unsafe.cpp 69.8 KB
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/*
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 * Copyright (c) 2000, 2016, Oracle and/or its affiliates. All rights reserved.
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 * 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.
 *
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 * 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.
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 *
 */

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#include "precompiled.hpp"
#include "classfile/vmSymbols.hpp"
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#include "utilities/macros.hpp"
#if INCLUDE_ALL_GCS
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#include "gc_implementation/g1/g1SATBCardTableModRefBS.hpp"
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#endif // INCLUDE_ALL_GCS
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#include "memory/allocation.inline.hpp"
#include "prims/jni.h"
#include "prims/jvm.h"
#include "runtime/globals.hpp"
#include "runtime/interfaceSupport.hpp"
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#include "runtime/prefetch.inline.hpp"
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#include "runtime/orderAccess.inline.hpp"
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#include "runtime/reflection.hpp"
#include "runtime/synchronizer.hpp"
#include "services/threadService.hpp"
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#include "trace/tracing.hpp"
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#include "utilities/copy.hpp"
#include "utilities/dtrace.hpp"

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PRAGMA_FORMAT_MUTE_WARNINGS_FOR_GCC

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/*
 *      Implementation of class sun.misc.Unsafe
 */

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#ifndef USDT2
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HS_DTRACE_PROBE_DECL3(hotspot, thread__park__begin, uintptr_t, int, long long);
HS_DTRACE_PROBE_DECL1(hotspot, thread__park__end, uintptr_t);
HS_DTRACE_PROBE_DECL1(hotspot, thread__unpark, uintptr_t);
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#endif /* !USDT2 */
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#define MAX_OBJECT_SIZE \
  ( arrayOopDesc::header_size(T_DOUBLE) * HeapWordSize \
    + ((julong)max_jint * sizeof(double)) )


#define UNSAFE_ENTRY(result_type, header) \
  JVM_ENTRY(result_type, header)

// Can't use UNSAFE_LEAF because it has the signature of a straight
// call into the runtime (just like JVM_LEAF, funny that) but it's
// called like a Java Native and thus the wrapper built for it passes
// arguments like a JNI call.  It expects those arguments to be popped
// from the stack on Intel like all good JNI args are, and adjusts the
// stack according.  Since the JVM_LEAF call expects no extra
// arguments the stack isn't popped in the C code, is pushed by the
// wrapper and we get sick.
//#define UNSAFE_LEAF(result_type, header) \
//  JVM_LEAF(result_type, header)

#define UNSAFE_END JVM_END

#define UnsafeWrapper(arg) /*nothing, for the present*/


inline void* addr_from_java(jlong addr) {
  // This assert fails in a variety of ways on 32-bit systems.
  // It is impossible to predict whether native code that converts
  // pointers to longs will sign-extend or zero-extend the addresses.
  //assert(addr == (uintptr_t)addr, "must not be odd high bits");
  return (void*)(uintptr_t)addr;
}

inline jlong addr_to_java(void* p) {
  assert(p == (void*)(uintptr_t)p, "must not be odd high bits");
  return (uintptr_t)p;
}


// Note: The VM's obj_field and related accessors use byte-scaled
// ("unscaled") offsets, just as the unsafe methods do.

// However, the method Unsafe.fieldOffset explicitly declines to
// guarantee this.  The field offset values manipulated by the Java user
// through the Unsafe API are opaque cookies that just happen to be byte
// offsets.  We represent this state of affairs by passing the cookies
// through conversion functions when going between the VM and the Unsafe API.
// The conversion functions just happen to be no-ops at present.

inline jlong field_offset_to_byte_offset(jlong field_offset) {
  return field_offset;
}

inline jlong field_offset_from_byte_offset(jlong byte_offset) {
  return byte_offset;
}

inline jint invocation_key_from_method_slot(jint slot) {
  return slot;
}

inline jint invocation_key_to_method_slot(jint key) {
  return key;
}

inline void* index_oop_from_field_offset_long(oop p, jlong field_offset) {
  jlong byte_offset = field_offset_to_byte_offset(field_offset);
#ifdef ASSERT
  if (p != NULL) {
    assert(byte_offset >= 0 && byte_offset <= (jlong)MAX_OBJECT_SIZE, "sane offset");
    if (byte_offset == (jint)byte_offset) {
      void* ptr_plus_disp = (address)p + byte_offset;
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      assert((void*)p->obj_field_addr<oop>((jint)byte_offset) == ptr_plus_disp,
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             "raw [ptr+disp] must be consistent with oop::field_base");
    }
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    jlong p_size = HeapWordSize * (jlong)(p->size());
    assert(byte_offset < p_size, err_msg("Unsafe access: offset " INT64_FORMAT " > object's size " INT64_FORMAT, byte_offset, p_size));
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  }
#endif
  if (sizeof(char*) == sizeof(jint))    // (this constant folds!)
    return (address)p + (jint) byte_offset;
  else
    return (address)p +        byte_offset;
}

// Externally callable versions:
// (Use these in compiler intrinsics which emulate unsafe primitives.)
jlong Unsafe_field_offset_to_byte_offset(jlong field_offset) {
  return field_offset;
}
jlong Unsafe_field_offset_from_byte_offset(jlong byte_offset) {
  return byte_offset;
}
jint Unsafe_invocation_key_from_method_slot(jint slot) {
  return invocation_key_from_method_slot(slot);
}
jint Unsafe_invocation_key_to_method_slot(jint key) {
  return invocation_key_to_method_slot(key);
}


///// Data in the Java heap.

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#define truncate_jboolean(x) ((x) & 1)
#define truncate_jbyte(x) (x)
#define truncate_jshort(x) (x)
#define truncate_jchar(x) (x)
#define truncate_jint(x) (x)
#define truncate_jlong(x) (x)
#define truncate_jfloat(x) (x)
#define truncate_jdouble(x) (x)

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#define GET_FIELD(obj, offset, type_name, v) \
  oop p = JNIHandles::resolve(obj); \
  type_name v = *(type_name*)index_oop_from_field_offset_long(p, offset)

#define SET_FIELD(obj, offset, type_name, x) \
  oop p = JNIHandles::resolve(obj); \
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  *(type_name*)index_oop_from_field_offset_long(p, offset) = truncate_##type_name(x)
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#define GET_FIELD_VOLATILE(obj, offset, type_name, v) \
  oop p = JNIHandles::resolve(obj); \
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  if (support_IRIW_for_not_multiple_copy_atomic_cpu) { \
    OrderAccess::fence(); \
  } \
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  volatile type_name v = OrderAccess::load_acquire((volatile type_name*)index_oop_from_field_offset_long(p, offset));
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#define SET_FIELD_VOLATILE(obj, offset, type_name, x) \
  oop p = JNIHandles::resolve(obj); \
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  OrderAccess::release_store_fence((volatile type_name*)index_oop_from_field_offset_long(p, offset), truncate_##type_name(x));
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// Macros for oops that check UseCompressedOops

#define GET_OOP_FIELD(obj, offset, v) \
  oop p = JNIHandles::resolve(obj);   \
  oop v;                              \
  if (UseCompressedOops) {            \
    narrowOop n = *(narrowOop*)index_oop_from_field_offset_long(p, offset); \
    v = oopDesc::decode_heap_oop(n);                                \
  } else {                            \
    v = *(oop*)index_oop_from_field_offset_long(p, offset);                 \
  }


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// Get/SetObject must be special-cased, since it works with handles.

// The xxx140 variants for backward compatibility do not allow a full-width offset.
UNSAFE_ENTRY(jobject, Unsafe_GetObject140(JNIEnv *env, jobject unsafe, jobject obj, jint offset))
  UnsafeWrapper("Unsafe_GetObject");
  if (obj == NULL)  THROW_0(vmSymbols::java_lang_NullPointerException());
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  GET_OOP_FIELD(obj, offset, v)
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  jobject ret = JNIHandles::make_local(env, v);
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#if INCLUDE_ALL_GCS
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  // We could be accessing the referent field in a reference
  // object. If G1 is enabled then we need to register a non-null
  // referent with the SATB barrier.
  if (UseG1GC) {
    bool needs_barrier = false;

    if (ret != NULL) {
      if (offset == java_lang_ref_Reference::referent_offset) {
        oop o = JNIHandles::resolve_non_null(obj);
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        Klass* k = o->klass();
        if (InstanceKlass::cast(k)->reference_type() != REF_NONE) {
          assert(InstanceKlass::cast(k)->is_subclass_of(SystemDictionary::Reference_klass()), "sanity");
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          needs_barrier = true;
        }
      }
    }

    if (needs_barrier) {
      oop referent = JNIHandles::resolve(ret);
      G1SATBCardTableModRefBS::enqueue(referent);
    }
  }
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#endif // INCLUDE_ALL_GCS
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  return ret;
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UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetObject140(JNIEnv *env, jobject unsafe, jobject obj, jint offset, jobject x_h))
  UnsafeWrapper("Unsafe_SetObject");
  if (obj == NULL)  THROW(vmSymbols::java_lang_NullPointerException());
  oop x = JNIHandles::resolve(x_h);
  //SET_FIELD(obj, offset, oop, x);
  oop p = JNIHandles::resolve(obj);
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  if (UseCompressedOops) {
    if (x != NULL) {
      // If there is a heap base pointer, we are obliged to emit a store barrier.
      oop_store((narrowOop*)index_oop_from_field_offset_long(p, offset), x);
    } else {
      narrowOop n = oopDesc::encode_heap_oop_not_null(x);
      *(narrowOop*)index_oop_from_field_offset_long(p, offset) = n;
    }
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  } else {
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    if (x != NULL) {
      // If there is a heap base pointer, we are obliged to emit a store barrier.
      oop_store((oop*)index_oop_from_field_offset_long(p, offset), x);
    } else {
      *(oop*)index_oop_from_field_offset_long(p, offset) = x;
    }
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  }
UNSAFE_END

// The normal variants allow a null base pointer with an arbitrary address.
// But if the base pointer is non-null, the offset should make some sense.
// That is, it should be in the range [0, MAX_OBJECT_SIZE].
UNSAFE_ENTRY(jobject, Unsafe_GetObject(JNIEnv *env, jobject unsafe, jobject obj, jlong offset))
  UnsafeWrapper("Unsafe_GetObject");
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  GET_OOP_FIELD(obj, offset, v)
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  jobject ret = JNIHandles::make_local(env, v);
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#if INCLUDE_ALL_GCS
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  // We could be accessing the referent field in a reference
  // object. If G1 is enabled then we need to register non-null
  // referent with the SATB barrier.
  if (UseG1GC) {
    bool needs_barrier = false;

    if (ret != NULL) {
      if (offset == java_lang_ref_Reference::referent_offset && obj != NULL) {
        oop o = JNIHandles::resolve(obj);
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        Klass* k = o->klass();
        if (InstanceKlass::cast(k)->reference_type() != REF_NONE) {
          assert(InstanceKlass::cast(k)->is_subclass_of(SystemDictionary::Reference_klass()), "sanity");
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          needs_barrier = true;
        }
      }
    }

    if (needs_barrier) {
      oop referent = JNIHandles::resolve(ret);
      G1SATBCardTableModRefBS::enqueue(referent);
    }
  }
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#endif // INCLUDE_ALL_GCS
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  return ret;
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UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetObject(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jobject x_h))
  UnsafeWrapper("Unsafe_SetObject");
  oop x = JNIHandles::resolve(x_h);
  oop p = JNIHandles::resolve(obj);
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  if (UseCompressedOops) {
    oop_store((narrowOop*)index_oop_from_field_offset_long(p, offset), x);
  } else {
    oop_store((oop*)index_oop_from_field_offset_long(p, offset), x);
  }
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UNSAFE_END

