VirtualBox

source: vbox/trunk/src/VBox/Main/MachineImpl.cpp@ 30396

Last change on this file since 30396 was 30380, checked in by vboxsync, 14 years ago

Main: make calculateRelativePath methods a bit smarter and rename them to VirtualBox::copyPathRelativeToConfig() and Machine::copyPathRelativeToMachine()

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File size: 365.9 KB
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1/* $Id: MachineImpl.cpp 30380 2010-06-22 16:28:14Z vboxsync $ */
2/** @file
3 * Implementation of IMachine in VBoxSVC.
4 */
5
6/*
7 * Copyright (C) 2006-2010 Oracle Corporation
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License (GPL) as published by the Free Software
13 * Foundation, in version 2 as it comes in the "COPYING" file of the
14 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16 */
17
18/* Make sure all the stdint.h macros are included - must come first! */
19#ifndef __STDC_LIMIT_MACROS
20# define __STDC_LIMIT_MACROS
21#endif
22#ifndef __STDC_CONSTANT_MACROS
23# define __STDC_CONSTANT_MACROS
24#endif
25
26#ifdef VBOX_WITH_SYS_V_IPC_SESSION_WATCHER
27# include <errno.h>
28# include <sys/types.h>
29# include <sys/stat.h>
30# include <sys/ipc.h>
31# include <sys/sem.h>
32#endif
33
34#include "Logging.h"
35#include "VirtualBoxImpl.h"
36#include "MachineImpl.h"
37#include "ProgressImpl.h"
38#include "ProgressProxyImpl.h"
39#include "MediumAttachmentImpl.h"
40#include "MediumImpl.h"
41#include "MediumLock.h"
42#include "USBControllerImpl.h"
43#include "HostImpl.h"
44#include "SharedFolderImpl.h"
45#include "GuestOSTypeImpl.h"
46#include "VirtualBoxErrorInfoImpl.h"
47#include "GuestImpl.h"
48#include "StorageControllerImpl.h"
49
50#ifdef VBOX_WITH_USB
51# include "USBProxyService.h"
52#endif
53
54#include "AutoCaller.h"
55#include "Performance.h"
56
57#include <iprt/asm.h>
58#include <iprt/path.h>
59#include <iprt/dir.h>
60#include <iprt/env.h>
61#include <iprt/lockvalidator.h>
62#include <iprt/process.h>
63#include <iprt/cpp/utils.h>
64#include <iprt/cpp/xml.h> /* xml::XmlFileWriter::s_psz*Suff. */
65#include <iprt/string.h>
66
67#include <VBox/com/array.h>
68
69#include <VBox/err.h>
70#include <VBox/param.h>
71#include <VBox/settings.h>
72#include <VBox/ssm.h>
73#include <VBox/feature.h>
74
75#ifdef VBOX_WITH_GUEST_PROPS
76# include <VBox/HostServices/GuestPropertySvc.h>
77# include <VBox/com/array.h>
78#endif
79
80#include <algorithm>
81
82#include <typeinfo>
83
84#if defined(RT_OS_WINDOWS) || defined(RT_OS_OS2)
85# define HOSTSUFF_EXE ".exe"
86#else /* !RT_OS_WINDOWS */
87# define HOSTSUFF_EXE ""
88#endif /* !RT_OS_WINDOWS */
89
90// defines / prototypes
91/////////////////////////////////////////////////////////////////////////////
92
93/////////////////////////////////////////////////////////////////////////////
94// Machine::Data structure
95/////////////////////////////////////////////////////////////////////////////
96
97Machine::Data::Data()
98{
99 mRegistered = FALSE;
100 pMachineConfigFile = NULL;
101 flModifications = 0;
102 mAccessible = FALSE;
103 /* mUuid is initialized in Machine::init() */
104
105 mMachineState = MachineState_PoweredOff;
106 RTTimeNow(&mLastStateChange);
107
108 mMachineStateDeps = 0;
109 mMachineStateDepsSem = NIL_RTSEMEVENTMULTI;
110 mMachineStateChangePending = 0;
111
112 mCurrentStateModified = TRUE;
113 mGuestPropertiesModified = FALSE;
114
115 mSession.mPid = NIL_RTPROCESS;
116 mSession.mState = SessionState_Closed;
117}
118
119Machine::Data::~Data()
120{
121 if (mMachineStateDepsSem != NIL_RTSEMEVENTMULTI)
122 {
123 RTSemEventMultiDestroy(mMachineStateDepsSem);
124 mMachineStateDepsSem = NIL_RTSEMEVENTMULTI;
125 }
126 if (pMachineConfigFile)
127 {
128 delete pMachineConfigFile;
129 pMachineConfigFile = NULL;
130 }
131}
132
133/////////////////////////////////////////////////////////////////////////////
134// Machine::UserData structure
135/////////////////////////////////////////////////////////////////////////////
136
137Machine::UserData::UserData()
138{
139 /* default values for a newly created machine */
140
141 mNameSync = TRUE;
142 mTeleporterEnabled = FALSE;
143 mTeleporterPort = 0;
144 mRTCUseUTC = FALSE;
145
146 /* mName, mOSTypeId, mSnapshotFolder, mSnapshotFolderFull are initialized in
147 * Machine::init() */
148}
149
150Machine::UserData::~UserData()
151{
152}
153
154/////////////////////////////////////////////////////////////////////////////
155// Machine::HWData structure
156/////////////////////////////////////////////////////////////////////////////
157
158Machine::HWData::HWData()
159{
160 /* default values for a newly created machine */
161 mHWVersion = "2"; /** @todo get the default from the schema if that is possible. */
162 mMemorySize = 128;
163 mCPUCount = 1;
164 mCPUHotPlugEnabled = false;
165 mMemoryBalloonSize = 0;
166 mPageFusionEnabled = false;
167 mVRAMSize = 8;
168 mAccelerate3DEnabled = false;
169 mAccelerate2DVideoEnabled = false;
170 mMonitorCount = 1;
171 mHWVirtExEnabled = true;
172 mHWVirtExNestedPagingEnabled = true;
173#if HC_ARCH_BITS == 64
174 /* Default value decision pending. */
175 mHWVirtExLargePagesEnabled = false;
176#else
177 /* Not supported on 32 bits hosts. */
178 mHWVirtExLargePagesEnabled = false;
179#endif
180 mHWVirtExVPIDEnabled = true;
181#if defined(RT_OS_DARWIN) || defined(RT_OS_WINDOWS)
182 mHWVirtExExclusive = false;
183#else
184 mHWVirtExExclusive = true;
185#endif
186#if HC_ARCH_BITS == 64 || defined(RT_OS_WINDOWS) || defined(RT_OS_DARWIN)
187 mPAEEnabled = true;
188#else
189 mPAEEnabled = false;
190#endif
191 mSyntheticCpu = false;
192 mHpetEnabled = false;
193
194 /* default boot order: floppy - DVD - HDD */
195 mBootOrder[0] = DeviceType_Floppy;
196 mBootOrder[1] = DeviceType_DVD;
197 mBootOrder[2] = DeviceType_HardDisk;
198 for (size_t i = 3; i < RT_ELEMENTS(mBootOrder); ++i)
199 mBootOrder[i] = DeviceType_Null;
200
201 mClipboardMode = ClipboardMode_Bidirectional;
202 mGuestPropertyNotificationPatterns = "";
203
204 mFirmwareType = FirmwareType_BIOS;
205 mKeyboardHidType = KeyboardHidType_PS2Keyboard;
206 mPointingHidType = PointingHidType_PS2Mouse;
207
208 for (size_t i = 0; i < RT_ELEMENTS(mCPUAttached); i++)
209 mCPUAttached[i] = false;
210
211 mIoCacheEnabled = true;
212 mIoCacheSize = 5; /* 5MB */
213 mIoBandwidthMax = 0; /* Unlimited */
214}
215
216Machine::HWData::~HWData()
217{
218}
219
220/////////////////////////////////////////////////////////////////////////////
221// Machine::HDData structure
222/////////////////////////////////////////////////////////////////////////////
223
224Machine::MediaData::MediaData()
225{
226}
227
228Machine::MediaData::~MediaData()
229{
230}
231
232/////////////////////////////////////////////////////////////////////////////
233// Machine class
234/////////////////////////////////////////////////////////////////////////////
235
236// constructor / destructor
237/////////////////////////////////////////////////////////////////////////////
238
239Machine::Machine()
240 : mGuestHAL(NULL),
241 mPeer(NULL),
242 mParent(NULL)
243{}
244
245Machine::~Machine()
246{}
247
248HRESULT Machine::FinalConstruct()
249{
250 LogFlowThisFunc(("\n"));
251 return S_OK;
252}
253
254void Machine::FinalRelease()
255{
256 LogFlowThisFunc(("\n"));
257 uninit();
258}
259
260/**
261 * Initializes a new machine instance; this init() variant creates a new, empty machine.
262 * This gets called from VirtualBox::CreateMachine() or VirtualBox::CreateLegacyMachine().
263 *
264 * @param aParent Associated parent object
265 * @param strConfigFile Local file system path to the VM settings file (can
266 * be relative to the VirtualBox config directory).
267 * @param strName name for the machine
268 * @param aId UUID for the new machine.
269 * @param aOsType Optional OS Type of this machine.
270 * @param aOverride |TRUE| to override VM config file existence checks.
271 * |FALSE| refuses to overwrite existing VM configs.
272 * @param aNameSync |TRUE| to automatically sync settings dir and file
273 * name with the machine name. |FALSE| is used for legacy
274 * machines where the file name is specified by the
275 * user and should never change.
276 *
277 * @return Success indicator. if not S_OK, the machine object is invalid
278 */
279HRESULT Machine::init(VirtualBox *aParent,
280 const Utf8Str &strConfigFile,
281 const Utf8Str &strName,
282 const Guid &aId,
283 GuestOSType *aOsType /* = NULL */,
284 BOOL aOverride /* = FALSE */,
285 BOOL aNameSync /* = TRUE */)
286{
287 LogFlowThisFuncEnter();
288 LogFlowThisFunc(("(Init_New) aConfigFile='%s'\n", strConfigFile.raw()));
289
290 /* Enclose the state transition NotReady->InInit->Ready */
291 AutoInitSpan autoInitSpan(this);
292 AssertReturn(autoInitSpan.isOk(), E_FAIL);
293
294 HRESULT rc = initImpl(aParent, strConfigFile);
295 if (FAILED(rc)) return rc;
296
297 rc = tryCreateMachineConfigFile(aOverride);
298 if (FAILED(rc)) return rc;
299
300 if (SUCCEEDED(rc))
301 {
302 // create an empty machine config
303 mData->pMachineConfigFile = new settings::MachineConfigFile(NULL);
304
305 rc = initDataAndChildObjects();
306 }
307
308 if (SUCCEEDED(rc))
309 {
310 // set to true now to cause uninit() to call uninitDataAndChildObjects() on failure
311 mData->mAccessible = TRUE;
312
313 unconst(mData->mUuid) = aId;
314
315 mUserData->mName = strName;
316 mUserData->mNameSync = aNameSync;
317
318 /* initialize the default snapshots folder
319 * (note: depends on the name value set above!) */
320 rc = COMSETTER(SnapshotFolder)(NULL);
321 AssertComRC(rc);
322
323 if (aOsType)
324 {
325 /* Store OS type */
326 mUserData->mOSTypeId = aOsType->id();
327
328 /* Apply BIOS defaults */
329 mBIOSSettings->applyDefaults(aOsType);
330
331 /* Apply network adapters defaults */
332 for (ULONG slot = 0; slot < RT_ELEMENTS(mNetworkAdapters); ++slot)
333 mNetworkAdapters[slot]->applyDefaults(aOsType);
334
335 /* Apply serial port defaults */
336 for (ULONG slot = 0; slot < RT_ELEMENTS(mSerialPorts); ++slot)
337 mSerialPorts[slot]->applyDefaults(aOsType);
338 }
339
340 /* commit all changes made during the initialization */
341 commit();
342 }
343
344 /* Confirm a successful initialization when it's the case */
345 if (SUCCEEDED(rc))
346 {
347 if (mData->mAccessible)
348 autoInitSpan.setSucceeded();
349 else
350 autoInitSpan.setLimited();
351 }
352
353 LogFlowThisFunc(("mName='%ls', mRegistered=%RTbool, mAccessible=%RTbool, rc=%08X\n",
354 !!mUserData ? mUserData->mName.raw() : NULL,
355 mData->mRegistered,
356 mData->mAccessible,
357 rc));
358
359 LogFlowThisFuncLeave();
360
361 return rc;
362}
363
364/**
365 * Initializes a new instance with data from machine XML (formerly Init_Registered).
366 * Gets called in two modes:
367 * -- from VirtualBox::initMachines() during VirtualBox startup; in that case, the
368 * UUID is specified and we mark the machine as "registered";
369 * -- from the public VirtualBox::OpenMachine() API, in which case the UUID is NULL
370 * and the machine remains unregistered until RegisterMachine() is called.
371 *
372 * @param aParent Associated parent object
373 * @param aConfigFile Local file system path to the VM settings file (can
374 * be relative to the VirtualBox config directory).
375 * @param aId UUID of the machine or NULL (see above).
376 *
377 * @return Success indicator. if not S_OK, the machine object is invalid
378 */
379HRESULT Machine::init(VirtualBox *aParent,
380 const Utf8Str &strConfigFile,
381 const Guid *aId)
382{
383 LogFlowThisFuncEnter();
384 LogFlowThisFunc(("(Init_Registered) aConfigFile='%s\n", strConfigFile.raw()));
385
386 /* Enclose the state transition NotReady->InInit->Ready */
387 AutoInitSpan autoInitSpan(this);
388 AssertReturn(autoInitSpan.isOk(), E_FAIL);
389
390 HRESULT rc = initImpl(aParent, strConfigFile);
391 if (FAILED(rc)) return rc;
392
393 if (aId)
394 {
395 // loading a registered VM:
396 unconst(mData->mUuid) = *aId;
397 mData->mRegistered = TRUE;
398 // now load the settings from XML:
399 rc = registeredInit();
400 // this calls initDataAndChildObjects() and loadSettings()
401 }
402 else
403 {
404 // opening an unregistered VM (VirtualBox::OpenMachine()):
405 rc = initDataAndChildObjects();
406
407 if (SUCCEEDED(rc))
408 {
409 // set to true now to cause uninit() to call uninitDataAndChildObjects() on failure
410 mData->mAccessible = TRUE;
411
412 try
413 {
414 // load and parse machine XML; this will throw on XML or logic errors
415 mData->pMachineConfigFile = new settings::MachineConfigFile(&mData->m_strConfigFileFull);
416
417 // use UUID from machine config
418 unconst(mData->mUuid) = mData->pMachineConfigFile->uuid;
419
420 rc = loadMachineDataFromSettings(*mData->pMachineConfigFile);
421 if (FAILED(rc)) throw rc;
422
423 commit();
424 }
425 catch (HRESULT err)
426 {
427 /* we assume that error info is set by the thrower */
428 rc = err;
429 }
430 catch (...)
431 {
432 rc = VirtualBox::handleUnexpectedExceptions(RT_SRC_POS);
433 }
434 }
435 }
436
437 /* Confirm a successful initialization when it's the case */
438 if (SUCCEEDED(rc))
439 {
440 if (mData->mAccessible)
441 autoInitSpan.setSucceeded();
442 else
443 autoInitSpan.setLimited();
444 }
445
446 LogFlowThisFunc(("mName='%ls', mRegistered=%RTbool, mAccessible=%RTbool "
447 "rc=%08X\n",
448 !!mUserData ? mUserData->mName.raw() : NULL,
449 mData->mRegistered, mData->mAccessible, rc));
450
451 LogFlowThisFuncLeave();
452
453 return rc;
454}
455
456/**
457 * Initializes a new instance from a machine config that is already in memory
458 * (import OVF import case). Since we are importing, the UUID in the machine
459 * config is ignored and we always generate a fresh one.
460 *
461 * @param strName Name for the new machine; this overrides what is specified in config and is used
462 * for the settings file as well.
463 * @param config Machine configuration loaded and parsed from XML.
464 *
465 * @return Success indicator. if not S_OK, the machine object is invalid
466 */
467HRESULT Machine::init(VirtualBox *aParent,
468 const Utf8Str &strName,
469 const settings::MachineConfigFile &config)
470{
471 LogFlowThisFuncEnter();
472
473 /* Enclose the state transition NotReady->InInit->Ready */
474 AutoInitSpan autoInitSpan(this);
475 AssertReturn(autoInitSpan.isOk(), E_FAIL);
476
477 Utf8Str strConfigFile(aParent->getDefaultMachineFolder());
478 strConfigFile.append(Utf8StrFmt("%c%s%c%s.xml",
479 RTPATH_DELIMITER,
480 strName.c_str(),
481 RTPATH_DELIMITER,
482 strName.c_str()));
483
484 HRESULT rc = initImpl(aParent, strConfigFile);
485 if (FAILED(rc)) return rc;
486
487 rc = tryCreateMachineConfigFile(FALSE /* aOverride */);
488 if (FAILED(rc)) return rc;
489
490 rc = initDataAndChildObjects();
491
492 if (SUCCEEDED(rc))
493 {
494 // set to true now to cause uninit() to call uninitDataAndChildObjects() on failure
495 mData->mAccessible = TRUE;
496
497 // create empty machine config for instance data
498 mData->pMachineConfigFile = new settings::MachineConfigFile(NULL);
499
500 // generate fresh UUID, ignore machine config
501 unconst(mData->mUuid).create();
502
503 rc = loadMachineDataFromSettings(config);
504
505 // override VM name as well, it may be different
506 mUserData->mName = strName;
507
508 /* commit all changes made during the initialization */
509 if (SUCCEEDED(rc))
510 commit();
511 }
512
513 /* Confirm a successful initialization when it's the case */
514 if (SUCCEEDED(rc))
515 {
516 if (mData->mAccessible)
517 autoInitSpan.setSucceeded();
518 else
519 autoInitSpan.setLimited();
520 }
521
522 LogFlowThisFunc(("mName='%ls', mRegistered=%RTbool, mAccessible=%RTbool "
523 "rc=%08X\n",
524 !!mUserData ? mUserData->mName.raw() : NULL,
525 mData->mRegistered, mData->mAccessible, rc));
526
527 LogFlowThisFuncLeave();
528
529 return rc;
530}
531
532/**
533 * Shared code between the various init() implementations.
534 * @param aParent
535 * @return
536 */
537HRESULT Machine::initImpl(VirtualBox *aParent,
538 const Utf8Str &strConfigFile)
539{
540 LogFlowThisFuncEnter();
541
542 AssertReturn(aParent, E_INVALIDARG);
543 AssertReturn(!strConfigFile.isEmpty(), E_INVALIDARG);
544
545 HRESULT rc = S_OK;
546
547 /* share the parent weakly */
548 unconst(mParent) = aParent;
549
550 /* allocate the essential machine data structure (the rest will be
551 * allocated later by initDataAndChildObjects() */
552 mData.allocate();
553
554 /* memorize the config file name (as provided) */
555 mData->m_strConfigFile = strConfigFile;
556
557 /* get the full file name */
558 int vrc1 = mParent->calculateFullPath(strConfigFile, mData->m_strConfigFileFull);
559 if (RT_FAILURE(vrc1))
560 return setError(VBOX_E_FILE_ERROR,
561 tr("Invalid machine settings file name '%s' (%Rrc)"),
562 strConfigFile.raw(),
563 vrc1);
564
565 LogFlowThisFuncLeave();
566
567 return rc;
568}
569
570/**
571 * Tries to create a machine settings file in the path stored in the machine
572 * instance data. Used when a new machine is created to fail gracefully if
573 * the settings file could not be written (e.g. because machine dir is read-only).
574 * @return
575 */
576HRESULT Machine::tryCreateMachineConfigFile(BOOL aOverride)
577{
578 HRESULT rc = S_OK;
579
580 // when we create a new machine, we must be able to create the settings file
581 RTFILE f = NIL_RTFILE;
582 int vrc = RTFileOpen(&f, mData->m_strConfigFileFull.c_str(), RTFILE_O_READ | RTFILE_O_OPEN | RTFILE_O_DENY_NONE);
583 if ( RT_SUCCESS(vrc)
584 || vrc == VERR_SHARING_VIOLATION
585 )
586 {
587 if (RT_SUCCESS(vrc))
588 RTFileClose(f);
589 if (!aOverride)
590 rc = setError(VBOX_E_FILE_ERROR,
591 tr("Machine settings file '%s' already exists"),
592 mData->m_strConfigFileFull.raw());
593 else
594 {
595 /* try to delete the config file, as otherwise the creation
596 * of a new settings file will fail. */
597 int vrc2 = RTFileDelete(mData->m_strConfigFileFull.c_str());
598 if (RT_FAILURE(vrc2))
599 rc = setError(VBOX_E_FILE_ERROR,
600 tr("Could not delete the existing settings file '%s' (%Rrc)"),
601 mData->m_strConfigFileFull.raw(), vrc2);
602 }
603 }
604 else if ( vrc != VERR_FILE_NOT_FOUND
605 && vrc != VERR_PATH_NOT_FOUND
606 )
607 rc = setError(VBOX_E_FILE_ERROR,
608 tr("Invalid machine settings file name '%s' (%Rrc)"),
609 mData->m_strConfigFileFull.raw(),
610 vrc);
611 return rc;
612}
613
614/**
615 * Initializes the registered machine by loading the settings file.
616 * This method is separated from #init() in order to make it possible to
617 * retry the operation after VirtualBox startup instead of refusing to
618 * startup the whole VirtualBox server in case if the settings file of some
619 * registered VM is invalid or inaccessible.
620 *
621 * @note Must be always called from this object's write lock
622 * (unless called from #init() that doesn't need any locking).
623 * @note Locks the mUSBController method for writing.
624 * @note Subclasses must not call this method.
625 */
626HRESULT Machine::registeredInit()
627{
628 AssertReturn(getClassID() == clsidMachine, E_FAIL);
629 AssertReturn(!mData->mUuid.isEmpty(), E_FAIL);
630 AssertReturn(!mData->mAccessible, E_FAIL);
631
632 HRESULT rc = initDataAndChildObjects();
633
634 if (SUCCEEDED(rc))
635 {
636 /* Temporarily reset the registered flag in order to let setters
637 * potentially called from loadSettings() succeed (isMutable() used in
638 * all setters will return FALSE for a Machine instance if mRegistered
639 * is TRUE). */
640 mData->mRegistered = FALSE;
641
642 try
643 {
644 // load and parse machine XML; this will throw on XML or logic errors
645 mData->pMachineConfigFile = new settings::MachineConfigFile(&mData->m_strConfigFileFull);
646
647 if (mData->mUuid != mData->pMachineConfigFile->uuid)
648 throw setError(E_FAIL,
649 tr("Machine UUID {%RTuuid} in '%s' doesn't match its UUID {%s} in the registry file '%s'"),
650 mData->pMachineConfigFile->uuid.raw(),
651 mData->m_strConfigFileFull.raw(),
652 mData->mUuid.toString().raw(),
653 mParent->settingsFilePath().raw());
654
655 rc = loadMachineDataFromSettings(*mData->pMachineConfigFile);
656 if (FAILED(rc)) throw rc;
657 }
658 catch (HRESULT err)
659 {
660 /* we assume that error info is set by the thrower */
661 rc = err;
662 }
663 catch (...)
664 {
665 rc = VirtualBox::handleUnexpectedExceptions(RT_SRC_POS);
666 }
667
668 /* Restore the registered flag (even on failure) */
669 mData->mRegistered = TRUE;
670 }
671
672 if (SUCCEEDED(rc))
673 {
674 /* Set mAccessible to TRUE only if we successfully locked and loaded
675 * the settings file */
676 mData->mAccessible = TRUE;
677
678 /* commit all changes made during loading the settings file */
679 commit(); // @todo r=dj why do we need a commit during init?!? this is very expensive
680 }
681 else
682 {
683 /* If the machine is registered, then, instead of returning a
684 * failure, we mark it as inaccessible and set the result to
685 * success to give it a try later */
686
687 /* fetch the current error info */
688 mData->mAccessError = com::ErrorInfo();
689 LogWarning(("Machine {%RTuuid} is inaccessible! [%ls]\n",
690 mData->mUuid.raw(),
691 mData->mAccessError.getText().raw()));
692
693 /* rollback all changes */
694 rollback(false /* aNotify */);
695
696 /* uninitialize the common part to make sure all data is reset to
697 * default (null) values */
698 uninitDataAndChildObjects();
699
700 rc = S_OK;
701 }
702
703 return rc;
704}
705
706/**
707 * Uninitializes the instance.
708 * Called either from FinalRelease() or by the parent when it gets destroyed.
709 *
710 * @note The caller of this method must make sure that this object
711 * a) doesn't have active callers on the current thread and b) is not locked
712 * by the current thread; otherwise uninit() will hang either a) due to
713 * AutoUninitSpan waiting for a number of calls to drop to zero or b) due to
714 * a dead-lock caused by this thread waiting for all callers on the other
715 * threads are done but preventing them from doing so by holding a lock.
716 */
717void Machine::uninit()
718{
719 LogFlowThisFuncEnter();
720
721 Assert(!isWriteLockOnCurrentThread());
722
723 /* Enclose the state transition Ready->InUninit->NotReady */
724 AutoUninitSpan autoUninitSpan(this);
725 if (autoUninitSpan.uninitDone())
726 return;
727
728 Assert(getClassID() == clsidMachine);
729 Assert(!!mData);
730
731 LogFlowThisFunc(("initFailed()=%d\n", autoUninitSpan.initFailed()));
732 LogFlowThisFunc(("mRegistered=%d\n", mData->mRegistered));
733
734 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
735
736 if (!mData->mSession.mMachine.isNull())
737 {
738 /* Theoretically, this can only happen if the VirtualBox server has been
739 * terminated while there were clients running that owned open direct
740 * sessions. Since in this case we are definitely called by
741 * VirtualBox::uninit(), we may be sure that SessionMachine::uninit()
742 * won't happen on the client watcher thread (because it does
743 * VirtualBox::addCaller() for the duration of the
744 * SessionMachine::checkForDeath() call, so that VirtualBox::uninit()
745 * cannot happen until the VirtualBox caller is released). This is
746 * important, because SessionMachine::uninit() cannot correctly operate
747 * after we return from this method (it expects the Machine instance is
748 * still valid). We'll call it ourselves below.
749 */
750 LogWarningThisFunc(("Session machine is not NULL (%p), the direct session is still open!\n",
751 (SessionMachine*)mData->mSession.mMachine));
752
753 if (Global::IsOnlineOrTransient(mData->mMachineState))
754 {
755 LogWarningThisFunc(("Setting state to Aborted!\n"));
756 /* set machine state using SessionMachine reimplementation */
757 static_cast<Machine*>(mData->mSession.mMachine)->setMachineState(MachineState_Aborted);
758 }
759
760 /*
761 * Uninitialize SessionMachine using public uninit() to indicate
762 * an unexpected uninitialization.
763 */
764 mData->mSession.mMachine->uninit();
765 /* SessionMachine::uninit() must set mSession.mMachine to null */
766 Assert(mData->mSession.mMachine.isNull());
767 }
768
769 /* the lock is no more necessary (SessionMachine is uninitialized) */
770 alock.leave();
771
772 // has machine been modified?
