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chromium / chromium / src / 5f0fb8c9021d25d1fadc1ae3706b4790dbcded5a / . / chrome / browser / extensions / activity_log / counting_policy.cc
blob: 2dbe068a24fe86721757e4676ebbf270d0f40d96 [file] [log] [blame]
// 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.
// A policy for storing activity log data to a database that performs
// aggregation to reduce the size of the database. The database layout is
// nearly the same as FullStreamUIPolicy, which stores a complete log, with a
// few changes:
// - a "count" column is added to track how many log records were merged
// together into this row
// - the "time" column measures the most recent time that the current row was
// updated
// When writing a record, if a row already exists where all other columns
// (extension_id, action_type, api_name, args, urls, etc.) all match, and the
// previous time falls within today (the current time), then the count field on
// the old row is incremented. Otherwise, a new row is written.
//
// For many text columns, repeated strings are compressed by moving string
// storage to a separate table ("string_ids") and storing only an identifier in
// the logging table. For example, if the api_name_x column contained the
// value 4 and the string_ids table contained a row with primary key 4 and
// value 'tabs.query', then the api_name field should be taken to have the
// value 'tabs.query'. Each column ending with "_x" is compressed in this way.
// All lookups are to the string_ids table, except for the page_url_x and
// arg_url_x columns, which are converted via the url_ids table (this
// separation of URL values is to help simplify history clearing).
//
// The activitylog_uncompressed view allows for simpler reading of the activity
// log contents with identifiers already translated to string values.
#include "chrome/browser/extensions/activity_log/counting_policy.h"
#include <stddef.h>
#include <map>
#include <string>
#include <vector>
#include "base/callback.h"
#include "base/files/file_path.h"
#include "base/json/json_reader.h"
#include "base/json/json_string_value_serializer.h"
#include "base/memory/ptr_util.h"
#include "base/stl_util.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/task_runner_util.h"
#include "chrome/browser/extensions/activity_log/activity_log_task_runner.h"
#include "chrome/common/chrome_constants.h"
#include "sql/statement.h"
#include "sql/transaction.h"
namespace {
using extensions::Action;
// Delay between cleaning passes (to delete old action records) through the
// database.
constexpr base::TimeDelta kCleaningDelay = base::TimeDelta::FromHours(12);
// We should log the arguments to these API calls. Be careful when
// constructing this whitelist to not keep arguments that might compromise
// privacy by logging too much data to the activity log.
//
// TODO(mvrable): The contents of this whitelist should be reviewed and
// expanded as needed.
struct ApiList {
Action::ActionType type;
const char* name;
};
const ApiList kAlwaysLog[] = {
{Action::ACTION_API_CALL, "bookmarks.create"},
{Action::ACTION_API_CALL, "bookmarks.update"},
{Action::ACTION_API_CALL, "cookies.get"},
{Action::ACTION_API_CALL, "cookies.getAll"},
{Action::ACTION_API_CALL, "extension.connect"},
{Action::ACTION_API_CALL, "extension.sendMessage"},
{Action::ACTION_API_CALL, "fileSystem.chooseEntry"},
{Action::ACTION_API_CALL, "socket.bind"},
{Action::ACTION_API_CALL, "socket.connect"},
{Action::ACTION_API_CALL, "socket.create"},
{Action::ACTION_API_CALL, "socket.listen"},
{Action::ACTION_API_CALL, "tabs.executeScript"},
{Action::ACTION_API_CALL, "tabs.insertCSS"},
{Action::ACTION_API_CALL, "types.ChromeSetting.clear"},
{Action::ACTION_API_CALL, "types.ChromeSetting.get"},
{Action::ACTION_API_CALL, "types.ChromeSetting.set"},
{Action::ACTION_CONTENT_SCRIPT, ""},
{Action::ACTION_DOM_ACCESS, "Document.createElement"},
{Action::ACTION_DOM_ACCESS, "Document.createElementNS"},
};
// Columns in the main database table. See the file-level comment for a
// discussion of how data is stored and the meanings of the _x columns.