UNSAFE_ENTRY(jobject, Unsafe_GetObjectVolatile(JNIEnv *env, jobject unsafe, jobject obj, jlong offset))
  UnsafeWrapper("Unsafe_GetObjectVolatile");
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  oop p = JNIHandles::resolve(obj);
  void* addr = index_oop_from_field_offset_long(p, offset);
  volatile oop v;
  if (UseCompressedOops) {
    volatile narrowOop n = *(volatile narrowOop*) addr;
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    (void)const_cast<oop&>(v = oopDesc::decode_heap_oop(n));
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  } else {
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    (void)const_cast<oop&>(v = *(volatile oop*) addr);
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  }
  OrderAccess::acquire();
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  return JNIHandles::make_local(env, v);
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetObjectVolatile(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jobject x_h))
  UnsafeWrapper("Unsafe_SetObjectVolatile");
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  oop x = JNIHandles::resolve(x_h);
  oop p = JNIHandles::resolve(obj);
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  void* addr = index_oop_from_field_offset_long(p, offset);
  OrderAccess::release();
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  if (UseCompressedOops) {
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    oop_store((narrowOop*)addr, x);
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  } else {
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    oop_store((oop*)addr, x);
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  }
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  OrderAccess::fence();
UNSAFE_END

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#ifndef SUPPORTS_NATIVE_CX8
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// VM_Version::supports_cx8() is a surrogate for 'supports atomic long memory ops'.
//
// On platforms which do not support atomic compare-and-swap of jlong (8 byte)
// values we have to use a lock-based scheme to enforce atomicity. This has to be
// applied to all Unsafe operations that set the value of a jlong field. Even so
// the compareAndSwapLong operation will not be atomic with respect to direct stores
// to the field from Java code. It is important therefore that any Java code that
// utilizes these Unsafe jlong operations does not perform direct stores. To permit
// direct loads of the field from Java code we must also use Atomic::store within the
// locked regions. And for good measure, in case there are direct stores, we also
// employ Atomic::load within those regions. Note that the field in question must be
// volatile and so must have atomic load/store accesses applied at the Java level.
//
// The locking scheme could utilize a range of strategies for controlling the locking
// granularity: from a lock per-field through to a single global lock. The latter is
// the simplest and is used for the current implementation. Note that the Java object
// that contains the field, can not, in general, be used for locking. To do so can lead
// to deadlocks as we may introduce locking into what appears to the Java code to be a
// lock-free path.
//
// As all the locked-regions are very short and themselves non-blocking we can treat
// them as leaf routines and elide safepoint checks (ie we don't perform any thread
// state transitions even when blocking for the lock). Note that if we do choose to
// add safepoint checks and thread state transitions, we must ensure that we calculate
// the address of the field _after_ we have acquired the lock, else the object may have
// been moved by the GC
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UNSAFE_ENTRY(jlong, Unsafe_GetLongVolatile(JNIEnv *env, jobject unsafe, jobject obj, jlong offset))
  UnsafeWrapper("Unsafe_GetLongVolatile");
  {
    if (VM_Version::supports_cx8()) {
      GET_FIELD_VOLATILE(obj, offset, jlong, v);
      return v;
    }
    else {
      Handle p (THREAD, JNIHandles::resolve(obj));
      jlong* addr = (jlong*)(index_oop_from_field_offset_long(p(), offset));
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      MutexLockerEx mu(UnsafeJlong_lock, Mutex::_no_safepoint_check_flag);
      jlong value = Atomic::load(addr);
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      return value;
    }
  }
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetLongVolatile(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jlong x))
  UnsafeWrapper("Unsafe_SetLongVolatile");
  {
    if (VM_Version::supports_cx8()) {
      SET_FIELD_VOLATILE(obj, offset, jlong, x);
    }
    else {
      Handle p (THREAD, JNIHandles::resolve(obj));
      jlong* addr = (jlong*)(index_oop_from_field_offset_long(p(), offset));
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      MutexLockerEx mu(UnsafeJlong_lock, Mutex::_no_safepoint_check_flag);
      Atomic::store(x, addr);
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    }
  }
UNSAFE_END

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#endif // not SUPPORTS_NATIVE_CX8
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#define DEFINE_GETSETOOP(jboolean, Boolean) \
 \
UNSAFE_ENTRY(jboolean, Unsafe_Get##Boolean##140(JNIEnv *env, jobject unsafe, jobject obj, jint offset)) \
  UnsafeWrapper("Unsafe_Get"#Boolean); \
  if (obj == NULL)  THROW_0(vmSymbols::java_lang_NullPointerException()); \
  GET_FIELD(obj, offset, jboolean, v); \
  return v; \
UNSAFE_END \
 \
UNSAFE_ENTRY(void, Unsafe_Set##Boolean##140(JNIEnv *env, jobject unsafe, jobject obj, jint offset, jboolean x)) \
  UnsafeWrapper("Unsafe_Set"#Boolean); \
  if (obj == NULL)  THROW(vmSymbols::java_lang_NullPointerException()); \
  SET_FIELD(obj, offset, jboolean, x); \
UNSAFE_END \
 \
UNSAFE_ENTRY(jboolean, Unsafe_Get##Boolean(JNIEnv *env, jobject unsafe, jobject obj, jlong offset)) \
  UnsafeWrapper("Unsafe_Get"#Boolean); \
  GET_FIELD(obj, offset, jboolean, v); \
  return v; \
UNSAFE_END \
 \
UNSAFE_ENTRY(void, Unsafe_Set##Boolean(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jboolean x)) \
  UnsafeWrapper("Unsafe_Set"#Boolean); \
  SET_FIELD(obj, offset, jboolean, x); \
UNSAFE_END \
 \
// END DEFINE_GETSETOOP.

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DEFINE_GETSETOOP(jboolean, Boolean)
DEFINE_GETSETOOP(jbyte, Byte)
DEFINE_GETSETOOP(jshort, Short);
DEFINE_GETSETOOP(jchar, Char);
DEFINE_GETSETOOP(jint, Int);
DEFINE_GETSETOOP(jlong, Long);
DEFINE_GETSETOOP(jfloat, Float);
DEFINE_GETSETOOP(jdouble, Double);

#undef DEFINE_GETSETOOP
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#define DEFINE_GETSETOOP_VOLATILE(jboolean, Boolean) \
 \
UNSAFE_ENTRY(jboolean, Unsafe_Get##Boolean##Volatile(JNIEnv *env, jobject unsafe, jobject obj, jlong offset)) \
  UnsafeWrapper("Unsafe_Get"#Boolean); \
  GET_FIELD_VOLATILE(obj, offset, jboolean, v); \
  return v; \
UNSAFE_END \
 \
UNSAFE_ENTRY(void, Unsafe_Set##Boolean##Volatile(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jboolean x)) \
  UnsafeWrapper("Unsafe_Set"#Boolean); \
  SET_FIELD_VOLATILE(obj, offset, jboolean, x); \
UNSAFE_END \
 \
// END DEFINE_GETSETOOP_VOLATILE.

DEFINE_GETSETOOP_VOLATILE(jboolean, Boolean)
DEFINE_GETSETOOP_VOLATILE(jbyte, Byte)
DEFINE_GETSETOOP_VOLATILE(jshort, Short);
DEFINE_GETSETOOP_VOLATILE(jchar, Char);
DEFINE_GETSETOOP_VOLATILE(jint, Int);
DEFINE_GETSETOOP_VOLATILE(jfloat, Float);
DEFINE_GETSETOOP_VOLATILE(jdouble, Double);

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#ifdef SUPPORTS_NATIVE_CX8
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DEFINE_GETSETOOP_VOLATILE(jlong, Long);
#endif

#undef DEFINE_GETSETOOP_VOLATILE
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// The non-intrinsified versions of setOrdered just use setVolatile

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UNSAFE_ENTRY(void, Unsafe_SetOrderedInt(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jint x))
  UnsafeWrapper("Unsafe_SetOrderedInt");
  SET_FIELD_VOLATILE(obj, offset, jint, x);
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UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetOrderedObject(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jobject x_h))
  UnsafeWrapper("Unsafe_SetOrderedObject");
  oop x = JNIHandles::resolve(x_h);
  oop p = JNIHandles::resolve(obj);
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  void* addr = index_oop_from_field_offset_long(p, offset);
  OrderAccess::release();
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  if (UseCompressedOops) {
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    oop_store((narrowOop*)addr, x);
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  } else {
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    oop_store((oop*)addr, x);
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  }
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  OrderAccess::fence();
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetOrderedLong(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jlong x))
  UnsafeWrapper("Unsafe_SetOrderedLong");
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#ifdef SUPPORTS_NATIVE_CX8
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  SET_FIELD_VOLATILE(obj, offset, jlong, x);
#else
  // Keep old code for platforms which may not have atomic long (8 bytes) instructions
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  {
    if (VM_Version::supports_cx8()) {
      SET_FIELD_VOLATILE(obj, offset, jlong, x);
    }
    else {
      Handle p (THREAD, JNIHandles::resolve(obj));
      jlong* addr = (jlong*)(index_oop_from_field_offset_long(p(), offset));
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      MutexLockerEx mu(UnsafeJlong_lock, Mutex::_no_safepoint_check_flag);
      Atomic::store(x, addr);
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    }
  }
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#endif
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UNSAFE_END

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UNSAFE_ENTRY(void, Unsafe_LoadFence(JNIEnv *env, jobject unsafe))
  UnsafeWrapper("Unsafe_LoadFence");
  OrderAccess::acquire();
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_StoreFence(JNIEnv *env, jobject unsafe))
  UnsafeWrapper("Unsafe_StoreFence");
  OrderAccess::release();
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_FullFence(JNIEnv *env, jobject unsafe))
  UnsafeWrapper("Unsafe_FullFence");
  OrderAccess::fence();
UNSAFE_END

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////// Data in the C heap.

