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8012715: G1: GraphKit accesses PtrQueue::_index as int but is size_t Summary: In graphKit INT operations were generated to access PtrQueue::_index which has type size_t. This is 64 bit on 64-bit machines. No problems occur on little endian machines as long as the index fits into 32 bit, but on big endian machines the upper part is read, which is zero. This leads to unnecessary branches to the slow path in the runtime. Reviewed-by: twisti, johnc Contributed-by: Martin Doerr <martin.doerr@sap.com>
author johnc
date Wed, 24 Apr 2013 14:48:43 -0700
parents 2cd5e15048e6
children
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/*
 * Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved.
 * Copyright 2008, 2009, 2010 Red Hat, Inc.
 * 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_SHARK_SHARKSTACK_HPP
#define SHARE_VM_SHARK_SHARKSTACK_HPP

#include "shark/llvmHeaders.hpp"
#include "shark/sharkInvariants.hpp"
#include "shark/sharkType.hpp"

class SharkFunction;
class SharkNativeWrapper;
class SharkStackWithNormalFrame;
class SharkStackWithNativeFrame;

class SharkStack : public SharkCompileInvariants {
 public:
  static SharkStack* CreateBuildAndPushFrame(
    SharkFunction* function, llvm::Value* method);
  static SharkStack* CreateBuildAndPushFrame(
    SharkNativeWrapper* wrapper, llvm::Value* method);

 protected:
  SharkStack(const SharkCompileInvariants* parent)
    : SharkCompileInvariants(parent) {}

 protected:
  void initialize(llvm::Value* method);

 protected:
  void CreateStackOverflowCheck(llvm::Value* sp);

  // Properties of the method being compiled
 protected:
  virtual int arg_size() const = 0;
  virtual int max_locals() const = 0;
  virtual int max_stack() const = 0;
  virtual int max_monitors() const = 0;

  // BasicBlock creation
 protected:
  virtual llvm::BasicBlock* CreateBlock(const char* name = "") const = 0;

  // Interpreter entry point for bailouts
 protected:
  virtual address interpreter_entry_point() const = 0;

  // Interface with the Zero stack
 private:
  llvm::Value* zero_stack() const {
    return builder()->CreateAddressOfStructEntry(
      thread(),
      JavaThread::zero_stack_offset(),
      SharkType::zeroStack_type(),
      "zero_stack");
  }
  llvm::Value* stack_base() const {
    return builder()->CreateValueOfStructEntry(
      zero_stack(),
      ZeroStack::base_offset(),
      SharkType::intptr_type(),
      "stack_base");
  }
  llvm::Value* stack_pointer_addr() const {
    return builder()->CreateAddressOfStructEntry(
      zero_stack(),
      ZeroStack::sp_offset(),
      llvm::PointerType::getUnqual(SharkType::intptr_type()),
      "stack_pointer_addr");
  }
  llvm::Value* frame_pointer_addr() const {
    return builder()->CreateAddressOfStructEntry(
      thread(),
      JavaThread::top_zero_frame_offset(),
      llvm::PointerType::getUnqual(SharkType::intptr_type()),
      "frame_pointer_addr");
  }

 public:
  llvm::LoadInst* CreateLoadStackPointer(const char *name = "") {
    return builder()->CreateLoad(stack_pointer_addr(), name);
  }
  llvm::StoreInst* CreateStoreStackPointer(llvm::Value* value) {
    return builder()->CreateStore(value, stack_pointer_addr());
  }
  llvm::LoadInst* CreateLoadFramePointer(const char *name = "") {
    return builder()->CreateLoad(frame_pointer_addr(), name);
  }
  llvm::StoreInst* CreateStoreFramePointer(llvm::Value* value) {
    return builder()->CreateStore(value, frame_pointer_addr());
  }
  llvm::Value* CreatePopFrame(int result_slots);

  // Interface with the frame anchor
 private:
  llvm::Value* last_Java_sp_addr() const {
    return builder()->CreateAddressOfStructEntry(
      thread(),
      JavaThread::last_Java_sp_offset(),
      llvm::PointerType::getUnqual(SharkType::intptr_type()),
      "last_Java_sp_addr");
  }
  llvm::Value* last_Java_fp_addr() const {
    return builder()->CreateAddressOfStructEntry(
      thread(),
      JavaThread::last_Java_fp_offset(),
      llvm::PointerType::getUnqual(SharkType::intptr_type()),
      "last_Java_fp_addr");
  }

 public:
  void CreateSetLastJavaFrame() {
    // Note that whenever _last_Java_sp != NULL other anchor fields
    // must be valid.  The profiler apparently depends on this.
    NOT_PRODUCT(CreateAssertLastJavaSPIsNull());
    builder()->CreateStore(CreateLoadFramePointer(), last_Java_fp_addr());
    // XXX There's last_Java_pc as well, but I don't think anything uses it
    // Also XXX: should we fence here?  Zero doesn't...
    builder()->CreateStore(CreateLoadStackPointer(), last_Java_sp_addr());
    // Also also XXX: we could probably cache the sp (and the fp we know??)
  }
  void CreateResetLastJavaFrame() {
    builder()->CreateStore(LLVMValue::intptr_constant(0), last_Java_sp_addr());
  }

 private:
  void CreateAssertLastJavaSPIsNull() const PRODUCT_RETURN;

