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chromium / chromiumos / platform2 / cf060bc36e3d34c6a04a50b340814987d4e70e8e / . / update_engine / dbus_service.cc
blob: 36ee49492090163120e3f1ea654c378df0731de3 [file] [log] [blame]
// Copyright (c) 2012 The Chromium OS 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 "update_engine/dbus_service.h"
#include <set>
#include <string>
#include <base/logging.h>
#include <base/strings/stringprintf.h>
#include <policy/device_policy.h>
#include "update_engine/clock_interface.h"
#include "update_engine/connection_manager.h"
#include "update_engine/dbus_constants.h"
#include "update_engine/hardware_interface.h"
#include "update_engine/omaha_request_params.h"
#include "update_engine/p2p_manager.h"
#include "update_engine/prefs.h"
#include "update_engine/update_attempter.h"
#include "update_engine/utils.h"
using std::set;
using std::string;
using chromeos_update_engine::AttemptUpdateFlags;
using chromeos_update_engine::kAttemptUpdateFlagNonInteractive;
#define UPDATE_ENGINE_SERVICE_ERROR update_engine_service_error_quark ()
#define UPDATE_ENGINE_SERVICE_TYPE_ERROR \
(update_engine_service_error_get_type())
enum UpdateEngineServiceError {
UPDATE_ENGINE_SERVICE_ERROR_FAILED,
UPDATE_ENGINE_SERVICE_NUM_ERRORS
};
static GQuark update_engine_service_error_quark(void) {
static GQuark ret = 0;
if (ret == 0)
ret = g_quark_from_static_string("update_engine_service_error");
return ret;
}
#define ENUM_ENTRY(NAME, DESC) { NAME, "" #NAME "", DESC }
static GType update_engine_service_error_get_type(void) {
static GType etype = 0;
if (etype == 0) {
static const GEnumValue values[] = {
ENUM_ENTRY(UPDATE_ENGINE_SERVICE_ERROR_FAILED, "Failed"),
{ 0, 0, 0 }
};
G_STATIC_ASSERT(UPDATE_ENGINE_SERVICE_NUM_ERRORS ==
G_N_ELEMENTS(values) - 1);
etype = g_enum_register_static("UpdateEngineServiceError", values);
}
return etype;
}
static const char kAUTestURLRequest[] = "autest";
// By default autest bypasses scattering. If we want to test scattering,
// we should use autest-scheduled. The Url used is same in both cases, but
// different params are passed to CheckForUpdate method.
static const char kScheduledAUTestURLRequest[] = "autest-scheduled";
static const char kAUTestURL[] =
"https://omaha.sandbox.google.com/service/update2";
G_DEFINE_TYPE(UpdateEngineService, update_engine_service, G_TYPE_OBJECT)
static void update_engine_service_finalize(GObject* object) {
G_OBJECT_CLASS(update_engine_service_parent_class)->finalize(object);
}
static void log_and_set_response_error(GError** error,
UpdateEngineServiceError error_code,
const string& reason) {
LOG(ERROR) << "Sending DBus Failure: " << reason;
g_set_error_literal(error, UPDATE_ENGINE_SERVICE_ERROR,
error_code, reason.c_str());
}
static guint status_update_signal = 0;
static void update_engine_service_class_init(UpdateEngineServiceClass* klass) {
GObjectClass *object_class;
object_class = G_OBJECT_CLASS(klass);
object_class->finalize = update_engine_service_finalize;
status_update_signal = g_signal_new(
"status_update",
G_OBJECT_CLASS_TYPE(klass),
G_SIGNAL_RUN_LAST,
0, // 0 == no class method associated
nullptr, // Accumulator
nullptr, // Accumulator data
nullptr, // Marshaller
G_TYPE_NONE, // Return type
5, // param count:
G_TYPE_INT64,
G_TYPE_DOUBLE,
G_TYPE_STRING,
G_TYPE_STRING,
G_TYPE_INT64);
}
static void update_engine_service_init(UpdateEngineService* object) {
dbus_g_error_domain_register(UPDATE_ENGINE_SERVICE_ERROR,
"org.chromium.UpdateEngine.Error",
UPDATE_ENGINE_SERVICE_TYPE_ERROR);
}
UpdateEngineService* update_engine_service_new(void) {
return reinterpret_cast<UpdateEngineService*>(
g_object_new(UPDATE_ENGINE_TYPE_SERVICE, nullptr));
}
gboolean update_engine_service_attempt_update(UpdateEngineService* self,
gchar* app_version,
gchar* omaha_url,
GError **error) {
return update_engine_service_attempt_update_with_flags(self,
app_version,
omaha_url,
0, // No flags set.