// Note:  These do not throw NullPointerException for bad pointers.
// They just crash.  Only a oop base pointer can generate a NullPointerException.
//
#define DEFINE_GETSETNATIVE(java_type, Type, native_type) \
 \
UNSAFE_ENTRY(java_type, Unsafe_GetNative##Type(JNIEnv *env, jobject unsafe, jlong addr)) \
  UnsafeWrapper("Unsafe_GetNative"#Type); \
  void* p = addr_from_java(addr); \
  JavaThread* t = JavaThread::current(); \
  t->set_doing_unsafe_access(true); \
  java_type x = *(volatile native_type*)p; \
  t->set_doing_unsafe_access(false); \
  return x; \
UNSAFE_END \
 \
UNSAFE_ENTRY(void, Unsafe_SetNative##Type(JNIEnv *env, jobject unsafe, jlong addr, java_type x)) \
  UnsafeWrapper("Unsafe_SetNative"#Type); \
  JavaThread* t = JavaThread::current(); \
  t->set_doing_unsafe_access(true); \
  void* p = addr_from_java(addr); \
  *(volatile native_type*)p = x; \
  t->set_doing_unsafe_access(false); \
UNSAFE_END \
 \
// END DEFINE_GETSETNATIVE.

DEFINE_GETSETNATIVE(jbyte, Byte, signed char)
DEFINE_GETSETNATIVE(jshort, Short, signed short);
DEFINE_GETSETNATIVE(jchar, Char, unsigned short);
DEFINE_GETSETNATIVE(jint, Int, jint);
// no long -- handled specially
DEFINE_GETSETNATIVE(jfloat, Float, float);
DEFINE_GETSETNATIVE(jdouble, Double, double);

#undef DEFINE_GETSETNATIVE

UNSAFE_ENTRY(jlong, Unsafe_GetNativeLong(JNIEnv *env, jobject unsafe, jlong addr))
  UnsafeWrapper("Unsafe_GetNativeLong");
  JavaThread* t = JavaThread::current();
  // We do it this way to avoid problems with access to heap using 64
  // bit loads, as jlong in heap could be not 64-bit aligned, and on
  // some CPUs (SPARC) it leads to SIGBUS.
  t->set_doing_unsafe_access(true);
  void* p = addr_from_java(addr);
  jlong x;
  if (((intptr_t)p & 7) == 0) {
    // jlong is aligned, do a volatile access
    x = *(volatile jlong*)p;
  } else {
    jlong_accessor acc;
    acc.words[0] = ((volatile jint*)p)[0];
    acc.words[1] = ((volatile jint*)p)[1];
    x = acc.long_value;
  }
  t->set_doing_unsafe_access(false);
  return x;
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetNativeLong(JNIEnv *env, jobject unsafe, jlong addr, jlong x))
  UnsafeWrapper("Unsafe_SetNativeLong");
  JavaThread* t = JavaThread::current();
  // see comment for Unsafe_GetNativeLong
  t->set_doing_unsafe_access(true);
  void* p = addr_from_java(addr);
  if (((intptr_t)p & 7) == 0) {
    // jlong is aligned, do a volatile access
    *(volatile jlong*)p = x;
  } else {
    jlong_accessor acc;
    acc.long_value = x;
    ((volatile jint*)p)[0] = acc.words[0];
    ((volatile jint*)p)[1] = acc.words[1];
  }
  t->set_doing_unsafe_access(false);
UNSAFE_END


UNSAFE_ENTRY(jlong, Unsafe_GetNativeAddress(JNIEnv *env, jobject unsafe, jlong addr))
  UnsafeWrapper("Unsafe_GetNativeAddress");
  void* p = addr_from_java(addr);
  return addr_to_java(*(void**)p);
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetNativeAddress(JNIEnv *env, jobject unsafe, jlong addr, jlong x))
  UnsafeWrapper("Unsafe_SetNativeAddress");
  void* p = addr_from_java(addr);
  *(void**)p = addr_from_java(x);
UNSAFE_END


////// Allocation requests

UNSAFE_ENTRY(jobject, Unsafe_AllocateInstance(JNIEnv *env, jobject unsafe, jclass cls))
  UnsafeWrapper("Unsafe_AllocateInstance");
  {
    ThreadToNativeFromVM ttnfv(thread);
    return env->AllocObject(cls);
  }
UNSAFE_END

UNSAFE_ENTRY(jlong, Unsafe_AllocateMemory(JNIEnv *env, jobject unsafe, jlong size))
  UnsafeWrapper("Unsafe_AllocateMemory");
  size_t sz = (size_t)size;
  if (sz != (julong)size || size < 0) {
    THROW_0(vmSymbols::java_lang_IllegalArgumentException());
  }
  if (sz == 0) {
    return 0;
  }
  sz = round_to(sz, HeapWordSize);
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  void* x = os::malloc(sz, mtInternal);
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  if (x == NULL) {
    THROW_0(vmSymbols::java_lang_OutOfMemoryError());
  }
  //Copy::fill_to_words((HeapWord*)x, sz / HeapWordSize);
  return addr_to_java(x);
UNSAFE_END

UNSAFE_ENTRY(jlong, Unsafe_ReallocateMemory(JNIEnv *env, jobject unsafe, jlong addr, jlong size))
  UnsafeWrapper("Unsafe_ReallocateMemory");
  void* p = addr_from_java(addr);
  size_t sz = (size_t)size;
  if (sz != (julong)size || size < 0) {
    THROW_0(vmSymbols::java_lang_IllegalArgumentException());
  }
  if (sz == 0) {
    os::free(p);
    return 0;
  }
  sz = round_to(sz, HeapWordSize);
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  void* x = (p == NULL) ? os::malloc(sz, mtInternal) : os::realloc(p, sz, mtInternal);
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  if (x == NULL) {
    THROW_0(vmSymbols::java_lang_OutOfMemoryError());
  }
  return addr_to_java(x);
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_FreeMemory(JNIEnv *env, jobject unsafe, jlong addr))
  UnsafeWrapper("Unsafe_FreeMemory");
  void* p = addr_from_java(addr);
  if (p == NULL) {
    return;
  }
  os::free(p);
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetMemory(JNIEnv *env, jobject unsafe, jlong addr, jlong size, jbyte value))
  UnsafeWrapper("Unsafe_SetMemory");
  size_t sz = (size_t)size;
  if (sz != (julong)size || size < 0) {
    THROW(vmSymbols::java_lang_IllegalArgumentException());
  }
  char* p = (char*) addr_from_java(addr);
  Copy::fill_to_memory_atomic(p, sz, value);
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_SetMemory2(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jlong size, jbyte value))
  UnsafeWrapper("Unsafe_SetMemory");
  size_t sz = (size_t)size;
  if (sz != (julong)size || size < 0) {
    THROW(vmSymbols::java_lang_IllegalArgumentException());
  }
  oop base = JNIHandles::resolve(obj);
  void* p = index_oop_from_field_offset_long(base, offset);
  Copy::fill_to_memory_atomic(p, sz, value);
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_CopyMemory(JNIEnv *env, jobject unsafe, jlong srcAddr, jlong dstAddr, jlong size))
  UnsafeWrapper("Unsafe_CopyMemory");
  if (size == 0) {
    return;
  }
  size_t sz = (size_t)size;
  if (sz != (julong)size || size < 0) {
    THROW(vmSymbols::java_lang_IllegalArgumentException());
  }
  void* src = addr_from_java(srcAddr);
  void* dst = addr_from_java(dstAddr);
  Copy::conjoint_memory_atomic(src, dst, sz);
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_CopyMemory2(JNIEnv *env, jobject unsafe, jobject srcObj, jlong srcOffset, jobject dstObj, jlong dstOffset, jlong size))
  UnsafeWrapper("Unsafe_CopyMemory");
  if (size == 0) {
    return;
  }
  size_t sz = (size_t)size;
  if (sz != (julong)size || size < 0) {
    THROW(vmSymbols::java_lang_IllegalArgumentException());
  }
  oop srcp = JNIHandles::resolve(srcObj);
  oop dstp = JNIHandles::resolve(dstObj);
  if (dstp != NULL && !dstp->is_typeArray()) {
    // NYI:  This works only for non-oop arrays at present.
    // Generalizing it would be reasonable, but requires card marking.
    // Also, autoboxing a Long from 0L in copyMemory(x,y, 0L,z, n) would be bad.
    THROW(vmSymbols::java_lang_IllegalArgumentException());
  }
  void* src = index_oop_from_field_offset_long(srcp, srcOffset);
  void* dst = index_oop_from_field_offset_long(dstp, dstOffset);
  Copy::conjoint_memory_atomic(src, dst, sz);
UNSAFE_END


////// Random queries

// See comment at file start about UNSAFE_LEAF
//UNSAFE_LEAF(jint, Unsafe_AddressSize())
UNSAFE_ENTRY(jint, Unsafe_AddressSize(JNIEnv *env, jobject unsafe))
  UnsafeWrapper("Unsafe_AddressSize");
  return sizeof(void*);
UNSAFE_END

// See comment at file start about UNSAFE_LEAF
//UNSAFE_LEAF(jint, Unsafe_PageSize())
UNSAFE_ENTRY(jint, Unsafe_PageSize(JNIEnv *env, jobject unsafe))
  UnsafeWrapper("Unsafe_PageSize");
  return os::vm_page_size();
UNSAFE_END

jint find_field_offset(jobject field, int must_be_static, TRAPS) {
  if (field == NULL) {
    THROW_0(vmSymbols::java_lang_NullPointerException());
  }

  oop reflected   = JNIHandles::resolve_non_null(field);
  oop mirror      = java_lang_reflect_Field::clazz(reflected);
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  Klass* k      = java_lang_Class::as_Klass(mirror);
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  int slot        = java_lang_reflect_Field::slot(reflected);
  int modifiers   = java_lang_reflect_Field::modifiers(reflected);

  if (must_be_static >= 0) {
    int really_is_static = ((modifiers & JVM_ACC_STATIC) != 0);
    if (must_be_static != really_is_static) {
      THROW_0(vmSymbols::java_lang_IllegalArgumentException());
    }
  }

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  int offset = InstanceKlass::cast(k)->field_offset(slot);
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  return field_offset_from_byte_offset(offset);
}

UNSAFE_ENTRY(jlong, Unsafe_ObjectFieldOffset(JNIEnv *env, jobject unsafe, jobject field))
  UnsafeWrapper("Unsafe_ObjectFieldOffset");
  return find_field_offset(field, 0, THREAD);
UNSAFE_END

UNSAFE_ENTRY(jlong, Unsafe_StaticFieldOffset(JNIEnv *env, jobject unsafe, jobject field))
  UnsafeWrapper("Unsafe_StaticFieldOffset");
  return find_field_offset(field, 1, THREAD);
UNSAFE_END

