rewriter.cpp 20.7 KB
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/*
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 * Copyright (c) 1998, 2013, 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 "interpreter/bytecodes.hpp"
#include "interpreter/interpreter.hpp"
#include "interpreter/rewriter.hpp"
#include "memory/gcLocker.hpp"
#include "memory/resourceArea.hpp"
#include "oops/generateOopMap.hpp"
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#include "prims/methodHandles.hpp"
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// Computes a CPC map (new_index -> original_index) for constant pool entries
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// that are referred to by the interpreter at runtime via the constant pool cache.
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// Also computes a CP map (original_index -> new_index).
// Marks entries in CP which require additional processing.
void Rewriter::compute_index_maps() {
  const int length  = _pool->length();
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  init_maps(length);
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  bool saw_mh_symbol = false;
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  for (int i = 0; i < length; i++) {
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    int tag = _pool->tag_at(i).value();
    switch (tag) {
      case JVM_CONSTANT_InterfaceMethodref:
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      case JVM_CONSTANT_Fieldref          : // fall through
      case JVM_CONSTANT_Methodref         : // fall through
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        add_cp_cache_entry(i);
        break;
      case JVM_CONSTANT_String:
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      case JVM_CONSTANT_MethodHandle      : // fall through
      case JVM_CONSTANT_MethodType        : // fall through
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        add_resolved_references_entry(i);
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        break;
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      case JVM_CONSTANT_Utf8:
        if (_pool->symbol_at(i) == vmSymbols::java_lang_invoke_MethodHandle())
          saw_mh_symbol = true;
        break;
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    }
  }
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  // Record limits of resolved reference map for constant pool cache indices
  record_map_limits();

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  guarantee((int)_cp_cache_map.length()-1 <= (int)((u2)-1),
            "all cp cache indexes fit in a u2");
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  if (saw_mh_symbol)
    _method_handle_invokers.initialize(length, (int)0);
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}

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// Unrewrite the bytecodes if an error occurs.
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void Rewriter::restore_bytecodes() {
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  int len = _methods->length();
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  bool invokespecial_error = false;
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  for (int i = len-1; i >= 0; i--) {
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    Method* method = _methods->at(i);
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    scan_method(method, true, &invokespecial_error);
    assert(!invokespecial_error, "reversing should not get an invokespecial error");
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  }
}
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// Creates a constant pool cache given a CPC map
void Rewriter::make_constant_pool_cache(TRAPS) {
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  ClassLoaderData* loader_data = _pool->pool_holder()->class_loader_data();
  ConstantPoolCache* cache =
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      ConstantPoolCache::allocate(loader_data, _cp_cache_map,
                                  _invokedynamic_cp_cache_map,
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                                  _invokedynamic_references_map, CHECK);
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  // initialize object cache in constant pool
  _pool->initialize_resolved_references(loader_data, _resolved_references_map,
                                        _resolved_reference_limit,
                                        CHECK);
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  _pool->set_cache(cache);
  cache->set_constant_pool(_pool());
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}



// The new finalization semantics says that registration of
// finalizable objects must be performed on successful return from the
// Object.<init> constructor.  We could implement this trivially if
// <init> were never rewritten but since JVMTI allows this to occur, a
// more complicated solution is required.  A special return bytecode
// is used only by Object.<init> to signal the finalization
// registration point.  Additionally local 0 must be preserved so it's
// available to pass to the registration function.  For simplicty we
// require that local 0 is never overwritten so it's available as an
// argument for registration.

void Rewriter::rewrite_Object_init(methodHandle method, TRAPS) {
  RawBytecodeStream bcs(method);
  while (!bcs.is_last_bytecode()) {
    Bytecodes::Code opcode = bcs.raw_next();
    switch (opcode) {
      case Bytecodes::_return: *bcs.bcp() = Bytecodes::_return_register_finalizer; break;

      case Bytecodes::_istore:
      case Bytecodes::_lstore:
      case Bytecodes::_fstore:
      case Bytecodes::_dstore:
      case Bytecodes::_astore:
        if (bcs.get_index() != 0) continue;

        // fall through
      case Bytecodes::_istore_0:
      case Bytecodes::_lstore_0:
      case Bytecodes::_fstore_0:
      case Bytecodes::_dstore_0:
      case Bytecodes::_astore_0:
        THROW_MSG(vmSymbols::java_lang_IncompatibleClassChangeError(),
                  "can't overwrite local 0 in Object.<init>");
        break;
    }
  }
}


