Battery Status API: add UMA logging for Linux.
[chromium-blink-merge.git] / content / browser / indexed_db / indexed_db_context_impl.cc
blobb771093493798f86bfab1b9d422dc9d7072e569c
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "content/browser/indexed_db/indexed_db_context_impl.h"
7 #include <algorithm>
8 #include <utility>
10 #include "base/bind.h"
11 #include "base/command_line.h"
12 #include "base/file_util.h"
13 #include "base/files/file_enumerator.h"
14 #include "base/logging.h"
15 #include "base/metrics/histogram.h"
16 #include "base/sequenced_task_runner.h"
17 #include "base/strings/string_util.h"
18 #include "base/strings/utf_string_conversions.h"
19 #include "base/threading/thread_restrictions.h"
20 #include "base/time/time.h"
21 #include "base/values.h"
22 #include "content/browser/browser_main_loop.h"
23 #include "content/browser/indexed_db/indexed_db_connection.h"
24 #include "content/browser/indexed_db/indexed_db_database.h"
25 #include "content/browser/indexed_db/indexed_db_dispatcher_host.h"
26 #include "content/browser/indexed_db/indexed_db_factory_impl.h"
27 #include "content/browser/indexed_db/indexed_db_quota_client.h"
28 #include "content/browser/indexed_db/indexed_db_tracing.h"
29 #include "content/browser/indexed_db/indexed_db_transaction.h"
30 #include "content/public/browser/browser_thread.h"
31 #include "content/public/browser/indexed_db_info.h"
32 #include "content/public/common/content_switches.h"
33 #include "ui/base/text/bytes_formatting.h"
34 #include "webkit/browser/database/database_util.h"
35 #include "webkit/browser/quota/quota_manager_proxy.h"
36 #include "webkit/browser/quota/special_storage_policy.h"
37 #include "webkit/common/database/database_identifier.h"
39 using base::DictionaryValue;
40 using base::ListValue;
41 using storage::DatabaseUtil;
43 namespace content {
44 const base::FilePath::CharType IndexedDBContextImpl::kIndexedDBDirectory[] =
45 FILE_PATH_LITERAL("IndexedDB");
47 static const base::FilePath::CharType kIndexedDBExtension[] =
48 FILE_PATH_LITERAL(".indexeddb");
50 static const base::FilePath::CharType kLevelDBExtension[] =
51 FILE_PATH_LITERAL(".leveldb");
53 namespace {
55 // This may be called after the IndexedDBContext is destroyed.
56 void GetAllOriginsAndPaths(const base::FilePath& indexeddb_path,
57 std::vector<GURL>* origins,
58 std::vector<base::FilePath>* file_paths) {
59 // TODO(jsbell): DCHECK that this is running on an IndexedDB thread,
60 // if a global handle to it is ever available.
61 if (indexeddb_path.empty())
62 return;
63 base::FileEnumerator file_enumerator(
64 indexeddb_path, false, base::FileEnumerator::DIRECTORIES);
65 for (base::FilePath file_path = file_enumerator.Next(); !file_path.empty();
66 file_path = file_enumerator.Next()) {
67 if (file_path.Extension() == kLevelDBExtension &&
68 file_path.RemoveExtension().Extension() == kIndexedDBExtension) {
69 std::string origin_id = file_path.BaseName().RemoveExtension()
70 .RemoveExtension().MaybeAsASCII();
71 origins->push_back(storage::GetOriginFromIdentifier(origin_id));
72 if (file_paths)
73 file_paths->push_back(file_path);
78 // This will be called after the IndexedDBContext is destroyed.
79 void ClearSessionOnlyOrigins(
80 const base::FilePath& indexeddb_path,
81 scoped_refptr<storage::SpecialStoragePolicy> special_storage_policy) {
82 // TODO(jsbell): DCHECK that this is running on an IndexedDB thread,
83 // if a global handle to it is ever available.