773 if (mData->flModifications)
774 {
775 LogWarningThisFunc(("Discarding unsaved settings changes!\n"));
776 rollback(false /* aNotify */);
777 }
778
779 if (mData->mAccessible)
780 uninitDataAndChildObjects();
781
782 /* free the essential data structure last */
783 mData.free();
784
785 LogFlowThisFuncLeave();
786}
787
788// IMachine properties
789/////////////////////////////////////////////////////////////////////////////
790
791STDMETHODIMP Machine::COMGETTER(Parent)(IVirtualBox **aParent)
792{
793 CheckComArgOutPointerValid(aParent);
794
795 AutoLimitedCaller autoCaller(this);
796 if (FAILED(autoCaller.rc())) return autoCaller.rc();
797
798 /* mParent is constant during life time, no need to lock */
799 ComObjPtr<VirtualBox> pVirtualBox(mParent);
800 pVirtualBox.queryInterfaceTo(aParent);
801
802 return S_OK;
803}
804
805STDMETHODIMP Machine::COMGETTER(Accessible)(BOOL *aAccessible)
806{
807 CheckComArgOutPointerValid(aAccessible);
808
809 AutoLimitedCaller autoCaller(this);
810 if (FAILED(autoCaller.rc())) return autoCaller.rc();
811
812 LogFlowThisFunc(("ENTER\n"));
813
814 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
815
816 HRESULT rc = S_OK;
817
818 if (!mData->mAccessible)
819 {
820 /* try to initialize the VM once more if not accessible */
821
822 AutoReinitSpan autoReinitSpan(this);
823 AssertReturn(autoReinitSpan.isOk(), E_FAIL);
824
825#ifdef DEBUG
826 LogFlowThisFunc(("Dumping media backreferences\n"));
827 mParent->dumpAllBackRefs();
828#endif
829
830 if (mData->pMachineConfigFile)
831 {
832 // reset the XML file to force loadSettings() (called from registeredInit())
833 // to parse it again; the file might have changed
834 delete mData->pMachineConfigFile;
835 mData->pMachineConfigFile = NULL;
836 }
837
838 rc = registeredInit();
839
840 if (SUCCEEDED(rc) && mData->mAccessible)
841 {
842 autoReinitSpan.setSucceeded();
843
844 /* make sure interesting parties will notice the accessibility
845 * state change */
846 mParent->onMachineStateChange(mData->mUuid, mData->mMachineState);
847 mParent->onMachineDataChange(mData->mUuid);
848 }
849 }
850
851 if (SUCCEEDED(rc))
852 *aAccessible = mData->mAccessible;
853
854 LogFlowThisFuncLeave();
855
856 return rc;
857}
858
859STDMETHODIMP Machine::COMGETTER(AccessError)(IVirtualBoxErrorInfo **aAccessError)
860{
861 CheckComArgOutPointerValid(aAccessError);
862
863 AutoLimitedCaller autoCaller(this);
864 if (FAILED(autoCaller.rc())) return autoCaller.rc();
865
866 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
867
868 if (mData->mAccessible || !mData->mAccessError.isBasicAvailable())
869 {
870 /* return shortly */
871 aAccessError = NULL;
872 return S_OK;
873 }
874
875 HRESULT rc = S_OK;
876
877 ComObjPtr<VirtualBoxErrorInfo> errorInfo;
878 rc = errorInfo.createObject();
879 if (SUCCEEDED(rc))
880 {
881 errorInfo->init(mData->mAccessError.getResultCode(),
882 mData->mAccessError.getInterfaceID(),
883 mData->mAccessError.getComponent(),
884 mData->mAccessError.getText());
885 rc = errorInfo.queryInterfaceTo(aAccessError);
886 }
887
888 return rc;
889}
890
891STDMETHODIMP Machine::COMGETTER(Name)(BSTR *aName)
892{
893 CheckComArgOutPointerValid(aName);
894
895 AutoCaller autoCaller(this);
896 if (FAILED(autoCaller.rc())) return autoCaller.rc();
897
898 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
899
900 mUserData->mName.cloneTo(aName);
901
902 return S_OK;
903}
904
905STDMETHODIMP Machine::COMSETTER(Name)(IN_BSTR aName)
906{
907 CheckComArgStrNotEmptyOrNull(aName);
908
909 AutoCaller autoCaller(this);
910 if (FAILED(autoCaller.rc())) return autoCaller.rc();
911
912 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
913
914 HRESULT rc = checkStateDependency(MutableStateDep);
915 if (FAILED(rc)) return rc;
916
917 setModified(IsModified_MachineData);
918 mUserData.backup();
919 mUserData->mName = aName;
920
921 return S_OK;
922}
923
924STDMETHODIMP Machine::COMGETTER(Description)(BSTR *aDescription)
925{
926 CheckComArgOutPointerValid(aDescription);
927
928 AutoCaller autoCaller(this);
929 if (FAILED(autoCaller.rc())) return autoCaller.rc();
930
931 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
932
933 mUserData->mDescription.cloneTo(aDescription);
934
935 return S_OK;
936}
937
938STDMETHODIMP Machine::COMSETTER(Description)(IN_BSTR aDescription)
939{
940 AutoCaller autoCaller(this);
941 if (FAILED(autoCaller.rc())) return autoCaller.rc();
942
943 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
944
945 HRESULT rc = checkStateDependency(MutableStateDep);
946 if (FAILED(rc)) return rc;
947
948 setModified(IsModified_MachineData);
949 mUserData.backup();
950 mUserData->mDescription = aDescription;
951
952 return S_OK;
953}
954
955STDMETHODIMP Machine::COMGETTER(Id)(BSTR *aId)
956{
957 CheckComArgOutPointerValid(aId);
958
959 AutoLimitedCaller autoCaller(this);
960 if (FAILED(autoCaller.rc())) return autoCaller.rc();
961
962 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
963
964 mData->mUuid.toUtf16().cloneTo(aId);
965
966 return S_OK;
967}
968
969STDMETHODIMP Machine::COMGETTER(OSTypeId)(BSTR *aOSTypeId)
970{
971 CheckComArgOutPointerValid(aOSTypeId);
972
973 AutoCaller autoCaller(this);
974 if (FAILED(autoCaller.rc())) return autoCaller.rc();
975
976 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
977
978 mUserData->mOSTypeId.cloneTo(aOSTypeId);
979
980 return S_OK;
981}
982
983STDMETHODIMP Machine::COMSETTER(OSTypeId)(IN_BSTR aOSTypeId)
984{
985 CheckComArgStrNotEmptyOrNull(aOSTypeId);
986
987 AutoCaller autoCaller(this);
988 if (FAILED(autoCaller.rc())) return autoCaller.rc();
989
990 /* look up the object by Id to check it is valid */
991 ComPtr<IGuestOSType> guestOSType;
992 HRESULT rc = mParent->GetGuestOSType(aOSTypeId, guestOSType.asOutParam());
993 if (FAILED(rc)) return rc;
994
995 /* when setting, always use the "etalon" value for consistency -- lookup
996 * by ID is case-insensitive and the input value may have different case */
997 Bstr osTypeId;
998 rc = guestOSType->COMGETTER(Id)(osTypeId.asOutParam());
999 if (FAILED(rc)) return rc;
1000
1001 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1002
1003 rc = checkStateDependency(MutableStateDep);
1004 if (FAILED(rc)) return rc;
1005
1006 setModified(IsModified_MachineData);
1007 mUserData.backup();
1008 mUserData->mOSTypeId = osTypeId;
1009
1010 return S_OK;
1011}
1012
1013
1014STDMETHODIMP Machine::COMGETTER(FirmwareType)(FirmwareType_T *aFirmwareType)
1015{
1016 CheckComArgOutPointerValid(aFirmwareType);
1017
1018 AutoCaller autoCaller(this);
1019 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1020
1021 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1022
1023 *aFirmwareType = mHWData->mFirmwareType;
1024
1025 return S_OK;
1026}
1027
1028STDMETHODIMP Machine::COMSETTER(FirmwareType)(FirmwareType_T aFirmwareType)
1029{
1030 AutoCaller autoCaller(this);
1031 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1032 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1033
1034 int rc = checkStateDependency(MutableStateDep);
1035 if (FAILED(rc)) return rc;
1036
1037 setModified(IsModified_MachineData);
1038 mHWData.backup();
1039 mHWData->mFirmwareType = aFirmwareType;
1040
1041 return S_OK;
1042}
1043
1044STDMETHODIMP Machine::COMGETTER(KeyboardHidType)(KeyboardHidType_T *aKeyboardHidType)
1045{
1046 CheckComArgOutPointerValid(aKeyboardHidType);
1047
1048 AutoCaller autoCaller(this);
1049 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1050
1051 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1052
1053 *aKeyboardHidType = mHWData->mKeyboardHidType;
1054
1055 return S_OK;
1056}
1057
1058STDMETHODIMP Machine::COMSETTER(KeyboardHidType)(KeyboardHidType_T aKeyboardHidType)
1059{
1060 AutoCaller autoCaller(this);
1061 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1062 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1063
1064 int rc = checkStateDependency(MutableStateDep);
1065 if (FAILED(rc)) return rc;
1066
1067 setModified(IsModified_MachineData);
1068 mHWData.backup();
1069 mHWData->mKeyboardHidType = aKeyboardHidType;
1070
1071 return S_OK;
1072}
1073
1074STDMETHODIMP Machine::COMGETTER(PointingHidType)(PointingHidType_T *aPointingHidType)
1075{
1076 CheckComArgOutPointerValid(aPointingHidType);
1077
1078 AutoCaller autoCaller(this);
1079 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1080
1081 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1082
1083 *aPointingHidType = mHWData->mPointingHidType;
1084
1085 return S_OK;
1086}
1087
1088STDMETHODIMP Machine::COMSETTER(PointingHidType)(PointingHidType_T aPointingHidType)
1089{
1090 AutoCaller autoCaller(this);
1091 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1092 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1093
1094 int rc = checkStateDependency(MutableStateDep);
1095 if (FAILED(rc)) return rc;
1096
1097 setModified(IsModified_MachineData);
1098 mHWData.backup();
1099 mHWData->mPointingHidType = aPointingHidType;
1100
1101 return S_OK;
1102}
1103
1104STDMETHODIMP Machine::COMGETTER(HardwareVersion)(BSTR *aHWVersion)
1105{
1106 if (!aHWVersion)
1107 return E_POINTER;
1108
1109 AutoCaller autoCaller(this);
1110 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1111
1112 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1113
1114 mHWData->mHWVersion.cloneTo(aHWVersion);
1115
1116 return S_OK;
1117}
1118
1119STDMETHODIMP Machine::COMSETTER(HardwareVersion)(IN_BSTR aHWVersion)
1120{
1121 /* check known version */
1122 Utf8Str hwVersion = aHWVersion;
1123 if ( hwVersion.compare("1") != 0
1124 && hwVersion.compare("2") != 0)
1125 return setError(E_INVALIDARG,
1126 tr("Invalid hardware version: %ls\n"), aHWVersion);
1127
1128 AutoCaller autoCaller(this);
1129 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1130
1131 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1132
1133 HRESULT rc = checkStateDependency(MutableStateDep);
1134 if (FAILED(rc)) return rc;
1135
1136 setModified(IsModified_MachineData);
1137 mHWData.backup();
1138 mHWData->mHWVersion = hwVersion;
1139
1140 return S_OK;
1141}
1142
1143STDMETHODIMP Machine::COMGETTER(HardwareUUID)(BSTR *aUUID)
1144{
1145 CheckComArgOutPointerValid(aUUID);
1146
1147 AutoCaller autoCaller(this);
1148 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1149
1150 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1151
1152 if (!mHWData->mHardwareUUID.isEmpty())
1153 mHWData->mHardwareUUID.toUtf16().cloneTo(aUUID);
1154 else
1155 mData->mUuid.toUtf16().cloneTo(aUUID);
1156
1157 return S_OK;
1158}
1159
1160STDMETHODIMP Machine::COMSETTER(HardwareUUID)(IN_BSTR aUUID)
1161{
1162 Guid hardwareUUID(aUUID);
1163 if (hardwareUUID.isEmpty())
1164 return E_INVALIDARG;
1165
1166 AutoCaller autoCaller(this);
1167 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1168
1169 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1170
1171 HRESULT rc = checkStateDependency(MutableStateDep);
1172 if (FAILED(rc)) return rc;
1173
1174 setModified(IsModified_MachineData);
1175 mHWData.backup();
1176 if (hardwareUUID == mData->mUuid)
1177 mHWData->mHardwareUUID.clear();
1178 else
1179 mHWData->mHardwareUUID = hardwareUUID;
1180
1181 return S_OK;
1182}
1183
1184STDMETHODIMP Machine::COMGETTER(MemorySize)(ULONG *memorySize)
1185{
1186 if (!memorySize)
1187 return E_POINTER;
1188
1189 AutoCaller autoCaller(this);
1190 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1191
1192 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1193
1194 *memorySize = mHWData->mMemorySize;
1195
1196 return S_OK;
1197}
1198
1199STDMETHODIMP Machine::COMSETTER(MemorySize)(ULONG memorySize)
1200{
1201 /* check RAM limits */
1202 if ( memorySize < MM_RAM_MIN_IN_MB
1203 || memorySize > MM_RAM_MAX_IN_MB
1204 )
1205 return setError(E_INVALIDARG,
1206 tr("Invalid RAM size: %lu MB (must be in range [%lu, %lu] MB)"),
1207 memorySize, MM_RAM_MIN_IN_MB, MM_RAM_MAX_IN_MB);
1208
1209 AutoCaller autoCaller(this);
1210 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1211
1212 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1213
1214 HRESULT rc = checkStateDependency(MutableStateDep);
1215 if (FAILED(rc)) return rc;
1216
1217 setModified(IsModified_MachineData);
1218 mHWData.backup();
1219 mHWData->mMemorySize = memorySize;
1220
1221 return S_OK;
1222}
1223
1224STDMETHODIMP Machine::COMGETTER(CPUCount)(ULONG *CPUCount)
1225{
1226 if (!CPUCount)
1227 return E_POINTER;
1228
1229 AutoCaller autoCaller(this);
1230 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1231
1232 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1233
1234 *CPUCount = mHWData->mCPUCount;
1235
1236 return S_OK;
1237}
1238
1239STDMETHODIMP Machine::COMSETTER(CPUCount)(ULONG CPUCount)
1240{
1241 /* check CPU limits */
1242 if ( CPUCount < SchemaDefs::MinCPUCount
1243 || CPUCount > SchemaDefs::MaxCPUCount
1244 )
1245 return setError(E_INVALIDARG,
1246 tr("Invalid virtual CPU count: %lu (must be in range [%lu, %lu])"),
1247 CPUCount, SchemaDefs::MinCPUCount, SchemaDefs::MaxCPUCount);
1248
1249 AutoCaller autoCaller(this);
1250 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1251
1252 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1253
1254 /* We cant go below the current number of CPUs if hotplug is enabled*/
1255 if (mHWData->mCPUHotPlugEnabled)
1256 {
1257 for (unsigned idx = CPUCount; idx < SchemaDefs::MaxCPUCount; idx++)
1258 {
1259 if (mHWData->mCPUAttached[idx])
1260 return setError(E_INVALIDARG,
1261 tr(": %lu (must be higher than or equal to %lu)"),
1262 CPUCount, idx+1);
1263 }
1264 }
1265
1266 HRESULT rc = checkStateDependency(MutableStateDep);
1267 if (FAILED(rc)) return rc;
1268
1269 setModified(IsModified_MachineData);
1270 mHWData.backup();
1271 mHWData->mCPUCount = CPUCount;
1272
1273 return S_OK;
1274}
1275
1276STDMETHODIMP Machine::COMGETTER(CPUHotPlugEnabled)(BOOL *enabled)
1277{
1278 if (!enabled)
1279 return E_POINTER;
1280
1281 AutoCaller autoCaller(this);
1282 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1283
1284 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1285
1286 *enabled = mHWData->mCPUHotPlugEnabled;
1287
1288 return S_OK;
1289}
1290
1291STDMETHODIMP Machine::COMSETTER(CPUHotPlugEnabled)(BOOL enabled)
1292{
1293 HRESULT rc = S_OK;
1294
1295 AutoCaller autoCaller(this);
1296 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1297
1298 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1299
1300 rc = checkStateDependency(MutableStateDep);
1301 if (FAILED(rc)) return rc;
1302
1303 if (mHWData->mCPUHotPlugEnabled != enabled)
1304 {
1305 if (enabled)
1306 {
1307 setModified(IsModified_MachineData);
1308 mHWData.backup();
1309
1310 /* Add the amount of CPUs currently attached */
1311 for (unsigned i = 0; i < mHWData->mCPUCount; i++)
1312 {
1313 mHWData->mCPUAttached[i] = true;
1314 }
1315 }
1316 else
1317 {
1318 /*
1319 * We can disable hotplug only if the amount of maximum CPUs is equal
1320 * to the amount of attached CPUs
1321 */
1322 unsigned cCpusAttached = 0;
1323 unsigned iHighestId = 0;
1324
1325 for (unsigned i = 0; i < SchemaDefs::MaxCPUCount; i++)
1326 {
1327 if (mHWData->mCPUAttached[i])
1328 {
1329 cCpusAttached++;
1330 iHighestId = i;
1331 }
1332 }
1333
1334 if ( (cCpusAttached != mHWData->mCPUCount)
1335 || (iHighestId >= mHWData->mCPUCount))
1336 return setError(E_INVALIDARG,
1337 tr("CPU hotplugging can't be disabled because the maximum number of CPUs is not equal to the amount of CPUs attached\n"));
1338
1339 setModified(IsModified_MachineData);
1340 mHWData.backup();
1341 }
1342 }
1343
1344 mHWData->mCPUHotPlugEnabled = enabled;
1345
1346 return rc;
1347}
1348
1349STDMETHODIMP Machine::COMGETTER(HpetEnabled)(BOOL *enabled)
1350{
1351 CheckComArgOutPointerValid(enabled);
1352
1353 AutoCaller autoCaller(this);
1354 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1355 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1356
1357 *enabled = mHWData->mHpetEnabled;
1358
1359 return S_OK;
1360}
1361
1362STDMETHODIMP Machine::COMSETTER(HpetEnabled)(BOOL enabled)
1363{
1364 HRESULT rc = S_OK;
1365
1366 AutoCaller autoCaller(this);
1367 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1368 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1369
1370 rc = checkStateDependency(MutableStateDep);
1371 if (FAILED(rc)) return rc;
1372
1373 setModified(IsModified_MachineData);
1374 mHWData.backup();
1375
1376 mHWData->mHpetEnabled = enabled;
1377
1378 return rc;
1379}
1380
1381STDMETHODIMP Machine::COMGETTER(VRAMSize)(ULONG *memorySize)
1382{
1383 if (!memorySize)
1384 return E_POINTER;
1385
1386 AutoCaller autoCaller(this);
1387 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1388
1389 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1390
1391 *memorySize = mHWData->mVRAMSize;
1392
1393 return S_OK;
1394}
1395
1396STDMETHODIMP Machine::COMSETTER(VRAMSize)(ULONG memorySize)
1397{
1398 /* check VRAM limits */
1399 if (memorySize < SchemaDefs::MinGuestVRAM ||
1400 memorySize > SchemaDefs::MaxGuestVRAM)
1401 return setError(E_INVALIDARG,
1402 tr("Invalid VRAM size: %lu MB (must be in range [%lu, %lu] MB)"),
1403 memorySize, SchemaDefs::MinGuestVRAM, SchemaDefs::MaxGuestVRAM);
1404
1405 AutoCaller autoCaller(this);
1406 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1407
1408 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1409
1410 HRESULT rc = checkStateDependency(MutableStateDep);
1411 if (FAILED(rc)) return rc;
1412
1413 setModified(IsModified_MachineData);
1414 mHWData.backup();
1415 mHWData->mVRAMSize = memorySize;
1416
1417 return S_OK;
1418}
1419
1420/** @todo this method should not be public */
1421STDMETHODIMP Machine::COMGETTER(MemoryBalloonSize)(ULONG *memoryBalloonSize)
1422{
1423 if (!memoryBalloonSize)
1424 return E_POINTER;
1425
1426 AutoCaller autoCaller(this);
1427 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1428
1429 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1430
1431 *memoryBalloonSize = mHWData->mMemoryBalloonSize;
1432
1433 return S_OK;
1434}
1435
1436/**
1437 * Set the memory balloon size.
1438 *
1439 * This method is also called from IGuest::COMSETTER(MemoryBalloonSize) so
1440 * we have to make sure that we never call IGuest from here.
1441 */
1442STDMETHODIMP Machine::COMSETTER(MemoryBalloonSize)(ULONG memoryBalloonSize)
1443{
1444 /* This must match GMMR0Init; currently we only support memory ballooning on all 64-bit hosts except Mac OS X */
1445#if HC_ARCH_BITS == 64 && (defined(RT_OS_WINDOWS) || defined(RT_OS_SOLARIS) || defined(RT_OS_LINUX) || defined(RT_OS_FREEBSD))
1446 /* check limits */
1447 if (memoryBalloonSize >= VMMDEV_MAX_MEMORY_BALLOON(mHWData->mMemorySize))
1448 return setError(E_INVALIDARG,
1449 tr("Invalid memory balloon size: %lu MB (must be in range [%lu, %lu] MB)"),
1450 memoryBalloonSize, 0, VMMDEV_MAX_MEMORY_BALLOON(mHWData->mMemorySize));
1451
1452 AutoCaller autoCaller(this);
1453 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1454
1455 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1456
1457 setModified(IsModified_MachineData);
1458 mHWData.backup();
1459 mHWData->mMemoryBalloonSize = memoryBalloonSize;
1460
1461 return S_OK;
1462#else
1463 NOREF(memoryBalloonSize);
1464 return setError(E_NOTIMPL, tr("Memory ballooning is only supported on 64-bit hosts"));
1465#endif
1466}
1467
1468STDMETHODIMP Machine::COMGETTER(PageFusionEnabled) (BOOL *enabled)
1469{
1470 if (!enabled)
1471 return E_POINTER;
1472
1473 AutoCaller autoCaller(this);
1474 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1475
1476 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1477
1478 *enabled = mHWData->mPageFusionEnabled;
1479 return S_OK;
1480}
1481
1482STDMETHODIMP Machine::COMSETTER(PageFusionEnabled) (BOOL enabled)
1483{
1484#ifdef VBOX_WITH_PAGE_SHARING
1485 AutoCaller autoCaller(this);
1486 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1487
1488 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1489
1490 setModified(IsModified_MachineData);
1491 mHWData.backup();
1492 mHWData->mPageFusionEnabled = enabled;
1493 return S_OK;
1494#else
1495 NOREF(enabled);
1496 return setError(E_NOTIMPL, tr("Page fusion is only supported on 64-bit hosts"));
1497#endif
1498}
1499
1500STDMETHODIMP Machine::COMGETTER(Accelerate3DEnabled)(BOOL *enabled)
1501{
1502 if (!enabled)
1503 return E_POINTER;
1504
1505 AutoCaller autoCaller(this);
1506 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1507
1508 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1509
1510 *enabled = mHWData->mAccelerate3DEnabled;
1511
1512 return S_OK;
1513}
1514
1515STDMETHODIMP Machine::COMSETTER(Accelerate3DEnabled)(BOOL enable)
1516{
1517 AutoCaller autoCaller(this);
1518 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1519
1520 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1521
1522 HRESULT rc = checkStateDependency(MutableStateDep);
1523 if (FAILED(rc)) return rc;
1524
1525 /** @todo check validity! */
1526
1527 setModified(IsModified_MachineData);
1528 mHWData.backup();
1529 mHWData->mAccelerate3DEnabled = enable;
1530
1531 return S_OK;
1532}
1533
1534
1535STDMETHODIMP Machine::COMGETTER(Accelerate2DVideoEnabled)(BOOL *enabled)
1536{
1537 if (!enabled)
1538 return E_POINTER;
1539
1540 AutoCaller autoCaller(this);
1541 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1542
1543 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1544
1545 *enabled = mHWData->mAccelerate2DVideoEnabled;
1546
1547 return S_OK;
1548}
1549
1550STDMETHODIMP Machine::COMSETTER(Accelerate2DVideoEnabled)(BOOL enable)
1551{
1552 AutoCaller autoCaller(this);
1553 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1554
1555 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1556
1557 HRESULT rc = checkStateDependency(MutableStateDep);
1558 if (FAILED(rc)) return rc;
1559
1560 /** @todo check validity! */
1561
1562 setModified(IsModified_MachineData);
1563 mHWData.backup();
1564 mHWData->mAccelerate2DVideoEnabled = enable;
1565
1566 return S_OK;
1567}
1568
1569STDMETHODIMP Machine::COMGETTER(MonitorCount)(ULONG *monitorCount)
1570{
1571 if (!monitorCount)
1572 return E_POINTER;
1573
1574 AutoCaller autoCaller(this);
1575 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1576
1577 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1578
1579 *monitorCount = mHWData->mMonitorCount;
1580
1581 return S_OK;
1582}
1583
1584STDMETHODIMP Machine::COMSETTER(MonitorCount)(ULONG monitorCount)
1585{
1586 /* make sure monitor count is a sensible number */
1587 if (monitorCount < 1 || monitorCount > SchemaDefs::MaxGuestMonitors)
1588 return setError(E_INVALIDARG,
1589 tr("Invalid monitor count: %lu (must be in range [%lu, %lu])"),
1590 monitorCount, 1, SchemaDefs::MaxGuestMonitors);
1591
1592 AutoCaller autoCaller(this);
1593 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1594
1595 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1596
1597 HRESULT rc = checkStateDependency(MutableStateDep);
1598 if (FAILED(rc)) return rc;
1599
1600 setModified(IsModified_MachineData);
1601 mHWData.backup();
1602 mHWData->mMonitorCount = monitorCount;
1603
1604 return S_OK;
1605}
1606
1607STDMETHODIMP Machine::COMGETTER(BIOSSettings)(IBIOSSettings **biosSettings)
1608{
1609 if (!biosSettings)
1610 return E_POINTER;
1611
1612 AutoCaller autoCaller(this);
1613 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1614
1615 /* mBIOSSettings is constant during life time, no need to lock */
1616 mBIOSSettings.queryInterfaceTo(biosSettings);
1617
1618 return S_OK;
1619}
1620
1621STDMETHODIMP Machine::GetCPUProperty(CPUPropertyType_T property, BOOL *aVal)
1622{
1623 if (!aVal)
1624 return E_POINTER;
1625
1626 AutoCaller autoCaller(this);
1627 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1628
1629 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1630
1631 switch(property)
1632 {
1633 case CPUPropertyType_PAE:
1634 *aVal = mHWData->mPAEEnabled;
1635 break;
1636
1637 case CPUPropertyType_Synthetic:
1638 *aVal = mHWData->mSyntheticCpu;
1639 break;
1640
1641 default:
1642 return E_INVALIDARG;
1643 }
1644 return S_OK;
1645}
1646
1647STDMETHODIMP Machine::SetCPUProperty(CPUPropertyType_T property, BOOL aVal)
1648{
1649 AutoCaller autoCaller(this);
1650 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1651
1652 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1653
1654 HRESULT rc = checkStateDependency(MutableStateDep);
1655 if (FAILED(rc)) return rc;
1656
1657 switch(property)
1658 {
1659 case CPUPropertyType_PAE:
1660 setModified(IsModified_MachineData);
1661 mHWData.backup();
1662 mHWData->mPAEEnabled = !!aVal;
1663 break;
1664
1665 case CPUPropertyType_Synthetic:
1666 setModified(IsModified_MachineData);
1667 mHWData.backup();
1668 mHWData->mSyntheticCpu = !!aVal;
1669 break;
1670
1671 default:
1672 return E_INVALIDARG;
1673 }
1674 return S_OK;
1675}
1676
1677STDMETHODIMP Machine::GetCPUIDLeaf(ULONG aId, ULONG *aValEax, ULONG *aValEbx, ULONG *aValEcx, ULONG *aValEdx)
1678{
1679 CheckComArgOutPointerValid(aValEax);
1680 CheckComArgOutPointerValid(aValEbx);
1681 CheckComArgOutPointerValid(aValEcx);
1682 CheckComArgOutPointerValid(aValEdx);
1683
1684 AutoCaller autoCaller(this);
1685 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1686
1687 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1688
1689 switch(aId)
1690 {
1691 case 0x0:
1692 case 0x1:
1693 case 0x2:
1694 case 0x3:
1695 case 0x4:
1696 case 0x5:
1697 case 0x6:
1698 case 0x7:
1699 case 0x8:
1700 case 0x9:
1701 case 0xA:
1702 if (mHWData->mCpuIdStdLeafs[aId].ulId != aId)
1703 return setError(E_INVALIDARG, tr("CpuId override leaf %#x is not set"), aId);
1704
1705 *aValEax = mHWData->mCpuIdStdLeafs[aId].ulEax;
1706 *aValEbx = mHWData->mCpuIdStdLeafs[aId].ulEbx;
1707 *aValEcx = mHWData->mCpuIdStdLeafs[aId].ulEcx;
1708 *aValEdx = mHWData->mCpuIdStdLeafs[aId].ulEdx;
1709 break;
1710
1711 case 0x80000000:
1712 case 0x80000001:
1713 case 0x80000002:
1714 case 0x80000003:
1715 case 0x80000004:
1716 case 0x80000005:
1717 case 0x80000006:
1718 case 0x80000007:
1719 case 0x80000008:
1720 case 0x80000009:
1721 case 0x8000000A:
1722 if (mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulId != aId)
1723 return setError(E_INVALIDARG, tr("CpuId override leaf %#x is not set"), aId);
1724
1725 *aValEax = mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulEax;
1726 *aValEbx = mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulEbx;
1727 *aValEcx = mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulEcx;
1728 *aValEdx = mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulEdx;
1729 break;
1730
1731 default:
1732 return setError(E_INVALIDARG, tr("CpuId override leaf %#x is out of range"), aId);
1733 }
1734 return S_OK;
1735}
1736
1737STDMETHODIMP Machine::SetCPUIDLeaf(ULONG aId, ULONG aValEax, ULONG aValEbx, ULONG aValEcx, ULONG aValEdx)
1738{
1739 AutoCaller autoCaller(this);
1740 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1741
1742 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1743
1744 HRESULT rc = checkStateDependency(MutableStateDep);
1745 if (FAILED(rc)) return rc;
1746
1747 switch(aId)
1748 {
1749 case 0x0:
1750 case 0x1:
1751 case 0x2:
1752 case 0x3:
1753 case 0x4:
1754 case 0x5:
1755 case 0x6:
1756 case 0x7:
1757 case 0x8:
1758 case 0x9:
1759 case 0xA:
1760 AssertCompile(RT_ELEMENTS(mHWData->mCpuIdStdLeafs) == 0xA);
1761 AssertRelease(aId < RT_ELEMENTS(mHWData->mCpuIdStdLeafs));
1762 setModified(IsModified_MachineData);
1763 mHWData.backup();
1764 mHWData->mCpuIdStdLeafs[aId].ulId = aId;
1765 mHWData->mCpuIdStdLeafs[aId].ulEax = aValEax;
1766 mHWData->mCpuIdStdLeafs[aId].ulEbx = aValEbx;
1767 mHWData->mCpuIdStdLeafs[aId].ulEcx = aValEcx;
1768 mHWData->mCpuIdStdLeafs[aId].ulEdx = aValEdx;
1769 break;
1770
1771 case 0x80000000:
1772 case 0x80000001:
1773 case 0x80000002:
1774 case 0x80000003:
1775 case 0x80000004:
1776 case 0x80000005:
1777 case 0x80000006:
1778 case 0x80000007:
1779 case 0x80000008:
1780 case 0x80000009:
1781 case 0x8000000A:
1782 AssertCompile(RT_ELEMENTS(mHWData->mCpuIdExtLeafs) == 0xA);
1783 AssertRelease(aId - 0x80000000 < RT_ELEMENTS(mHWData->mCpuIdExtLeafs));
1784 setModified(IsModified_MachineData);
1785 mHWData.backup();
1786 mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulId = aId;
1787 mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulEax = aValEax;
1788 mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulEbx = aValEbx;
1789 mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulEcx = aValEcx;
1790 mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulEdx = aValEdx;
1791 break;
1792
1793 default:
1794 return setError(E_INVALIDARG, tr("CpuId override leaf %#x is out of range"), aId);
1795 }
1796 return S_OK;
1797}
1798
1799STDMETHODIMP Machine::RemoveCPUIDLeaf(ULONG aId)
1800{
1801 AutoCaller autoCaller(this);
1802 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1803
1804 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1805
1806 HRESULT rc = checkStateDependency(MutableStateDep);
1807 if (FAILED(rc)) return rc;
1808
1809 switch(aId)
1810 {
1811 case 0x0:
1812 case 0x1:
1813 case 0x2:
1814 case 0x3:
1815 case 0x4:
1816 case 0x5:
1817 case 0x6:
1818 case 0x7:
1819 case 0x8:
1820 case 0x9:
1821 case 0xA:
1822 AssertCompile(RT_ELEMENTS(mHWData->mCpuIdStdLeafs) == 0xA);
1823 AssertRelease(aId < RT_ELEMENTS(mHWData->mCpuIdStdLeafs));
1824 setModified(IsModified_MachineData);
1825 mHWData.backup();
1826 /* Invalidate leaf. */
1827 mHWData->mCpuIdStdLeafs[aId].ulId = UINT32_MAX;
1828 break;
1829
1830 case 0x80000000:
1831 case 0x80000001:
1832 case 0x80000002:
1833 case 0x80000003:
1834 case 0x80000004:
1835 case 0x80000005:
1836 case 0x80000006:
1837 case 0x80000007:
1838 case 0x80000008:
1839 case 0x80000009:
1840 case 0x8000000A:
1841 AssertCompile(RT_ELEMENTS(mHWData->mCpuIdExtLeafs) == 0xA);
1842 AssertRelease(aId - 0x80000000 < RT_ELEMENTS(mHWData->mCpuIdExtLeafs));
1843 setModified(IsModified_MachineData);
1844 mHWData.backup();
1845 /* Invalidate leaf. */
1846 mHWData->mCpuIdExtLeafs[aId - 0x80000000].ulId = UINT32_MAX;
1847 break;
1848
1849 default:
1850 return setError(E_INVALIDARG, tr("CpuId override leaf %#x is out of range"), aId);
1851 }
1852 return S_OK;
1853}
1854
1855STDMETHODIMP Machine::RemoveAllCPUIDLeaves()
1856{
1857 AutoCaller autoCaller(this);
1858 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1859
1860 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1861
1862 HRESULT rc = checkStateDependency(MutableStateDep);
1863 if (FAILED(rc)) return rc;
1864
1865 setModified(IsModified_MachineData);
1866 mHWData.backup();
1867
1868 /* Invalidate all standard leafs. */
1869 for (unsigned i = 0; i < RT_ELEMENTS(mHWData->mCpuIdStdLeafs); i++)
1870 mHWData->mCpuIdStdLeafs[i].ulId = UINT32_MAX;
1871
1872 /* Invalidate all extended leafs. */
1873 for (unsigned i = 0; i < RT_ELEMENTS(mHWData->mCpuIdExtLeafs); i++)
1874 mHWData->mCpuIdExtLeafs[i].ulId = UINT32_MAX;
1875
1876 return S_OK;
1877}
1878
1879STDMETHODIMP Machine::GetHWVirtExProperty(HWVirtExPropertyType_T property, BOOL *aVal)
1880{
1881 if (!aVal)
1882 return E_POINTER;
1883
1884 AutoCaller autoCaller(this);
1885 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1886
1887 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1888
1889 switch(property)
1890 {
1891 case HWVirtExPropertyType_Enabled:
1892 *aVal = mHWData->mHWVirtExEnabled;
1893 break;
1894
1895 case HWVirtExPropertyType_Exclusive:
1896 *aVal = mHWData->mHWVirtExExclusive;
1897 break;
1898
1899 case HWVirtExPropertyType_VPID:
1900 *aVal = mHWData->mHWVirtExVPIDEnabled;
1901 break;
1902
1903 case HWVirtExPropertyType_NestedPaging:
1904 *aVal = mHWData->mHWVirtExNestedPagingEnabled;
1905 break;
1906
1907 case HWVirtExPropertyType_LargePages:
1908 *aVal = mHWData->mHWVirtExLargePagesEnabled;
1909 break;
1910
1911 default:
1912 return E_INVALIDARG;
1913 }
1914 return S_OK;
1915}
1916
1917STDMETHODIMP Machine::SetHWVirtExProperty(HWVirtExPropertyType_T property, BOOL aVal)
1918{
1919 AutoCaller autoCaller(this);
1920 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1921
1922 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1923
1924 HRESULT rc = checkStateDependency(MutableStateDep);
1925 if (FAILED(rc)) return rc;
1926
1927 switch(property)
1928 {
1929 case HWVirtExPropertyType_Enabled:
1930 setModified(IsModified_MachineData);
1931 mHWData.backup();
1932 mHWData->mHWVirtExEnabled = !!aVal;
1933 break;
1934
1935 case HWVirtExPropertyType_Exclusive:
1936 setModified(IsModified_MachineData);
1937 mHWData.backup();
1938 mHWData->mHWVirtExExclusive = !!aVal;
1939 break;
1940
1941 case HWVirtExPropertyType_VPID:
1942 setModified(IsModified_MachineData);
1943 mHWData.backup();
1944 mHWData->mHWVirtExVPIDEnabled = !!aVal;
1945 break;
1946
1947 case HWVirtExPropertyType_NestedPaging:
1948 setModified(IsModified_MachineData);
1949 mHWData.backup();
1950 mHWData->mHWVirtExNestedPagingEnabled = !!aVal;
1951 break;
1952
1953 case HWVirtExPropertyType_LargePages:
1954 setModified(IsModified_MachineData);
1955 mHWData.backup();
1956 mHWData->mHWVirtExLargePagesEnabled = !!aVal;
1957 break;
1958
1959 default:
1960 return E_INVALIDARG;
1961 }
1962
1963 return S_OK;
1964}
1965
1966STDMETHODIMP Machine::COMGETTER(SnapshotFolder)(BSTR *aSnapshotFolder)
1967{
1968 CheckComArgOutPointerValid(aSnapshotFolder);
1969
1970 AutoCaller autoCaller(this);
1971 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1972
1973 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
1974
1975 mUserData->mSnapshotFolderFull.cloneTo(aSnapshotFolder);
1976
1977 return S_OK;
1978}
1979
1980STDMETHODIMP Machine::COMSETTER(SnapshotFolder)(IN_BSTR aSnapshotFolder)
1981{
1982 /* @todo (r=dmik):
1983 * 1. Allow to change the name of the snapshot folder containing snapshots
1984 * 2. Rename the folder on disk instead of just changing the property
1985 * value (to be smart and not to leave garbage). Note that it cannot be
1986 * done here because the change may be rolled back. Thus, the right
1987 * place is #saveSettings().
1988 */
1989
1990 AutoCaller autoCaller(this);
1991 if (FAILED(autoCaller.rc())) return autoCaller.rc();
1992
1993 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
1994
1995 HRESULT rc = checkStateDependency(MutableStateDep);
1996 if (FAILED(rc)) return rc;
1997
1998 if (!mData->mCurrentSnapshot.isNull())
1999 return setError(E_FAIL,
2000 tr("The snapshot folder of a machine with snapshots cannot be changed (please delete all snapshots first)"));
2001
2002 Utf8Str snapshotFolder = aSnapshotFolder;
2003
2004 if (snapshotFolder.isEmpty())
2005 {
2006 if (isInOwnDir())
2007 {
2008 /* the default snapshots folder is 'Snapshots' in the machine dir */
2009 snapshotFolder = "Snapshots";
2010 }
2011 else
2012 {
2013 /* the default snapshots folder is {UUID}, for backwards
2014 * compatibility and to resolve conflicts */
2015 snapshotFolder = Utf8StrFmt("{%RTuuid}", mData->mUuid.raw());
2016 }
2017 }
2018
2019 int vrc = calculateFullPath(snapshotFolder, snapshotFolder);
2020 if (RT_FAILURE(vrc))
2021 return setError(E_FAIL,
2022 tr("Invalid snapshot folder '%ls' (%Rrc)"),
2023 aSnapshotFolder, vrc);
2024
2025 setModified(IsModified_MachineData);
2026 mUserData.backup();
2027 mUserData->mSnapshotFolder = aSnapshotFolder;
2028 mUserData->mSnapshotFolderFull = snapshotFolder;
2029
2030 return S_OK;
2031}
2032
2033STDMETHODIMP Machine::COMGETTER(MediumAttachments)(ComSafeArrayOut(IMediumAttachment*, aAttachments))
2034{
2035 if (ComSafeArrayOutIsNull(aAttachments))
2036 return E_POINTER;
2037
2038 AutoCaller autoCaller(this);
2039 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2040
2041 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2042
2043 SafeIfaceArray<IMediumAttachment> attachments(mMediaData->mAttachments);
2044 attachments.detachTo(ComSafeArrayOutArg(aAttachments));
2045
2046 return S_OK;
2047}
2048
2049STDMETHODIMP Machine::COMGETTER(VRDPServer)(IVRDPServer **vrdpServer)
2050{
2051#ifdef VBOX_WITH_VRDP
2052 if (!vrdpServer)
2053 return E_POINTER;
2054
2055 AutoCaller autoCaller(this);
2056 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2057
2058 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2059
2060 Assert(!!mVRDPServer);
2061 mVRDPServer.queryInterfaceTo(vrdpServer);
2062
2063 return S_OK;
2064#else
2065 NOREF(vrdpServer);
2066 ReturnComNotImplemented();
2067#endif
2068}
2069
2070STDMETHODIMP Machine::COMGETTER(AudioAdapter)(IAudioAdapter **audioAdapter)
2071{
2072 if (!audioAdapter)
2073 return E_POINTER;
2074
2075 AutoCaller autoCaller(this);
2076 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2077
2078 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2079
2080 mAudioAdapter.queryInterfaceTo(audioAdapter);
2081 return S_OK;
2082}
2083
2084STDMETHODIMP Machine::COMGETTER(USBController)(IUSBController **aUSBController)
2085{
2086#ifdef VBOX_WITH_VUSB
2087 CheckComArgOutPointerValid(aUSBController);
2088
2089 AutoCaller autoCaller(this);
2090 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2091 MultiResult rc(S_OK);
2092
2093# ifdef VBOX_WITH_USB
2094 rc = mParent->host()->checkUSBProxyService();
2095 if (FAILED(rc)) return rc;
2096# endif
2097
2098 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2099
2100 return rc = mUSBController.queryInterfaceTo(aUSBController);
2101#else
2102 /* Note: The GUI depends on this method returning E_NOTIMPL with no
2103 * extended error info to indicate that USB is simply not available
2104 * (w/o treting it as a failure), for example, as in OSE */
2105 NOREF(aUSBController);
2106 ReturnComNotImplemented();
2107#endif /* VBOX_WITH_VUSB */
2108}
2109
2110STDMETHODIMP Machine::COMGETTER(SettingsFilePath)(BSTR *aFilePath)
2111{
2112 CheckComArgOutPointerValid(aFilePath);
2113
2114 AutoLimitedCaller autoCaller(this);
2115 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2116
2117 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2118
2119 mData->m_strConfigFileFull.cloneTo(aFilePath);
2120 return S_OK;
2121}
2122
2123STDMETHODIMP Machine::COMGETTER(SettingsModified)(BOOL *aModified)
2124{
2125 CheckComArgOutPointerValid(aModified);
2126
2127 AutoCaller autoCaller(this);
2128 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2129
2130 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2131
2132 HRESULT rc = checkStateDependency(MutableStateDep);
2133 if (FAILED(rc)) return rc;
2134
2135 if (!mData->pMachineConfigFile->fileExists())
2136 // this is a new machine, and no config file exists yet:
2137 *aModified = TRUE;
2138 else
2139 *aModified = (mData->flModifications != 0);
2140
2141 return S_OK;
2142}
2143
2144STDMETHODIMP Machine::COMGETTER(SessionState)(SessionState_T *aSessionState)
2145{
2146 CheckComArgOutPointerValid(aSessionState);
2147
2148 AutoCaller autoCaller(this);
2149 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2150
2151 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2152
2153 *aSessionState = mData->mSession.mState;
2154
2155 return S_OK;
2156}
2157
2158STDMETHODIMP Machine::COMGETTER(SessionType)(BSTR *aSessionType)
2159{
2160 CheckComArgOutPointerValid(aSessionType);
2161
2162 AutoCaller autoCaller(this);
2163 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2164
2165 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2166
2167 mData->mSession.mType.cloneTo(aSessionType);
2168
2169 return S_OK;
2170}
2171
2172STDMETHODIMP Machine::COMGETTER(SessionPid)(ULONG *aSessionPid)
2173{
2174 CheckComArgOutPointerValid(aSessionPid);
2175
2176 AutoCaller autoCaller(this);
2177 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2178
2179 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2180
2181 *aSessionPid = mData->mSession.mPid;
2182
2183 return S_OK;
2184}
2185
2186STDMETHODIMP Machine::COMGETTER(State)(MachineState_T *machineState)
2187{
2188 if (!machineState)
2189 return E_POINTER;
2190
2191 AutoCaller autoCaller(this);
2192 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2193
2194 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2195
2196 *machineState = mData->mMachineState;
2197
2198 return S_OK;
2199}
2200
2201STDMETHODIMP Machine::COMGETTER(LastStateChange)(LONG64 *aLastStateChange)
2202{
2203 CheckComArgOutPointerValid(aLastStateChange);
2204
2205 AutoCaller autoCaller(this);
2206 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2207
2208 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2209
2210 *aLastStateChange = RTTimeSpecGetMilli(&mData->mLastStateChange);
2211
2212 return S_OK;
2213}
2214
2215STDMETHODIMP Machine::COMGETTER(StateFilePath)(BSTR *aStateFilePath)
2216{
2217 CheckComArgOutPointerValid(aStateFilePath);
2218
2219 AutoCaller autoCaller(this);
2220 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2221
2222 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2223
2224 mSSData->mStateFilePath.cloneTo(aStateFilePath);
2225
2226 return S_OK;
2227}
2228
2229STDMETHODIMP Machine::COMGETTER(LogFolder)(BSTR *aLogFolder)
2230{
2231 CheckComArgOutPointerValid(aLogFolder);
2232
2233 AutoCaller autoCaller(this);
2234 AssertComRCReturnRC(autoCaller.rc());
2235
2236 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2237
2238 Utf8Str logFolder;
2239 getLogFolder(logFolder);
2240
2241 Bstr (logFolder).cloneTo(aLogFolder);
2242
2243 return S_OK;
2244}
2245
2246STDMETHODIMP Machine::COMGETTER(CurrentSnapshot) (ISnapshot **aCurrentSnapshot)
2247{
2248 CheckComArgOutPointerValid(aCurrentSnapshot);
2249
2250 AutoCaller autoCaller(this);
2251 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2252
2253 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2254
2255 mData->mCurrentSnapshot.queryInterfaceTo(aCurrentSnapshot);
2256
2257 return S_OK;
2258}
2259
2260STDMETHODIMP Machine::COMGETTER(SnapshotCount)(ULONG *aSnapshotCount)
2261{
2262 CheckComArgOutPointerValid(aSnapshotCount);
2263
2264 AutoCaller autoCaller(this);
2265 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2266
2267 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2268
2269 *aSnapshotCount = mData->mFirstSnapshot.isNull()
2270 ? 0
2271 : mData->mFirstSnapshot->getAllChildrenCount() + 1;
2272
2273 return S_OK;
2274}
2275
2276STDMETHODIMP Machine::COMGETTER(CurrentStateModified)(BOOL *aCurrentStateModified)
2277{
2278 CheckComArgOutPointerValid(aCurrentStateModified);
2279
2280 AutoCaller autoCaller(this);
2281 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2282
2283 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2284
2285 /* Note: for machines with no snapshots, we always return FALSE
2286 * (mData->mCurrentStateModified will be TRUE in this case, for historical
2287 * reasons :) */
2288
2289 *aCurrentStateModified = mData->mFirstSnapshot.isNull()
2290 ? FALSE
2291 : mData->mCurrentStateModified;
2292
2293 return S_OK;
2294}
2295
2296STDMETHODIMP Machine::COMGETTER(SharedFolders)(ComSafeArrayOut(ISharedFolder *, aSharedFolders))
2297{
2298 CheckComArgOutSafeArrayPointerValid(aSharedFolders);
2299
2300 AutoCaller autoCaller(this);
2301 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2302
2303 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2304
2305 SafeIfaceArray<ISharedFolder> folders(mHWData->mSharedFolders);
2306 folders.detachTo(ComSafeArrayOutArg(aSharedFolders));
2307
2308 return S_OK;
2309}
2310
2311STDMETHODIMP Machine::COMGETTER(ClipboardMode)(ClipboardMode_T *aClipboardMode)
2312{
2313 CheckComArgOutPointerValid(aClipboardMode);
2314
2315 AutoCaller autoCaller(this);
2316 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2317
2318 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2319
2320 *aClipboardMode = mHWData->mClipboardMode;
2321
2322 return S_OK;
2323}
2324
2325STDMETHODIMP
2326Machine::COMSETTER(ClipboardMode)(ClipboardMode_T aClipboardMode)
2327{
2328 AutoCaller autoCaller(this);
2329 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2330
2331 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2332
2333 HRESULT rc = checkStateDependency(MutableStateDep);
2334 if (FAILED(rc)) return rc;
2335
2336 setModified(IsModified_MachineData);
2337 mHWData.backup();
2338 mHWData->mClipboardMode = aClipboardMode;
2339
2340 return S_OK;
2341}
2342
2343STDMETHODIMP
2344Machine::COMGETTER(GuestPropertyNotificationPatterns)(BSTR *aPatterns)
2345{
2346 CheckComArgOutPointerValid(aPatterns);
2347
2348 AutoCaller autoCaller(this);
2349 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2350
2351 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2352
2353 try
2354 {
2355 mHWData->mGuestPropertyNotificationPatterns.cloneTo(aPatterns);
2356 }
2357 catch (...)
