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377 lines
12 KiB
C++
377 lines
12 KiB
C++
// Copyright 2014 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/memory/discardable_shared_memory.h"
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#if defined(OS_POSIX)
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#include <unistd.h>
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#endif
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#include <algorithm>
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#include "base/atomicops.h"
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#include "base/logging.h"
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#include "base/numerics/safe_math.h"
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#include "base/process/process_metrics.h"
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#if defined(OS_ANDROID)
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#include "third_party/ashmem/ashmem.h"
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#endif
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namespace base {
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namespace {
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// Use a machine-sized pointer as atomic type. It will use the Atomic32 or
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// Atomic64 routines, depending on the architecture.
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typedef intptr_t AtomicType;
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typedef uintptr_t UAtomicType;
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// Template specialization for timestamp serialization/deserialization. This
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// is used to serialize timestamps using Unix time on systems where AtomicType
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// does not have enough precision to contain a timestamp in the standard
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// serialized format.
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template <int>
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Time TimeFromWireFormat(int64 value);
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template <int>
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int64 TimeToWireFormat(Time time);
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// Serialize to Unix time when using 4-byte wire format.
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// Note: 19 January 2038, this will cease to work.
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template <>
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Time ALLOW_UNUSED_TYPE TimeFromWireFormat<4>(int64 value) {
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return value ? Time::UnixEpoch() + TimeDelta::FromSeconds(value) : Time();
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}
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template <>
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int64 ALLOW_UNUSED_TYPE TimeToWireFormat<4>(Time time) {
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return time > Time::UnixEpoch() ? (time - Time::UnixEpoch()).InSeconds() : 0;
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}
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// Standard serialization format when using 8-byte wire format.
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template <>
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Time ALLOW_UNUSED_TYPE TimeFromWireFormat<8>(int64 value) {
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return Time::FromInternalValue(value);
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}
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template <>
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int64 ALLOW_UNUSED_TYPE TimeToWireFormat<8>(Time time) {
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return time.ToInternalValue();
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}
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struct SharedState {
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enum LockState { UNLOCKED = 0, LOCKED = 1 };
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explicit SharedState(AtomicType ivalue) { value.i = ivalue; }
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SharedState(LockState lock_state, Time timestamp) {
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int64 wire_timestamp = TimeToWireFormat<sizeof(AtomicType)>(timestamp);
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DCHECK_GE(wire_timestamp, 0);
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DCHECK_EQ(lock_state & ~1, 0);
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value.u = (static_cast<UAtomicType>(wire_timestamp) << 1) | lock_state;
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}
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LockState GetLockState() const { return static_cast<LockState>(value.u & 1); }
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Time GetTimestamp() const {
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return TimeFromWireFormat<sizeof(AtomicType)>(value.u >> 1);
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}
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// Bit 1: Lock state. Bit is set when locked.
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// Bit 2..sizeof(AtomicType)*8: Usage timestamp. NULL time when locked or
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// purged.
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union {
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AtomicType i;
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UAtomicType u;
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} value;
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};
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// Shared state is stored at offset 0 in shared memory segments.
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SharedState* SharedStateFromSharedMemory(const SharedMemory& shared_memory) {
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DCHECK(shared_memory.memory());
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return static_cast<SharedState*>(shared_memory.memory());
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}
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// Round up |size| to a multiple of alignment, which must be a power of two.
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size_t Align(size_t alignment, size_t size) {
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DCHECK_EQ(alignment & (alignment - 1), 0u);
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return (size + alignment - 1) & ~(alignment - 1);
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}
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// Round up |size| to a multiple of page size.