const char* const kTableContentFields[] = {
"count", "extension_id_x", "time", "action_type", "api_name_x", "args_x",
"page_url_x", "page_title_x", "arg_url_x", "other_x"};
const char* const kTableFieldTypes[] = {
"INTEGER NOT NULL DEFAULT 1", "INTEGER NOT NULL", "INTEGER", "INTEGER",
"INTEGER", "INTEGER", "INTEGER", "INTEGER", "INTEGER",
"INTEGER"};
// Miscellaneous SQL commands for initializing the database; these should be
// idempotent.
static const char kPolicyMiscSetup[] =
// The activitylog_uncompressed view performs string lookups for simpler
// access to the log data.
"DROP VIEW IF EXISTS activitylog_uncompressed;\n"
"CREATE VIEW activitylog_uncompressed AS\n"
"SELECT count,\n"
" x1.value AS extension_id,\n"
" time,\n"
" action_type,\n"
" x2.value AS api_name,\n"
" x3.value AS args,\n"
" x4.value AS page_url,\n"
" x5.value AS page_title,\n"
" x6.value AS arg_url,\n"
" x7.value AS other,\n"
" activitylog_compressed.rowid AS activity_id\n"
"FROM activitylog_compressed\n"
" LEFT JOIN string_ids AS x1 ON (x1.id = extension_id_x)\n"
" LEFT JOIN string_ids AS x2 ON (x2.id = api_name_x)\n"
" LEFT JOIN string_ids AS x3 ON (x3.id = args_x)\n"
" LEFT JOIN url_ids AS x4 ON (x4.id = page_url_x)\n"
" LEFT JOIN string_ids AS x5 ON (x5.id = page_title_x)\n"
" LEFT JOIN url_ids AS x6 ON (x6.id = arg_url_x)\n"
" LEFT JOIN string_ids AS x7 ON (x7.id = other_x);\n"
// An index on all fields except count and time: all the fields that aren't
// changed when incrementing a count. This should accelerate finding the
// rows to update (at worst several rows will need to be checked to find
// the one in the right time range).
"CREATE INDEX IF NOT EXISTS activitylog_compressed_index\n"
"ON activitylog_compressed(extension_id_x, action_type, api_name_x,\n"
" args_x, page_url_x, page_title_x, arg_url_x, other_x)";
// SQL statements to clean old, unused entries out of the string and URL id
// tables.
static const char kStringTableCleanup[] =
"DELETE FROM string_ids WHERE id NOT IN\n"
"(SELECT extension_id_x FROM activitylog_compressed\n"
" WHERE extension_id_x IS NOT NULL\n"
" UNION SELECT api_name_x FROM activitylog_compressed\n"
" WHERE api_name_x IS NOT NULL\n"
" UNION SELECT args_x FROM activitylog_compressed\n"
" WHERE args_x IS NOT NULL\n"
" UNION SELECT page_title_x FROM activitylog_compressed\n"
" WHERE page_title_x IS NOT NULL\n"
" UNION SELECT other_x FROM activitylog_compressed\n"
" WHERE other_x IS NOT NULL)";
static const char kUrlTableCleanup[] =
"DELETE FROM url_ids WHERE id NOT IN\n"
"(SELECT page_url_x FROM activitylog_compressed\n"
" WHERE page_url_x IS NOT NULL\n"
" UNION SELECT arg_url_x FROM activitylog_compressed\n"
" WHERE arg_url_x IS NOT NULL)";
} // namespace
namespace extensions {
const char CountingPolicy::kTableName[] = "activitylog_compressed";
const char CountingPolicy::kReadViewName[] = "activitylog_uncompressed";
CountingPolicy::CountingPolicy(Profile* profile)
: ActivityLogDatabasePolicy(
profile,
base::FilePath(chrome::kExtensionActivityLogFilename)),
string_table_("string_ids"),
url_table_("url_ids"),
retention_time_(base::TimeDelta::FromHours(60)) {
for (size_t i = 0; i < base::size(kAlwaysLog); i++) {
api_arg_whitelist_.insert(
std::make_pair(kAlwaysLog[i].type, kAlwaysLog[i].name));
}
}
CountingPolicy::~CountingPolicy() {}
bool CountingPolicy::InitDatabase(sql::Database* db) {
if (!string_table_.Initialize(db))
return false;
if (!url_table_.Initialize(db))
return false;
// Create the unified activity log entry table.