2358 {
2359 return VirtualBox::handleUnexpectedExceptions(RT_SRC_POS);
2360 }
2361
2362 return S_OK;
2363}
2364
2365STDMETHODIMP
2366Machine::COMSETTER(GuestPropertyNotificationPatterns)(IN_BSTR aPatterns)
2367{
2368 AutoCaller autoCaller(this);
2369 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2370
2371 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2372
2373 HRESULT rc = checkStateDependency(MutableStateDep);
2374 if (FAILED(rc)) return rc;
2375
2376 setModified(IsModified_MachineData);
2377 mHWData.backup();
2378 mHWData->mGuestPropertyNotificationPatterns = aPatterns;
2379 return rc;
2380}
2381
2382STDMETHODIMP
2383Machine::COMGETTER(StorageControllers)(ComSafeArrayOut(IStorageController *, aStorageControllers))
2384{
2385 CheckComArgOutSafeArrayPointerValid(aStorageControllers);
2386
2387 AutoCaller autoCaller(this);
2388 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2389
2390 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2391
2392 SafeIfaceArray<IStorageController> ctrls(*mStorageControllers.data());
2393 ctrls.detachTo(ComSafeArrayOutArg(aStorageControllers));
2394
2395 return S_OK;
2396}
2397
2398STDMETHODIMP
2399Machine::COMGETTER(TeleporterEnabled)(BOOL *aEnabled)
2400{
2401 CheckComArgOutPointerValid(aEnabled);
2402
2403 AutoCaller autoCaller(this);
2404 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2405
2406 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2407
2408 *aEnabled = mUserData->mTeleporterEnabled;
2409
2410 return S_OK;
2411}
2412
2413STDMETHODIMP Machine::COMSETTER(TeleporterEnabled)(BOOL aEnabled)
2414{
2415 AutoCaller autoCaller(this);
2416 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2417
2418 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2419
2420 /* Only allow it to be set to true when PoweredOff or Aborted.
2421 (Clearing it is always permitted.) */
2422 if ( aEnabled
2423 && mData->mRegistered
2424 && ( getClassID() != clsidSessionMachine
2425 || ( mData->mMachineState != MachineState_PoweredOff
2426 && mData->mMachineState != MachineState_Teleported
2427 && mData->mMachineState != MachineState_Aborted
2428 )
2429 )
2430 )
2431 return setError(VBOX_E_INVALID_VM_STATE,
2432 tr("The machine is not powered off (state is %s)"),
2433 Global::stringifyMachineState(mData->mMachineState));
2434
2435 setModified(IsModified_MachineData);
2436 mUserData.backup();
2437 mUserData->mTeleporterEnabled = aEnabled;
2438
2439 return S_OK;
2440}
2441
2442STDMETHODIMP Machine::COMGETTER(TeleporterPort)(ULONG *aPort)
2443{
2444 CheckComArgOutPointerValid(aPort);
2445
2446 AutoCaller autoCaller(this);
2447 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2448
2449 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2450
2451 *aPort = mUserData->mTeleporterPort;
2452
2453 return S_OK;
2454}
2455
2456STDMETHODIMP Machine::COMSETTER(TeleporterPort)(ULONG aPort)
2457{
2458 if (aPort >= _64K)
2459 return setError(E_INVALIDARG, tr("Invalid port number %d"), aPort);
2460
2461 AutoCaller autoCaller(this);
2462 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2463
2464 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2465
2466 HRESULT rc = checkStateDependency(MutableStateDep);
2467 if (FAILED(rc)) return rc;
2468
2469 setModified(IsModified_MachineData);
2470 mUserData.backup();
2471 mUserData->mTeleporterPort = aPort;
2472
2473 return S_OK;
2474}
2475
2476STDMETHODIMP Machine::COMGETTER(TeleporterAddress)(BSTR *aAddress)
2477{
2478 CheckComArgOutPointerValid(aAddress);
2479
2480 AutoCaller autoCaller(this);
2481 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2482
2483 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2484
2485 mUserData->mTeleporterAddress.cloneTo(aAddress);
2486
2487 return S_OK;
2488}
2489
2490STDMETHODIMP Machine::COMSETTER(TeleporterAddress)(IN_BSTR aAddress)
2491{
2492 AutoCaller autoCaller(this);
2493 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2494
2495 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2496
2497 HRESULT rc = checkStateDependency(MutableStateDep);
2498 if (FAILED(rc)) return rc;
2499
2500 setModified(IsModified_MachineData);
2501 mUserData.backup();
2502 mUserData->mTeleporterAddress = aAddress;
2503
2504 return S_OK;
2505}
2506
2507STDMETHODIMP Machine::COMGETTER(TeleporterPassword)(BSTR *aPassword)
2508{
2509 CheckComArgOutPointerValid(aPassword);
2510
2511 AutoCaller autoCaller(this);
2512 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2513
2514 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2515
2516 mUserData->mTeleporterPassword.cloneTo(aPassword);
2517
2518 return S_OK;
2519}
2520
2521STDMETHODIMP Machine::COMSETTER(TeleporterPassword)(IN_BSTR aPassword)
2522{
2523 AutoCaller autoCaller(this);
2524 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2525
2526 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2527
2528 HRESULT rc = checkStateDependency(MutableStateDep);
2529 if (FAILED(rc)) return rc;
2530
2531 setModified(IsModified_MachineData);
2532 mUserData.backup();
2533 mUserData->mTeleporterPassword = aPassword;
2534
2535 return S_OK;
2536}
2537
2538STDMETHODIMP Machine::COMGETTER(RTCUseUTC)(BOOL *aEnabled)
2539{
2540 CheckComArgOutPointerValid(aEnabled);
2541
2542 AutoCaller autoCaller(this);
2543 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2544
2545 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2546
2547 *aEnabled = mUserData->mRTCUseUTC;
2548
2549 return S_OK;
2550}
2551
2552STDMETHODIMP Machine::COMSETTER(RTCUseUTC)(BOOL aEnabled)
2553{
2554 AutoCaller autoCaller(this);
2555 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2556
2557 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2558
2559 /* Only allow it to be set to true when PoweredOff or Aborted.
2560 (Clearing it is always permitted.) */
2561 if ( aEnabled
2562 && mData->mRegistered
2563 && ( getClassID() != clsidSessionMachine
2564 || ( mData->mMachineState != MachineState_PoweredOff
2565 && mData->mMachineState != MachineState_Teleported
2566 && mData->mMachineState != MachineState_Aborted
2567 )
2568 )
2569 )
2570 return setError(VBOX_E_INVALID_VM_STATE,
2571 tr("The machine is not powered off (state is %s)"),
2572 Global::stringifyMachineState(mData->mMachineState));
2573
2574 setModified(IsModified_MachineData);
2575 mUserData.backup();
2576 mUserData->mRTCUseUTC = aEnabled;
2577
2578 return S_OK;
2579}
2580
2581STDMETHODIMP Machine::COMGETTER(IoCacheEnabled)(BOOL *aEnabled)
2582{
2583 CheckComArgOutPointerValid(aEnabled);
2584
2585 AutoCaller autoCaller(this);
2586 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2587
2588 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2589
2590 *aEnabled = mHWData->mIoCacheEnabled;
2591
2592 return S_OK;
2593}
2594
2595STDMETHODIMP Machine::COMSETTER(IoCacheEnabled)(BOOL aEnabled)
2596{
2597 AutoCaller autoCaller(this);
2598 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2599
2600 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2601
2602 HRESULT rc = checkStateDependency(MutableStateDep);
2603 if (FAILED(rc)) return rc;
2604
2605 setModified(IsModified_MachineData);
2606 mHWData.backup();
2607 mHWData->mIoCacheEnabled = aEnabled;
2608
2609 return S_OK;
2610}
2611
2612STDMETHODIMP Machine::COMGETTER(IoCacheSize)(ULONG *aIoCacheSize)
2613{
2614 CheckComArgOutPointerValid(aIoCacheSize);
2615
2616 AutoCaller autoCaller(this);
2617 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2618
2619 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2620
2621 *aIoCacheSize = mHWData->mIoCacheSize;
2622
2623 return S_OK;
2624}
2625
2626STDMETHODIMP Machine::COMSETTER(IoCacheSize)(ULONG aIoCacheSize)
2627{
2628 AutoCaller autoCaller(this);
2629 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2630
2631 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2632
2633 HRESULT rc = checkStateDependency(MutableStateDep);
2634 if (FAILED(rc)) return rc;
2635
2636 setModified(IsModified_MachineData);
2637 mHWData.backup();
2638 mHWData->mIoCacheSize = aIoCacheSize;
2639
2640 return S_OK;
2641}
2642
2643STDMETHODIMP Machine::COMGETTER(IoBandwidthMax)(ULONG *aIoBandwidthMax)
2644{
2645 CheckComArgOutPointerValid(aIoBandwidthMax);
2646
2647 AutoCaller autoCaller(this);
2648 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2649
2650 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2651
2652 *aIoBandwidthMax = mHWData->mIoBandwidthMax;
2653
2654 return S_OK;
2655}
2656
2657STDMETHODIMP Machine::COMSETTER(IoBandwidthMax)(ULONG aIoBandwidthMax)
2658{
2659 AutoCaller autoCaller(this);
2660 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2661
2662 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2663
2664 HRESULT rc = checkStateDependency(MutableStateDep);
2665 if (FAILED(rc)) return rc;
2666
2667 setModified(IsModified_MachineData);
2668 mHWData.backup();
2669 mHWData->mIoBandwidthMax = aIoBandwidthMax;
2670
2671 return S_OK;
2672}
2673
2674STDMETHODIMP Machine::SetBootOrder(ULONG aPosition, DeviceType_T aDevice)
2675{
2676 if (aPosition < 1 || aPosition > SchemaDefs::MaxBootPosition)
2677 return setError(E_INVALIDARG,
2678 tr("Invalid boot position: %lu (must be in range [1, %lu])"),
2679 aPosition, SchemaDefs::MaxBootPosition);
2680
2681 if (aDevice == DeviceType_USB)
2682 return setError(E_NOTIMPL,
2683 tr("Booting from USB device is currently not supported"));
2684
2685 AutoCaller autoCaller(this);
2686 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2687
2688 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
2689
2690 HRESULT rc = checkStateDependency(MutableStateDep);
2691 if (FAILED(rc)) return rc;
2692
2693 setModified(IsModified_MachineData);
2694 mHWData.backup();
2695 mHWData->mBootOrder[aPosition - 1] = aDevice;
2696
2697 return S_OK;
2698}
2699
2700STDMETHODIMP Machine::GetBootOrder(ULONG aPosition, DeviceType_T *aDevice)
2701{
2702 if (aPosition < 1 || aPosition > SchemaDefs::MaxBootPosition)
2703 return setError(E_INVALIDARG,
2704 tr("Invalid boot position: %lu (must be in range [1, %lu])"),
2705 aPosition, SchemaDefs::MaxBootPosition);
2706
2707 AutoCaller autoCaller(this);
2708 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2709
2710 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
2711
2712 *aDevice = mHWData->mBootOrder[aPosition - 1];
2713
2714 return S_OK;
2715}
2716
2717STDMETHODIMP Machine::AttachDevice(IN_BSTR aControllerName,
2718 LONG aControllerPort,
2719 LONG aDevice,
2720 DeviceType_T aType,
2721 IN_BSTR aId)
2722{
2723 LogFlowThisFunc(("aControllerName=\"%ls\" aControllerPort=%d aDevice=%d aType=%d aId=\"%ls\"\n",
2724 aControllerName, aControllerPort, aDevice, aType, aId));
2725
2726 CheckComArgStrNotEmptyOrNull(aControllerName);
2727
2728 AutoCaller autoCaller(this);
2729 if (FAILED(autoCaller.rc())) return autoCaller.rc();
2730
2731 // if this becomes true then we need to call saveSettings in the end
2732 // @todo r=dj there is no error handling so far...
2733 bool fNeedsSaveSettings = false;
2734
2735 // request the host lock first, since might be calling Host methods for getting host drives;
2736 // next, protect the media tree all the while we're in here, as well as our member variables
2737 AutoMultiWriteLock2 alock(mParent->host()->lockHandle(),
2738 this->lockHandle() COMMA_LOCKVAL_SRC_POS);
2739 AutoWriteLock treeLock(&mParent->getMediaTreeLockHandle() COMMA_LOCKVAL_SRC_POS);
2740
2741 HRESULT rc = checkStateDependency(MutableStateDep);
2742 if (FAILED(rc)) return rc;
2743
2744 /// @todo NEWMEDIA implicit machine registration
2745 if (!mData->mRegistered)
2746 return setError(VBOX_E_INVALID_OBJECT_STATE,
2747 tr("Cannot attach storage devices to an unregistered machine"));
2748
2749 AssertReturn(mData->mMachineState != MachineState_Saved, E_FAIL);
2750
2751 if (Global::IsOnlineOrTransient(mData->mMachineState))
2752 return setError(VBOX_E_INVALID_VM_STATE,
2753 tr("Invalid machine state: %s"),
2754 Global::stringifyMachineState(mData->mMachineState));
2755
2756 /* Check for an existing controller. */
2757 ComObjPtr<StorageController> ctl;
2758 rc = getStorageControllerByName(aControllerName, ctl, true /* aSetError */);
2759 if (FAILED(rc)) return rc;
2760
2761 /* check that the port and device are not out of range. */
2762 ULONG portCount;
2763 ULONG devicesPerPort;
2764 rc = ctl->COMGETTER(PortCount)(&portCount);
2765 if (FAILED(rc)) return rc;
2766 rc = ctl->COMGETTER(MaxDevicesPerPortCount)(&devicesPerPort);
2767 if (FAILED(rc)) return rc;
2768
2769 if ( (aControllerPort < 0)
2770 || (aControllerPort >= (LONG)portCount)
2771 || (aDevice < 0)
2772 || (aDevice >= (LONG)devicesPerPort)
2773 )
2774 return setError(E_INVALIDARG,
2775 tr("The port and/or count parameter are out of range [%lu:%lu]"),
2776 portCount,
2777 devicesPerPort);
2778
2779 /* check if the device slot is already busy */
2780 MediumAttachment *pAttachTemp;
2781 if ((pAttachTemp = findAttachment(mMediaData->mAttachments,
2782 aControllerName,
2783 aControllerPort,
2784 aDevice)))
2785 {
2786 Medium *pMedium = pAttachTemp->getMedium();
2787 if (pMedium)
2788 {
2789 AutoReadLock mediumLock(pMedium COMMA_LOCKVAL_SRC_POS);
2790 return setError(VBOX_E_OBJECT_IN_USE,
2791 tr("Medium '%s' is already attached to port %d, device %d of controller '%ls' of this virtual machine"),
2792 pMedium->getLocationFull().raw(),
2793 aControllerPort,
2794 aDevice,
2795 aControllerName);
2796 }
2797 else
2798 return setError(VBOX_E_OBJECT_IN_USE,
2799 tr("Device is already attached to port %d, device %d of controller '%ls' of this virtual machine"),
2800 aControllerPort, aDevice, aControllerName);
2801 }
2802
2803 Guid uuid(aId);
2804
2805 ComObjPtr<Medium> medium;
2806
2807 switch (aType)
2808 {
2809 case DeviceType_HardDisk:
2810 /* find a hard disk by UUID */
2811 rc = mParent->findHardDisk(&uuid, NULL, true /* aSetError */, &medium);
2812 if (FAILED(rc)) return rc;
2813 break;
2814
2815 case DeviceType_DVD: // @todo r=dj eliminate this, replace with findDVDImage
2816 if (!uuid.isEmpty())
2817 {
2818 /* first search for host drive */
2819 SafeIfaceArray<IMedium> drivevec;
2820 rc = mParent->host()->COMGETTER(DVDDrives)(ComSafeArrayAsOutParam(drivevec));
2821 if (SUCCEEDED(rc))
2822 {
2823 for (size_t i = 0; i < drivevec.size(); ++i)
2824 {
2825 /// @todo eliminate this conversion
2826 ComObjPtr<Medium> med = (Medium *)drivevec[i];
2827 if (med->getId() == uuid)
2828 {
2829 medium = med;
2830 break;
2831 }
2832 }
2833 }
2834
2835 if (medium.isNull())
2836 {
2837 /* find a DVD image by UUID */
2838 rc = mParent->findDVDImage(&uuid, NULL, true /* aSetError */, &medium);
2839 if (FAILED(rc)) return rc;
2840 }
2841 }
2842 else
2843 {
2844 /* null UUID means null medium, which needs no code */
2845 }
2846 break;
2847
2848 case DeviceType_Floppy: // @todo r=dj eliminate this, replace with findFloppyImage
2849 if (!uuid.isEmpty())
2850 {
2851 /* first search for host drive */
2852 SafeIfaceArray<IMedium> drivevec;
2853 rc = mParent->host()->COMGETTER(FloppyDrives)(ComSafeArrayAsOutParam(drivevec));
2854 if (SUCCEEDED(rc))
2855 {
2856 for (size_t i = 0; i < drivevec.size(); ++i)
2857 {
2858 /// @todo eliminate this conversion
2859 ComObjPtr<Medium> med = (Medium *)drivevec[i];
2860 if (med->getId() == uuid)
2861 {
2862 medium = med;
2863 break;
2864 }
2865 }
2866 }
2867
2868 if (medium.isNull())
2869 {
2870 /* find a floppy image by UUID */
2871 rc = mParent->findFloppyImage(&uuid, NULL, true /* aSetError */, &medium);
2872 if (FAILED(rc)) return rc;
2873 }
2874 }
2875 else
2876 {
2877 /* null UUID means null medium, which needs no code */
2878 }
2879 break;
2880
2881 default:
2882 return setError(E_INVALIDARG,
2883 tr("The device type %d is not recognized"),
2884 (int)aType);
2885 }
2886
2887 AutoCaller mediumCaller(medium);
2888 if (FAILED(mediumCaller.rc())) return mediumCaller.rc();
2889
2890 AutoWriteLock mediumLock(medium COMMA_LOCKVAL_SRC_POS);
2891
2892 if ( (pAttachTemp = findAttachment(mMediaData->mAttachments, medium))
2893 && !medium.isNull()
2894 )
2895 return setError(VBOX_E_OBJECT_IN_USE,
2896 tr("Medium '%s' is already attached to this virtual machine"),
2897 medium->getLocationFull().raw());
2898
2899 bool indirect = false;
2900 if (!medium.isNull())
2901 indirect = medium->isReadOnly();
2902 bool associate = true;
2903
2904 do
2905 {
2906 if (aType == DeviceType_HardDisk && mMediaData.isBackedUp())
2907 {
2908 const MediaData::AttachmentList &oldAtts = mMediaData.backedUpData()->mAttachments;
2909
2910 /* check if the medium was attached to the VM before we started
2911 * changing attachments in which case the attachment just needs to
2912 * be restored */
2913 if ((pAttachTemp = findAttachment(oldAtts, medium)))
2914 {
2915 AssertReturn(!indirect, E_FAIL);
2916
2917 /* see if it's the same bus/channel/device */
2918 if (pAttachTemp->matches(aControllerName, aControllerPort, aDevice))
2919 {
2920 /* the simplest case: restore the whole attachment
2921 * and return, nothing else to do */
2922 mMediaData->mAttachments.push_back(pAttachTemp);
2923 return S_OK;
2924 }
2925
2926 /* bus/channel/device differ; we need a new attachment object,
2927 * but don't try to associate it again */
2928 associate = false;
2929 break;
2930 }
2931 }
2932
2933 /* go further only if the attachment is to be indirect */
2934 if (!indirect)
2935 break;
2936
2937 /* perform the so called smart attachment logic for indirect
2938 * attachments. Note that smart attachment is only applicable to base
2939 * hard disks. */
2940
2941 if (medium->getParent().isNull())
2942 {
2943 /* first, investigate the backup copy of the current hard disk
2944 * attachments to make it possible to re-attach existing diffs to
2945 * another device slot w/o losing their contents */
2946 if (mMediaData.isBackedUp())
2947 {
2948 const MediaData::AttachmentList &oldAtts = mMediaData.backedUpData()->mAttachments;
2949
2950 MediaData::AttachmentList::const_iterator foundIt = oldAtts.end();
2951 uint32_t foundLevel = 0;
2952
2953 for (MediaData::AttachmentList::const_iterator it = oldAtts.begin();
2954 it != oldAtts.end();
2955 ++it)
2956 {
2957 uint32_t level = 0;
2958 MediumAttachment *pAttach = *it;
2959 ComObjPtr<Medium> pMedium = pAttach->getMedium();
2960 Assert(!pMedium.isNull() || pAttach->getType() != DeviceType_HardDisk);
2961 if (pMedium.isNull())
2962 continue;
2963
2964 if (pMedium->getBase(&level).equalsTo(medium))
2965 {
2966 /* skip the hard disk if its currently attached (we
2967 * cannot attach the same hard disk twice) */
2968 if (findAttachment(mMediaData->mAttachments,
2969 pMedium))
2970 continue;
2971
2972 /* matched device, channel and bus (i.e. attached to the
2973 * same place) will win and immediately stop the search;
2974 * otherwise the attachment that has the youngest
2975 * descendant of medium will be used
2976 */
2977 if (pAttach->matches(aControllerName, aControllerPort, aDevice))
2978 {
2979 /* the simplest case: restore the whole attachment
2980 * and return, nothing else to do */
2981 mMediaData->mAttachments.push_back(*it);
2982 return S_OK;
2983 }
2984 else if ( foundIt == oldAtts.end()
2985 || level > foundLevel /* prefer younger */
2986 )
2987 {
2988 foundIt = it;
2989 foundLevel = level;
2990 }
2991 }
2992 }
2993
2994 if (foundIt != oldAtts.end())
2995 {
2996 /* use the previously attached hard disk */
2997 medium = (*foundIt)->getMedium();
2998 mediumCaller.attach(medium);
2999 if (FAILED(mediumCaller.rc())) return mediumCaller.rc();
3000 mediumLock.attach(medium);
3001 /* not implicit, doesn't require association with this VM */
3002 indirect = false;
3003 associate = false;
3004 /* go right to the MediumAttachment creation */
3005 break;
3006 }
3007 }
3008
3009 /* must give up the medium lock and medium tree lock as below we
3010 * go over snapshots, which needs a lock with higher lock order. */
3011 mediumLock.release();
3012 treeLock.release();
3013
3014 /* then, search through snapshots for the best diff in the given
3015 * hard disk's chain to base the new diff on */
3016
3017 ComObjPtr<Medium> base;
3018 ComObjPtr<Snapshot> snap = mData->mCurrentSnapshot;
3019 while (snap)
3020 {
3021 AutoReadLock snapLock(snap COMMA_LOCKVAL_SRC_POS);
3022
3023 const MediaData::AttachmentList &snapAtts = snap->getSnapshotMachine()->mMediaData->mAttachments;
3024
3025 MediaData::AttachmentList::const_iterator foundIt = snapAtts.end();
3026 uint32_t foundLevel = 0;
3027
3028 for (MediaData::AttachmentList::const_iterator it = snapAtts.begin();
3029 it != snapAtts.end();
3030 ++it)
3031 {
3032 MediumAttachment *pAttach = *it;
3033 ComObjPtr<Medium> pMedium = pAttach->getMedium();
3034 Assert(!pMedium.isNull() || pAttach->getType() != DeviceType_HardDisk);
3035 if (pMedium.isNull())
3036 continue;
3037
3038 uint32_t level = 0;
3039 if (pMedium->getBase(&level).equalsTo(medium))
3040 {
3041 /* matched device, channel and bus (i.e. attached to the
3042 * same place) will win and immediately stop the search;
3043 * otherwise the attachment that has the youngest
3044 * descendant of medium will be used
3045 */
3046 if ( (*it)->getDevice() == aDevice
3047 && (*it)->getPort() == aControllerPort
3048 && (*it)->getControllerName() == aControllerName
3049 )
3050 {
3051 foundIt = it;
3052 break;
3053 }
3054 else if ( foundIt == snapAtts.end()
3055 || level > foundLevel /* prefer younger */
3056 )
3057 {
3058 foundIt = it;
3059 foundLevel = level;
3060 }
3061 }
3062 }
3063
3064 if (foundIt != snapAtts.end())
3065 {
3066 base = (*foundIt)->getMedium();
3067 break;
3068 }
3069
3070 snap = snap->getParent();
3071 }
3072
3073 /* re-lock medium tree and the medium, as we need it below */
3074 treeLock.acquire();
3075 mediumLock.acquire();
3076
3077 /* found a suitable diff, use it as a base */
3078 if (!base.isNull())
3079 {
3080 medium = base;
3081 mediumCaller.attach(medium);
3082 if (FAILED(mediumCaller.rc())) return mediumCaller.rc();
3083 mediumLock.attach(medium);
3084 }
3085 }
3086
3087 ComObjPtr<Medium> diff;
3088 diff.createObject();
3089 rc = diff->init(mParent,
3090 medium->preferredDiffFormat().raw(),
3091 BstrFmt("%ls"RTPATH_SLASH_STR,
3092 mUserData->mSnapshotFolderFull.raw()).raw(),
3093 &fNeedsSaveSettings);
3094 if (FAILED(rc)) return rc;
3095
3096 /* Apply the normal locking logic to the entire chain. */
3097 MediumLockList *pMediumLockList(new MediumLockList());
3098 rc = diff->createMediumLockList(true /* fFailIfInaccessible */,
3099 true /* fMediumLockWrite */,
3100 medium,
3101 *pMediumLockList);
3102 if (FAILED(rc)) return rc;
3103 rc = pMediumLockList->Lock();
3104 if (FAILED(rc))
3105 return setError(rc,
3106 tr("Could not lock medium when creating diff '%s'"),
3107 diff->getLocationFull().c_str());
3108
3109 /* will leave the lock before the potentially lengthy operation, so
3110 * protect with the special state */
3111 MachineState_T oldState = mData->mMachineState;
3112 setMachineState(MachineState_SettingUp);
3113
3114 mediumLock.leave();
3115 treeLock.leave();
3116 alock.leave();
3117
3118 rc = medium->createDiffStorage(diff,
3119 MediumVariant_Standard,
3120 pMediumLockList,
3121 NULL /* aProgress */,
3122 true /* aWait */,
3123 &fNeedsSaveSettings);
3124
3125 alock.enter();
3126 treeLock.enter();
3127 mediumLock.enter();
3128
3129 setMachineState(oldState);
3130
3131 /* Unlock the media and free the associated memory. */
3132 delete pMediumLockList;
3133
3134 if (FAILED(rc)) return rc;
3135
3136 /* use the created diff for the actual attachment */
3137 medium = diff;
3138 mediumCaller.attach(medium);
3139 if (FAILED(mediumCaller.rc())) return mediumCaller.rc();
3140 mediumLock.attach(medium);
3141 }
3142 while (0);
3143
3144 ComObjPtr<MediumAttachment> attachment;
3145 attachment.createObject();
3146 rc = attachment->init(this, medium, aControllerName, aControllerPort, aDevice, aType, indirect);
3147 if (FAILED(rc)) return rc;
3148
3149 if (associate && !medium.isNull())
3150 {
3151 /* as the last step, associate the medium to the VM */
3152 rc = medium->attachTo(mData->mUuid);
3153 /* here we can fail because of Deleting, or being in process of
3154 * creating a Diff */
3155 if (FAILED(rc)) return rc;
3156 }
3157
3158 /* success: finally remember the attachment */
3159 setModified(IsModified_Storage);
3160 mMediaData.backup();
3161 mMediaData->mAttachments.push_back(attachment);
3162
3163 if (fNeedsSaveSettings)
3164 {
3165 // save the global settings; for that we should hold only the VirtualBox lock
3166 mediumLock.release();
3167 treeLock.leave();
3168 alock.release();
3169
3170 AutoWriteLock vboxLock(mParent COMMA_LOCKVAL_SRC_POS);
3171 mParent->saveSettings();
3172 }
3173
3174 return rc;
3175}
3176
3177STDMETHODIMP Machine::DetachDevice(IN_BSTR aControllerName, LONG aControllerPort,
3178 LONG aDevice)
3179{
3180 CheckComArgStrNotEmptyOrNull(aControllerName);
3181
3182 LogFlowThisFunc(("aControllerName=\"%ls\" aControllerPort=%ld aDevice=%ld\n",
3183 aControllerName, aControllerPort, aDevice));
3184
3185 AutoCaller autoCaller(this);
3186 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3187
3188 bool fNeedsSaveSettings = false;
3189
3190 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
3191
3192 HRESULT rc = checkStateDependency(MutableStateDep);
3193 if (FAILED(rc)) return rc;
3194
3195 AssertReturn(mData->mMachineState != MachineState_Saved, E_FAIL);
3196
3197 if (Global::IsOnlineOrTransient(mData->mMachineState))
3198 return setError(VBOX_E_INVALID_VM_STATE,
3199 tr("Invalid machine state: %s"),
3200 Global::stringifyMachineState(mData->mMachineState));
3201
3202 MediumAttachment *pAttach = findAttachment(mMediaData->mAttachments,
3203 aControllerName,
3204 aControllerPort,
3205 aDevice);
3206 if (!pAttach)
3207 return setError(VBOX_E_OBJECT_NOT_FOUND,
3208 tr("No storage device attached to device slot %d on port %d of controller '%ls'"),
3209 aDevice, aControllerPort, aControllerName);
3210
3211 ComObjPtr<Medium> oldmedium = pAttach->getMedium();
3212 DeviceType_T mediumType = pAttach->getType();
3213
3214 if (pAttach->isImplicit())
3215 {
3216 /* attempt to implicitly delete the implicitly created diff */
3217
3218 /// @todo move the implicit flag from MediumAttachment to Medium
3219 /// and forbid any hard disk operation when it is implicit. Or maybe
3220 /// a special media state for it to make it even more simple.