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size_t AlignToPageSize(size_t size) {
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return Align(base::GetPageSize(), size);
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}
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} // namespace
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DiscardableSharedMemory::DiscardableSharedMemory()
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: mapped_size_(0), locked_page_count_(0) {
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}
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DiscardableSharedMemory::DiscardableSharedMemory(
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SharedMemoryHandle shared_memory_handle)
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: shared_memory_(shared_memory_handle, false),
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mapped_size_(0),
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locked_page_count_(0) {
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}
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DiscardableSharedMemory::~DiscardableSharedMemory() {
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}
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bool DiscardableSharedMemory::CreateAndMap(size_t size) {
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CheckedNumeric<size_t> checked_size = size;
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checked_size += AlignToPageSize(sizeof(SharedState));
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if (!checked_size.IsValid())
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return false;
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if (!shared_memory_.CreateAndMapAnonymous(checked_size.ValueOrDie()))
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return false;
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mapped_size_ =
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shared_memory_.mapped_size() - AlignToPageSize(sizeof(SharedState));
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locked_page_count_ = AlignToPageSize(mapped_size_) / base::GetPageSize();
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#if DCHECK_IS_ON()
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for (size_t page = 0; page < locked_page_count_; ++page)
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locked_pages_.insert(page);
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#endif
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DCHECK(last_known_usage_.is_null());
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SharedState new_state(SharedState::LOCKED, Time());
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subtle::Release_Store(&SharedStateFromSharedMemory(shared_memory_)->value.i,
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new_state.value.i);
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return true;
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}
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bool DiscardableSharedMemory::Map(size_t size) {
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if (!shared_memory_.Map(AlignToPageSize(sizeof(SharedState)) + size))
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return false;
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mapped_size_ =
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shared_memory_.mapped_size() - AlignToPageSize(sizeof(SharedState));
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locked_page_count_ = AlignToPageSize(mapped_size_) / base::GetPageSize();
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#if DCHECK_IS_ON()
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for (size_t page = 0; page < locked_page_count_; ++page)
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locked_pages_.insert(page);
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#endif
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return true;
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}
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bool DiscardableSharedMemory::Unmap() {
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if (!shared_memory_.Unmap())
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return false;
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mapped_size_ = 0;
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return true;
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}
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DiscardableSharedMemory::LockResult DiscardableSharedMemory::Lock(
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size_t offset, size_t length) {
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DCHECK_EQ(AlignToPageSize(offset), offset);
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DCHECK_EQ(AlignToPageSize(length), length);
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// Calls to this function must be synchronized properly.
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DFAKE_SCOPED_LOCK(thread_collision_warner_);
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DCHECK(shared_memory_.memory());
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// We need to successfully acquire the platform independent lock before
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// individual pages can be locked.
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if (!locked_page_count_) {
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// Return false when instance has been purged or not initialized properly
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// by checking if |last_known_usage_| is NULL.
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if (last_known_usage_.is_null())
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return FAILED;
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SharedState old_state(SharedState::UNLOCKED, last_known_usage_);
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SharedState new_state(SharedState::LOCKED, Time());
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SharedState result(subtle::Acquire_CompareAndSwap(
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&SharedStateFromSharedMemory(shared_memory_)->value.i,
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old_state.value.i,
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new_state.value.i));
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if (result.value.u != old_state.value.u) {
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// Update |last_known_usage_| in case the above CAS failed because of
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// an incorrect timestamp.
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last_known_usage_ = result.GetTimestamp();
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return FAILED;
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}
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}
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// Zero for length means "everything onward".
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if (!length)
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length = AlignToPageSize(mapped_size_) - offset;
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size_t start = offset / base::GetPageSize();
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size_t end = start + length / base::GetPageSize();
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DCHECK_LT(start, end);
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DCHECK_LE(end, AlignToPageSize(mapped_size_) / base::GetPageSize());
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// Add pages to |locked_page_count_|.
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// Note: Locking a page that is already locked is an error.
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locked_page_count_ += end - start;
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#if DCHECK_IS_ON()
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// Detect incorrect usage by keeping track of exactly what pages are locked.
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for (auto page = start; page < end; ++page) {
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auto result = locked_pages_.insert(page);
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DCHECK(result.second);
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}
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DCHECK_EQ(locked_pages_.size(), locked_page_count_);
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#endif
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#if defined(OS_ANDROID)
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SharedMemoryHandle handle = shared_memory_.handle();
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if (SharedMemory::IsHandleValid(handle)) {
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if (ashmem_pin_region(
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handle.fd, AlignToPageSize(sizeof(SharedState)) + offset, length)) {
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return PURGED;
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}
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}
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#endif
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return SUCCESS;
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}
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void DiscardableSharedMemory::Unlock(size_t offset, size_t length) {
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DCHECK_EQ(AlignToPageSize(offset), offset);
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DCHECK_EQ(AlignToPageSize(length), length);
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// Calls to this function must be synchronized properly.
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DFAKE_SCOPED_LOCK(thread_collision_warner_);
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// Zero for length means "everything onward".
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if (!length)
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length = AlignToPageSize(mapped_size_) - offset;
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DCHECK(shared_memory_.memory());
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#if defined(OS_ANDROID)
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SharedMemoryHandle handle = shared_memory_.handle();
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if (SharedMemory::IsHandleValid(handle)) {
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if (ashmem_unpin_region(
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handle.fd, AlignToPageSize(sizeof(SharedState)) + offset, length)) {
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DPLOG(ERROR) << "ashmem_unpin_region() failed";
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}
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}
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#endif
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size_t start = offset / base::GetPageSize();
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size_t end = start + length / base::GetPageSize();
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DCHECK_LT(start, end);
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DCHECK_LE(end, AlignToPageSize(mapped_size_) / base::GetPageSize());
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// Remove pages from |locked_page_count_|.