UNSAFE_ENTRY(jobject, Unsafe_StaticFieldBaseFromField(JNIEnv *env, jobject unsafe, jobject field))
  UnsafeWrapper("Unsafe_StaticFieldBase");
  // Note:  In this VM implementation, a field address is always a short
  // offset from the base of a a klass metaobject.  Thus, the full dynamic
  // range of the return type is never used.  However, some implementations
  // might put the static field inside an array shared by many classes,
  // or even at a fixed address, in which case the address could be quite
  // large.  In that last case, this function would return NULL, since
  // the address would operate alone, without any base pointer.

  if (field == NULL)  THROW_0(vmSymbols::java_lang_NullPointerException());

  oop reflected   = JNIHandles::resolve_non_null(field);
  oop mirror      = java_lang_reflect_Field::clazz(reflected);
  int modifiers   = java_lang_reflect_Field::modifiers(reflected);

  if ((modifiers & JVM_ACC_STATIC) == 0) {
    THROW_0(vmSymbols::java_lang_IllegalArgumentException());
  }

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  return JNIHandles::make_local(env, mirror);
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UNSAFE_END

//@deprecated
UNSAFE_ENTRY(jint, Unsafe_FieldOffset(JNIEnv *env, jobject unsafe, jobject field))
  UnsafeWrapper("Unsafe_FieldOffset");
  // tries (but fails) to be polymorphic between static and non-static:
  jlong offset = find_field_offset(field, -1, THREAD);
  guarantee(offset == (jint)offset, "offset fits in 32 bits");
  return (jint)offset;
UNSAFE_END

//@deprecated
UNSAFE_ENTRY(jobject, Unsafe_StaticFieldBaseFromClass(JNIEnv *env, jobject unsafe, jobject clazz))
  UnsafeWrapper("Unsafe_StaticFieldBase");
  if (clazz == NULL) {
    THROW_0(vmSymbols::java_lang_NullPointerException());
  }
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  return JNIHandles::make_local(env, JNIHandles::resolve_non_null(clazz));
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UNSAFE_END

815
UNSAFE_ENTRY(void, Unsafe_EnsureClassInitialized(JNIEnv *env, jobject unsafe, jobject clazz)) {
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  UnsafeWrapper("Unsafe_EnsureClassInitialized");
  if (clazz == NULL) {
    THROW(vmSymbols::java_lang_NullPointerException());
  }
  oop mirror = JNIHandles::resolve_non_null(clazz);
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822
  Klass* klass = java_lang_Class::as_Klass(mirror);
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  if (klass != NULL && klass->should_be_initialized()) {
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    InstanceKlass* k = InstanceKlass::cast(klass);
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    k->initialize(CHECK);
  }
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}
UNSAFE_END

UNSAFE_ENTRY(jboolean, Unsafe_ShouldBeInitialized(JNIEnv *env, jobject unsafe, jobject clazz)) {
  UnsafeWrapper("Unsafe_ShouldBeInitialized");
  if (clazz == NULL) {
    THROW_(vmSymbols::java_lang_NullPointerException(), false);
  }
  oop mirror = JNIHandles::resolve_non_null(clazz);
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  Klass* klass = java_lang_Class::as_Klass(mirror);
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  if (klass != NULL && klass->should_be_initialized()) {
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    return true;
  }
  return false;
}
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UNSAFE_END

static void getBaseAndScale(int& base, int& scale, jclass acls, TRAPS) {
  if (acls == NULL) {
    THROW(vmSymbols::java_lang_NullPointerException());
  }
  oop      mirror = JNIHandles::resolve_non_null(acls);
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  Klass* k      = java_lang_Class::as_Klass(mirror);
  if (k == NULL || !k->oop_is_array()) {
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    THROW(vmSymbols::java_lang_InvalidClassException());
852
  } else if (k->oop_is_objArray()) {
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    base  = arrayOopDesc::base_offset_in_bytes(T_OBJECT);
854
    scale = heapOopSize;
855
  } else if (k->oop_is_typeArray()) {
856
    TypeArrayKlass* tak = TypeArrayKlass::cast(k);
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    base  = tak->array_header_in_bytes();
    assert(base == arrayOopDesc::base_offset_in_bytes(tak->element_type()), "array_header_size semantics ok");
    scale = (1 << tak->log2_element_size());
  } else {
    ShouldNotReachHere();
  }
}

UNSAFE_ENTRY(jint, Unsafe_ArrayBaseOffset(JNIEnv *env, jobject unsafe, jclass acls))
  UnsafeWrapper("Unsafe_ArrayBaseOffset");
  int base, scale;
  getBaseAndScale(base, scale, acls, CHECK_0);
  return field_offset_from_byte_offset(base);
UNSAFE_END


UNSAFE_ENTRY(jint, Unsafe_ArrayIndexScale(JNIEnv *env, jobject unsafe, jclass acls))
  UnsafeWrapper("Unsafe_ArrayIndexScale");
  int base, scale;
  getBaseAndScale(base, scale, acls, CHECK_0);
  // This VM packs both fields and array elements down to the byte.
  // But watch out:  If this changes, so that array references for
  // a given primitive type (say, T_BOOLEAN) use different memory units
  // than fields, this method MUST return zero for such arrays.
  // For example, the VM used to store sub-word sized fields in full
  // words in the object layout, so that accessors like getByte(Object,int)
  // did not really do what one might expect for arrays.  Therefore,
  // this function used to report a zero scale factor, so that the user
  // would know not to attempt to access sub-word array elements.
  // // Code for unpacked fields:
  // if (scale < wordSize)  return 0;

  // The following allows for a pretty general fieldOffset cookie scheme,
  // but requires it to be linear in byte offset.
  return field_offset_from_byte_offset(scale) - field_offset_from_byte_offset(0);
UNSAFE_END


static inline void throw_new(JNIEnv *env, const char *ename) {
  char buf[100];
  strcpy(buf, "java/lang/");
  strcat(buf, ename);
  jclass cls = env->FindClass(buf);
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  if (env->ExceptionCheck()) {
    env->ExceptionClear();
    tty->print_cr("Unsafe: cannot throw %s because FindClass has failed", buf);
    return;
  }
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  char* msg = NULL;
  env->ThrowNew(cls, msg);
}

909
static jclass Unsafe_DefineClass_impl(JNIEnv *env, jstring name, jbyteArray data, int offset, int length, jobject loader, jobject pd) {
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  {
    // Code lifted from JDK 1.3 ClassLoader.c

    jbyte *body;
    char *utfName;
    jclass result = 0;
    char buf[128];

    if (UsePerfData) {
      ClassLoader::unsafe_defineClassCallCounter()->inc();
    }

    if (data == NULL) {
        throw_new(env, "NullPointerException");
        return 0;
    }

    /* Work around 4153825. malloc crashes on Solaris when passed a
     * negative size.
     */
    if (length < 0) {
        throw_new(env, "ArrayIndexOutOfBoundsException");
        return 0;
    }

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    body = NEW_C_HEAP_ARRAY(jbyte, length, mtInternal);
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    if (body == 0) {
        throw_new(env, "OutOfMemoryError");
        return 0;
    }

    env->GetByteArrayRegion(data, offset, length, body);

    if (env->ExceptionOccurred())
        goto free_body;

    if (name != NULL) {
        uint len = env->GetStringUTFLength(name);
        int unicode_len = env->GetStringLength(name);
        if (len >= sizeof(buf)) {
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            utfName = NEW_C_HEAP_ARRAY(char, len + 1, mtInternal);
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            if (utfName == NULL) {
                throw_new(env, "OutOfMemoryError");
                goto free_body;
            }
        } else {
            utfName = buf;
        }
        env->GetStringUTFRegion(name, 0, unicode_len, utfName);
        //VerifyFixClassname(utfName);
        for (uint i = 0; i < len; i++) {
          if (utfName[i] == '.')   utfName[i] = '/';
        }
    } else {
        utfName = NULL;
    }

    result = JVM_DefineClass(env, utfName, loader, body, length, pd);

    if (utfName && utfName != buf)
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        FREE_C_HEAP_ARRAY(char, utfName, mtInternal);
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 free_body:
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    FREE_C_HEAP_ARRAY(jbyte, body, mtInternal);
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    return result;
  }
}


980
UNSAFE_ENTRY(jclass, Unsafe_DefineClass(JNIEnv *env, jobject unsafe, jstring name, jbyteArray data, int offset, int length, jobject loader, jobject pd))
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  UnsafeWrapper("Unsafe_DefineClass");
  {
    ThreadToNativeFromVM ttnfv(thread);
984
    return Unsafe_DefineClass_impl(env, name, data, offset, length, loader, pd);
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  }
UNSAFE_END

988 989 990 991 992 993 994 995
static jobject get_class_loader(JNIEnv* env, jclass cls) {
  if (java_lang_Class::is_primitive(JNIHandles::resolve_non_null(cls))) {
    return NULL;
  }
  Klass* k = java_lang_Class::as_Klass(JNIHandles::resolve_non_null(cls));
  oop loader = k->class_loader();
  return JNIHandles::make_local(env, loader);
}
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997
UNSAFE_ENTRY(jclass, Unsafe_DefineClass0(JNIEnv *env, jobject unsafe, jstring name, jbyteArray data, int offset, int length))
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  UnsafeWrapper("Unsafe_DefineClass");
  {
    ThreadToNativeFromVM ttnfv(thread);

1002 1003
    int depthFromDefineClass0 = 1;
    jclass  caller = JVM_GetCallerClass(env, depthFromDefineClass0);
1004
    jobject loader = (caller == NULL) ? NULL : get_class_loader(env, caller);
1005 1006 1007
    jobject pd     = (caller == NULL) ? NULL : JVM_GetProtectionDomain(env, caller);

    return Unsafe_DefineClass_impl(env, name, data, offset, length, loader, pd);
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  }
UNSAFE_END

1011

1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060
#define DAC_Args CLS"[B["OBJ
// define a class but do not make it known to the class loader or system dictionary
// - host_class:  supplies context for linkage, access control, protection domain, and class loader
// - data:  bytes of a class file, a raw memory address (length gives the number of bytes)
// - cp_patches:  where non-null entries exist, they replace corresponding CP entries in data

// When you load an anonymous class U, it works as if you changed its name just before loading,
// to a name that you will never use again.  Since the name is lost, no other class can directly
// link to any member of U.  Just after U is loaded, the only way to use it is reflectively,
// through java.lang.Class methods like Class.newInstance.

// Access checks for linkage sites within U continue to follow the same rules as for named classes.
// The package of an anonymous class is given by the package qualifier on the name under which it was loaded.
// An anonymous class also has special privileges to access any member of its host class.
// This is the main reason why this loading operation is unsafe.  The purpose of this is to
// allow language implementations to simulate "open classes"; a host class in effect gets
// new code when an anonymous class is loaded alongside it.  A less convenient but more
// standard way to do this is with reflection, which can also be set to ignore access
// restrictions.