3221
3222 Assert(mMediaData.isBackedUp());
3223
3224 /* will leave the lock before the potentially lengthy operation, so
3225 * protect with the special state */
3226 MachineState_T oldState = mData->mMachineState;
3227 setMachineState(MachineState_SettingUp);
3228
3229 alock.leave();
3230
3231 rc = oldmedium->deleteStorage(NULL /*aProgress*/, true /*aWait*/,
3232 &fNeedsSaveSettings);
3233
3234 alock.enter();
3235
3236 setMachineState(oldState);
3237
3238 if (FAILED(rc)) return rc;
3239 }
3240
3241 setModified(IsModified_Storage);
3242 mMediaData.backup();
3243
3244 /* we cannot use erase (it) below because backup() above will create
3245 * a copy of the list and make this copy active, but the iterator
3246 * still refers to the original and is not valid for the copy */
3247 mMediaData->mAttachments.remove(pAttach);
3248
3249 /* For non-hard disk media, detach straight away. */
3250 if (mediumType != DeviceType_HardDisk && !oldmedium.isNull())
3251 oldmedium->detachFrom(mData->mUuid);
3252
3253 if (fNeedsSaveSettings)
3254 {
3255 bool fNeedsGlobalSaveSettings = false;
3256 saveSettings(&fNeedsGlobalSaveSettings);
3257
3258 if (fNeedsGlobalSaveSettings)
3259 {
3260 // save the global settings; for that we should hold only the VirtualBox lock
3261 alock.release();
3262 AutoWriteLock vboxlock(this COMMA_LOCKVAL_SRC_POS);
3263 mParent->saveSettings();
3264 }
3265 }
3266
3267 return S_OK;
3268}
3269
3270STDMETHODIMP Machine::PassthroughDevice(IN_BSTR aControllerName, LONG aControllerPort,
3271 LONG aDevice, BOOL aPassthrough)
3272{
3273 CheckComArgStrNotEmptyOrNull(aControllerName);
3274
3275 LogFlowThisFunc(("aControllerName=\"%ls\" aControllerPort=%ld aDevice=%ld aPassthrough=%d\n",
3276 aControllerName, aControllerPort, aDevice, aPassthrough));
3277
3278 AutoCaller autoCaller(this);
3279 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3280
3281 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
3282
3283 HRESULT rc = checkStateDependency(MutableStateDep);
3284 if (FAILED(rc)) return rc;
3285
3286 AssertReturn(mData->mMachineState != MachineState_Saved, E_FAIL);
3287
3288 if (Global::IsOnlineOrTransient(mData->mMachineState))
3289 return setError(VBOX_E_INVALID_VM_STATE,
3290 tr("Invalid machine state: %s"),
3291 Global::stringifyMachineState(mData->mMachineState));
3292
3293 MediumAttachment *pAttach = findAttachment(mMediaData->mAttachments,
3294 aControllerName,
3295 aControllerPort,
3296 aDevice);
3297 if (!pAttach)
3298 return setError(VBOX_E_OBJECT_NOT_FOUND,
3299 tr("No storage device attached to device slot %d on port %d of controller '%ls'"),
3300 aDevice, aControllerPort, aControllerName);
3301
3302
3303 setModified(IsModified_Storage);
3304 mMediaData.backup();
3305
3306 AutoWriteLock attLock(pAttach COMMA_LOCKVAL_SRC_POS);
3307
3308 if (pAttach->getType() != DeviceType_DVD)
3309 return setError(E_INVALIDARG,
3310 tr("Setting passthrough rejected as the device attached to device slot %d on port %d of controller '%ls' is not a DVD"),
3311 aDevice, aControllerPort, aControllerName);
3312 pAttach->updatePassthrough(!!aPassthrough);
3313
3314 return S_OK;
3315}
3316
3317STDMETHODIMP Machine::MountMedium(IN_BSTR aControllerName,
3318 LONG aControllerPort,
3319 LONG aDevice,
3320 IN_BSTR aId,
3321 BOOL aForce)
3322{
3323 int rc = S_OK;
3324 LogFlowThisFunc(("aControllerName=\"%ls\" aControllerPort=%ld aDevice=%ld aForce=%d\n",
3325 aControllerName, aControllerPort, aDevice, aForce));
3326
3327 CheckComArgStrNotEmptyOrNull(aControllerName);
3328
3329 AutoCaller autoCaller(this);
3330 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3331
3332 // we're calling host methods for getting DVD and floppy drives so lock host first
3333 AutoMultiWriteLock2 alock(mParent->host(), this COMMA_LOCKVAL_SRC_POS);
3334
3335 ComObjPtr<MediumAttachment> pAttach = findAttachment(mMediaData->mAttachments,
3336 aControllerName,
3337 aControllerPort,
3338 aDevice);
3339 if (pAttach.isNull())
3340 return setError(VBOX_E_OBJECT_NOT_FOUND,
3341 tr("No drive attached to device slot %d on port %d of controller '%ls'"),
3342 aDevice, aControllerPort, aControllerName);
3343
3344 /* Remember previously mounted medium. The medium before taking the
3345 * backup is not necessarily the same thing. */
3346 ComObjPtr<Medium> oldmedium;
3347 oldmedium = pAttach->getMedium();
3348
3349 Guid uuid(aId);
3350 ComObjPtr<Medium> medium;
3351 DeviceType_T mediumType = pAttach->getType();
3352 switch (mediumType)
3353 {
3354 case DeviceType_DVD:
3355 if (!uuid.isEmpty())
3356 {
3357 /* find a DVD by host device UUID */
3358 MediaList llHostDVDDrives;
3359 rc = mParent->host()->getDVDDrives(llHostDVDDrives);
3360 if (SUCCEEDED(rc))
3361 {
3362 for (MediaList::iterator it = llHostDVDDrives.begin();
3363 it != llHostDVDDrives.end();
3364 ++it)
3365 {
3366 ComObjPtr<Medium> &p = *it;
3367 if (uuid == p->getId())
3368 {
3369 medium = p;
3370 break;
3371 }
3372 }
3373 }
3374 /* find a DVD by UUID */
3375 if (medium.isNull())
3376 rc = mParent->findDVDImage(&uuid, NULL, true /* aDoSetError */, &medium);
3377 }
3378 if (FAILED(rc)) return rc;
3379 break;
3380 case DeviceType_Floppy:
3381 if (!uuid.isEmpty())
3382 {
3383 /* find a Floppy by host device UUID */
3384 MediaList llHostFloppyDrives;
3385 rc = mParent->host()->getFloppyDrives(llHostFloppyDrives);
3386 if (SUCCEEDED(rc))
3387 {
3388 for (MediaList::iterator it = llHostFloppyDrives.begin();
3389 it != llHostFloppyDrives.end();
3390 ++it)
3391 {
3392 ComObjPtr<Medium> &p = *it;
3393 if (uuid == p->getId())
3394 {
3395 medium = p;
3396 break;
3397 }
3398 }
3399 }
3400 /* find a Floppy by UUID */
3401 if (medium.isNull())
3402 rc = mParent->findFloppyImage(&uuid, NULL, true /* aDoSetError */, &medium);
3403 }
3404 if (FAILED(rc)) return rc;
3405 break;
3406 default:
3407 return setError(VBOX_E_INVALID_OBJECT_STATE,
3408 tr("Cannot change medium attached to device slot %d on port %d of controller '%ls'"),
3409 aDevice, aControllerPort, aControllerName);
3410 }
3411
3412 if (SUCCEEDED(rc))
3413 {
3414 setModified(IsModified_Storage);
3415 mMediaData.backup();
3416
3417 /* The backup operation makes the pAttach reference point to the
3418 * old settings. Re-get the correct reference. */
3419 pAttach = findAttachment(mMediaData->mAttachments,
3420 aControllerName,
3421 aControllerPort,
3422 aDevice);
3423 AutoWriteLock attLock(pAttach COMMA_LOCKVAL_SRC_POS);
3424 /* For non-hard disk media, detach straight away. */
3425 if (mediumType != DeviceType_HardDisk && !oldmedium.isNull())
3426 oldmedium->detachFrom(mData->mUuid);
3427 if (!medium.isNull())
3428 medium->attachTo(mData->mUuid);
3429 pAttach->updateMedium(medium, false /* aImplicit */);
3430 setModified(IsModified_Storage);
3431 }
3432
3433 alock.leave();
3434 rc = onMediumChange(pAttach, aForce);
3435 alock.enter();
3436
3437 /* On error roll back this change only. */
3438 if (FAILED(rc))
3439 {
3440 if (!medium.isNull())
3441 medium->detachFrom(mData->mUuid);
3442 pAttach = findAttachment(mMediaData->mAttachments,
3443 aControllerName,
3444 aControllerPort,
3445 aDevice);
3446 /* If the attachment is gone in the mean time, bail out. */
3447 if (pAttach.isNull())
3448 return rc;
3449 AutoWriteLock attLock(pAttach COMMA_LOCKVAL_SRC_POS);
3450 /* For non-hard disk media, re-attach straight away. */
3451 if (mediumType != DeviceType_HardDisk && !oldmedium.isNull())
3452 oldmedium->attachTo(mData->mUuid);
3453 pAttach->updateMedium(oldmedium, false /* aImplicit */);
3454 }
3455
3456 return rc;
3457}
3458
3459STDMETHODIMP Machine::GetMedium(IN_BSTR aControllerName,
3460 LONG aControllerPort,
3461 LONG aDevice,
3462 IMedium **aMedium)
3463{
3464 LogFlowThisFunc(("aControllerName=\"%ls\" aControllerPort=%ld aDevice=%ld\n",
3465 aControllerName, aControllerPort, aDevice));
3466
3467 CheckComArgStrNotEmptyOrNull(aControllerName);
3468 CheckComArgOutPointerValid(aMedium);
3469
3470 AutoCaller autoCaller(this);
3471 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3472
3473 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3474
3475 *aMedium = NULL;
3476
3477 ComObjPtr<MediumAttachment> pAttach = findAttachment(mMediaData->mAttachments,
3478 aControllerName,
3479 aControllerPort,
3480 aDevice);
3481 if (pAttach.isNull())
3482 return setError(VBOX_E_OBJECT_NOT_FOUND,
3483 tr("No storage device attached to device slot %d on port %d of controller '%ls'"),
3484 aDevice, aControllerPort, aControllerName);
3485
3486 pAttach->getMedium().queryInterfaceTo(aMedium);
3487
3488 return S_OK;
3489}
3490
3491STDMETHODIMP Machine::GetSerialPort(ULONG slot, ISerialPort **port)
3492{
3493 CheckComArgOutPointerValid(port);
3494 CheckComArgExpr(slot, slot < RT_ELEMENTS(mSerialPorts));
3495
3496 AutoCaller autoCaller(this);
3497 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3498
3499 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3500
3501 mSerialPorts[slot].queryInterfaceTo(port);
3502
3503 return S_OK;
3504}
3505
3506STDMETHODIMP Machine::GetParallelPort(ULONG slot, IParallelPort **port)
3507{
3508 CheckComArgOutPointerValid(port);
3509 CheckComArgExpr(slot, slot < RT_ELEMENTS(mParallelPorts));
3510
3511 AutoCaller autoCaller(this);
3512 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3513
3514 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3515
3516 mParallelPorts[slot].queryInterfaceTo(port);
3517
3518 return S_OK;
3519}
3520
3521STDMETHODIMP Machine::GetNetworkAdapter(ULONG slot, INetworkAdapter **adapter)
3522{
3523 CheckComArgOutPointerValid(adapter);
3524 CheckComArgExpr(slot, slot < RT_ELEMENTS(mNetworkAdapters));
3525
3526 AutoCaller autoCaller(this);
3527 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3528
3529 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3530
3531 mNetworkAdapters[slot].queryInterfaceTo(adapter);
3532
3533 return S_OK;
3534}
3535
3536STDMETHODIMP Machine::GetExtraDataKeys(ComSafeArrayOut(BSTR, aKeys))
3537{
3538 if (ComSafeArrayOutIsNull(aKeys))
3539 return E_POINTER;
3540
3541 AutoCaller autoCaller(this);
3542 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3543
3544 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3545
3546 com::SafeArray<BSTR> saKeys(mData->pMachineConfigFile->mapExtraDataItems.size());
3547 int i = 0;
3548 for (settings::ExtraDataItemsMap::const_iterator it = mData->pMachineConfigFile->mapExtraDataItems.begin();
3549 it != mData->pMachineConfigFile->mapExtraDataItems.end();
3550 ++it, ++i)
3551 {
3552 const Utf8Str &strKey = it->first;
3553 strKey.cloneTo(&saKeys[i]);
3554 }
3555 saKeys.detachTo(ComSafeArrayOutArg(aKeys));
3556
3557 return S_OK;
3558 }
3559
3560 /**
3561 * @note Locks this object for reading.
3562 */
3563STDMETHODIMP Machine::GetExtraData(IN_BSTR aKey,
3564 BSTR *aValue)
3565{
3566 CheckComArgStrNotEmptyOrNull(aKey);
3567 CheckComArgOutPointerValid(aValue);
3568
3569 AutoCaller autoCaller(this);
3570 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3571
3572 /* start with nothing found */
3573 Bstr bstrResult("");
3574
3575 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3576
3577 settings::ExtraDataItemsMap::const_iterator it = mData->pMachineConfigFile->mapExtraDataItems.find(Utf8Str(aKey));
3578 if (it != mData->pMachineConfigFile->mapExtraDataItems.end())
3579 // found:
3580 bstrResult = it->second; // source is a Utf8Str
3581
3582 /* return the result to caller (may be empty) */
3583 bstrResult.cloneTo(aValue);
3584
3585 return S_OK;
3586}
3587
3588 /**
3589 * @note Locks mParent for writing + this object for writing.
3590 */
3591STDMETHODIMP Machine::SetExtraData(IN_BSTR aKey, IN_BSTR aValue)
3592{
3593 CheckComArgStrNotEmptyOrNull(aKey);
3594
3595 AutoCaller autoCaller(this);
3596 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3597
3598 Utf8Str strKey(aKey);
3599 Utf8Str strValue(aValue);
3600 Utf8Str strOldValue; // empty
3601
3602 // locking note: we only hold the read lock briefly to look up the old value,
3603 // then release it and call the onExtraCanChange callbacks. There is a small
3604 // chance of a race insofar as the callback might be called twice if two callers
3605 // change the same key at the same time, but that's a much better solution
3606 // than the deadlock we had here before. The actual changing of the extradata
3607 // is then performed under the write lock and race-free.
3608
3609 // look up the old value first; if nothing's changed then we need not do anything
3610 {
3611 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); // hold read lock only while looking up
3612 settings::ExtraDataItemsMap::const_iterator it = mData->pMachineConfigFile->mapExtraDataItems.find(strKey);
3613 if (it != mData->pMachineConfigFile->mapExtraDataItems.end())
3614 strOldValue = it->second;
3615 }
3616
3617 bool fChanged;
3618 if ((fChanged = (strOldValue != strValue)))
3619 {
3620 // ask for permission from all listeners outside the locks;
3621 // onExtraDataCanChange() only briefly requests the VirtualBox
3622 // lock to copy the list of callbacks to invoke
3623 Bstr error;
3624 Bstr bstrValue(aValue);
3625
3626 if (!mParent->onExtraDataCanChange(mData->mUuid, aKey, bstrValue, error))
3627 {
3628 const char *sep = error.isEmpty() ? "" : ": ";
3629 CBSTR err = error.raw();
3630 LogWarningFunc(("Someone vetoed! Change refused%s%ls\n",
3631 sep, err));
3632 return setError(E_ACCESSDENIED,
3633 tr("Could not set extra data because someone refused the requested change of '%ls' to '%ls'%s%ls"),
3634 aKey,
3635 bstrValue.raw(),
3636 sep,
3637 err);
3638 }
3639
3640 // data is changing and change not vetoed: then write it out under the lock
3641 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
3642
3643 if (getClassID() == clsidSnapshotMachine)
3644 {
3645 HRESULT rc = checkStateDependency(MutableStateDep);
3646 if (FAILED(rc)) return rc;
3647 }
3648
3649 if (strValue.isEmpty())
3650 mData->pMachineConfigFile->mapExtraDataItems.erase(strKey);
3651 else
3652 mData->pMachineConfigFile->mapExtraDataItems[strKey] = strValue;
3653 // creates a new key if needed
3654
3655 bool fNeedsGlobalSaveSettings = false;
3656 saveSettings(&fNeedsGlobalSaveSettings);
3657
3658 if (fNeedsGlobalSaveSettings)
3659 {
3660 // save the global settings; for that we should hold only the VirtualBox lock
3661 alock.release();
3662 AutoWriteLock vboxlock(mParent COMMA_LOCKVAL_SRC_POS);
3663 mParent->saveSettings();
3664 }
3665 }
3666
3667 // fire notification outside the lock
3668 if (fChanged)
3669 mParent->onExtraDataChange(mData->mUuid, aKey, aValue);
3670
3671 return S_OK;
3672}
3673
3674STDMETHODIMP Machine::SaveSettings()
3675{
3676 AutoCaller autoCaller(this);
3677 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3678
3679 AutoWriteLock mlock(this COMMA_LOCKVAL_SRC_POS);
3680
3681 /* when there was auto-conversion, we want to save the file even if
3682 * the VM is saved */
3683 HRESULT rc = checkStateDependency(MutableStateDep);
3684 if (FAILED(rc)) return rc;
3685
3686 /* the settings file path may never be null */
3687 ComAssertRet(!mData->m_strConfigFileFull.isEmpty(), E_FAIL);
3688
3689 /* save all VM data excluding snapshots */
3690 bool fNeedsGlobalSaveSettings = false;
3691 rc = saveSettings(&fNeedsGlobalSaveSettings);
3692 mlock.release();
3693
3694 if (SUCCEEDED(rc) && fNeedsGlobalSaveSettings)
3695 {
3696 // save the global settings; for that we should hold only the VirtualBox lock
3697 AutoWriteLock vlock(mParent COMMA_LOCKVAL_SRC_POS);
3698 rc = mParent->saveSettings();
3699 }
3700
3701 return rc;
3702}
3703
3704STDMETHODIMP Machine::DiscardSettings()
3705{
3706 AutoCaller autoCaller(this);
3707 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3708
3709 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
3710
3711 HRESULT rc = checkStateDependency(MutableStateDep);
3712 if (FAILED(rc)) return rc;
3713
3714 /*
3715 * during this rollback, the session will be notified if data has
3716 * been actually changed
3717 */
3718 rollback(true /* aNotify */);
3719
3720 return S_OK;
3721}
3722
3723STDMETHODIMP Machine::DeleteSettings()
3724{
3725 AutoCaller autoCaller(this);
3726 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3727
3728 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
3729
3730 HRESULT rc = checkStateDependency(MutableStateDep);
3731 if (FAILED(rc)) return rc;
3732
3733 if (mData->mRegistered)
3734 return setError(VBOX_E_INVALID_VM_STATE,
3735 tr("Cannot delete settings of a registered machine"));
3736
3737 ULONG uLogHistoryCount = 3;
3738 ComPtr<ISystemProperties> systemProperties;
3739 mParent->COMGETTER(SystemProperties)(systemProperties.asOutParam());
3740 if (!systemProperties.isNull())
3741 systemProperties->COMGETTER(LogHistoryCount)(&uLogHistoryCount);
3742
3743 /* delete the settings only when the file actually exists */
3744 if (mData->pMachineConfigFile->fileExists())
3745 {
3746 int vrc = RTFileDelete(mData->m_strConfigFileFull.c_str());
3747 if (RT_FAILURE(vrc))
3748 return setError(VBOX_E_IPRT_ERROR,
3749 tr("Could not delete the settings file '%s' (%Rrc)"),
3750 mData->m_strConfigFileFull.raw(),
3751 vrc);
3752
3753 /* Delete any backup or uncommitted XML files. Ignore failures.
3754 See the fSafe parameter of xml::XmlFileWriter::write for details. */
3755 /** @todo Find a way to avoid referring directly to iprt/xml.h here. */
3756 Utf8Str otherXml = Utf8StrFmt("%s%s", mData->m_strConfigFileFull.c_str(), xml::XmlFileWriter::s_pszTmpSuff);
3757 RTFileDelete(otherXml.c_str());
3758 otherXml = Utf8StrFmt("%s%s", mData->m_strConfigFileFull.c_str(), xml::XmlFileWriter::s_pszPrevSuff);
3759 RTFileDelete(otherXml.c_str());
3760
3761 /* delete the Logs folder, nothing important should be left
3762 * there (we don't check for errors because the user might have
3763 * some private files there that we don't want to delete) */
3764 Utf8Str logFolder;
3765 getLogFolder(logFolder);
3766 Assert(logFolder.length());
3767 if (RTDirExists(logFolder.c_str()))
3768 {
3769 /* Delete all VBox.log[.N] files from the Logs folder
3770 * (this must be in sync with the rotation logic in
3771 * Console::powerUpThread()). Also, delete the VBox.png[.N]
3772 * files that may have been created by the GUI. */
3773 Utf8Str log = Utf8StrFmt("%s%cVBox.log",
3774 logFolder.raw(), RTPATH_DELIMITER);
3775 RTFileDelete(log.c_str());
3776 log = Utf8StrFmt("%s%cVBox.png",
3777 logFolder.raw(), RTPATH_DELIMITER);
3778 RTFileDelete(log.c_str());
3779 for (int i = uLogHistoryCount; i > 0; i--)
3780 {
3781 log = Utf8StrFmt("%s%cVBox.log.%d",
3782 logFolder.raw(), RTPATH_DELIMITER, i);
3783 RTFileDelete(log.c_str());
3784 log = Utf8StrFmt("%s%cVBox.png.%d",
3785 logFolder.raw(), RTPATH_DELIMITER, i);
3786 RTFileDelete(log.c_str());
3787 }
3788
3789 RTDirRemove(logFolder.c_str());
3790 }
3791
3792 /* delete the Snapshots folder, nothing important should be left
3793 * there (we don't check for errors because the user might have
3794 * some private files there that we don't want to delete) */
3795 Utf8Str snapshotFolder(mUserData->mSnapshotFolderFull);
3796 Assert(snapshotFolder.length());
3797 if (RTDirExists(snapshotFolder.c_str()))
3798 RTDirRemove(snapshotFolder.c_str());
3799
3800 /* delete the directory that contains the settings file, but only
3801 * if it matches the VM name (i.e. a structure created by default in
3802 * prepareSaveSettings()) */
3803 {
3804 Utf8Str settingsDir;
3805 if (isInOwnDir(&settingsDir))
3806 RTDirRemove(settingsDir.c_str());
3807 }
3808 }
3809
3810 return S_OK;
3811}
3812
3813STDMETHODIMP Machine::GetSnapshot(IN_BSTR aId, ISnapshot **aSnapshot)
3814{
3815 CheckComArgOutPointerValid(aSnapshot);
3816
3817 AutoCaller autoCaller(this);
3818 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3819
3820 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3821
3822 Guid uuid(aId);
3823 /* Todo: fix this properly by perhaps introducing an isValid method for the Guid class */
3824 if ( (aId)
3825 && (*aId != '\0') // an empty Bstr means "get root snapshot", so don't fail on that
3826 && (uuid.isEmpty()))
3827 {
3828 RTUUID uuidTemp;
3829 /* Either it's a null UUID or the conversion failed. (null uuid has a special meaning in findSnapshot) */
3830 if (RT_FAILURE(RTUuidFromUtf16(&uuidTemp, aId)))
3831 return setError(E_FAIL,
3832 tr("Could not find a snapshot with UUID {%ls}"),
3833 aId);
3834 }
3835
3836 ComObjPtr<Snapshot> snapshot;
3837
3838 HRESULT rc = findSnapshot(uuid, snapshot, true /* aSetError */);
3839 snapshot.queryInterfaceTo(aSnapshot);
3840
3841 return rc;
3842}
3843
3844STDMETHODIMP Machine::FindSnapshot(IN_BSTR aName, ISnapshot **aSnapshot)
3845{
3846 CheckComArgStrNotEmptyOrNull(aName);
3847 CheckComArgOutPointerValid(aSnapshot);
3848
3849 AutoCaller autoCaller(this);
3850 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3851
3852 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3853
3854 ComObjPtr<Snapshot> snapshot;
3855
3856 HRESULT rc = findSnapshot(aName, snapshot, true /* aSetError */);
3857 snapshot.queryInterfaceTo(aSnapshot);
3858
3859 return rc;
3860}
3861
3862STDMETHODIMP Machine::SetCurrentSnapshot(IN_BSTR /* aId */)
3863{
3864 /// @todo (dmik) don't forget to set
3865 // mData->mCurrentStateModified to FALSE
3866
3867 return setError(E_NOTIMPL, "Not implemented");
3868}
3869
3870STDMETHODIMP Machine::CreateSharedFolder(IN_BSTR aName, IN_BSTR aHostPath, BOOL aWritable)
3871{
3872 CheckComArgStrNotEmptyOrNull(aName);
3873 CheckComArgStrNotEmptyOrNull(aHostPath);
3874
3875 AutoCaller autoCaller(this);
3876 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3877
3878 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
3879
3880 HRESULT rc = checkStateDependency(MutableStateDep);
3881 if (FAILED(rc)) return rc;
3882
3883 ComObjPtr<SharedFolder> sharedFolder;
3884 rc = findSharedFolder(aName, sharedFolder, false /* aSetError */);
3885 if (SUCCEEDED(rc))
3886 return setError(VBOX_E_OBJECT_IN_USE,
3887 tr("Shared folder named '%ls' already exists"),
3888 aName);
3889
3890 sharedFolder.createObject();
3891 rc = sharedFolder->init(getMachine(), aName, aHostPath, aWritable);
3892 if (FAILED(rc)) return rc;
3893
3894 setModified(IsModified_SharedFolders);
3895 mHWData.backup();
3896 mHWData->mSharedFolders.push_back(sharedFolder);
3897
3898 /* inform the direct session if any */
3899 alock.leave();
3900 onSharedFolderChange();
3901
3902 return S_OK;
3903}
3904
3905STDMETHODIMP Machine::RemoveSharedFolder(IN_BSTR aName)
3906{
3907 CheckComArgStrNotEmptyOrNull(aName);
3908
3909 AutoCaller autoCaller(this);
3910 if (FAILED(autoCaller.rc())) return autoCaller.rc();
3911
3912 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
3913
3914 HRESULT rc = checkStateDependency(MutableStateDep);
3915 if (FAILED(rc)) return rc;
3916
3917 ComObjPtr<SharedFolder> sharedFolder;
3918 rc = findSharedFolder(aName, sharedFolder, true /* aSetError */);
3919 if (FAILED(rc)) return rc;
3920
3921 setModified(IsModified_SharedFolders);
3922 mHWData.backup();
3923 mHWData->mSharedFolders.remove(sharedFolder);
3924
3925 /* inform the direct session if any */
3926 alock.leave();
3927 onSharedFolderChange();
3928
3929 return S_OK;
3930}
3931
3932STDMETHODIMP Machine::CanShowConsoleWindow(BOOL *aCanShow)
3933{
3934 CheckComArgOutPointerValid(aCanShow);
3935
3936 /* start with No */
3937 *aCanShow = FALSE;
3938
3939 AutoCaller autoCaller(this);
3940 AssertComRCReturnRC(autoCaller.rc());
3941
3942 ComPtr<IInternalSessionControl> directControl;
3943 {
3944 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3945
3946 if (mData->mSession.mState != SessionState_Open)
3947 return setError(VBOX_E_INVALID_VM_STATE,
3948 tr("Machine session is not open (session state: %s)"),
3949 Global::stringifySessionState(mData->mSession.mState));
3950
3951 directControl = mData->mSession.mDirectControl;
3952 }
3953
3954 /* ignore calls made after #OnSessionEnd() is called */
3955 if (!directControl)
3956 return S_OK;
3957
3958 ULONG64 dummy;
3959 return directControl->OnShowWindow(TRUE /* aCheck */, aCanShow, &dummy);
3960}
3961
3962STDMETHODIMP Machine::ShowConsoleWindow(ULONG64 *aWinId)
3963{
3964 CheckComArgOutPointerValid(aWinId);
3965
3966 AutoCaller autoCaller(this);
3967 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
3968
3969 ComPtr<IInternalSessionControl> directControl;
3970 {
3971 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
3972
3973 if (mData->mSession.mState != SessionState_Open)
3974 return setError(E_FAIL,
3975 tr("Machine session is not open (session state: %s)"),
3976 Global::stringifySessionState(mData->mSession.mState));
3977
3978 directControl = mData->mSession.mDirectControl;
3979 }
3980
3981 /* ignore calls made after #OnSessionEnd() is called */
3982 if (!directControl)
3983 return S_OK;
3984
3985 BOOL dummy;
3986 return directControl->OnShowWindow(FALSE /* aCheck */, &dummy, aWinId);
3987}
3988
3989#ifdef VBOX_WITH_GUEST_PROPS
3990/**
3991 * Look up a guest property in VBoxSVC's internal structures.
3992 */
3993HRESULT Machine::getGuestPropertyFromService(IN_BSTR aName,
3994 BSTR *aValue,
3995 ULONG64 *aTimestamp,
3996 BSTR *aFlags) const
3997{
3998 using namespace guestProp;
3999
4000 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4001 Utf8Str strName(aName);
4002 HWData::GuestPropertyList::const_iterator it;
4003
4004 for (it = mHWData->mGuestProperties.begin();
4005 it != mHWData->mGuestProperties.end(); ++it)
4006 {
4007 if (it->strName == strName)
4008 {
4009 char szFlags[MAX_FLAGS_LEN + 1];
4010 it->strValue.cloneTo(aValue);
4011 *aTimestamp = it->mTimestamp;
4012 writeFlags(it->mFlags, szFlags);
4013 Bstr(szFlags).cloneTo(aFlags);
4014 break;
4015 }
4016 }
4017 return S_OK;
4018}
4019
4020/**
4021 * Query the VM that a guest property belongs to for the property.
4022 * @returns E_ACCESSDENIED if the VM process is not available or not
4023 * currently handling queries and the lookup should then be done in
4024 * VBoxSVC.
4025 */
4026HRESULT Machine::getGuestPropertyFromVM(IN_BSTR aName,
4027 BSTR *aValue,
4028 ULONG64 *aTimestamp,
4029 BSTR *aFlags) const
4030{
4031 HRESULT rc;
4032 ComPtr<IInternalSessionControl> directControl;
4033 directControl = mData->mSession.mDirectControl;
4034
4035 /* fail if we were called after #OnSessionEnd() is called. This is a
4036 * silly race condition. */
4037
4038 if (!directControl)
4039 rc = E_ACCESSDENIED;
4040 else
4041 rc = directControl->AccessGuestProperty(aName, NULL, NULL,
4042 false /* isSetter */,
4043 aValue, aTimestamp, aFlags);
4044 return rc;
4045}
4046#endif // VBOX_WITH_GUEST_PROPS
4047
4048STDMETHODIMP Machine::GetGuestProperty(IN_BSTR aName,
4049 BSTR *aValue,
4050 ULONG64 *aTimestamp,
4051 BSTR *aFlags)
4052{
4053#ifndef VBOX_WITH_GUEST_PROPS
4054 ReturnComNotImplemented();
4055#else // VBOX_WITH_GUEST_PROPS
4056 CheckComArgStrNotEmptyOrNull(aName);
4057 CheckComArgOutPointerValid(aValue);
4058 CheckComArgOutPointerValid(aTimestamp);
4059 CheckComArgOutPointerValid(aFlags);
4060
4061 AutoCaller autoCaller(this);
4062 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4063
4064 HRESULT rc = getGuestPropertyFromVM(aName, aValue, aTimestamp, aFlags);
4065 if (rc == E_ACCESSDENIED)
4066 /* The VM is not running or the service is not (yet) accessible */
4067 rc = getGuestPropertyFromService(aName, aValue, aTimestamp, aFlags);
4068 return rc;
4069#endif // VBOX_WITH_GUEST_PROPS
4070}
4071
4072STDMETHODIMP Machine::GetGuestPropertyValue(IN_BSTR aName, BSTR *aValue)
4073{
4074 ULONG64 dummyTimestamp;
4075 Bstr dummyFlags;
4076 return GetGuestProperty(aName, aValue, &dummyTimestamp, dummyFlags.asOutParam());
4077}
4078
4079STDMETHODIMP Machine::GetGuestPropertyTimestamp(IN_BSTR aName, ULONG64 *aTimestamp)
4080{
4081 Bstr dummyValue;
4082 Bstr dummyFlags;
4083 return GetGuestProperty(aName, dummyValue.asOutParam(), aTimestamp, dummyFlags.asOutParam());
4084}
4085
4086#ifdef VBOX_WITH_GUEST_PROPS
4087/**
4088 * Set a guest property in VBoxSVC's internal structures.
4089 */
4090HRESULT Machine::setGuestPropertyToService(IN_BSTR aName, IN_BSTR aValue,
4091 IN_BSTR aFlags)
4092{
4093 using namespace guestProp;
4094
4095 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
4096 HRESULT rc = S_OK;
4097 HWData::GuestProperty property;
4098 property.mFlags = NILFLAG;
4099 bool found = false;
4100
4101 rc = checkStateDependency(MutableStateDep);
4102 if (FAILED(rc)) return rc;
4103
4104 try
4105 {
4106 Utf8Str utf8Name(aName);
4107 Utf8Str utf8Flags(aFlags);
4108 uint32_t fFlags = NILFLAG;
4109 if ( (aFlags != NULL)
4110 && RT_FAILURE(validateFlags(utf8Flags.raw(), &fFlags))
4111 )
4112 return setError(E_INVALIDARG,
4113 tr("Invalid flag values: '%ls'"),
4114 aFlags);
4115
4116 /** @todo r=bird: see efficiency rant in PushGuestProperty. (Yeah, I
4117 * know, this is simple and do an OK job atm.) */
4118 HWData::GuestPropertyList::iterator it;
4119 for (it = mHWData->mGuestProperties.begin();
4120 it != mHWData->mGuestProperties.end(); ++it)
4121 if (it->strName == utf8Name)
4122 {
4123 property = *it;
4124 if (it->mFlags & (RDONLYHOST))
4125 rc = setError(E_ACCESSDENIED,
4126 tr("The property '%ls' cannot be changed by the host"),
4127 aName);
4128 else
4129 {
4130 setModified(IsModified_MachineData);
4131 mHWData.backup(); // @todo r=dj backup in a loop?!?
4132
4133 /* The backup() operation invalidates our iterator, so
4134 * get a new one. */
4135 for (it = mHWData->mGuestProperties.begin();
4136 it->strName != utf8Name;
4137 ++it)
4138 ;
4139 mHWData->mGuestProperties.erase(it);
4140 }
4141 found = true;
4142 break;
4143 }
4144 if (found && SUCCEEDED(rc))
4145 {
4146 if (*aValue)
4147 {
4148 RTTIMESPEC time;
4149 property.strValue = aValue;
4150 property.mTimestamp = RTTimeSpecGetNano(RTTimeNow(&time));
4151 if (aFlags != NULL)
4152 property.mFlags = fFlags;
4153 mHWData->mGuestProperties.push_back(property);
4154 }
4155 }
4156 else if (SUCCEEDED(rc) && *aValue)
4157 {
4158 RTTIMESPEC time;
4159 setModified(IsModified_MachineData);
4160 mHWData.backup();
4161 property.strName = aName;
4162 property.strValue = aValue;
4163 property.mTimestamp = RTTimeSpecGetNano(RTTimeNow(&time));
4164 property.mFlags = fFlags;
4165 mHWData->mGuestProperties.push_back(property);
4166 }
4167 if ( SUCCEEDED(rc)
4168 && ( mHWData->mGuestPropertyNotificationPatterns.isEmpty()
4169 || RTStrSimplePatternMultiMatch(mHWData->mGuestPropertyNotificationPatterns.raw(), RTSTR_MAX,
4170 utf8Name.raw(), RTSTR_MAX, NULL) )
4171 )
4172 {
4173 /** @todo r=bird: Why aren't we leaving the lock here? The
4174 * same code in PushGuestProperty does... */
4175 mParent->onGuestPropertyChange(mData->mUuid, aName, aValue, aFlags);
4176 }
4177 }
4178 catch (std::bad_alloc &)
4179 {
4180 rc = E_OUTOFMEMORY;
4181 }
4182
4183 return rc;
4184}
4185
4186/**
4187 * Set a property on the VM that that property belongs to.
4188 * @returns E_ACCESSDENIED if the VM process is not available or not
4189 * currently handling queries and the setting should then be done in
4190 * VBoxSVC.
4191 */
4192HRESULT Machine::setGuestPropertyToVM(IN_BSTR aName, IN_BSTR aValue,
4193 IN_BSTR aFlags)
4194{
4195 HRESULT rc;
4196
4197 try {
4198 ComPtr<IInternalSessionControl> directControl =
4199 mData->mSession.mDirectControl;
4200
4201 BSTR dummy = NULL; /* will not be changed (setter) */
4202 ULONG64 dummy64;
4203 if (!directControl)
4204 rc = E_ACCESSDENIED;
4205 else
4206 rc = directControl->AccessGuestProperty
4207 (aName,
4208 /** @todo Fix when adding DeleteGuestProperty(),
4209 see defect. */
4210 *aValue ? aValue : NULL, aFlags, true /* isSetter */,
4211 &dummy, &dummy64, &dummy);
4212 }
4213 catch (std::bad_alloc &)
4214 {
4215 rc = E_OUTOFMEMORY;
4216 }
4217
4218 return rc;
4219}
4220#endif // VBOX_WITH_GUEST_PROPS
4221
4222STDMETHODIMP Machine::SetGuestProperty(IN_BSTR aName, IN_BSTR aValue,
4223 IN_BSTR aFlags)
4224{
4225#ifndef VBOX_WITH_GUEST_PROPS
4226 ReturnComNotImplemented();
4227#else // VBOX_WITH_GUEST_PROPS
4228 CheckComArgStrNotEmptyOrNull(aName);
4229 if ((aFlags != NULL) && !VALID_PTR(aFlags))
4230 return E_INVALIDARG;
4231 AutoCaller autoCaller(this);
4232 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4233
4234 HRESULT rc = setGuestPropertyToVM(aName, aValue, aFlags);
4235 if (rc == E_ACCESSDENIED)
4236 /* The VM is not running or the service is not (yet) accessible */
4237 rc = setGuestPropertyToService(aName, aValue, aFlags);
4238 return rc;
4239#endif // VBOX_WITH_GUEST_PROPS
4240}
4241
4242STDMETHODIMP Machine::SetGuestPropertyValue(IN_BSTR aName, IN_BSTR aValue)
4243{
4244 return SetGuestProperty(aName, aValue, NULL);
4245}
4246
4247#ifdef VBOX_WITH_GUEST_PROPS
4248/**
4249 * Enumerate the guest properties in VBoxSVC's internal structures.
4250 */
4251HRESULT Machine::enumerateGuestPropertiesInService
4252 (IN_BSTR aPatterns, ComSafeArrayOut(BSTR, aNames),
4253 ComSafeArrayOut(BSTR, aValues),
4254 ComSafeArrayOut(ULONG64, aTimestamps),
4255 ComSafeArrayOut(BSTR, aFlags))
4256{
4257 using namespace guestProp;
4258
4259 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4260 Utf8Str strPatterns(aPatterns);
4261
4262 /*
4263 * Look for matching patterns and build up a list.
