8013651: NMT: reserve/release sequence id's in incorrect order due to race
Summary: Fixed NMT race condition for realloc, uncommit and release
Reviewed-by: coleenp, ccheung
/*
* Copyright (c) 2012, 2013, 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.
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*/
#ifndef SHARE_VM_SERVICES_MEM_TRACKER_HPP
#define SHARE_VM_SERVICES_MEM_TRACKER_HPP
#include "utilities/macros.hpp"
#if !INCLUDE_NMT
#include "utilities/ostream.hpp"
class BaselineOutputer : public StackObj {
};
class BaselineTTYOutputer : public BaselineOutputer {
public:
BaselineTTYOutputer(outputStream* st) { }
};
class MemTracker : AllStatic {
public:
enum ShutdownReason {
NMT_shutdown_none, // no shutdown requested
NMT_shutdown_user, // user requested shutdown
NMT_normal, // normal shutdown, process exit
NMT_out_of_memory, // shutdown due to out of memory
NMT_initialization, // shutdown due to initialization failure
NMT_use_malloc_only, // can not combine NMT with UseMallocOnly flag
NMT_error_reporting, // shutdown by vmError::report_and_die()
NMT_out_of_generation, // running out of generation queue
NMT_sequence_overflow // overflow the sequence number
};
class Tracker {
public:
void discard() { }
void record(address addr, size_t size = 0, MEMFLAGS flags = mtNone, address pc = NULL) { }
void record(address old_addr, address new_addr, size_t size,
MEMFLAGS flags, address pc = NULL) { }
};
private:
static Tracker _tkr;
public:
static inline void init_tracking_options(const char* option_line) { }
static inline bool is_on() { return false; }
static const char* reason() { return "Native memory tracking is not implemented"; }
static inline bool can_walk_stack() { return false; }
static inline void bootstrap_single_thread() { }
static inline void bootstrap_multi_thread() { }
static inline void start() { }
static inline void record_malloc(address addr, size_t size, MEMFLAGS flags,
address pc = 0, Thread* thread = NULL) { }
static inline void record_free(address addr, MEMFLAGS flags, Thread* thread = NULL) { }
static inline void record_arena_size(address addr, size_t size) { }
static inline void record_virtual_memory_reserve(address addr, size_t size,
MEMFLAGS flags, address pc = 0, Thread* thread = NULL) { }
static inline void record_virtual_memory_reserve_and_commit(address addr, size_t size,
MEMFLAGS flags, address pc = 0, Thread* thread = NULL) { }
static inline void record_virtual_memory_commit(address addr, size_t size,
address pc = 0, Thread* thread = NULL) { }
static inline void record_virtual_memory_type(address base, MEMFLAGS flags,
Thread* thread = NULL) { }
static inline Tracker get_realloc_tracker() { return _tkr; }
static inline Tracker get_virtual_memory_uncommit_tracker() { return _tkr; }
static inline Tracker get_virtual_memory_release_tracker() { return _tkr; }
static inline bool baseline() { return false; }
static inline bool has_baseline() { return false; }
static inline void set_autoShutdown(bool value) { }
static void shutdown(ShutdownReason reason) { }
static inline bool shutdown_in_progress() { return false; }
static bool print_memory_usage(BaselineOutputer& out, size_t unit,
bool summary_only = true) { return false; }
static bool compare_memory_usage(BaselineOutputer& out, size_t unit,
bool summary_only = true) { return false; }
static bool wbtest_wait_for_data_merge() { return false; }
static inline void sync() { }
static inline void thread_exiting(JavaThread* thread) { }
};
#else // !INCLUDE_NMT
#include "memory/allocation.hpp"
#include "runtime/globals.hpp"
#include "runtime/mutex.hpp"
#include "runtime/os.hpp"
#include "runtime/thread.hpp"
#include "services/memPtr.hpp"
#include "services/memRecorder.hpp"
#include "services/memSnapshot.hpp"
#include "services/memTrackWorker.hpp"
extern bool NMT_track_callsite;
#ifndef MAX_UNSIGNED_LONG
#define MAX_UNSIGNED_LONG (unsigned long)(-1)
#endif
#ifdef ASSERT
#define DEBUG_CALLER_PC (NMT_track_callsite ? os::get_caller_pc(2) : 0)
#else
#define DEBUG_CALLER_PC 0
#endif
// The thread closure walks threads to collect per-thread
// memory recorders at NMT sync point
class SyncThreadRecorderClosure : public ThreadClosure {
private:
int _thread_count;
public:
SyncThreadRecorderClosure() {
_thread_count =0;
}
void do_thread(Thread* thread);
int get_thread_count() const {
return _thread_count;
}
};
class BaselineOutputer;
class MemSnapshot;
class MemTrackWorker;
class Thread;
/*
* MemTracker is the 'gate' class to native memory tracking runtime.