84 std::vector<GURL> origins;
85 std::vector<base::FilePath> file_paths;
86 GetAllOriginsAndPaths(indexeddb_path, &origins, &file_paths);
87 DCHECK_EQ(origins.size(), file_paths.size());
88 std::vector<base::FilePath>::const_iterator file_path_iter =
89 file_paths.begin();
90 for (std::vector<GURL>::const_iterator iter = origins.begin();
91 iter != origins.end();
92 ++iter, ++file_path_iter) {
93 if (!special_storage_policy->IsStorageSessionOnly(*iter))
94 continue;
95 if (special_storage_policy->IsStorageProtected(*iter))
96 continue;
97 base::DeleteFile(*file_path_iter, true);
101 } // namespace
103 IndexedDBContextImpl::IndexedDBContextImpl(
104 const base::FilePath& data_path,
105 storage::SpecialStoragePolicy* special_storage_policy,
106 storage::QuotaManagerProxy* quota_manager_proxy,
107 base::SequencedTaskRunner* task_runner)
108 : force_keep_session_state_(false),
109 special_storage_policy_(special_storage_policy),
110 quota_manager_proxy_(quota_manager_proxy),
111 task_runner_(task_runner) {
112 IDB_TRACE("init");
113 if (!data_path.empty())
114 data_path_ = data_path.Append(kIndexedDBDirectory);
115 if (quota_manager_proxy) {
116 quota_manager_proxy->RegisterClient(new IndexedDBQuotaClient(this));
120 IndexedDBFactory* IndexedDBContextImpl::GetIDBFactory() {
121 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
122 if (!factory_.get()) {
123 // Prime our cache of origins with existing databases so we can
124 // detect when dbs are newly created.
125 GetOriginSet();
126 factory_ = new IndexedDBFactoryImpl(this);
128 return factory_.get();
131 std::vector<GURL> IndexedDBContextImpl::GetAllOrigins() {
132 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
133 std::vector<GURL> origins;
134 std::set<GURL>* origins_set = GetOriginSet();
135 for (std::set<GURL>::const_iterator iter = origins_set->begin();
136 iter != origins_set->end();
137 ++iter) {
138 origins.push_back(*iter);
140 return origins;
143 std::vector<IndexedDBInfo> IndexedDBContextImpl::GetAllOriginsInfo() {
144 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
145 std::vector<GURL> origins = GetAllOrigins();
146 std::vector<IndexedDBInfo> result;
147 for (std::vector<GURL>::const_iterator iter = origins.begin();
148 iter != origins.end();
149 ++iter) {
150 const GURL& origin_url = *iter;
152 base::FilePath idb_directory = GetFilePath(origin_url);
153 size_t connection_count = GetConnectionCount(origin_url);
154 result.push_back(IndexedDBInfo(origin_url,
155 GetOriginDiskUsage(origin_url),
156 GetOriginLastModified(origin_url),
157 idb_directory,
158 connection_count));
160 return result;
163 static bool HostNameComparator(const GURL& i, const GURL& j) {
164 return i.host() < j.host();
167 base::ListValue* IndexedDBContextImpl::GetAllOriginsDetails() {
168 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
169 std::vector<GURL> origins = GetAllOrigins();
171 std::sort(origins.begin(), origins.end(), HostNameComparator);
173 scoped_ptr<base::ListValue> list(new base::ListValue());
174 for (std::vector<GURL>::const_iterator iter = origins.begin();
175 iter != origins.end();
176 ++iter) {
177 const GURL& origin_url = *iter;
179 scoped_ptr<base::DictionaryValue> info(new base::DictionaryValue());
180 info->SetString("url", origin_url.spec());
181 info->SetString("size", ui::FormatBytes(GetOriginDiskUsage(origin_url)));
182 info->SetDouble("last_modified",
183 GetOriginLastModified(origin_url).ToJsTime());
184 if (!is_incognito())
185 info->SetString("path", GetFilePath(origin_url).value());
186 info->SetDouble("connection_count", GetConnectionCount(origin_url));
188 // This ends up being O(n^2) since we iterate over all open databases
189 // to extract just those in the origin, and we're iterating over all
190 // origins in the outer loop.
192 if (factory_.get()) {
193 std::pair<IndexedDBFactory::OriginDBMapIterator,
194 IndexedDBFactory::OriginDBMapIterator> range =
195 factory_->GetOpenDatabasesForOrigin(origin_url);
196 // TODO(jsbell): Sort by name?
