update_engine/update_engine_client.cc - mirrors/cros/chromiumos/platform2 - Git at Google

 // 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 <string>

 #include <base/command_line.h>
 #include <base/logging.h>
 #include <chromeos/dbus/service_constants.h>
 #include <chromeos/flag_helper.h>
 #include <dbus/dbus.h>
 #include <glib.h>
 #include <inttypes.h>

 #include "update_engine/dbus_constants.h"
 #include "update_engine/glib_utils.h"

 extern "C" {
 #include "update_engine/update_engine.dbusclient.h"
 }

 using chromeos_update_engine::AttemptUpdateFlags;
 using chromeos_update_engine::kAttemptUpdateFlagNonInteractive;
 using chromeos_update_engine::kUpdateEngineServiceInterface;
 using chromeos_update_engine::kUpdateEngineServiceName;
 using chromeos_update_engine::kUpdateEngineServicePath;
 using chromeos_update_engine::utils::GetAndFreeGError;
 using std::string;

 namespace {

 bool GetProxy(DBusGProxy** out_proxy) {
   DBusGConnection* bus;
   DBusGProxy* proxy = nullptr;
   GError* error = nullptr;
   const int kTries = 4;
   const int kRetrySeconds = 10;

   bus = dbus_g_bus_get(DBUS_BUS_SYSTEM, &error);
   if (bus == nullptr) {
     LOG(ERROR) << "Failed to get bus: " << GetAndFreeGError(&error);
     exit(1);
   }
   for (int i = 0; !proxy && i < kTries; ++i) {
     if (i > 0) {
       LOG(INFO) << "Retrying to get dbus proxy. Try "
                 << (i + 1) << "/" << kTries;
       g_usleep(kRetrySeconds * G_USEC_PER_SEC);
     }
     proxy = dbus_g_proxy_new_for_name_owner(bus,
                                             kUpdateEngineServiceName,
                                             kUpdateEngineServicePath,
                                             kUpdateEngineServiceInterface,
                                             &error);
     LOG_IF(WARNING, !proxy) << "Error getting dbus proxy for "
                             << kUpdateEngineServiceName << ": "
                             << GetAndFreeGError(&error);
   }
   if (proxy == nullptr) {
     LOG(ERROR) << "Giving up -- unable to get dbus proxy for "
                << kUpdateEngineServiceName;
     exit(1);
   }
   *out_proxy = proxy;
   return true;
 }

 static void StatusUpdateSignalHandler(DBusGProxy* proxy,
                                       int64_t last_checked_time,
                                       double progress,
                                       gchar* current_operation,
                                       gchar* new_version,
                                       int64_t new_size,
                                       void* user_data) {
   LOG(INFO) << "Got status update:";
   LOG(INFO) << "  last_checked_time: " << last_checked_time;
   LOG(INFO) << "  progress: " << progress;
   LOG(INFO) << "  current_operation: " << current_operation;
   LOG(INFO) << "  new_version: " << new_version;
   LOG(INFO) << "  new_size: " << new_size;
 }

 bool ResetStatus() {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   gboolean rc = update_engine_client_reset_status(proxy, &error);
   return rc;
 }


 // If |op| is non-null, sets it to the current operation string or an
 // empty string if unable to obtain the current status.
 bool GetStatus(string* op) {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   gint64 last_checked_time = 0;
   gdouble progress = 0.0;
   char* current_op = nullptr;
   char* new_version = nullptr;
   gint64 new_size = 0;

   gboolean rc = update_engine_client_get_status(proxy,
                                                 &last_checked_time,
                                                 &progress,
                                                 &current_op,
                                                 &new_version,
                                                 &new_size,
                                                 &error);
   if (rc == FALSE) {
     LOG(INFO) << "Error getting status: " << GetAndFreeGError(&error);
   }
   printf("LAST_CHECKED_TIME=%" PRIi64 "\nPROGRESS=%f\nCURRENT_OP=%s\n"
          "NEW_VERSION=%s\nNEW_SIZE=%" PRIi64 "\n",
          last_checked_time,
          progress,
          current_op,
          new_version,
          new_size);
   if (op) {
     *op = current_op ? current_op : "";
   }
   return true;
 }

 // Should never return.
 void WatchForUpdates() {
   DBusGProxy* proxy;

   CHECK(GetProxy(&proxy));

   // Register marshaller
   dbus_g_object_register_marshaller(
       g_cclosure_marshal_generic,
       G_TYPE_NONE,
       G_TYPE_INT64,
       G_TYPE_DOUBLE,
       G_TYPE_STRING,
       G_TYPE_STRING,
       G_TYPE_INT64,
       G_TYPE_INVALID);

   static const char kStatusUpdate[] = "StatusUpdate";
   dbus_g_proxy_add_signal(proxy,
                           kStatusUpdate,
                           G_TYPE_INT64,
                           G_TYPE_DOUBLE,
                           G_TYPE_STRING,
                           G_TYPE_STRING,
                           G_TYPE_INT64,
                           G_TYPE_INVALID);
   GMainLoop* loop = g_main_loop_new(nullptr, TRUE);
   dbus_g_proxy_connect_signal(proxy,
                               kStatusUpdate,
                               G_CALLBACK(StatusUpdateSignalHandler),
                               nullptr,
                               nullptr);
   g_main_loop_run(loop);
   g_main_loop_unref(loop);
 }

 bool Rollback(bool rollback) {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   gboolean rc = update_engine_client_attempt_rollback(proxy,
                                                       rollback,
                                                       &error);
   CHECK_EQ(rc, TRUE) << "Error with rollback request: "
                      << GetAndFreeGError(&error);
   return true;
 }

 string GetRollbackPartition() {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   char* rollback_partition = nullptr;
   gboolean rc = update_engine_client_get_rollback_partition(proxy,
                                                             &rollback_partition,
                                                             &error);
   CHECK_EQ(rc, TRUE) << "Error while querying rollback partition availabilty: "
                      << GetAndFreeGError(&error);
   string partition = rollback_partition;
   g_free(rollback_partition);
   return partition;
 }