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// Rewrite a classfile-order CP index into a native-order CPC index.
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void Rewriter::rewrite_member_reference(address bcp, int offset, bool reverse) {
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  address p = bcp + offset;
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  if (!reverse) {
    int  cp_index    = Bytes::get_Java_u2(p);
    int  cache_index = cp_entry_to_cp_cache(cp_index);
    Bytes::put_native_u2(p, cache_index);
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    if (!_method_handle_invokers.is_empty())
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      maybe_rewrite_invokehandle(p - 1, cp_index, cache_index, reverse);
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  } else {
    int cache_index = Bytes::get_native_u2(p);
    int pool_index = cp_cache_entry_pool_index(cache_index);
    Bytes::put_Java_u2(p, pool_index);
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    if (!_method_handle_invokers.is_empty())
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      maybe_rewrite_invokehandle(p - 1, pool_index, cache_index, reverse);
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  }
}

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// If the constant pool entry for invokespecial is InterfaceMethodref,
// we need to add a separate cpCache entry for its resolution, because it is
// different than the resolution for invokeinterface with InterfaceMethodref.
// These cannot share cpCache entries.  It's unclear if all invokespecial to
// InterfaceMethodrefs would resolve to the same thing so a new cpCache entry
// is created for each one.  This was added with lambda.
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void Rewriter::rewrite_invokespecial(address bcp, int offset, bool reverse, bool* invokespecial_error) {
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  address p = bcp + offset;
  if (!reverse) {
    int cp_index = Bytes::get_Java_u2(p);
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    if (_pool->tag_at(cp_index).is_interface_method()) {
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    int cache_index = add_invokespecial_cp_cache_entry(cp_index);
    if (cache_index != (int)(jushort) cache_index) {
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      *invokespecial_error = true;
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    }
    Bytes::put_native_u2(p, cache_index);
  } else {
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      rewrite_member_reference(bcp, offset, reverse);
    }
  } else {
    rewrite_member_reference(bcp, offset, reverse);
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  }
}

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// Adjust the invocation bytecode for a signature-polymorphic method (MethodHandle.invoke, etc.)
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void Rewriter::maybe_rewrite_invokehandle(address opc, int cp_index, int cache_index, bool reverse) {
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  if (!reverse) {
    if ((*opc) == (u1)Bytecodes::_invokevirtual ||
        // allow invokespecial as an alias, although it would be very odd:
        (*opc) == (u1)Bytecodes::_invokespecial) {
      assert(_pool->tag_at(cp_index).is_method(), "wrong index");
      // Determine whether this is a signature-polymorphic method.
      if (cp_index >= _method_handle_invokers.length())  return;
      int status = _method_handle_invokers[cp_index];
      assert(status >= -1 && status <= 1, "oob tri-state");
      if (status == 0) {
        if (_pool->klass_ref_at_noresolve(cp_index) == vmSymbols::java_lang_invoke_MethodHandle() &&
            MethodHandles::is_signature_polymorphic_name(SystemDictionary::MethodHandle_klass(),
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                                                         _pool->name_ref_at(cp_index))) {
          // we may need a resolved_refs entry for the appendix
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          add_invokedynamic_resolved_references_entries(cp_index, cache_index);
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          status = +1;
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        } else {
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          status = -1;
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        }
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        _method_handle_invokers[cp_index] = status;
      }
      // We use a special internal bytecode for such methods (if non-static).
      // The basic reason for this is that such methods need an extra "appendix" argument
      // to transmit the call site's intended call type.
      if (status > 0) {
        (*opc) = (u1)Bytecodes::_invokehandle;
      }
    }
  } else {
    // Do not need to look at cp_index.
    if ((*opc) == (u1)Bytecodes::_invokehandle) {
      (*opc) = (u1)Bytecodes::_invokevirtual;
      // Ignore corner case of original _invokespecial instruction.
      // This is safe because (a) the signature polymorphic method was final, and
      // (b) the implementation of MethodHandle will not call invokespecial on it.
    }
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  }
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}


