author | ysr |
Thu, 09 Dec 2010 09:22:57 -0800 | |
changeset 7420 | 24071b15dde6 |
parent 7397 | 5b173b4ca846 |
child 7724 | a92d706dbdd5 |
permissions | -rw-r--r-- |
1 | 1 |
/* |
7397 | 2 |
* Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved. |
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
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* |
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* This code is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License version 2 only, as |
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* published by the Free Software Foundation. |
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* |
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* This code is distributed in the hope that it will be useful, but WITHOUT |
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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* version 2 for more details (a copy is included in the LICENSE file that |
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* accompanied this code). |
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* |
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* You should have received a copy of the GNU General Public License version |
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* 2 along with this work; if not, write to the Free Software Foundation, |
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
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* |
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* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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* or visit www.oracle.com if you need additional information or have any |
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* questions. |
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* |
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*/ |
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||
7397 | 25 |
#include "precompiled.hpp" |
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#include "memory/genCollectedHeap.hpp" |
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#include "memory/resourceArea.hpp" |
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#include "memory/threadLocalAllocBuffer.inline.hpp" |
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#include "memory/universe.inline.hpp" |
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#include "oops/oop.inline.hpp" |
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#include "utilities/copy.hpp" |
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#ifdef TARGET_OS_FAMILY_linux |
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# include "thread_linux.inline.hpp" |
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#endif |
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#ifdef TARGET_OS_FAMILY_solaris |
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# include "thread_solaris.inline.hpp" |
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#endif |
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#ifdef TARGET_OS_FAMILY_windows |
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# include "thread_windows.inline.hpp" |
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#endif |
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7397 | 42 |
// Thread-Local Edens support |
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// static member initialization |
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unsigned ThreadLocalAllocBuffer::_target_refills = 0; |
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GlobalTLABStats* ThreadLocalAllocBuffer::_global_stats = NULL; |
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||
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void ThreadLocalAllocBuffer::clear_before_allocation() { |
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_slow_refill_waste += (unsigned)remaining(); |
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make_parsable(true); // also retire the TLAB |
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} |
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||
53 |
void ThreadLocalAllocBuffer::accumulate_statistics_before_gc() { |
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global_stats()->initialize(); |
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||
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for(JavaThread *thread = Threads::first(); thread; thread = thread->next()) { |
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thread->tlab().accumulate_statistics(); |
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thread->tlab().initialize_statistics(); |
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} |
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||
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// Publish new stats if some allocation occurred. |
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if (global_stats()->allocation() != 0) { |
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global_stats()->publish(); |
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if (PrintTLAB) { |
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global_stats()->print(); |
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} |
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} |
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} |
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||
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void ThreadLocalAllocBuffer::accumulate_statistics() { |
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size_t capacity = Universe::heap()->tlab_capacity(myThread()) / HeapWordSize; |
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size_t unused = Universe::heap()->unsafe_max_tlab_alloc(myThread()) / HeapWordSize; |
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size_t used = capacity - unused; |
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||
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// Update allocation history if a reasonable amount of eden was allocated. |
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bool update_allocation_history = used > 0.5 * capacity; |
