/*
* Copyright (c) 2013, 2019, 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 "logging/log.hpp"
#include "memory/metaspace.hpp"
#include "runtime/os.hpp"
#include "runtime/threadCritical.hpp"
#include "services/memTracker.hpp"
#include "services/threadStackTracker.hpp"
#include "services/virtualMemoryTracker.hpp"
size_t VirtualMemorySummary::_snapshot[CALC_OBJ_SIZE_IN_TYPE(VirtualMemorySnapshot, size_t)];
void VirtualMemorySummary::initialize() {
assert(sizeof(_snapshot) >= sizeof(VirtualMemorySnapshot), "Sanity Check");
// Use placement operator new to initialize static data area.
::new ((void*)_snapshot) VirtualMemorySnapshot();
}
void VirtualMemorySummary::snapshot(VirtualMemorySnapshot* s) {
// Only if thread stack is backed by virtual memory
if (ThreadStackTracker::track_as_vm()) {
// Snapshot current thread stacks
VirtualMemoryTracker::snapshot_thread_stacks();
}
as_snapshot()->copy_to(s);
}
SortedLinkedList<ReservedMemoryRegion, compare_reserved_region_base>* VirtualMemoryTracker::_reserved_regions;
int compare_committed_region(const CommittedMemoryRegion& r1, const CommittedMemoryRegion& r2) {
return r1.compare(r2);
}
int compare_reserved_region_base(const ReservedMemoryRegion& r1, const ReservedMemoryRegion& r2) {
return r1.compare(r2);
}
static bool is_mergeable_with(CommittedMemoryRegion* rgn, address addr, size_t size, const NativeCallStack& stack) {
return rgn->adjacent_to(addr, size) && rgn->call_stack()->equals(stack);
}
static bool is_same_as(CommittedMemoryRegion* rgn, address addr, size_t size, const NativeCallStack& stack) {
// It would have made sense to use rgn->equals(...), but equals returns true for overlapping regions.
return rgn->same_region(addr, size) && rgn->call_stack()->equals(stack);
}
static LinkedListNode<CommittedMemoryRegion>* find_preceding_node_from(LinkedListNode<CommittedMemoryRegion>* from, address addr) {
LinkedListNode<CommittedMemoryRegion>* preceding = NULL;
for (LinkedListNode<CommittedMemoryRegion>* node = from; node != NULL; node = node->next()) {
CommittedMemoryRegion* rgn = node->data();
// We searched past the region start.
if (rgn->end() > addr) {
break;
}
preceding = node;
}
return preceding;
}
static bool try_merge_with(LinkedListNode<CommittedMemoryRegion>* node, address addr, size_t size, const NativeCallStack& stack) {
if (node != NULL) {
CommittedMemoryRegion* rgn = node->data();
if (is_mergeable_with(rgn, addr, size, stack)) {
rgn->expand_region(addr, size);
return true;
}
}
return false;
}
static bool try_merge_with(LinkedListNode<CommittedMemoryRegion>* node, LinkedListNode<CommittedMemoryRegion>* other) {
if (other == NULL) {
return false;
}
CommittedMemoryRegion* rgn = other->data();
return try_merge_with(node, rgn->base(), rgn->size(), *rgn->call_stack());
}
bool ReservedMemoryRegion::add_committed_region(address addr, size_t size, const NativeCallStack& stack) {
assert(addr != NULL, "Invalid address");
assert(size > 0, "Invalid size");
assert(contain_region(addr, size), "Not contain this region");
// Find the region that fully precedes the [addr, addr + size) region.
LinkedListNode<CommittedMemoryRegion>* prev = find_preceding_node_from(_committed_regions.head(), addr);
LinkedListNode<CommittedMemoryRegion>* next = (prev != NULL ? prev->next() : _committed_regions.head());
if (next != NULL) {
// Ignore request if region already exists.
if (is_same_as(next->data(), addr, size, stack)) {
return true;
}
// The new region is after prev, and either overlaps with the
// next region (and maybe more regions), or overlaps with no region.
if (next->data()->overlap_region(addr, size)) {
// Remove _all_ overlapping regions, and parts of regions,
// in preparation for the addition of this new region.
remove_uncommitted_region(addr, size);
// The remove could have split a region into two and created a
// new prev region. Need to reset the prev and next pointers.
prev = find_preceding_node_from((prev != NULL ? prev : _committed_regions.head()), addr);
next = (prev != NULL ? prev->next() : _committed_regions.head());
}
}
// At this point the previous overlapping regions have been
// cleared, and the full region is guaranteed to be inserted.