197 scoped_ptr<base::ListValue> database_list(new base::ListValue());
199 for (IndexedDBFactory::OriginDBMapIterator it = range.first;
200 it != range.second;
201 ++it) {
202 const IndexedDBDatabase* db = it->second;
203 scoped_ptr<base::DictionaryValue> db_info(new base::DictionaryValue());
205 db_info->SetString("name", db->name());
206 db_info->SetDouble("pending_opens", db->PendingOpenCount());
207 db_info->SetDouble("pending_upgrades", db->PendingUpgradeCount());
208 db_info->SetDouble("running_upgrades", db->RunningUpgradeCount());
209 db_info->SetDouble("pending_deletes", db->PendingDeleteCount());
210 db_info->SetDouble("connection_count",
211 db->ConnectionCount() - db->PendingUpgradeCount() -
212 db->RunningUpgradeCount());
214 scoped_ptr<base::ListValue> transaction_list(new base::ListValue());
215 std::vector<const IndexedDBTransaction*> transactions =
216 db->transaction_coordinator().GetTransactions();
217 for (std::vector<const IndexedDBTransaction*>::iterator trans_it =
218 transactions.begin();
219 trans_it != transactions.end();
220 ++trans_it) {
221 const IndexedDBTransaction* transaction = *trans_it;
222 scoped_ptr<base::DictionaryValue> transaction_info(
223 new base::DictionaryValue());
225 const char* kModes[] = { "readonly", "readwrite", "versionchange" };
226 transaction_info->SetString("mode", kModes[transaction->mode()]);
227 switch (transaction->state()) {
228 case IndexedDBTransaction::CREATED:
229 transaction_info->SetString("status", "blocked");
230 break;
231 case IndexedDBTransaction::STARTED:
232 if (transaction->diagnostics().tasks_scheduled > 0)
233 transaction_info->SetString("status", "running");
234 else
235 transaction_info->SetString("status", "started");
236 break;
237 case IndexedDBTransaction::COMMITTING:
238 transaction_info->SetString("status", "committing");
239 break;
240 case IndexedDBTransaction::FINISHED:
241 transaction_info->SetString("status", "finished");
242 break;
245 transaction_info->SetDouble(
246 "pid",
247 IndexedDBDispatcherHost::TransactionIdToProcessId(
248 transaction->id()));
249 transaction_info->SetDouble(
250 "tid",
251 IndexedDBDispatcherHost::TransactionIdToRendererTransactionId(
252 transaction->id()));
253 transaction_info->SetDouble(
254 "age",
255 (base::Time::Now() - transaction->diagnostics().creation_time)
256 .InMillisecondsF());
257 transaction_info->SetDouble(
258 "runtime",
259 (base::Time::Now() - transaction->diagnostics().start_time)
260 .InMillisecondsF());
261 transaction_info->SetDouble(
262 "tasks_scheduled", transaction->diagnostics().tasks_scheduled);
263 transaction_info->SetDouble(
264 "tasks_completed", transaction->diagnostics().tasks_completed);
266 scoped_ptr<base::ListValue> scope(new base::ListValue());
267 for (std::set<int64>::const_iterator scope_it =
268 transaction->scope().begin();
269 scope_it != transaction->scope().end();
270 ++scope_it) {
271 IndexedDBDatabaseMetadata::ObjectStoreMap::const_iterator it =
272 db->metadata().object_stores.find(*scope_it);
273 if (it != db->metadata().object_stores.end())
274 scope->AppendString(it->second.name);
277 transaction_info->Set("scope", scope.release());
278 transaction_list->Append(transaction_info.release());
280 db_info->Set("transactions", transaction_list.release());
282 database_list->Append(db_info.release());
284 info->Set("databases", database_list.release());
287 list->Append(info.release());
289 return list.release();
292 int64 IndexedDBContextImpl::GetOriginDiskUsage(const GURL& origin_url) {
293 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
294 if (data_path_.empty() || !IsInOriginSet(origin_url))
295 return 0;
296 EnsureDiskUsageCacheInitialized(origin_url);
297 return origin_size_map_[origin_url];
300 base::Time IndexedDBContextImpl::GetOriginLastModified(const GURL& origin_url) {
301 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
302 if (data_path_.empty() || !IsInOriginSet(origin_url))
303 return base::Time();
304 base::FilePath idb_directory = GetFilePath(origin_url);
305 base::File::Info file_info;
306 if (!base::GetFileInfo(idb_directory, &file_info))
307 return base::Time();
308 return file_info.last_modified;
311 void IndexedDBContextImpl::DeleteForOrigin(const GURL& origin_url) {
312 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
313 ForceClose(origin_url, FORCE_CLOSE_DELETE_ORIGIN);
314 if (data_path_.empty() || !IsInOriginSet(origin_url))
315 return;
317 base::FilePath idb_directory = GetFilePath(origin_url);
318 EnsureDiskUsageCacheInitialized(origin_url);
319 leveldb::Status s = LevelDBDatabase::Destroy(idb_directory);
320 if (!s.ok()) {
321 LOG(WARNING) << "Failed to delete LevelDB database: "
322 << idb_directory.AsUTF8Unsafe();
323 } else {
324 // LevelDB does not delete empty directories; work around this.
325 // TODO(jsbell): Remove when upstream bug is fixed.