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_gc_waste += (unsigned)remaining(); |
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if (PrintTLAB && (_number_of_refills > 0 || Verbose)) { |
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print_stats("gc"); |
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} |
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if (_number_of_refills > 0) { |
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||
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if (update_allocation_history) { |
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// Average the fraction of eden allocated in a tlab by this |
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// thread for use in the next resize operation. |
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// _gc_waste is not subtracted because it's included in |
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// "used". |
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size_t allocation = _number_of_refills * desired_size(); |
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double alloc_frac = allocation / (double) used; |
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_allocation_fraction.sample(alloc_frac); |
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} |
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global_stats()->update_allocating_threads(); |
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global_stats()->update_number_of_refills(_number_of_refills); |
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global_stats()->update_allocation(_number_of_refills * desired_size()); |
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global_stats()->update_gc_waste(_gc_waste); |
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global_stats()->update_slow_refill_waste(_slow_refill_waste); |
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global_stats()->update_fast_refill_waste(_fast_refill_waste); |
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} else { |
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assert(_number_of_refills == 0 && _fast_refill_waste == 0 && |
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_slow_refill_waste == 0 && _gc_waste == 0, |
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"tlab stats == 0"); |
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} |
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global_stats()->update_slow_allocations(_slow_allocations); |
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} |
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// Fills the current tlab with a dummy filler array to create |
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// an illusion of a contiguous Eden and optionally retires the tlab. |
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// Waste accounting should be done in caller as appropriate; see, |
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// for example, clear_before_allocation(). |
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void ThreadLocalAllocBuffer::make_parsable(bool retire) { |
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if (end() != NULL) { |
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invariants(); |
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CollectedHeap::fill_with_object(top(), hard_end(), retire); |
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if (retire || ZeroTLAB) { // "Reset" the TLAB |
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set_start(NULL); |
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set_top(NULL); |
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set_pf_top(NULL); |
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set_end(NULL); |
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} |
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} |
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assert(!(retire || ZeroTLAB) || |
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(start() == NULL && end() == NULL && top() == NULL), |
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"TLAB must be reset"); |
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} |
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void ThreadLocalAllocBuffer::resize_all_tlabs() { |
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for(JavaThread *thread = Threads::first(); thread; thread = thread->next()) { |
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thread->tlab().resize(); |
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} |
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} |
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void ThreadLocalAllocBuffer::resize() { |
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if (ResizeTLAB) { |
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// Compute the next tlab size using expected allocation amount |
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size_t alloc = (size_t)(_allocation_fraction.average() * |
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(Universe::heap()->tlab_capacity(myThread()) / HeapWordSize)); |
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size_t new_size = alloc / _target_refills; |
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new_size = MIN2(MAX2(new_size, min_size()), max_size()); |
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size_t aligned_new_size = align_object_size(new_size); |
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if (PrintTLAB && Verbose) { |
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gclog_or_tty->print("TLAB new size: thread: " INTPTR_FORMAT " [id: %2d]" |
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" refills %d alloc: %8.6f desired_size: " SIZE_FORMAT " -> " SIZE_FORMAT "\n", |
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myThread(), myThread()->osthread()->thread_id(), |
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_target_refills, _allocation_fraction.average(), desired_size(), aligned_new_size); |
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} |