  // Our method's frame
 private:
  llvm::Value* _frame;
  int          _extended_frame_size;
  int          _stack_slots_offset;

 public:
  int extended_frame_size() const {
    return _extended_frame_size;
  }
  int oopmap_frame_size() const {
    return extended_frame_size() - arg_size();
  }

  // Offsets of things in the frame
 private:
  int _monitors_slots_offset;
  int _oop_tmp_slot_offset;
  int _method_slot_offset;
  int _pc_slot_offset;
  int _locals_slots_offset;

 public:
  int stack_slots_offset() const {
    return _stack_slots_offset;
  }
  int oop_tmp_slot_offset() const {
    return _oop_tmp_slot_offset;
  }
  int method_slot_offset() const {
    return _method_slot_offset;
  }
  int pc_slot_offset() const {
    return _pc_slot_offset;
  }
  int locals_slots_offset() const {
    return _locals_slots_offset;
  }
  int monitor_offset(int index) const {
    assert(index >= 0 && index < max_monitors(), "invalid monitor index");
    return _monitors_slots_offset +
      (max_monitors() - 1 - index) * frame::interpreter_frame_monitor_size();
  }
  int monitor_object_offset(int index) const {
    return monitor_offset(index) +
      (BasicObjectLock::obj_offset_in_bytes() >> LogBytesPerWord);
  }
  int monitor_header_offset(int index) const {
    return monitor_offset(index) +
      ((BasicObjectLock::lock_offset_in_bytes() +
        BasicLock::displaced_header_offset_in_bytes()) >> LogBytesPerWord);
  }

  // Addresses of things in the frame
 public:
  llvm::Value* slot_addr(int               offset,
                         llvm::Type* type = NULL,
                         const char*       name = "") const;

  llvm::Value* monitor_addr(int index) const {
    return slot_addr(
      monitor_offset(index),
      SharkType::monitor_type(),
      "monitor");
  }
  llvm::Value* monitor_object_addr(int index) const {
    return slot_addr(
      monitor_object_offset(index),
      SharkType::oop_type(),
      "object_addr");
  }
  llvm::Value* monitor_header_addr(int index) const {
    return slot_addr(
      monitor_header_offset(index),
      SharkType::intptr_type(),
      "displaced_header_addr");
  }

  // oopmap helpers
 public:
  static int oopmap_slot_munge(int offset) {
    return offset << (LogBytesPerWord - LogBytesPerInt);
  }
  static VMReg slot2reg(int offset) {
    return VMRegImpl::stack2reg(oopmap_slot_munge(offset));
  }
};

class SharkStackWithNormalFrame : public SharkStack {
  friend class SharkStack;

 protected:
  SharkStackWithNormalFrame(SharkFunction* function, llvm::Value* method);

 private:
  SharkFunction* _function;

 private:
  SharkFunction* function() const {
    return _function;
  }

  // Properties of the method being compiled
 private:
  int arg_size() const;
  int max_locals() const;
  int max_stack() const;
  int max_monitors() const;

  // BasicBlock creation
 private:
  llvm::BasicBlock* CreateBlock(const char* name = "") const;

  // Interpreter entry point for bailouts
 private:
  address interpreter_entry_point() const;
};

class SharkStackWithNativeFrame : public SharkStack {
  friend class SharkStack;

 protected:
  SharkStackWithNativeFrame(SharkNativeWrapper* wrapper, llvm::Value* method);

 private:
  SharkNativeWrapper* _wrapper;

 private:
  SharkNativeWrapper* wrapper() const {
    return _wrapper;
  }

  // Properties of the method being compiled
 private:
  int arg_size() const;
  int max_locals() const;
  int max_stack() const;
  int max_monitors() const;

  // BasicBlock creation
 private:
  llvm::BasicBlock* CreateBlock(const char* name = "") const;

  // Interpreter entry point for bailouts
 private:
  address interpreter_entry_point() const;
};

#endif // SHARE_VM_SHARK_SHARKSTACK_HPP