// Access into an anonymous class is possible only through reflection.  Therefore, there
// are no special access rules for calling into an anonymous class.  The relaxed access
// rule for the host class is applied in the opposite direction:  A host class reflectively
// access one of its anonymous classes.

// If you load the same bytecodes twice, you get two different classes.  You can reload
// the same bytecodes with or without varying CP patches.

// By using the CP patching array, you can have a new anonymous class U2 refer to an older one U1.
// The bytecodes for U2 should refer to U1 by a symbolic name (doesn't matter what the name is).
// The CONSTANT_Class entry for that name can be patched to refer directly to U1.

// This allows, for example, U2 to use U1 as a superclass or super-interface, or as
// an outer class (so that U2 is an anonymous inner class of anonymous U1).
// It is not possible for a named class, or an older anonymous class, to refer by
// name (via its CP) to a newer anonymous class.

// CP patching may also be used to modify (i.e., hack) the names of methods, classes,
// or type descriptors used in the loaded anonymous class.

// Finally, CP patching may be used to introduce "live" objects into the constant pool,
// instead of "dead" strings.  A compiled statement like println((Object)"hello") can
// be changed to println(greeting), where greeting is an arbitrary object created before
// the anonymous class is loaded.  This is useful in dynamic languages, in which
// various kinds of metaobjects must be introduced as constants into bytecode.
// Note the cast (Object), which tells the verifier to expect an arbitrary object,
// not just a literal string.  For such ldc instructions, the verifier uses the
// type Object instead of String, if the loaded constant is not in fact a String.

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static instanceKlassHandle
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Unsafe_DefineAnonymousClass_impl(JNIEnv *env,
                                 jclass host_class, jbyteArray data, jobjectArray cp_patches_jh,
                                 HeapWord* *temp_alloc,
                                 TRAPS) {

  if (UsePerfData) {
    ClassLoader::unsafe_defineClassCallCounter()->inc();
  }

  if (data == NULL) {
    THROW_0(vmSymbols::java_lang_NullPointerException());
  }

  jint length = typeArrayOop(JNIHandles::resolve_non_null(data))->length();
  jint word_length = (length + sizeof(HeapWord)-1) / sizeof(HeapWord);
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  HeapWord* body = NEW_C_HEAP_ARRAY(HeapWord, word_length, mtInternal);
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  if (body == NULL) {
    THROW_0(vmSymbols::java_lang_OutOfMemoryError());
  }

  // caller responsible to free it:
  (*temp_alloc) = body;

  {
    jbyte* array_base = typeArrayOop(JNIHandles::resolve_non_null(data))->byte_at_addr(0);
    Copy::conjoint_words((HeapWord*) array_base, body, word_length);
  }

  u1* class_bytes = (u1*) body;
  int class_bytes_length = (int) length;
  if (class_bytes_length < 0)  class_bytes_length = 0;
  if (class_bytes == NULL
      || host_class == NULL
      || length != class_bytes_length)
    THROW_0(vmSymbols::java_lang_IllegalArgumentException());

  objArrayHandle cp_patches_h;
  if (cp_patches_jh != NULL) {
    oop p = JNIHandles::resolve_non_null(cp_patches_jh);
    if (!p->is_objArray())
      THROW_0(vmSymbols::java_lang_IllegalArgumentException());
    cp_patches_h = objArrayHandle(THREAD, (objArrayOop)p);
  }

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  KlassHandle host_klass(THREAD, java_lang_Class::as_Klass(JNIHandles::resolve_non_null(host_class)));
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  const char* host_source = host_klass->external_name();
  Handle      host_loader(THREAD, host_klass->class_loader());
  Handle      host_domain(THREAD, host_klass->protection_domain());

  GrowableArray<Handle>* cp_patches = NULL;
  if (cp_patches_h.not_null()) {
    int alen = cp_patches_h->length();
    for (int i = alen-1; i >= 0; i--) {
      oop p = cp_patches_h->obj_at(i);
      if (p != NULL) {
        Handle patch(THREAD, p);
        if (cp_patches == NULL)
          cp_patches = new GrowableArray<Handle>(i+1, i+1, Handle());
        cp_patches->at_put(i, patch);
      }
    }
  }

  ClassFileStream st(class_bytes, class_bytes_length, (char*) host_source);

  instanceKlassHandle anon_klass;
  {
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    Symbol* no_class_name = NULL;
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    Klass* anonk = SystemDictionary::parse_stream(no_class_name,
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                                                    host_loader, host_domain,
                                                    &st, host_klass, cp_patches,
                                                    CHECK_NULL);
    if (anonk == NULL)  return NULL;
    anon_klass = instanceKlassHandle(THREAD, anonk);
  }

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  return anon_klass;
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}

UNSAFE_ENTRY(jclass, Unsafe_DefineAnonymousClass(JNIEnv *env, jobject unsafe, jclass host_class, jbyteArray data, jobjectArray cp_patches_jh))
{
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  instanceKlassHandle anon_klass;
  jobject res_jh = NULL;

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  UnsafeWrapper("Unsafe_DefineAnonymousClass");
  ResourceMark rm(THREAD);

  HeapWord* temp_alloc = NULL;

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  anon_klass = Unsafe_DefineAnonymousClass_impl(env, host_class, data,
                                                cp_patches_jh,
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                                                   &temp_alloc, THREAD);
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  if (anon_klass() != NULL)
    res_jh = JNIHandles::make_local(env, anon_klass->java_mirror());
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  // try/finally clause:
  if (temp_alloc != NULL) {
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    FREE_C_HEAP_ARRAY(HeapWord, temp_alloc, mtInternal);
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  }

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  // The anonymous class loader data has been artificially been kept alive to
  // this point.   The mirror and any instances of this class have to keep
  // it alive afterwards.
  if (anon_klass() != NULL) {
    anon_klass->class_loader_data()->set_keep_alive(false);
  }

  // let caller initialize it as needed...

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  return (jclass) res_jh;
}
UNSAFE_END


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UNSAFE_ENTRY(void, Unsafe_MonitorEnter(JNIEnv *env, jobject unsafe, jobject jobj))
  UnsafeWrapper("Unsafe_MonitorEnter");
  {
    if (jobj == NULL) {
      THROW(vmSymbols::java_lang_NullPointerException());
    }
    Handle obj(thread, JNIHandles::resolve_non_null(jobj));
    ObjectSynchronizer::jni_enter(obj, CHECK);
  }
UNSAFE_END


UNSAFE_ENTRY(jboolean, Unsafe_TryMonitorEnter(JNIEnv *env, jobject unsafe, jobject jobj))
  UnsafeWrapper("Unsafe_TryMonitorEnter");
  {
    if (jobj == NULL) {
      THROW_(vmSymbols::java_lang_NullPointerException(), JNI_FALSE);
    }
    Handle obj(thread, JNIHandles::resolve_non_null(jobj));
    bool res = ObjectSynchronizer::jni_try_enter(obj, CHECK_0);
    return (res ? JNI_TRUE : JNI_FALSE);
  }
UNSAFE_END


UNSAFE_ENTRY(void, Unsafe_MonitorExit(JNIEnv *env, jobject unsafe, jobject jobj))
  UnsafeWrapper("Unsafe_MonitorExit");
  {
    if (jobj == NULL) {
      THROW(vmSymbols::java_lang_NullPointerException());
    }
    Handle obj(THREAD, JNIHandles::resolve_non_null(jobj));
    ObjectSynchronizer::jni_exit(obj(), CHECK);
  }
UNSAFE_END


UNSAFE_ENTRY(void, Unsafe_ThrowException(JNIEnv *env, jobject unsafe, jthrowable thr))
  UnsafeWrapper("Unsafe_ThrowException");
  {
    ThreadToNativeFromVM ttnfv(thread);
    env->Throw(thr);
  }
UNSAFE_END

// JSR166 ------------------------------------------------------------------

UNSAFE_ENTRY(jboolean, Unsafe_CompareAndSwapObject(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jobject e_h, jobject x_h))
  UnsafeWrapper("Unsafe_CompareAndSwapObject");
  oop x = JNIHandles::resolve(x_h);
  oop e = JNIHandles::resolve(e_h);
  oop p = JNIHandles::resolve(obj);
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  HeapWord* addr = (HeapWord *)index_oop_from_field_offset_long(p, offset);
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  oop res = oopDesc::atomic_compare_exchange_oop(x, addr, e, true);
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  jboolean success  = (res == e);
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  if (success)
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    update_barrier_set((void*)addr, x);
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  return success;
UNSAFE_END

UNSAFE_ENTRY(jboolean, Unsafe_CompareAndSwapInt(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jint e, jint x))
  UnsafeWrapper("Unsafe_CompareAndSwapInt");
  oop p = JNIHandles::resolve(obj);
  jint* addr = (jint *) index_oop_from_field_offset_long(p, offset);
  return (jint)(Atomic::cmpxchg(x, addr, e)) == e;
UNSAFE_END

UNSAFE_ENTRY(jboolean, Unsafe_CompareAndSwapLong(JNIEnv *env, jobject unsafe, jobject obj, jlong offset, jlong e, jlong x))
  UnsafeWrapper("Unsafe_CompareAndSwapLong");
  Handle p (THREAD, JNIHandles::resolve(obj));
  jlong* addr = (jlong*)(index_oop_from_field_offset_long(p(), offset));
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#ifdef SUPPORTS_NATIVE_CX8
  return (jlong)(Atomic::cmpxchg(x, addr, e)) == e;
#else
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  if (VM_Version::supports_cx8())
    return (jlong)(Atomic::cmpxchg(x, addr, e)) == e;
  else {
    jboolean success = false;
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    MutexLockerEx mu(UnsafeJlong_lock, Mutex::_no_safepoint_check_flag);
    jlong val = Atomic::load(addr);
    if (val == e) { Atomic::store(x, addr); success = true; }
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    return success;
  }
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#endif
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UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_Park(JNIEnv *env, jobject unsafe, jboolean isAbsolute, jlong time))
  UnsafeWrapper("Unsafe_Park");
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  EventThreadPark event;
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#ifndef USDT2
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  HS_DTRACE_PROBE3(hotspot, thread__park__begin, thread->parker(), (int) isAbsolute, time);
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#else /* USDT2 */
   HOTSPOT_THREAD_PARK_BEGIN(
                             (uintptr_t) thread->parker(), (int) isAbsolute, time);
#endif /* USDT2 */
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  JavaThreadParkedState jtps(thread, time != 0);
  thread->parker()->park(isAbsolute != 0, time);
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#ifndef USDT2
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  HS_DTRACE_PROBE1(hotspot, thread__park__end, thread->parker());
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#else /* USDT2 */
  HOTSPOT_THREAD_PARK_END(
                          (uintptr_t) thread->parker());
#endif /* USDT2 */
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  if (event.should_commit()) {
    oop obj = thread->current_park_blocker();
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    event.set_klass((obj != NULL) ? obj->klass() : NULL);
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    event.set_timeout(time);
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    event.set_address((obj != NULL) ? (TYPE_ADDRESS) cast_from_oop<uintptr_t>(obj) : 0);
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    event.commit();
  }
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UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_Unpark(JNIEnv *env, jobject unsafe, jobject jthread))
  UnsafeWrapper("Unsafe_Unpark");
  Parker* p = NULL;
  if (jthread != NULL) {
    oop java_thread = JNIHandles::resolve_non_null(jthread);
    if (java_thread != NULL) {
      jlong lp = java_lang_Thread::park_event(java_thread);
      if (lp != 0) {
        // This cast is OK even though the jlong might have been read
        // non-atomically on 32bit systems, since there, one word will
        // always be zero anyway and the value set is always the same
        p = (Parker*)addr_from_java(lp);
      } else {
        // Grab lock if apparently null or using older version of library
        MutexLocker mu(Threads_lock);
        java_thread = JNIHandles::resolve_non_null(jthread);
        if (java_thread != NULL) {
          JavaThread* thr = java_lang_Thread::thread(java_thread);
          if (thr != NULL) {
            p = thr->parker();
            if (p != NULL) { // Bind to Java thread for next time.
              java_lang_Thread::set_park_event(java_thread, addr_to_java(p));
            }
          }
        }
      }
    }
  }
  if (p != NULL) {
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#ifndef USDT2
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    HS_DTRACE_PROBE1(hotspot, thread__unpark, p);
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#else /* USDT2 */
    HOTSPOT_THREAD_UNPARK(
                          (uintptr_t) p);
#endif /* USDT2 */
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    p->unpark();
  }
UNSAFE_END