VirtualMemorySummary::record_committed_memory(size, flag());
// Try to merge with prev and possibly next.
if (try_merge_with(prev, addr, size, stack)) {
if (try_merge_with(prev, next)) {
// prev was expanded to contain the new region
// and next, need to remove next from the list
_committed_regions.remove_after(prev);
}
return true;
}
// Didn't merge with prev, try with next.
if (try_merge_with(next, addr, size, stack)) {
return true;
}
// Couldn't merge with any regions - create a new region.
return add_committed_region(CommittedMemoryRegion(addr, size, stack));
}
bool ReservedMemoryRegion::remove_uncommitted_region(LinkedListNode<CommittedMemoryRegion>* node,
address addr, size_t size) {
assert(addr != NULL, "Invalid address");
assert(size > 0, "Invalid size");
CommittedMemoryRegion* rgn = node->data();
assert(rgn->contain_region(addr, size), "Has to be contained");
assert(!rgn->same_region(addr, size), "Can not be the same region");
if (rgn->base() == addr ||
rgn->end() == addr + size) {
rgn->exclude_region(addr, size);
return true;
} else {
// split this region
address top =rgn->end();
// use this region for lower part
size_t exclude_size = rgn->end() - addr;
rgn->exclude_region(addr, exclude_size);
// higher part
address high_base = addr + size;
size_t high_size = top - high_base;
CommittedMemoryRegion high_rgn(high_base, high_size, *rgn->call_stack());
LinkedListNode<CommittedMemoryRegion>* high_node = _committed_regions.add(high_rgn);
assert(high_node == NULL || node->next() == high_node, "Should be right after");
return (high_node != NULL);
}
return false;
}
bool ReservedMemoryRegion::remove_uncommitted_region(address addr, size_t sz) {
assert(addr != NULL, "Invalid address");
assert(sz > 0, "Invalid size");
CommittedMemoryRegion del_rgn(addr, sz, *call_stack());
address end = addr + sz;
LinkedListNode<CommittedMemoryRegion>* head = _committed_regions.head();
LinkedListNode<CommittedMemoryRegion>* prev = NULL;
CommittedMemoryRegion* crgn;
while (head != NULL) {
crgn = head->data();
if (crgn->same_region(addr, sz)) {
VirtualMemorySummary::record_uncommitted_memory(crgn->size(), flag());
_committed_regions.remove_after(prev);
return true;
}
// del_rgn contains crgn
if (del_rgn.contain_region(crgn->base(), crgn->size())) {
VirtualMemorySummary::record_uncommitted_memory(crgn->size(), flag());
head = head->next();
_committed_regions.remove_after(prev);
continue; // don't update head or prev
}
// Found addr in the current crgn. There are 2 subcases:
if (crgn->contain_address(addr)) {
// (1) Found addr+size in current crgn as well. (del_rgn is contained in crgn)
if (crgn->contain_address(end - 1)) {
VirtualMemorySummary::record_uncommitted_memory(sz, flag());
return remove_uncommitted_region(head, addr, sz); // done!
} else {
// (2) Did not find del_rgn's end in crgn.
size_t size = crgn->end() - del_rgn.base();
crgn->exclude_region(addr, size);
VirtualMemorySummary::record_uncommitted_memory(size, flag());
}
} else if (crgn->contain_address(end - 1)) {
// Found del_rgn's end, but not its base addr.
size_t size = del_rgn.end() - crgn->base();
crgn->exclude_region(crgn->base(), size);
VirtualMemorySummary::record_uncommitted_memory(size, flag());
return true; // should be done if the list is sorted properly!
}
prev = head;
head = head->next();
}
return true;
}
void ReservedMemoryRegion::move_committed_regions(address addr, ReservedMemoryRegion& rgn) {
assert(addr != NULL, "Invalid address");
// split committed regions
LinkedListNode<CommittedMemoryRegion>* head =
_committed_regions.head();
LinkedListNode<CommittedMemoryRegion>* prev = NULL;
while (head != NULL) {
if (head->data()->base() >= addr) {
break;
}
prev = head;
head = head->next();
}
if (head != NULL) {
if (prev != NULL) {
prev->set_next(head->next());
} else {
_committed_regions.set_head(NULL);
}
}
rgn._committed_regions.set_head(head);
}
size_t ReservedMemoryRegion::committed_size() const {
size_t committed = 0;
LinkedListNode<CommittedMemoryRegion>* head =
_committed_regions.head();
while (head != NULL) {
committed += head->data()->size();
head = head->next();
}
return committed;
}
void ReservedMemoryRegion::set_flag(MEMFLAGS f) {
assert((flag() == mtNone || flag() == f), "Overwrite memory type");
if (flag() != f) {
VirtualMemorySummary::move_reserved_memory(flag(), f, size());
VirtualMemorySummary::move_committed_memory(flag(), f, committed_size());
_flag = f;
}
}
address ReservedMemoryRegion::thread_stack_uncommitted_bottom() const {
assert(flag() == mtThreadStack, "Only for thread stack");
LinkedListNode<CommittedMemoryRegion>* head = _committed_regions.head();
address bottom = base();
address top = base() + size();
while (head != NULL) {
address committed_top = head->data()->base() + head->data()->size();
if (committed_top < top) {
// committed stack guard pages, skip them
bottom = head->data()->base() + head->data()->size();
head = head->next();
} else {