4264 */
4265 HWData::GuestPropertyList propList;
4266 for (HWData::GuestPropertyList::iterator it = mHWData->mGuestProperties.begin();
4267 it != mHWData->mGuestProperties.end();
4268 ++it)
4269 if ( strPatterns.isEmpty()
4270 || RTStrSimplePatternMultiMatch(strPatterns.raw(),
4271 RTSTR_MAX,
4272 it->strName.raw(),
4273 RTSTR_MAX, NULL)
4274 )
4275 propList.push_back(*it);
4276
4277 /*
4278 * And build up the arrays for returning the property information.
4279 */
4280 size_t cEntries = propList.size();
4281 SafeArray<BSTR> names(cEntries);
4282 SafeArray<BSTR> values(cEntries);
4283 SafeArray<ULONG64> timestamps(cEntries);
4284 SafeArray<BSTR> flags(cEntries);
4285 size_t iProp = 0;
4286 for (HWData::GuestPropertyList::iterator it = propList.begin();
4287 it != propList.end();
4288 ++it)
4289 {
4290 char szFlags[MAX_FLAGS_LEN + 1];
4291 it->strName.cloneTo(&names[iProp]);
4292 it->strValue.cloneTo(&values[iProp]);
4293 timestamps[iProp] = it->mTimestamp;
4294 writeFlags(it->mFlags, szFlags);
4295 Bstr(szFlags).cloneTo(&flags[iProp]);
4296 ++iProp;
4297 }
4298 names.detachTo(ComSafeArrayOutArg(aNames));
4299 values.detachTo(ComSafeArrayOutArg(aValues));
4300 timestamps.detachTo(ComSafeArrayOutArg(aTimestamps));
4301 flags.detachTo(ComSafeArrayOutArg(aFlags));
4302 return S_OK;
4303}
4304
4305/**
4306 * Enumerate the properties managed by a VM.
4307 * @returns E_ACCESSDENIED if the VM process is not available or not
4308 * currently handling queries and the setting should then be done in
4309 * VBoxSVC.
4310 */
4311HRESULT Machine::enumerateGuestPropertiesOnVM
4312 (IN_BSTR aPatterns, ComSafeArrayOut(BSTR, aNames),
4313 ComSafeArrayOut(BSTR, aValues),
4314 ComSafeArrayOut(ULONG64, aTimestamps),
4315 ComSafeArrayOut(BSTR, aFlags))
4316{
4317 HRESULT rc;
4318 ComPtr<IInternalSessionControl> directControl;
4319 directControl = mData->mSession.mDirectControl;
4320
4321 if (!directControl)
4322 rc = E_ACCESSDENIED;
4323 else
4324 rc = directControl->EnumerateGuestProperties
4325 (aPatterns, ComSafeArrayOutArg(aNames),
4326 ComSafeArrayOutArg(aValues),
4327 ComSafeArrayOutArg(aTimestamps),
4328 ComSafeArrayOutArg(aFlags));
4329 return rc;
4330}
4331#endif // VBOX_WITH_GUEST_PROPS
4332
4333STDMETHODIMP Machine::EnumerateGuestProperties(IN_BSTR aPatterns,
4334 ComSafeArrayOut(BSTR, aNames),
4335 ComSafeArrayOut(BSTR, aValues),
4336 ComSafeArrayOut(ULONG64, aTimestamps),
4337 ComSafeArrayOut(BSTR, aFlags))
4338{
4339#ifndef VBOX_WITH_GUEST_PROPS
4340 ReturnComNotImplemented();
4341#else // VBOX_WITH_GUEST_PROPS
4342 if (!VALID_PTR(aPatterns) && (aPatterns != NULL))
4343 return E_POINTER;
4344
4345 CheckComArgOutSafeArrayPointerValid(aNames);
4346 CheckComArgOutSafeArrayPointerValid(aValues);
4347 CheckComArgOutSafeArrayPointerValid(aTimestamps);
4348 CheckComArgOutSafeArrayPointerValid(aFlags);
4349
4350 AutoCaller autoCaller(this);
4351 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4352
4353 HRESULT rc = enumerateGuestPropertiesOnVM
4354 (aPatterns, ComSafeArrayOutArg(aNames),
4355 ComSafeArrayOutArg(aValues),
4356 ComSafeArrayOutArg(aTimestamps),
4357 ComSafeArrayOutArg(aFlags));
4358 if (rc == E_ACCESSDENIED)
4359 /* The VM is not running or the service is not (yet) accessible */
4360 rc = enumerateGuestPropertiesInService
4361 (aPatterns, ComSafeArrayOutArg(aNames),
4362 ComSafeArrayOutArg(aValues),
4363 ComSafeArrayOutArg(aTimestamps),
4364 ComSafeArrayOutArg(aFlags));
4365 return rc;
4366#endif // VBOX_WITH_GUEST_PROPS
4367}
4368
4369STDMETHODIMP Machine::GetMediumAttachmentsOfController(IN_BSTR aName,
4370 ComSafeArrayOut(IMediumAttachment*, aAttachments))
4371{
4372 MediaData::AttachmentList atts;
4373
4374 HRESULT rc = getMediumAttachmentsOfController(aName, atts);
4375 if (FAILED(rc)) return rc;
4376
4377 SafeIfaceArray<IMediumAttachment> attachments(atts);
4378 attachments.detachTo(ComSafeArrayOutArg(aAttachments));
4379
4380 return S_OK;
4381}
4382
4383STDMETHODIMP Machine::GetMediumAttachment(IN_BSTR aControllerName,
4384 LONG aControllerPort,
4385 LONG aDevice,
4386 IMediumAttachment **aAttachment)
4387{
4388 LogFlowThisFunc(("aControllerName=\"%ls\" aControllerPort=%d aDevice=%d\n",
4389 aControllerName, aControllerPort, aDevice));
4390
4391 CheckComArgStrNotEmptyOrNull(aControllerName);
4392 CheckComArgOutPointerValid(aAttachment);
4393
4394 AutoCaller autoCaller(this);
4395 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4396
4397 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4398
4399 *aAttachment = NULL;
4400
4401 ComObjPtr<MediumAttachment> pAttach = findAttachment(mMediaData->mAttachments,
4402 aControllerName,
4403 aControllerPort,
4404 aDevice);
4405 if (pAttach.isNull())
4406 return setError(VBOX_E_OBJECT_NOT_FOUND,
4407 tr("No storage device attached to device slot %d on port %d of controller '%ls'"),
4408 aDevice, aControllerPort, aControllerName);
4409
4410 pAttach.queryInterfaceTo(aAttachment);
4411
4412 return S_OK;
4413}
4414
4415STDMETHODIMP Machine::AddStorageController(IN_BSTR aName,
4416 StorageBus_T aConnectionType,
4417 IStorageController **controller)
4418{
4419 CheckComArgStrNotEmptyOrNull(aName);
4420
4421 if ( (aConnectionType <= StorageBus_Null)
4422 || (aConnectionType > StorageBus_SAS))
4423 return setError(E_INVALIDARG,
4424 tr("Invalid connection type: %d"),
4425 aConnectionType);
4426
4427 AutoCaller autoCaller(this);
4428 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4429
4430 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
4431
4432 HRESULT rc = checkStateDependency(MutableStateDep);
4433 if (FAILED(rc)) return rc;
4434
4435 /* try to find one with the name first. */
4436 ComObjPtr<StorageController> ctrl;
4437
4438 rc = getStorageControllerByName(aName, ctrl, false /* aSetError */);
4439 if (SUCCEEDED(rc))
4440 return setError(VBOX_E_OBJECT_IN_USE,
4441 tr("Storage controller named '%ls' already exists"),
4442 aName);
4443
4444 ctrl.createObject();
4445
4446 /* get a new instance number for the storage controller */
4447 ULONG ulInstance = 0;
4448 for (StorageControllerList::const_iterator it = mStorageControllers->begin();
4449 it != mStorageControllers->end();
4450 ++it)
4451 {
4452 if ((*it)->getStorageBus() == aConnectionType)
4453 {
4454 ULONG ulCurInst = (*it)->getInstance();
4455
4456 if (ulCurInst >= ulInstance)
4457 ulInstance = ulCurInst + 1;
4458 }
4459 }
4460
4461 rc = ctrl->init(this, aName, aConnectionType, ulInstance);
4462 if (FAILED(rc)) return rc;
4463
4464 setModified(IsModified_Storage);
4465 mStorageControllers.backup();
4466 mStorageControllers->push_back(ctrl);
4467
4468 ctrl.queryInterfaceTo(controller);
4469
4470 /* inform the direct session if any */
4471 alock.leave();
4472 onStorageControllerChange();
4473
4474 return S_OK;
4475}
4476
4477STDMETHODIMP Machine::GetStorageControllerByName(IN_BSTR aName,
4478 IStorageController **aStorageController)
4479{
4480 CheckComArgStrNotEmptyOrNull(aName);
4481
4482 AutoCaller autoCaller(this);
4483 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4484
4485 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4486
4487 ComObjPtr<StorageController> ctrl;
4488
4489 HRESULT rc = getStorageControllerByName(aName, ctrl, true /* aSetError */);
4490 if (SUCCEEDED(rc))
4491 ctrl.queryInterfaceTo(aStorageController);
4492
4493 return rc;
4494}
4495
4496STDMETHODIMP Machine::GetStorageControllerByInstance(ULONG aInstance,
4497 IStorageController **aStorageController)
4498{
4499 AutoCaller autoCaller(this);
4500 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4501
4502 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4503
4504 for (StorageControllerList::const_iterator it = mStorageControllers->begin();
4505 it != mStorageControllers->end();
4506 ++it)
4507 {
4508 if ((*it)->getInstance() == aInstance)
4509 {
4510 (*it).queryInterfaceTo(aStorageController);
4511 return S_OK;
4512 }
4513 }
4514
4515 return setError(VBOX_E_OBJECT_NOT_FOUND,
4516 tr("Could not find a storage controller with instance number '%lu'"),
4517 aInstance);
4518}
4519
4520STDMETHODIMP Machine::RemoveStorageController(IN_BSTR aName)
4521{
4522 CheckComArgStrNotEmptyOrNull(aName);
4523
4524 AutoCaller autoCaller(this);
4525 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4526
4527 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
4528
4529 HRESULT rc = checkStateDependency(MutableStateDep);
4530 if (FAILED(rc)) return rc;
4531
4532 ComObjPtr<StorageController> ctrl;
4533 rc = getStorageControllerByName(aName, ctrl, true /* aSetError */);
4534 if (FAILED(rc)) return rc;
4535
4536 /* We can remove the controller only if there is no device attached. */
4537 /* check if the device slot is already busy */
4538 for (MediaData::AttachmentList::const_iterator it = mMediaData->mAttachments.begin();
4539 it != mMediaData->mAttachments.end();
4540 ++it)
4541 {
4542 if ((*it)->getControllerName() == aName)
4543 return setError(VBOX_E_OBJECT_IN_USE,
4544 tr("Storage controller named '%ls' has still devices attached"),
4545 aName);
4546 }
4547
4548 /* We can remove it now. */
4549 setModified(IsModified_Storage);
4550 mStorageControllers.backup();
4551
4552 ctrl->unshare();
4553
4554 mStorageControllers->remove(ctrl);
4555
4556 /* inform the direct session if any */
4557 alock.leave();
4558 onStorageControllerChange();
4559
4560 return S_OK;
4561}
4562
4563/* @todo where is the right place for this? */
4564#define sSSMDisplayScreenshotVer 0x00010001
4565
4566static int readSavedDisplayScreenshot(Utf8Str *pStateFilePath, uint32_t u32Type, uint8_t **ppu8Data, uint32_t *pcbData, uint32_t *pu32Width, uint32_t *pu32Height)
4567{
4568 LogFlowFunc(("u32Type = %d [%s]\n", u32Type, pStateFilePath->raw()));
4569
4570 /* @todo cache read data */
4571 if (pStateFilePath->isEmpty())
4572 {
4573 /* No saved state data. */
4574 return VERR_NOT_SUPPORTED;
4575 }
4576
4577 uint8_t *pu8Data = NULL;
4578 uint32_t cbData = 0;
4579 uint32_t u32Width = 0;
4580 uint32_t u32Height = 0;
4581
4582 PSSMHANDLE pSSM;
4583 int vrc = SSMR3Open(pStateFilePath->raw(), 0 /*fFlags*/, &pSSM);
4584 if (RT_SUCCESS(vrc))
4585 {
4586 uint32_t uVersion;
4587 vrc = SSMR3Seek(pSSM, "DisplayScreenshot", 1100 /*iInstance*/, &uVersion);
4588 if (RT_SUCCESS(vrc))
4589 {
4590 if (uVersion == sSSMDisplayScreenshotVer)
4591 {
4592 uint32_t cBlocks;
4593 vrc = SSMR3GetU32(pSSM, &cBlocks);
4594 AssertRCReturn(vrc, vrc);
4595
4596 for (uint32_t i = 0; i < cBlocks; i++)
4597 {
4598 uint32_t cbBlock;
4599 vrc = SSMR3GetU32(pSSM, &cbBlock);
4600 AssertRCBreak(vrc);
4601
4602 uint32_t typeOfBlock;
4603 vrc = SSMR3GetU32(pSSM, &typeOfBlock);
4604 AssertRCBreak(vrc);
4605
4606 LogFlowFunc(("[%d] type %d, size %d bytes\n", i, typeOfBlock, cbBlock));
4607
4608 if (typeOfBlock == u32Type)
4609 {
4610 if (cbBlock > 2 * sizeof(uint32_t))
4611 {
4612 cbData = cbBlock - 2 * sizeof(uint32_t);
4613 pu8Data = (uint8_t *)RTMemAlloc(cbData);
4614 if (pu8Data == NULL)
4615 {
4616 vrc = VERR_NO_MEMORY;
4617 break;
4618 }
4619
4620 vrc = SSMR3GetU32(pSSM, &u32Width);
4621 AssertRCBreak(vrc);
4622 vrc = SSMR3GetU32(pSSM, &u32Height);
4623 AssertRCBreak(vrc);
4624 vrc = SSMR3GetMem(pSSM, pu8Data, cbData);
4625 AssertRCBreak(vrc);
4626 }
4627 else
4628 {
4629 /* No saved state data. */
4630 vrc = VERR_NOT_SUPPORTED;
4631 }
4632
4633 break;
4634 }
4635 else
4636 {
4637 /* displaySSMSaveScreenshot did not write any data, if
4638 * cbBlock was == 2 * sizeof (uint32_t).
4639 */
4640 if (cbBlock > 2 * sizeof (uint32_t))
4641 {
4642 vrc = SSMR3Skip(pSSM, cbBlock);
4643 AssertRCBreak(vrc);
4644 }
4645 }
4646 }
4647 }
4648 else
4649 {
4650 vrc = VERR_SSM_UNSUPPORTED_DATA_UNIT_VERSION;
4651 }
4652 }
4653
4654 SSMR3Close(pSSM);
4655 }
4656
4657 if (RT_SUCCESS(vrc))
4658 {
4659 if (u32Type == 0 && cbData % 4 != 0)
4660 {
4661 /* Bitmap is 32bpp, so data is invalid. */
4662 vrc = VERR_SSM_UNEXPECTED_DATA;
4663 }
4664 }
4665
4666 if (RT_SUCCESS(vrc))
4667 {
4668 *ppu8Data = pu8Data;
4669 *pcbData = cbData;
4670 *pu32Width = u32Width;
4671 *pu32Height = u32Height;
4672 LogFlowFunc(("cbData %d, u32Width %d, u32Height %d\n", cbData, u32Width, u32Height));
4673 }
4674
4675 LogFlowFunc(("vrc %Rrc\n", vrc));
4676 return vrc;
4677}
4678
4679static void freeSavedDisplayScreenshot(uint8_t *pu8Data)
4680{
4681 /* @todo not necessary when caching is implemented. */
4682 RTMemFree(pu8Data);
4683}
4684
4685STDMETHODIMP Machine::QuerySavedThumbnailSize(ULONG aScreenId, ULONG *aSize, ULONG *aWidth, ULONG *aHeight)
4686{
4687 LogFlowThisFunc(("\n"));
4688
4689 CheckComArgNotNull(aSize);
4690 CheckComArgNotNull(aWidth);
4691 CheckComArgNotNull(aHeight);
4692
4693 if (aScreenId != 0)
4694 return E_NOTIMPL;
4695
4696 AutoCaller autoCaller(this);
4697 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4698
4699 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4700
4701 uint8_t *pu8Data = NULL;
4702 uint32_t cbData = 0;
4703 uint32_t u32Width = 0;
4704 uint32_t u32Height = 0;
4705
4706 int vrc = readSavedDisplayScreenshot(&mSSData->mStateFilePath, 0 /* u32Type */, &pu8Data, &cbData, &u32Width, &u32Height);
4707
4708 if (RT_FAILURE(vrc))
4709 return setError(VBOX_E_IPRT_ERROR,
4710 tr("Saved screenshot data is not available (%Rrc)"),
4711 vrc);
4712
4713 *aSize = cbData;
4714 *aWidth = u32Width;
4715 *aHeight = u32Height;
4716
4717 freeSavedDisplayScreenshot(pu8Data);
4718
4719 return S_OK;
4720}
4721
4722STDMETHODIMP Machine::ReadSavedThumbnailToArray(ULONG aScreenId, BOOL aBGR, ULONG *aWidth, ULONG *aHeight, ComSafeArrayOut(BYTE, aData))
4723{
4724 LogFlowThisFunc(("\n"));
4725
4726 CheckComArgNotNull(aWidth);
4727 CheckComArgNotNull(aHeight);
4728 CheckComArgOutSafeArrayPointerValid(aData);
4729
4730 if (aScreenId != 0)
4731 return E_NOTIMPL;
4732
4733 AutoCaller autoCaller(this);
4734 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4735
4736 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4737
4738 uint8_t *pu8Data = NULL;
4739 uint32_t cbData = 0;
4740 uint32_t u32Width = 0;
4741 uint32_t u32Height = 0;
4742
4743 int vrc = readSavedDisplayScreenshot(&mSSData->mStateFilePath, 0 /* u32Type */, &pu8Data, &cbData, &u32Width, &u32Height);
4744
4745 if (RT_FAILURE(vrc))
4746 return setError(VBOX_E_IPRT_ERROR,
4747 tr("Saved screenshot data is not available (%Rrc)"),
4748 vrc);
4749
4750 *aWidth = u32Width;
4751 *aHeight = u32Height;
4752
4753 com::SafeArray<BYTE> bitmap(cbData);
4754 /* Convert pixels to format expected by the API caller. */
4755 if (aBGR)
4756 {
4757 /* [0] B, [1] G, [2] R, [3] A. */
4758 for (unsigned i = 0; i < cbData; i += 4)
4759 {
4760 bitmap[i] = pu8Data[i];
4761 bitmap[i + 1] = pu8Data[i + 1];
4762 bitmap[i + 2] = pu8Data[i + 2];
4763 bitmap[i + 3] = 0xff;
4764 }
4765 }
4766 else
4767 {
4768 /* [0] R, [1] G, [2] B, [3] A. */
4769 for (unsigned i = 0; i < cbData; i += 4)
4770 {
4771 bitmap[i] = pu8Data[i + 2];
4772 bitmap[i + 1] = pu8Data[i + 1];
4773 bitmap[i + 2] = pu8Data[i];
4774 bitmap[i + 3] = 0xff;
4775 }
4776 }
4777 bitmap.detachTo(ComSafeArrayOutArg(aData));
4778
4779 freeSavedDisplayScreenshot(pu8Data);
4780
4781 return S_OK;
4782}
4783
4784STDMETHODIMP Machine::QuerySavedScreenshotPNGSize(ULONG aScreenId, ULONG *aSize, ULONG *aWidth, ULONG *aHeight)
4785{
4786 LogFlowThisFunc(("\n"));
4787
4788 CheckComArgNotNull(aSize);
4789 CheckComArgNotNull(aWidth);
4790 CheckComArgNotNull(aHeight);
4791
4792 if (aScreenId != 0)
4793 return E_NOTIMPL;
4794
4795 AutoCaller autoCaller(this);
4796 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4797
4798 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4799
4800 uint8_t *pu8Data = NULL;
4801 uint32_t cbData = 0;
4802 uint32_t u32Width = 0;
4803 uint32_t u32Height = 0;
4804
4805 int vrc = readSavedDisplayScreenshot(&mSSData->mStateFilePath, 1 /* u32Type */, &pu8Data, &cbData, &u32Width, &u32Height);
4806
4807 if (RT_FAILURE(vrc))
4808 return setError(VBOX_E_IPRT_ERROR,
4809 tr("Saved screenshot data is not available (%Rrc)"),
4810 vrc);
4811
4812 *aSize = cbData;
4813 *aWidth = u32Width;
4814 *aHeight = u32Height;
4815
4816 freeSavedDisplayScreenshot(pu8Data);
4817
4818 return S_OK;
4819}
4820
4821STDMETHODIMP Machine::ReadSavedScreenshotPNGToArray(ULONG aScreenId, ULONG *aWidth, ULONG *aHeight, ComSafeArrayOut(BYTE, aData))
4822{
4823 LogFlowThisFunc(("\n"));
4824
4825 CheckComArgNotNull(aWidth);
4826 CheckComArgNotNull(aHeight);
4827 CheckComArgOutSafeArrayPointerValid(aData);
4828
4829 if (aScreenId != 0)
4830 return E_NOTIMPL;
4831
4832 AutoCaller autoCaller(this);
4833 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4834
4835 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4836
4837 uint8_t *pu8Data = NULL;
4838 uint32_t cbData = 0;
4839 uint32_t u32Width = 0;
4840 uint32_t u32Height = 0;
4841
4842 int vrc = readSavedDisplayScreenshot(&mSSData->mStateFilePath, 1 /* u32Type */, &pu8Data, &cbData, &u32Width, &u32Height);
4843
4844 if (RT_FAILURE(vrc))
4845 return setError(VBOX_E_IPRT_ERROR,
4846 tr("Saved screenshot data is not available (%Rrc)"),
4847 vrc);
4848
4849 *aWidth = u32Width;
4850 *aHeight = u32Height;
4851
4852 com::SafeArray<BYTE> png(cbData);
4853 for (unsigned i = 0; i < cbData; i++)
4854 png[i] = pu8Data[i];
4855 png.detachTo(ComSafeArrayOutArg(aData));
4856
4857 freeSavedDisplayScreenshot(pu8Data);
4858
4859 return S_OK;
4860}
4861
4862STDMETHODIMP Machine::HotPlugCPU(ULONG aCpu)
4863{
4864 HRESULT rc = S_OK;
4865 LogFlowThisFunc(("\n"));
4866
4867 AutoCaller autoCaller(this);
4868 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4869
4870 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
4871
4872 if (!mHWData->mCPUHotPlugEnabled)
4873 return setError(E_INVALIDARG, tr("CPU hotplug is not enabled"));
4874
4875 if (aCpu >= mHWData->mCPUCount)
4876 return setError(E_INVALIDARG, tr("CPU id exceeds number of possible CPUs [0:%lu]"), mHWData->mCPUCount-1);
4877
4878 if (mHWData->mCPUAttached[aCpu])
4879 return setError(VBOX_E_OBJECT_IN_USE, tr("CPU %lu is already attached"), aCpu);
4880
4881 alock.release();
4882 rc = onCPUChange(aCpu, false);
4883 alock.acquire();
4884 if (FAILED(rc)) return rc;
4885
4886 setModified(IsModified_MachineData);
4887 mHWData.backup();
4888 mHWData->mCPUAttached[aCpu] = true;
4889
4890 /* Save settings if online */
4891 if (Global::IsOnline(mData->mMachineState))
4892 saveSettings(NULL);
4893
4894 return S_OK;
4895}
4896
4897STDMETHODIMP Machine::HotUnplugCPU(ULONG aCpu)
4898{
4899 HRESULT rc = S_OK;
4900 LogFlowThisFunc(("\n"));
4901
4902 AutoCaller autoCaller(this);
4903 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4904
4905 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
4906
4907 if (!mHWData->mCPUHotPlugEnabled)
4908 return setError(E_INVALIDARG, tr("CPU hotplug is not enabled"));
4909
4910 if (aCpu >= SchemaDefs::MaxCPUCount)
4911 return setError(E_INVALIDARG,
4912 tr("CPU index exceeds maximum CPU count (must be in range [0:%lu])"),
4913 SchemaDefs::MaxCPUCount);
4914
4915 if (!mHWData->mCPUAttached[aCpu])
4916 return setError(VBOX_E_OBJECT_NOT_FOUND, tr("CPU %lu is not attached"), aCpu);
4917
4918 /* CPU 0 can't be detached */
4919 if (aCpu == 0)
4920 return setError(E_INVALIDARG, tr("It is not possible to detach CPU 0"));
4921
4922 alock.release();
4923 rc = onCPUChange(aCpu, true);
4924 alock.acquire();
4925 if (FAILED(rc)) return rc;
4926
4927 setModified(IsModified_MachineData);
4928 mHWData.backup();
4929 mHWData->mCPUAttached[aCpu] = false;
4930
4931 /* Save settings if online */
4932 if (Global::IsOnline(mData->mMachineState))
4933 saveSettings(NULL);
4934
4935 return S_OK;
4936}
4937
4938STDMETHODIMP Machine::GetCPUStatus(ULONG aCpu, BOOL *aCpuAttached)
4939{
4940 LogFlowThisFunc(("\n"));
4941
4942 CheckComArgNotNull(aCpuAttached);
4943
4944 *aCpuAttached = false;
4945
4946 AutoCaller autoCaller(this);
4947 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4948
4949 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4950
4951 /* If hotplug is enabled the CPU is always enabled. */
4952 if (!mHWData->mCPUHotPlugEnabled)
4953 {
4954 if (aCpu < mHWData->mCPUCount)
4955 *aCpuAttached = true;
4956 }
4957 else
4958 {
4959 if (aCpu < SchemaDefs::MaxCPUCount)
4960 *aCpuAttached = mHWData->mCPUAttached[aCpu];
4961 }
4962
4963 return S_OK;
4964}
4965
4966STDMETHODIMP Machine::QueryLogFilename(ULONG aIdx, BSTR *aName)
4967{
4968 CheckComArgOutPointerValid(aName);
4969
4970 AutoCaller autoCaller(this);
4971 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4972
4973 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4974
4975 Utf8Str log = queryLogFilename(aIdx);
4976 if (!RTFileExists(log.c_str()))
4977 log.setNull();
4978 log.cloneTo(aName);
4979
4980 return S_OK;
4981}
4982
4983STDMETHODIMP Machine::ReadLog(ULONG aIdx, ULONG64 aOffset, ULONG64 aSize, ComSafeArrayOut(BYTE, aData))
4984{
4985 LogFlowThisFunc(("\n"));
4986 CheckComArgOutSafeArrayPointerValid(aData);
4987
4988 AutoCaller autoCaller(this);
4989 if (FAILED(autoCaller.rc())) return autoCaller.rc();
4990
4991 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
4992
4993 HRESULT rc = S_OK;
4994 Utf8Str log = queryLogFilename(aIdx);
4995
4996 /* do not unnecessarily hold the lock while doing something which does
4997 * not need the lock and potentially takes a long time. */
4998 alock.release();
4999
5000 /* Limit the chunk size to 32K for now, as that gives better performance
5001 * over (XP)COM, and keeps the SOAP reply size under 1M for the webservice.
5002 * One byte expands to approx. 25 bytes of breathtaking XML. */
5003 size_t cbData = (size_t)RT_MIN(aSize, 32768);
5004 com::SafeArray<BYTE> logData(cbData);
5005
5006 RTFILE LogFile;
5007 int vrc = RTFileOpen(&LogFile, log.raw(),
5008 RTFILE_O_OPEN | RTFILE_O_READ | RTFILE_O_DENY_NONE);
5009 if (RT_SUCCESS(vrc))
5010 {
5011 vrc = RTFileReadAt(LogFile, aOffset, logData.raw(), cbData, &cbData);
5012 if (RT_SUCCESS(vrc))
5013 logData.resize(cbData);
5014 else
5015 rc = setError(VBOX_E_IPRT_ERROR,
5016 tr("Could not read log file '%s' (%Rrc)"),
5017 log.raw(), vrc);
5018 }
5019 else
5020 rc = setError(VBOX_E_IPRT_ERROR,
5021 tr("Could not open log file '%s' (%Rrc)"),
5022 log.raw(), vrc);
5023
5024 if (FAILED(rc))
5025 logData.resize(0);
5026 logData.detachTo(ComSafeArrayOutArg(aData));
5027
5028 return rc;
5029}
5030
5031
5032// public methods for internal purposes
5033/////////////////////////////////////////////////////////////////////////////
5034
5035/**
5036 * Adds the given IsModified_* flag to the dirty flags of the machine.
5037 * This must be called either during loadSettings or under the machine write lock.
5038 * @param fl
5039 */
5040void Machine::setModified(uint32_t fl)
5041{
5042 mData->flModifications |= fl;
5043}
5044
5045/**
5046 * Saves the registry entry of this machine to the given configuration node.
5047 *
5048 * @param aEntryNode Node to save the registry entry to.
5049 *
5050 * @note locks this object for reading.
5051 */
5052HRESULT Machine::saveRegistryEntry(settings::MachineRegistryEntry &data)
5053{
5054 AutoLimitedCaller autoCaller(this);
5055 AssertComRCReturnRC(autoCaller.rc());
5056
5057 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
5058
5059 data.uuid = mData->mUuid;
5060 data.strSettingsFile = mData->m_strConfigFile;
5061
5062 return S_OK;
5063}
5064
5065/**
5066 * Calculates the absolute path of the given path taking the directory of the
5067 * machine settings file as the current directory.
5068 *
5069 * @param aPath Path to calculate the absolute path for.
5070 * @param aResult Where to put the result (used only on success, can be the
5071 * same Utf8Str instance as passed in @a aPath).
5072 * @return IPRT result.
5073 *
5074 * @note Locks this object for reading.
5075 */
5076int Machine::calculateFullPath(const Utf8Str &strPath, Utf8Str &aResult)
5077{
5078 AutoCaller autoCaller(this);
5079 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
5080
5081 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
5082
5083 AssertReturn(!mData->m_strConfigFileFull.isEmpty(), VERR_GENERAL_FAILURE);
5084
5085 Utf8Str strSettingsDir = mData->m_strConfigFileFull;
5086
5087 strSettingsDir.stripFilename();
5088 char folder[RTPATH_MAX];
5089 int vrc = RTPathAbsEx(strSettingsDir.c_str(), strPath.c_str(), folder, sizeof(folder));
5090 if (RT_SUCCESS(vrc))
5091 aResult = folder;
5092
5093 return vrc;
5094}
5095
5096/**
5097 * Copies strSource to strTarget, making it relative to the machine folder
5098 * if it is a subdirectory thereof, or simply copying it otherwise.
5099 *
5100 * @param strSource Path to evalue and copy.
5101 * @param strTarget Buffer to receive target path.
5102 *
5103 * @note Locks this object for reading.
5104 */
5105void Machine::copyPathRelativeToMachine(const Utf8Str &strSource,
5106 Utf8Str &strTarget)
5107{
5108 AutoCaller autoCaller(this);
5109 AssertComRCReturn(autoCaller.rc(), (void)0);
5110
5111 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
5112
5113 AssertReturnVoid(!mData->m_strConfigFileFull.isEmpty());
5114 // use strTarget as a temporary buffer to hold the machine settings dir
5115 strTarget = mData->m_strConfigFileFull;
5116 strTarget.stripFilename();
5117 if (RTPathStartsWith(strSource.c_str(), strTarget.c_str()))
5118 // is relative: then append what's left
5119 strTarget.append(strSource.c_str() + strTarget.length()); // include '/'
5120 else
5121 // is not relative: then overwrite
5122 strTarget = strSource;
5123}
5124
5125/**
5126 * Returns the full path to the machine's log folder in the
5127 * \a aLogFolder argument.
5128 */
5129void Machine::getLogFolder(Utf8Str &aLogFolder)
5130{
5131 AutoCaller autoCaller(this);
5132 AssertComRCReturnVoid(autoCaller.rc());
5133
5134 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
5135
5136 Utf8Str settingsDir;
5137 if (isInOwnDir(&settingsDir))
5138 {
5139 /* Log folder is <Machines>/<VM_Name>/Logs */
5140 aLogFolder = Utf8StrFmt("%s%cLogs", settingsDir.raw(), RTPATH_DELIMITER);
5141 }
5142 else
5143 {
5144 /* Log folder is <Machines>/<VM_SnapshotFolder>/Logs */
5145 Assert(!mUserData->mSnapshotFolderFull.isEmpty());
5146 aLogFolder = Utf8StrFmt ("%ls%cLogs", mUserData->mSnapshotFolderFull.raw(),
5147 RTPATH_DELIMITER);
5148 }
5149}
5150
5151/**
5152 * Returns the full path to the machine's log file for an given index.
5153 */
5154Utf8Str Machine::queryLogFilename(ULONG idx)
5155{
5156 Utf8Str logFolder;
5157 getLogFolder(logFolder);
5158 Assert(logFolder.length());
5159 Utf8Str log;
5160 if (idx == 0)
5161 log = Utf8StrFmt("%s%cVBox.log",
5162 logFolder.raw(), RTPATH_DELIMITER);
5163 else
5164 log = Utf8StrFmt("%s%cVBox.log.%d",
5165 logFolder.raw(), RTPATH_DELIMITER, idx);
5166 return log;
5167}
5168
5169/**
5170 * @note Locks this object for writing, calls the client process (outside the
5171 * lock).
5172 */
5173HRESULT Machine::openSession(IInternalSessionControl *aControl)
5174{
5175 LogFlowThisFuncEnter();
5176
5177 AssertReturn(aControl, E_FAIL);
5178
5179 AutoCaller autoCaller(this);
5180 if (FAILED(autoCaller.rc()))
5181 return autoCaller.rc();
5182
5183 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
5184
5185 if (!mData->mRegistered)
5186 return setError(E_UNEXPECTED,
5187 tr("The machine '%ls' is not registered"),
5188 mUserData->mName.raw());
5189
5190 LogFlowThisFunc(("mSession.mState=%s\n", Global::stringifySessionState(mData->mSession.mState)));
5191
5192 /* Hack: in case the session is closing and there is a progress object
5193 * which allows waiting for the session to be closed, take the opportunity
5194 * and do a limited wait (max. 1 second). This helps a lot when the system
5195 * is busy and thus session closing can take a little while. */
5196 if ( mData->mSession.mState == SessionState_Closing
5197 && mData->mSession.mProgress)
5198 {
5199 alock.leave();
5200 mData->mSession.mProgress->WaitForCompletion(1000);
5201 alock.enter();
5202 LogFlowThisFunc(("after waiting: mSession.mState=%s\n", Global::stringifySessionState(mData->mSession.mState)));
5203 }
5204
5205 if (mData->mSession.mState == SessionState_Open ||
5206 mData->mSession.mState == SessionState_Closing)
5207 return setError(VBOX_E_INVALID_OBJECT_STATE,
5208 tr("A session for the machine '%ls' is currently open (or being closed)"),
5209 mUserData->mName.raw());
5210
5211 /* may not be busy */
5212 AssertReturn(!Global::IsOnlineOrTransient(mData->mMachineState), E_FAIL);
5213
5214 /* get the session PID */
5215 RTPROCESS pid = NIL_RTPROCESS;
5216 AssertCompile(sizeof(ULONG) == sizeof(RTPROCESS));
5217 aControl->GetPID((ULONG *) &pid);
5218 Assert(pid != NIL_RTPROCESS);
5219
5220 if (mData->mSession.mState == SessionState_Spawning)
5221 {
5222 /* This machine is awaiting for a spawning session to be opened, so
5223 * reject any other open attempts from processes other than one
5224 * started by #openRemoteSession(). */
5225
5226 LogFlowThisFunc(("mSession.mPid=%d(0x%x)\n",
5227 mData->mSession.mPid, mData->mSession.mPid));
5228 LogFlowThisFunc(("session.pid=%d(0x%x)\n", pid, pid));
5229
5230 if (mData->mSession.mPid != pid)
5231 return setError(E_ACCESSDENIED,
5232 tr("An unexpected process (PID=0x%08X) has tried to open a direct "
5233 "session with the machine named '%ls', while only a process "
5234 "started by OpenRemoteSession (PID=0x%08X) is allowed"),
5235 pid, mUserData->mName.raw(), mData->mSession.mPid);
5236 }
5237
5238 /* create a SessionMachine object */
5239 ComObjPtr<SessionMachine> sessionMachine;
5240 sessionMachine.createObject();
5241 HRESULT rc = sessionMachine->init(this);
5242 AssertComRC(rc);
5243
5244 /* NOTE: doing return from this function after this point but
5245 * before the end is forbidden since it may call SessionMachine::uninit()
5246 * (through the ComObjPtr's destructor) which requests the VirtualBox write
5247 * lock while still holding the Machine lock in alock so that a deadlock
5248 * is possible due to the wrong lock order. */
5249
5250 if (SUCCEEDED(rc))
5251 {
5252#ifdef VBOX_WITH_RESOURCE_USAGE_API
5253 registerMetrics(mParent->performanceCollector(), this, pid);
5254#endif /* VBOX_WITH_RESOURCE_USAGE_API */
5255
5256 /*
5257 * Set the session state to Spawning to protect against subsequent
5258 * attempts to open a session and to unregister the machine after
5259 * we leave the lock.