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void Rewriter::rewrite_invokedynamic(address bcp, int offset, bool reverse) {
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  address p = bcp + offset;
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  assert(p[-1] == Bytecodes::_invokedynamic, "not invokedynamic bytecode");
  if (!reverse) {
    int cp_index = Bytes::get_Java_u2(p);
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    int cache_index = add_invokedynamic_cp_cache_entry(cp_index);
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    int resolved_index = add_invokedynamic_resolved_references_entries(cp_index, cache_index);
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    // Replace the trailing four bytes with a CPC index for the dynamic
    // call site.  Unlike other CPC entries, there is one per bytecode,
    // not just one per distinct CP entry.  In other words, the
    // CPC-to-CP relation is many-to-one for invokedynamic entries.
    // This means we must use a larger index size than u2 to address
    // all these entries.  That is the main reason invokedynamic
    // must have a five-byte instruction format.  (Of course, other JVM
    // implementations can use the bytes for other purposes.)
    // Note: We use native_u4 format exclusively for 4-byte indexes.
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    Bytes::put_native_u4(p, ConstantPool::encode_invokedynamic_index(cache_index));
    // add the bcp in case we need to patch this bytecode if we also find a
    // invokespecial/InterfaceMethodref in the bytecode stream
    _patch_invokedynamic_bcps->push(p);
    _patch_invokedynamic_refs->push(resolved_index);
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  } else {
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    int cache_index = ConstantPool::decode_invokedynamic_index(
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                        Bytes::get_native_u4(p));
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    // We will reverse the bytecode rewriting _after_ adjusting them.
    // Adjust the cache index by offset to the invokedynamic entries in the
    // cpCache plus the delta if the invokedynamic bytecodes were adjusted.
    cache_index = cp_cache_delta() + _first_iteration_cp_cache_limit;
    int cp_index = invokedynamic_cp_cache_entry_pool_index(cache_index);
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    assert(_pool->tag_at(cp_index).is_invoke_dynamic(), "wrong index");
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    // zero out 4 bytes
    Bytes::put_Java_u4(p, 0);
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    Bytes::put_Java_u2(p, cp_index);
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  }
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}

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void Rewriter::patch_invokedynamic_bytecodes() {
  // If the end of the cp_cache is the same as after initializing with the
  // cpool, nothing needs to be done.  Invokedynamic bytecodes are at the
  // correct offsets. ie. no invokespecials added
  int delta = cp_cache_delta();
  if (delta > 0) {
    int length = _patch_invokedynamic_bcps->length();
    assert(length == _patch_invokedynamic_refs->length(),
           "lengths should match");
    for (int i = 0; i < length; i++) {
      address p = _patch_invokedynamic_bcps->at(i);
      int cache_index = ConstantPool::decode_invokedynamic_index(
                          Bytes::get_native_u4(p));
      Bytes::put_native_u4(p, ConstantPool::encode_invokedynamic_index(cache_index + delta));

      // invokedynamic resolved references map also points to cp cache and must
      // add delta to each.
      int resolved_index = _patch_invokedynamic_refs->at(i);
      for (int entry = 0; entry < ConstantPoolCacheEntry::_indy_resolved_references_entries; entry++) {
        assert(_invokedynamic_references_map[resolved_index+entry] == cache_index,
             "should be the same index");
        _invokedynamic_references_map.at_put(resolved_index+entry,
                                             cache_index + delta);
      }
    }
  }
}

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// Rewrite some ldc bytecodes to _fast_aldc
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void Rewriter::maybe_rewrite_ldc(address bcp, int offset, bool is_wide,
                                 bool reverse) {
  if (!reverse) {
    assert((*bcp) == (is_wide ? Bytecodes::_ldc_w : Bytecodes::_ldc), "not ldc bytecode");
    address p = bcp + offset;
    int cp_index = is_wide ? Bytes::get_Java_u2(p) : (u1)(*p);
    constantTag tag = _pool->tag_at(cp_index).value();
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    if (tag.is_method_handle() || tag.is_method_type() || tag.is_string()) {
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      int ref_index = cp_entry_to_resolved_references(cp_index);
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      if (is_wide) {
        (*bcp) = Bytecodes::_fast_aldc_w;
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        assert(ref_index == (u2)ref_index, "index overflow");
        Bytes::put_native_u2(p, ref_index);
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      } else {
        (*bcp) = Bytecodes::_fast_aldc;
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        assert(ref_index == (u1)ref_index, "index overflow");
        (*p) = (u1)ref_index;
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      }
    }
  } else {
    Bytecodes::Code rewritten_bc =
              (is_wide ? Bytecodes::_fast_aldc_w : Bytecodes::_fast_aldc);
    if ((*bcp) == rewritten_bc) {
      address p = bcp + offset;
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      int ref_index = is_wide ? Bytes::get_native_u2(p) : (u1)(*p);
      int pool_index = resolved_references_entry_to_pool_index(ref_index);
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      if (is_wide) {
        (*bcp) = Bytecodes::_ldc_w;
        assert(pool_index == (u2)pool_index, "index overflow");
        Bytes::put_Java_u2(p, pool_index);
      } else {
        (*bcp) = Bytecodes::_ldc;
        assert(pool_index == (u1)pool_index, "index overflow");
        (*p) = (u1)pool_index;
      }
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    }
  }
}