 string GetKernelDevices() {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   char* kernel_devices = nullptr;
   gboolean rc = update_engine_client_get_kernel_devices(proxy,
                                                         &kernel_devices,
                                                         &error);
   CHECK_EQ(rc, TRUE) << "Error while getting a list of kernel devices: "
     << GetAndFreeGError(&error);
   string devices = kernel_devices;
   g_free(kernel_devices);
   return devices;
 }

 bool CheckForUpdates(const string& app_version,
                      const string& omaha_url,
                      bool interactive) {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   AttemptUpdateFlags flags = static_cast<AttemptUpdateFlags>(
       interactive ? 0 : kAttemptUpdateFlagNonInteractive);
   gboolean rc =
       update_engine_client_attempt_update_with_flags(proxy,
                                                      app_version.c_str(),
                                                      omaha_url.c_str(),
                                                      static_cast<gint>(flags),
                                                      &error);
   CHECK_EQ(rc, TRUE) << "Error checking for update: "
                      << GetAndFreeGError(&error);
   return true;
 }

 bool RebootIfNeeded() {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   gboolean rc =
       update_engine_client_reboot_if_needed(proxy, &error);
   // Reboot error code doesn't necessarily mean that a reboot
   // failed. For example, D-Bus may be shutdown before we receive the
   // result.
   LOG_IF(INFO, !rc) << "Reboot error message: " << GetAndFreeGError(&error);
   return true;
 }

 void SetTargetChannel(const string& target_channel, bool allow_powerwash) {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   gboolean rc = update_engine_client_set_channel(proxy,
                                                  target_channel.c_str(),
                                                  allow_powerwash,
                                                  &error);
   CHECK_EQ(rc, true) << "Error setting the channel: "
                      << GetAndFreeGError(&error);
   LOG(INFO) << "Channel permanently set to: " << target_channel;
 }

 string GetChannel(bool get_current_channel) {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   char* channel = nullptr;
   gboolean rc = update_engine_client_get_channel(proxy,
                                                  get_current_channel,
                                                  &channel,
                                                  &error);
   CHECK_EQ(rc, true) << "Error getting the channel: "
                      << GetAndFreeGError(&error);
   string output = channel;
   g_free(channel);
   return output;
 }

 void SetUpdateOverCellularPermission(gboolean allowed) {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   gboolean rc = update_engine_client_set_update_over_cellular_permission(
       proxy,
       allowed,
       &error);
   CHECK_EQ(rc, true) << "Error setting the update over cellular setting: "
                      << GetAndFreeGError(&error);
 }

 bool GetUpdateOverCellularPermission() {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   gboolean allowed;
   gboolean rc = update_engine_client_get_update_over_cellular_permission(
       proxy,
       &allowed,
       &error);
   CHECK_EQ(rc, true) << "Error getting the update over cellular setting: "
                      << GetAndFreeGError(&error);
   return allowed;
 }

 void SetP2PUpdatePermission(gboolean enabled) {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   gboolean rc = update_engine_client_set_p2p_update_permission(
       proxy,
       enabled,
       &error);
   CHECK_EQ(rc, true) << "Error setting the peer-to-peer update setting: "
                      << GetAndFreeGError(&error);
 }

 bool GetP2PUpdatePermission() {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   gboolean enabled;
   gboolean rc = update_engine_client_get_p2p_update_permission(
       proxy,
       &enabled,
       &error);
   CHECK_EQ(rc, true) << "Error getting the peer-to-peer update setting: "
                      << GetAndFreeGError(&error);
   return enabled;
 }

 static gboolean CompleteUpdateSource(gpointer data) {
   string current_op;
   if (!GetStatus(&current_op) || current_op == "UPDATE_STATUS_IDLE") {
     LOG(ERROR) << "Update failed.";
     exit(1);
   }
   if (current_op == "UPDATE_STATUS_UPDATED_NEED_REBOOT") {
     LOG(INFO) << "Update succeeded -- reboot needed.";
     exit(0);
   }
   return TRUE;
 }

 // This is similar to watching for updates but rather than registering
 // a signal watch, actively poll the daemon just in case it stops
 // sending notifications.
 void CompleteUpdate() {
   GMainLoop* loop = g_main_loop_new(nullptr, TRUE);
   g_timeout_add_seconds(5, CompleteUpdateSource, nullptr);
   g_main_loop_run(loop);
   g_main_loop_unref(loop);
 }

 void ShowPrevVersion() {
   DBusGProxy* proxy;
   GError* error = nullptr;

   CHECK(GetProxy(&proxy));

   char* prev_version = nullptr;

   gboolean rc = update_engine_client_get_prev_version(proxy,
                                                       &prev_version,
                                                       &error);
   if (!rc) {
     LOG(ERROR) << "Error getting previous version: "
                << GetAndFreeGError(&error);
   } else {
     LOG(INFO) << "Previous version = " << prev_version;
     g_free(prev_version);
   }
 }

 bool CheckIfRebootIsNeeded(DBusGProxy *proxy, bool *out_reboot_needed) {
   gint64 last_checked_time = 0;
   gdouble progress = 0.0;
   char* current_op = nullptr;
   char* new_version = nullptr;
   gint64 new_size = 0;
   GError* error = nullptr;

   if (!update_engine_client_get_status(proxy,
                                        &last_checked_time,
                                        &progress,
                                        &current_op,
                                        &new_version,
                                        &new_size,
                                        &error)) {
     LOG(INFO) << "Error getting status: " << GetAndFreeGError(&error);
     return false;
   }
   *out_reboot_needed =
       (g_strcmp0(current_op,
                  update_engine::kUpdateStatusUpdatedNeedReboot) == 0);
   g_free(current_op);
   g_free(new_version);
   return true;
 }