5260 */
5261 SessionState_T origState = mData->mSession.mState;
5262 mData->mSession.mState = SessionState_Spawning;
5263
5264 /*
5265 * Leave the lock before calling the client process -- it will call
5266 * Machine/SessionMachine methods. Leaving the lock here is quite safe
5267 * because the state is Spawning, so that openRemotesession() and
5268 * openExistingSession() calls will fail. This method, called before we
5269 * enter the lock again, will fail because of the wrong PID.
5270 *
5271 * Note that mData->mSession.mRemoteControls accessed outside
5272 * the lock may not be modified when state is Spawning, so it's safe.
5273 */
5274 alock.leave();
5275
5276 LogFlowThisFunc(("Calling AssignMachine()...\n"));
5277 rc = aControl->AssignMachine(sessionMachine);
5278 LogFlowThisFunc(("AssignMachine() returned %08X\n", rc));
5279
5280 /* The failure may occur w/o any error info (from RPC), so provide one */
5281 if (FAILED(rc))
5282 setError(VBOX_E_VM_ERROR,
5283 tr("Failed to assign the machine to the session (%Rrc)"), rc);
5284
5285 if (SUCCEEDED(rc) && origState == SessionState_Spawning)
5286 {
5287 /* complete the remote session initialization */
5288
5289 /* get the console from the direct session */
5290 ComPtr<IConsole> console;
5291 rc = aControl->GetRemoteConsole(console.asOutParam());
5292 ComAssertComRC(rc);
5293
5294 if (SUCCEEDED(rc) && !console)
5295 {
5296 ComAssert(!!console);
5297 rc = E_FAIL;
5298 }
5299
5300 /* assign machine & console to the remote session */
5301 if (SUCCEEDED(rc))
5302 {
5303 /*
5304 * after openRemoteSession(), the first and the only
5305 * entry in remoteControls is that remote session
5306 */
5307 LogFlowThisFunc(("Calling AssignRemoteMachine()...\n"));
5308 rc = mData->mSession.mRemoteControls.front()->
5309 AssignRemoteMachine(sessionMachine, console);
5310 LogFlowThisFunc(("AssignRemoteMachine() returned %08X\n", rc));
5311
5312 /* The failure may occur w/o any error info (from RPC), so provide one */
5313 if (FAILED(rc))
5314 setError(VBOX_E_VM_ERROR,
5315 tr("Failed to assign the machine to the remote session (%Rrc)"), rc);
5316 }
5317
5318 if (FAILED(rc))
5319 aControl->Uninitialize();
5320 }
5321
5322 /* enter the lock again */
5323 alock.enter();
5324
5325 /* Restore the session state */
5326 mData->mSession.mState = origState;
5327 }
5328
5329 /* finalize spawning anyway (this is why we don't return on errors above) */
5330 if (mData->mSession.mState == SessionState_Spawning)
5331 {
5332 /* Note that the progress object is finalized later */
5333 /** @todo Consider checking mData->mSession.mProgress for cancellation
5334 * around here. */
5335
5336 /* We don't reset mSession.mPid here because it is necessary for
5337 * SessionMachine::uninit() to reap the child process later. */
5338
5339 if (FAILED(rc))
5340 {
5341 /* Close the remote session, remove the remote control from the list
5342 * and reset session state to Closed (@note keep the code in sync
5343 * with the relevant part in openSession()). */
5344
5345 Assert(mData->mSession.mRemoteControls.size() == 1);
5346 if (mData->mSession.mRemoteControls.size() == 1)
5347 {
5348 ErrorInfoKeeper eik;
5349 mData->mSession.mRemoteControls.front()->Uninitialize();
5350 }
5351
5352 mData->mSession.mRemoteControls.clear();
5353 mData->mSession.mState = SessionState_Closed;
5354 }
5355 }
5356 else
5357 {
5358 /* memorize PID of the directly opened session */
5359 if (SUCCEEDED(rc))
5360 mData->mSession.mPid = pid;
5361 }
5362
5363 if (SUCCEEDED(rc))
5364 {
5365 /* memorize the direct session control and cache IUnknown for it */
5366 mData->mSession.mDirectControl = aControl;
5367 mData->mSession.mState = SessionState_Open;
5368 /* associate the SessionMachine with this Machine */
5369 mData->mSession.mMachine = sessionMachine;
5370
5371 /* request an IUnknown pointer early from the remote party for later
5372 * identity checks (it will be internally cached within mDirectControl
5373 * at least on XPCOM) */
5374 ComPtr<IUnknown> unk = mData->mSession.mDirectControl;
5375 NOREF(unk);
5376 }
5377
5378 /* Leave the lock since SessionMachine::uninit() locks VirtualBox which
5379 * would break the lock order */
5380 alock.leave();
5381
5382 /* uninitialize the created session machine on failure */
5383 if (FAILED(rc))
5384 sessionMachine->uninit();
5385
5386 LogFlowThisFunc(("rc=%Rhrc\n", rc));
5387 LogFlowThisFuncLeave();
5388 return rc;
5389}
5390
5391/**
5392 * @note Locks this object for writing, calls the client process
5393 * (inside the lock).
5394 */
5395HRESULT Machine::openRemoteSession(IInternalSessionControl *aControl,
5396 IN_BSTR aType,
5397 IN_BSTR aEnvironment,
5398 ProgressProxy *aProgress)
5399{
5400 LogFlowThisFuncEnter();
5401
5402 AssertReturn(aControl, E_FAIL);
5403 AssertReturn(aProgress, E_FAIL);
5404
5405 AutoCaller autoCaller(this);
5406 if (FAILED(autoCaller.rc())) return autoCaller.rc();
5407
5408 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
5409
5410 if (!mData->mRegistered)
5411 return setError(E_UNEXPECTED,
5412 tr("The machine '%ls' is not registered"),
5413 mUserData->mName.raw());
5414
5415 LogFlowThisFunc(("mSession.mState=%s\n", Global::stringifySessionState(mData->mSession.mState)));
5416
5417 if (mData->mSession.mState == SessionState_Open ||
5418 mData->mSession.mState == SessionState_Spawning ||
5419 mData->mSession.mState == SessionState_Closing)
5420 return setError(VBOX_E_INVALID_OBJECT_STATE,
5421 tr("A session for the machine '%ls' is currently open (or being opened or closed)"),
5422 mUserData->mName.raw());
5423
5424 /* may not be busy */
5425 AssertReturn(!Global::IsOnlineOrTransient(mData->mMachineState), E_FAIL);
5426
5427 /* get the path to the executable */
5428 char szPath[RTPATH_MAX];
5429 RTPathAppPrivateArch(szPath, RTPATH_MAX);
5430 size_t sz = strlen(szPath);
5431 szPath[sz++] = RTPATH_DELIMITER;
5432 szPath[sz] = 0;
5433 char *cmd = szPath + sz;
5434 sz = RTPATH_MAX - sz;
5435
5436 int vrc = VINF_SUCCESS;
5437 RTPROCESS pid = NIL_RTPROCESS;
5438
5439 RTENV env = RTENV_DEFAULT;
5440
5441 if (aEnvironment != NULL && *aEnvironment)
5442 {
5443 char *newEnvStr = NULL;
5444
5445 do
5446 {
5447 /* clone the current environment */
5448 int vrc2 = RTEnvClone(&env, RTENV_DEFAULT);
5449 AssertRCBreakStmt(vrc2, vrc = vrc2);
5450
5451 newEnvStr = RTStrDup(Utf8Str(aEnvironment).c_str());
5452 AssertPtrBreakStmt(newEnvStr, vrc = vrc2);
5453
5454 /* put new variables to the environment
5455 * (ignore empty variable names here since RTEnv API
5456 * intentionally doesn't do that) */
5457 char *var = newEnvStr;
5458 for (char *p = newEnvStr; *p; ++p)
5459 {
5460 if (*p == '\n' && (p == newEnvStr || *(p - 1) != '\\'))
5461 {
5462 *p = '\0';
5463 if (*var)
5464 {
5465 char *val = strchr(var, '=');
5466 if (val)
5467 {
5468 *val++ = '\0';
5469 vrc2 = RTEnvSetEx(env, var, val);
5470 }
5471 else
5472 vrc2 = RTEnvUnsetEx(env, var);
5473 if (RT_FAILURE(vrc2))
5474 break;
5475 }
5476 var = p + 1;
5477 }
5478 }
5479 if (RT_SUCCESS(vrc2) && *var)
5480 vrc2 = RTEnvPutEx(env, var);
5481
5482 AssertRCBreakStmt(vrc2, vrc = vrc2);
5483 }
5484 while (0);
5485
5486 if (newEnvStr != NULL)
5487 RTStrFree(newEnvStr);
5488 }
5489
5490 Utf8Str strType(aType);
5491
5492 /* Qt is default */
5493#ifdef VBOX_WITH_QTGUI
5494 if (strType == "gui" || strType == "GUI/Qt")
5495 {
5496# ifdef RT_OS_DARWIN /* Avoid Launch Services confusing this with the selector by using a helper app. */
5497 const char VirtualBox_exe[] = "../Resources/VirtualBoxVM.app/Contents/MacOS/VirtualBoxVM";
5498# else
5499 const char VirtualBox_exe[] = "VirtualBox" HOSTSUFF_EXE;
5500# endif
5501 Assert(sz >= sizeof(VirtualBox_exe));
5502 strcpy(cmd, VirtualBox_exe);
5503
5504 Utf8Str idStr = mData->mUuid.toString();
5505 Utf8Str strName = mUserData->mName;
5506 const char * args[] = {szPath, "--comment", strName.c_str(), "--startvm", idStr.c_str(), "--no-startvm-errormsgbox", 0 };
5507 vrc = RTProcCreate(szPath, args, env, 0, &pid);
5508 }
5509#else /* !VBOX_WITH_QTGUI */
5510 if (0)
5511 ;
5512#endif /* VBOX_WITH_QTGUI */
5513
5514 else
5515
5516#ifdef VBOX_WITH_VBOXSDL
5517 if (strType == "sdl" || strType == "GUI/SDL")
5518 {
5519 const char VBoxSDL_exe[] = "VBoxSDL" HOSTSUFF_EXE;
5520 Assert(sz >= sizeof(VBoxSDL_exe));
5521 strcpy(cmd, VBoxSDL_exe);
5522
5523 Utf8Str idStr = mData->mUuid.toString();
5524 Utf8Str strName = mUserData->mName;
5525 const char * args[] = {szPath, "--comment", strName.c_str(), "--startvm", idStr.c_str(), 0 };
5526 vrc = RTProcCreate(szPath, args, env, 0, &pid);
5527 }
5528#else /* !VBOX_WITH_VBOXSDL */
5529 if (0)
5530 ;
5531#endif /* !VBOX_WITH_VBOXSDL */
5532
5533 else
5534
5535#ifdef VBOX_WITH_HEADLESS
5536 if ( strType == "headless"
5537 || strType == "capture"
5538#ifdef VBOX_WITH_VRDP
5539 || strType == "vrdp"
5540#endif
5541 )
5542 {
5543 const char VBoxHeadless_exe[] = "VBoxHeadless" HOSTSUFF_EXE;
5544 Assert(sz >= sizeof(VBoxHeadless_exe));
5545 strcpy(cmd, VBoxHeadless_exe);
5546
5547 Utf8Str idStr = mData->mUuid.toString();
5548 /* Leave space for 2 args, as "headless" needs --vrdp off on non-OSE. */
5549 Utf8Str strName = mUserData->mName;
5550 const char * args[] = {szPath, "--comment", strName.c_str(), "--startvm", idStr.c_str(), 0, 0, 0 };
5551#ifdef VBOX_WITH_VRDP
5552 if (strType == "headless")
5553 {
5554 unsigned pos = RT_ELEMENTS(args) - 3;
5555 args[pos++] = "--vrdp";
5556 args[pos] = "off";
5557 }
5558#endif
5559 if (strType == "capture")
5560 {
5561 unsigned pos = RT_ELEMENTS(args) - 3;
5562 args[pos] = "--capture";
5563 }
5564 vrc = RTProcCreate(szPath, args, env, 0, &pid);
5565 }
5566#else /* !VBOX_WITH_HEADLESS */
5567 if (0)
5568 ;
5569#endif /* !VBOX_WITH_HEADLESS */
5570 else
5571 {
5572 RTEnvDestroy(env);
5573 return setError(E_INVALIDARG,
5574 tr("Invalid session type: '%s'"),
5575 strType.c_str());
5576 }
5577
5578 RTEnvDestroy(env);
5579
5580 if (RT_FAILURE(vrc))
5581 return setError(VBOX_E_IPRT_ERROR,
5582 tr("Could not launch a process for the machine '%ls' (%Rrc)"),
5583 mUserData->mName.raw(), vrc);
5584
5585 LogFlowThisFunc(("launched.pid=%d(0x%x)\n", pid, pid));
5586
5587 /*
5588 * Note that we don't leave the lock here before calling the client,
5589 * because it doesn't need to call us back if called with a NULL argument.
5590 * Leaving the lock herer is dangerous because we didn't prepare the
5591 * launch data yet, but the client we've just started may happen to be
5592 * too fast and call openSession() that will fail (because of PID, etc.),
5593 * so that the Machine will never get out of the Spawning session state.
5594 */
5595
5596 /* inform the session that it will be a remote one */
5597 LogFlowThisFunc(("Calling AssignMachine (NULL)...\n"));
5598 HRESULT rc = aControl->AssignMachine(NULL);
5599 LogFlowThisFunc(("AssignMachine (NULL) returned %08X\n", rc));
5600
5601 if (FAILED(rc))
5602 {
5603 /* restore the session state */
5604 mData->mSession.mState = SessionState_Closed;
5605 /* The failure may occur w/o any error info (from RPC), so provide one */
5606 return setError(VBOX_E_VM_ERROR,
5607 tr("Failed to assign the machine to the session (%Rrc)"), rc);
5608 }
5609
5610 /* attach launch data to the machine */
5611 Assert(mData->mSession.mPid == NIL_RTPROCESS);
5612 mData->mSession.mRemoteControls.push_back (aControl);
5613 mData->mSession.mProgress = aProgress;
5614 mData->mSession.mPid = pid;
5615 mData->mSession.mState = SessionState_Spawning;
5616 mData->mSession.mType = strType;
5617
5618 LogFlowThisFuncLeave();
5619 return S_OK;
5620}
5621
5622
5623/**
5624 * @note Locks this object for writing, calls the client process
5625 * (outside the lock).
5626 */
5627HRESULT Machine::openExistingSession(IInternalSessionControl *aControl)
5628{
5629 LogFlowThisFuncEnter();
5630
5631 AssertReturn(aControl, E_FAIL);
5632
5633 AutoCaller autoCaller(this);
5634 if (FAILED(autoCaller.rc())) return autoCaller.rc();
5635
5636 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
5637
5638 if (!mData->mRegistered)
5639 return setError(E_UNEXPECTED,
5640 tr("The machine '%ls' is not registered"),
5641 mUserData->mName.raw());
5642
5643 LogFlowThisFunc(("mSession.state=%s\n", Global::stringifySessionState(mData->mSession.mState)));
5644
5645 if (mData->mSession.mState != SessionState_Open)
5646 return setError(VBOX_E_INVALID_SESSION_STATE,
5647 tr("The machine '%ls' does not have an open session"),
5648 mUserData->mName.raw());
5649
5650 ComAssertRet(!mData->mSession.mDirectControl.isNull(), E_FAIL);
5651
5652 // copy member variables before leaving lock
5653 ComPtr<IInternalSessionControl> pDirectControl = mData->mSession.mDirectControl;
5654 ComObjPtr<SessionMachine> pSessionMachine = mData->mSession.mMachine;
5655 AssertReturn(!pSessionMachine.isNull(), E_FAIL);
5656
5657 /*
5658 * Leave the lock before calling the client process. It's safe here
5659 * since the only thing to do after we get the lock again is to add
5660 * the remote control to the list (which doesn't directly influence
5661 * anything).
5662 */
5663 alock.leave();
5664
5665 // get the console from the direct session (this is a remote call)
5666 ComPtr<IConsole> pConsole;
5667 LogFlowThisFunc(("Calling GetRemoteConsole()...\n"));
5668 HRESULT rc = pDirectControl->GetRemoteConsole(pConsole.asOutParam());
5669 LogFlowThisFunc(("GetRemoteConsole() returned %08X\n", rc));
5670 if (FAILED (rc))
5671 /* The failure may occur w/o any error info (from RPC), so provide one */
5672 return setError(VBOX_E_VM_ERROR,
5673 tr("Failed to get a console object from the direct session (%Rrc)"), rc);
5674
5675 ComAssertRet(!pConsole.isNull(), E_FAIL);
5676
5677 /* attach the remote session to the machine */
5678 LogFlowThisFunc(("Calling AssignRemoteMachine()...\n"));
5679 rc = aControl->AssignRemoteMachine(pSessionMachine, pConsole);
5680 LogFlowThisFunc(("AssignRemoteMachine() returned %08X\n", rc));
5681
5682 /* The failure may occur w/o any error info (from RPC), so provide one */
5683 if (FAILED(rc))
5684 return setError(VBOX_E_VM_ERROR,
5685 tr("Failed to assign the machine to the session (%Rrc)"),
5686 rc);
5687
5688 alock.enter();
5689
5690 /* need to revalidate the state after entering the lock again */
5691 if (mData->mSession.mState != SessionState_Open)
5692 {
5693 aControl->Uninitialize();
5694
5695 return setError(VBOX_E_INVALID_SESSION_STATE,
5696 tr("The machine '%ls' does not have an open session"),
5697 mUserData->mName.raw());
5698 }
5699
5700 /* store the control in the list */
5701 mData->mSession.mRemoteControls.push_back(aControl);
5702
5703 LogFlowThisFuncLeave();
5704 return S_OK;
5705}
5706
5707/**
5708 * Returns @c true if the given machine has an open direct session and returns
5709 * the session machine instance and additional session data (on some platforms)
5710 * if so.
5711 *
5712 * Note that when the method returns @c false, the arguments remain unchanged.
5713 *
5714 * @param aMachine Session machine object.
5715 * @param aControl Direct session control object (optional).
5716 * @param aIPCSem Mutex IPC semaphore handle for this machine (optional).
5717 *
5718 * @note locks this object for reading.
5719 */
5720#if defined(RT_OS_WINDOWS)
5721bool Machine::isSessionOpen(ComObjPtr<SessionMachine> &aMachine,
5722 ComPtr<IInternalSessionControl> *aControl /*= NULL*/,
5723 HANDLE *aIPCSem /*= NULL*/,
5724 bool aAllowClosing /*= false*/)
5725#elif defined(RT_OS_OS2)
5726bool Machine::isSessionOpen(ComObjPtr<SessionMachine> &aMachine,
5727 ComPtr<IInternalSessionControl> *aControl /*= NULL*/,
5728 HMTX *aIPCSem /*= NULL*/,
5729 bool aAllowClosing /*= false*/)
5730#else
5731bool Machine::isSessionOpen(ComObjPtr<SessionMachine> &aMachine,
5732 ComPtr<IInternalSessionControl> *aControl /*= NULL*/,
5733 bool aAllowClosing /*= false*/)
5734#endif
5735{
5736 AutoLimitedCaller autoCaller(this);
5737 AssertComRCReturn(autoCaller.rc(), false);
5738
5739 /* just return false for inaccessible machines */
5740 if (autoCaller.state() != Ready)
5741 return false;
5742
5743 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
5744
5745 if (mData->mSession.mState == SessionState_Open ||
5746 (aAllowClosing && mData->mSession.mState == SessionState_Closing))
5747 {
5748 AssertReturn(!mData->mSession.mMachine.isNull(), false);
5749
5750 aMachine = mData->mSession.mMachine;
5751
5752 if (aControl != NULL)
5753 *aControl = mData->mSession.mDirectControl;
5754
5755#if defined(RT_OS_WINDOWS) || defined(RT_OS_OS2)
5756 /* Additional session data */
5757 if (aIPCSem != NULL)
5758 *aIPCSem = aMachine->mIPCSem;
5759#endif
5760 return true;
5761 }
5762
5763 return false;
5764}
5765
5766/**
5767 * Returns @c true if the given machine has an spawning direct session and
5768 * returns and additional session data (on some platforms) if so.
5769 *
5770 * Note that when the method returns @c false, the arguments remain unchanged.
5771 *
5772 * @param aPID PID of the spawned direct session process.
5773 *
5774 * @note locks this object for reading.
5775 */
5776#if defined(RT_OS_WINDOWS) || defined(RT_OS_OS2)
5777bool Machine::isSessionSpawning(RTPROCESS *aPID /*= NULL*/)
5778#else
5779bool Machine::isSessionSpawning()
5780#endif
5781{
5782 AutoLimitedCaller autoCaller(this);
5783 AssertComRCReturn(autoCaller.rc(), false);
5784
5785 /* just return false for inaccessible machines */
5786 if (autoCaller.state() != Ready)
5787 return false;
5788
5789 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
5790
5791 if (mData->mSession.mState == SessionState_Spawning)
5792 {
5793#if defined(RT_OS_WINDOWS) || defined(RT_OS_OS2)
5794 /* Additional session data */
5795 if (aPID != NULL)
5796 {
5797 AssertReturn(mData->mSession.mPid != NIL_RTPROCESS, false);
5798 *aPID = mData->mSession.mPid;
5799 }
5800#endif
5801 return true;
5802 }
5803
5804 return false;
5805}
5806
5807/**
5808 * Called from the client watcher thread to check for unexpected client process
5809 * death during Session_Spawning state (e.g. before it successfully opened a
5810 * direct session).
5811 *
5812 * On Win32 and on OS/2, this method is called only when we've got the
5813 * direct client's process termination notification, so it always returns @c
5814 * true.
5815 *
5816 * On other platforms, this method returns @c true if the client process is
5817 * terminated and @c false if it's still alive.
5818 *
5819 * @note Locks this object for writing.
5820 */
5821bool Machine::checkForSpawnFailure()
5822{
5823 AutoCaller autoCaller(this);
5824 if (!autoCaller.isOk())
5825 {
5826 /* nothing to do */
5827 LogFlowThisFunc(("Already uninitialized!\n"));
5828 return true;
5829 }
5830
5831 /* VirtualBox::addProcessToReap() needs a write lock */
5832 AutoMultiWriteLock2 alock(mParent, this COMMA_LOCKVAL_SRC_POS);
5833
5834 if (mData->mSession.mState != SessionState_Spawning)
5835 {
5836 /* nothing to do */
5837 LogFlowThisFunc(("Not spawning any more!\n"));
5838 return true;
5839 }
5840
5841 HRESULT rc = S_OK;
5842
5843#if defined(RT_OS_WINDOWS) || defined(RT_OS_OS2)
5844
5845 /* the process was already unexpectedly terminated, we just need to set an
5846 * error and finalize session spawning */
5847 rc = setError(E_FAIL,
5848 tr("The virtual machine '%ls' has terminated unexpectedly during startup"),
5849 getName().raw());
5850#else
5851
5852 /* PID not yet initialized, skip check. */
5853 if (mData->mSession.mPid == NIL_RTPROCESS)
5854 return false;
5855
5856 RTPROCSTATUS status;
5857 int vrc = ::RTProcWait(mData->mSession.mPid, RTPROCWAIT_FLAGS_NOBLOCK,
5858 &status);
5859
5860 if (vrc != VERR_PROCESS_RUNNING)
5861 {
5862 if (RT_SUCCESS(vrc) && status.enmReason == RTPROCEXITREASON_NORMAL)
5863 rc = setError(E_FAIL,
5864 tr("The virtual machine '%ls' has terminated unexpectedly during startup with exit code %d"),
5865 getName().raw(), status.iStatus);
5866 else if (RT_SUCCESS(vrc) && status.enmReason == RTPROCEXITREASON_SIGNAL)
5867 rc = setError(E_FAIL,
5868 tr("The virtual machine '%ls' has terminated unexpectedly during startup because of signal %d"),
5869 getName().raw(), status.iStatus);
5870 else if (RT_SUCCESS(vrc) && status.enmReason == RTPROCEXITREASON_ABEND)
5871 rc = setError(E_FAIL,
5872 tr("The virtual machine '%ls' has terminated abnormally"),
5873 getName().raw(), status.iStatus);
5874 else
5875 rc = setError(E_FAIL,
5876 tr("The virtual machine '%ls' has terminated unexpectedly during startup (%Rrc)"),
5877 getName().raw(), rc);
5878 }
5879
5880#endif
5881
5882 if (FAILED(rc))
5883 {
5884 /* Close the remote session, remove the remote control from the list
5885 * and reset session state to Closed (@note keep the code in sync with
5886 * the relevant part in checkForSpawnFailure()). */
5887
5888 Assert(mData->mSession.mRemoteControls.size() == 1);
5889 if (mData->mSession.mRemoteControls.size() == 1)
5890 {
5891 ErrorInfoKeeper eik;
5892 mData->mSession.mRemoteControls.front()->Uninitialize();
5893 }
5894
5895 mData->mSession.mRemoteControls.clear();
5896 mData->mSession.mState = SessionState_Closed;
5897
5898 /* finalize the progress after setting the state */
5899 if (!mData->mSession.mProgress.isNull())
5900 {
5901 mData->mSession.mProgress->notifyComplete(rc);
5902 mData->mSession.mProgress.setNull();
5903 }
5904
5905 mParent->addProcessToReap(mData->mSession.mPid);
5906 mData->mSession.mPid = NIL_RTPROCESS;
5907
5908 mParent->onSessionStateChange(mData->mUuid, SessionState_Closed);
5909 return true;
5910 }
5911
5912 return false;
5913}
5914
5915/**
5916 * Checks that the registered flag of the machine can be set according to
5917 * the argument and sets it. On success, commits and saves all settings.
5918 *
5919 * @note When this machine is inaccessible, the only valid value for \a
5920 * aRegistered is FALSE (i.e. unregister the machine) because unregistered
5921 * inaccessible machines are not currently supported. Note that unregistering
5922 * an inaccessible machine will \b uninitialize this machine object. Therefore,
5923 * the caller must make sure there are no active Machine::addCaller() calls
5924 * on the current thread because this will block Machine::uninit().
5925 *
5926 * @note Must be called from mParent's write lock. Locks this object and
5927 * children for writing.
5928 */
5929HRESULT Machine::trySetRegistered(BOOL argNewRegistered)
5930{
5931 AssertReturn(mParent->isWriteLockOnCurrentThread(), E_FAIL);
5932
5933 AutoLimitedCaller autoCaller(this);
5934 AssertComRCReturnRC(autoCaller.rc());
5935
5936 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
5937
5938 /* wait for state dependants to drop to zero */
5939 ensureNoStateDependencies();
5940
5941 ComAssertRet(mData->mRegistered != argNewRegistered, E_FAIL);
5942
5943 if (!mData->mAccessible)
5944 {
5945 /* A special case: the machine is not accessible. */
5946
5947 /* inaccessible machines can only be unregistered */
5948 AssertReturn(!argNewRegistered, E_FAIL);
5949
5950 /* Uninitialize ourselves here because currently there may be no
5951 * unregistered that are inaccessible (this state combination is not
5952 * supported). Note releasing the caller and leaving the lock before
5953 * calling uninit() */
5954
5955 alock.leave();
5956 autoCaller.release();
5957
5958 uninit();
5959
5960 return S_OK;
5961 }
5962
5963 AssertReturn(autoCaller.state() == Ready, E_FAIL);
5964
5965 if (argNewRegistered)
5966 {
5967 if (mData->mRegistered)
5968 return setError(VBOX_E_INVALID_OBJECT_STATE,
5969 tr("The machine '%ls' with UUID {%s} is already registered"),
5970 mUserData->mName.raw(),
5971 mData->mUuid.toString().raw());
5972 }
5973 else
5974 {
5975 if (mData->mMachineState == MachineState_Saved)
5976 return setError(VBOX_E_INVALID_VM_STATE,
5977 tr("Cannot unregister the machine '%ls' because it is in the Saved state"),
5978 mUserData->mName.raw());
5979
5980 size_t snapshotCount = 0;
5981 if (mData->mFirstSnapshot)
5982 snapshotCount = mData->mFirstSnapshot->getAllChildrenCount() + 1;
5983 if (snapshotCount)
5984 return setError(VBOX_E_INVALID_OBJECT_STATE,
5985 tr("Cannot unregister the machine '%ls' because it has %d snapshots"),
5986 mUserData->mName.raw(), snapshotCount);
5987
5988 if (mData->mSession.mState != SessionState_Closed)
5989 return setError(VBOX_E_INVALID_OBJECT_STATE,
5990 tr("Cannot unregister the machine '%ls' because it has an open session"),
5991 mUserData->mName.raw());
5992
5993 if (mMediaData->mAttachments.size() != 0)
5994 return setError(VBOX_E_INVALID_OBJECT_STATE,
5995 tr("Cannot unregister the machine '%ls' because it has %d medium attachments"),
5996 mUserData->mName.raw(),
5997 mMediaData->mAttachments.size());
5998
5999 /* Note that we do not prevent unregistration of a DVD or Floppy image
6000 * is attached: as opposed to hard disks detaching such an image
6001 * implicitly in this method (which we will do below) won't have any
6002 * side effects (like detached orphan base and diff hard disks etc).*/
6003 }
6004
6005 HRESULT rc = S_OK;
6006
6007 // Ensure the settings are saved. If we are going to be registered and
6008 // no config file exists yet, create it by calling saveSettings() too.
6009 if ( (mData->flModifications)
6010 || (argNewRegistered && !mData->pMachineConfigFile->fileExists())
6011 )
6012 {
6013 rc = saveSettings(NULL);
6014 // no need to check whether VirtualBox.xml needs saving too since
6015 // we can't have a machine XML file rename pending
6016 if (FAILED(rc)) return rc;
6017 }
6018
6019 /* more config checking goes here */
6020
6021 if (SUCCEEDED(rc))
6022 {
6023 /* we may have had implicit modifications we want to fix on success */
6024 commit();
6025
6026 mData->mRegistered = argNewRegistered;
6027 }
6028 else
6029 {
6030 /* we may have had implicit modifications we want to cancel on failure*/
6031 rollback(false /* aNotify */);
6032 }
6033
6034 return rc;
6035}
6036
6037/**
6038 * Increases the number of objects dependent on the machine state or on the
6039 * registered state. Guarantees that these two states will not change at least
6040 * until #releaseStateDependency() is called.
6041 *
6042 * Depending on the @a aDepType value, additional state checks may be made.
6043 * These checks will set extended error info on failure. See
6044 * #checkStateDependency() for more info.
6045 *
6046 * If this method returns a failure, the dependency is not added and the caller
6047 * is not allowed to rely on any particular machine state or registration state
6048 * value and may return the failed result code to the upper level.
6049 *
6050 * @param aDepType Dependency type to add.
6051 * @param aState Current machine state (NULL if not interested).
6052 * @param aRegistered Current registered state (NULL if not interested).
6053 *
6054 * @note Locks this object for writing.
6055 */
6056HRESULT Machine::addStateDependency(StateDependency aDepType /* = AnyStateDep */,
6057 MachineState_T *aState /* = NULL */,
6058 BOOL *aRegistered /* = NULL */)
6059{
6060 AutoCaller autoCaller(this);
6061 AssertComRCReturnRC(autoCaller.rc());
6062
6063 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
6064
6065 HRESULT rc = checkStateDependency(aDepType);
6066 if (FAILED(rc)) return rc;
6067
6068 {
6069 if (mData->mMachineStateChangePending != 0)
6070 {
6071 /* ensureNoStateDependencies() is waiting for state dependencies to
6072 * drop to zero so don't add more. It may make sense to wait a bit
6073 * and retry before reporting an error (since the pending state
6074 * transition should be really quick) but let's just assert for
6075 * now to see if it ever happens on practice. */
6076
6077 AssertFailed();
6078
6079 return setError(E_ACCESSDENIED,
6080 tr("Machine state change is in progress. Please retry the operation later."));
6081 }
6082
6083 ++mData->mMachineStateDeps;
6084 Assert(mData->mMachineStateDeps != 0 /* overflow */);
6085 }
6086
6087 if (aState)
6088 *aState = mData->mMachineState;
6089 if (aRegistered)
6090 *aRegistered = mData->mRegistered;
6091
6092 return S_OK;
6093}
6094
6095/**
6096 * Decreases the number of objects dependent on the machine state.
6097 * Must always complete the #addStateDependency() call after the state
6098 * dependency is no more necessary.
6099 */
6100void Machine::releaseStateDependency()
6101{
6102 AutoCaller autoCaller(this);
6103 AssertComRCReturnVoid(autoCaller.rc());
6104
6105 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
6106
6107 /* releaseStateDependency() w/o addStateDependency()? */
6108 AssertReturnVoid(mData->mMachineStateDeps != 0);
6109 -- mData->mMachineStateDeps;
6110
6111 if (mData->mMachineStateDeps == 0)
6112 {
6113 /* inform ensureNoStateDependencies() that there are no more deps */
6114 if (mData->mMachineStateChangePending != 0)
6115 {
6116 Assert(mData->mMachineStateDepsSem != NIL_RTSEMEVENTMULTI);
6117 RTSemEventMultiSignal (mData->mMachineStateDepsSem);
6118 }
6119 }
6120}
6121
6122// protected methods
6123/////////////////////////////////////////////////////////////////////////////
6124
6125/**
6126 * Performs machine state checks based on the @a aDepType value. If a check
6127 * fails, this method will set extended error info, otherwise it will return
6128 * S_OK. It is supposed, that on failure, the caller will immedieately return
6129 * the return value of this method to the upper level.
6130 *
6131 * When @a aDepType is AnyStateDep, this method always returns S_OK.
6132 *
6133 * When @a aDepType is MutableStateDep, this method returns S_OK only if the
6134 * current state of this machine object allows to change settings of the
6135 * machine (i.e. the machine is not registered, or registered but not running
6136 * and not saved). It is useful to call this method from Machine setters
6137 * before performing any change.
6138 *
6139 * When @a aDepType is MutableOrSavedStateDep, this method behaves the same
6140 * as for MutableStateDep except that if the machine is saved, S_OK is also
6141 * returned. This is useful in setters which allow changing machine
6142 * properties when it is in the saved state.
6143 *
6144 * @param aDepType Dependency type to check.
6145 *
6146 * @note Non Machine based classes should use #addStateDependency() and
6147 * #releaseStateDependency() methods or the smart AutoStateDependency
6148 * template.
6149 *
6150 * @note This method must be called from under this object's read or write
6151 * lock.
6152 */
6153HRESULT Machine::checkStateDependency(StateDependency aDepType)
6154{
6155 switch (aDepType)
6156 {
6157 case AnyStateDep:
6158 {
6159 break;
6160 }
6161 case MutableStateDep:
6162 {
6163 if ( mData->mRegistered
6164 && ( getClassID() != clsidSessionMachine /** @todo This was just convered raw; Check if Running and Paused should actually be included here... (Live Migration) */
6165 || ( mData->mMachineState != MachineState_Paused
6166 && mData->mMachineState != MachineState_Running
6167 && mData->mMachineState != MachineState_Aborted
6168 && mData->mMachineState != MachineState_Teleported
6169 && mData->mMachineState != MachineState_PoweredOff
6170 )
6171 )
6172 )
6173 return setError(VBOX_E_INVALID_VM_STATE,
6174 tr("The machine is not mutable (state is %s)"),
6175 Global::stringifyMachineState(mData->mMachineState));
6176 break;
6177 }
6178 case MutableOrSavedStateDep:
6179 {
6180 if ( mData->mRegistered
6181 && ( getClassID() != clsidSessionMachine /** @todo This was just convered raw; Check if Running and Paused should actually be included here... (Live Migration) */
6182 || ( mData->mMachineState != MachineState_Paused
6183 && mData->mMachineState != MachineState_Running
6184 && mData->mMachineState != MachineState_Aborted
6185 && mData->mMachineState != MachineState_Teleported
6186 && mData->mMachineState != MachineState_Saved
6187 && mData->mMachineState != MachineState_PoweredOff
6188 )
6189 )
6190 )
6191 return setError(VBOX_E_INVALID_VM_STATE,
6192 tr("The machine is not mutable (state is %s)"),
6193 Global::stringifyMachineState(mData->mMachineState));
6194 break;
6195 }
6196 }
6197
6198 return S_OK;
6199}
6200
6201/**
6202 * Helper to initialize all associated child objects and allocate data
6203 * structures.
