_point() const { return code_begin(); } void print_on_impl(outputStream* st) const; void print_value_on_impl(outputStream* st) const; class Vptr : public RuntimeBlob::Vptr { void print_on(const CodeBlob* instance, outputStream* st) const override { instance->as_runtime_stub()->print_on_impl(st); } void print_value_on(const CodeBlob* instance, outputStream* st) const override { instance->as_runtime_stub()->print_value_on_impl(st); } }; static const Vptr _vpntr; }; //---------------------------------------------------------------------------------------------------- // Super-class for all blobs that exist in only one instance. Implements default behaviour. class SingletonBlob: public RuntimeBlob { friend class VMStructs; protected: void* operator new(size_t s, unsigned size, bool alloc_fail_is_fatal=true) throw(); public: SingletonBlob( const char* name, CodeBlobKind kind, CodeBuffer* cb, int size, uint16_t header_size, int frame_size, OopMapSet* oop_maps ) : RuntimeBlob(name, kind, cb, size, header_size, CodeOffsets::frame_never_safe, frame_size, oop_maps) {}; address entry_point() { return code_begin(); } void print_on_impl(outputStream* st) const; void print_value_on_impl(outputStream* st) const; class Vptr : public RuntimeBlob::Vptr { void print_on(const CodeBlob* instance, outputStream* st) const override { ((const SingletonBlob*)instance)->print_on_impl(st); } void print_value_on(const CodeBlob* instance, outputStream* st) const override { ((const SingletonBlob*)instance)->print_value_on_impl(st); } }; static const Vptr _vpntr; }; //---------------------------------------------------------------------------------------------------- // DeoptimizationBlob class DeoptimizationBlob: public SingletonBlob { friend class VMStructs; friend class JVMCIVMStructs; private: int _unpack_offset; int _unpack_with_exception; int _unpack_with_reexecution; int _unpack_with_exception_in_tls; #if INCLUDE_JVMCI // Offsets when JVMCI calls uncommon_trap. int _uncommon_trap_offset; int _implicit_exception_uncommon_trap_offset; #endif // Creation support DeoptimizationBlob( CodeBuffer* cb, int size, OopMapSet* oop_maps, int unpack_offset, int unpack_with_exception_offset, int unpack_with_reexecution_offset, int frame_size ); public: // Creation static DeoptimizationBlob* create( CodeBuffer* cb, OopMapSet* oop_maps, int unpack_offset, int unpack_with_exception_offset, int unpack_with_reexecution_offset, int frame_size ); address unpack() const { return code_begin() + _unpack_offset; } address unpack_with_exception() const { return code_begin() + _unpack_with_exception; } address unpack_with_reexecution() const { return code_begin() + _unpack_with_reexecution; } // Alternate entry point for C1 where the exception and issuing pc // are in JavaThread::_exception_oop and JavaThread::_exception_pc // instead of being in registers. This is needed because C1 doesn't // model exception paths in a way that keeps these registers free so // there may be live values in those registers during deopt. void set_unpack_with_exception_in_tls_offset(int offset) { _unpack_with_exception_in_tls = offset; assert(code_contains(code_begin() + _unpack_with_exception_in_tls), "must be PC inside codeblob"); } address unpack_with_exception_in_tls() const { return code_begin() + _unpack_with_exception_in_tls; } #if INCLUDE_JVMCI // Offsets when JVMCI calls uncommon_trap. void set_uncommon_trap_offset(int offset) { _uncommon_trap_offset = offset; assert(contains(code_begin() + _uncommon_trap_offset), "must be PC inside codeblob"); } address uncommon_trap() const { return code_begin() + _uncommon_trap_offset; } void set_implicit_exception_uncommon_trap_offset(int offset) { _implicit_exception_uncommon_trap_offset = offset; assert(contains(code_begin() + _implicit_exception_uncommon_trap_offset), "must be PC inside codeblob"); } address implicit_exception_uncommon_trap() const { return code_begin() + _implicit_exception_uncommon_trap_offset; } #endif // INCLUDE_JVMCI void print_value_on_impl(outputStream* st) const; class Vptr : public SingletonBlob::Vptr { void print_value_on(const CodeBlob* instance, outputStream* st) const override { ((const DeoptimizationBlob*)instance)->print_value_on_impl(st); } }; static const Vptr _vpntr; }; //---------------------------------------------------------------------------------------------------- // UncommonTrapBlob (currently only used by Compiler 2) #ifdef COMPILER2 class UncommonTrapBlob: public SingletonBlob { friend class VMStructs; private: // Creation support UncommonTrapBlob( CodeBuffer* cb, int size, OopMapSet* oop_maps, int frame_size ); public: // Creation static UncommonTrapBlob* create( CodeBuffer* cb, OopMapSet* oop_maps, int frame_size ); }; //---------------------------------------------------------------------------------------------------- // ExceptionBlob: used for exception unwinding in compiled code (currently only used by Compiler 2) class ExceptionBlob: public SingletonBlob { friend class VMStructs; private: // Creation support ExceptionBlob( CodeBuffer* cb, int size, OopMapSet* oop_maps, int frame_size ); public: // Creation static ExceptionBlob* create( CodeBuffer* cb, OopMapSet* oop_maps, int frame_size ); void post_restore_impl() { trace_new_stub(this, "ExceptionBlob"); } class Vptr : public SingletonBlob::Vptr { void post_restore(CodeBlob* instance) const override { ((ExceptionBlob*)instance)->post_restore_impl(); } }; static const Vptr _vpntr; }; #endif // COMPILER2 //---------------------------------------------------------------------------------------------------- // SafepointBlob: handles illegal_instruction exceptions during a safepoint class SafepointBlob: public SingletonBlob { friend class VMStructs; private: // Creation support SafepointBlob( CodeBuffer* cb, int size, OopMapSet* oop_maps, int frame_size ); public: // Creation static SafepointBlob* create( CodeBuffer* cb, OopMapSet* oop_maps, int frame_size ); }; //---------------------------------------------------------------------------------------------------- class UpcallLinker; // A (Panama) upcall stub. Not used by JNI. class UpcallStub: public RuntimeBlob { friend class VMStructs; friend class UpcallLinker; private: jobject _receiver; ByteSize _frame_data_offset; UpcallStub(const char* name, CodeBuffer* cb, int size, jobject receiver, ByteSize frame_data_offset); void* operator new(size_t s, unsigned size) throw(); struct FrameData { JavaFrameAnchor jfa; JavaThread* thread; JNIHandleBlock* old_handles; JNIHandleBlock* new_handles; }; // defined in frame_ARCH.cpp FrameData* frame_data_for_frame(const frame& frame) const; public: // Creation static UpcallStub* create(const char* name, CodeBuffer* cb, jobject receiver, ByteSize frame_data_offset); static void free(UpcallStub* blob); jobject receiver() { return _receiver; } JavaFrameAnchor* jfa_for_frame(const frame& frame) const; // GC support void oops_do(OopClosure* f, const frame& frame); void print_on_impl(outputStream* st) const; void print_value_on_impl(outputStream* st) const; class Vptr : public RuntimeBlob::Vptr { void print_on(const CodeBlob* instance, outputStream* st) const override { instance->as_upcall_stub()->print_on_impl(st); } void print_value_on(const CodeBlob* instance, outputStream* st) const override { instance->as_upcall_stub()->print_value_on_impl(st); } }; static const Vptr _vpntr; }; #endif // SHARE_CODE_CODEBLOB_HPP