 // Determines if reboot is needed. The result is returned in
 // |out_reboot_needed|. Returns true if the check succeeded, false
 // otherwise.
 bool IsRebootNeeded(bool *out_reboot_needed) {
   DBusGProxy* proxy = nullptr;
   CHECK(GetProxy(&proxy));
   bool ret = CheckIfRebootIsNeeded(proxy, out_reboot_needed);
   g_object_unref(proxy);
   return ret;
 }

 static void OnBlockUntilRebootStatusCallback(
     DBusGProxy* proxy,
     int64_t last_checked_time,
     double progress,
     const gchar* current_operation,
     const gchar* new_version,
     int64_t new_size,
     void* user_data) {
   GMainLoop *loop = reinterpret_cast<GMainLoop*>(user_data);
   if (g_strcmp0(current_operation,
                 update_engine::kUpdateStatusUpdatedNeedReboot) == 0) {
     g_main_loop_quit(loop);
   }
 }

 bool CheckRebootNeeded(DBusGProxy *proxy, GMainLoop *loop) {
   bool reboot_needed;
   if (!CheckIfRebootIsNeeded(proxy, &reboot_needed))
     return false;
   if (reboot_needed)
     return true;
   // This will block until OnBlockUntilRebootStatusCallback() calls
   // g_main_loop_quit().
   g_main_loop_run(loop);
   return true;
 }

 // Blocks until a reboot is needed. Returns true if waiting succeeded,
 // false if an error occurred.
 bool BlockUntilRebootIsNeeded() {
   // The basic idea is to get a proxy, listen to signals and only then
   // check the status. If no reboot is needed, just sit and wait for
   // the StatusUpdate signal to convey that a reboot is pending.
   DBusGProxy* proxy = nullptr;
   CHECK(GetProxy(&proxy));
   dbus_g_object_register_marshaller(
       g_cclosure_marshal_generic,
       G_TYPE_NONE,
       G_TYPE_INT64,
       G_TYPE_DOUBLE,
       G_TYPE_STRING,
       G_TYPE_STRING,
       G_TYPE_INT64,
       G_TYPE_INVALID);
   dbus_g_proxy_add_signal(proxy,
                           update_engine::kStatusUpdate,  // Signal name.
                           G_TYPE_INT64,
                           G_TYPE_DOUBLE,
                           G_TYPE_STRING,
                           G_TYPE_STRING,
                           G_TYPE_INT64,
                           G_TYPE_INVALID);
   GMainLoop* loop = g_main_loop_new(nullptr, TRUE);
   dbus_g_proxy_connect_signal(proxy,
                               update_engine::kStatusUpdate,
                               G_CALLBACK(OnBlockUntilRebootStatusCallback),
                               loop,
                               nullptr);  // free_data_func.

   bool ret = CheckRebootNeeded(proxy, loop);

   dbus_g_proxy_disconnect_signal(proxy,
                                  update_engine::kStatusUpdate,
                                  G_CALLBACK(OnBlockUntilRebootStatusCallback),
                                  loop);
   g_main_loop_unref(loop);
   g_object_unref(proxy);
   return ret;
 }

 }  // namespace

 int main(int argc, char** argv) {
   DEFINE_string(app_version, "", "Force the current app version.");
   DEFINE_string(channel, "",
                 "Set the target channel. The device will be powerwashed if the "
                 "target channel is more stable than the current channel unless "
                 "--nopowerwash is specified.");
   DEFINE_bool(check_for_update, false, "Initiate check for updates.");
   DEFINE_bool(follow, false, "Wait for any update operations to complete."
               "Exit status is 0 if the update succeeded, and 1 otherwise.");
   DEFINE_bool(interactive, true, "Mark the update request as interactive.");
   DEFINE_string(omaha_url, "", "The URL of the Omaha update server.");
   DEFINE_string(p2p_update, "",
                 "Enables (\"yes\") or disables (\"no\") the peer-to-peer update"
                 " sharing.");
   DEFINE_bool(powerwash, true, "When performing rollback or channel change, "
               "do a powerwash or allow it respectively.");
   DEFINE_bool(reboot, false, "Initiate a reboot if needed.");
   DEFINE_bool(is_reboot_needed, false, "Exit status 0 if reboot is needed, "
               "2 if reboot is not needed or 1 if an error occurred.");
   DEFINE_bool(block_until_reboot_is_needed, false, "Blocks until reboot is "
               "needed. Returns non-zero exit status if an error occurred.");
   DEFINE_bool(reset_status, false, "Sets the status in update_engine to idle.");
   DEFINE_bool(rollback, false,
               "Perform a rollback to the previous partition. The device will "
               "be powerwashed unless --nopowerwash is specified.");
   DEFINE_bool(can_rollback, false, "Shows whether rollback partition "
               "is available.");
   DEFINE_bool(show_channel, false, "Show the current and target channels.");
   DEFINE_bool(show_p2p_update, false,
               "Show the current setting for peer-to-peer update sharing.");
   DEFINE_bool(show_update_over_cellular, false,
               "Show the current setting for updates over cellular networks.");
   DEFINE_bool(status, false, "Print the status to stdout.");
   DEFINE_bool(update, false, "Forces an update and waits for it to complete. "
               "Implies --follow.");
   DEFINE_string(update_over_cellular, "",
                 "Enables (\"yes\") or disables (\"no\") the updates over "
                 "cellular networks.");
   DEFINE_bool(watch_for_updates, false,
               "Listen for status updates and print them to the screen.");
   DEFINE_bool(prev_version, false,
               "Show the previous OS version used before the update reboot.");
   DEFINE_bool(show_kernels, false, "Show the list of kernel patritions and "
               "whether each of them is bootable or not");

   // Boilerplate init commands.
   g_type_init();
   dbus_threads_init_default();
   chromeos::FlagHelper::Init(argc, argv, "Chromium OS Update Engine Client");

   // Ensure there are no positional arguments.
   const std::vector<string> positional_args =
       base::CommandLine::ForCurrentProcess()->GetArgs();
   if (!positional_args.empty()) {
     LOG(ERROR) << "Found a positional argument '" << positional_args.front()
                << "'. If you want to pass a value to a flag, pass it as "
                   "--flag=value.";
     return 1;
   }

