haiku/src/servers/registrar/ShutdownProcess.cpp

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/*
* Copyright 2005-2006, Ingo Weinhold, bonefish@users.sf.net.
* Distributed under the terms of the MIT License.
*/
#include <new>
#include <signal.h>
#include <unistd.h>
#include <Alert.h>
#include <AppFileInfo.h>
#include <AppMisc.h>
#include <Autolock.h>
#include <Bitmap.h>
#include <Button.h>
#include <File.h>
#include <Message.h>
#include <MessagePrivate.h>
#include <RegistrarDefs.h>
#include <Roster.h> // for B_REQUEST_QUIT
#include <Screen.h>
#include <TextView.h>
#include <View.h>
#include <Window.h>
#include <TokenSpace.h>
#include <util/DoublyLinkedList.h>
#ifdef __HAIKU__
#include <syscalls.h>
#endif
#include "AppInfoListMessagingTargetSet.h"
#include "Debug.h"
#include "EventQueue.h"
#include "MessageDeliverer.h"
#include "MessageEvent.h"
#include "Registrar.h"
#include "RosterAppInfo.h"
#include "ShutdownProcess.h"
#include "TRoster.h"
using std::nothrow;
using namespace BPrivate;
// The time span a non-background application has after the quit message has
// been delivered (more precisely: has been handed over to the
// MessageDeliverer).
static const bigtime_t kAppQuitTimeout = 3000000; // 3 s
// The time span a background application has after the quit message has been
// delivered (more precisely: has been handed over to the MessageDeliverer).
static const bigtime_t kBackgroundAppQuitTimeout = 3000000; // 3 s
// The time span non-app processes have after the HUP signal has been send
// to them before they get a KILL signal.
static const bigtime_t kNonAppQuitTimeout = 500000; // 0.5 s
// The time span the app that has aborted the shutdown shall be displayed in
// the shutdown window before closing it automatically.
static const bigtime_t kDisplayAbortingAppTimeout = 3000000; // 3 s
// message what fields
enum {
MSG_PHASE_TIMED_OUT = 'phto',
MSG_DONE = 'done',
MSG_KILL_APPLICATION = 'kill',
MSG_CANCEL_SHUTDOWN = 'cncl',
MSG_REBOOT_SYSTEM = 'rbot',
};
// internal events
enum {
NO_EVENT,
ABORT_EVENT,
TIMEOUT_EVENT,
APP_QUIT_EVENT,
KILL_APP_EVENT,
REBOOT_SYSTEM_EVENT,
};
// phases
enum {
INVALID_PHASE = -1,
USER_APP_TERMINATION_PHASE = 0,
SYSTEM_APP_TERMINATION_PHASE = 1,
BACKGROUND_APP_TERMINATION_PHASE = 2,
OTHER_PROCESSES_TERMINATION_PHASE = 3,
ABORTED_PHASE = 4,
DONE_PHASE = 5,
};
// inverse_compare_by_registration_time
static
int
inverse_compare_by_registration_time(const RosterAppInfo *info1,
const RosterAppInfo *info2)
{
bigtime_t cmp = info1->registration_time - info2->registration_time;
if (cmp < 0)
return 1;
return (cmp > 0 ? -1 : 0);
}
// throw_error
/*! \brief Used to avoid type matching problems when throwing a constant.
*/
static inline
void
throw_error(status_t error)
{
throw error;
}
// TimeoutEvent
class ShutdownProcess::TimeoutEvent : public MessageEvent {
public:
TimeoutEvent(BHandler *target)
: MessageEvent(0, target, MSG_PHASE_TIMED_OUT)
{
SetAutoDelete(false);
fMessage.AddInt32("phase", INVALID_PHASE);
fMessage.AddInt32("team", -1);
}
void SetPhase(int32 phase)
{
fMessage.ReplaceInt32("phase", phase);
}
void SetTeam(team_id team)
{
fMessage.ReplaceInt32("team", team);
}
static int32 GetMessagePhase(BMessage *message)
{
int32 phase;
if (message->FindInt32("phase", &phase) != B_OK)
phase = INVALID_PHASE;
return phase;
}
static int32 GetMessageTeam(BMessage *message)
{
team_id team;
if (message->FindInt32("team", &team) != B_OK)
team = -1;
return team;
}
};
// InternalEvent
class ShutdownProcess::InternalEvent
: public DoublyLinkedListLinkImpl<InternalEvent> {
public:
InternalEvent(uint32 type, team_id team, int32 phase)
: fType(type),
fTeam(team),
fPhase(phase)
{
}
uint32 Type() const { return fType; }
team_id Team() const { return fTeam; }
int32 Phase() const { return fPhase; }
private:
uint32 fType;
int32 fTeam;
int32 fPhase;
};
// InternalEventList
struct ShutdownProcess::InternalEventList : DoublyLinkedList<InternalEvent> {
};
// QuitRequestReplyHandler
class ShutdownProcess::QuitRequestReplyHandler : public BHandler {
public:
QuitRequestReplyHandler(ShutdownProcess *shutdownProcess)
: BHandler("shutdown quit reply handler"),
fShutdownProcess(shutdownProcess)
{
}
virtual void MessageReceived(BMessage *message)
{
switch (message->what) {
case B_REPLY:
{
bool result;
thread_id thread;
if (message->FindBool("result", &result) == B_OK
&& message->FindInt32("thread", &thread) == B_OK) {
if (!result)
fShutdownProcess->_NegativeQuitRequestReply(thread);
}
break;
}
default:
BHandler::MessageReceived(message);
break;
}
}
private:
ShutdownProcess *fShutdownProcess;
};
// ShutdownWindow
class ShutdownProcess::ShutdownWindow : public BWindow {
public:
ShutdownWindow()
: BWindow(BRect(0, 0, 200, 100), "Shutdown Status",
B_TITLED_WINDOW_LOOK, B_NORMAL_WINDOW_FEEL,