error);
}
gboolean update_engine_service_attempt_update_with_flags(
UpdateEngineService* self,
gchar* app_version,
gchar* omaha_url,
gint flags_as_int,
GError **error) {
string update_app_version;
string update_omaha_url;
AttemptUpdateFlags flags = static_cast<AttemptUpdateFlags>(flags_as_int);
bool interactive = true;
// Only non-official (e.g., dev and test) builds can override the current
// version and update server URL over D-Bus. However, pointing to the
// hardcoded test update server URL is always allowed.
if (!self->system_state_->hardware()->IsOfficialBuild()) {
if (app_version) {
update_app_version = app_version;
}
if (omaha_url) {
update_omaha_url = omaha_url;
}
}
if (omaha_url) {
if (strcmp(omaha_url, kScheduledAUTestURLRequest) == 0) {
update_omaha_url = kAUTestURL;
// pretend that it's not user-initiated even though it is,
// so as to test scattering logic, etc. which get kicked off
// only in scheduled update checks.
interactive = false;
} else if (strcmp(omaha_url, kAUTestURLRequest) == 0) {
update_omaha_url = kAUTestURL;
}
}
if (flags & kAttemptUpdateFlagNonInteractive)
interactive = false;
LOG(INFO) << "Attempt update: app_version=\"" << update_app_version << "\" "
<< "omaha_url=\"" << update_omaha_url << "\" "
<< "flags=0x" << std::hex << flags << " "
<< "interactive=" << (interactive? "yes" : "no");
self->system_state_->update_attempter()->CheckForUpdate(update_app_version,
update_omaha_url,
interactive);
return TRUE;
}
gboolean update_engine_service_attempt_rollback(UpdateEngineService* self,
gboolean powerwash,
GError **error) {
LOG(INFO) << "Attempting rollback to non-active partitions.";
if (!self->system_state_->update_attempter()->Rollback(powerwash)) {
// TODO(dgarrett): Give a more specific error code/reason.
log_and_set_response_error(error,
UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"Rollback attempt failed.");
return FALSE;
}
return TRUE;
}
gboolean update_engine_service_can_rollback(UpdateEngineService* self,
gboolean* out_can_rollback,
GError **error) {
bool can_rollback = self->system_state_->update_attempter()->CanRollback();
LOG(INFO) << "Checking to see if we can rollback . Result: " << can_rollback;
*out_can_rollback = can_rollback;
return TRUE;
}
gboolean update_engine_service_get_rollback_partition(
UpdateEngineService* self,
gchar** out_rollback_partition_name,
GError **error) {
auto name = self->system_state_->update_attempter()->GetRollbackPartition();
LOG(INFO) << "Getting rollback partition name. Result: " << name;
*out_rollback_partition_name = g_strdup(name.c_str());
return TRUE;
}
gboolean update_engine_service_get_kernel_devices(UpdateEngineService* self,
gchar** out_kernel_devices,
GError **error) {
auto devices = self->system_state_->update_attempter()->GetKernelDevices();
std::string info;
for (const auto& device : devices) {
base::StringAppendF(&info, "%d:%s\n",
device.second ? 1 : 0, device.first.c_str());
}
LOG(INFO) << "Available kernel devices: " << info;
*out_kernel_devices = g_strdup(info.c_str());
return TRUE;
}
gboolean update_engine_service_reset_status(UpdateEngineService* self,
GError **error) {
if (!self->system_state_->update_attempter()->ResetStatus()) {
// TODO(dgarrett): Give a more specific error code/reason.
