/*
* Copyright (c) 2003, 2015, 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 "gc/parallel/psVirtualspace.hpp"
#include "memory/virtualspace.hpp"
#include "runtime/os.hpp"
// PSVirtualSpace
PSVirtualSpace::PSVirtualSpace(ReservedSpace rs, size_t alignment) :
_alignment(alignment)
{
set_reserved(rs);
set_committed(reserved_low_addr(), reserved_low_addr());
DEBUG_ONLY(verify());
}
PSVirtualSpace::PSVirtualSpace(ReservedSpace rs) :
_alignment(os::vm_page_size())
{
set_reserved(rs);
set_committed(reserved_low_addr(), reserved_low_addr());
DEBUG_ONLY(verify());
}
// Deprecated.
PSVirtualSpace::PSVirtualSpace(): _alignment(os::vm_page_size()) {
}
// Deprecated.
bool PSVirtualSpace::initialize(ReservedSpace rs,
size_t commit_size) {
set_reserved(rs);
set_committed(reserved_low_addr(), reserved_low_addr());
// Commit to initial size.
assert(commit_size <= rs.size(), "commit_size too big");
bool result = commit_size > 0 ? expand_by(commit_size) : true;
DEBUG_ONLY(verify());
return result;
}
PSVirtualSpace::~PSVirtualSpace() {
release();
}
bool PSVirtualSpace::contains(void* p) const {
char* const cp = (char*)p;
return cp >= committed_low_addr() && cp < committed_high_addr();
}
void PSVirtualSpace::release() {
DEBUG_ONLY(PSVirtualSpaceVerifier this_verifier(this));
// This may not release memory it didn't reserve.
// Use rs.release() to release the underlying memory instead.
_reserved_low_addr = _reserved_high_addr = NULL;
_committed_low_addr = _committed_high_addr = NULL;
_special = false;
}
bool PSVirtualSpace::expand_by(size_t bytes) {
assert(is_aligned(bytes), "arg not aligned");
DEBUG_ONLY(PSVirtualSpaceVerifier this_verifier(this));
if (uncommitted_size() < bytes) {
return false;
}
char* const base_addr = committed_high_addr();
bool result = special() ||
os::commit_memory(base_addr, bytes, alignment(), !ExecMem);
if (result) {
_committed_high_addr += bytes;
}
return result;
}
bool PSVirtualSpace::shrink_by(size_t bytes) {
assert(is_aligned(bytes), "arg not aligned");
DEBUG_ONLY(PSVirtualSpaceVerifier this_verifier(this));
if (committed_size() < bytes) {
return false;
}
char* const base_addr = committed_high_addr() - bytes;
bool result = special() || os::uncommit_memory(base_addr, bytes);
if (result) {
_committed_high_addr -= bytes;
}
return result;
}
size_t
PSVirtualSpace::expand_into(PSVirtualSpace* other_space, size_t bytes) {
assert(is_aligned(bytes), "arg not aligned");
assert(grows_up(), "this space must grow up");
assert(other_space->grows_down(), "other space must grow down");
assert(reserved_high_addr() == other_space->reserved_low_addr(),
"spaces not contiguous");
assert(special() == other_space->special(), "one space is special, the other is not");
DEBUG_ONLY(PSVirtualSpaceVerifier this_verifier(this));
DEBUG_ONLY(PSVirtualSpaceVerifier other_verifier(other_space));
size_t bytes_needed = bytes;
// First use the uncommitted region in this space.
size_t tmp_bytes = MIN2(uncommitted_size(), bytes_needed);
if (tmp_bytes > 0) {
if (expand_by(tmp_bytes)) {
bytes_needed -= tmp_bytes;
} else {
return 0;
}
}
// Next take from the uncommitted region in the other space, and commit it.
tmp_bytes = MIN2(other_space->uncommitted_size(), bytes_needed);
if (tmp_bytes > 0) {
char* const commit_base = committed_high_addr();
if (other_space->special() ||
os::commit_memory(commit_base, tmp_bytes, alignment(), !ExecMem)) {
// Reduce the reserved region in the other space.
other_space->set_reserved(other_space->reserved_low_addr() + tmp_bytes,
other_space->reserved_high_addr(),
other_space->special());
// Grow both reserved and committed in this space.
_reserved_high_addr += tmp_bytes;
_committed_high_addr += tmp_bytes;
bytes_needed -= tmp_bytes;
} else {
return bytes - bytes_needed;
}
}
// Finally take from the already committed region in the other space.
tmp_bytes = bytes_needed;
if (tmp_bytes > 0) {
// Reduce both committed and reserved in the other space.
other_space->set_committed(other_space->committed_low_addr() + tmp_bytes,
other_space->committed_high_addr());
other_space->set_reserved(other_space->reserved_low_addr() + tmp_bytes,
other_space->reserved_high_addr(),
other_space->special());
// Grow both reserved and committed in this space.