B_ASYNCHRONOUS_CONTROLS | B_NOT_RESIZABLE | B_NOT_MINIMIZABLE
| B_NOT_ZOOMABLE | B_NOT_CLOSABLE, B_ALL_WORKSPACES),
fKillAppMessage(NULL),
fCurrentApp(-1)
{
}
~ShutdownWindow()
{
for (int32 i = 0; AppInfo *info = (AppInfo*)fAppInfos.ItemAt(i); i++)
delete info;
}
status_t Init(BMessenger target)
{
// create the views
// root view
BView *rootView = new(nothrow) BView(BRect(0, 0, 100, 15), "app icons",
B_FOLLOW_NONE, 0);
if (!rootView)
return B_NO_MEMORY;
rootView->SetViewColor(ui_color(B_PANEL_BACKGROUND_COLOR));
AddChild(rootView);
// current app icon view
fCurrentAppIconView = new(nothrow) CurrentAppIconView;
if (!fCurrentAppIconView)
return B_NO_MEMORY;
rootView->AddChild(fCurrentAppIconView);
// text view
fTextView = new(nothrow) BTextView(BRect(0, 0, 10, 10), "text",
BRect(0, 0, 10, 10), B_FOLLOW_NONE);
if (!fTextView)
return B_NO_MEMORY;
fTextView->SetViewColor(ui_color(B_PANEL_BACKGROUND_COLOR));
fTextView->MakeEditable(false);
fTextView->MakeSelectable(false);
fTextView->SetWordWrap(true);
rootView->AddChild(fTextView);
// kill app button
fKillAppButton = new(nothrow) BButton(BRect(0, 0, 10, 10), "kill app",
"Kill Application", NULL, B_FOLLOW_NONE);
if (!fKillAppButton)
return B_NO_MEMORY;
rootView->AddChild(fKillAppButton);
BMessage *message = new BMessage(MSG_KILL_APPLICATION);
if (!message)
return B_NO_MEMORY;
message->AddInt32("team", -1);
fKillAppMessage = message;
fKillAppButton->SetMessage(message);
fKillAppButton->SetTarget(target);
// cancel shutdown button
fCancelShutdownButton = new(nothrow) BButton(BRect(0, 0, 10, 10),
"cancel shutdown", "Cancel Shutdown", NULL, B_FOLLOW_NONE);
if (!fCancelShutdownButton)
return B_NO_MEMORY;
rootView->AddChild(fCancelShutdownButton);
message = new BMessage(MSG_CANCEL_SHUTDOWN);
if (!message)
return B_NO_MEMORY;
fCancelShutdownButton->SetMessage(message);
fCancelShutdownButton->SetTarget(target);
// reboot system button
fRebootSystemButton = new(nothrow) BButton(BRect(0, 0, 10, 10),
"reboot", "Reboot System", NULL, B_FOLLOW_NONE);
if (!fRebootSystemButton)
return B_NO_MEMORY;
fRebootSystemButton->Hide();
rootView->AddChild(fRebootSystemButton);
message = new BMessage(MSG_REBOOT_SYSTEM);
if (!message)
return B_NO_MEMORY;
fRebootSystemButton->SetMessage(message);
fRebootSystemButton->SetTarget(target);
// aborted OK button
fAbortedOKButton = new(nothrow) BButton(BRect(0, 0, 10, 10),
"ok", "OK", NULL, B_FOLLOW_NONE);
if (!fAbortedOKButton)
return B_NO_MEMORY;
fAbortedOKButton->Hide();
rootView->AddChild(fAbortedOKButton);
message = new BMessage(MSG_CANCEL_SHUTDOWN);
if (!message)
return B_NO_MEMORY;
fAbortedOKButton->SetMessage(message);
fAbortedOKButton->SetTarget(target);
// compute the sizes
static const int kHSpacing = 10;
static const int kVSpacing = 10;
static const int kInnerHSpacing = 5;
static const int kInnerVSpacing = 8;
// buttons
fKillAppButton->ResizeToPreferred();
fCancelShutdownButton->ResizeToPreferred();
fRebootSystemButton->MakeDefault(true);
fRebootSystemButton->ResizeToPreferred();
fAbortedOKButton->MakeDefault(true);
fAbortedOKButton->ResizeToPreferred();
BRect rect(fKillAppButton->Frame());
int buttonWidth = rect.IntegerWidth() + 1;
int buttonHeight = rect.IntegerHeight() + 1;
rect = fCancelShutdownButton->Frame();
if (rect.IntegerWidth() >= buttonWidth)
buttonWidth = rect.IntegerWidth() + 1;
int defaultButtonHeight
= fRebootSystemButton->Frame().IntegerHeight() + 1;
// text view
fTextView->SetText("two\nlines");
int textHeight = (int)fTextView->TextHeight(0, 1) + 1;
// current app icon view
int currentAppIconWidth = fCurrentAppIconView->Frame().IntegerWidth()
+ 1;
int currentAppIconHeight = fCurrentAppIconView->Frame().IntegerHeight()
+ 1;
int currentAppIconX = kHSpacing;
int rightPartX = currentAppIconX + currentAppIconWidth;
int textX = rightPartX + kInnerHSpacing;
int textY = kVSpacing;
int buttonsY = textY + textHeight + kInnerVSpacing;
int nonDefaultButtonsY = buttonsY
+ (defaultButtonHeight - buttonHeight) / 2;
int rightPartWidth = 2 * buttonWidth + kInnerHSpacing;
int width = rightPartX + rightPartWidth + kHSpacing;
int height = buttonsY + defaultButtonHeight + kVSpacing;
// now layout the views
// current app icon view
fCurrentAppIconView->MoveTo(currentAppIconX,
textY + (textHeight - currentAppIconHeight) / 2);
// text view
fTextView->MoveTo(textX, textY);
fTextView->ResizeTo(rightPartWidth + rightPartX - textX - 1,
textHeight - 1);
fTextView->SetTextRect(fTextView->Bounds());
// buttons
fKillAppButton->MoveTo(rightPartX, nonDefaultButtonsY);
fKillAppButton->ResizeTo(buttonWidth - 1, buttonHeight - 1);
fCancelShutdownButton->MoveTo(
rightPartX + buttonWidth + kInnerVSpacing - 1,
nonDefaultButtonsY);
fCancelShutdownButton->ResizeTo(buttonWidth - 1, buttonHeight - 1);
