root/content/browser/dom_storage/dom_storage_namespace.cc

DEFINITIONS

1. must_persist_at_shutdown_
2. must_persist_at_shutdown_
3. OpenStorageArea
4. CloseStorageArea
5. GetOpenStorageArea
6. Clone
7. CreateAlias
8. DeleteLocalStorageOrigin
9. DeleteSessionStorageOrigin
10. PurgeMemory
11. Shutdown
12. CountInMemoryAreas
13. GetAreaHolder
14. AddTransactionLogProcessId
15. RemoveTransactionLogProcessId
16. IsLoggingRenderer
17. AddTransaction
18. DecrementMasterAliasCount
19. SwitchToNewAliasMaster
20. open_count_

// Copyright 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "content/browser/dom_storage/dom_storage_namespace.h"

#include <set>
#include <utility>

#include "base/basictypes.h"
#include "base/bind.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/stl_util.h"
#include "content/browser/dom_storage/dom_storage_area.h"
#include "content/browser/dom_storage/dom_storage_context_impl.h"
#include "content/browser/dom_storage/dom_storage_task_runner.h"
#include "content/browser/dom_storage/session_storage_database.h"
#include "content/common/dom_storage/dom_storage_types.h"
#include "content/public/common/child_process_host.h"

namespace content {

namespace {

static const unsigned int kMaxTransactionLogEntries = 8 * 1024;

}  // namespace

DOMStorageNamespace::DOMStorageNamespace(
    const base::FilePath& directory,
    DOMStorageTaskRunner* task_runner)
    : namespace_id_(kLocalStorageNamespaceId),
      directory_(directory),
      task_runner_(task_runner),
      num_aliases_(0),
      old_master_for_close_area_(NULL),
      master_alias_count_decremented_(false),
      ready_for_deletion_pending_aliases_(false),
      must_persist_at_shutdown_(false) {
}

DOMStorageNamespace::DOMStorageNamespace(
    int64 namespace_id,
    const std::string& persistent_namespace_id,
    SessionStorageDatabase* session_storage_database,
    DOMStorageTaskRunner* task_runner)
    : namespace_id_(namespace_id),
      persistent_namespace_id_(persistent_namespace_id),
      task_runner_(task_runner),
      session_storage_database_(session_storage_database),
      num_aliases_(0),
      old_master_for_close_area_(NULL),
      master_alias_count_decremented_(false),
      ready_for_deletion_pending_aliases_(false),
      must_persist_at_shutdown_(false) {
  DCHECK_NE(kLocalStorageNamespaceId, namespace_id);
}

DOMStorageNamespace::~DOMStorageNamespace() {
  STLDeleteValues(&transactions_);
  DecrementMasterAliasCount();
}

DOMStorageArea* DOMStorageNamespace::OpenStorageArea(const GURL& origin) {
  if (alias_master_namespace_)
    return alias_master_namespace_->OpenStorageArea(origin);
  if (AreaHolder* holder = GetAreaHolder(origin)) {
    ++(holder->open_count_);
    return holder->area_.get();
  }
  DOMStorageArea* area;
  if (namespace_id_ == kLocalStorageNamespaceId) {
    area = new DOMStorageArea(origin, directory_, task_runner_.get());
  } else {
    area = new DOMStorageArea(
        namespace_id_, persistent_namespace_id_, origin,
        session_storage_database_.get(), task_runner_.get());
  }
  areas_[origin] = AreaHolder(area, 1);
  return area;
}

void DOMStorageNamespace::CloseStorageArea(DOMStorageArea* area) {
  AreaHolder* holder = GetAreaHolder(area->origin());
  if (alias_master_namespace_) {
    DCHECK(!holder);
    if (old_master_for_close_area_)
      old_master_for_close_area_->CloseStorageArea(area);
    else
      alias_master_namespace_->CloseStorageArea(area);
    return;
  }
  DCHECK(holder);
  DCHECK_EQ(holder->area_.get(), area);
  --(holder->open_count_);
  // TODO(michaeln): Clean up areas that aren't needed in memory anymore.
  // The in-process-webkit based impl didn't do this either, but would be nice.
}

DOMStorageArea* DOMStorageNamespace::GetOpenStorageArea(const GURL& origin) {
  if (alias_master_namespace_)
    return alias_master_namespace_->GetOpenStorageArea(origin);
  AreaHolder* holder = GetAreaHolder(origin);
  if (holder && holder->open_count_)
    return holder->area_.get();
  return NULL;
}