if (!ActivityDatabase::InitializeTable(db, kTableName, kTableContentFields,
kTableFieldTypes,
base::size(kTableContentFields)))
return false;
// Create a view for easily accessing the uncompressed form of the data, and
// any necessary indexes if needed.
return db->Execute(kPolicyMiscSetup);
}
void CountingPolicy::ProcessAction(scoped_refptr<Action> action) {
ScheduleAndForget(this, &CountingPolicy::QueueAction, action);
}
void CountingPolicy::QueueAction(scoped_refptr<Action> action) {
if (activity_database()->is_db_valid()) {
action = action->Clone();
Util::StripPrivacySensitiveFields(action);
Util::StripArguments(api_arg_whitelist_, action);
// If the current action falls on a different date than the ones in the
// queue, flush the queue out now to prevent any false merging (actions
// from different days being merged).
base::Time new_date = action->time().LocalMidnight();
if (new_date != queued_actions_date_)
activity_database()->AdviseFlush(ActivityDatabase::kFlushImmediately);
queued_actions_date_ = new_date;
auto queued_entry = queued_actions_.find(action);
if (queued_entry == queued_actions_.end()) {
queued_actions_[action] = 1;
} else {
// Update the timestamp in the key to be the latest time seen. Modifying
// the time is safe since that field is not involved in key comparisons
// in the map.
using std::max;
queued_entry->first->set_time(
max(queued_entry->first->time(), action->time()));
queued_entry->second++;
}
activity_database()->AdviseFlush(queued_actions_.size());
}
}
bool CountingPolicy::FlushDatabase(sql::Database* db) {
// Columns that must match exactly for database rows to be coalesced.
static const char* const matched_columns[] = {
"extension_id_x", "action_type", "api_name_x", "args_x", "page_url_x",
"page_title_x", "arg_url_x", "other_x"};
ActionQueue queue;
queue.swap(queued_actions_);
// Whether to clean old records out of the activity log database. Do this
// much less frequently than database flushes since it is expensive, but
// always check on the first database flush (since there might be a large
// amount of data to clear).
bool clean_database = (last_database_cleaning_time_.is_null() ||
Now() - last_database_cleaning_time_ > kCleaningDelay);
if (queue.empty() && !clean_database)
return true;
sql::Transaction transaction(db);
if (!transaction.Begin())
return false;
// Adding an Action to the database is a two step process that depends on
// whether the count on an existing row can be incremented or a new row needs
// to be inserted.
// 1. Run the query in locate_str to search for a row which matches and can
// have the count incremented.
// 2a. If found, increment the count using update_str and the rowid found in
// step 1, or
// 2b. If not found, insert a new row using insert_str.
std::string locate_str =
"SELECT rowid FROM " + std::string(kTableName) +
" WHERE time >= ? AND time < ?";
std::string insert_str =
"INSERT INTO " + std::string(kTableName) + "(count, time";
std::string update_str =
"UPDATE " + std::string(kTableName) +
" SET count = count + ?, time = max(?, time)"
" WHERE rowid = ?";
for (size_t i = 0; i < base::size(matched_columns); i++) {
locate_str = base::StringPrintf(
"%s AND %s IS ?", locate_str.c_str(), matched_columns[i]);
insert_str =
base::StringPrintf("%s, %s", insert_str.c_str(), matched_columns[i]);
}
insert_str += ") VALUES (?, ?";
for (size_t i = 0; i < base::size(matched_columns); i++) {
insert_str += ", ?";
}
locate_str += " ORDER BY time DESC LIMIT 1";
insert_str += ")";
for (auto i = queue.begin(); i != queue.end(); ++i) {
const Action& action = *i->first;
int count = i->second;
base::Time day_start = action.time().LocalMidnight();
base::Time next_day = Util::AddDays(day_start, 1);
// The contents in values must match up with fields in matched_columns. A
// value of -1 is used to encode a null database value.