log_and_set_response_error(error,
UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"ResetStatus failed.");
return FALSE;
}
return TRUE;
}
gboolean update_engine_service_get_status(UpdateEngineService* self,
int64_t* last_checked_time,
double* progress,
gchar** current_operation,
gchar** new_version,
int64_t* new_size,
GError **error) {
string current_op;
string new_version_str;
CHECK(self->system_state_->update_attempter()->GetStatus(last_checked_time,
progress,
&current_op,
&new_version_str,
new_size));
*current_operation = g_strdup(current_op.c_str());
*new_version = g_strdup(new_version_str.c_str());
if (!*current_operation) {
log_and_set_response_error(error,
UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"Unable to find current_operation.");
return FALSE;
}
if (!*new_version) {
log_and_set_response_error(error,
UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"Unable to find vew_version.");
return FALSE;
}
return TRUE;
}
gboolean update_engine_service_reboot_if_needed(UpdateEngineService* self,
GError **error) {
if (!self->system_state_->update_attempter()->RebootIfNeeded()) {
// TODO(dgarrett): Give a more specific error code/reason.
log_and_set_response_error(error,
UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"Reboot not needed, or attempt failed.");
return FALSE;
}
return TRUE;
}
gboolean update_engine_service_set_channel(UpdateEngineService* self,
gchar* target_channel,
gboolean is_powerwash_allowed,
GError **error) {
if (!target_channel) {
log_and_set_response_error(error,
UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"Target channel to set not specified.");
return FALSE;
}
const policy::DevicePolicy* device_policy =
self->system_state_->device_policy();
// The device_policy is loaded in a lazy way before an update check. Load it
// now from the libchromeos cache if it wasn't already loaded.
if (!device_policy) {
chromeos_update_engine::UpdateAttempter* update_attempter =
self->system_state_->update_attempter();
if (update_attempter) {
update_attempter->RefreshDevicePolicy();
device_policy = self->system_state_->device_policy();
}
}
bool delegated = false;
if (device_policy &&
device_policy->GetReleaseChannelDelegated(&delegated) && !delegated) {
log_and_set_response_error(
error, UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"Cannot set target channel explicitly when channel "
"policy/settings is not delegated");
return FALSE;
}
LOG(INFO) << "Setting destination channel to: " << target_channel;
if (!self->system_state_->request_params()->SetTargetChannel(
target_channel, is_powerwash_allowed)) {
// TODO(dgarrett): Give a more specific error code/reason.
log_and_set_response_error(error,
UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"Setting channel failed.");
return FALSE;
}
return TRUE;
}
gboolean update_engine_service_get_channel(UpdateEngineService* self,
gboolean get_current_channel,
gchar** channel,
GError **error) {
chromeos_update_engine::OmahaRequestParams* rp =
self->system_state_->request_params();
string channel_str = get_current_channel ?
rp->current_channel() : rp->target_channel();
*channel = g_strdup(channel_str.c_str());
return TRUE;
}
gboolean update_engine_service_set_p2p_update_permission(
UpdateEngineService* self,
gboolean enabled,
GError **error) {
chromeos_update_engine::PrefsInterface* prefs = self->system_state_->prefs();
chromeos_update_engine::P2PManager* p2p_manager =
self->system_state_->p2p_manager();
bool p2p_was_enabled = p2p_manager && p2p_manager->IsP2PEnabled();
if (!prefs->SetBoolean(chromeos_update_engine::kPrefsP2PEnabled, enabled)) {
log_and_set_response_error(
error, UPDATE_ENGINE_SERVICE_ERROR_FAILED,
string("Error setting the update over cellular to ") +
(enabled ? "true." : "false."));
return FALSE;
}
// If P2P is being effectively disabled (IsP2PEnabled() reports the change)
// then we need to shutdown the service.
if (p2p_was_enabled && !p2p_manager->IsP2PEnabled())
p2p_manager->EnsureP2PNotRunning();
return TRUE;
}
gboolean update_engine_service_get_p2p_update_permission(
UpdateEngineService* self,
gboolean* enabled,
GError **error) {
chromeos_update_engine::PrefsInterface* prefs = self->system_state_->prefs();
// The default for not present setting is false.