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// Note: Unlocking a page that is not locked is an error.
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DCHECK_GE(locked_page_count_, end - start);
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locked_page_count_ -= end - start;
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#if DCHECK_IS_ON()
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// Detect incorrect usage by keeping track of exactly what pages are locked.
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for (auto page = start; page < end; ++page) {
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auto erased_count = locked_pages_.erase(page);
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DCHECK_EQ(1u, erased_count);
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}
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DCHECK_EQ(locked_pages_.size(), locked_page_count_);
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#endif
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// Early out and avoid releasing the platform independent lock if some pages
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// are still locked.
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if (locked_page_count_)
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return;
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Time current_time = Now();
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DCHECK(!current_time.is_null());
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SharedState old_state(SharedState::LOCKED, Time());
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SharedState new_state(SharedState::UNLOCKED, current_time);
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// Note: timestamp cannot be NULL as that is a unique value used when
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// locked or purged.
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DCHECK(!new_state.GetTimestamp().is_null());
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// Timestamp precision should at least be accurate to the second.
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DCHECK_EQ((new_state.GetTimestamp() - Time::UnixEpoch()).InSeconds(),
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(current_time - Time::UnixEpoch()).InSeconds());
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SharedState result(subtle::Release_CompareAndSwap(
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&SharedStateFromSharedMemory(shared_memory_)->value.i,
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old_state.value.i,
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new_state.value.i));
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DCHECK_EQ(old_state.value.u, result.value.u);
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last_known_usage_ = current_time;
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}
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void* DiscardableSharedMemory::memory() const {
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return reinterpret_cast<uint8*>(shared_memory_.memory()) +
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AlignToPageSize(sizeof(SharedState));
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}
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bool DiscardableSharedMemory::Purge(Time current_time) {
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// Calls to this function must be synchronized properly.
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DFAKE_SCOPED_LOCK(thread_collision_warner_);
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// Early out if not mapped. This can happen if the segment was previously
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// unmapped using a call to Close().
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if (!shared_memory_.memory())
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return true;
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SharedState old_state(SharedState::UNLOCKED, last_known_usage_);
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SharedState new_state(SharedState::UNLOCKED, Time());
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SharedState result(subtle::Acquire_CompareAndSwap(
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&SharedStateFromSharedMemory(shared_memory_)->value.i,
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old_state.value.i,
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new_state.value.i));
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// Update |last_known_usage_| to |current_time| if the memory is locked. This
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// allows the caller to determine if purging failed because last known usage
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// was incorrect or memory was locked. In the second case, the caller should
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// most likely wait for some amount of time before attempting to purge the
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// the memory again.
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if (result.value.u != old_state.value.u) {
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last_known_usage_ = result.GetLockState() == SharedState::LOCKED
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? current_time
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: result.GetTimestamp();
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return false;
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}
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last_known_usage_ = Time();
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return true;
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}
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bool DiscardableSharedMemory::IsMemoryResident() const {
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DCHECK(shared_memory_.memory());
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SharedState result(subtle::NoBarrier_Load(
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&SharedStateFromSharedMemory(shared_memory_)->value.i));
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return result.GetLockState() == SharedState::LOCKED ||
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!result.GetTimestamp().is_null();
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}
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void DiscardableSharedMemory::Close() {
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shared_memory_.Close();
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}
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#if defined(DISCARDABLE_SHARED_MEMORY_SHRINKING)
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void DiscardableSharedMemory::Shrink() {
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#if defined(OS_POSIX)
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SharedMemoryHandle handle = shared_memory_.handle();
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if (!SharedMemory::IsHandleValid(handle))
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return;
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// Truncate shared memory to size of SharedState.
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if (HANDLE_EINTR(ftruncate(SharedMemory::GetFdFromSharedMemoryHandle(handle),
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AlignToPageSize(sizeof(SharedState)))) != 0) {
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DPLOG(ERROR) << "ftruncate() failed";
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return;
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}
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mapped_size_ = 0;
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#else
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NOTIMPLEMENTED();
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#endif
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}
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#endif
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Time DiscardableSharedMemory::Now() const {
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return Time::Now();
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}
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} // namespace base
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