int64_t id;
std::vector<int64_t> matched_values;
if (!string_table_.StringToInt(db, action.extension_id(), &id))
return false;
matched_values.push_back(id);
matched_values.push_back(static_cast<int>(action.action_type()));
if (!string_table_.StringToInt(db, action.api_name(), &id))
return false;
matched_values.push_back(id);
if (action.args()) {
std::string args = Util::Serialize(action.args());
// TODO(mvrable): For now, truncate long argument lists. This is a
// workaround for excessively-long values coming from DOM logging. When
// the V8ValueConverter is fixed to return more reasonable values, we can
// drop the truncation.
if (args.length() > 10000) {
args = "[\"<too_large>\"]";
}
if (!string_table_.StringToInt(db, args, &id))
return false;
matched_values.push_back(id);
} else {
matched_values.push_back(-1);
}
std::string page_url_string = action.SerializePageUrl();
if (!page_url_string.empty()) {
if (!url_table_.StringToInt(db, page_url_string, &id))
return false;
matched_values.push_back(id);
} else {
matched_values.push_back(-1);
}
// TODO(mvrable): Create a title_table_?
if (!action.page_title().empty()) {
if (!string_table_.StringToInt(db, action.page_title(), &id))
return false;
matched_values.push_back(id);
} else {
matched_values.push_back(-1);
}
std::string arg_url_string = action.SerializeArgUrl();
if (!arg_url_string.empty()) {
if (!url_table_.StringToInt(db, arg_url_string, &id))
return false;
matched_values.push_back(id);
} else {
matched_values.push_back(-1);
}
if (action.other()) {
if (!string_table_.StringToInt(db, Util::Serialize(action.other()), &id))
return false;
matched_values.push_back(id);
} else {
matched_values.push_back(-1);
}
// Search for a matching row for this action whose count can be
// incremented.
sql::Statement locate_statement(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE), locate_str.c_str()));
locate_statement.BindInt64(0, day_start.ToInternalValue());
locate_statement.BindInt64(1, next_day.ToInternalValue());
for (size_t j = 0; j < matched_values.size(); j++) {
// A call to BindNull when matched_values contains -1 is likely not
// necessary as parameters default to null before they are explicitly
// bound. But to be completely clear, and in case a cached statement
// ever comes with some values already bound, we bind all parameters
// (even null ones) explicitly.
if (matched_values[j] == -1)
locate_statement.BindNull(j + 2);
else
locate_statement.BindInt64(j + 2, matched_values[j]);
}
if (locate_statement.Step()) {
// A matching row was found. Update the count and time.
int64_t rowid = locate_statement.ColumnInt64(0);
sql::Statement update_statement(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE), update_str.c_str()));
update_statement.BindInt(0, count);
update_statement.BindInt64(1, action.time().ToInternalValue());
update_statement.BindInt64(2, rowid);
if (!update_statement.Run())
return false;
} else if (locate_statement.Succeeded()) {
// No matching row was found, so we need to insert one.
sql::Statement insert_statement(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE), insert_str.c_str()));
insert_statement.BindInt(0, count);
insert_statement.BindInt64(1, action.time().ToInternalValue());
for (size_t j = 0; j < matched_values.size(); j++) {
if (matched_values[j] == -1)
insert_statement.BindNull(j + 2);
else
insert_statement.BindInt64(j + 2, matched_values[j]);
}
if (!insert_statement.Run())
return false;
} else {
// Database error.
return false;
}
}
if (clean_database) {
base::Time cutoff = (Now() - retention_time()).LocalMidnight();
if (!CleanOlderThan(db, cutoff))
return false;
last_database_cleaning_time_ = Now();
}
if (!transaction.Commit())
return false;
return true;
}
std::unique_ptr<Action::ActionVector> CountingPolicy::DoReadFilteredData(
const std::string& extension_id,
const Action::ActionType type,
const std::string& api_name,
const std::string& page_url,
const std::string& arg_url,
const int days_ago) {
DCHECK(GetActivityLogTaskRunner()->RunsTasksInCurrentSequence());
// Ensure data is flushed to the database first so that we query over all
// data.