UNSAFE_ENTRY(jint, Unsafe_Loadavg(JNIEnv *env, jobject unsafe, jdoubleArray loadavg, jint nelem))
  UnsafeWrapper("Unsafe_Loadavg");
  const int max_nelem = 3;
  double la[max_nelem];
  jint ret;

  typeArrayOop a = typeArrayOop(JNIHandles::resolve_non_null(loadavg));
  assert(a->is_typeArray(), "must be type array");

  if (nelem < 0 || nelem > max_nelem || a->length() < nelem) {
    ThreadToNativeFromVM ttnfv(thread);
    throw_new(env, "ArrayIndexOutOfBoundsException");
    return -1;
  }

  ret = os::loadavg(la, nelem);
  if (ret == -1) return -1;

  // if successful, ret is the number of samples actually retrieved.
  assert(ret >= 0 && ret <= max_nelem, "Unexpected loadavg return value");
  switch(ret) {
    case 3: a->double_at_put(2, (jdouble)la[2]); // fall through
    case 2: a->double_at_put(1, (jdouble)la[1]); // fall through
    case 1: a->double_at_put(0, (jdouble)la[0]); break;
  }
  return ret;
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_PrefetchRead(JNIEnv* env, jclass ignored, jobject obj, jlong offset))
  UnsafeWrapper("Unsafe_PrefetchRead");
  oop p = JNIHandles::resolve(obj);
  void* addr = index_oop_from_field_offset_long(p, 0);
  Prefetch::read(addr, (intx)offset);
UNSAFE_END

UNSAFE_ENTRY(void, Unsafe_PrefetchWrite(JNIEnv* env, jclass ignored, jobject obj, jlong offset))
  UnsafeWrapper("Unsafe_PrefetchWrite");
  oop p = JNIHandles::resolve(obj);
  void* addr = index_oop_from_field_offset_long(p, 0);
  Prefetch::write(addr, (intx)offset);
UNSAFE_END


/// JVM_RegisterUnsafeMethods

#define ADR "J"

#define LANG "Ljava/lang/"

#define OBJ LANG"Object;"
#define CLS LANG"Class;"
#define CTR LANG"reflect/Constructor;"
#define FLD LANG"reflect/Field;"
#define MTH LANG"reflect/Method;"
#define THR LANG"Throwable;"

#define DC0_Args LANG"String;[BII"
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#define DC_Args  DC0_Args LANG"ClassLoader;" "Ljava/security/ProtectionDomain;"
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#define CC (char*)  /*cast a literal from (const char*)*/
#define FN_PTR(f) CAST_FROM_FN_PTR(void*, &f)

// define deprecated accessors for compabitility with 1.4.0
#define DECLARE_GETSETOOP_140(Boolean, Z) \
    {CC"get"#Boolean,      CC"("OBJ"I)"#Z,      FN_PTR(Unsafe_Get##Boolean##140)}, \
    {CC"put"#Boolean,      CC"("OBJ"I"#Z")V",   FN_PTR(Unsafe_Set##Boolean##140)}

// Note:  In 1.4.1, getObject and kin take both int and long offsets.
#define DECLARE_GETSETOOP_141(Boolean, Z) \
    {CC"get"#Boolean,      CC"("OBJ"J)"#Z,      FN_PTR(Unsafe_Get##Boolean)}, \
    {CC"put"#Boolean,      CC"("OBJ"J"#Z")V",   FN_PTR(Unsafe_Set##Boolean)}

// Note:  In 1.5.0, there are volatile versions too
#define DECLARE_GETSETOOP(Boolean, Z) \
    {CC"get"#Boolean,      CC"("OBJ"J)"#Z,      FN_PTR(Unsafe_Get##Boolean)}, \
    {CC"put"#Boolean,      CC"("OBJ"J"#Z")V",   FN_PTR(Unsafe_Set##Boolean)}, \
    {CC"get"#Boolean"Volatile",      CC"("OBJ"J)"#Z,      FN_PTR(Unsafe_Get##Boolean##Volatile)}, \
    {CC"put"#Boolean"Volatile",      CC"("OBJ"J"#Z")V",   FN_PTR(Unsafe_Set##Boolean##Volatile)}


#define DECLARE_GETSETNATIVE(Byte, B) \
    {CC"get"#Byte,         CC"("ADR")"#B,       FN_PTR(Unsafe_GetNative##Byte)}, \
    {CC"put"#Byte,         CC"("ADR#B")V",      FN_PTR(Unsafe_SetNative##Byte)}



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// These are the methods for 1.4.0
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static JNINativeMethod methods_140[] = {
    {CC"getObject",        CC"("OBJ"I)"OBJ"",   FN_PTR(Unsafe_GetObject140)},
    {CC"putObject",        CC"("OBJ"I"OBJ")V",  FN_PTR(Unsafe_SetObject140)},

    DECLARE_GETSETOOP_140(Boolean, Z),
    DECLARE_GETSETOOP_140(Byte, B),
    DECLARE_GETSETOOP_140(Short, S),
    DECLARE_GETSETOOP_140(Char, C),
    DECLARE_GETSETOOP_140(Int, I),
    DECLARE_GETSETOOP_140(Long, J),
    DECLARE_GETSETOOP_140(Float, F),
    DECLARE_GETSETOOP_140(Double, D),

    DECLARE_GETSETNATIVE(Byte, B),
    DECLARE_GETSETNATIVE(Short, S),
    DECLARE_GETSETNATIVE(Char, C),
    DECLARE_GETSETNATIVE(Int, I),
    DECLARE_GETSETNATIVE(Long, J),
    DECLARE_GETSETNATIVE(Float, F),
    DECLARE_GETSETNATIVE(Double, D),

    {CC"getAddress",         CC"("ADR")"ADR,             FN_PTR(Unsafe_GetNativeAddress)},
    {CC"putAddress",         CC"("ADR""ADR")V",          FN_PTR(Unsafe_SetNativeAddress)},

    {CC"allocateMemory",     CC"(J)"ADR,                 FN_PTR(Unsafe_AllocateMemory)},
    {CC"reallocateMemory",   CC"("ADR"J)"ADR,            FN_PTR(Unsafe_ReallocateMemory)},
    {CC"freeMemory",         CC"("ADR")V",               FN_PTR(Unsafe_FreeMemory)},

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    {CC"fieldOffset",        CC"("FLD")I",               FN_PTR(Unsafe_FieldOffset)},
    {CC"staticFieldBase",    CC"("CLS")"OBJ,             FN_PTR(Unsafe_StaticFieldBaseFromClass)},
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    {CC"ensureClassInitialized",CC"("CLS")V",            FN_PTR(Unsafe_EnsureClassInitialized)},
    {CC"arrayBaseOffset",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayBaseOffset)},
    {CC"arrayIndexScale",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayIndexScale)},
    {CC"addressSize",        CC"()I",                    FN_PTR(Unsafe_AddressSize)},
    {CC"pageSize",           CC"()I",                    FN_PTR(Unsafe_PageSize)},

    {CC"defineClass",        CC"("DC0_Args")"CLS,        FN_PTR(Unsafe_DefineClass0)},
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    {CC"defineClass",        CC"("DC_Args")"CLS,         FN_PTR(Unsafe_DefineClass)},
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    {CC"allocateInstance",   CC"("CLS")"OBJ,             FN_PTR(Unsafe_AllocateInstance)},
    {CC"monitorEnter",       CC"("OBJ")V",               FN_PTR(Unsafe_MonitorEnter)},
    {CC"monitorExit",        CC"("OBJ")V",               FN_PTR(Unsafe_MonitorExit)},
    {CC"throwException",     CC"("THR")V",               FN_PTR(Unsafe_ThrowException)}
};

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// These are the methods prior to the JSR 166 changes in 1.5.0
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static JNINativeMethod methods_141[] = {
    {CC"getObject",        CC"("OBJ"J)"OBJ"",   FN_PTR(Unsafe_GetObject)},
    {CC"putObject",        CC"("OBJ"J"OBJ")V",  FN_PTR(Unsafe_SetObject)},

    DECLARE_GETSETOOP_141(Boolean, Z),
    DECLARE_GETSETOOP_141(Byte, B),
    DECLARE_GETSETOOP_141(Short, S),
    DECLARE_GETSETOOP_141(Char, C),
    DECLARE_GETSETOOP_141(Int, I),
    DECLARE_GETSETOOP_141(Long, J),
    DECLARE_GETSETOOP_141(Float, F),
    DECLARE_GETSETOOP_141(Double, D),

    DECLARE_GETSETNATIVE(Byte, B),
    DECLARE_GETSETNATIVE(Short, S),
    DECLARE_GETSETNATIVE(Char, C),
    DECLARE_GETSETNATIVE(Int, I),
    DECLARE_GETSETNATIVE(Long, J),
    DECLARE_GETSETNATIVE(Float, F),
    DECLARE_GETSETNATIVE(Double, D),

    {CC"getAddress",         CC"("ADR")"ADR,             FN_PTR(Unsafe_GetNativeAddress)},
    {CC"putAddress",         CC"("ADR""ADR")V",          FN_PTR(Unsafe_SetNativeAddress)},