DOMStorageNamespace* DOMStorageNamespace::Clone(
    int64 clone_namespace_id,
    const std::string& clone_persistent_namespace_id) {
  if (alias_master_namespace_) {
    return alias_master_namespace_->Clone(clone_namespace_id,
                                          clone_persistent_namespace_id);
  }
  DCHECK_NE(kLocalStorageNamespaceId, namespace_id_);
  DCHECK_NE(kLocalStorageNamespaceId, clone_namespace_id);
  DOMStorageNamespace* clone = new DOMStorageNamespace(
      clone_namespace_id, clone_persistent_namespace_id,
      session_storage_database_.get(), task_runner_.get());
  AreaMap::const_iterator it = areas_.begin();
  // Clone the in-memory structures.
  for (; it != areas_.end(); ++it) {
    DOMStorageArea* area = it->second.area_->ShallowCopy(
        clone_namespace_id, clone_persistent_namespace_id);
    clone->areas_[it->first] = AreaHolder(area, 0);
  }
  // And clone the on-disk structures, too.
  if (session_storage_database_.get()) {
    task_runner_->PostShutdownBlockingTask(
        FROM_HERE,
        DOMStorageTaskRunner::COMMIT_SEQUENCE,
        base::Bind(base::IgnoreResult(&SessionStorageDatabase::CloneNamespace),
                   session_storage_database_.get(), persistent_namespace_id_,
                   clone_persistent_namespace_id));
  }
  return clone;
}

DOMStorageNamespace* DOMStorageNamespace::CreateAlias(
    int64 alias_namespace_id) {
  // Creates an alias of the current DOMStorageNamespace.
  // The alias will have a reference to this namespace (called the master),
  // and all operations will be redirected to the master (in particular,
  // the alias will never open any areas of its own, but always redirect
  // to the master). Accordingly, an alias will also never undergo the shutdown
  // procedure which initiates persisting to disk, since there is never any data
  // of its own to persist to disk. DOMStorageContextImpl is the place where
  // shutdowns are initiated, but only for non-alias DOMStorageNamespaces.
  DCHECK_NE(kLocalStorageNamespaceId, namespace_id_);
  DCHECK_NE(kLocalStorageNamespaceId, alias_namespace_id);
  DOMStorageNamespace* alias = new DOMStorageNamespace(
      alias_namespace_id, persistent_namespace_id_,
      session_storage_database_.get(), task_runner_.get());
  if (alias_master_namespace_ != NULL) {
    DCHECK(alias_master_namespace_->alias_master_namespace_ == NULL);
    alias->alias_master_namespace_ = alias_master_namespace_;
  } else {
    alias->alias_master_namespace_ = this;
  }
  alias->alias_master_namespace_->num_aliases_++;
  return alias;
}

void DOMStorageNamespace::DeleteLocalStorageOrigin(const GURL& origin) {
  DCHECK(!session_storage_database_.get());
  DCHECK(!alias_master_namespace_.get());
  AreaHolder* holder = GetAreaHolder(origin);
  if (holder) {
    holder->area_->DeleteOrigin();
    return;
  }
  if (!directory_.empty()) {
    scoped_refptr<DOMStorageArea> area =
        new DOMStorageArea(origin, directory_, task_runner_.get());
    area->DeleteOrigin();
  }
}

void DOMStorageNamespace::DeleteSessionStorageOrigin(const GURL& origin) {
  if (alias_master_namespace_) {
    alias_master_namespace_->DeleteSessionStorageOrigin(origin);
    return;
  }
  DOMStorageArea* area = OpenStorageArea(origin);
  area->FastClear();
  CloseStorageArea(area);
}

void DOMStorageNamespace::PurgeMemory(PurgeOption option) {
  if (alias_master_namespace_) {
    alias_master_namespace_->PurgeMemory(option);
    return;
  }
  if (directory_.empty())
    return;  // We can't purge w/o backing on disk.
  AreaMap::iterator it = areas_.begin();
  while (it != areas_.end()) {
    // Leave it alone if changes are pending
    if (it->second.area_->HasUncommittedChanges()) {
      ++it;
      continue;
    }

    // If not in use, we can shut it down and remove
    // it from our collection entirely.
    if (it->second.open_count_ == 0) {
      it->second.area_->Shutdown();
      areas_.erase(it++);
      continue;
    }

    if (option == PURGE_AGGRESSIVE) {
      // If aggressive is true, we clear caches and such
      // for opened areas.
      it->second.area_->PurgeMemory();
    }

