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 /*

  * Copyright (c) 1997, 2010, Oracle and/or its affiliates. All rights reserved.

  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.

  *

  * This code is free software; you can redistribute it and/or modify it

  * under the terms of the GNU General Public License version 2 only, as

  * published by the Free Software Foundation.

  *

  * This code is distributed in the hope that it will be useful, but WITHOUT

  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or

  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License

  * version 2 for more details (a copy is included in the LICENSE file that

  * accompanied this code).

  *

  * You should have received a copy of the GNU General Public License version

  * 2 along with this work; if not, write to the Free Software Foundation,

  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.

  *

  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA

  * or visit www.oracle.com if you need additional information or have any

  * questions.

  *

  */

 #include "precompiled.hpp"

 #include "code/codeBlob.hpp"

 #include "code/stubs.hpp"

 #include "memory/allocation.inline.hpp"

 #include "oops/oop.inline.hpp"

 #include "runtime/mutexLocker.hpp"

 // Implementation of StubQueue

 //

 // Standard wrap-around queue implementation; the queue dimensions

 // are specified by the _queue_begin & _queue_end indices. The queue

 // can be in two states (transparent to the outside):

 //

 // a) contiguous state: all queue entries in one block (or empty)

 //

 // Queue: |...|XXXXXXX|...............|

 //        ^0  ^begin  ^end            ^size = limit

 //            |_______|

 //            one block

 //

 // b) non-contiguous state: queue entries in two blocks

 //

 // Queue: |XXX|.......|XXXXXXX|.......|

 //        ^0  ^end    ^begin  ^limit  ^size

 //        |___|       |_______|

 //         1st block  2nd block

 //

 // In the non-contiguous state, the wrap-around point is

 // indicated via the _buffer_limit index since the last

 // queue entry may not fill up the queue completely in

 // which case we need to know where the 2nd block's end

 // is to do the proper wrap-around. When removing the

 // last entry of the 2nd block, _buffer_limit is reset

 // to _buffer_size.

 //

 // CAUTION: DO NOT MESS WITH THIS CODE IF YOU CANNOT PROVE

 // ITS CORRECTNESS! THIS CODE IS MORE SUBTLE THAN IT LOOKS!

 StubQueue::StubQueue(StubInterface* stub_interface, int buffer_size,

                      Mutex* lock, const char* name) : _mutex(lock) {

   intptr_t size = round_to(buffer_size, 2*BytesPerWord);

   BufferBlob* blob = BufferBlob::create(name, size);

   if( blob == NULL) {

     vm_exit_out_of_memory(size, err_msg("CodeCache: no room for %s", name));

   }

   _stub_interface  = stub_interface;

   _buffer_size     = blob->content_size();

   _buffer_limit    = blob->content_size();

   _stub_buffer     = blob->content_begin();

   _queue_begin     = 0;

   _queue_end       = 0;

   _number_of_stubs = 0;

   register_queue(this);

 }

 StubQueue::~StubQueue() {

   // Note: Currently StubQueues are never destroyed so nothing needs to be done here.

   //       If we want to implement the destructor, we need to release the BufferBlob

   //       allocated in the constructor (i.e., we need to keep it around or look it

   //       up via CodeCache::find_blob(...).

   Unimplemented();

 }

 Stub* StubQueue::stub_containing(address pc) const {

   if (contains(pc)) {

     for (Stub* s = first(); s != NULL; s = next(s)) {

       if (stub_contains(s, pc)) return s;

     }

   }

   return NULL;

 }

 Stub* StubQueue::request_committed(int code_size) {

   Stub* s = request(code_size);

   if (s != NULL) commit(code_size);

   return s;

 }

 Stub* StubQueue::request(int requested_code_size) {

   assert(requested_code_size > 0, "requested_code_size must be > 0");

   if (_mutex != NULL) _mutex->lock();

   Stub* s = current_stub();

   int requested_size = round_to(stub_code_size_to_size(requested_code_size), CodeEntryAlignment);

   if (requested_size <= available_space()) {

     if (is_contiguous()) {

       // Queue: |...|XXXXXXX|.............|

       //        ^0  ^begin  ^end          ^size = limit

       assert(_buffer_limit == _buffer_size, "buffer must be fully usable");

       if (_queue_end + requested_size <= _buffer_size) {

         // code fits in at the end => nothing to do

         stub_initialize(s, requested_size);

         return s;

       } else {

         // stub doesn't fit in at the queue end

         // => reduce buffer limit & wrap around

         assert(!is_empty(), "just checkin'");

         _buffer_limit = _queue_end;

         _queue_end = 0;