activity_database()->AdviseFlush(ActivityDatabase::kFlushImmediately);
std::unique_ptr<Action::ActionVector> actions(new Action::ActionVector());
sql::Database* db = GetDatabaseConnection();
if (!db)
return actions;
// Build up the query based on which parameters were specified.
std::string where_str = "";
std::string where_next = "";
if (!extension_id.empty()) {
where_str += "extension_id=?";
where_next = " AND ";
}
if (!api_name.empty()) {
where_str += where_next + "api_name LIKE ?";
where_next = " AND ";
}
if (type != Action::ACTION_ANY) {
where_str += where_next + "action_type=?";
where_next = " AND ";
}
if (!page_url.empty()) {
where_str += where_next + "page_url LIKE ?";
where_next = " AND ";
}
if (!arg_url.empty()) {
where_str += where_next + "arg_url LIKE ?";
where_next = " AND ";
}
if (days_ago >= 0)
where_str += where_next + "time BETWEEN ? AND ?";
std::string query_str = base::StringPrintf(
"SELECT extension_id,time, action_type, api_name, args, page_url,"
"page_title, arg_url, other, count, activity_id FROM %s %s %s ORDER BY "
"count DESC, time DESC LIMIT 300",
kReadViewName,
where_str.empty() ? "" : "WHERE",
where_str.c_str());
sql::Statement query(db->GetUniqueStatement(query_str.c_str()));
int i = -1;
if (!extension_id.empty())
query.BindString(++i, extension_id);
if (!api_name.empty())
query.BindString(++i, api_name + "%");
if (type != Action::ACTION_ANY)
query.BindInt(++i, static_cast<int>(type));
if (!page_url.empty())
query.BindString(++i, page_url + "%");
if (!arg_url.empty())
query.BindString(++i, arg_url + "%");
if (days_ago >= 0) {
int64_t early_bound;
int64_t late_bound;
Util::ComputeDatabaseTimeBounds(Now(), days_ago, &early_bound, &late_bound);
query.BindInt64(++i, early_bound);
query.BindInt64(++i, late_bound);
}
// Execute the query and get results.
while (query.is_valid() && query.Step()) {
scoped_refptr<Action> action =
new Action(query.ColumnString(0),
base::Time::FromInternalValue(query.ColumnInt64(1)),
static_cast<Action::ActionType>(query.ColumnInt(2)),
query.ColumnString(3), query.ColumnInt64(10));
if (query.ColumnType(4) != sql::COLUMN_TYPE_NULL) {
std::unique_ptr<base::Value> parsed_value =
base::JSONReader::Read(query.ColumnString(4));
if (parsed_value && parsed_value->is_list()) {
action->set_args(base::WrapUnique(
static_cast<base::ListValue*>(parsed_value.release())));
}
}
action->ParsePageUrl(query.ColumnString(5));
action->set_page_title(query.ColumnString(6));
action->ParseArgUrl(query.ColumnString(7));
if (query.ColumnType(8) != sql::COLUMN_TYPE_NULL) {
std::unique_ptr<base::Value> parsed_value =
base::JSONReader::Read(query.ColumnString(8));
if (parsed_value && parsed_value->is_dict()) {
action->set_other(base::WrapUnique(
static_cast<base::DictionaryValue*>(parsed_value.release())));
}
}
action->set_count(query.ColumnInt(9));
actions->push_back(action);
}
return actions;
}
void CountingPolicy::DoRemoveActions(const std::vector<int64_t>& action_ids) {
if (action_ids.empty())
return;
sql::Database* db = GetDatabaseConnection();
if (!db) {
LOG(ERROR) << "Unable to connect to database";
return;
}
// Flush data first so the activity removal affects queued-up data as well.