    {CC"allocateMemory",     CC"(J)"ADR,                 FN_PTR(Unsafe_AllocateMemory)},
    {CC"reallocateMemory",   CC"("ADR"J)"ADR,            FN_PTR(Unsafe_ReallocateMemory)},
    {CC"freeMemory",         CC"("ADR")V",               FN_PTR(Unsafe_FreeMemory)},

    {CC"objectFieldOffset",  CC"("FLD")J",               FN_PTR(Unsafe_ObjectFieldOffset)},
    {CC"staticFieldOffset",  CC"("FLD")J",               FN_PTR(Unsafe_StaticFieldOffset)},
    {CC"staticFieldBase",    CC"("FLD")"OBJ,             FN_PTR(Unsafe_StaticFieldBaseFromField)},
    {CC"ensureClassInitialized",CC"("CLS")V",            FN_PTR(Unsafe_EnsureClassInitialized)},
    {CC"arrayBaseOffset",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayBaseOffset)},
    {CC"arrayIndexScale",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayIndexScale)},
    {CC"addressSize",        CC"()I",                    FN_PTR(Unsafe_AddressSize)},
    {CC"pageSize",           CC"()I",                    FN_PTR(Unsafe_PageSize)},

    {CC"defineClass",        CC"("DC0_Args")"CLS,        FN_PTR(Unsafe_DefineClass0)},
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    {CC"defineClass",        CC"("DC_Args")"CLS,         FN_PTR(Unsafe_DefineClass)},
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    {CC"allocateInstance",   CC"("CLS")"OBJ,             FN_PTR(Unsafe_AllocateInstance)},
    {CC"monitorEnter",       CC"("OBJ")V",               FN_PTR(Unsafe_MonitorEnter)},
    {CC"monitorExit",        CC"("OBJ")V",               FN_PTR(Unsafe_MonitorExit)},
    {CC"throwException",     CC"("THR")V",               FN_PTR(Unsafe_ThrowException)}

};

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// These are the methods prior to the JSR 166 changes in 1.6.0
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static JNINativeMethod methods_15[] = {
    {CC"getObject",        CC"("OBJ"J)"OBJ"",   FN_PTR(Unsafe_GetObject)},
    {CC"putObject",        CC"("OBJ"J"OBJ")V",  FN_PTR(Unsafe_SetObject)},
    {CC"getObjectVolatile",CC"("OBJ"J)"OBJ"",   FN_PTR(Unsafe_GetObjectVolatile)},
    {CC"putObjectVolatile",CC"("OBJ"J"OBJ")V",  FN_PTR(Unsafe_SetObjectVolatile)},


    DECLARE_GETSETOOP(Boolean, Z),
    DECLARE_GETSETOOP(Byte, B),
    DECLARE_GETSETOOP(Short, S),
    DECLARE_GETSETOOP(Char, C),
    DECLARE_GETSETOOP(Int, I),
    DECLARE_GETSETOOP(Long, J),
    DECLARE_GETSETOOP(Float, F),
    DECLARE_GETSETOOP(Double, D),

    DECLARE_GETSETNATIVE(Byte, B),
    DECLARE_GETSETNATIVE(Short, S),
    DECLARE_GETSETNATIVE(Char, C),
    DECLARE_GETSETNATIVE(Int, I),
    DECLARE_GETSETNATIVE(Long, J),
    DECLARE_GETSETNATIVE(Float, F),
    DECLARE_GETSETNATIVE(Double, D),

    {CC"getAddress",         CC"("ADR")"ADR,             FN_PTR(Unsafe_GetNativeAddress)},
    {CC"putAddress",         CC"("ADR""ADR")V",          FN_PTR(Unsafe_SetNativeAddress)},

    {CC"allocateMemory",     CC"(J)"ADR,                 FN_PTR(Unsafe_AllocateMemory)},
    {CC"reallocateMemory",   CC"("ADR"J)"ADR,            FN_PTR(Unsafe_ReallocateMemory)},
    {CC"freeMemory",         CC"("ADR")V",               FN_PTR(Unsafe_FreeMemory)},

    {CC"objectFieldOffset",  CC"("FLD")J",               FN_PTR(Unsafe_ObjectFieldOffset)},
    {CC"staticFieldOffset",  CC"("FLD")J",               FN_PTR(Unsafe_StaticFieldOffset)},
    {CC"staticFieldBase",    CC"("FLD")"OBJ,             FN_PTR(Unsafe_StaticFieldBaseFromField)},
    {CC"ensureClassInitialized",CC"("CLS")V",            FN_PTR(Unsafe_EnsureClassInitialized)},
    {CC"arrayBaseOffset",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayBaseOffset)},
    {CC"arrayIndexScale",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayIndexScale)},
    {CC"addressSize",        CC"()I",                    FN_PTR(Unsafe_AddressSize)},
    {CC"pageSize",           CC"()I",                    FN_PTR(Unsafe_PageSize)},

    {CC"defineClass",        CC"("DC0_Args")"CLS,        FN_PTR(Unsafe_DefineClass0)},
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    {CC"defineClass",        CC"("DC_Args")"CLS,         FN_PTR(Unsafe_DefineClass)},
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    {CC"allocateInstance",   CC"("CLS")"OBJ,             FN_PTR(Unsafe_AllocateInstance)},
    {CC"monitorEnter",       CC"("OBJ")V",               FN_PTR(Unsafe_MonitorEnter)},
    {CC"monitorExit",        CC"("OBJ")V",               FN_PTR(Unsafe_MonitorExit)},
    {CC"throwException",     CC"("THR")V",               FN_PTR(Unsafe_ThrowException)},
    {CC"compareAndSwapObject", CC"("OBJ"J"OBJ""OBJ")Z",  FN_PTR(Unsafe_CompareAndSwapObject)},
    {CC"compareAndSwapInt",  CC"("OBJ"J""I""I"")Z",      FN_PTR(Unsafe_CompareAndSwapInt)},
    {CC"compareAndSwapLong", CC"("OBJ"J""J""J"")Z",      FN_PTR(Unsafe_CompareAndSwapLong)},
    {CC"park",               CC"(ZJ)V",                  FN_PTR(Unsafe_Park)},
    {CC"unpark",             CC"("OBJ")V",               FN_PTR(Unsafe_Unpark)}

};

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// These are the methods for 1.6.0 and 1.7.0
static JNINativeMethod methods_16[] = {
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    {CC"getObject",        CC"("OBJ"J)"OBJ"",   FN_PTR(Unsafe_GetObject)},
    {CC"putObject",        CC"("OBJ"J"OBJ")V",  FN_PTR(Unsafe_SetObject)},
    {CC"getObjectVolatile",CC"("OBJ"J)"OBJ"",   FN_PTR(Unsafe_GetObjectVolatile)},
    {CC"putObjectVolatile",CC"("OBJ"J"OBJ")V",  FN_PTR(Unsafe_SetObjectVolatile)},

    DECLARE_GETSETOOP(Boolean, Z),
    DECLARE_GETSETOOP(Byte, B),
    DECLARE_GETSETOOP(Short, S),
    DECLARE_GETSETOOP(Char, C),
    DECLARE_GETSETOOP(Int, I),
    DECLARE_GETSETOOP(Long, J),
    DECLARE_GETSETOOP(Float, F),
    DECLARE_GETSETOOP(Double, D),

    DECLARE_GETSETNATIVE(Byte, B),
    DECLARE_GETSETNATIVE(Short, S),
    DECLARE_GETSETNATIVE(Char, C),
    DECLARE_GETSETNATIVE(Int, I),
    DECLARE_GETSETNATIVE(Long, J),
    DECLARE_GETSETNATIVE(Float, F),
    DECLARE_GETSETNATIVE(Double, D),

    {CC"getAddress",         CC"("ADR")"ADR,             FN_PTR(Unsafe_GetNativeAddress)},
    {CC"putAddress",         CC"("ADR""ADR")V",          FN_PTR(Unsafe_SetNativeAddress)},

    {CC"allocateMemory",     CC"(J)"ADR,                 FN_PTR(Unsafe_AllocateMemory)},
    {CC"reallocateMemory",   CC"("ADR"J)"ADR,            FN_PTR(Unsafe_ReallocateMemory)},
    {CC"freeMemory",         CC"("ADR")V",               FN_PTR(Unsafe_FreeMemory)},

    {CC"objectFieldOffset",  CC"("FLD")J",               FN_PTR(Unsafe_ObjectFieldOffset)},
    {CC"staticFieldOffset",  CC"("FLD")J",               FN_PTR(Unsafe_StaticFieldOffset)},
    {CC"staticFieldBase",    CC"("FLD")"OBJ,             FN_PTR(Unsafe_StaticFieldBaseFromField)},
    {CC"ensureClassInitialized",CC"("CLS")V",            FN_PTR(Unsafe_EnsureClassInitialized)},
    {CC"arrayBaseOffset",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayBaseOffset)},
    {CC"arrayIndexScale",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayIndexScale)},
    {CC"addressSize",        CC"()I",                    FN_PTR(Unsafe_AddressSize)},
    {CC"pageSize",           CC"()I",                    FN_PTR(Unsafe_PageSize)},

    {CC"defineClass",        CC"("DC0_Args")"CLS,        FN_PTR(Unsafe_DefineClass0)},
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    {CC"defineClass",        CC"("DC_Args")"CLS,         FN_PTR(Unsafe_DefineClass)},
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    {CC"allocateInstance",   CC"("CLS")"OBJ,             FN_PTR(Unsafe_AllocateInstance)},
    {CC"monitorEnter",       CC"("OBJ")V",               FN_PTR(Unsafe_MonitorEnter)},
    {CC"monitorExit",        CC"("OBJ")V",               FN_PTR(Unsafe_MonitorExit)},
    {CC"tryMonitorEnter",    CC"("OBJ")Z",               FN_PTR(Unsafe_TryMonitorEnter)},
    {CC"throwException",     CC"("THR")V",               FN_PTR(Unsafe_ThrowException)},
    {CC"compareAndSwapObject", CC"("OBJ"J"OBJ""OBJ")Z",  FN_PTR(Unsafe_CompareAndSwapObject)},
    {CC"compareAndSwapInt",  CC"("OBJ"J""I""I"")Z",      FN_PTR(Unsafe_CompareAndSwapInt)},
    {CC"compareAndSwapLong", CC"("OBJ"J""J""J"")Z",      FN_PTR(Unsafe_CompareAndSwapLong)},
    {CC"putOrderedObject",   CC"("OBJ"J"OBJ")V",         FN_PTR(Unsafe_SetOrderedObject)},
    {CC"putOrderedInt",      CC"("OBJ"JI)V",             FN_PTR(Unsafe_SetOrderedInt)},
    {CC"putOrderedLong",     CC"("OBJ"JJ)V",             FN_PTR(Unsafe_SetOrderedLong)},
    {CC"park",               CC"(ZJ)V",                  FN_PTR(Unsafe_Park)},
    {CC"unpark",             CC"("OBJ")V",               FN_PTR(Unsafe_Unpark)}
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};
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// These are the methods for 1.8.0
static JNINativeMethod methods_18[] = {
    {CC"getObject",        CC"("OBJ"J)"OBJ"",   FN_PTR(Unsafe_GetObject)},
    {CC"putObject",        CC"("OBJ"J"OBJ")V",  FN_PTR(Unsafe_SetObject)},
    {CC"getObjectVolatile",CC"("OBJ"J)"OBJ"",   FN_PTR(Unsafe_GetObjectVolatile)},
    {CC"putObjectVolatile",CC"("OBJ"J"OBJ")V",  FN_PTR(Unsafe_SetObjectVolatile)},
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    DECLARE_GETSETOOP(Boolean, Z),
    DECLARE_GETSETOOP(Byte, B),
    DECLARE_GETSETOOP(Short, S),
    DECLARE_GETSETOOP(Char, C),
    DECLARE_GETSETOOP(Int, I),
    DECLARE_GETSETOOP(Long, J),
    DECLARE_GETSETOOP(Float, F),
    DECLARE_GETSETOOP(Double, D),

