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-rw-r--r--chrome/browser/policy/device_status_collector.cc184
1 files changed, 168 insertions, 16 deletions
diff --git a/chrome/browser/policy/device_status_collector.cc b/chrome/browser/policy/device_status_collector.cc
index 5a1be4a..cb547cf 100644
--- a/chrome/browser/policy/device_status_collector.cc
+++ b/chrome/browser/policy/device_status_collector.cc
@@ -5,8 +5,12 @@
#include "chrome/browser/policy/device_status_collector.h"
#include "base/bind.h"
-#include "base/callback.h"
+#include "base/bind_helpers.h"
+#include "base/location.h"
+#include "base/logging.h"
+#include "base/memory/scoped_ptr.h"
#include "base/string_number_conversions.h"
+#include "base/values.h"
#include "chrome/browser/chromeos/cros_settings.h"
#include "chrome/browser/chromeos/cros_settings_names.h"
#include "chrome/browser/chromeos/system/statistics_provider.h"
@@ -16,6 +20,8 @@
#include "chrome/common/chrome_notification_types.h"
#include "chrome/common/chrome_version_info.h"
#include "chrome/common/pref_names.h"
+#include "content/public/browser/notification_details.h"
+#include "content/public/browser/notification_source.h"
using base::Time;
using base::TimeDelta;
@@ -33,10 +39,29 @@ const unsigned int kMaxStoredPastActivityDays = 30;
// How many days in the future to store active periods for.
const unsigned int kMaxStoredFutureActivityDays = 2;
+// How often, in seconds, to update the device location.
+const unsigned int kGeolocationPollIntervalSeconds = 30 * 60;
+
const int64 kMillisecondsPerDay = Time::kMicrosecondsPerDay / 1000;
+const char kLatitude[] = "latitude";
+
+const char kLongitude[] = "longitude";
+
+const char kAltitude[] = "altitude";
+
+const char kAccuracy[] = "accuracy";
+
+const char kAltitudeAccuracy[] = "altitude_accuracy";
+
+const char kHeading[] = "heading";
+
+const char kSpeed[] = "speed";
+
+const char kTimestamp[] = "timestamp";
+
// Record device activity for the specified day into the given dictionary.
-void AddDeviceActivity(DictionaryValue* activity_times,
+void AddDeviceActivity(base::DictionaryValue* activity_times,
Time day_midnight,
TimeDelta activity) {
DCHECK(activity.InMilliseconds() < kMillisecondsPerDay);
@@ -55,18 +80,25 @@ namespace policy {
DeviceStatusCollector::DeviceStatusCollector(
PrefService* local_state,
- chromeos::system::StatisticsProvider* provider)
+ chromeos::system::StatisticsProvider* provider,
+ LocationUpdateRequester location_update_requester)
: max_stored_past_activity_days_(kMaxStoredPastActivityDays),
max_stored_future_activity_days_(kMaxStoredFutureActivityDays),
local_state_(local_state),
last_idle_check_(Time()),
+ geolocation_update_in_progress_(false),
statistics_provider_(provider),
+ ALLOW_THIS_IN_INITIALIZER_LIST(weak_factory_(this)),
+ location_update_requester_(location_update_requester),
report_version_info_(false),
report_activity_times_(false),
- report_boot_mode_(false) {
- timer_.Start(FROM_HERE,
- TimeDelta::FromSeconds(kPollIntervalSeconds),
- this, &DeviceStatusCollector::CheckIdleState);
+ report_boot_mode_(false),
+ report_location_(false) {
+ if (!location_update_requester_)
+ location_update_requester_ = &content::RequestLocationUpdate;
+ idle_poll_timer_.Start(FROM_HERE,
+ TimeDelta::FromSeconds(kIdlePollIntervalSeconds),
+ this, &DeviceStatusCollector::CheckIdleState);
cros_settings_ = chromeos::CrosSettings::Get();
@@ -76,6 +108,28 @@ DeviceStatusCollector::DeviceStatusCollector(
cros_settings_->AddSettingsObserver(chromeos::kReportDeviceActivityTimes,
this);
cros_settings_->AddSettingsObserver(chromeos::kReportDeviceBootMode, this);
+ cros_settings_->AddSettingsObserver(chromeos::kReportDeviceLocation, this);
+
+ // The last known location is persisted in local state. This makes location
+ // information available immediately upon startup and avoids the need to
+ // reacquire the location on every user session change or browser crash.