fRebootSystemButton->MoveTo(
(width - fRebootSystemButton->Frame().IntegerWidth()) / 2,
buttonsY);
fAbortedOKButton->MoveTo(
(width - fAbortedOKButton->Frame().IntegerWidth()) / 2,
buttonsY);
// set the root view and window size
rootView->ResizeTo(width - 1, height - 1);
ResizeTo(width - 1, height - 1);
// center the window on screen
BScreen screen;
if (screen.IsValid()) {
BRect screenFrame = screen.Frame();
int screenWidth = screenFrame.IntegerWidth() + 1;
int screenHeight = screenFrame.IntegerHeight() + 1;
MoveTo((screenWidth - width) / 2, (screenHeight - height) / 2);
} else {
MoveTo(20, 20);
}
return B_OK;
}
status_t AddApp(team_id team, BBitmap *miniIcon, BBitmap *largeIcon)
{
AppInfo *info = new(nothrow) AppInfo;
if (!info) {
delete miniIcon;
delete largeIcon;
return B_NO_MEMORY;
}
info->team = team;
info->miniIcon = miniIcon;
info->largeIcon = largeIcon;
if (!fAppInfos.AddItem(info)) {
delete info;
return B_NO_MEMORY;
}
return B_OK;
}
void RemoveApp(team_id team)
{
int32 index = _AppInfoIndexOf(team);
if (index < 0)
return;
if (team == fCurrentApp)
SetCurrentApp(-1);
AppInfo *info = (AppInfo*)fAppInfos.RemoveItem(index);
delete info;
}
void SetCurrentApp(team_id team)
{
AppInfo *info = (team >= 0 ? _AppInfoFor(team) : NULL);
fCurrentApp = team;
fCurrentAppIconView->SetAppInfo(info);
fKillAppMessage->ReplaceInt32("team", team);
}
void SetText(const char *text)
{
fTextView->SetText(text);
}
void SetCancelShutdownButtonEnabled(bool enable)
{
fCancelShutdownButton->SetEnabled(enable);
}
void SetKillAppButtonEnabled(bool enable)
{
if (enable != fKillAppButton->IsEnabled()) {
fKillAppButton->SetEnabled(enable);
if (enable)
fKillAppButton->Show();
else
fKillAppButton->Hide();
}
}
void SetWaitForShutdown()
{
fCurrentAppIconView->Hide();
fKillAppButton->Hide();
fCancelShutdownButton->Hide();
fRebootSystemButton->MakeDefault(true);
fRebootSystemButton->Show();
SetTitle("System is Shut Down");
fTextView->SetText("It's now safe to turn off the computer.");
}
void SetWaitForAbortedOK()
{
fCurrentAppIconView->Hide();
fKillAppButton->Hide();
fCancelShutdownButton->Hide();
fAbortedOKButton->MakeDefault(true);
fAbortedOKButton->Show();
// TODO: Temporary work-around for a Haiku bug.
fAbortedOKButton->Invalidate();
SetTitle("Shutdown Aborted");
}
private:
struct AppInfo {
team_id team;
BBitmap *miniIcon;
BBitmap *largeIcon;
~AppInfo()
{
delete miniIcon;
delete largeIcon;
}
};
int32 _AppInfoIndexOf(team_id team)
{
if (team < 0)
return -1;
for (int32 i = 0; AppInfo *info = (AppInfo*)fAppInfos.ItemAt(i); i++) {
if (info->team == team)
return i;
}
return -1;
}
AppInfo *_AppInfoFor(team_id team)
{
int32 index = _AppInfoIndexOf(team);
return (index >= 0 ? (AppInfo*)fAppInfos.ItemAt(index) : NULL);
}
class CurrentAppIconView : public BView {
public:
CurrentAppIconView()
: BView(BRect(0, 0, 31, 31), "current app icon", B_FOLLOW_NONE,
B_WILL_DRAW),
fAppInfo(NULL)
{
SetViewColor(B_TRANSPARENT_32_BIT);
fBackground = ui_color(B_PANEL_BACKGROUND_COLOR);
}
virtual void Draw(BRect updateRect)
{
SetDrawingMode(B_OP_COPY);
SetLowColor(fBackground);
FillRect(Bounds(), B_SOLID_LOW);
if (fAppInfo && fAppInfo->largeIcon) {
SetDrawingMode(B_OP_OVER);
DrawBitmap(fAppInfo->largeIcon, BPoint(0, 0));
}
}
void SetAppInfo(AppInfo *info)
{
fAppInfo = info;
Invalidate();
}
private:
const AppInfo *fAppInfo;
rgb_color fBackground;
};
private:
BList fAppInfos;
CurrentAppIconView *fCurrentAppIconView;
BTextView *fTextView;
BButton *fKillAppButton;
BButton *fCancelShutdownButton;
BButton *fRebootSystemButton;
BButton *fAbortedOKButton;
BMessage *fKillAppMessage;
team_id fCurrentApp;
};
// #pragma mark -
// constructor
ShutdownProcess::ShutdownProcess(TRoster *roster, EventQueue *eventQueue)
: BLooper("shutdown process"),
EventMaskWatcher(BMessenger(this), B_REQUEST_QUIT),
fWorkerLock("worker lock"),
fRequest(NULL),
fRoster(roster),
fEventQueue(eventQueue),
fTimeoutEvent(NULL),
fInternalEvents(NULL),
fInternalEventSemaphore(-1),
fQuitRequestReplyHandler(NULL),
fWorker(-1),
fCurrentPhase(INVALID_PHASE),
fShutdownError(B_ERROR),
fHasGUI(false),
fReboot(false),
fRequestReplySent(false),
fWindow(NULL)
{
}
// destructor
ShutdownProcess::~ShutdownProcess()
{
// terminate the GUI
if (fHasGUI && fWindow && fWindow->Lock())
fWindow->Quit();
// remove and delete the quit request reply handler
if (fQuitRequestReplyHandler) {
BAutolock _(this);
RemoveHandler(fQuitRequestReplyHandler);
delete fQuitRequestReplyHandler;
}
// remove and delete the timeout event
if (fTimeoutEvent) {
fEventQueue->RemoveEvent(fTimeoutEvent);
delete fTimeoutEvent;
}
// remove the application quit watcher
fRoster->RemoveWatcher(this);
// If an error occurred (e.g. the shutdown process was cancelled), the
// roster should accept applications again.