_reserved_high_addr += tmp_bytes;
_committed_high_addr += tmp_bytes;
}
return bytes;
}
#ifndef PRODUCT
bool PSVirtualSpace::is_aligned(size_t value, size_t align) {
const size_t tmp_value = value + align - 1;
const size_t mask = ~(align - 1);
return (tmp_value & mask) == value;
}
bool PSVirtualSpace::is_aligned(size_t value) const {
return is_aligned(value, alignment());
}
bool PSVirtualSpace::is_aligned(char* value) const {
return is_aligned((size_t)value);
}
void PSVirtualSpace::verify() const {
assert(is_aligned(alignment(), os::vm_page_size()), "bad alignment");
assert(is_aligned(reserved_low_addr()), "bad reserved_low_addr");
assert(is_aligned(reserved_high_addr()), "bad reserved_high_addr");
assert(is_aligned(committed_low_addr()), "bad committed_low_addr");
assert(is_aligned(committed_high_addr()), "bad committed_high_addr");
// Reserved region must be non-empty or both addrs must be 0.
assert(reserved_low_addr() < reserved_high_addr() ||
reserved_low_addr() == NULL && reserved_high_addr() == NULL,
"bad reserved addrs");
assert(committed_low_addr() <= committed_high_addr(), "bad committed addrs");
if (grows_up()) {
assert(reserved_low_addr() == committed_low_addr(), "bad low addrs");
assert(reserved_high_addr() >= committed_high_addr(), "bad high addrs");
} else {
assert(reserved_high_addr() == committed_high_addr(), "bad high addrs");
assert(reserved_low_addr() <= committed_low_addr(), "bad low addrs");
}
}
#endif // #ifndef PRODUCT
void PSVirtualSpace::print_space_boundaries_on(outputStream* st) const {
st->print_cr(" [" PTR_FORMAT ", " PTR_FORMAT ", " PTR_FORMAT ")",
p2i(low_boundary()), p2i(high()), p2i(high_boundary()));
}
PSVirtualSpaceHighToLow::PSVirtualSpaceHighToLow(ReservedSpace rs,
size_t alignment) :
PSVirtualSpace(alignment)
{
set_reserved(rs);
set_committed(reserved_high_addr(), reserved_high_addr());
DEBUG_ONLY(verify());
}
PSVirtualSpaceHighToLow::PSVirtualSpaceHighToLow(ReservedSpace rs) {
set_reserved(rs);
set_committed(reserved_high_addr(), reserved_high_addr());
DEBUG_ONLY(verify());
}
bool PSVirtualSpaceHighToLow::expand_by(size_t bytes) {
assert(is_aligned(bytes), "arg not aligned");
DEBUG_ONLY(PSVirtualSpaceVerifier this_verifier(this));
if (uncommitted_size() < bytes) {
return false;
}
char* const base_addr = committed_low_addr() - bytes;
bool result = special() ||
os::commit_memory(base_addr, bytes, alignment(), !ExecMem);
if (result) {
_committed_low_addr -= bytes;
}
return result;
}
bool PSVirtualSpaceHighToLow::shrink_by(size_t bytes) {
assert(is_aligned(bytes), "arg not aligned");
DEBUG_ONLY(PSVirtualSpaceVerifier this_verifier(this));
if (committed_size() < bytes) {
return false;
}
char* const base_addr = committed_low_addr();
bool result = special() || os::uncommit_memory(base_addr, bytes);
if (result) {
_committed_low_addr += bytes;
}
return result;
}
size_t PSVirtualSpaceHighToLow::expand_into(PSVirtualSpace* other_space,
size_t bytes) {
assert(is_aligned(bytes), "arg not aligned");
assert(grows_down(), "this space must grow down");
assert(other_space->grows_up(), "other space must grow up");
assert(reserved_low_addr() == other_space->reserved_high_addr(),
"spaces not contiguous");
assert(special() == other_space->special(), "one space is special in memory, the other is not");
DEBUG_ONLY(PSVirtualSpaceVerifier this_verifier(this));
DEBUG_ONLY(PSVirtualSpaceVerifier other_verifier(other_space));
size_t bytes_needed = bytes;
// First use the uncommitted region in this space.
size_t tmp_bytes = MIN2(uncommitted_size(), bytes_needed);
if (tmp_bytes > 0) {
if (expand_by(tmp_bytes)) {
bytes_needed -= tmp_bytes;
} else {
return 0;
}
}
// Next take from the uncommitted region in the other space, and commit it.
tmp_bytes = MIN2(other_space->uncommitted_size(), bytes_needed);
if (tmp_bytes > 0) {
char* const commit_base = committed_low_addr() - tmp_bytes;
if (other_space->special() ||
os::commit_memory(commit_base, tmp_bytes, alignment(), !ExecMem)) {
// Reduce the reserved region in the other space.
other_space->set_reserved(other_space->reserved_low_addr(),
other_space->reserved_high_addr() - tmp_bytes,
other_space->special());
// Grow both reserved and committed in this space.
_reserved_low_addr -= tmp_bytes;
_committed_low_addr -= tmp_bytes;
bytes_needed -= tmp_bytes;
} else {
return bytes - bytes_needed;
}
}
// Finally take from the already committed region in the other space.
tmp_bytes = bytes_needed;
if (tmp_bytes > 0) {
// Reduce both committed and reserved in the other space.
other_space->set_committed(other_space->committed_low_addr(),
other_space->committed_high_addr() - tmp_bytes);
other_space->set_reserved(other_space->reserved_low_addr(),
other_space->reserved_high_addr() - tmp_bytes,
other_space->special());
// Grow both reserved and committed in this space.
_reserved_low_addr -= tmp_bytes;
_committed_low_addr -= tmp_bytes;
}
return bytes;
}
void
PSVirtualSpaceHighToLow::print_space_boundaries_on(outputStream* st) const {
st->print_cr(" (" PTR_FORMAT ", " PTR_FORMAT ", " PTR_FORMAT "]",
p2i(high_boundary()), p2i(low()), p2i(low_boundary()));
}