if (!prefs->Exists(chromeos_update_engine::kPrefsP2PEnabled)) {
*enabled = false;
return TRUE;
}
bool p2p_pref = false;
if (!prefs->GetBoolean(chromeos_update_engine::kPrefsP2PEnabled, &p2p_pref)) {
log_and_set_response_error(error, UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"Error getting the P2PEnabled setting.");
return FALSE;
}
*enabled = p2p_pref;
return TRUE;
}
gboolean update_engine_service_set_update_over_cellular_permission(
UpdateEngineService* self,
gboolean allowed,
GError **error) {
set<string> allowed_types;
const policy::DevicePolicy* device_policy =
self->system_state_->device_policy();
// The device_policy is loaded in a lazy way before an update check. Load it
// now from the libchromeos cache if it wasn't already loaded.
if (!device_policy) {
chromeos_update_engine::UpdateAttempter* update_attempter =
self->system_state_->update_attempter();
if (update_attempter) {
update_attempter->RefreshDevicePolicy();
device_policy = self->system_state_->device_policy();
}
}
// Check if this setting is allowed by the device policy.
if (device_policy &&
device_policy->GetAllowedConnectionTypesForUpdate(&allowed_types)) {
log_and_set_response_error(
error, UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"Ignoring the update over cellular setting since there's "
"a device policy enforcing this setting.");
return FALSE;
}
// If the policy wasn't loaded yet, then it is still OK to change the local
// setting because the policy will be checked again during the update check.
chromeos_update_engine::PrefsInterface* prefs = self->system_state_->prefs();
if (!prefs->SetBoolean(
chromeos_update_engine::kPrefsUpdateOverCellularPermission,
allowed)) {
log_and_set_response_error(
error, UPDATE_ENGINE_SERVICE_ERROR_FAILED,
string("Error setting the update over cellular to ") +
(allowed ? "true" : "false"));
return FALSE;
}
return TRUE;
}
gboolean update_engine_service_get_update_over_cellular_permission(
UpdateEngineService* self,
gboolean* allowed,
GError **error) {
chromeos_update_engine::ConnectionManager* cm =
self->system_state_->connection_manager();
// The device_policy is loaded in a lazy way before an update check and is
// used to determine if an update is allowed over cellular. Load the device
// policy now from the libchromeos cache if it wasn't already loaded.
if (!self->system_state_->device_policy()) {
chromeos_update_engine::UpdateAttempter* update_attempter =
self->system_state_->update_attempter();
if (update_attempter)
update_attempter->RefreshDevicePolicy();
}
// Return the current setting based on the same logic used while checking for
// updates. A log message could be printed as the result of this test.
LOG(INFO) << "Checking if updates over cellular networks are allowed:";
*allowed = cm->IsUpdateAllowedOver(
chromeos_update_engine::kNetCellular,
chromeos_update_engine::NetworkTethering::kUnknown);
return TRUE;
}
gboolean update_engine_service_get_duration_since_update(
UpdateEngineService* self,
gint64* out_usec_wallclock,
GError **error) {
base::Time time;
if (!self->system_state_->update_attempter()->GetBootTimeAtUpdate(&time)) {
log_and_set_response_error(error, UPDATE_ENGINE_SERVICE_ERROR_FAILED,
"No pending update.");
return FALSE;
}
chromeos_update_engine::ClockInterface *clock = self->system_state_->clock();
*out_usec_wallclock = (clock->GetBootTime() - time).InMicroseconds();
return TRUE;
}
gboolean update_engine_service_emit_status_update(
UpdateEngineService* self,
gint64 last_checked_time,
gdouble progress,
const gchar* current_operation,
const gchar* new_version,
gint64 new_size) {
g_signal_emit(self,
status_update_signal,
0,
last_checked_time,
progress,
current_operation,
new_version,
new_size);
return TRUE;
}
gboolean update_engine_service_get_prev_version(
UpdateEngineService* self,
gchar** prev_version,
GError **error) {
std::string ver = self->system_state_->update_attempter()->GetPrevVersion();
*prev_version = g_strdup(ver.c_str());
return TRUE;
}