*/
class MemTracker : AllStatic {
friend class GenerationData;
friend class MemTrackWorker;
friend class MemSnapshot;
friend class SyncThreadRecorderClosure;
// NMT state
enum NMTStates {
NMT_uninited, // not yet initialized
NMT_bootstrapping_single_thread, // bootstrapping, VM is in single thread mode
NMT_bootstrapping_multi_thread, // bootstrapping, VM is about to enter multi-thread mode
NMT_started, // NMT fully started
NMT_shutdown_pending, // shutdown pending
NMT_final_shutdown, // in final phase of shutdown
NMT_shutdown // shutdown
};
public:
class Tracker : public StackObj {
friend class MemTracker;
public:
enum MemoryOperation {
NoOp, // no op
Malloc, // malloc
Realloc, // realloc
Free, // free
Reserve, // virtual memory reserve
Commit, // virtual memory commit
ReserveAndCommit, // virtual memory reserve and commit
StackAlloc = ReserveAndCommit, // allocate thread stack
Type, // assign virtual memory type
Uncommit, // virtual memory uncommit
Release, // virtual memory release
ArenaSize, // set arena size
StackRelease // release thread stack
};
protected:
Tracker(MemoryOperation op, Thread* thr = NULL);
public:
void discard();
void record(address addr, size_t size = 0, MEMFLAGS flags = mtNone, address pc = NULL);
void record(address old_addr, address new_addr, size_t size,
MEMFLAGS flags, address pc = NULL);
private:
bool _need_thread_critical_lock;
JavaThread* _java_thread;
MemoryOperation _op; // memory operation
jint _seq; // reserved sequence number
};
public:
// native memory tracking level
enum NMTLevel {
NMT_off, // native memory tracking is off
NMT_summary, // don't track callsite
NMT_detail // track callsite also
};
enum ShutdownReason {
NMT_shutdown_none, // no shutdown requested
NMT_shutdown_user, // user requested shutdown
NMT_normal, // normal shutdown, process exit
NMT_out_of_memory, // shutdown due to out of memory
NMT_initialization, // shutdown due to initialization failure
NMT_use_malloc_only, // can not combine NMT with UseMallocOnly flag
NMT_error_reporting, // shutdown by vmError::report_and_die()
NMT_out_of_generation, // running out of generation queue
NMT_sequence_overflow // overflow the sequence number
};
public:
// initialize NMT tracking level from command line options, called
// from VM command line parsing code
static void init_tracking_options(const char* option_line);
// if NMT is enabled to record memory activities
static inline bool is_on() {
return (_tracking_level >= NMT_summary &&
_state >= NMT_bootstrapping_single_thread);
}
static inline enum NMTLevel tracking_level() {
return _tracking_level;
}
// user readable reason for shutting down NMT
static const char* reason() {
switch(_reason) {
case NMT_shutdown_none:
return "Native memory tracking is not enabled";
case NMT_shutdown_user:
return "Native memory tracking has been shutdown by user";
case NMT_normal:
return "Native memory tracking has been shutdown due to process exiting";
case NMT_out_of_memory:
return "Native memory tracking has been shutdown due to out of native memory";
case NMT_initialization:
return "Native memory tracking failed to initialize";
case NMT_error_reporting:
return "Native memory tracking has been shutdown due to error reporting";
case NMT_out_of_generation:
return "Native memory tracking has been shutdown due to running out of generation buffer";
case NMT_sequence_overflow:
return "Native memory tracking has been shutdown due to overflow the sequence number";
case NMT_use_malloc_only:
return "Native memory tracking is not supported when UseMallocOnly is on";
default:
ShouldNotReachHere();
return NULL;
}
}
// test if we can walk native stack
static bool can_walk_stack() {
// native stack is not walkable during bootstrapping on sparc
#if defined(SPARC)
return (_state == NMT_started);
#else
return (_state >= NMT_bootstrapping_single_thread && _state <= NMT_started);
#endif
}
// if native memory tracking tracks callsite
static inline bool track_callsite() { return _tracking_level == NMT_detail; }
// NMT automatically shuts itself down under extreme situation by default.