   // Update the status if requested.
   if (FLAGS_reset_status) {
     LOG(INFO) << "Setting Update Engine status to idle ...";
     if (!ResetStatus()) {
       LOG(ERROR) << "ResetStatus failed.";
       return 1;
     }
     LOG(INFO) << "ResetStatus succeeded; to undo partition table changes run:\n"
                  "(D=$(rootdev -d) P=$(rootdev -s); cgpt p -i$(($(echo ${P#$D} "
                  "| sed 's/^[^0-9]*//')-1)) $D;)";
   }

   // Changes the current update over cellular network setting.
   if (!FLAGS_update_over_cellular.empty()) {
     gboolean allowed = FLAGS_update_over_cellular == "yes";
     if (!allowed && FLAGS_update_over_cellular != "no") {
       LOG(ERROR) << "Unknown option: \"" << FLAGS_update_over_cellular
                  << "\". Please specify \"yes\" or \"no\".";
     } else {
       SetUpdateOverCellularPermission(allowed);
     }
   }

   // Show the current update over cellular network setting.
   if (FLAGS_show_update_over_cellular) {
     bool allowed = GetUpdateOverCellularPermission();
     LOG(INFO) << "Current update over cellular network setting: "
               << (allowed ? "ENABLED" : "DISABLED");
   }

   if (!FLAGS_powerwash && !FLAGS_rollback && FLAGS_channel.empty()) {
     LOG(ERROR) << "powerwash flag only makes sense rollback or channel change";
     return 1;
   }

   // Change the P2P enabled setting.
   if (!FLAGS_p2p_update.empty()) {
     gboolean enabled = FLAGS_p2p_update == "yes";
     if (!enabled && FLAGS_p2p_update != "no") {
       LOG(ERROR) << "Unknown option: \"" << FLAGS_p2p_update
                  << "\". Please specify \"yes\" or \"no\".";
     } else {
       SetP2PUpdatePermission(enabled);
     }
   }

   // Show the rollback availability.
   if (FLAGS_can_rollback) {
     string rollback_partition = GetRollbackPartition();
     bool can_rollback = true;
     if (rollback_partition.empty()) {
       rollback_partition = "UNAVAILABLE";
       can_rollback = false;
     } else {
       rollback_partition = "AVAILABLE: " + rollback_partition;
     }

     LOG(INFO) << "Rollback partition: " << rollback_partition;
     if (!can_rollback) {
       return 1;
     }
   }

   // Show the current P2P enabled setting.
   if (FLAGS_show_p2p_update) {
     bool enabled = GetP2PUpdatePermission();
     LOG(INFO) << "Current update using P2P setting: "
               << (enabled ? "ENABLED" : "DISABLED");
   }

   // First, update the target channel if requested.
   if (!FLAGS_channel.empty())
     SetTargetChannel(FLAGS_channel, FLAGS_powerwash);

   // Show the current and target channels if requested.
   if (FLAGS_show_channel) {
     string current_channel = GetChannel(true);
     LOG(INFO) << "Current Channel: " << current_channel;

     string target_channel = GetChannel(false);
     if (!target_channel.empty())
       LOG(INFO) << "Target Channel (pending update): " << target_channel;
   }

   bool do_update_request = FLAGS_check_for_update | FLAGS_update |
       !FLAGS_app_version.empty() | !FLAGS_omaha_url.empty();
   if (FLAGS_update)
     FLAGS_follow = true;

   if (do_update_request && FLAGS_rollback) {
     LOG(ERROR) << "Incompatible flags specified with rollback."
                << "Rollback should not include update-related flags.";
     return 1;
   }

   if (FLAGS_rollback) {
     LOG(INFO) << "Requesting rollback.";
     CHECK(Rollback(FLAGS_powerwash)) << "Request for rollback failed.";
   }

   // Initiate an update check, if necessary.
   if (do_update_request) {
     LOG_IF(WARNING, FLAGS_reboot) << "-reboot flag ignored.";
     string app_version = FLAGS_app_version;
     if (FLAGS_update && app_version.empty()) {
       app_version = "ForcedUpdate";
       LOG(INFO) << "Forcing an update by setting app_version to ForcedUpdate.";
     }
     LOG(INFO) << "Initiating update check and install.";
     CHECK(CheckForUpdates(app_version, FLAGS_omaha_url, FLAGS_interactive))
         << "Update check/initiate update failed.";
   }

   // These final options are all mutually exclusive with one another.
   if (FLAGS_follow + FLAGS_watch_for_updates + FLAGS_reboot +
       FLAGS_status + FLAGS_is_reboot_needed +
       FLAGS_block_until_reboot_is_needed > 1) {
     LOG(ERROR) << "Multiple exclusive options selected. "
                << "Select only one of --follow, --watch_for_updates, --reboot, "
                << "--is_reboot_needed, --block_until_reboot_is_needed, "
                << "or --status.";
     return 1;
   }

   if (FLAGS_status) {
     LOG(INFO) << "Querying Update Engine status...";
     if (!GetStatus(nullptr)) {
       LOG(ERROR) << "GetStatus failed.";
       return 1;
     }
     return 0;
   }

   if (FLAGS_follow) {
     LOG(INFO) << "Waiting for update to complete.";
     CompleteUpdate();  // Should never return.
     return 1;
   }

   if (FLAGS_watch_for_updates) {
     LOG(INFO) << "Watching for status updates.";
     WatchForUpdates();  // Should never return.
     return 1;
   }

   if (FLAGS_reboot) {
     LOG(INFO) << "Requesting a reboot...";
     CHECK(RebootIfNeeded());
     return 0;
   }

   if (FLAGS_prev_version) {
     ShowPrevVersion();
   }

   if (FLAGS_show_kernels) {
     LOG(INFO) << "Kernel partitions:\n"
               << GetKernelDevices();
   }

   if (FLAGS_is_reboot_needed) {
     bool reboot_needed = false;
     if (!IsRebootNeeded(&reboot_needed))
       return 1;
     else if (!reboot_needed)
       return 2;
   }

   if (FLAGS_block_until_reboot_is_needed) {
     if (!BlockUntilRebootIsNeeded())
       return 1;
   }