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set_desired_size(aligned_new_size); |
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set_refill_waste_limit(initial_refill_waste_limit()); |
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} |
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} |
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void ThreadLocalAllocBuffer::initialize_statistics() { |
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_number_of_refills = 0; |
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_fast_refill_waste = 0; |
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_slow_refill_waste = 0; |
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_gc_waste = 0; |
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_slow_allocations = 0; |
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} |
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void ThreadLocalAllocBuffer::fill(HeapWord* start, |
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HeapWord* top, |
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size_t new_size) { |
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_number_of_refills++; |
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if (PrintTLAB && Verbose) { |
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print_stats("fill"); |
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} |
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assert(top <= start + new_size - alignment_reserve(), "size too small"); |
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initialize(start, top, start + new_size - alignment_reserve()); |
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// Reset amount of internal fragmentation |
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set_refill_waste_limit(initial_refill_waste_limit()); |
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} |
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void ThreadLocalAllocBuffer::initialize(HeapWord* start, |
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HeapWord* top, |
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HeapWord* end) { |
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set_start(start); |
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set_top(top); |
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set_pf_top(top); |
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set_end(end); |
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invariants(); |
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} |
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void ThreadLocalAllocBuffer::initialize() { |
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initialize(NULL, // start |
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NULL, // top |
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NULL); // end |
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set_desired_size(initial_desired_size()); |
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// Following check is needed because at startup the main (primordial) |
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// thread is initialized before the heap is. The initialization for |
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// this thread is redone in startup_initialization below. |
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if (Universe::heap() != NULL) { |
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size_t capacity = Universe::heap()->tlab_capacity(myThread()) / HeapWordSize; |
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double alloc_frac = desired_size() * target_refills() / (double) capacity; |
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_allocation_fraction.sample(alloc_frac); |
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} |
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set_refill_waste_limit(initial_refill_waste_limit()); |
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initialize_statistics(); |
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} |
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213 |
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214 |
void ThreadLocalAllocBuffer::startup_initialization() { |
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215 |
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216 |
// Assuming each thread's active tlab is, on average, |
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// 1/2 full at a GC |
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_target_refills = 100 / (2 * TLABWasteTargetPercent); |
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_target_refills = MAX2(_target_refills, (unsigned)1U); |
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221 |
_global_stats = new GlobalTLABStats(); |
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223 |
// During jvm startup, the main (primordial) thread is initialized |
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// before the heap is initialized. So reinitialize it now. |
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guarantee(Thread::current()->is_Java_thread(), "tlab initialization thread not Java thread"); |
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226 |
Thread::current()->tlab().initialize(); |
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227 |
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228 |
if (PrintTLAB && Verbose) { |
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gclog_or_tty->print("TLAB min: " SIZE_FORMAT " initial: " SIZE_FORMAT " max: " SIZE_FORMAT "\n", |
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min_size(), Thread::current()->tlab().initial_desired_size(), max_size()); |
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} |
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232 |
} |
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233 |
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234 |
size_t ThreadLocalAllocBuffer::initial_desired_size() { |
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235 |
size_t init_sz; |
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236 |