326 // https://code.google.com/p/leveldb/issues/detail?id=209
327 const bool kNonRecursive = false;
328 base::DeleteFile(idb_directory, kNonRecursive);
331 QueryDiskAndUpdateQuotaUsage(origin_url);
332 if (s.ok()) {
333 RemoveFromOriginSet(origin_url);
334 origin_size_map_.erase(origin_url);
335 space_available_map_.erase(origin_url);
339 void IndexedDBContextImpl::ForceClose(const GURL origin_url,
340 ForceCloseReason reason) {
341 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
342 UMA_HISTOGRAM_ENUMERATION("WebCore.IndexedDB.Context.ForceCloseReason",
343 reason,
344 FORCE_CLOSE_REASON_MAX);
346 if (data_path_.empty() || !IsInOriginSet(origin_url))
347 return;
349 if (factory_.get())
350 factory_->ForceClose(origin_url);
351 DCHECK_EQ(0UL, GetConnectionCount(origin_url));
354 size_t IndexedDBContextImpl::GetConnectionCount(const GURL& origin_url) {
355 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
356 if (data_path_.empty() || !IsInOriginSet(origin_url))
357 return 0;
359 if (!factory_.get())
360 return 0;
362 return factory_->GetConnectionCount(origin_url);
365 base::FilePath IndexedDBContextImpl::GetFilePath(const GURL& origin_url) const {
366 std::string origin_id = storage::GetIdentifierFromOrigin(origin_url);
367 return GetIndexedDBFilePath(origin_id);
370 base::FilePath IndexedDBContextImpl::GetFilePathForTesting(
371 const std::string& origin_id) const {
372 return GetIndexedDBFilePath(origin_id);
375 void IndexedDBContextImpl::SetTaskRunnerForTesting(
376 base::SequencedTaskRunner* task_runner) {
377 DCHECK(!task_runner_.get());
378 task_runner_ = task_runner;
381 void IndexedDBContextImpl::ConnectionOpened(const GURL& origin_url,
382 IndexedDBConnection* connection) {
383 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
384 if (quota_manager_proxy()) {
385 quota_manager_proxy()->NotifyStorageAccessed(
386 storage::QuotaClient::kIndexedDatabase,
387 origin_url,
388 storage::kStorageTypeTemporary);
390 if (AddToOriginSet(origin_url)) {
391 // A newly created db, notify the quota system.
392 QueryDiskAndUpdateQuotaUsage(origin_url);
393 } else {
394 EnsureDiskUsageCacheInitialized(origin_url);
396 QueryAvailableQuota(origin_url);
399 void IndexedDBContextImpl::ConnectionClosed(const GURL& origin_url,
400 IndexedDBConnection* connection) {
401 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
402 if (quota_manager_proxy()) {
403 quota_manager_proxy()->NotifyStorageAccessed(
404 storage::QuotaClient::kIndexedDatabase,
405 origin_url,
406 storage::kStorageTypeTemporary);
408 if (factory_.get() && factory_->GetConnectionCount(origin_url) == 0)
409 QueryDiskAndUpdateQuotaUsage(origin_url);
412 void IndexedDBContextImpl::TransactionComplete(const GURL& origin_url) {
413 DCHECK(!factory_.get() || factory_->GetConnectionCount(origin_url) > 0);
414 QueryDiskAndUpdateQuotaUsage(origin_url);
415 QueryAvailableQuota(origin_url);
418 void IndexedDBContextImpl::DatabaseDeleted(const GURL& origin_url) {
419 AddToOriginSet(origin_url);
420 QueryDiskAndUpdateQuotaUsage(origin_url);
421 QueryAvailableQuota(origin_url);
424 bool IndexedDBContextImpl::WouldBeOverQuota(const GURL& origin_url,
425 int64 additional_bytes) {
426 if (space_available_map_.find(origin_url) == space_available_map_.end()) {
427 // We haven't heard back from the QuotaManager yet, just let it through.
428 return false;
430 bool over_quota = additional_bytes > space_available_map_[origin_url];
431 return over_quota;
434 bool IndexedDBContextImpl::IsOverQuota(const GURL& origin_url) {
435 const int kOneAdditionalByte = 1;
436 return WouldBeOverQuota(origin_url, kOneAdditionalByte);
439 storage::QuotaManagerProxy* IndexedDBContextImpl::quota_manager_proxy() {
440 return quota_manager_proxy_.get();
443 IndexedDBContextImpl::~IndexedDBContextImpl() {
444 if (factory_.get()) {
445 TaskRunner()->PostTask(
446 FROM_HERE, base::Bind(&IndexedDBFactory::ContextDestroyed, factory_));
447 factory_ = NULL;
450 if (data_path_.empty())
451 return;
453 if (force_keep_session_state_)
454 return;
456 bool has_session_only_databases =
457 special_storage_policy_.get() &&
458 special_storage_policy_->HasSessionOnlyOrigins();
460 // Clearing only session-only databases, and there are none.