    ++it;
  }
}

void DOMStorageNamespace::Shutdown() {
  AreaMap::const_iterator it = areas_.begin();
  for (; it != areas_.end(); ++it)
    it->second.area_->Shutdown();
}

unsigned int DOMStorageNamespace::CountInMemoryAreas() const {
  if (alias_master_namespace_)
    return alias_master_namespace_->CountInMemoryAreas();
  unsigned int area_count = 0;
  for (AreaMap::const_iterator it = areas_.begin(); it != areas_.end(); ++it) {
    if (it->second.area_->IsLoadedInMemory())
      ++area_count;
  }
  return area_count;
}

DOMStorageNamespace::AreaHolder*
DOMStorageNamespace::GetAreaHolder(const GURL& origin) {
  AreaMap::iterator found = areas_.find(origin);
  if (found == areas_.end())
    return NULL;
  return &(found->second);
}

void DOMStorageNamespace::AddTransactionLogProcessId(int process_id) {
  DCHECK(process_id != ChildProcessHost::kInvalidUniqueID);
  DCHECK(transactions_.count(process_id) == 0);
  TransactionData* transaction_data = new TransactionData;
  transactions_[process_id] = transaction_data;
}

void DOMStorageNamespace::RemoveTransactionLogProcessId(int process_id) {
  DCHECK(process_id != ChildProcessHost::kInvalidUniqueID);
  DCHECK(transactions_.count(process_id) == 1);
  delete transactions_[process_id];
  transactions_.erase(process_id);
}

SessionStorageNamespace::MergeResult DOMStorageNamespace::Merge(
    bool actually_merge,
    int process_id,
    DOMStorageNamespace* other,
    DOMStorageContextImpl* context) {
  if (!alias_master_namespace())
    return SessionStorageNamespace::MERGE_RESULT_NAMESPACE_NOT_ALIAS;
  if (transactions_.count(process_id) < 1)
    return SessionStorageNamespace::MERGE_RESULT_NOT_LOGGING;
  TransactionData* data = transactions_[process_id];
  if (data->max_log_size_exceeded)
    return SessionStorageNamespace::MERGE_RESULT_TOO_MANY_TRANSACTIONS;
  if (data->log.size() < 1) {
    if (actually_merge)
      SwitchToNewAliasMaster(other, context);
    return SessionStorageNamespace::MERGE_RESULT_NO_TRANSACTIONS;
  }

  // skip_areas and skip_keys store areas and (area, key) pairs, respectively,
  // that have already been handled previously. Any further modifications to
  // them will not change the result of the hypothetical merge.
  std::set<GURL> skip_areas;
  typedef std::pair<GURL, base::string16> OriginKey;
  std::set<OriginKey> skip_keys;
  // Indicates whether we could still merge the namespaces preserving all
  // individual transactions.
  for (unsigned int i = 0; i < data->log.size(); i++) {
    TransactionRecord& transaction = data->log[i];
    if (transaction.transaction_type == TRANSACTION_CLEAR) {
      skip_areas.insert(transaction.origin);
      continue;
    }
    if (skip_areas.find(transaction.origin) != skip_areas.end())
      continue;
    if (skip_keys.find(OriginKey(transaction.origin, transaction.key))
        != skip_keys.end()) {
      continue;
    }
    if (transaction.transaction_type == TRANSACTION_REMOVE ||
        transaction.transaction_type == TRANSACTION_WRITE) {
      skip_keys.insert(OriginKey(transaction.origin, transaction.key));
      continue;
    }
    if (transaction.transaction_type == TRANSACTION_READ) {
      DOMStorageArea* area = other->OpenStorageArea(transaction.origin);
      base::NullableString16 other_value = area->GetItem(transaction.key);
      other->CloseStorageArea(area);
      if (transaction.value != other_value)
        return SessionStorageNamespace::MERGE_RESULT_NOT_MERGEABLE;
      continue;
    }
    NOTREACHED();
  }
  if (!actually_merge)
    return SessionStorageNamespace::MERGE_RESULT_MERGEABLE;

  // Actually perform the merge.