+ content::Geoposition position;
+ std::string timestamp_str;
+ int64 timestamp;
+ const base::DictionaryValue* location =
+ local_state_->GetDictionary(prefs::kDeviceLocation);
+ if (location->GetDouble(kLatitude, &position.latitude) &&
+ location->GetDouble(kLongitude, &position.longitude) &&
+ location->GetDouble(kAltitude, &position.altitude) &&
+ location->GetDouble(kAccuracy, &position.accuracy) &&
+ location->GetDouble(kAltitudeAccuracy, &position.altitude_accuracy) &&
+ location->GetDouble(kHeading, &position.heading) &&
+ location->GetDouble(kSpeed, &position.speed) &&
+ location->GetString(kTimestamp, &timestamp_str) &&
+ base::StringToInt64(timestamp_str, &timestamp)) {
+ position.timestamp = Time::FromInternalValue(timestamp);
+ position_ = position;
+ }
// Fetch the current values of the policies.
UpdateReportingSettings();
@@ -96,12 +150,15 @@ DeviceStatusCollector::~DeviceStatusCollector() {
cros_settings_->RemoveSettingsObserver(chromeos::kReportDeviceActivityTimes,
this);
cros_settings_->RemoveSettingsObserver(chromeos::kReportDeviceBootMode, this);
+ cros_settings_->RemoveSettingsObserver(chromeos::kReportDeviceLocation, this);
}
// static
void DeviceStatusCollector::RegisterPrefs(PrefService* local_state) {
local_state->RegisterDictionaryPref(prefs::kDeviceActivityTimes,
- new DictionaryValue);
+ new base::DictionaryValue);
+ local_state->RegisterDictionaryPref(prefs::kDeviceLocation,
+ new base::DictionaryValue);
}
void DeviceStatusCollector::CheckIdleState() {
@@ -125,6 +182,16 @@ void DeviceStatusCollector::UpdateReportingSettings() {
chromeos::kReportDeviceActivityTimes, &report_activity_times_);
cros_settings_->GetBoolean(
chromeos::kReportDeviceBootMode, &report_boot_mode_);
+ cros_settings_->GetBoolean(
+ chromeos::kReportDeviceLocation, &report_location_);
+
+ if (report_location_) {
+ ScheduleGeolocationUpdateRequest();
+ } else {
+ geolocation_update_timer_.Stop();
+ position_ = content::Geoposition();
+ local_state_->ClearPref(prefs::kDeviceLocation);
+ }
}
Time DeviceStatusCollector::GetCurrentTime() {
@@ -133,7 +200,7 @@ Time DeviceStatusCollector::GetCurrentTime() {
// Remove all out-of-range activity times from the local store.
void DeviceStatusCollector::PruneStoredActivityPeriods(Time base_time) {
- const DictionaryValue* activity_times =
+ const base::DictionaryValue* activity_times =
local_state_->GetDictionary(prefs::kDeviceActivityTimes);
if (activity_times->size() <=
max_stored_past_activity_days_ + max_stored_future_activity_days_)
@@ -145,8 +212,8 @@ void DeviceStatusCollector::PruneStoredActivityPeriods(Time base_time) {
base_time + TimeDelta::FromDays(max_stored_future_activity_days_);
const Time epoch = Time::UnixEpoch();
- scoped_ptr<DictionaryValue> copy(activity_times->DeepCopy());
- for (DictionaryValue::key_iterator it = activity_times->begin_keys();
+ scoped_ptr<base::DictionaryValue> copy(activity_times->DeepCopy());
+ for (base::DictionaryValue::key_iterator it = activity_times->begin_keys();
it != activity_times->end_keys(); ++it) {
int64 timestamp;
@@ -167,7 +234,7 @@ void DeviceStatusCollector::AddActivePeriod(Time start, Time end) {
// Maintain the list of active periods in a local_state pref.
DictionaryPrefUpdate update(local_state_, prefs::kDeviceActivityTimes);
- DictionaryValue* activity_times = update.Get();
+ base::DictionaryValue* activity_times = update.Get();
Time midnight = end.LocalMidnight();
@@ -201,8 +268,9 @@ void DeviceStatusCollector::IdleStateCallback(IdleState state) {
// interval of activity.