if (fShutdownError != B_OK)
fRoster->SetShuttingDown(false);
// delete the internal event semaphore
if (fInternalEventSemaphore >= 0)
delete_sem(fInternalEventSemaphore);
// wait for the worker thread to terminate
if (fWorker >= 0) {
int32 result;
wait_for_thread(fWorker, &result);
}
// delete all internal events and the queue
if (fInternalEvents) {
while (InternalEvent *event = fInternalEvents->First()) {
fInternalEvents->Remove(event);
delete event;
}
delete fInternalEvents;
}
// send a reply to the request and delete it
_SendReply(fShutdownError);
delete fRequest;
}
// Init
status_t
ShutdownProcess::Init(BMessage *request)
{
PRINT(("ShutdownProcess::Init()\n"));
// create and add the quit request reply handler
fQuitRequestReplyHandler = new(nothrow) QuitRequestReplyHandler(this);
if (!fQuitRequestReplyHandler)
RETURN_ERROR(B_NO_MEMORY);
AddHandler(fQuitRequestReplyHandler);
// create the timeout event
fTimeoutEvent = new(nothrow) TimeoutEvent(this);
if (!fTimeoutEvent)
RETURN_ERROR(B_NO_MEMORY);
// create the event list
fInternalEvents = new(nothrow) InternalEventList;
if (!fInternalEvents)
RETURN_ERROR(B_NO_MEMORY);
// create the event sempahore
fInternalEventSemaphore = create_sem(0, "shutdown events");
if (fInternalEventSemaphore < 0)
RETURN_ERROR(fInternalEventSemaphore);
// init the app server connection
fHasGUI = (Registrar::App()->InitGUIContext() == B_OK);
// tell TRoster not to accept new applications anymore
fRoster->SetShuttingDown(true);
// start watching application quits
status_t error = fRoster->AddWatcher(this);
if (error != B_OK) {
fRoster->SetShuttingDown(false);
RETURN_ERROR(error);
}
// get a list of all applications to shut down and sort them
error = fRoster->GetShutdownApps(fUserApps, fSystemApps, fBackgroundApps,
fVitalSystemApps);
if (error != B_OK) {
fRoster->RemoveWatcher(this);
fRoster->SetShuttingDown(false);
RETURN_ERROR(error);
}
fUserApps.Sort(&inverse_compare_by_registration_time);
fSystemApps.Sort(&inverse_compare_by_registration_time);
// start the worker thread
fWorker = spawn_thread(_WorkerEntry, "shutdown worker", B_NORMAL_PRIORITY,
this);
if (fWorker < 0) {
fRoster->RemoveWatcher(this);
fRoster->SetShuttingDown(false);
RETURN_ERROR(fWorker);
}
// everything went fine: now we own the request
fRequest = request;
if (fRequest->FindBool("reboot", &fReboot) != B_OK)
fReboot = false;
resume_thread(fWorker);
PRINT(("ShutdownProcess::Init() done\n"));
return B_OK;
}
// MessageReceived
void
ShutdownProcess::MessageReceived(BMessage *message)
{
switch (message->what) {
case B_SOME_APP_QUIT:
{
// get the team
team_id team;
if (message->FindInt32("be:team", &team) != B_OK) {
// should not happen
return;
}
PRINT(("ShutdownProcess::MessageReceived(): B_SOME_APP_QUIT: %ld\n",
team));
// remove the app info from the respective list
int32 phase;
RosterAppInfo *info;
{
BAutolock _(fWorkerLock);
info = fUserApps.InfoFor(team);
if (info)
fUserApps.RemoveInfo(info);
else if ((info = fSystemApps.InfoFor(team)))
fSystemApps.RemoveInfo(info);
else if ((info = fBackgroundApps.InfoFor(team)))
fBackgroundApps.RemoveInfo(info);
else // not found
return;
phase = fCurrentPhase;
}
// post the event
_PushEvent(APP_QUIT_EVENT, team, phase);
delete info;
break;
}
case MSG_PHASE_TIMED_OUT:
{
// get the phase the event is intended for
int32 phase = TimeoutEvent::GetMessagePhase(message);
team_id team = TimeoutEvent::GetMessageTeam(message);;
PRINT(("MSG_PHASE_TIMED_OUT: phase: %ld, team: %ld\n", phase, team));
BAutolock _(fWorkerLock);
if (phase == INVALID_PHASE || phase != fCurrentPhase)
return;
// post the event
_PushEvent(TIMEOUT_EVENT, team, phase);
break;
}
case MSG_KILL_APPLICATION:
{
team_id team;
if (message->FindInt32("team", &team) != B_OK)
break;
BAutolock _(fWorkerLock);
// post the event
_PushEvent(KILL_APP_EVENT, team, fCurrentPhase);
break;
}
case MSG_CANCEL_SHUTDOWN:
{
BAutolock _(fWorkerLock);
// post the event
_PushEvent(ABORT_EVENT, -1, fCurrentPhase);
break;
}
case MSG_REBOOT_SYSTEM:
{
// post the event
_PushEvent(REBOOT_SYSTEM_EVENT, -1, INVALID_PHASE);
break;
}
case MSG_DONE:
{
// notify the registrar that we're done
be_app->PostMessage(B_REG_SHUTDOWN_FINISHED, be_app);
break;
}
default:
BLooper::MessageReceived(message);
break;
}
}
// SendReply
void
ShutdownProcess::SendReply(BMessage *request, status_t error)
{
if (error == B_OK) {
BMessage reply(B_REG_SUCCESS);
request->SendReply(&reply);
} else {
BMessage reply(B_REG_ERROR);
reply.AddInt32("error", error);
request->SendReply(&reply);
}
}
// _SendReply
void
ShutdownProcess::_SendReply(status_t error)