// When the value is set to false, NMT will try its best to stay alive,
// even it has to slow down VM.
static inline void set_autoShutdown(bool value) {
AutoShutdownNMT = value;
if (AutoShutdownNMT && _slowdown_calling_thread) {
_slowdown_calling_thread = false;
}
}
// shutdown native memory tracking capability. Native memory tracking
// can be shutdown by VM when it encounters low memory scenarios.
// Memory tracker should gracefully shutdown itself, and preserve the
// latest memory statistics for post morten diagnosis.
static void shutdown(ShutdownReason reason);
// if there is shutdown requested
static inline bool shutdown_in_progress() {
return (_state >= NMT_shutdown_pending);
}
// bootstrap native memory tracking, so it can start to collect raw data
// before worker thread can start
// the first phase of bootstrapping, when VM still in single-threaded mode
static void bootstrap_single_thread();
// the second phase of bootstrapping, VM is about or already in multi-threaded mode
static void bootstrap_multi_thread();
// start() has to be called when VM still in single thread mode, but after
// command line option parsing is done.
static void start();
// record a 'malloc' call
static inline void record_malloc(address addr, size_t size, MEMFLAGS flags,
address pc = 0, Thread* thread = NULL) {
Tracker tkr(Tracker::Malloc, thread);
tkr.record(addr, size, flags, pc);
}
// record a 'free' call
static inline void record_free(address addr, MEMFLAGS flags, Thread* thread = NULL) {
Tracker tkr(Tracker::Free, thread);
tkr.record(addr, 0, flags, DEBUG_CALLER_PC);
}
static inline void record_arena_size(address addr, size_t size) {
Tracker tkr(Tracker::ArenaSize);
tkr.record(addr, size);
}
// record a virtual memory 'reserve' call
static inline void record_virtual_memory_reserve(address addr, size_t size,
MEMFLAGS flags, address pc = 0, Thread* thread = NULL) {
assert(size > 0, "Sanity check");
Tracker tkr(Tracker::Reserve, thread);
tkr.record(addr, size, flags, pc);
}
static inline void record_thread_stack(address addr, size_t size, Thread* thr,
address pc = 0) {
Tracker tkr(Tracker::StackAlloc, thr);
tkr.record(addr, size, mtThreadStack, pc);
}
static inline void release_thread_stack(address addr, size_t size, Thread* thr) {
Tracker tkr(Tracker::StackRelease, thr);
tkr.record(addr, size, mtThreadStack, DEBUG_CALLER_PC);
}
// record a virtual memory 'commit' call
static inline void record_virtual_memory_commit(address addr, size_t size,
address pc, Thread* thread = NULL) {
Tracker tkr(Tracker::Commit, thread);
tkr.record(addr, size, mtNone, pc);
}
static inline void record_virtual_memory_reserve_and_commit(address addr, size_t size,
MEMFLAGS flags, address pc, Thread* thread = NULL) {
Tracker tkr(Tracker::ReserveAndCommit, thread);
tkr.record(addr, size, flags, pc);
}
// record memory type on virtual memory base address
static inline void record_virtual_memory_type(address base, MEMFLAGS flags,
Thread* thread = NULL) {
Tracker tkr(Tracker::Type);
tkr.record(base, 0, flags);
}
// Get memory trackers for memory operations that can result race conditions.
// The memory tracker has to be obtained before realloc, virtual memory uncommit
// and virtual memory release, and call tracker.record() method if operation
// succeeded, or tracker.discard() to abort the tracking.
static inline Tracker get_realloc_tracker() {
return Tracker(Tracker::Realloc);
}
static inline Tracker get_virtual_memory_uncommit_tracker() {
return Tracker(Tracker::Uncommit);
}
static inline Tracker get_virtual_memory_release_tracker() {
return Tracker(Tracker::Release);
}
// create memory baseline of current memory snapshot
static bool baseline();
// is there a memory baseline
static bool has_baseline() {
return _baseline.baselined();
}
// print memory usage from current snapshot
static bool print_memory_usage(BaselineOutputer& out, size_t unit,
bool summary_only = true);
// compare memory usage between current snapshot and baseline
static bool compare_memory_usage(BaselineOutputer& out, size_t unit,
bool summary_only = true);
// the version for whitebox testing support, it ensures that all memory
// activities before this method call, are reflected in the snapshot
// database.