assert(top == committed_top, "Sanity");
break;
}
}
return bottom;
}
bool VirtualMemoryTracker::initialize(NMT_TrackingLevel level) {
if (level >= NMT_summary) {
VirtualMemorySummary::initialize();
}
return true;
}
bool VirtualMemoryTracker::late_initialize(NMT_TrackingLevel level) {
if (level >= NMT_summary) {
_reserved_regions = new (std::nothrow, ResourceObj::C_HEAP, mtNMT)
SortedLinkedList<ReservedMemoryRegion, compare_reserved_region_base>();
return (_reserved_regions != NULL);
}
return true;
}
bool VirtualMemoryTracker::add_reserved_region(address base_addr, size_t size,
const NativeCallStack& stack, MEMFLAGS flag) {
assert(base_addr != NULL, "Invalid address");
assert(size > 0, "Invalid size");
assert(_reserved_regions != NULL, "Sanity check");
ReservedMemoryRegion rgn(base_addr, size, stack, flag);
ReservedMemoryRegion* reserved_rgn = _reserved_regions->find(rgn);
if (reserved_rgn == NULL) {
VirtualMemorySummary::record_reserved_memory(size, flag);
return _reserved_regions->add(rgn) != NULL;
} else {
if (reserved_rgn->same_region(base_addr, size)) {
reserved_rgn->set_call_stack(stack);
reserved_rgn->set_flag(flag);
return true;
} else if (reserved_rgn->adjacent_to(base_addr, size)) {
VirtualMemorySummary::record_reserved_memory(size, flag);
reserved_rgn->expand_region(base_addr, size);
reserved_rgn->set_call_stack(stack);
return true;
} else {
// Overlapped reservation.
// It can happen when the regions are thread stacks, as JNI
// thread does not detach from VM before exits, and leads to
// leak JavaThread object
if (reserved_rgn->flag() == mtThreadStack) {
guarantee(!CheckJNICalls, "Attached JNI thread exited without being detached");
// Overwrite with new region
// Release old region
VirtualMemorySummary::record_uncommitted_memory(reserved_rgn->committed_size(), reserved_rgn->flag());
VirtualMemorySummary::record_released_memory(reserved_rgn->size(), reserved_rgn->flag());
// Add new region
VirtualMemorySummary::record_reserved_memory(rgn.size(), flag);
*reserved_rgn = rgn;
return true;
}
// CDS mapping region.
// CDS reserves the whole region for mapping CDS archive, then maps each section into the region.
// NMT reports CDS as a whole.
if (reserved_rgn->flag() == mtClassShared) {
assert(reserved_rgn->contain_region(base_addr, size), "Reserved CDS region should contain this mapping region");
return true;
}
// Mapped CDS string region.
// The string region(s) is part of the java heap.
if (reserved_rgn->flag() == mtJavaHeap) {
assert(reserved_rgn->contain_region(base_addr, size), "Reserved heap region should contain this mapping region");
return true;
}
ShouldNotReachHere();
return false;
}
}
}
void VirtualMemoryTracker::set_reserved_region_type(address addr, MEMFLAGS flag) {
assert(addr != NULL, "Invalid address");
assert(_reserved_regions != NULL, "Sanity check");
ReservedMemoryRegion rgn(addr, 1);
ReservedMemoryRegion* reserved_rgn = _reserved_regions->find(rgn);
if (reserved_rgn != NULL) {
assert(reserved_rgn->contain_address(addr), "Containment");
if (reserved_rgn->flag() != flag) {
assert(reserved_rgn->flag() == mtNone, "Overwrite memory type");
reserved_rgn->set_flag(flag);
}
}
}
bool VirtualMemoryTracker::add_committed_region(address addr, size_t size,
const NativeCallStack& stack) {
assert(addr != NULL, "Invalid address");
assert(size > 0, "Invalid size");
assert(_reserved_regions != NULL, "Sanity check");
ReservedMemoryRegion rgn(addr, size);
ReservedMemoryRegion* reserved_rgn = _reserved_regions->find(rgn);
assert(reserved_rgn != NULL, "No reserved region");
assert(reserved_rgn->contain_region(addr, size), "Not completely contained");
bool result = reserved_rgn->add_committed_region(addr, size, stack);
return result;
}
bool VirtualMemoryTracker::remove_uncommitted_region(address addr, size_t size) {
assert(addr != NULL, "Invalid address");
assert(size > 0, "Invalid size");
assert(_reserved_regions != NULL, "Sanity check");
ReservedMemoryRegion rgn(addr, size);
ReservedMemoryRegion* reserved_rgn = _reserved_regions->find(rgn);
assert(reserved_rgn != NULL, "No reserved region");
assert(reserved_rgn->contain_region(addr, size), "Not completely contained");
bool result = reserved_rgn->remove_uncommitted_region(addr, size);
return result;
}
bool VirtualMemoryTracker::remove_released_region(address addr, size_t size) {
assert(addr != NULL, "Invalid address");
assert(size > 0, "Invalid size");
assert(_reserved_regions != NULL, "Sanity check");
ReservedMemoryRegion rgn(addr, size);
ReservedMemoryRegion* reserved_rgn = _reserved_regions->find(rgn);
assert(reserved_rgn != NULL, "No reserved region");
// uncommit regions within the released region
if (!reserved_rgn->remove_uncommitted_region(addr, size)) {
return false;
}
if (reserved_rgn->flag() == mtClassShared &&
reserved_rgn->contain_region(addr, size) &&
!reserved_rgn->same_region(addr, size)) {
// This is an unmapped CDS region, which is part of the reserved shared
// memory region.