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237 |
if (TLABSize > 0) { |
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init_sz = MIN2(TLABSize / HeapWordSize, max_size()); |
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} else if (global_stats() == NULL) { |
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// Startup issue - main thread initialized before heap initialized. |
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init_sz = min_size(); |
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} else { |
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// Initial size is a function of the average number of allocating threads. |
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unsigned nof_threads = global_stats()->allocating_threads_avg(); |
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init_sz = (Universe::heap()->tlab_capacity(myThread()) / HeapWordSize) / |
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(nof_threads * target_refills()); |
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init_sz = align_object_size(init_sz); |
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init_sz = MIN2(MAX2(init_sz, min_size()), max_size()); |
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} |
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return init_sz; |
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} |
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253 |
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254 |
const size_t ThreadLocalAllocBuffer::max_size() { |
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255 |
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256 |
// TLABs can't be bigger than we can fill with a int[Integer.MAX_VALUE]. |
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// This restriction could be removed by enabling filling with multiple arrays. |
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// If we compute that the reasonable way as |
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// header_size + ((sizeof(jint) * max_jint) / HeapWordSize) |
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// we'll overflow on the multiply, so we do the divide first. |
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// We actually lose a little by dividing first, |
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// but that just makes the TLAB somewhat smaller than the biggest array, |
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// which is fine, since we'll be able to fill that. |
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265 |
size_t unaligned_max_size = typeArrayOopDesc::header_size(T_INT) + |
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sizeof(jint) * |
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((juint) max_jint / (size_t) HeapWordSize); |
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return align_size_down(unaligned_max_size, MinObjAlignment); |
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} |
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270 |
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271 |
void ThreadLocalAllocBuffer::print_stats(const char* tag) { |
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Thread* thrd = myThread(); |
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size_t waste = _gc_waste + _slow_refill_waste + _fast_refill_waste; |
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size_t alloc = _number_of_refills * _desired_size; |
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double waste_percent = alloc == 0 ? 0.0 : |
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100.0 * waste / alloc; |
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size_t tlab_used = Universe::heap()->tlab_capacity(thrd) - |
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Universe::heap()->unsafe_max_tlab_alloc(thrd); |
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gclog_or_tty->print("TLAB: %s thread: " INTPTR_FORMAT " [id: %2d]" |
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" desired_size: " SIZE_FORMAT "KB" |
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" slow allocs: %d refill waste: " SIZE_FORMAT "B" |
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" alloc:%8.5f %8.0fKB refills: %d waste %4.1f%% gc: %dB" |
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" slow: %dB fast: %dB\n", |
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tag, thrd, thrd->osthread()->thread_id(), |
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_desired_size / (K / HeapWordSize), |
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_slow_allocations, _refill_waste_limit * HeapWordSize, |
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_allocation_fraction.average(), |
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_allocation_fraction.average() * tlab_used / K, |
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_number_of_refills, waste_percent, |
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_gc_waste * HeapWordSize, |
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_slow_refill_waste * HeapWordSize, |
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_fast_refill_waste * HeapWordSize); |
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293 |
} |
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294 |
||
295 |
void ThreadLocalAllocBuffer::verify() { |
|
296 |
HeapWord* p = start(); |
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297 |
HeapWord* t = top(); |
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298 |
HeapWord* prev_p = NULL; |
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299 |
while (p < t) { |
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300 |
oop(p)->verify(); |
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prev_p = p; |
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302 |
p += oop(p)->size(); |
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303 |
} |
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guarantee(p == top(), "end of last object must match end of space"); |
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305 |