activity_database()->AdviseFlush(ActivityDatabase::kFlushImmediately);
sql::Transaction transaction(db);
if (!transaction.Begin())
return;
std::string statement_str =
base::StringPrintf("DELETE FROM %s WHERE rowid = ?", kTableName);
sql::Statement statement(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE), statement_str.c_str()));
for (size_t i = 0; i < action_ids.size(); i++) {
statement.Reset(true);
statement.BindInt64(0, action_ids[i]);
if (!statement.Run()) {
LOG(ERROR) << "Removing activities from database failed: "
<< statement.GetSQLStatement();
break;
}
}
CleanStringTables(db);
if (!transaction.Commit()) {
LOG(ERROR) << "Removing activities from database failed";
}
}
void CountingPolicy::DoRemoveURLs(const std::vector<GURL>& restrict_urls) {
sql::Database* db = GetDatabaseConnection();
if (!db) {
LOG(ERROR) << "Unable to connect to database";
return;
}
// Flush data first so the URL clearing affects queued-up data as well.
activity_database()->AdviseFlush(ActivityDatabase::kFlushImmediately);
// If no restrictions then then all URLs need to be removed.
if (restrict_urls.empty()) {
std::string sql_str = base::StringPrintf(
"UPDATE %s SET page_url_x=NULL,page_title_x=NULL,arg_url_x=NULL",
kTableName);
sql::Statement statement;
statement.Assign(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE), sql_str.c_str()));
if (!statement.Run()) {
LOG(ERROR) << "Removing all URLs from database failed: "
<< statement.GetSQLStatement();
return;
}
}
// If URLs are specified then restrict to only those URLs.
for (size_t i = 0; i < restrict_urls.size(); ++i) {
int64_t url_id;
if (!restrict_urls[i].is_valid() ||
!url_table_.StringToInt(db, restrict_urls[i].spec(), &url_id)) {
continue;
}
// Remove any that match the page_url.
std::string sql_str = base::StringPrintf(
"UPDATE %s SET page_url_x=NULL,page_title_x=NULL WHERE page_url_x IS ?",
kTableName);
sql::Statement statement;
statement.Assign(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE), sql_str.c_str()));
statement.BindInt64(0, url_id);
if (!statement.Run()) {
LOG(ERROR) << "Removing page URL from database failed: "
<< statement.GetSQLStatement();
return;
}
// Remove any that match the arg_url.
sql_str = base::StringPrintf(
"UPDATE %s SET arg_url_x=NULL WHERE arg_url_x IS ?", kTableName);
statement.Assign(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE), sql_str.c_str()));
statement.BindInt64(0, url_id);
if (!statement.Run()) {
LOG(ERROR) << "Removing arg URL from database failed: "
<< statement.GetSQLStatement();
return;
}
}
// Clean up unused strings from the strings and urls table to really delete
// the urls and page titles. Should be called even if an error occured when
// removing a URL as there may some things to clean up.
CleanStringTables(db);
}
void CountingPolicy::DoRemoveExtensionData(const std::string& extension_id) {
if (extension_id.empty())
return;
sql::Database* db = GetDatabaseConnection();
if (!db) {
LOG(ERROR) << "Unable to connect to database";
return;
}
// Make sure any queued in memory are sent to the database before cleaning.
activity_database()->AdviseFlush(ActivityDatabase::kFlushImmediately);
std::string sql_str = base::StringPrintf(
"DELETE FROM %s WHERE extension_id_x=?", kTableName);
sql::Statement statement(
db->GetCachedStatement(sql::StatementID(SQL_FROM_HERE), sql_str.c_str()));
int64_t id;
if (string_table_.StringToInt(db, extension_id, &id)) {
statement.BindInt64(0, id);
} else {
// If the string isn't listed, that means we never recorded anything about
// the extension so there's no deletion to do.
statement.Clear();
return;
}
if (!statement.Run()) {
LOG(ERROR) << "Removing URLs for extension "
<< extension_id << "from database failed: "
<< statement.GetSQLStatement();
}
CleanStringTables(db);
}
void CountingPolicy::DoDeleteDatabase() {
sql::Database* db = GetDatabaseConnection();
if (!db) {
LOG(ERROR) << "Unable to connect to database";
return;
}
queued_actions_.clear();
// Not wrapped in a transaction because a late failure shouldn't undo a
// previous deletion.