       }

     }

   }

   if (requested_size <= available_space()) {

     assert(!is_contiguous(), "just checkin'");

     assert(_buffer_limit <= _buffer_size, "queue invariant broken");

     // Queue: |XXX|.......|XXXXXXX|.......|

     //        ^0  ^end    ^begin  ^limit  ^size

     s = current_stub();

     stub_initialize(s, requested_size);

     return s;

   }

   // Not enough space left

   if (_mutex != NULL) _mutex->unlock();

   return NULL;

 }

 void StubQueue::commit(int committed_code_size) {

   assert(committed_code_size > 0, "committed_code_size must be > 0");

   int committed_size = round_to(stub_code_size_to_size(committed_code_size), CodeEntryAlignment);

   Stub* s = current_stub();

   assert(committed_size <= stub_size(s), "committed size must not exceed requested size");

   stub_initialize(s, committed_size);

   _queue_end += committed_size;

   _number_of_stubs++;

   if (_mutex != NULL) _mutex->unlock();

   debug_only(stub_verify(s);)

 }

 void StubQueue::remove_first() {

   if (number_of_stubs() == 0) return;

   Stub* s = first();

   debug_only(stub_verify(s);)

   stub_finalize(s);

   _queue_begin += stub_size(s);

   assert(_queue_begin <= _buffer_limit, "sanity check");

   if (_queue_begin == _queue_end) {

     // buffer empty

     // => reset queue indices

     _queue_begin  = 0;

     _queue_end    = 0;

     _buffer_limit = _buffer_size;

   } else if (_queue_begin == _buffer_limit) {

     // buffer limit reached

     // => reset buffer limit & wrap around

     _buffer_limit = _buffer_size;

     _queue_begin = 0;

   }

   _number_of_stubs--;

 }

 void StubQueue::remove_first(int n) {

   int i = MIN2(n, number_of_stubs());

   while (i-- > 0) remove_first();

 }

 void StubQueue::remove_all(){

   debug_only(verify();)

   remove_first(number_of_stubs());

   assert(number_of_stubs() == 0, "sanity check");

 }

 enum { StubQueueLimit = 10 };  // there are only a few in the world

 static StubQueue* registered_stub_queues[StubQueueLimit];

 void StubQueue::register_queue(StubQueue* sq) {

   for (int i = 0; i < StubQueueLimit; i++) {

     if (registered_stub_queues[i] == NULL) {

       registered_stub_queues[i] = sq;

       return;

     }

   }

   ShouldNotReachHere();

 }

 void StubQueue::queues_do(void f(StubQueue* sq)) {

   for (int i = 0; i < StubQueueLimit; i++) {

     if (registered_stub_queues[i] != NULL) {

       f(registered_stub_queues[i]);

     }

   }

 }

 void StubQueue::stubs_do(void f(Stub* s)) {

   debug_only(verify();)

   MutexLockerEx lock(_mutex);

   for (Stub* s = first(); s != NULL; s = next(s)) f(s);

 }

 void StubQueue::verify() {

   // verify only if initialized

   if (_stub_buffer == NULL) return;

   MutexLockerEx lock(_mutex);

   // verify index boundaries

   guarantee(0 <= _buffer_size, "buffer size must be positive");

   guarantee(0 <= _buffer_limit && _buffer_limit <= _buffer_size , "_buffer_limit out of bounds");

   guarantee(0 <= _queue_begin  && _queue_begin  <  _buffer_limit, "_queue_begin out of bounds");

   guarantee(0 <= _queue_end    && _queue_end    <= _buffer_limit, "_queue_end   out of bounds");

   // verify alignment

   guarantee(_buffer_size  % CodeEntryAlignment == 0, "_buffer_size  not aligned");

   guarantee(_buffer_limit % CodeEntryAlignment == 0, "_buffer_limit not aligned");

   guarantee(_queue_begin  % CodeEntryAlignment == 0, "_queue_begin  not aligned");

   guarantee(_queue_end    % CodeEntryAlignment == 0, "_queue_end    not aligned");

   // verify buffer limit/size relationship

   if (is_contiguous()) {

     guarantee(_buffer_limit == _buffer_size, "_buffer_limit must equal _buffer_size");

   }

   // verify contents

   int n = 0;

   for (Stub* s = first(); s != NULL; s = next(s)) {

     stub_verify(s);

     n++;

   }

   guarantee(n == number_of_stubs(), "number of stubs inconsistent");

   guarantee(_queue_begin != _queue_end || n == 0, "buffer indices must be the same");

 }

 void StubQueue::print() {

   MutexLockerEx lock(_mutex);

   for (Stub* s = first(); s != NULL; s = next(s)) {

     stub_print(s);

   }

 }