   LOG(INFO) << "Done.";
   return 0;
 }
	// 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 <string>

	#include <base/command_line.h>
	#include <base/logging.h>
	#include <chromeos/dbus/service_constants.h>
	#include <chromeos/flag_helper.h>
	#include <dbus/dbus.h>
	#include <glib.h>
	#include <inttypes.h>

	#include "update_engine/dbus_constants.h"
	#include "update_engine/glib_utils.h"

	extern "C" {
	#include "update_engine/update_engine.dbusclient.h"
	}

	using chromeos_update_engine::AttemptUpdateFlags;
	using chromeos_update_engine::kAttemptUpdateFlagNonInteractive;
	using chromeos_update_engine::kUpdateEngineServiceInterface;
	using chromeos_update_engine::kUpdateEngineServiceName;
	using chromeos_update_engine::kUpdateEngineServicePath;
	using chromeos_update_engine::utils::GetAndFreeGError;
	using std::string;

	namespace {

	bool GetProxy(DBusGProxy** out_proxy) {
	DBusGConnection* bus;
	DBusGProxy* proxy = nullptr;
	GError* error = nullptr;
	const int kTries = 4;
	const int kRetrySeconds = 10;

	bus = dbus_g_bus_get(DBUS_BUS_SYSTEM, &error);
	if (bus == nullptr) {
	LOG(ERROR) << "Failed to get bus: " << GetAndFreeGError(&error);
	exit(1);
	}
	for (int i = 0; !proxy && i < kTries; ++i) {
	if (i > 0) {
	LOG(INFO) << "Retrying to get dbus proxy. Try "
	<< (i + 1) << "/" << kTries;
	g_usleep(kRetrySeconds * G_USEC_PER_SEC);
	}
	proxy = dbus_g_proxy_new_for_name_owner(bus,
	kUpdateEngineServiceName,
	kUpdateEngineServicePath,
	kUpdateEngineServiceInterface,
	&error);
	LOG_IF(WARNING, !proxy) << "Error getting dbus proxy for "
	<< kUpdateEngineServiceName << ": "
	<< GetAndFreeGError(&error);
	}
	if (proxy == nullptr) {
	LOG(ERROR) << "Giving up -- unable to get dbus proxy for "
	<< kUpdateEngineServiceName;
	exit(1);
	}
	*out_proxy = proxy;
	return true;
	}

	static void StatusUpdateSignalHandler(DBusGProxy* proxy,
	int64_t last_checked_time,
	double progress,
	gchar* current_operation,
	gchar* new_version,
	int64_t new_size,
	void* user_data) {
	LOG(INFO) << "Got status update:";
	LOG(INFO) << " last_checked_time: " << last_checked_time;
	LOG(INFO) << " progress: " << progress;
	LOG(INFO) << " current_operation: " << current_operation;
	LOG(INFO) << " new_version: " << new_version;
	LOG(INFO) << " new_size: " << new_size;
	}

	bool ResetStatus() {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	gboolean rc = update_engine_client_reset_status(proxy, &error);
	return rc;
	}


	// If \|op\| is non-null, sets it to the current operation string or an
	// empty string if unable to obtain the current status.
	bool GetStatus(string* op) {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	gint64 last_checked_time = 0;
	gdouble progress = 0.0;
	char* current_op = nullptr;
	char* new_version = nullptr;
	gint64 new_size = 0;

	gboolean rc = update_engine_client_get_status(proxy,
	&last_checked_time,
	&progress,
	&current_op,
	&new_version,
	&new_size,
	&error);
	if (rc == FALSE) {
	LOG(INFO) << "Error getting status: " << GetAndFreeGError(&error);
	}
	printf("LAST_CHECKED_TIME=%" PRIi64 "\nPROGRESS=%f\nCURRENT_OP=%s\n"
	"NEW_VERSION=%s\nNEW_SIZE=%" PRIi64 "\n",
	last_checked_time,
	progress,
	current_op,
	new_version,
	new_size);
	if (op) {
	*op = current_op ? current_op : "";
	}
	return true;
	}

	// Should never return.
	void WatchForUpdates() {
	DBusGProxy* proxy;

	CHECK(GetProxy(&proxy));

	// Register marshaller
	dbus_g_object_register_marshaller(
	g_cclosure_marshal_generic,
	G_TYPE_NONE,
	G_TYPE_INT64,
	G_TYPE_DOUBLE,
	G_TYPE_STRING,
	G_TYPE_STRING,
	G_TYPE_INT64,
	G_TYPE_INVALID);

	static const char kStatusUpdate[] = "StatusUpdate";
	dbus_g_proxy_add_signal(proxy,
	kStatusUpdate,
	G_TYPE_INT64,
	G_TYPE_DOUBLE,
	G_TYPE_STRING,
	G_TYPE_STRING,
	G_TYPE_INT64,
	G_TYPE_INVALID);
	GMainLoop* loop = g_main_loop_new(nullptr, TRUE);
	dbus_g_proxy_connect_signal(proxy,
	kStatusUpdate,
	G_CALLBACK(StatusUpdateSignalHandler),
	nullptr,
	nullptr);
	g_main_loop_run(loop);
	g_main_loop_unref(loop);
	}

	bool Rollback(bool rollback) {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	gboolean rc = update_engine_client_attempt_rollback(proxy,
	rollback,
	&error);
	CHECK_EQ(rc, TRUE) << "Error with rollback request: "
	<< GetAndFreeGError(&error);
	return true;
	}

	string GetRollbackPartition() {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	char* rollback_partition = nullptr;
	gboolean rc = update_engine_client_get_rollback_partition(proxy,
	&rollback_partition,
	&error);
	CHECK_EQ(rc, TRUE) << "Error while querying rollback partition availabilty: "
	<< GetAndFreeGError(&error);
	string partition = rollback_partition;
	g_free(rollback_partition);
	return partition;
	}