} |
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306 |
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307 |
Thread* ThreadLocalAllocBuffer::myThread() { |
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return (Thread*)(((char *)this) + |
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in_bytes(start_offset()) - |
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in_bytes(Thread::tlab_start_offset())); |
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} |
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312 |
||
313 |
||
314 |
GlobalTLABStats::GlobalTLABStats() : |
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315 |
_allocating_threads_avg(TLABAllocationWeight) { |
|
316 |
||
317 |
initialize(); |
|
318 |
||
319 |
_allocating_threads_avg.sample(1); // One allocating thread at startup |
|
320 |
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321 |
if (UsePerfData) { |
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322 |
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323 |
EXCEPTION_MARK; |
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324 |
ResourceMark rm; |
|
325 |
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326 |
char* cname = PerfDataManager::counter_name("tlab", "allocThreads"); |
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327 |
_perf_allocating_threads = |
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328 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_None, CHECK); |
|
329 |
||
330 |
cname = PerfDataManager::counter_name("tlab", "fills"); |
|
331 |
_perf_total_refills = |
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332 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_None, CHECK); |
|
333 |
||
334 |
cname = PerfDataManager::counter_name("tlab", "maxFills"); |
|
335 |
_perf_max_refills = |
|
336 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_None, CHECK); |
|
337 |
||
338 |
cname = PerfDataManager::counter_name("tlab", "alloc"); |
|
339 |
_perf_allocation = |
|
340 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_Bytes, CHECK); |
|
341 |
||
342 |
cname = PerfDataManager::counter_name("tlab", "gcWaste"); |
|
343 |
_perf_gc_waste = |
|
344 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_Bytes, CHECK); |
|
345 |
||
346 |
cname = PerfDataManager::counter_name("tlab", "maxGcWaste"); |
|
347 |
_perf_max_gc_waste = |
|
348 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_Bytes, CHECK); |
|
349 |
||
350 |
cname = PerfDataManager::counter_name("tlab", "slowWaste"); |
|
351 |
_perf_slow_refill_waste = |
|
352 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_Bytes, CHECK); |
|
353 |
||
354 |
cname = PerfDataManager::counter_name("tlab", "maxSlowWaste"); |
|
355 |
_perf_max_slow_refill_waste = |
|
356 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_Bytes, CHECK); |
|
357 |
||
358 |
cname = PerfDataManager::counter_name("tlab", "fastWaste"); |
|
359 |
_perf_fast_refill_waste = |
|
360 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_Bytes, CHECK); |
|
361 |
||
362 |
cname = PerfDataManager::counter_name("tlab", "maxFastWaste"); |
|
363 |
_perf_max_fast_refill_waste = |
|
364 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_Bytes, CHECK); |
|
365 |
||
366 |
cname = PerfDataManager::counter_name("tlab", "slowAlloc"); |
|
367 |
_perf_slow_allocations = |
|
368 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_None, CHECK); |
|
369 |
||
370 |
cname = PerfDataManager::counter_name("tlab", "maxSlowAlloc"); |
|
371 |
_perf_max_slow_allocations = |
|
372 |
PerfDataManager::create_variable(SUN_GC, cname, PerfData::U_None, CHECK); |
|
373 |
} |
|
374 |
} |
|
375 |
||
376 |
void GlobalTLABStats::initialize() { |
|
377 |
// Clear counters summarizing info from all threads |
|
378 |
_allocating_threads = 0; |
|
379 |
_total_refills = 0; |
|
380 |
_max_refills = 0; |
|
381 |
_total_allocation = 0; |
|
382 |
_total_gc_waste = 0; |
|
383 |
_max_gc_waste = 0; |
|
384 |
_total_slow_refill_waste = 0; |
|
385 |
_max_slow_refill_waste = 0; |
|
386 |
_total_fast_refill_waste = 0; |
|
387 |
_max_fast_refill_waste = 0; |
|
388 |
_total_slow_allocations = 0; |
|
389 |
_max_slow_allocations = 0; |
|
390 |
} |
|
391 |
||
392 |
void GlobalTLABStats::publish() { |
|
393 |
_allocating_threads_avg.sample(_allocating_threads); |
|
394 |
if (UsePerfData) { |
|
395 |
_perf_allocating_threads ->set_value(_allocating_threads); |
|
396 |
_perf_total_refills ->set_value(_total_refills); |
|
397 |
_perf_max_refills ->set_value(_max_refills); |
|
398 |
_perf_allocation ->set_value(_total_allocation); |
|
399 |
_perf_gc_waste ->set_value(_total_gc_waste); |
|
400 |
_perf_max_gc_waste ->set_value(_max_gc_waste); |
|
401 |
_perf_slow_refill_waste ->set_value(_total_slow_refill_waste); |
|
402 |
_perf_max_slow_refill_waste->set_value(_max_slow_refill_waste); |
|
403 |
_perf_fast_refill_waste ->set_value(_total_fast_refill_waste); |
|
404 |
_perf_max_fast_refill_waste->set_value(_max_fast_refill_waste); |
|
405 |
_perf_slow_allocations ->set_value(_total_slow_allocations); |
|
406 |
_perf_max_slow_allocations ->set_value(_max_slow_allocations); |
|
407 |
} |
|
408 |
} |
|
409 |
||
410 |
void GlobalTLABStats::print() { |
|
411 |
size_t waste = _total_gc_waste + _total_slow_refill_waste + _total_fast_refill_waste; |
|
412 |
double waste_percent = _total_allocation == 0 ? 0.0 : |
|
413 |
100.0 * waste / _total_allocation; |
|
414 |
gclog_or_tty->print("TLAB totals: thrds: %d refills: %d max: %d" |
|
415 |
" slow allocs: %d max %d waste: %4.1f%%" |
|
416 |
" gc: " SIZE_FORMAT "B max: " SIZE_FORMAT "B" |
|
417 |
" slow: " SIZE_FORMAT "B max: " SIZE_FORMAT "B" |
|
418 |
" fast: " SIZE_FORMAT "B max: " SIZE_FORMAT "B\n", |
|
419 |
_allocating_threads, |
|
420 |
_total_refills, _max_refills, |
|
421 |
_total_slow_allocations, _max_slow_allocations, |
|
422 |
waste_percent, |
|
423 |
_total_gc_waste * HeapWordSize, |
|
424 |
_max_gc_waste * HeapWordSize, |
|
425 |
_total_slow_refill_waste * HeapWordSize, |
|
426 |
_max_slow_refill_waste * HeapWordSize, |
|
427 |
_total_fast_refill_waste * HeapWordSize, |
|
428 |
_max_fast_refill_waste * HeapWordSize); |
|
429 |
} |