6204 *
6205 * This method must be called as a part of the object's initialization procedure
6206 * (usually done in the #init() method).
6207 *
6208 * @note Must be called only from #init() or from #registeredInit().
6209 */
6210HRESULT Machine::initDataAndChildObjects()
6211{
6212 AutoCaller autoCaller(this);
6213 AssertComRCReturnRC(autoCaller.rc());
6214 AssertComRCReturn(autoCaller.state() == InInit ||
6215 autoCaller.state() == Limited, E_FAIL);
6216
6217 AssertReturn(!mData->mAccessible, E_FAIL);
6218
6219 /* allocate data structures */
6220 mSSData.allocate();
6221 mUserData.allocate();
6222 mHWData.allocate();
6223 mMediaData.allocate();
6224 mStorageControllers.allocate();
6225
6226 /* initialize mOSTypeId */
6227 mUserData->mOSTypeId = mParent->getUnknownOSType()->id();
6228
6229 /* create associated BIOS settings object */
6230 unconst(mBIOSSettings).createObject();
6231 mBIOSSettings->init(this);
6232
6233#ifdef VBOX_WITH_VRDP
6234 /* create an associated VRDPServer object (default is disabled) */
6235 unconst(mVRDPServer).createObject();
6236 mVRDPServer->init(this);
6237#endif
6238
6239 /* create associated serial port objects */
6240 for (ULONG slot = 0; slot < RT_ELEMENTS(mSerialPorts); slot++)
6241 {
6242 unconst(mSerialPorts[slot]).createObject();
6243 mSerialPorts[slot]->init(this, slot);
6244 }
6245
6246 /* create associated parallel port objects */
6247 for (ULONG slot = 0; slot < RT_ELEMENTS(mParallelPorts); slot++)
6248 {
6249 unconst(mParallelPorts[slot]).createObject();
6250 mParallelPorts[slot]->init(this, slot);
6251 }
6252
6253 /* create the audio adapter object (always present, default is disabled) */
6254 unconst(mAudioAdapter).createObject();
6255 mAudioAdapter->init(this);
6256
6257 /* create the USB controller object (always present, default is disabled) */
6258 unconst(mUSBController).createObject();
6259 mUSBController->init(this);
6260
6261 /* create associated network adapter objects */
6262 for (ULONG slot = 0; slot < RT_ELEMENTS(mNetworkAdapters); slot ++)
6263 {
6264 unconst(mNetworkAdapters[slot]).createObject();
6265 mNetworkAdapters[slot]->init(this, slot);
6266 }
6267
6268 return S_OK;
6269}
6270
6271/**
6272 * Helper to uninitialize all associated child objects and to free all data
6273 * structures.
6274 *
6275 * This method must be called as a part of the object's uninitialization
6276 * procedure (usually done in the #uninit() method).
6277 *
6278 * @note Must be called only from #uninit() or from #registeredInit().
6279 */
6280void Machine::uninitDataAndChildObjects()
6281{
6282 AutoCaller autoCaller(this);
6283 AssertComRCReturnVoid(autoCaller.rc());
6284 AssertComRCReturnVoid( autoCaller.state() == InUninit
6285 || autoCaller.state() == Limited);
6286
6287 /* uninit all children using addDependentChild()/removeDependentChild()
6288 * in their init()/uninit() methods */
6289 uninitDependentChildren();
6290
6291 /* tell all our other child objects we've been uninitialized */
6292
6293 for (ULONG slot = 0; slot < RT_ELEMENTS(mNetworkAdapters); slot++)
6294 {
6295 if (mNetworkAdapters[slot])
6296 {
6297 mNetworkAdapters[slot]->uninit();
6298 unconst(mNetworkAdapters[slot]).setNull();
6299 }
6300 }
6301
6302 if (mUSBController)
6303 {
6304 mUSBController->uninit();
6305 unconst(mUSBController).setNull();
6306 }
6307
6308 if (mAudioAdapter)
6309 {
6310 mAudioAdapter->uninit();
6311 unconst(mAudioAdapter).setNull();
6312 }
6313
6314 for (ULONG slot = 0; slot < RT_ELEMENTS(mParallelPorts); slot++)
6315 {
6316 if (mParallelPorts[slot])
6317 {
6318 mParallelPorts[slot]->uninit();
6319 unconst(mParallelPorts[slot]).setNull();
6320 }
6321 }
6322
6323 for (ULONG slot = 0; slot < RT_ELEMENTS(mSerialPorts); slot++)
6324 {
6325 if (mSerialPorts[slot])
6326 {
6327 mSerialPorts[slot]->uninit();
6328 unconst(mSerialPorts[slot]).setNull();
6329 }
6330 }
6331
6332#ifdef VBOX_WITH_VRDP
6333 if (mVRDPServer)
6334 {
6335 mVRDPServer->uninit();
6336 unconst(mVRDPServer).setNull();
6337 }
6338#endif
6339
6340 if (mBIOSSettings)
6341 {
6342 mBIOSSettings->uninit();
6343 unconst(mBIOSSettings).setNull();
6344 }
6345
6346 /* Deassociate hard disks (only when a real Machine or a SnapshotMachine
6347 * instance is uninitialized; SessionMachine instances refer to real
6348 * Machine hard disks). This is necessary for a clean re-initialization of
6349 * the VM after successfully re-checking the accessibility state. Note
6350 * that in case of normal Machine or SnapshotMachine uninitialization (as
6351 * a result of unregistering or deleting the snapshot), outdated hard
6352 * disk attachments will already be uninitialized and deleted, so this
6353 * code will not affect them. */
6354 VBoxClsID clsid = getClassID();
6355 if ( !!mMediaData
6356 && (clsid == clsidMachine || clsid == clsidSnapshotMachine)
6357 )
6358 {
6359 for (MediaData::AttachmentList::const_iterator it = mMediaData->mAttachments.begin();
6360 it != mMediaData->mAttachments.end();
6361 ++it)
6362 {
6363 ComObjPtr<Medium> hd = (*it)->getMedium();
6364 if (hd.isNull())
6365 continue;
6366 HRESULT rc = hd->detachFrom(mData->mUuid, getSnapshotId());
6367 AssertComRC(rc);
6368 }
6369 }
6370
6371 if (getClassID() == clsidMachine)
6372 {
6373 // clean up the snapshots list (Snapshot::uninit() will handle the snapshot's children recursively)
6374 if (mData->mFirstSnapshot)
6375 {
6376 // snapshots tree is protected by media write lock; strictly
6377 // this isn't necessary here since we're deleting the entire
6378 // machine, but otherwise we assert in Snapshot::uninit()
6379 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
6380 mData->mFirstSnapshot->uninit();
6381 mData->mFirstSnapshot.setNull();
6382 }
6383
6384 mData->mCurrentSnapshot.setNull();
6385 }
6386
6387 /* free data structures (the essential mData structure is not freed here
6388 * since it may be still in use) */
6389 mMediaData.free();
6390 mStorageControllers.free();
6391 mHWData.free();
6392 mUserData.free();
6393 mSSData.free();
6394}
6395
6396/**
6397 * Returns a pointer to the Machine object for this machine that acts like a
6398 * parent for complex machine data objects such as shared folders, etc.
6399 *
6400 * For primary Machine objects and for SnapshotMachine objects, returns this
6401 * object's pointer itself. For SessoinMachine objects, returns the peer
6402 * (primary) machine pointer.
6403 */
6404Machine* Machine::getMachine()
6405{
6406 if (getClassID() == clsidSessionMachine)
6407 return (Machine*)mPeer;
6408 return this;
6409}
6410
6411/**
6412 * Makes sure that there are no machine state dependants. If necessary, waits
6413 * for the number of dependants to drop to zero.
6414 *
6415 * Make sure this method is called from under this object's write lock to
6416 * guarantee that no new dependants may be added when this method returns
6417 * control to the caller.
6418 *
6419 * @note Locks this object for writing. The lock will be released while waiting
6420 * (if necessary).
6421 *
6422 * @warning To be used only in methods that change the machine state!
6423 */
6424void Machine::ensureNoStateDependencies()
6425{
6426 AssertReturnVoid(isWriteLockOnCurrentThread());
6427
6428 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
6429
6430 /* Wait for all state dependants if necessary */
6431 if (mData->mMachineStateDeps != 0)
6432 {
6433 /* lazy semaphore creation */
6434 if (mData->mMachineStateDepsSem == NIL_RTSEMEVENTMULTI)
6435 RTSemEventMultiCreate(&mData->mMachineStateDepsSem);
6436
6437 LogFlowThisFunc(("Waiting for state deps (%d) to drop to zero...\n",
6438 mData->mMachineStateDeps));
6439
6440 ++mData->mMachineStateChangePending;
6441
6442 /* reset the semaphore before waiting, the last dependant will signal
6443 * it */
6444 RTSemEventMultiReset(mData->mMachineStateDepsSem);
6445
6446 alock.leave();
6447
6448 RTSemEventMultiWait(mData->mMachineStateDepsSem, RT_INDEFINITE_WAIT);
6449
6450 alock.enter();
6451
6452 -- mData->mMachineStateChangePending;
6453 }
6454}
6455
6456/**
6457 * Changes the machine state and informs callbacks.
6458 *
6459 * This method is not intended to fail so it either returns S_OK or asserts (and
6460 * returns a failure).
6461 *
6462 * @note Locks this object for writing.
6463 */
6464HRESULT Machine::setMachineState(MachineState_T aMachineState)
6465{
6466 LogFlowThisFuncEnter();
6467 LogFlowThisFunc(("aMachineState=%s\n", Global::stringifyMachineState(aMachineState) ));
6468
6469 AutoCaller autoCaller(this);
6470 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
6471
6472 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
6473
6474 /* wait for state dependants to drop to zero */
6475 ensureNoStateDependencies();
6476
6477 if (mData->mMachineState != aMachineState)
6478 {
6479 mData->mMachineState = aMachineState;
6480
6481 RTTimeNow(&mData->mLastStateChange);
6482
6483 mParent->onMachineStateChange(mData->mUuid, aMachineState);
6484 }
6485
6486 LogFlowThisFuncLeave();
6487 return S_OK;
6488}
6489
6490/**
6491 * Searches for a shared folder with the given logical name
6492 * in the collection of shared folders.
6493 *
6494 * @param aName logical name of the shared folder
6495 * @param aSharedFolder where to return the found object
6496 * @param aSetError whether to set the error info if the folder is
6497 * not found
6498 * @return
6499 * S_OK when found or VBOX_E_OBJECT_NOT_FOUND when not found
6500 *
6501 * @note
6502 * must be called from under the object's lock!
6503 */
6504HRESULT Machine::findSharedFolder(CBSTR aName,
6505 ComObjPtr<SharedFolder> &aSharedFolder,
6506 bool aSetError /* = false */)
6507{
6508 bool found = false;
6509 for (HWData::SharedFolderList::const_iterator it = mHWData->mSharedFolders.begin();
6510 !found && it != mHWData->mSharedFolders.end();
6511 ++it)
6512 {
6513 AutoWriteLock alock(*it COMMA_LOCKVAL_SRC_POS);
6514 found = (*it)->getName() == aName;
6515 if (found)
6516 aSharedFolder = *it;
6517 }
6518
6519 HRESULT rc = found ? S_OK : VBOX_E_OBJECT_NOT_FOUND;
6520
6521 if (aSetError && !found)
6522 setError(rc, tr("Could not find a shared folder named '%ls'"), aName);
6523
6524 return rc;
6525}
6526
6527/**
6528 * Initializes all machine instance data from the given settings structures
6529 * from XML. The exception is the machine UUID which needs special handling
6530 * depending on the caller's use case, so the caller needs to set that herself.
6531 *
6532 * @param config
6533 * @param fAllowStorage
6534 */
6535HRESULT Machine::loadMachineDataFromSettings(const settings::MachineConfigFile &config)
6536{
6537 /* name (required) */
6538 mUserData->mName = config.strName;
6539
6540 /* nameSync (optional, default is true) */
6541 mUserData->mNameSync = config.fNameSync;
6542
6543 mUserData->mDescription = config.strDescription;
6544
6545 // guest OS type
6546 mUserData->mOSTypeId = config.strOsType;
6547 /* look up the object by Id to check it is valid */
6548 ComPtr<IGuestOSType> guestOSType;
6549 HRESULT rc = mParent->GetGuestOSType(mUserData->mOSTypeId,
6550 guestOSType.asOutParam());
6551 if (FAILED(rc)) return rc;
6552
6553 // stateFile (optional)
6554 if (config.strStateFile.isEmpty())
6555 mSSData->mStateFilePath.setNull();
6556 else
6557 {
6558 Utf8Str stateFilePathFull(config.strStateFile);
6559 int vrc = calculateFullPath(stateFilePathFull, stateFilePathFull);
6560 if (RT_FAILURE(vrc))
6561 return setError(E_FAIL,
6562 tr("Invalid saved state file path '%s' (%Rrc)"),
6563 config.strStateFile.raw(),
6564 vrc);
6565 mSSData->mStateFilePath = stateFilePathFull;
6566 }
6567
6568 /* snapshotFolder (optional) */
6569 rc = COMSETTER(SnapshotFolder)(Bstr(config.strSnapshotFolder));
6570 if (FAILED(rc)) return rc;
6571
6572 /* currentStateModified (optional, default is true) */
6573 mData->mCurrentStateModified = config.fCurrentStateModified;
6574
6575 mData->mLastStateChange = config.timeLastStateChange;
6576
6577 /* teleportation */
6578 mUserData->mTeleporterEnabled = config.fTeleporterEnabled;
6579 mUserData->mTeleporterPort = config.uTeleporterPort;
6580 mUserData->mTeleporterAddress = config.strTeleporterAddress;
6581 mUserData->mTeleporterPassword = config.strTeleporterPassword;
6582
6583 /* RTC */
6584 mUserData->mRTCUseUTC = config.fRTCUseUTC;
6585
6586 /*
6587 * note: all mUserData members must be assigned prior this point because
6588 * we need to commit changes in order to let mUserData be shared by all
6589 * snapshot machine instances.
6590 */
6591 mUserData.commitCopy();
6592
6593 /* Snapshot node (optional) */
6594 size_t cRootSnapshots;
6595 if ((cRootSnapshots = config.llFirstSnapshot.size()))
6596 {
6597 // there must be only one root snapshot
6598 Assert(cRootSnapshots == 1);
6599
6600 const settings::Snapshot &snap = config.llFirstSnapshot.front();
6601
6602 rc = loadSnapshot(snap,
6603 config.uuidCurrentSnapshot,
6604 NULL); // no parent == first snapshot
6605 if (FAILED(rc)) return rc;
6606 }
6607
6608 /* Hardware node (required) */
6609 rc = loadHardware(config.hardwareMachine);
6610 if (FAILED(rc)) return rc;
6611
6612 /* Load storage controllers */
6613 rc = loadStorageControllers(config.storageMachine);
6614 if (FAILED(rc)) return rc;
6615
6616 /*
6617 * NOTE: the assignment below must be the last thing to do,
6618 * otherwise it will be not possible to change the settings
6619 * somewehere in the code above because all setters will be
6620 * blocked by checkStateDependency(MutableStateDep).
6621 */
6622
6623 /* set the machine state to Aborted or Saved when appropriate */
6624 if (config.fAborted)
6625 {
6626 Assert(!mSSData->mStateFilePath.isEmpty());
6627 mSSData->mStateFilePath.setNull();
6628
6629 /* no need to use setMachineState() during init() */
6630 mData->mMachineState = MachineState_Aborted;
6631 }
6632 else if (!mSSData->mStateFilePath.isEmpty())
6633 {
6634 /* no need to use setMachineState() during init() */
6635 mData->mMachineState = MachineState_Saved;
6636 }
6637
6638 // after loading settings, we are no longer different from the XML on disk
6639 mData->flModifications = 0;
6640
6641 return S_OK;
6642}
6643
6644/**
6645 * Recursively loads all snapshots starting from the given.
6646 *
6647 * @param aNode <Snapshot> node.
6648 * @param aCurSnapshotId Current snapshot ID from the settings file.
6649 * @param aParentSnapshot Parent snapshot.
6650 */
6651HRESULT Machine::loadSnapshot(const settings::Snapshot &data,
6652 const Guid &aCurSnapshotId,
6653 Snapshot *aParentSnapshot)
6654{
6655 AssertReturn(getClassID() == clsidMachine, E_FAIL);
6656
6657 HRESULT rc = S_OK;
6658
6659 Utf8Str strStateFile;
6660 if (!data.strStateFile.isEmpty())
6661 {
6662 /* optional */
6663 strStateFile = data.strStateFile;
6664 int vrc = calculateFullPath(strStateFile, strStateFile);
6665 if (RT_FAILURE(vrc))
6666 return setError(E_FAIL,
6667 tr("Invalid saved state file path '%s' (%Rrc)"),
6668 strStateFile.raw(),
6669 vrc);
6670 }
6671
6672 /* create a snapshot machine object */
6673 ComObjPtr<SnapshotMachine> pSnapshotMachine;
6674 pSnapshotMachine.createObject();
6675 rc = pSnapshotMachine->init(this,
6676 data.hardware,
6677 data.storage,
6678 data.uuid,
6679 strStateFile);
6680 if (FAILED(rc)) return rc;
6681
6682 /* create a snapshot object */
6683 ComObjPtr<Snapshot> pSnapshot;
6684 pSnapshot.createObject();
6685 /* initialize the snapshot */
6686 rc = pSnapshot->init(mParent, // VirtualBox object
6687 data.uuid,
6688 data.strName,
6689 data.strDescription,
6690 data.timestamp,
6691 pSnapshotMachine,
6692 aParentSnapshot);
6693 if (FAILED(rc)) return rc;
6694
6695 /* memorize the first snapshot if necessary */
6696 if (!mData->mFirstSnapshot)
6697 mData->mFirstSnapshot = pSnapshot;
6698
6699 /* memorize the current snapshot when appropriate */
6700 if ( !mData->mCurrentSnapshot
6701 && pSnapshot->getId() == aCurSnapshotId
6702 )
6703 mData->mCurrentSnapshot = pSnapshot;
6704
6705 // now create the children
6706 for (settings::SnapshotsList::const_iterator it = data.llChildSnapshots.begin();
6707 it != data.llChildSnapshots.end();
6708 ++it)
6709 {
6710 const settings::Snapshot &childData = *it;
6711 // recurse
6712 rc = loadSnapshot(childData,
6713 aCurSnapshotId,
6714 pSnapshot); // parent = the one we created above
6715 if (FAILED(rc)) return rc;
6716 }
6717
6718 return rc;
6719}
6720
6721/**
6722 * @param aNode <Hardware> node.
6723 */
6724HRESULT Machine::loadHardware(const settings::Hardware &data)
6725{
6726 AssertReturn(getClassID() == clsidMachine || getClassID() == clsidSnapshotMachine, E_FAIL);
6727
6728 HRESULT rc = S_OK;
6729
6730 try
6731 {
6732 /* The hardware version attribute (optional). */
6733 mHWData->mHWVersion = data.strVersion;
6734 mHWData->mHardwareUUID = data.uuid;
6735
6736 mHWData->mHWVirtExEnabled = data.fHardwareVirt;
6737 mHWData->mHWVirtExExclusive = data.fHardwareVirtExclusive;
6738 mHWData->mHWVirtExNestedPagingEnabled = data.fNestedPaging;
6739 mHWData->mHWVirtExLargePagesEnabled = data.fLargePages;
6740 mHWData->mHWVirtExVPIDEnabled = data.fVPID;
6741 mHWData->mPAEEnabled = data.fPAE;
6742 mHWData->mSyntheticCpu = data.fSyntheticCpu;
6743
6744 mHWData->mCPUCount = data.cCPUs;
6745 mHWData->mCPUHotPlugEnabled = data.fCpuHotPlug;
6746
6747 // cpu
6748 if (mHWData->mCPUHotPlugEnabled)
6749 {
6750 for (settings::CpuList::const_iterator it = data.llCpus.begin();
6751 it != data.llCpus.end();
6752 ++it)
6753 {
6754 const settings::Cpu &cpu = *it;
6755
6756 mHWData->mCPUAttached[cpu.ulId] = true;
6757 }
6758 }
6759
6760 // cpuid leafs
6761 for (settings::CpuIdLeafsList::const_iterator it = data.llCpuIdLeafs.begin();
6762 it != data.llCpuIdLeafs.end();
6763 ++it)
6764 {
6765 const settings::CpuIdLeaf &leaf = *it;
6766
6767 switch (leaf.ulId)
6768 {
6769 case 0x0:
6770 case 0x1:
6771 case 0x2:
6772 case 0x3:
6773 case 0x4:
6774 case 0x5:
6775 case 0x6:
6776 case 0x7:
6777 case 0x8:
6778 case 0x9:
6779 case 0xA:
6780 mHWData->mCpuIdStdLeafs[leaf.ulId] = leaf;
6781 break;
6782
6783 case 0x80000000:
6784 case 0x80000001:
6785 case 0x80000002:
6786 case 0x80000003:
6787 case 0x80000004:
6788 case 0x80000005:
6789 case 0x80000006:
6790 case 0x80000007:
6791 case 0x80000008:
6792 case 0x80000009:
6793 case 0x8000000A:
6794 mHWData->mCpuIdExtLeafs[leaf.ulId - 0x80000000] = leaf;
6795 break;
6796
6797 default:
6798 /* just ignore */
6799 break;
6800 }
6801 }
6802
6803 mHWData->mMemorySize = data.ulMemorySizeMB;
6804 mHWData->mPageFusionEnabled = data.fPageFusionEnabled;
6805
6806 // boot order
6807 for (size_t i = 0;
6808 i < RT_ELEMENTS(mHWData->mBootOrder);
6809 i++)
6810 {
6811 settings::BootOrderMap::const_iterator it = data.mapBootOrder.find(i);
6812 if (it == data.mapBootOrder.end())
6813 mHWData->mBootOrder[i] = DeviceType_Null;
6814 else
6815 mHWData->mBootOrder[i] = it->second;
6816 }
6817
6818 mHWData->mVRAMSize = data.ulVRAMSizeMB;
6819 mHWData->mMonitorCount = data.cMonitors;
6820 mHWData->mAccelerate3DEnabled = data.fAccelerate3D;
6821 mHWData->mAccelerate2DVideoEnabled = data.fAccelerate2DVideo;
6822 mHWData->mFirmwareType = data.firmwareType;
6823 mHWData->mPointingHidType = data.pointingHidType;
6824 mHWData->mKeyboardHidType = data.keyboardHidType;
6825 mHWData->mHpetEnabled = data.fHpetEnabled;
6826
6827#ifdef VBOX_WITH_VRDP
6828 /* RemoteDisplay */
6829 rc = mVRDPServer->loadSettings(data.vrdpSettings);
6830 if (FAILED(rc)) return rc;
6831#endif
6832
6833 /* BIOS */
6834 rc = mBIOSSettings->loadSettings(data.biosSettings);
6835 if (FAILED(rc)) return rc;
6836
6837 /* USB Controller */
6838 rc = mUSBController->loadSettings(data.usbController);
6839 if (FAILED(rc)) return rc;
6840
6841 // network adapters
6842 for (settings::NetworkAdaptersList::const_iterator it = data.llNetworkAdapters.begin();
6843 it != data.llNetworkAdapters.end();
6844 ++it)
6845 {
6846 const settings::NetworkAdapter &nic = *it;
6847
6848 /* slot unicity is guaranteed by XML Schema */
6849 AssertBreak(nic.ulSlot < RT_ELEMENTS(mNetworkAdapters));
6850 rc = mNetworkAdapters[nic.ulSlot]->loadSettings(nic);
6851 if (FAILED(rc)) return rc;
6852 }
6853
6854 // serial ports
6855 for (settings::SerialPortsList::const_iterator it = data.llSerialPorts.begin();
6856 it != data.llSerialPorts.end();
6857 ++it)
6858 {
6859 const settings::SerialPort &s = *it;
6860
6861 AssertBreak(s.ulSlot < RT_ELEMENTS(mSerialPorts));
6862 rc = mSerialPorts[s.ulSlot]->loadSettings(s);
6863 if (FAILED(rc)) return rc;
6864 }
6865
6866 // parallel ports (optional)
6867 for (settings::ParallelPortsList::const_iterator it = data.llParallelPorts.begin();
6868 it != data.llParallelPorts.end();
6869 ++it)
6870 {
6871 const settings::ParallelPort &p = *it;
6872
6873 AssertBreak(p.ulSlot < RT_ELEMENTS(mParallelPorts));
6874 rc = mParallelPorts[p.ulSlot]->loadSettings(p);
6875 if (FAILED(rc)) return rc;
6876 }
6877
6878 /* AudioAdapter */
6879 rc = mAudioAdapter->loadSettings(data.audioAdapter);
6880 if (FAILED(rc)) return rc;
6881
6882 for (settings::SharedFoldersList::const_iterator it = data.llSharedFolders.begin();
6883 it != data.llSharedFolders.end();
6884 ++it)
6885 {
6886 const settings::SharedFolder &sf = *it;
6887 rc = CreateSharedFolder(Bstr(sf.strName), Bstr(sf.strHostPath), sf.fWritable);
6888 if (FAILED(rc)) return rc;
6889 }
6890
6891 // Clipboard
6892 mHWData->mClipboardMode = data.clipboardMode;
6893
6894 // guest settings
6895 mHWData->mMemoryBalloonSize = data.ulMemoryBalloonSize;
6896
6897 // IO settings
6898 mHWData->mIoCacheEnabled = data.ioSettings.fIoCacheEnabled;
6899 mHWData->mIoCacheSize = data.ioSettings.ulIoCacheSize;
6900 mHWData->mIoBandwidthMax = data.ioSettings.ulIoBandwidthMax;
6901
6902#ifdef VBOX_WITH_GUEST_PROPS
6903 /* Guest properties (optional) */
6904 for (settings::GuestPropertiesList::const_iterator it = data.llGuestProperties.begin();
6905 it != data.llGuestProperties.end();
6906 ++it)
6907 {
6908 const settings::GuestProperty &prop = *it;
6909 uint32_t fFlags = guestProp::NILFLAG;
6910 guestProp::validateFlags(prop.strFlags.c_str(), &fFlags);
6911 HWData::GuestProperty property = { prop.strName, prop.strValue, prop.timestamp, fFlags };
6912 mHWData->mGuestProperties.push_back(property);
6913 }
6914
6915 mHWData->mGuestPropertyNotificationPatterns = data.strNotificationPatterns;
6916#endif /* VBOX_WITH_GUEST_PROPS defined */
6917 }
6918 catch(std::bad_alloc &)
6919 {
6920 return E_OUTOFMEMORY;
6921 }
6922
6923 AssertComRC(rc);
6924 return rc;
6925}
6926
6927 /**
6928 * @param aNode <StorageControllers> node.
6929 */
6930HRESULT Machine::loadStorageControllers(const settings::Storage &data,
6931 const Guid *aSnapshotId /* = NULL */)
6932{
6933 AssertReturn(getClassID() == clsidMachine || getClassID() == clsidSnapshotMachine, E_FAIL);
6934
6935 HRESULT rc = S_OK;
6936
6937 for (settings::StorageControllersList::const_iterator it = data.llStorageControllers.begin();
6938 it != data.llStorageControllers.end();
6939 ++it)
6940 {
6941 const settings::StorageController &ctlData = *it;
6942
6943 ComObjPtr<StorageController> pCtl;
6944 /* Try to find one with the name first. */
6945 rc = getStorageControllerByName(ctlData.strName, pCtl, false /* aSetError */);
6946 if (SUCCEEDED(rc))
6947 return setError(VBOX_E_OBJECT_IN_USE,
6948 tr("Storage controller named '%s' already exists"),
6949 ctlData.strName.raw());
6950
6951 pCtl.createObject();
6952 rc = pCtl->init(this,
6953 ctlData.strName,
6954 ctlData.storageBus,
6955 ctlData.ulInstance);
6956 if (FAILED(rc)) return rc;
6957
6958 mStorageControllers->push_back(pCtl);
6959
6960 rc = pCtl->COMSETTER(ControllerType)(ctlData.controllerType);
6961 if (FAILED(rc)) return rc;
6962
6963 rc = pCtl->COMSETTER(PortCount)(ctlData.ulPortCount);
6964 if (FAILED(rc)) return rc;
6965
6966 rc = pCtl->COMSETTER(UseHostIOCache)(ctlData.fUseHostIOCache);
6967 if (FAILED(rc)) return rc;
6968
6969 /* Set IDE emulation settings (only for AHCI controller). */
6970 if (ctlData.controllerType == StorageControllerType_IntelAhci)
6971 {
6972 if ( (FAILED(rc = pCtl->SetIDEEmulationPort(0, ctlData.lIDE0MasterEmulationPort)))
6973 || (FAILED(rc = pCtl->SetIDEEmulationPort(1, ctlData.lIDE0SlaveEmulationPort)))
6974 || (FAILED(rc = pCtl->SetIDEEmulationPort(2, ctlData.lIDE1MasterEmulationPort)))
6975 || (FAILED(rc = pCtl->SetIDEEmulationPort(3, ctlData.lIDE1SlaveEmulationPort)))
6976 )
6977 return rc;
6978 }
6979
6980 /* Load the attached devices now. */
6981 rc = loadStorageDevices(pCtl,
6982 ctlData,
6983 aSnapshotId);
6984 if (FAILED(rc)) return rc;
6985 }
6986
6987 return S_OK;
6988}
6989
6990/**
6991 * @param aNode <HardDiskAttachments> node.
6992 * @param fAllowStorage if false, we produce an error if the config requests media attachments
6993 * (used with importing unregistered machines which cannot have media attachments)
6994 * @param aSnapshotId pointer to the snapshot ID if this is a snapshot machine
6995 *
6996 * @note Lock mParent for reading and hard disks for writing before calling.
6997 */
6998HRESULT Machine::loadStorageDevices(StorageController *aStorageController,
6999 const settings::StorageController &data,
7000 const Guid *aSnapshotId /*= NULL*/)
7001{
7002 AssertReturn( (getClassID() == clsidMachine && aSnapshotId == NULL)
7003 || (getClassID() == clsidSnapshotMachine && aSnapshotId != NULL),
7004 E_FAIL);
7005
7006 HRESULT rc = S_OK;
7007
7008 /* paranoia: detect duplicate attachments */
7009 for (settings::AttachedDevicesList::const_iterator it = data.llAttachedDevices.begin();
7010 it != data.llAttachedDevices.end();
7011 ++it)
7012 {
7013 for (settings::AttachedDevicesList::const_iterator it2 = it;
7014 it2 != data.llAttachedDevices.end();
7015 ++it2)
7016 {
7017 if (it == it2)
7018 continue;
7019
7020 if ( (*it).lPort == (*it2).lPort
7021 && (*it).lDevice == (*it2).lDevice)
7022 {
7023 return setError(E_FAIL,
7024 tr("Duplicate attachments for storage controller '%s', port %d, device %d of the virtual machine '%ls'"),
7025 aStorageController->getName().raw(), (*it).lPort, (*it).lDevice, mUserData->mName.raw());
7026 }
7027 }
7028 }
7029
7030 for (settings::AttachedDevicesList::const_iterator it = data.llAttachedDevices.begin();
7031 it != data.llAttachedDevices.end();
7032 ++it)
7033 {
7034 const settings::AttachedDevice &dev = *it;
7035 ComObjPtr<Medium> medium;
7036
7037 switch (dev.deviceType)
7038 {
7039 case DeviceType_Floppy:
7040 /* find a floppy by UUID */
7041 if (!dev.uuid.isEmpty())
7042 rc = mParent->findFloppyImage(&dev.uuid, NULL, true /* aDoSetError */, &medium);
7043 /* find a floppy by host device name */
7044 else if (!dev.strHostDriveSrc.isEmpty())
7045 {
7046 SafeIfaceArray<IMedium> drivevec;
7047 rc = mParent->host()->COMGETTER(FloppyDrives)(ComSafeArrayAsOutParam(drivevec));
7048 if (SUCCEEDED(rc))
7049 {
7050 for (size_t i = 0; i < drivevec.size(); ++i)
7051 {
7052 /// @todo eliminate this conversion
7053 ComObjPtr<Medium> med = (Medium *)drivevec[i];
7054 if ( dev.strHostDriveSrc == med->getName()
7055 || dev.strHostDriveSrc == med->getLocation())
7056 {
7057 medium = med;
7058 break;
7059 }
7060 }
7061 }
7062 }
7063 break;
7064
7065 case DeviceType_DVD:
7066 /* find a DVD by UUID */
7067 if (!dev.uuid.isEmpty())
7068 rc = mParent->findDVDImage(&dev.uuid, NULL, true /* aDoSetError */, &medium);
7069 /* find a DVD by host device name */
7070 else if (!dev.strHostDriveSrc.isEmpty())
7071 {
7072 SafeIfaceArray<IMedium> drivevec;
7073 rc = mParent->host()->COMGETTER(DVDDrives)(ComSafeArrayAsOutParam(drivevec));
7074 if (SUCCEEDED(rc))
7075 {
7076 for (size_t i = 0; i < drivevec.size(); ++i)
7077 {
7078 Bstr hostDriveSrc(dev.strHostDriveSrc);
7079 /// @todo eliminate this conversion
7080 ComObjPtr<Medium> med = (Medium *)drivevec[i];
7081 if ( hostDriveSrc == med->getName()
7082 || hostDriveSrc == med->getLocation())
7083 {
7084 medium = med;
7085 break;
7086 }
7087 }
7088 }
7089 }
7090 break;
7091
7092 case DeviceType_HardDisk:
7093 {
7094 /* find a hard disk by UUID */
7095 rc = mParent->findHardDisk(&dev.uuid, NULL, true /* aDoSetError */, &medium);
7096 if (FAILED(rc))
7097 {
7098 VBoxClsID clsid = getClassID();
7099 if (clsid == clsidSnapshotMachine)
7100 {
7101 // wrap another error message around the "cannot find hard disk" set by findHardDisk
7102 // so the user knows that the bad disk is in a snapshot somewhere
7103 com::ErrorInfo info;
7104 return setError(E_FAIL,
7105 tr("A differencing image of snapshot {%RTuuid} could not be found. %ls"),
7106 aSnapshotId->raw(),
7107 info.getText().raw());
7108 }
7109 else
7110 return rc;
7111 }
7112
7113 AutoWriteLock hdLock(medium COMMA_LOCKVAL_SRC_POS);
7114
7115 if (medium->getType() == MediumType_Immutable)
7116 {
7117 if (getClassID() == clsidSnapshotMachine)
7118 return setError(E_FAIL,
7119 tr("Immutable hard disk '%s' with UUID {%RTuuid} cannot be directly attached to snapshot with UUID {%RTuuid} "
7120 "of the virtual machine '%ls' ('%s')"),
7121 medium->getLocationFull().raw(),
7122 dev.uuid.raw(),
7123 aSnapshotId->raw(),
7124 mUserData->mName.raw(),
7125 mData->m_strConfigFileFull.raw());
7126
7127 return setError(E_FAIL,
7128 tr("Immutable hard disk '%s' with UUID {%RTuuid} cannot be directly attached to the virtual machine '%ls' ('%s')"),
7129 medium->getLocationFull().raw(),
7130 dev.uuid.raw(),
7131 mUserData->mName.raw(),
7132 mData->m_strConfigFileFull.raw());
7133 }
7134
7135 if ( getClassID() != clsidSnapshotMachine
7136 && medium->getChildren().size() != 0
7137 )
7138 return setError(E_FAIL,
7139 tr("Hard disk '%s' with UUID {%RTuuid} cannot be directly attached to the virtual machine '%ls' ('%s') "
7140 "because it has %d differencing child hard disks"),
7141 medium->getLocationFull().raw(),
7142 dev.uuid.raw(),
7143 mUserData->mName.raw(),
7144 mData->m_strConfigFileFull.raw(),
7145 medium->getChildren().size());
7146
7147 if (findAttachment(mMediaData->mAttachments,
7148 medium))
7149 return setError(E_FAIL,
7150 tr("Hard disk '%s' with UUID {%RTuuid} is already attached to the virtual machine '%ls' ('%s')"),
7151 medium->getLocationFull().raw(),
7152 dev.uuid.raw(),
7153 mUserData->mName.raw(),
7154 mData->m_strConfigFileFull.raw());
7155
7156 break;
7157 }
7158
7159 default:
7160 return setError(E_FAIL,
7161 tr("Device with unknown type is attached to the virtual machine '%s' ('%s')"),
7162 medium->getLocationFull().raw(),
7163 mUserData->mName.raw(),
7164 mData->m_strConfigFileFull.raw());
7165 }
7166
7167 if (FAILED(rc))
7168 break;
7169
7170 const Bstr controllerName = aStorageController->getName();
7171 ComObjPtr<MediumAttachment> pAttachment;
7172 pAttachment.createObject();
7173 rc = pAttachment->init(this,
7174 medium,
7175 controllerName,
7176 dev.lPort,
7177 dev.lDevice,
7178 dev.deviceType,
7179 dev.fPassThrough);
7180 if (FAILED(rc)) break;
7181
7182 /* associate the medium with this machine and snapshot */
7183 if (!medium.isNull())
7184 {
7185 if (getClassID() == clsidSnapshotMachine)
7186 rc = medium->attachTo(mData->mUuid, *aSnapshotId);
7187 else
7188 rc = medium->attachTo(mData->mUuid);
7189 }
7190
7191 if (FAILED(rc))
7192 break;
7193
7194 /* back up mMediaData to let registeredInit() properly rollback on failure
7195 * (= limited accessibility) */
7196 setModified(IsModified_Storage);
7197 mMediaData.backup();
7198 mMediaData->mAttachments.push_back(pAttachment);
7199 }
7200
7201 return rc;
7202}
7203
7204/**
7205 * Returns the snapshot with the given UUID or fails of no such snapshot exists.