	string GetKernelDevices() {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	char* kernel_devices = nullptr;
	gboolean rc = update_engine_client_get_kernel_devices(proxy,
	&kernel_devices,
	&error);
	CHECK_EQ(rc, TRUE) << "Error while getting a list of kernel devices: "
	<< GetAndFreeGError(&error);
	string devices = kernel_devices;
	g_free(kernel_devices);
	return devices;
	}

	bool CheckForUpdates(const string& app_version,
	const string& omaha_url,
	bool interactive) {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	AttemptUpdateFlags flags = static_cast<AttemptUpdateFlags>(
	interactive ? 0 : kAttemptUpdateFlagNonInteractive);
	gboolean rc =
	update_engine_client_attempt_update_with_flags(proxy,
	app_version.c_str(),
	omaha_url.c_str(),
	static_cast<gint>(flags),
	&error);
	CHECK_EQ(rc, TRUE) << "Error checking for update: "
	<< GetAndFreeGError(&error);
	return true;
	}

	bool RebootIfNeeded() {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	gboolean rc =
	update_engine_client_reboot_if_needed(proxy, &error);
	// Reboot error code doesn't necessarily mean that a reboot
	// failed. For example, D-Bus may be shutdown before we receive the
	// result.
	LOG_IF(INFO, !rc) << "Reboot error message: " << GetAndFreeGError(&error);
	return true;
	}

	void SetTargetChannel(const string& target_channel, bool allow_powerwash) {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	gboolean rc = update_engine_client_set_channel(proxy,
	target_channel.c_str(),
	allow_powerwash,
	&error);
	CHECK_EQ(rc, true) << "Error setting the channel: "
	<< GetAndFreeGError(&error);
	LOG(INFO) << "Channel permanently set to: " << target_channel;
	}

	string GetChannel(bool get_current_channel) {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	char* channel = nullptr;
	gboolean rc = update_engine_client_get_channel(proxy,
	get_current_channel,
	&channel,
	&error);
	CHECK_EQ(rc, true) << "Error getting the channel: "
	<< GetAndFreeGError(&error);
	string output = channel;
	g_free(channel);
	return output;
	}

	void SetUpdateOverCellularPermission(gboolean allowed) {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	gboolean rc = update_engine_client_set_update_over_cellular_permission(
	proxy,
	allowed,
	&error);
	CHECK_EQ(rc, true) << "Error setting the update over cellular setting: "
	<< GetAndFreeGError(&error);
	}

	bool GetUpdateOverCellularPermission() {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	gboolean allowed;
	gboolean rc = update_engine_client_get_update_over_cellular_permission(
	proxy,
	&allowed,
	&error);
	CHECK_EQ(rc, true) << "Error getting the update over cellular setting: "
	<< GetAndFreeGError(&error);
	return allowed;
	}

	void SetP2PUpdatePermission(gboolean enabled) {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	gboolean rc = update_engine_client_set_p2p_update_permission(
	proxy,
	enabled,
	&error);
	CHECK_EQ(rc, true) << "Error setting the peer-to-peer update setting: "
	<< GetAndFreeGError(&error);
	}

	bool GetP2PUpdatePermission() {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	gboolean enabled;
	gboolean rc = update_engine_client_get_p2p_update_permission(
	proxy,
	&enabled,
	&error);
	CHECK_EQ(rc, true) << "Error getting the peer-to-peer update setting: "
	<< GetAndFreeGError(&error);
	return enabled;
	}

	static gboolean CompleteUpdateSource(gpointer data) {
	string current_op;
	if (!GetStatus(&current_op) \|\| current_op == "UPDATE_STATUS_IDLE") {
	LOG(ERROR) << "Update failed.";
	exit(1);
	}
	if (current_op == "UPDATE_STATUS_UPDATED_NEED_REBOOT") {
	LOG(INFO) << "Update succeeded -- reboot needed.";
	exit(0);
	}
	return TRUE;
	}

	// This is similar to watching for updates but rather than registering
	// a signal watch, actively poll the daemon just in case it stops
	// sending notifications.
	void CompleteUpdate() {
	GMainLoop* loop = g_main_loop_new(nullptr, TRUE);
	g_timeout_add_seconds(5, CompleteUpdateSource, nullptr);
	g_main_loop_run(loop);
	g_main_loop_unref(loop);
	}

	void ShowPrevVersion() {
	DBusGProxy* proxy;
	GError* error = nullptr;

	CHECK(GetProxy(&proxy));

	char* prev_version = nullptr;

	gboolean rc = update_engine_client_get_prev_version(proxy,
	&prev_version,
	&error);
	if (!rc) {
	LOG(ERROR) << "Error getting previous version: "
	<< GetAndFreeGError(&error);
	} else {
	LOG(INFO) << "Previous version = " << prev_version;
	g_free(prev_version);
	}
	}

	bool CheckIfRebootIsNeeded(DBusGProxy proxy, bool out_reboot_needed) {
	gint64 last_checked_time = 0;
	gdouble progress = 0.0;
	char* current_op = nullptr;
	char* new_version = nullptr;
	gint64 new_size = 0;
	GError* error = nullptr;

	if (!update_engine_client_get_status(proxy,
	&last_checked_time,
	&progress,
	&current_op,
	&new_version,
	&new_size,
	&error)) {
	LOG(INFO) << "Error getting status: " << GetAndFreeGError(&error);
	return false;
	}
	*out_reboot_needed =
	(g_strcmp0(current_op,
	update_engine::kUpdateStatusUpdatedNeedReboot) == 0);
	g_free(current_op);
	g_free(new_version);
	return true;
	}