static bool wbtest_wait_for_data_merge();
// sync is called within global safepoint to synchronize nmt data
static void sync();
// called when a thread is about to exit
static void thread_exiting(JavaThread* thread);
// retrieve global snapshot
static MemSnapshot* get_snapshot() {
if (shutdown_in_progress()) {
return NULL;
}
return _snapshot;
}
// print tracker stats
NOT_PRODUCT(static void print_tracker_stats(outputStream* st);)
NOT_PRODUCT(static void walk_stack(int toSkip, char* buf, int len);)
private:
// start native memory tracking worker thread
static bool start_worker(MemSnapshot* snapshot);
// called by worker thread to complete shutdown process
static void final_shutdown();
protected:
// retrieve per-thread recorder of the specified thread.
// if the recorder is full, it will be enqueued to overflow
// queue, a new recorder is acquired from recorder pool or a
// new instance is created.
// when thread == NULL, it means global recorder
static MemRecorder* get_thread_recorder(JavaThread* thread);
// per-thread recorder pool
static void release_thread_recorder(MemRecorder* rec);
static void delete_all_pooled_recorders();
// pending recorder queue. Recorders are queued to pending queue
// when they are overflowed or collected at nmt sync point.
static void enqueue_pending_recorder(MemRecorder* rec);
static MemRecorder* get_pending_recorders();
static void delete_all_pending_recorders();
// write a memory tracking record in recorder
static void write_tracking_record(address addr, MEMFLAGS type,
size_t size, jint seq, address pc, JavaThread* thread);
static bool is_single_threaded_bootstrap() {
return _state == NMT_bootstrapping_single_thread;
}
static void check_NMT_load(Thread* thr) {
assert(thr != NULL, "Sanity check");
if (_slowdown_calling_thread && thr != _worker_thread) {
os::yield_all();
}
}
static void inc_pending_op_count() {
Atomic::inc(&_pending_op_count);
}
static void dec_pending_op_count() {
Atomic::dec(&_pending_op_count);
assert(_pending_op_count >= 0, "Sanity check");
}
private:
// retrieve a pooled memory record or create new one if there is not
// one available
static MemRecorder* get_new_or_pooled_instance();
static void create_memory_record(address addr, MEMFLAGS type,
size_t size, address pc, Thread* thread);
static void create_record_in_recorder(address addr, MEMFLAGS type,
size_t size, address pc, JavaThread* thread);
static void set_current_processing_generation(unsigned long generation) {
_worker_thread_idle = false;
_processing_generation = generation;
}
static void report_worker_idle() {
_worker_thread_idle = true;
}
private:
// global memory snapshot
static MemSnapshot* _snapshot;
// a memory baseline of snapshot
static MemBaseline _baseline;
// query lock
static Mutex* _query_lock;
// a thread can start to allocate memory before it is attached
// to VM 'Thread', those memory activities are recorded here.
// ThreadCritical is required to guard this global recorder.
static MemRecorder* volatile _global_recorder;
// main thread id
debug_only(static intx _main_thread_tid;)
// pending recorders to be merged
static MemRecorder* volatile _merge_pending_queue;
NOT_PRODUCT(static volatile jint _pending_recorder_count;)
// pooled memory recorders
static MemRecorder* volatile _pooled_recorders;
// memory recorder pool management, uses following
// counter to determine if a released memory recorder
// should be pooled
// latest thread count
static int _thread_count;
// pooled recorder count
static volatile jint _pooled_recorder_count;
// worker thread to merge pending recorders into snapshot
static MemTrackWorker* _worker_thread;
// how many safepoints we skipped without entering sync point
static int _sync_point_skip_count;
// if the tracker is properly intialized
static bool _is_tracker_ready;
// tracking level (off, summary and detail)
static enum NMTLevel _tracking_level;
// current nmt state
static volatile enum NMTStates _state;
// the reason for shutting down nmt
static enum ShutdownReason _reason;
// the generation that NMT is processing
static volatile unsigned long _processing_generation;
// although NMT is still procesing current generation, but
// there is not more recorder to process, set idle state
static volatile bool _worker_thread_idle;
// if NMT should slow down calling thread to allow
// worker thread to catch up
static volatile bool _slowdown_calling_thread;
// pending memory op count.
// Certain memory ops need to pre-reserve sequence number
// before memory operation can happen to avoid race condition.
// See MemTracker::Tracker for detail
static volatile jint _pending_op_count;
};
#endif // !INCLUDE_NMT
#endif // SHARE_VM_SERVICES_MEM_TRACKER_HPP