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// Rewrites a method given the index_map information
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void Rewriter::scan_method(Method* method, bool reverse, bool* invokespecial_error) {
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  int nof_jsrs = 0;
  bool has_monitor_bytecodes = false;

  {
    // We cannot tolerate a GC in this block, because we've
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    // cached the bytecodes in 'code_base'. If the Method*
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    // moves, the bytecodes will also move.
    No_Safepoint_Verifier nsv;
    Bytecodes::Code c;

    // Bytecodes and their length
    const address code_base = method->code_base();
    const int code_length = method->code_size();

    int bc_length;
    for (int bci = 0; bci < code_length; bci += bc_length) {
      address bcp = code_base + bci;
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      int prefix_length = 0;
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      c = (Bytecodes::Code)(*bcp);

      // Since we have the code, see if we can get the length
      // directly. Some more complicated bytecodes will report
      // a length of zero, meaning we need to make another method
      // call to calculate the length.
      bc_length = Bytecodes::length_for(c);
      if (bc_length == 0) {
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        bc_length = Bytecodes::length_at(method, bcp);
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        // length_at will put us at the bytecode after the one modified
        // by 'wide'. We don't currently examine any of the bytecodes
        // modified by wide, but in case we do in the future...
        if (c == Bytecodes::_wide) {
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          prefix_length = 1;
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          c = (Bytecodes::Code)bcp[1];
        }
      }

      assert(bc_length != 0, "impossible bytecode length");

      switch (c) {
        case Bytecodes::_lookupswitch   : {
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          Bytecode_lookupswitch bc(method, bcp);
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          (*bcp) = (
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            bc.number_of_pairs() < BinarySwitchThreshold
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            ? Bytecodes::_fast_linearswitch
            : Bytecodes::_fast_binaryswitch
          );
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#endif
          break;
        }
        case Bytecodes::_fast_linearswitch:
        case Bytecodes::_fast_binaryswitch: {
#ifndef CC_INTERP
          (*bcp) = Bytecodes::_lookupswitch;
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#endif
          break;
        }
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        case Bytecodes::_invokespecial  : {
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          rewrite_invokespecial(bcp, prefix_length+1, reverse, invokespecial_error);
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          break;
        }

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        case Bytecodes::_getstatic      : // fall through
        case Bytecodes::_putstatic      : // fall through
        case Bytecodes::_getfield       : // fall through
        case Bytecodes::_putfield       : // fall through
        case Bytecodes::_invokevirtual  : // fall through
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        case Bytecodes::_invokestatic   :
        case Bytecodes::_invokeinterface:
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        case Bytecodes::_invokehandle   : // if reverse=true
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          rewrite_member_reference(bcp, prefix_length+1, reverse);
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          break;
        case Bytecodes::_invokedynamic:
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          rewrite_invokedynamic(bcp, prefix_length+1, reverse);
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          break;
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        case Bytecodes::_ldc:
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        case Bytecodes::_fast_aldc:  // if reverse=true
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          maybe_rewrite_ldc(bcp, prefix_length+1, false, reverse);
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          break;
        case Bytecodes::_ldc_w:
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        case Bytecodes::_fast_aldc_w:  // if reverse=true
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          maybe_rewrite_ldc(bcp, prefix_length+1, true, reverse);
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          break;
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        case Bytecodes::_jsr            : // fall through
        case Bytecodes::_jsr_w          : nof_jsrs++;                   break;
        case Bytecodes::_monitorenter   : // fall through
        case Bytecodes::_monitorexit    : has_monitor_bytecodes = true; break;
      }
    }
  }