461 if (!has_session_only_databases)
462 return;
464 TaskRunner()->PostTask(
465 FROM_HERE,
466 base::Bind(
467 &ClearSessionOnlyOrigins, data_path_, special_storage_policy_));
470 base::FilePath IndexedDBContextImpl::GetIndexedDBFilePath(
471 const std::string& origin_id) const {
472 DCHECK(!data_path_.empty());
473 return data_path_.AppendASCII(origin_id).AddExtension(kIndexedDBExtension)
474 .AddExtension(kLevelDBExtension);
477 int64 IndexedDBContextImpl::ReadUsageFromDisk(const GURL& origin_url) const {
478 if (data_path_.empty())
479 return 0;
480 base::FilePath file_path = GetFilePath(origin_url);
481 return base::ComputeDirectorySize(file_path);
484 void IndexedDBContextImpl::EnsureDiskUsageCacheInitialized(
485 const GURL& origin_url) {
486 if (origin_size_map_.find(origin_url) == origin_size_map_.end())
487 origin_size_map_[origin_url] = ReadUsageFromDisk(origin_url);
490 void IndexedDBContextImpl::QueryDiskAndUpdateQuotaUsage(
491 const GURL& origin_url) {
492 int64 former_disk_usage = origin_size_map_[origin_url];
493 int64 current_disk_usage = ReadUsageFromDisk(origin_url);
494 int64 difference = current_disk_usage - former_disk_usage;
495 if (difference) {
496 origin_size_map_[origin_url] = current_disk_usage;
497 // quota_manager_proxy() is NULL in unit tests.
498 if (quota_manager_proxy()) {
499 quota_manager_proxy()->NotifyStorageModified(
500 storage::QuotaClient::kIndexedDatabase,
501 origin_url,
502 storage::kStorageTypeTemporary,
503 difference);
508 void IndexedDBContextImpl::GotUsageAndQuota(const GURL& origin_url,
509 storage::QuotaStatusCode status,
510 int64 usage,
511 int64 quota) {
512 DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO));
513 DCHECK(status == storage::kQuotaStatusOk ||
514 status == storage::kQuotaErrorAbort)
515 << "status was " << status;
516 if (status == storage::kQuotaErrorAbort) {
517 // We seem to no longer care to wait around for the answer.
518 return;
520 TaskRunner()->PostTask(FROM_HERE,
521 base::Bind(&IndexedDBContextImpl::GotUpdatedQuota,
522 this,
523 origin_url,
524 usage,
525 quota));
528 void IndexedDBContextImpl::GotUpdatedQuota(const GURL& origin_url,
529 int64 usage,
530 int64 quota) {
531 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
532 space_available_map_[origin_url] = quota - usage;
535 void IndexedDBContextImpl::QueryAvailableQuota(const GURL& origin_url) {
536 if (!BrowserThread::CurrentlyOn(BrowserThread::IO)) {
537 DCHECK(TaskRunner()->RunsTasksOnCurrentThread());
538 if (quota_manager_proxy()) {
539 BrowserThread::PostTask(
540 BrowserThread::IO,
541 FROM_HERE,
542 base::Bind(
543 &IndexedDBContextImpl::QueryAvailableQuota, this, origin_url));
545 return;
547 DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO));
548 if (!quota_manager_proxy() || !quota_manager_proxy()->quota_manager())
549 return;
550 quota_manager_proxy()->quota_manager()->GetUsageAndQuota(
551 origin_url,
552 storage::kStorageTypeTemporary,
553 base::Bind(&IndexedDBContextImpl::GotUsageAndQuota, this, origin_url));
556 std::set<GURL>* IndexedDBContextImpl::GetOriginSet() {
557 if (!origin_set_) {
558 origin_set_.reset(new std::set<GURL>);
559 std::vector<GURL> origins;
560 GetAllOriginsAndPaths(data_path_, &origins, NULL);
561 for (std::vector<GURL>::const_iterator iter = origins.begin();
562 iter != origins.end();
563 ++iter) {
564 origin_set_->insert(*iter);
567 return origin_set_.get();
570 void IndexedDBContextImpl::ResetCaches() {
571 origin_set_.reset();
572 origin_size_map_.clear();
573 space_available_map_.clear();
576 base::SequencedTaskRunner* IndexedDBContextImpl::TaskRunner() const {
577 return task_runner_.get();
580 } // namespace content