{
if (!fRequestReplySent) {
SendReply(fRequest, error);
fRequestReplySent = true;
}
}
// _SetPhase
void
ShutdownProcess::_SetPhase(int32 phase)
{
BAutolock _(fWorkerLock);
if (phase == fCurrentPhase)
return;
fCurrentPhase = phase;
// remove the timeout event scheduled for the previous phase
fEventQueue->RemoveEvent(fTimeoutEvent);
}
// _ScheduleTimeoutEvent
void
ShutdownProcess::_ScheduleTimeoutEvent(bigtime_t timeout, team_id team)
{
BAutolock _(fWorkerLock);
// remove the timeout event
fEventQueue->RemoveEvent(fTimeoutEvent);
// set the event's phase, team and time
fTimeoutEvent->SetPhase(fCurrentPhase);
fTimeoutEvent->SetTeam(team);
fTimeoutEvent->SetTime(system_time() + timeout);
// add the event
fEventQueue->AddEvent(fTimeoutEvent);
}
// _SetShowShutdownWindow
void
ShutdownProcess::_SetShowShutdownWindow(bool show)
{
if (fHasGUI) {
BAutolock _(fWindow);
if (show == fWindow->IsHidden()) {
if (show)
fWindow->Show();
else
fWindow->Hide();
}
}
}
// _InitShutdownWindow
void
ShutdownProcess::_InitShutdownWindow()
{
// prepare the window
if (fHasGUI) {
fWindow = new(nothrow) ShutdownWindow;
if (fWindow != NULL) {
status_t error = fWindow->Init(BMessenger(this));
if (error != B_OK) {
delete fWindow;
fWindow = NULL;
}
}
// add the applications
if (fWindow) {
BAutolock _(fWorkerLock);
_AddShutdownWindowApps(fUserApps);
_AddShutdownWindowApps(fSystemApps);
} else {
WARNING(("ShutdownProcess::Init(): Failed to create or init "
"shutdown window."));
fHasGUI = false;
}
}
}
// _AddShutdownWindowApps
void
ShutdownProcess::_AddShutdownWindowApps(AppInfoList &infos)
{
if (!fHasGUI)
return;
for (AppInfoList::Iterator it = infos.It(); it.IsValid(); ++it) {
RosterAppInfo *info = *it;
// init an app file info
BFile file;
status_t error = file.SetTo(&info->ref, B_READ_ONLY);
if (error != B_OK) {
WARNING(("ShutdownProcess::_AddShutdownWindowApps(): Failed to "
"open file for app %s: %s\n", info->signature,
strerror(error)));
continue;
}
BAppFileInfo appFileInfo;
error = appFileInfo.SetTo(&file);
if (error != B_OK) {
WARNING(("ShutdownProcess::_AddShutdownWindowApps(): Failed to "
"init app file info for app %s: %s\n", info->signature,
strerror(error)));
}
// get the application icons
// mini icon
BBitmap *miniIcon = new(nothrow) BBitmap(BRect(0, 0, 15, 15), B_CMAP8);
if (miniIcon != NULL) {
error = miniIcon->InitCheck();
if (error == B_OK)
error = appFileInfo.GetTrackerIcon(miniIcon, B_MINI_ICON);
if (error != B_OK) {
delete miniIcon;
miniIcon = NULL;
}
}
// mini icon
BBitmap *largeIcon = new(nothrow) BBitmap(BRect(0, 0, 31, 31), B_CMAP8);
if (largeIcon != NULL) {
error = largeIcon->InitCheck();
if (error == B_OK)
error = appFileInfo.GetTrackerIcon(largeIcon, B_LARGE_ICON);
if (error != B_OK) {
delete largeIcon;
largeIcon = NULL;
}
}
// add the app
error = fWindow->AddApp(info->team, miniIcon, largeIcon);
if (error != B_OK) {
WARNING(("ShutdownProcess::_AddShutdownWindowApps(): Failed to "
"add app to the shutdown window: %s\n", strerror(error)));
}
}
}
// _RemoveShutdownWindowApp
void
ShutdownProcess::_RemoveShutdownWindowApp(team_id team)
{
if (fHasGUI) {
BAutolock _(fWindow);
fWindow->RemoveApp(team);
}
}
// _SetShutdownWindowCurrentApp
void
ShutdownProcess::_SetShutdownWindowCurrentApp(team_id team)
{
if (fHasGUI) {
BAutolock _(fWindow);
fWindow->SetCurrentApp(team);
}
}
// _SetShutdownWindowText
void
ShutdownProcess::_SetShutdownWindowText(const char *text)
{
if (fHasGUI) {
BAutolock _(fWindow);
fWindow->SetText(text);
}
}
// _SetShutdownWindowCancelButtonEnabled
void
ShutdownProcess::_SetShutdownWindowCancelButtonEnabled(bool enabled)
{
if (fHasGUI) {
BAutolock _(fWindow);
fWindow->SetCancelShutdownButtonEnabled(enabled);
}
}
// _SetShutdownWindowKillButtonEnabled
void
ShutdownProcess::_SetShutdownWindowKillButtonEnabled(bool enabled)
{
if (fHasGUI) {
BAutolock _(fWindow);
fWindow->SetKillAppButtonEnabled(enabled);
}
}
// _SetShutdownWindowWaitForShutdown
void
ShutdownProcess::_SetShutdownWindowWaitForShutdown()
{
if (fHasGUI) {
BAutolock _(fWindow);
fWindow->SetWaitForShutdown();
}
}
// _SetShutdownWindowWaitForAbortedOK
void
ShutdownProcess::_SetShutdownWindowWaitForAbortedOK()
{
if (fHasGUI) {
BAutolock _(fWindow);
fWindow->SetWaitForAbortedOK();
}
}
// _NegativeQuitRequestReply
void
ShutdownProcess::_NegativeQuitRequestReply(thread_id thread)
{
BAutolock _(fWorkerLock);
// Note: team ID == team main thread ID under Haiku. When testing under R5
// using the team ID in case of an ABORT_EVENT won't work correctly. But
// this is done only for system apps.