	// Determines if reboot is needed. The result is returned in
	// \|out_reboot_needed\|. Returns true if the check succeeded, false
	// otherwise.
	bool IsRebootNeeded(bool *out_reboot_needed) {
	DBusGProxy* proxy = nullptr;
	CHECK(GetProxy(&proxy));
	bool ret = CheckIfRebootIsNeeded(proxy, out_reboot_needed);
	g_object_unref(proxy);
	return ret;
	}

	static void OnBlockUntilRebootStatusCallback(
	DBusGProxy* proxy,
	int64_t last_checked_time,
	double progress,
	const gchar* current_operation,
	const gchar* new_version,
	int64_t new_size,
	void* user_data) {
	GMainLoop loop = reinterpret_cast<GMainLoop>(user_data);
	if (g_strcmp0(current_operation,
	update_engine::kUpdateStatusUpdatedNeedReboot) == 0) {
	g_main_loop_quit(loop);
	}
	}

	bool CheckRebootNeeded(DBusGProxy proxy, GMainLoop loop) {
	bool reboot_needed;
	if (!CheckIfRebootIsNeeded(proxy, &reboot_needed))
	return false;
	if (reboot_needed)
	return true;
	// This will block until OnBlockUntilRebootStatusCallback() calls
	// g_main_loop_quit().
	g_main_loop_run(loop);
	return true;
	}

	// Blocks until a reboot is needed. Returns true if waiting succeeded,
	// false if an error occurred.
	bool BlockUntilRebootIsNeeded() {
	// The basic idea is to get a proxy, listen to signals and only then
	// check the status. If no reboot is needed, just sit and wait for
	// the StatusUpdate signal to convey that a reboot is pending.
	DBusGProxy* proxy = nullptr;
	CHECK(GetProxy(&proxy));
	dbus_g_object_register_marshaller(
	g_cclosure_marshal_generic,
	G_TYPE_NONE,
	G_TYPE_INT64,
	G_TYPE_DOUBLE,
	G_TYPE_STRING,
	G_TYPE_STRING,
	G_TYPE_INT64,
	G_TYPE_INVALID);
	dbus_g_proxy_add_signal(proxy,
	update_engine::kStatusUpdate, // Signal name.
	G_TYPE_INT64,
	G_TYPE_DOUBLE,
	G_TYPE_STRING,
	G_TYPE_STRING,
	G_TYPE_INT64,
	G_TYPE_INVALID);
	GMainLoop* loop = g_main_loop_new(nullptr, TRUE);
	dbus_g_proxy_connect_signal(proxy,
	update_engine::kStatusUpdate,
	G_CALLBACK(OnBlockUntilRebootStatusCallback),
	loop,
	nullptr); // free_data_func.

	bool ret = CheckRebootNeeded(proxy, loop);

	dbus_g_proxy_disconnect_signal(proxy,
	update_engine::kStatusUpdate,
	G_CALLBACK(OnBlockUntilRebootStatusCallback),
	loop);
	g_main_loop_unref(loop);
	g_object_unref(proxy);
	return ret;
	}

	} // namespace

	int main(int argc, char** argv) {
	DEFINE_string(app_version, "", "Force the current app version.");
	DEFINE_string(channel, "",
	"Set the target channel. The device will be powerwashed if the "
	"target channel is more stable than the current channel unless "
	"--nopowerwash is specified.");
	DEFINE_bool(check_for_update, false, "Initiate check for updates.");
	DEFINE_bool(follow, false, "Wait for any update operations to complete."
	"Exit status is 0 if the update succeeded, and 1 otherwise.");
	DEFINE_bool(interactive, true, "Mark the update request as interactive.");
	DEFINE_string(omaha_url, "", "The URL of the Omaha update server.");
	DEFINE_string(p2p_update, "",
	"Enables (\"yes\") or disables (\"no\") the peer-to-peer update"
	" sharing.");
	DEFINE_bool(powerwash, true, "When performing rollback or channel change, "
	"do a powerwash or allow it respectively.");
	DEFINE_bool(reboot, false, "Initiate a reboot if needed.");
	DEFINE_bool(is_reboot_needed, false, "Exit status 0 if reboot is needed, "
	"2 if reboot is not needed or 1 if an error occurred.");
	DEFINE_bool(block_until_reboot_is_needed, false, "Blocks until reboot is "
	"needed. Returns non-zero exit status if an error occurred.");
	DEFINE_bool(reset_status, false, "Sets the status in update_engine to idle.");
	DEFINE_bool(rollback, false,
	"Perform a rollback to the previous partition. The device will "
	"be powerwashed unless --nopowerwash is specified.");
	DEFINE_bool(can_rollback, false, "Shows whether rollback partition "
	"is available.");
	DEFINE_bool(show_channel, false, "Show the current and target channels.");
	DEFINE_bool(show_p2p_update, false,
	"Show the current setting for peer-to-peer update sharing.");
	DEFINE_bool(show_update_over_cellular, false,
	"Show the current setting for updates over cellular networks.");
	DEFINE_bool(status, false, "Print the status to stdout.");
	DEFINE_bool(update, false, "Forces an update and waits for it to complete. "
	"Implies --follow.");
	DEFINE_string(update_over_cellular, "",
	"Enables (\"yes\") or disables (\"no\") the updates over "
	"cellular networks.");
	DEFINE_bool(watch_for_updates, false,
	"Listen for status updates and print them to the screen.");
	DEFINE_bool(prev_version, false,
	"Show the previous OS version used before the update reboot.");
	DEFINE_bool(show_kernels, false, "Show the list of kernel patritions and "
	"whether each of them is bootable or not");

	// Boilerplate init commands.
	g_type_init();
	dbus_threads_init_default();
	chromeos::FlagHelper::Init(argc, argv, "Chromium OS Update Engine Client");

	// Ensure there are no positional arguments.
	const std::vector<string> positional_args =
	base::CommandLine::ForCurrentProcess()->GetArgs();
	if (!positional_args.empty()) {
	LOG(ERROR) << "Found a positional argument '" << positional_args.front()
	<< "'. If you want to pass a value to a flag, pass it as "
	"--flag=value.";
	return 1;
	}