  // Update access flags
  if (has_monitor_bytecodes) {
    method->set_has_monitor_bytecodes();
  }

  // The present of a jsr bytecode implies that the method might potentially
  // have to be rewritten, so we run the oopMapGenerator on the method
  if (nof_jsrs > 0) {
    method->set_has_jsrs();
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    // Second pass will revisit this method.
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    assert(method->has_jsrs(), "didn't we just set this?");
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  }
}
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// After constant pool is created, revisit methods containing jsrs.
methodHandle Rewriter::rewrite_jsrs(methodHandle method, TRAPS) {
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  ResourceMark rm(THREAD);
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  ResolveOopMapConflicts romc(method);
  methodHandle original_method = method;
  method = romc.do_potential_rewrite(CHECK_(methodHandle()));
  // Update monitor matching info.
  if (romc.monitor_safe()) {
    method->set_guaranteed_monitor_matching();
  }
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  return method;
}

void Rewriter::rewrite(instanceKlassHandle klass, TRAPS) {
  ResourceMark rm(THREAD);
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  Rewriter     rw(klass, klass->constants(), klass->methods(), CHECK);
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  // (That's all, folks.)
}
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Rewriter::Rewriter(instanceKlassHandle klass, constantPoolHandle cpool, Array<Method*>* methods, TRAPS)
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  : _klass(klass),
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    _pool(cpool),
    _methods(methods)
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{
  assert(_pool->cache() == NULL, "constant pool cache must not be set yet");
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  // determine index maps for Method* rewriting
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  compute_index_maps();
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  if (RegisterFinalizersAtInit && _klass->name() == vmSymbols::java_lang_Object()) {
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    bool did_rewrite = false;
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    int i = _methods->length();
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    while (i-- > 0) {
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      Method* method = _methods->at(i);
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      if (method->intrinsic_id() == vmIntrinsics::_Object_init) {
        // rewrite the return bytecodes of Object.<init> to register the
        // object for finalization if needed.
        methodHandle m(THREAD, method);
        rewrite_Object_init(m, CHECK);
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        did_rewrite = true;
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        break;
      }
    }
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    assert(did_rewrite, "must find Object::<init> to rewrite it");
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  }

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  // rewrite methods, in two passes
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  int len = _methods->length();
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  bool invokespecial_error = false;
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  for (int i = len-1; i >= 0; i--) {
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    Method* method = _methods->at(i);
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    scan_method(method, false, &invokespecial_error);
    if (invokespecial_error) {
      // If you get an error here, there is no reversing bytecodes
      // This exception is stored for this class and no further attempt is
      // made at verifying or rewriting.
      THROW_MSG(vmSymbols::java_lang_InternalError(),
                "This classfile overflows invokespecial for interfaces "
                "and cannot be loaded");
      return;
     }
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  }

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  // May have to fix invokedynamic bytecodes if invokestatic/InterfaceMethodref
  // entries had to be added.
  patch_invokedynamic_bytecodes();

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  // allocate constant pool cache, now that we've seen all the bytecodes
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  make_constant_pool_cache(THREAD);

  // Restore bytecodes to their unrewritten state if there are exceptions
  // rewriting bytecodes or allocating the cpCache
  if (HAS_PENDING_EXCEPTION) {
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    restore_bytecodes();
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    return;
  }

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  // Relocate after everything, but still do this under the is_rewritten flag,
  // so methods with jsrs in custom class lists in aren't attempted to be
  // rewritten in the RO section of the shared archive.
  // Relocated bytecodes don't have to be restored, only the cp cache entries
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  for (int i = len-1; i >= 0; i--) {
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    methodHandle m(THREAD, _methods->at(i));
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    if (m->has_jsrs()) {
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      m = rewrite_jsrs(m, THREAD);
      // Restore bytecodes to their unrewritten state if there are exceptions
      // relocating bytecodes.  If some are relocated, that is ok because that
      // doesn't affect constant pool to cpCache rewriting.
      if (HAS_PENDING_EXCEPTION) {
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        restore_bytecodes();
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        return;
      }
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      // Method might have gotten rewritten.
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      methods->at_put(i, m());
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    }
  }
}