  for (unsigned int i = 0; i < data->log.size(); i++) {
    TransactionRecord& transaction = data->log[i];
    if (transaction.transaction_type == TRANSACTION_READ)
      continue;
    DOMStorageArea* area = other->OpenStorageArea(transaction.origin);
    if (transaction.transaction_type == TRANSACTION_CLEAR) {
      area->Clear();
      if (context)
        context->NotifyAreaCleared(area, transaction.page_url);
    }
    if (transaction.transaction_type == TRANSACTION_REMOVE) {
      base::string16 old_value;
      area->RemoveItem(transaction.key, &old_value);
      if (context) {
        context->NotifyItemRemoved(area, transaction.key, old_value,
                                   transaction.page_url);
      }
    }
    if (transaction.transaction_type == TRANSACTION_WRITE) {
      base::NullableString16 old_value;
      area->SetItem(transaction.key, base::string16(transaction.value.string()),
                    &old_value);
      if (context) {
        context->NotifyItemSet(area, transaction.key,transaction.value.string(),
                               old_value, transaction.page_url);
      }
    }
    other->CloseStorageArea(area);
  }

  SwitchToNewAliasMaster(other, context);
  return SessionStorageNamespace::MERGE_RESULT_MERGEABLE;
}

bool DOMStorageNamespace::IsLoggingRenderer(int process_id) {
  DCHECK(process_id != ChildProcessHost::kInvalidUniqueID);
  if (transactions_.count(process_id) < 1)
    return false;
  return !transactions_[process_id]->max_log_size_exceeded;
}

void DOMStorageNamespace::AddTransaction(
    int process_id, const TransactionRecord& transaction) {
  if (!IsLoggingRenderer(process_id))
    return;
  TransactionData* transaction_data = transactions_[process_id];
  DCHECK(transaction_data);
  if (transaction_data->max_log_size_exceeded)
    return;
  transaction_data->log.push_back(transaction);
  if (transaction_data->log.size() > kMaxTransactionLogEntries) {
    transaction_data->max_log_size_exceeded = true;
    transaction_data->log.clear();
  }
}

bool DOMStorageNamespace::DecrementMasterAliasCount() {
  if (!alias_master_namespace_ || master_alias_count_decremented_)
    return false;
  DCHECK_GT(alias_master_namespace_->num_aliases_, 0);
  alias_master_namespace_->num_aliases_--;
  master_alias_count_decremented_ = true;
  return (alias_master_namespace_->num_aliases_ == 0);
}

void DOMStorageNamespace::SwitchToNewAliasMaster(
    DOMStorageNamespace* new_master,
    DOMStorageContextImpl* context) {
  DCHECK(alias_master_namespace());
  scoped_refptr<DOMStorageNamespace> old_master = alias_master_namespace();
  if (new_master->alias_master_namespace())
    new_master = new_master->alias_master_namespace();
  DCHECK(!new_master->alias_master_namespace());
  DCHECK(old_master != this);
  DCHECK(old_master != new_master);
  DecrementMasterAliasCount();
  alias_master_namespace_ = new_master;
  alias_master_namespace_->num_aliases_++;
  master_alias_count_decremented_ = false;
  // There are three things that we need to clean up:
  // -- the old master may ready for shutdown, if its last alias has disappeared
  // -- The dom_storage hosts need to close and reopen their areas, so that
  // they point to the correct new areas.
  // -- The renderers will need to reset their local caches.
  // All three of these things are accomplished with the following call below.
  // |context| will be NULL in unit tests, which is when this will
  // not apply, of course.
  // During this call, open areas will be closed & reopened, so that they now
  // come from the correct new master. Therefore, we must send close operations
  // to the old master.
  old_master_for_close_area_ = old_master.get();
  if (context)
    context->NotifyAliasSessionMerged(namespace_id(), old_master.get());
  old_master_for_close_area_ = NULL;
}

DOMStorageNamespace::TransactionData::TransactionData()
    : max_log_size_exceeded(false) {
}

DOMStorageNamespace::TransactionData::~TransactionData() {
}

DOMStorageNamespace::TransactionRecord::TransactionRecord() {
}

DOMStorageNamespace::TransactionRecord::~TransactionRecord() {
}

// AreaHolder

DOMStorageNamespace::AreaHolder::AreaHolder()
    : open_count_(0) {
}

DOMStorageNamespace::AreaHolder::AreaHolder(
    DOMStorageArea* area, int count)
    : area_(area), open_count_(count) {
}

DOMStorageNamespace::AreaHolder::~AreaHolder() {
}

}  // namespace content