	// Update the status if requested.
	if (FLAGS_reset_status) {
	LOG(INFO) << "Setting Update Engine status to idle ...";
	if (!ResetStatus()) {
	LOG(ERROR) << "ResetStatus failed.";
	return 1;
	}
	LOG(INFO) << "ResetStatus succeeded; to undo partition table changes run:\n"
	"(D=$(rootdev -d) P=$(rootdev -s); cgpt p -i$(($(echo ${P#$D} "
	"\| sed 's/^[^0-9]*//')-1)) $D;)";
	}

	// Changes the current update over cellular network setting.
	if (!FLAGS_update_over_cellular.empty()) {
	gboolean allowed = FLAGS_update_over_cellular == "yes";
	if (!allowed && FLAGS_update_over_cellular != "no") {
	LOG(ERROR) << "Unknown option: \"" << FLAGS_update_over_cellular
	<< "\". Please specify \"yes\" or \"no\".";
	} else {
	SetUpdateOverCellularPermission(allowed);
	}
	}

	// Show the current update over cellular network setting.
	if (FLAGS_show_update_over_cellular) {
	bool allowed = GetUpdateOverCellularPermission();
	LOG(INFO) << "Current update over cellular network setting: "
	<< (allowed ? "ENABLED" : "DISABLED");
	}

	if (!FLAGS_powerwash && !FLAGS_rollback && FLAGS_channel.empty()) {
	LOG(ERROR) << "powerwash flag only makes sense rollback or channel change";
	return 1;
	}

	// Change the P2P enabled setting.
	if (!FLAGS_p2p_update.empty()) {
	gboolean enabled = FLAGS_p2p_update == "yes";
	if (!enabled && FLAGS_p2p_update != "no") {
	LOG(ERROR) << "Unknown option: \"" << FLAGS_p2p_update
	<< "\". Please specify \"yes\" or \"no\".";
	} else {
	SetP2PUpdatePermission(enabled);
	}
	}

	// Show the rollback availability.
	if (FLAGS_can_rollback) {
	string rollback_partition = GetRollbackPartition();
	bool can_rollback = true;
	if (rollback_partition.empty()) {
	rollback_partition = "UNAVAILABLE";
	can_rollback = false;
	} else {
	rollback_partition = "AVAILABLE: " + rollback_partition;
	}

	LOG(INFO) << "Rollback partition: " << rollback_partition;
	if (!can_rollback) {
	return 1;
	}
	}

	// Show the current P2P enabled setting.
	if (FLAGS_show_p2p_update) {
	bool enabled = GetP2PUpdatePermission();
	LOG(INFO) << "Current update using P2P setting: "
	<< (enabled ? "ENABLED" : "DISABLED");
	}

	// First, update the target channel if requested.
	if (!FLAGS_channel.empty())
	SetTargetChannel(FLAGS_channel, FLAGS_powerwash);

	// Show the current and target channels if requested.
	if (FLAGS_show_channel) {
	string current_channel = GetChannel(true);
	LOG(INFO) << "Current Channel: " << current_channel;

	string target_channel = GetChannel(false);
	if (!target_channel.empty())
	LOG(INFO) << "Target Channel (pending update): " << target_channel;
	}

	bool do_update_request = FLAGS_check_for_update \| FLAGS_update \|
	!FLAGS_app_version.empty() \| !FLAGS_omaha_url.empty();
	if (FLAGS_update)
	FLAGS_follow = true;

	if (do_update_request && FLAGS_rollback) {
	LOG(ERROR) << "Incompatible flags specified with rollback."
	<< "Rollback should not include update-related flags.";
	return 1;
	}

	if (FLAGS_rollback) {
	LOG(INFO) << "Requesting rollback.";
	CHECK(Rollback(FLAGS_powerwash)) << "Request for rollback failed.";
	}

	// Initiate an update check, if necessary.
	if (do_update_request) {
	LOG_IF(WARNING, FLAGS_reboot) << "-reboot flag ignored.";
	string app_version = FLAGS_app_version;
	if (FLAGS_update && app_version.empty()) {
	app_version = "ForcedUpdate";
	LOG(INFO) << "Forcing an update by setting app_version to ForcedUpdate.";
	}
	LOG(INFO) << "Initiating update check and install.";
	CHECK(CheckForUpdates(app_version, FLAGS_omaha_url, FLAGS_interactive))
	<< "Update check/initiate update failed.";
	}

	// These final options are all mutually exclusive with one another.
	if (FLAGS_follow + FLAGS_watch_for_updates + FLAGS_reboot +
	FLAGS_status + FLAGS_is_reboot_needed +
	FLAGS_block_until_reboot_is_needed > 1) {
	LOG(ERROR) << "Multiple exclusive options selected. "
	<< "Select only one of --follow, --watch_for_updates, --reboot, "
	<< "--is_reboot_needed, --block_until_reboot_is_needed, "
	<< "or --status.";
	return 1;
	}

	if (FLAGS_status) {
	LOG(INFO) << "Querying Update Engine status...";
	if (!GetStatus(nullptr)) {
	LOG(ERROR) << "GetStatus failed.";
	return 1;
	}
	return 0;
	}

	if (FLAGS_follow) {
	LOG(INFO) << "Waiting for update to complete.";
	CompleteUpdate(); // Should never return.
	return 1;
	}

	if (FLAGS_watch_for_updates) {
	LOG(INFO) << "Watching for status updates.";
	WatchForUpdates(); // Should never return.
	return 1;
	}

	if (FLAGS_reboot) {
	LOG(INFO) << "Requesting a reboot...";
	CHECK(RebootIfNeeded());
	return 0;
	}

	if (FLAGS_prev_version) {
	ShowPrevVersion();
	}

	if (FLAGS_show_kernels) {
	LOG(INFO) << "Kernel partitions:\n"
	<< GetKernelDevices();
	}

	if (FLAGS_is_reboot_needed) {
	bool reboot_needed = false;
	if (!IsRebootNeeded(&reboot_needed))
	return 1;
	else if (!reboot_needed)
	return 2;
	}

	if (FLAGS_block_until_reboot_is_needed) {
	if (!BlockUntilRebootIsNeeded())
	return 1;
	}

	LOG(INFO) << "Done.";
	return 0;
	}