std::string sql_str = base::StringPrintf("DELETE FROM %s", kTableName);
sql::Statement statement(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE),
sql_str.c_str()));
if (!statement.Run()) {
LOG(ERROR) << "Deleting the database failed: "
<< statement.GetSQLStatement();
return;
}
statement.Clear();
string_table_.ClearCache();
statement.Assign(db->GetCachedStatement(sql::StatementID(SQL_FROM_HERE),
"DELETE FROM string_ids"));
if (!statement.Run()) {
LOG(ERROR) << "Deleting the database failed: "
<< statement.GetSQLStatement();
return;
}
statement.Clear();
url_table_.ClearCache();
statement.Assign(db->GetCachedStatement(sql::StatementID(SQL_FROM_HERE),
"DELETE FROM url_ids"));
if (!statement.Run()) {
LOG(ERROR) << "Deleting the database failed: "
<< statement.GetSQLStatement();
return;
}
statement.Clear();
statement.Assign(db->GetCachedStatement(sql::StatementID(SQL_FROM_HERE),
"VACUUM"));
if (!statement.Run()) {
LOG(ERROR) << "Vacuuming the database failed: "
<< statement.GetSQLStatement();
}
}
void CountingPolicy::ReadFilteredData(
const std::string& extension_id,
const Action::ActionType type,
const std::string& api_name,
const std::string& page_url,
const std::string& arg_url,
const int days_ago,
base::OnceCallback<void(std::unique_ptr<Action::ActionVector>)> callback) {
base::PostTaskAndReplyWithResult(
GetActivityLogTaskRunner().get(), FROM_HERE,
base::BindOnce(&CountingPolicy::DoReadFilteredData,
base::Unretained(this), extension_id, type, api_name,
page_url, arg_url, days_ago),
std::move(callback));
}
void CountingPolicy::RemoveActions(const std::vector<int64_t>& action_ids) {
ScheduleAndForget(this, &CountingPolicy::DoRemoveActions, action_ids);
}
void CountingPolicy::RemoveURLs(const std::vector<GURL>& restrict_urls) {
ScheduleAndForget(this, &CountingPolicy::DoRemoveURLs, restrict_urls);
}
void CountingPolicy::RemoveExtensionData(const std::string& extension_id) {
ScheduleAndForget(this, &CountingPolicy::DoRemoveExtensionData, extension_id);
}
void CountingPolicy::DeleteDatabase() {
ScheduleAndForget(this, &CountingPolicy::DoDeleteDatabase);
}
void CountingPolicy::OnDatabaseFailure() {
queued_actions_.clear();
}
void CountingPolicy::OnDatabaseClose() {
delete this;
}
// Cleans old records from the activity log database.
bool CountingPolicy::CleanOlderThan(sql::Database* db,
const base::Time& cutoff) {
std::string clean_statement =
"DELETE FROM " + std::string(kTableName) + " WHERE time < ?";
sql::Statement cleaner(db->GetCachedStatement(sql::StatementID(SQL_FROM_HERE),
clean_statement.c_str()));
cleaner.BindInt64(0, cutoff.ToInternalValue());
if (!cleaner.Run())
return false;
return CleanStringTables(db);
}
// Cleans unused interned strings from the database. This should be run after
// deleting rows from the main log table to clean out stale values.
bool CountingPolicy::CleanStringTables(sql::Database* db) {
sql::Statement cleaner1(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE), kStringTableCleanup));
if (!cleaner1.Run())
return false;
if (db->GetLastChangeCount() > 0)
string_table_.ClearCache();
sql::Statement cleaner2(db->GetCachedStatement(
sql::StatementID(SQL_FROM_HERE), kUrlTableCleanup));
if (!cleaner2.Run())
return false;
if (db->GetLastChangeCount() > 0)
url_table_.ClearCache();
return true;
}
void CountingPolicy::Close() {
ScheduleAndForget(activity_database(), &ActivityDatabase::Close);
}
} // namespace extensions