int active_seconds = (now - last_idle_check_).InSeconds();
if (active_seconds < 0 ||
- active_seconds >= static_cast<int>((2 * kPollIntervalSeconds)))
- AddActivePeriod(now - TimeDelta::FromSeconds(kPollIntervalSeconds), now);
+ active_seconds >= static_cast<int>((2 * kIdlePollIntervalSeconds)))
+ AddActivePeriod(now - TimeDelta::FromSeconds(kIdlePollIntervalSeconds),
+ now);
else
AddActivePeriod(last_idle_check_, now);
@@ -214,9 +282,9 @@ void DeviceStatusCollector::IdleStateCallback(IdleState state) {
void DeviceStatusCollector::GetActivityTimes(
em::DeviceStatusReportRequest* request) {
DictionaryPrefUpdate update(local_state_, prefs::kDeviceActivityTimes);
- DictionaryValue* activity_times = update.Get();
+ base::DictionaryValue* activity_times = update.Get();
- for (DictionaryValue::key_iterator it = activity_times->begin_keys();
+ for (base::DictionaryValue::key_iterator it = activity_times->begin_keys();
it != activity_times->end_keys(); ++it) {
int64 start_timestamp;
int activity_milliseconds;
@@ -258,6 +326,32 @@ void DeviceStatusCollector::GetBootMode(
}
}
+void DeviceStatusCollector::GetLocation(
+ em::DeviceStatusReportRequest* request) {
+ em::DeviceLocation* location = request->mutable_device_location();
+ if (!position_.Validate()) {
+ location->set_error_code(
+ em::DeviceLocation::ERROR_CODE_POSITION_UNAVAILABLE);
+ location->set_error_message(position_.error_message);
+ } else {
+ location->set_latitude(position_.latitude);
+ location->set_longitude(position_.longitude);
+ location->set_accuracy(position_.accuracy);
+ location->set_timestamp(
+ (position_.timestamp - Time::UnixEpoch()).InMilliseconds());
+ // Lowest point on land is at approximately -400 meters.
+ if (position_.altitude > -10000.)
+ location->set_altitude(position_.altitude);
+ if (position_.altitude_accuracy >= 0.)
+ location->set_altitude_accuracy(position_.altitude_accuracy);
+ if (position_.heading >= 0. && position_.heading <= 360)
+ location->set_heading(position_.heading);
+ if (position_.speed >= 0.)
+ location->set_speed(position_.speed);
+ location->set_error_code(em::DeviceLocation::ERROR_CODE_NONE);
+ }
+}
+
void DeviceStatusCollector::GetStatus(em::DeviceStatusReportRequest* request) {
if (report_activity_times_)
GetActivityTimes(request);
@@ -267,6 +361,9 @@ void DeviceStatusCollector::GetStatus(em::DeviceStatusReportRequest* request) {
if (report_boot_mode_)
GetBootMode(request);
+
+ if (report_location_)
+ GetLocation(request);
}
void DeviceStatusCollector::OnOSVersion(VersionLoader::Handle handle,
@@ -289,4 +386,59 @@ void DeviceStatusCollector::Observe(
NOTREACHED();
}
+void DeviceStatusCollector::ScheduleGeolocationUpdateRequest() {
+ if (geolocation_update_timer_.IsRunning() || geolocation_update_in_progress_)
+ return;
+
+ if (position_.Validate()) {
+ TimeDelta elapsed = Time::Now() - position_.timestamp;
+ TimeDelta interval =
+ TimeDelta::FromSeconds(kGeolocationPollIntervalSeconds);
+ if (elapsed > interval) {
+ geolocation_update_in_progress_ = true;
+ location_update_requester_(base::Bind(
+ &DeviceStatusCollector::ReceiveGeolocationUpdate,
+ weak_factory_.GetWeakPtr()));
+ } else {
+ geolocation_update_timer_.Start(
+ FROM_HERE,
+ interval - elapsed,
+ this,
+ &DeviceStatusCollector::ScheduleGeolocationUpdateRequest);
+ }
+ } else {
+ geolocation_update_in_progress_ = true;
+ location_update_requester_(base::Bind(
+ &DeviceStatusCollector::ReceiveGeolocationUpdate,
+ weak_factory_.GetWeakPtr()));
+
+ }
+}
+
+void DeviceStatusCollector::ReceiveGeolocationUpdate(
+ const content::Geoposition& position) {
+ geolocation_update_in_progress_ = false;
+
+ // Ignore update if device location reporting has since been disabled.
+ if (!report_location_)
+ return;
+
+ if (position.Validate()) {
+ position_ = position;
+ base::DictionaryValue location;
+ location.SetDouble(kLatitude, position.latitude);
+ location.SetDouble(kLongitude, position.longitude);
+ location.SetDouble(kAltitude, position.altitude);
+ location.SetDouble(kAccuracy, position.accuracy);
+ location.SetDouble(kAltitudeAccuracy, position.altitude_accuracy);
+ location.SetDouble(kHeading, position.heading);
+ location.SetDouble(kSpeed, position.speed);
+ location.SetString(kTimestamp,
+ base::Int64ToString(position.timestamp.ToInternalValue()));
+ local_state_->Set(prefs::kDeviceLocation, location);
+ }
+
+ ScheduleGeolocationUpdateRequest();
+}
+
} // namespace policy
generated by cgit v1.1 at 2025-05-20 17:53:50 +0000