_PushEvent(ABORT_EVENT, thread, fCurrentPhase);
}
// _PrepareShutdownMessage
void
ShutdownProcess::_PrepareShutdownMessage(BMessage &message) const
{
message.what = B_QUIT_REQUESTED;
message.AddBool("_shutdown_", true);
BMessage::Private(message).SetReply(BMessenger(fQuitRequestReplyHandler));
}
// _ShutDown
status_t
ShutdownProcess::_ShutDown()
{
PRINT(("Invoking _kern_shutdown(%d)\n", fReboot));
#ifdef __HAIKU__
RETURN_ERROR(_kern_shutdown(fReboot));
#else
// we can't do anything on R5
return B_ERROR;
#endif
}
// _PushEvent
status_t
ShutdownProcess::_PushEvent(uint32 eventType, team_id team, int32 phase)
{
InternalEvent *event = new(nothrow) InternalEvent(eventType, team, phase);
if (!event) {
ERROR(("ShutdownProcess::_PushEvent(): Failed to create event!\n"));
return B_NO_MEMORY;
}
BAutolock _(fWorkerLock);
fInternalEvents->Add(event);
release_sem(fInternalEventSemaphore);
return B_OK;
}
// _GetNextEvent
status_t
ShutdownProcess::_GetNextEvent(uint32 &eventType, thread_id &team, int32 &phase,
bool block)
{
while (true) {
// acquire the semaphore
if (block) {
status_t error;
do {
error = acquire_sem(fInternalEventSemaphore);
} while (error == B_INTERRUPTED);
if (error != B_OK)
return error;
} else {
status_t error = acquire_sem_etc(fInternalEventSemaphore, 1,
B_RELATIVE_TIMEOUT, 0);
if (error != B_OK) {
eventType = NO_EVENT;
return B_OK;
}
}
// get the event
BAutolock _(fWorkerLock);
InternalEvent *event = fInternalEvents->Head();
fInternalEvents->Remove(event);
eventType = event->Type();
team = event->Team();
phase = event->Phase();
delete event;
// if the event is an obsolete timeout event, we drop it right here
if (eventType == TIMEOUT_EVENT && phase != fCurrentPhase)
continue;
break;
}
// notify the window, if an app has been removed
if (eventType == APP_QUIT_EVENT)
_RemoveShutdownWindowApp(team);
return B_OK;
}
// _WorkerEntry
status_t
ShutdownProcess::_WorkerEntry(void *data)
{
return ((ShutdownProcess*)data)->_Worker();
}
// _Worker
status_t
ShutdownProcess::_Worker()
{
try {
_WorkerDoShutdown();
fShutdownError = B_OK;
} catch (status_t error) {
PRINT(("ShutdownProcess::_Worker(): error while shutting down: %s\n",
strerror(error)));
fShutdownError = error;
}
// this can happen only, if the shutdown process failed or was aborted:
// notify the looper
_SetPhase(DONE_PHASE);
PostMessage(MSG_DONE);
return B_OK;
}
// _WorkerDoShutdown
void
ShutdownProcess::_WorkerDoShutdown()
{
PRINT(("ShutdownProcess::_WorkerDoShutdown()\n"));
// If we are here, the shutdown process has been initiated successfully,
// that is, if an asynchronous BRoster::Shutdown() was requested, we
// notify the caller at this point.
bool synchronous;
if (fRequest->FindBool("synchronous", &synchronous) == B_OK
&& !synchronous) {
_SendReply(B_OK);
}
// ask the user to confirm the shutdown, if desired
bool askUser;
if (fHasGUI && fRequest->FindBool("confirm", &askUser) == B_OK && askUser) {
const char *title = (fReboot ? "Reboot?" : "Shut Down?");
const char *text = (fReboot
? "Do you really want to reboot the system?"
: "Do you really want to shut down the system?");
const char *buttonText = (fReboot ? "Reboot" : "Shut Down");
BAlert *alert = new BAlert(title, text, "Cancel", buttonText, NULL,
B_WIDTH_AS_USUAL, B_WARNING_ALERT);
int32 result = alert->Go();
if (result != 1)
throw_error(B_SHUTDOWN_CANCELLED);
}
// make the shutdown window ready and show it
_InitShutdownWindow();
_SetShutdownWindowCurrentApp(-1);
_SetShutdownWindowText("Tidying things up a bit.");
_SetShutdownWindowCancelButtonEnabled(true);
_SetShutdownWindowKillButtonEnabled(false);
_SetShowShutdownWindow(true);
// sync
sync();
// phase 1: terminate the user apps
_SetPhase(USER_APP_TERMINATION_PHASE);
_QuitApps(fUserApps, false);
// phase 2: terminate the system apps
_SetPhase(SYSTEM_APP_TERMINATION_PHASE);
_QuitApps(fSystemApps, true);
// phase 3: terminate the background apps
_SetPhase(BACKGROUND_APP_TERMINATION_PHASE);
_QuitNonApps();
// phase 4: terminate the other processes
_SetPhase(OTHER_PROCESSES_TERMINATION_PHASE);
_QuitBackgroundApps();
_ScheduleTimeoutEvent(kBackgroundAppQuitTimeout, -1);
_WaitForBackgroundApps();
_KillBackgroundApps();
// we're through: do the shutdown
_SetPhase(DONE_PHASE);
_ShutDown();
_SetShutdownWindowWaitForShutdown();
PRINT((" _kern_shutdown() failed\n"));
// shutdown failed: This can happen for power off mode -- reboot should
// always work.
if (fHasGUI) {
// wait for the reboot event
uint32 event;
do {
team_id team;
int32 phase;
status_t error = _GetNextEvent(event, team, phase, true);
if (error != B_OK)
break;
} while (event != REBOOT_SYSTEM_EVENT);
#ifdef __HAIKU__
_kern_shutdown(true);
#endif
}
// either there's no GUI or reboot failed: we enter the kernel debugger
// instead
#ifdef __HAIKU__
// TODO: Introduce the syscall.