    DECLARE_GETSETNATIVE(Byte, B),
    DECLARE_GETSETNATIVE(Short, S),
    DECLARE_GETSETNATIVE(Char, C),
    DECLARE_GETSETNATIVE(Int, I),
    DECLARE_GETSETNATIVE(Long, J),
    DECLARE_GETSETNATIVE(Float, F),
    DECLARE_GETSETNATIVE(Double, D),

    {CC"getAddress",         CC"("ADR")"ADR,             FN_PTR(Unsafe_GetNativeAddress)},
    {CC"putAddress",         CC"("ADR""ADR")V",          FN_PTR(Unsafe_SetNativeAddress)},

    {CC"allocateMemory",     CC"(J)"ADR,                 FN_PTR(Unsafe_AllocateMemory)},
    {CC"reallocateMemory",   CC"("ADR"J)"ADR,            FN_PTR(Unsafe_ReallocateMemory)},
    {CC"freeMemory",         CC"("ADR")V",               FN_PTR(Unsafe_FreeMemory)},

    {CC"objectFieldOffset",  CC"("FLD")J",               FN_PTR(Unsafe_ObjectFieldOffset)},
    {CC"staticFieldOffset",  CC"("FLD")J",               FN_PTR(Unsafe_StaticFieldOffset)},
    {CC"staticFieldBase",    CC"("FLD")"OBJ,             FN_PTR(Unsafe_StaticFieldBaseFromField)},
    {CC"ensureClassInitialized",CC"("CLS")V",            FN_PTR(Unsafe_EnsureClassInitialized)},
    {CC"arrayBaseOffset",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayBaseOffset)},
    {CC"arrayIndexScale",    CC"("CLS")I",               FN_PTR(Unsafe_ArrayIndexScale)},
    {CC"addressSize",        CC"()I",                    FN_PTR(Unsafe_AddressSize)},
    {CC"pageSize",           CC"()I",                    FN_PTR(Unsafe_PageSize)},
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    {CC"defineClass",        CC"("DC_Args")"CLS,         FN_PTR(Unsafe_DefineClass)},
    {CC"allocateInstance",   CC"("CLS")"OBJ,             FN_PTR(Unsafe_AllocateInstance)},
    {CC"monitorEnter",       CC"("OBJ")V",               FN_PTR(Unsafe_MonitorEnter)},
    {CC"monitorExit",        CC"("OBJ")V",               FN_PTR(Unsafe_MonitorExit)},
    {CC"tryMonitorEnter",    CC"("OBJ")Z",               FN_PTR(Unsafe_TryMonitorEnter)},
    {CC"throwException",     CC"("THR")V",               FN_PTR(Unsafe_ThrowException)},
    {CC"compareAndSwapObject", CC"("OBJ"J"OBJ""OBJ")Z",  FN_PTR(Unsafe_CompareAndSwapObject)},
    {CC"compareAndSwapInt",  CC"("OBJ"J""I""I"")Z",      FN_PTR(Unsafe_CompareAndSwapInt)},
    {CC"compareAndSwapLong", CC"("OBJ"J""J""J"")Z",      FN_PTR(Unsafe_CompareAndSwapLong)},
    {CC"putOrderedObject",   CC"("OBJ"J"OBJ")V",         FN_PTR(Unsafe_SetOrderedObject)},
    {CC"putOrderedInt",      CC"("OBJ"JI)V",             FN_PTR(Unsafe_SetOrderedInt)},
    {CC"putOrderedLong",     CC"("OBJ"JJ)V",             FN_PTR(Unsafe_SetOrderedLong)},
    {CC"park",               CC"(ZJ)V",                  FN_PTR(Unsafe_Park)},
    {CC"unpark",             CC"("OBJ")V",               FN_PTR(Unsafe_Unpark)}
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};

JNINativeMethod loadavg_method[] = {
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    {CC"getLoadAverage",     CC"([DI)I",                 FN_PTR(Unsafe_Loadavg)}
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};

JNINativeMethod prefetch_methods[] = {
    {CC"prefetchRead",       CC"("OBJ"J)V",              FN_PTR(Unsafe_PrefetchRead)},
    {CC"prefetchWrite",      CC"("OBJ"J)V",              FN_PTR(Unsafe_PrefetchWrite)},
    {CC"prefetchReadStatic", CC"("OBJ"J)V",              FN_PTR(Unsafe_PrefetchRead)},
    {CC"prefetchWriteStatic",CC"("OBJ"J)V",              FN_PTR(Unsafe_PrefetchWrite)}
};

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JNINativeMethod memcopy_methods_17[] = {
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    {CC"copyMemory",         CC"("OBJ"J"OBJ"JJ)V",       FN_PTR(Unsafe_CopyMemory2)},
    {CC"setMemory",          CC"("OBJ"JJB)V",            FN_PTR(Unsafe_SetMemory2)}
};

JNINativeMethod memcopy_methods_15[] = {
    {CC"setMemory",          CC"("ADR"JB)V",             FN_PTR(Unsafe_SetMemory)},
    {CC"copyMemory",         CC"("ADR ADR"J)V",          FN_PTR(Unsafe_CopyMemory)}
};

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JNINativeMethod anonk_methods[] = {
    {CC"defineAnonymousClass", CC"("DAC_Args")"CLS,      FN_PTR(Unsafe_DefineAnonymousClass)},
};
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JNINativeMethod lform_methods[] = {
    {CC"shouldBeInitialized",CC"("CLS")Z",               FN_PTR(Unsafe_ShouldBeInitialized)},
};

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JNINativeMethod fence_methods[] = {
    {CC"loadFence",          CC"()V",                    FN_PTR(Unsafe_LoadFence)},
    {CC"storeFence",         CC"()V",                    FN_PTR(Unsafe_StoreFence)},
    {CC"fullFence",          CC"()V",                    FN_PTR(Unsafe_FullFence)},
};

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#undef CC
#undef FN_PTR

#undef ADR
#undef LANG
#undef OBJ
#undef CLS
#undef CTR
#undef FLD
#undef MTH
#undef THR
#undef DC0_Args
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#undef DC_Args
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#undef DECLARE_GETSETOOP
#undef DECLARE_GETSETNATIVE


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/**
 * Helper method to register native methods.
 */
static bool register_natives(const char* message, JNIEnv* env, jclass clazz, const JNINativeMethod* methods, jint nMethods) {
  int status = env->RegisterNatives(clazz, methods, nMethods);
  if (status < 0 || env->ExceptionOccurred()) {
    if (PrintMiscellaneous && (Verbose || WizardMode)) {
      tty->print_cr("Unsafe:  failed registering %s", message);
    }
    env->ExceptionClear();
    return false;
  } else {
    if (PrintMiscellaneous && (Verbose || WizardMode)) {
      tty->print_cr("Unsafe:  successfully registered %s", message);
    }
    return true;
  }
}


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// This one function is exported, used by NativeLookup.
// The Unsafe_xxx functions above are called only from the interpreter.
// The optimizer looks at names and signatures to recognize
// individual functions.

JVM_ENTRY(void, JVM_RegisterUnsafeMethods(JNIEnv *env, jclass unsafecls))
  UnsafeWrapper("JVM_RegisterUnsafeMethods");
  {
    ThreadToNativeFromVM ttnfv(thread);
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    // Unsafe methods
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    {
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      bool success = false;
      // We need to register the 1.6 methods first because the 1.8 methods would register fine on 1.7 and 1.6
      if (!success) {
        success = register_natives("1.6 methods",   env, unsafecls, methods_16,  sizeof(methods_16)/sizeof(JNINativeMethod));
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      }
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      if (!success) {
        success = register_natives("1.8 methods",   env, unsafecls, methods_18,  sizeof(methods_18)/sizeof(JNINativeMethod));
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      }
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      if (!success) {
        success = register_natives("1.5 methods",   env, unsafecls, methods_15,  sizeof(methods_15)/sizeof(JNINativeMethod));
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      }
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      if (!success) {
        success = register_natives("1.4.1 methods", env, unsafecls, methods_141, sizeof(methods_141)/sizeof(JNINativeMethod));
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      }
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      if (!success) {
        success = register_natives("1.4.0 methods", env, unsafecls, methods_140, sizeof(methods_140)/sizeof(JNINativeMethod));
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      }
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      guarantee(success, "register unsafe natives");
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    }
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    // Unsafe.getLoadAverage
    register_natives("1.6 loadavg method", env, unsafecls, loadavg_method, sizeof(loadavg_method)/sizeof(JNINativeMethod));

    // Prefetch methods
    register_natives("1.6 prefetch methods", env, unsafecls, prefetch_methods, sizeof(prefetch_methods)/sizeof(JNINativeMethod));

    // Memory copy methods
    {
      bool success = false;
      if (!success) {
        success = register_natives("1.7 memory copy methods", env, unsafecls, memcopy_methods_17, sizeof(memcopy_methods_17)/sizeof(JNINativeMethod));
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      }
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      if (!success) {
        success = register_natives("1.5 memory copy methods", env, unsafecls, memcopy_methods_15, sizeof(memcopy_methods_15)/sizeof(JNINativeMethod));
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      }
    }
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    // Unsafe.defineAnonymousClass
    if (EnableInvokeDynamic) {
      register_natives("1.7 define anonymous class method", env, unsafecls, anonk_methods, sizeof(anonk_methods)/sizeof(JNINativeMethod));
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    }
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    // Unsafe.shouldBeInitialized
    if (EnableInvokeDynamic) {
      register_natives("1.7 LambdaForm support", env, unsafecls, lform_methods, sizeof(lform_methods)/sizeof(JNINativeMethod));
    }

    // Fence methods
    register_natives("1.8 fence methods", env, unsafecls, fence_methods, sizeof(fence_methods)/sizeof(JNINativeMethod));
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  }
JVM_END