// See special handling in VirtualMemoryTracker::add_reserved_region also.
return true;
}
VirtualMemorySummary::record_released_memory(size, reserved_rgn->flag());
if (reserved_rgn->same_region(addr, size)) {
return _reserved_regions->remove(rgn);
} else {
assert(reserved_rgn->contain_region(addr, size), "Not completely contained");
if (reserved_rgn->base() == addr ||
reserved_rgn->end() == addr + size) {
reserved_rgn->exclude_region(addr, size);
return true;
} else {
address top = reserved_rgn->end();
address high_base = addr + size;
ReservedMemoryRegion high_rgn(high_base, top - high_base,
*reserved_rgn->call_stack(), reserved_rgn->flag());
// use original region for lower region
reserved_rgn->exclude_region(addr, top - addr);
LinkedListNode<ReservedMemoryRegion>* new_rgn = _reserved_regions->add(high_rgn);
if (new_rgn == NULL) {
return false;
} else {
reserved_rgn->move_committed_regions(addr, *new_rgn->data());
return true;
}
}
}
}
// Iterate the range, find committed region within its bound.
class RegionIterator : public StackObj {
private:
const address _start;
const size_t _size;
address _current_start;
size_t _current_size;
public:
RegionIterator(address start, size_t size) :
_start(start), _size(size), _current_start(start), _current_size(size) {
}
// return true if committed region is found
bool next_committed(address& start, size_t& size);
private:
address end() const { return _start + _size; }
};
bool RegionIterator::next_committed(address& committed_start, size_t& committed_size) {
if (end() <= _current_start) return false;
const size_t page_sz = os::vm_page_size();
assert(_current_start + _current_size == end(), "Must be");
if (os::committed_in_range(_current_start, _current_size, committed_start, committed_size)) {
assert(committed_start != NULL, "Must be");
assert(committed_size > 0 && is_aligned(committed_size, os::vm_page_size()), "Must be");
size_t remaining_size = (_current_start + _current_size) - (committed_start + committed_size);
_current_start = committed_start + committed_size;
_current_size = remaining_size;
return true;
} else {
return false;
}
}
// Walk all known thread stacks, snapshot their committed ranges.
class SnapshotThreadStackWalker : public VirtualMemoryWalker {
public:
SnapshotThreadStackWalker() {}
bool do_allocation_site(const ReservedMemoryRegion* rgn) {
if (rgn->flag() == mtThreadStack) {
address stack_bottom = rgn->thread_stack_uncommitted_bottom();
address committed_start;
size_t committed_size;
size_t stack_size = rgn->base() + rgn->size() - stack_bottom;
ReservedMemoryRegion* region = const_cast<ReservedMemoryRegion*>(rgn);
NativeCallStack ncs; // empty stack
RegionIterator itr(stack_bottom, stack_size);
DEBUG_ONLY(bool found_stack = false;)
while (itr.next_committed(committed_start, committed_size)) {
assert(committed_start != NULL, "Should not be null");
assert(committed_size > 0, "Should not be 0");
region->add_committed_region(committed_start, committed_size, ncs);
DEBUG_ONLY(found_stack = true;)
}
#ifdef ASSERT
if (!found_stack) {
log_debug(thread)("Thread exited without proper cleanup, may leak thread object");
}
#endif
}
return true;
}
};
void VirtualMemoryTracker::snapshot_thread_stacks() {
SnapshotThreadStackWalker walker;
walk_virtual_memory(&walker);
}
bool VirtualMemoryTracker::walk_virtual_memory(VirtualMemoryWalker* walker) {
assert(_reserved_regions != NULL, "Sanity check");
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