// while (true) {
// _kern_kernel_debugger("The system is shut down. It's now safe to turn "
// "off the computer.");
// }
#endif
}
// _QuitApps
void
ShutdownProcess::_QuitApps(AppInfoList &list, bool disableCancel)
{
PRINT(("ShutdownProcess::_QuitApps(%s)\n",
(disableCancel ? "system" : "user")));
if (disableCancel) {
_SetShutdownWindowCancelButtonEnabled(false);
// check one last time for abort events
uint32 event;
do {
team_id team;
int32 phase;
status_t error = _GetNextEvent(event, team, phase, false);
if (error != B_OK)
throw_error(error);
if (event == ABORT_EVENT) {
PRINT(("ShutdownProcess::_QuitApps(): shutdown cancelled by "
"team %ld (-1 => user)\n", team));
_DisplayAbortingApp(team);
throw_error(B_SHUTDOWN_CANCELLED);
}
} while (event != NO_EVENT);
}
// prepare the shutdown message
BMessage message;
_PrepareShutdownMessage(message);
// now iterate through the list of apps
while (true) {
// eat events
uint32 event;
do {
team_id team;
int32 phase;
status_t error = _GetNextEvent(event, team, phase, false);
if (error != B_OK)
throw_error(error);
if (!disableCancel && event == ABORT_EVENT) {
PRINT(("ShutdownProcess::_QuitApps(): shutdown cancelled by "
"team %ld (-1 => user)\n", team));
_DisplayAbortingApp(team);
throw_error(B_SHUTDOWN_CANCELLED);
}
} while (event != NO_EVENT);
// get the first app to quit
team_id team = -1;
port_id port = -1;
char appName[B_FILE_NAME_LENGTH];
{
BAutolock _(fWorkerLock);
if (!list.IsEmpty()) {
RosterAppInfo *info = *list.It();
team = info->team;
port = info->port;
strcpy(appName, info->ref.name);
}
}
if (team < 0) {
PRINT(("ShutdownProcess::_QuitApps() done\n"));
return;
}
// set window text
char buffer[1024];
snprintf(buffer, sizeof(buffer), "Asking \"%s\" to quit.", appName);
_SetShutdownWindowText(buffer);
_SetShutdownWindowCurrentApp(team);
// send the shutdown message to the app
PRINT((" sending team %ld (port: %ld) a shutdown message\n", team,
port));
SingleMessagingTargetSet target(port, B_PREFERRED_TOKEN);
MessageDeliverer::Default()->DeliverMessage(&message, target);
// schedule a timeout event
_ScheduleTimeoutEvent(kAppQuitTimeout, team);
// wait for the app to die or for the timeout to occur
bool appGone = false;
do {
team_id eventTeam;
int32 phase;
status_t error = _GetNextEvent(event, eventTeam, phase, true);
if (error != B_OK)
throw_error(error);
if ((event == APP_QUIT_EVENT)
&& eventTeam == team) {
appGone = true;
}
if (event == TIMEOUT_EVENT && eventTeam == team)
break;
if (event == ABORT_EVENT) {
if (disableCancel) {
// If the app requests aborting the shutdown, we don't need
// to wait any longer. It has processed the request and
// won't quit by itself. We'll have to kill it.
if (eventTeam == team)
break;
} else {
PRINT(("ShutdownProcess::_QuitApps(): shutdown cancelled "
"by team %ld (-1 => user)\n", eventTeam));
_DisplayAbortingApp(team);
throw_error(B_SHUTDOWN_CANCELLED);
}
}
BAutolock _(fWorkerLock);
if (!list.InfoFor(team))
break;
} while (event != NO_EVENT);
if (appGone) {
// fine: the app finished in an orderly manner
} else {
// the app is either blocking on a model alert or blocks for another
// reason
_QuitBlockingApp(list, team, appName, !disableCancel);
}
}
}
// _QuitBackgroundApps
void
ShutdownProcess::_QuitBackgroundApps()
{
PRINT(("ShutdownProcess::_QuitBackgroundApps()\n"));
_SetShutdownWindowText("Asking background applications to quit.");
// prepare the shutdown message
BMessage message;
_PrepareShutdownMessage(message);
// send shutdown messages to user apps
BAutolock _(fWorkerLock);
AppInfoListMessagingTargetSet targetSet(fBackgroundApps);
if (targetSet.HasNext()) {
PRINT((" sending shutdown message to %ld apps\n",
fBackgroundApps.CountInfos()));
status_t error = MessageDeliverer::Default()->DeliverMessage(
&message, targetSet);
if (error != B_OK) {
WARNING(("_QuitBackgroundApps::_Worker(): Failed to deliver "
"shutdown message to all applications: %s\n",
strerror(error)));
}
}
PRINT(("ShutdownProcess::_QuitBackgroundApps() done\n"));
}
// _WaitForBackgroundApps
void
ShutdownProcess::_WaitForBackgroundApps()
{
PRINT(("ShutdownProcess::_WaitForBackgroundApps()\n"));
// wait for user apps
bool moreApps = true;
while (moreApps) {
{
BAutolock _(fWorkerLock);
moreApps = !fBackgroundApps.IsEmpty();
}
if (moreApps) {
uint32 event;
team_id team;
int32 phase;
status_t error = _GetNextEvent(event, team, phase, true);
if (error != B_OK)
throw_error(error);
if (event == ABORT_EVENT) {
// ignore: it's too late to abort the shutdown
}
if (event == TIMEOUT_EVENT)
return;
}
}
PRINT(("ShutdownProcess::_WaitForBackgroundApps() done\n"));
}
// _KillBackgroundApps
void
ShutdownProcess::_KillBackgroundApps()
{
PRINT(("ShutdownProcess::_KillBackgroundApps()\n"));
while (true) {
// eat events (we need to be responsive for an abort event)
uint32 event;
do {
team_id team;
int32 phase;
status_t error = _GetNextEvent(event, team, phase, false);
if (error != B_OK)
throw_error(error);
} while (event != NO_EVENT);
// get the first team to kill
team_id team = -1;
char appName[B_FILE_NAME_LENGTH];
AppInfoList &list = fBackgroundApps;
{
BAutolock _(fWorkerLock);
if (!list.IsEmpty()) {
RosterAppInfo *info = *list.It();
team = info->team;
strcpy(appName, info->ref.name);
}
}
if (team < 0) {
PRINT(("ShutdownProcess::_KillBackgroundApps() done\n"));
return;
}
// the app is either blocking on a model alert or blocks for another
// reason
_QuitBlockingApp(list, team, appName, false);
}
}
// _QuitNonApps
void
ShutdownProcess::_QuitNonApps()
{
PRINT(("ShutdownProcess::_QuitNonApps()\n"));
_SetShutdownWindowText("Asking other processes to quit.");
// iterate through the remaining teams and send them the HUP signal
int32 cookie = 0;
team_info teamInfo;
while (get_next_team_info(&cookie, &teamInfo) == B_OK) {
if (fVitalSystemApps.find(teamInfo.team) == fVitalSystemApps.end()) {
PRINT((" sending team %ld HUP signal\n", teamInfo.team));
#ifdef __HAIKU__
// Note: team ID == team main thread ID under Haiku
send_signal(teamInfo.team, SIGHUP);
#else
// We don't want to do this when testing under R5, since it
// would kill all teams besides our app server and registrar.
#endif
}
}
// give them a bit of time to terminate
// TODO: Instead of just waiting we could periodically check whether the
// processes are already gone to shorten the process.
snooze(kNonAppQuitTimeout);
// iterate through the remaining teams and kill them
cookie = 0;
while (get_next_team_info(&cookie, &teamInfo) == B_OK) {
if (fVitalSystemApps.find(teamInfo.team) == fVitalSystemApps.end()) {
PRINT((" killing team %ld\n", teamInfo.team));
#ifdef __HAIKU__
kill_team(teamInfo.team);
#else
// We don't want to do this when testing under R5, since it
// would kill all teams besides our app server and registrar.
#endif
}
}
PRINT(("ShutdownProcess::_QuitNonApps() done\n"));
}
// _QuitBlockingApp
void
ShutdownProcess::_QuitBlockingApp(AppInfoList &list, team_id team,
const char *appName, bool cancelAllowed)
{
if (BPrivate::is_app_showing_modal_window(team)) {
// app blocks on a modal window
char buffer[1024];
snprintf(buffer, sizeof(buffer), "The application \"%s\" might be "
"blocked on a modal panel.", appName);
_SetShutdownWindowText(buffer);
_SetShutdownWindowCurrentApp(team);
_SetShutdownWindowKillButtonEnabled(true);
// wait for something to happen
bool appGone = false;
while (true) {
uint32 event;
team_id eventTeam;
int32 phase;
status_t error = _GetNextEvent(event, eventTeam, phase, true);
if (error != B_OK)
throw_error(error);
if ((event == APP_QUIT_EVENT) && eventTeam == team) {
appGone = true;
break;
}
if (event == KILL_APP_EVENT && eventTeam == team)
break;
if (event == ABORT_EVENT) {
if (cancelAllowed) {
PRINT(("ShutdownProcess::_QuitBlockingApp(): shutdown "
"cancelled by team %ld (-1 => user)\n", eventTeam));
throw_error(B_SHUTDOWN_CANCELLED);
}
// If the app requests aborting the shutdown, we don't need
// to wait any longer. It has processed the request and
// won't quit by itself. We'll have to kill it.
if (eventTeam == team)
break;
}
}
_SetShutdownWindowKillButtonEnabled(false);
if (appGone)
return;
}
// kill the app
PRINT((" killing team %ld\n", team));
kill_team(team);
// remove the app (the roster will note eventually and send us
// a notification, but we want to be sure)
{
BAutolock _(fWorkerLock);
if (RosterAppInfo *info = list.InfoFor(team)) {
list.RemoveInfo(info);
delete info;
}
}
}
// _DisplayAbortingApp
void
ShutdownProcess::_DisplayAbortingApp(team_id team)
{
// find the app that cancelled the shutdown
char appName[B_FILE_NAME_LENGTH];
bool foundApp = false;
{
BAutolock _(fWorkerLock);
RosterAppInfo *info = fUserApps.InfoFor(team);
if (!info)
info = fSystemApps.InfoFor(team);
if (!info)
fBackgroundApps.InfoFor(team);
if (info) {
foundApp = true;
strcpy(appName, info->ref.name);
}
}
if (!foundApp) {
PRINT(("ShutdownProcess::_DisplayAbortingApp(): Didn't find the app "
"that has cancelled the shutdown.\n"));
return;
}
// compose the text to be displayed
char buffer[1024];
snprintf(buffer, sizeof(buffer), "Application \"%s\" has aborted the shutdown "
"process.", appName);
// set up the window
_SetShutdownWindowCurrentApp(team);
_SetShutdownWindowText(buffer);
_SetShutdownWindowWaitForAbortedOK();
// schedule the timeout event
_SetPhase(ABORTED_PHASE);
_ScheduleTimeoutEvent(kDisplayAbortingAppTimeout);
// wait for the timeout or the user to press the cancel button
while (true) {
uint32 event;
team_id eventTeam;
int32 phase;
status_t error = _GetNextEvent(event, eventTeam, phase, true);
if (error != B_OK)
break;
// stop waiting when the timeout occurs
if (event == TIMEOUT_EVENT)
break;
// stop waiting when the user hit the cancel button
if (event == ABORT_EVENT && phase == ABORTED_PHASE && eventTeam < 0)
break;
// also stop when the responsible app quit
if ((event == APP_QUIT_EVENT) && eventTeam == team)
break;
}
}