7206 *
7207 * @param aId snapshot UUID to find (empty UUID refers the first snapshot)
7208 * @param aSnapshot where to return the found snapshot
7209 * @param aSetError true to set extended error info on failure
7210 */
7211HRESULT Machine::findSnapshot(const Guid &aId,
7212 ComObjPtr<Snapshot> &aSnapshot,
7213 bool aSetError /* = false */)
7214{
7215 AutoReadLock chlock(this COMMA_LOCKVAL_SRC_POS);
7216
7217 if (!mData->mFirstSnapshot)
7218 {
7219 if (aSetError)
7220 return setError(E_FAIL,
7221 tr("This machine does not have any snapshots"));
7222 return E_FAIL;
7223 }
7224
7225 if (aId.isEmpty())
7226 aSnapshot = mData->mFirstSnapshot;
7227 else
7228 aSnapshot = mData->mFirstSnapshot->findChildOrSelf(aId);
7229
7230 if (!aSnapshot)
7231 {
7232 if (aSetError)
7233 return setError(E_FAIL,
7234 tr("Could not find a snapshot with UUID {%s}"),
7235 aId.toString().raw());
7236 return E_FAIL;
7237 }
7238
7239 return S_OK;
7240}
7241
7242/**
7243 * Returns the snapshot with the given name or fails of no such snapshot.
7244 *
7245 * @param aName snapshot name to find
7246 * @param aSnapshot where to return the found snapshot
7247 * @param aSetError true to set extended error info on failure
7248 */
7249HRESULT Machine::findSnapshot(IN_BSTR aName,
7250 ComObjPtr<Snapshot> &aSnapshot,
7251 bool aSetError /* = false */)
7252{
7253 AssertReturn(aName, E_INVALIDARG);
7254
7255 AutoReadLock chlock(this COMMA_LOCKVAL_SRC_POS);
7256
7257 if (!mData->mFirstSnapshot)
7258 {
7259 if (aSetError)
7260 return setError(VBOX_E_OBJECT_NOT_FOUND,
7261 tr("This machine does not have any snapshots"));
7262 return VBOX_E_OBJECT_NOT_FOUND;
7263 }
7264
7265 aSnapshot = mData->mFirstSnapshot->findChildOrSelf(aName);
7266
7267 if (!aSnapshot)
7268 {
7269 if (aSetError)
7270 return setError(VBOX_E_OBJECT_NOT_FOUND,
7271 tr("Could not find a snapshot named '%ls'"), aName);
7272 return VBOX_E_OBJECT_NOT_FOUND;
7273 }
7274
7275 return S_OK;
7276}
7277
7278/**
7279 * Returns a storage controller object with the given name.
7280 *
7281 * @param aName storage controller name to find
7282 * @param aStorageController where to return the found storage controller
7283 * @param aSetError true to set extended error info on failure
7284 */
7285HRESULT Machine::getStorageControllerByName(const Utf8Str &aName,
7286 ComObjPtr<StorageController> &aStorageController,
7287 bool aSetError /* = false */)
7288{
7289 AssertReturn(!aName.isEmpty(), E_INVALIDARG);
7290
7291 for (StorageControllerList::const_iterator it = mStorageControllers->begin();
7292 it != mStorageControllers->end();
7293 ++it)
7294 {
7295 if ((*it)->getName() == aName)
7296 {
7297 aStorageController = (*it);
7298 return S_OK;
7299 }
7300 }
7301
7302 if (aSetError)
7303 return setError(VBOX_E_OBJECT_NOT_FOUND,
7304 tr("Could not find a storage controller named '%s'"),
7305 aName.raw());
7306 return VBOX_E_OBJECT_NOT_FOUND;
7307}
7308
7309HRESULT Machine::getMediumAttachmentsOfController(CBSTR aName,
7310 MediaData::AttachmentList &atts)
7311{
7312 AutoCaller autoCaller(this);
7313 if (FAILED(autoCaller.rc())) return autoCaller.rc();
7314
7315 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
7316
7317 for (MediaData::AttachmentList::iterator it = mMediaData->mAttachments.begin();
7318 it != mMediaData->mAttachments.end();
7319 ++it)
7320 {
7321 const ComObjPtr<MediumAttachment> &pAtt = *it;
7322
7323 // should never happen, but deal with NULL pointers in the list.
7324 AssertStmt(!pAtt.isNull(), continue);
7325
7326 // getControllerName() needs caller+read lock
7327 AutoCaller autoAttCaller(pAtt);
7328 if (FAILED(autoAttCaller.rc()))
7329 {
7330 atts.clear();
7331 return autoAttCaller.rc();
7332 }
7333 AutoReadLock attLock(pAtt COMMA_LOCKVAL_SRC_POS);
7334
7335 if (pAtt->getControllerName() == aName)
7336 atts.push_back(pAtt);
7337 }
7338
7339 return S_OK;
7340}
7341
7342/**
7343 * Helper for #saveSettings. Cares about renaming the settings directory and
7344 * file if the machine name was changed and about creating a new settings file
7345 * if this is a new machine.
7346 *
7347 * @note Must be never called directly but only from #saveSettings().
7348 */
7349HRESULT Machine::prepareSaveSettings(bool *pfNeedsGlobalSaveSettings)
7350{
7351 AssertReturn(isWriteLockOnCurrentThread(), E_FAIL);
7352
7353 HRESULT rc = S_OK;
7354
7355 bool fSettingsFileIsNew = !mData->pMachineConfigFile->fileExists();
7356
7357 /* attempt to rename the settings file if machine name is changed */
7358 if ( mUserData->mNameSync
7359 && mUserData.isBackedUp()
7360 && mUserData.backedUpData()->mName != mUserData->mName
7361 )
7362 {
7363 bool dirRenamed = false;
7364 bool fileRenamed = false;
7365
7366 Utf8Str configFile, newConfigFile;
7367 Utf8Str configDir, newConfigDir;
7368
7369 do
7370 {
7371 int vrc = VINF_SUCCESS;
7372
7373 Utf8Str name = mUserData.backedUpData()->mName;
7374 Utf8Str newName = mUserData->mName;
7375
7376 configFile = mData->m_strConfigFileFull;
7377
7378 /* first, rename the directory if it matches the machine name */
7379 configDir = configFile;
7380 configDir.stripFilename();
7381 newConfigDir = configDir;
7382 if (!strcmp(RTPathFilename(configDir.c_str()), name.c_str()))
7383 {
7384 newConfigDir.stripFilename();
7385 newConfigDir = Utf8StrFmt("%s%c%s",
7386 newConfigDir.raw(), RTPATH_DELIMITER, newName.raw());
7387 /* new dir and old dir cannot be equal here because of 'if'
7388 * above and because name != newName */
7389 Assert(configDir != newConfigDir);
7390 if (!fSettingsFileIsNew)
7391 {
7392 /* perform real rename only if the machine is not new */
7393 vrc = RTPathRename(configDir.raw(), newConfigDir.raw(), 0);
7394 if (RT_FAILURE(vrc))
7395 {
7396 rc = setError(E_FAIL,
7397 tr("Could not rename the directory '%s' to '%s' to save the settings file (%Rrc)"),
7398 configDir.raw(),
7399 newConfigDir.raw(),
7400 vrc);
7401 break;
7402 }
7403 dirRenamed = true;
7404 }
7405 }
7406
7407 newConfigFile = Utf8StrFmt("%s%c%s.xml",
7408 newConfigDir.raw(), RTPATH_DELIMITER, newName.raw());
7409
7410 /* then try to rename the settings file itself */
7411 if (newConfigFile != configFile)
7412 {
7413 /* get the path to old settings file in renamed directory */
7414 configFile = Utf8StrFmt("%s%c%s",
7415 newConfigDir.raw(),
7416 RTPATH_DELIMITER,
7417 RTPathFilename(configFile.c_str()));
7418 if (!fSettingsFileIsNew)
7419 {
7420 /* perform real rename only if the machine is not new */
7421 vrc = RTFileRename(configFile.raw(), newConfigFile.raw(), 0);
7422 if (RT_FAILURE(vrc))
7423 {
7424 rc = setError(E_FAIL,
7425 tr("Could not rename the settings file '%s' to '%s' (%Rrc)"),
7426 configFile.raw(),
7427 newConfigFile.raw(),
7428 vrc);
7429 break;
7430 }
7431 fileRenamed = true;
7432 }
7433 }
7434
7435 /* update m_strConfigFileFull amd mConfigFile */
7436 mData->m_strConfigFileFull = newConfigFile;
7437 // compute the relative path too
7438 mParent->copyPathRelativeToConfig(newConfigFile, mData->m_strConfigFile);
7439
7440 // store the old and new so that VirtualBox::saveSettings() can update
7441 // the media registry
7442 if ( mData->mRegistered
7443 && configDir != newConfigDir)
7444 {
7445 mParent->rememberMachineNameChangeForMedia(configDir, newConfigDir);
7446
7447 if (pfNeedsGlobalSaveSettings)
7448 *pfNeedsGlobalSaveSettings = true;
7449 }
7450
7451 /* update the snapshot folder */
7452 Utf8Str path = mUserData->mSnapshotFolderFull;
7453 if (RTPathStartsWith(path.c_str(), configDir.c_str()))
7454 {
7455 path = Utf8StrFmt("%s%s", newConfigDir.raw(),
7456 path.raw() + configDir.length());
7457 mUserData->mSnapshotFolderFull = path;
7458 Utf8Str strTemp;
7459 copyPathRelativeToMachine(path, strTemp);
7460 mUserData->mSnapshotFolder = strTemp;
7461 }
7462
7463 /* update the saved state file path */
7464 path = mSSData->mStateFilePath;
7465 if (RTPathStartsWith(path.c_str(), configDir.c_str()))
7466 {
7467 path = Utf8StrFmt("%s%s", newConfigDir.raw(),
7468 path.raw() + configDir.length());
7469 mSSData->mStateFilePath = path;
7470 }
7471
7472 /* Update saved state file paths of all online snapshots.
7473 * Note that saveSettings() will recognize name change
7474 * and will save all snapshots in this case. */
7475 if (mData->mFirstSnapshot)
7476 mData->mFirstSnapshot->updateSavedStatePaths(configDir.c_str(),
7477 newConfigDir.c_str());
7478 }
7479 while (0);
7480
7481 if (FAILED(rc))
7482 {
7483 /* silently try to rename everything back */
7484 if (fileRenamed)
7485 RTFileRename(newConfigFile.raw(), configFile.raw(), 0);
7486 if (dirRenamed)
7487 RTPathRename(newConfigDir.raw(), configDir.raw(), 0);
7488 }
7489
7490 if (FAILED(rc)) return rc;
7491 }
7492
7493 if (fSettingsFileIsNew)
7494 {
7495 /* create a virgin config file */
7496 int vrc = VINF_SUCCESS;
7497
7498 /* ensure the settings directory exists */
7499 Utf8Str path(mData->m_strConfigFileFull);
7500 path.stripFilename();
7501 if (!RTDirExists(path.c_str()))
7502 {
7503 vrc = RTDirCreateFullPath(path.c_str(), 0777);
7504 if (RT_FAILURE(vrc))
7505 {
7506 return setError(E_FAIL,
7507 tr("Could not create a directory '%s' to save the settings file (%Rrc)"),
7508 path.raw(),
7509 vrc);
7510 }
7511 }
7512
7513 /* Note: open flags must correlate with RTFileOpen() in lockConfig() */
7514 path = Utf8Str(mData->m_strConfigFileFull);
7515 RTFILE f = NIL_RTFILE;
7516 vrc = RTFileOpen(&f, path.c_str(),
7517 RTFILE_O_READWRITE | RTFILE_O_CREATE | RTFILE_O_DENY_WRITE);
7518 if (RT_FAILURE(vrc))
7519 return setError(E_FAIL,
7520 tr("Could not create the settings file '%s' (%Rrc)"),
7521 path.raw(),
7522 vrc);
7523 RTFileClose(f);
7524 }
7525
7526 return rc;
7527}
7528
7529/**
7530 * Saves and commits machine data, user data and hardware data.
7531 *
7532 * Note that on failure, the data remains uncommitted.
7533 *
7534 * @a aFlags may combine the following flags:
7535 *
7536 * - SaveS_ResetCurStateModified: Resets mData->mCurrentStateModified to FALSE.
7537 * Used when saving settings after an operation that makes them 100%
7538 * correspond to the settings from the current snapshot.
7539 * - SaveS_InformCallbacksAnyway: Callbacks will be informed even if
7540 * #isReallyModified() returns false. This is necessary for cases when we
7541 * change machine data directly, not through the backup()/commit() mechanism.
7542 * - SaveS_Force: settings will be saved without doing a deep compare of the
7543 * settings structures. This is used when this is called because snapshots
7544 * have changed to avoid the overhead of the deep compare.
7545 *
7546 * @note Must be called from under this object's write lock. Locks children for
7547 * writing.
7548 *
7549 * @param pfNeedsGlobalSaveSettings Optional pointer to a bool that must have been
7550 * initialized to false and that will be set to true by this function if
7551 * the caller must invoke VirtualBox::saveSettings() because the global
7552 * settings have changed. This will happen if a machine rename has been
7553 * saved and the global machine and media registries will therefore need
7554 * updating.
7555 */
7556HRESULT Machine::saveSettings(bool *pfNeedsGlobalSaveSettings,
7557 int aFlags /*= 0*/)
7558{
7559 LogFlowThisFuncEnter();
7560
7561 AssertReturn(isWriteLockOnCurrentThread(), E_FAIL);
7562
7563 /* make sure child objects are unable to modify the settings while we are
7564 * saving them */
7565 ensureNoStateDependencies();
7566
7567 AssertReturn( getClassID() == clsidMachine
7568 || getClassID() == clsidSessionMachine,
7569 E_FAIL);
7570
7571 HRESULT rc = S_OK;
7572 bool fNeedsWrite = false;
7573
7574 /* First, prepare to save settings. It will care about renaming the
7575 * settings directory and file if the machine name was changed and about
7576 * creating a new settings file if this is a new machine. */
7577 rc = prepareSaveSettings(pfNeedsGlobalSaveSettings);
7578 if (FAILED(rc)) return rc;
7579
7580 // keep a pointer to the current settings structures
7581 settings::MachineConfigFile *pOldConfig = mData->pMachineConfigFile;
7582 settings::MachineConfigFile *pNewConfig = NULL;
7583
7584 try
7585 {
7586 // make a fresh one to have everyone write stuff into
7587 pNewConfig = new settings::MachineConfigFile(NULL);
7588 pNewConfig->copyBaseFrom(*mData->pMachineConfigFile);
7589
7590 // now go and copy all the settings data from COM to the settings structures
7591 // (this calles saveSettings() on all the COM objects in the machine)
7592 copyMachineDataToSettings(*pNewConfig);
7593
7594 if (aFlags & SaveS_ResetCurStateModified)
7595 {
7596 // this gets set by takeSnapshot() (if offline snapshot) and restoreSnapshot()
7597 mData->mCurrentStateModified = FALSE;
7598 fNeedsWrite = true; // always, no need to compare
7599 }
7600 else if (aFlags & SaveS_Force)
7601 {
7602 fNeedsWrite = true; // always, no need to compare
7603 }
7604 else
7605 {
7606 if (!mData->mCurrentStateModified)
7607 {
7608 // do a deep compare of the settings that we just saved with the settings
7609 // previously stored in the config file; this invokes MachineConfigFile::operator==
7610 // which does a deep compare of all the settings, which is expensive but less expensive
7611 // than writing out XML in vain
7612 bool fAnySettingsChanged = (*pNewConfig == *pOldConfig);
7613
7614 // could still be modified if any settings changed
7615 mData->mCurrentStateModified = fAnySettingsChanged;
7616
7617 fNeedsWrite = fAnySettingsChanged;
7618 }
7619 else
7620 fNeedsWrite = true;
7621 }
7622
7623 pNewConfig->fCurrentStateModified = !!mData->mCurrentStateModified;
7624
7625 if (fNeedsWrite)
7626 // now spit it all out!
7627 pNewConfig->write(mData->m_strConfigFileFull);
7628
7629 mData->pMachineConfigFile = pNewConfig;
7630 delete pOldConfig;
7631 commit();
7632
7633 // after saving settings, we are no longer different from the XML on disk
7634 mData->flModifications = 0;
7635 }
7636 catch (HRESULT err)
7637 {
7638 // we assume that error info is set by the thrower
7639 rc = err;
7640
7641 // restore old config
7642 delete pNewConfig;
7643 mData->pMachineConfigFile = pOldConfig;
7644 }
7645 catch (...)
7646 {
7647 rc = VirtualBox::handleUnexpectedExceptions(RT_SRC_POS);
7648 }
7649
7650 if (fNeedsWrite || (aFlags & SaveS_InformCallbacksAnyway))
7651 {
7652 /* Fire the data change event, even on failure (since we've already
7653 * committed all data). This is done only for SessionMachines because
7654 * mutable Machine instances are always not registered (i.e. private
7655 * to the client process that creates them) and thus don't need to
7656 * inform callbacks. */
7657 if (getClassID() == clsidSessionMachine)
7658 mParent->onMachineDataChange(mData->mUuid);
7659 }
7660
7661 LogFlowThisFunc(("rc=%08X\n", rc));
7662 LogFlowThisFuncLeave();
7663 return rc;
7664}
7665
7666/**
7667 * Implementation for saving the machine settings into the given
7668 * settings::MachineConfigFile instance. This copies machine extradata
7669 * from the previous machine config file in the instance data, if any.
7670 *
7671 * This gets called from two locations:
7672 *
7673 * -- Machine::saveSettings(), during the regular XML writing;
7674 *
7675 * -- Appliance::buildXMLForOneVirtualSystem(), when a machine gets
7676 * exported to OVF and we write the VirtualBox proprietary XML
7677 * into a <vbox:Machine> tag.
7678 *
7679 * This routine fills all the fields in there, including snapshots, *except*
7680 * for the following:
7681 *
7682 * -- fCurrentStateModified. There is some special logic associated with that.
7683 *
7684 * The caller can then call MachineConfigFile::write() or do something else
7685 * with it.
7686 *
7687 * Caller must hold the machine lock!
7688 *
7689 * This throws XML errors and HRESULT, so the caller must have a catch block!
7690 */
7691void Machine::copyMachineDataToSettings(settings::MachineConfigFile &config)
7692{
7693 // deep copy extradata
7694 config.mapExtraDataItems = mData->pMachineConfigFile->mapExtraDataItems;
7695
7696 config.uuid = mData->mUuid;
7697 config.strName = mUserData->mName;
7698 config.fNameSync = !!mUserData->mNameSync;
7699 config.strDescription = mUserData->mDescription;
7700 config.strOsType = mUserData->mOSTypeId;
7701
7702 if ( mData->mMachineState == MachineState_Saved
7703 || mData->mMachineState == MachineState_Restoring
7704 // when deleting a snapshot we may or may not have a saved state in the current state,
7705 // so let's not assert here please
7706 || ( ( mData->mMachineState == MachineState_DeletingSnapshot
7707 || mData->mMachineState == MachineState_DeletingSnapshotOnline
7708 || mData->mMachineState == MachineState_DeletingSnapshotPaused)
7709 && (!mSSData->mStateFilePath.isEmpty())
7710 )
7711 )
7712 {
7713 Assert(!mSSData->mStateFilePath.isEmpty());
7714 /* try to make the file name relative to the settings file dir */
7715 copyPathRelativeToMachine(mSSData->mStateFilePath, config.strStateFile);
7716 }
7717 else
7718 {
7719 Assert(mSSData->mStateFilePath.isEmpty());
7720 config.strStateFile.setNull();
7721 }
7722
7723 if (mData->mCurrentSnapshot)
7724 config.uuidCurrentSnapshot = mData->mCurrentSnapshot->getId();
7725 else
7726 config.uuidCurrentSnapshot.clear();
7727
7728 config.strSnapshotFolder = mUserData->mSnapshotFolder;
7729 // config.fCurrentStateModified is special, see below
7730 config.timeLastStateChange = mData->mLastStateChange;
7731 config.fAborted = (mData->mMachineState == MachineState_Aborted);
7732 /// @todo Live Migration: config.fTeleported = (mData->mMachineState == MachineState_Teleported);
7733
7734 config.fTeleporterEnabled = !!mUserData->mTeleporterEnabled;
7735 config.uTeleporterPort = mUserData->mTeleporterPort;
7736 config.strTeleporterAddress = mUserData->mTeleporterAddress;
7737 config.strTeleporterPassword = mUserData->mTeleporterPassword;
7738
7739 config.fRTCUseUTC = !!mUserData->mRTCUseUTC;
7740
7741 HRESULT rc = saveHardware(config.hardwareMachine);
7742 if (FAILED(rc)) throw rc;
7743
7744 rc = saveStorageControllers(config.storageMachine);
7745 if (FAILED(rc)) throw rc;
7746
7747 // save snapshots
7748 rc = saveAllSnapshots(config);
7749 if (FAILED(rc)) throw rc;
7750}
7751
7752/**
7753 * Saves all snapshots of the machine into the given machine config file. Called
7754 * from Machine::buildMachineXML() and SessionMachine::deleteSnapshotHandler().
7755 * @param config
7756 * @return
7757 */
7758HRESULT Machine::saveAllSnapshots(settings::MachineConfigFile &config)
7759{
7760 AssertReturn(isWriteLockOnCurrentThread(), E_FAIL);
7761
7762 HRESULT rc = S_OK;
7763
7764 try
7765 {
7766 config.llFirstSnapshot.clear();
7767
7768 if (mData->mFirstSnapshot)
7769 {
7770 settings::Snapshot snapNew;
7771 config.llFirstSnapshot.push_back(snapNew);
7772
7773 // get reference to the fresh copy of the snapshot on the list and
7774 // work on that copy directly to avoid excessive copying later
7775 settings::Snapshot &snap = config.llFirstSnapshot.front();
7776
7777 rc = mData->mFirstSnapshot->saveSnapshot(snap, false /*aAttrsOnly*/);
7778 if (FAILED(rc)) throw rc;
7779 }
7780
7781// if (mType == IsSessionMachine)
7782// mParent->onMachineDataChange(mData->mUuid); @todo is this necessary?
7783
7784 }
7785 catch (HRESULT err)
7786 {
7787 /* we assume that error info is set by the thrower */
7788 rc = err;
7789 }
7790 catch (...)
7791 {
7792 rc = VirtualBox::handleUnexpectedExceptions(RT_SRC_POS);
7793 }
7794
7795 return rc;
7796}
7797
7798/**
7799 * Saves the VM hardware configuration. It is assumed that the
7800 * given node is empty.
7801 *
7802 * @param aNode <Hardware> node to save the VM hardware confguration to.
7803 */
7804HRESULT Machine::saveHardware(settings::Hardware &data)
7805{
7806 HRESULT rc = S_OK;
7807
7808 try
7809 {
7810 /* The hardware version attribute (optional).
7811 Automatically upgrade from 1 to 2 when there is no saved state. (ugly!) */
7812 if ( mHWData->mHWVersion == "1"
7813 && mSSData->mStateFilePath.isEmpty()
7814 )
7815 mHWData->mHWVersion = "2"; /** @todo Is this safe, to update mHWVersion here? If not some other point needs to be found where this can be done. */
7816
7817 data.strVersion = mHWData->mHWVersion;
7818 data.uuid = mHWData->mHardwareUUID;
7819
7820 // CPU
7821 data.fHardwareVirt = !!mHWData->mHWVirtExEnabled;
7822 data.fHardwareVirtExclusive = !!mHWData->mHWVirtExExclusive;
7823 data.fNestedPaging = !!mHWData->mHWVirtExNestedPagingEnabled;
7824 data.fLargePages = !!mHWData->mHWVirtExLargePagesEnabled;
7825 data.fVPID = !!mHWData->mHWVirtExVPIDEnabled;
7826 data.fPAE = !!mHWData->mPAEEnabled;
7827 data.fSyntheticCpu = !!mHWData->mSyntheticCpu;
7828
7829 /* Standard and Extended CPUID leafs. */
7830 data.llCpuIdLeafs.clear();
7831 for (unsigned idx = 0; idx < RT_ELEMENTS(mHWData->mCpuIdStdLeafs); idx++)
7832 {
7833 if (mHWData->mCpuIdStdLeafs[idx].ulId != UINT32_MAX)
7834 data.llCpuIdLeafs.push_back(mHWData->mCpuIdStdLeafs[idx]);
7835 }
7836 for (unsigned idx = 0; idx < RT_ELEMENTS(mHWData->mCpuIdExtLeafs); idx++)
7837 {
7838 if (mHWData->mCpuIdExtLeafs[idx].ulId != UINT32_MAX)
7839 data.llCpuIdLeafs.push_back(mHWData->mCpuIdExtLeafs[idx]);
7840 }
7841
7842 data.cCPUs = mHWData->mCPUCount;
7843 data.fCpuHotPlug = !!mHWData->mCPUHotPlugEnabled;
7844
7845 data.llCpus.clear();
7846 if (data.fCpuHotPlug)
7847 {
7848 for (unsigned idx = 0; idx < data.cCPUs; idx++)
7849 {
7850 if (mHWData->mCPUAttached[idx])
7851 {
7852 settings::Cpu cpu;
7853 cpu.ulId = idx;
7854 data.llCpus.push_back(cpu);
7855 }
7856 }
7857 }
7858
7859 // memory
7860 data.ulMemorySizeMB = mHWData->mMemorySize;
7861 data.fPageFusionEnabled = mHWData->mPageFusionEnabled;
7862
7863 // firmware
7864 data.firmwareType = mHWData->mFirmwareType;
7865
7866 // HID
7867 data.pointingHidType = mHWData->mPointingHidType;
7868 data.keyboardHidType = mHWData->mKeyboardHidType;
7869
7870 // HPET
7871 data.fHpetEnabled = !!mHWData->mHpetEnabled;
7872
7873 // boot order
7874 data.mapBootOrder.clear();
7875 for (size_t i = 0;
7876 i < RT_ELEMENTS(mHWData->mBootOrder);
7877 ++i)
7878 data.mapBootOrder[i] = mHWData->mBootOrder[i];
7879
7880 // display
7881 data.ulVRAMSizeMB = mHWData->mVRAMSize;
7882 data.cMonitors = mHWData->mMonitorCount;
7883 data.fAccelerate3D = !!mHWData->mAccelerate3DEnabled;
7884 data.fAccelerate2DVideo = !!mHWData->mAccelerate2DVideoEnabled;
7885
7886#ifdef VBOX_WITH_VRDP
7887 /* VRDP settings (optional) */
7888 rc = mVRDPServer->saveSettings(data.vrdpSettings);
7889 if (FAILED(rc)) throw rc;
7890#endif
7891
7892 /* BIOS (required) */
7893 rc = mBIOSSettings->saveSettings(data.biosSettings);
7894 if (FAILED(rc)) throw rc;
7895
7896 /* USB Controller (required) */
7897 rc = mUSBController->saveSettings(data.usbController);
7898 if (FAILED(rc)) throw rc;
7899
7900 /* Network adapters (required) */
7901 data.llNetworkAdapters.clear();
7902 for (ULONG slot = 0;
7903 slot < RT_ELEMENTS(mNetworkAdapters);
7904 ++slot)
7905 {
7906 settings::NetworkAdapter nic;
7907 nic.ulSlot = slot;
7908 rc = mNetworkAdapters[slot]->saveSettings(nic);
7909 if (FAILED(rc)) throw rc;
7910
7911 data.llNetworkAdapters.push_back(nic);
7912 }
7913
7914 /* Serial ports */
7915 data.llSerialPorts.clear();
7916 for (ULONG slot = 0;
7917 slot < RT_ELEMENTS(mSerialPorts);
7918 ++slot)
7919 {
7920 settings::SerialPort s;
7921 s.ulSlot = slot;
7922 rc = mSerialPorts[slot]->saveSettings(s);
7923 if (FAILED(rc)) return rc;
7924
7925 data.llSerialPorts.push_back(s);
7926 }
7927
7928 /* Parallel ports */
7929 data.llParallelPorts.clear();
7930 for (ULONG slot = 0;
7931 slot < RT_ELEMENTS(mParallelPorts);
7932 ++slot)
7933 {
7934 settings::ParallelPort p;
7935 p.ulSlot = slot;
7936 rc = mParallelPorts[slot]->saveSettings(p);
7937 if (FAILED(rc)) return rc;
7938
7939 data.llParallelPorts.push_back(p);
7940 }
7941
7942 /* Audio adapter */
7943 rc = mAudioAdapter->saveSettings(data.audioAdapter);
7944 if (FAILED(rc)) return rc;
7945
7946 /* Shared folders */
7947 data.llSharedFolders.clear();
7948 for (HWData::SharedFolderList::const_iterator it = mHWData->mSharedFolders.begin();
7949 it != mHWData->mSharedFolders.end();
7950 ++it)
7951 {
7952 ComObjPtr<SharedFolder> pFolder = *it;
7953 settings::SharedFolder sf;
7954 sf.strName = pFolder->getName();
7955 sf.strHostPath = pFolder->getHostPath();
7956 sf.fWritable = !!pFolder->isWritable();
7957
7958 data.llSharedFolders.push_back(sf);
7959 }
7960
7961 // clipboard
7962 data.clipboardMode = mHWData->mClipboardMode;
7963
7964 /* Guest */
7965 data.ulMemoryBalloonSize = mHWData->mMemoryBalloonSize;
7966
7967 // IO settings
7968 data.ioSettings.fIoCacheEnabled = !!mHWData->mIoCacheEnabled;
7969 data.ioSettings.ulIoCacheSize = mHWData->mIoCacheSize;
7970 data.ioSettings.ulIoBandwidthMax = mHWData->mIoBandwidthMax;
7971
7972 // guest properties
7973 data.llGuestProperties.clear();
7974#ifdef VBOX_WITH_GUEST_PROPS
7975 for (HWData::GuestPropertyList::const_iterator it = mHWData->mGuestProperties.begin();
7976 it != mHWData->mGuestProperties.end();
7977 ++it)
7978 {
7979 HWData::GuestProperty property = *it;
7980
7981 /* Remove transient guest properties at shutdown unless we
7982 * are saving state */
7983 if ( ( mData->mMachineState == MachineState_PoweredOff
7984 || mData->mMachineState == MachineState_Aborted
7985 || mData->mMachineState == MachineState_Teleported)
7986 && property.mFlags & guestProp::TRANSIENT)
7987 continue;
7988 settings::GuestProperty prop;
7989 prop.strName = property.strName;
7990 prop.strValue = property.strValue;
7991 prop.timestamp = property.mTimestamp;
7992 char szFlags[guestProp::MAX_FLAGS_LEN + 1];
7993 guestProp::writeFlags(property.mFlags, szFlags);
7994 prop.strFlags = szFlags;
7995
7996 data.llGuestProperties.push_back(prop);
7997 }
7998
7999 data.strNotificationPatterns = mHWData->mGuestPropertyNotificationPatterns;
8000 /* I presume this doesn't require a backup(). */
8001 mData->mGuestPropertiesModified = FALSE;
8002#endif /* VBOX_WITH_GUEST_PROPS defined */
8003 }
8004 catch(std::bad_alloc &)
8005 {
8006 return E_OUTOFMEMORY;
8007 }
8008
8009 AssertComRC(rc);
8010 return rc;
8011}
8012
8013/**
8014 * Saves the storage controller configuration.
8015 *
8016 * @param aNode <StorageControllers> node to save the VM hardware confguration to.
8017 */
8018HRESULT Machine::saveStorageControllers(settings::Storage &data)
8019{
8020 data.llStorageControllers.clear();
8021
8022 for (StorageControllerList::const_iterator it = mStorageControllers->begin();
8023 it != mStorageControllers->end();
8024 ++it)
8025 {
8026 HRESULT rc;
8027 ComObjPtr<StorageController> pCtl = *it;
8028
8029 settings::StorageController ctl;
8030 ctl.strName = pCtl->getName();
8031 ctl.controllerType = pCtl->getControllerType();
8032 ctl.storageBus = pCtl->getStorageBus();
8033 ctl.ulInstance = pCtl->getInstance();
8034
8035 /* Save the port count. */
8036 ULONG portCount;
8037 rc = pCtl->COMGETTER(PortCount)(&portCount);
8038 ComAssertComRCRet(rc, rc);
8039 ctl.ulPortCount = portCount;
8040
8041 /* Save fUseHostIOCache */
8042 BOOL fUseHostIOCache;
8043 rc = pCtl->COMGETTER(UseHostIOCache)(&fUseHostIOCache);
8044 ComAssertComRCRet(rc, rc);
8045 ctl.fUseHostIOCache = !!fUseHostIOCache;
8046
8047 /* Save IDE emulation settings. */
8048 if (ctl.controllerType == StorageControllerType_IntelAhci)
8049 {
8050 if ( (FAILED(rc = pCtl->GetIDEEmulationPort(0, (LONG*)&ctl.lIDE0MasterEmulationPort)))
8051 || (FAILED(rc = pCtl->GetIDEEmulationPort(1, (LONG*)&ctl.lIDE0SlaveEmulationPort)))
8052 || (FAILED(rc = pCtl->GetIDEEmulationPort(2, (LONG*)&ctl.lIDE1MasterEmulationPort)))
8053 || (FAILED(rc = pCtl->GetIDEEmulationPort(3, (LONG*)&ctl.lIDE1SlaveEmulationPort)))
8054 )
8055 ComAssertComRCRet(rc, rc);
8056 }
8057
8058 /* save the devices now. */
8059 rc = saveStorageDevices(pCtl, ctl);
8060 ComAssertComRCRet(rc, rc);
8061
8062 data.llStorageControllers.push_back(ctl);
8063 }
8064
8065 return S_OK;
8066}
8067
8068/**
8069 * Saves the hard disk confguration.
8070 */
8071HRESULT Machine::saveStorageDevices(ComObjPtr<StorageController> aStorageController,
8072 settings::StorageController &data)
8073{
8074 MediaData::AttachmentList atts;
8075
8076 HRESULT rc = getMediumAttachmentsOfController(Bstr(aStorageController->getName()), atts);
8077 if (FAILED(rc)) return rc;
8078
8079 data.llAttachedDevices.clear();
8080 for (MediaData::AttachmentList::const_iterator it = atts.begin();
8081 it != atts.end();
8082 ++it)
8083 {
8084 settings::AttachedDevice dev;
8085
8086 MediumAttachment *pAttach = *it;
8087 Medium *pMedium = pAttach->getMedium();
8088
8089 dev.deviceType = pAttach->getType();
8090 dev.lPort = pAttach->getPort();
8091 dev.lDevice = pAttach->getDevice();
8092 if (pMedium)
8093 {
8094 BOOL fHostDrive = FALSE;
8095 rc = pMedium->COMGETTER(HostDrive)(&fHostDrive);
8096 if (FAILED(rc))
8097 return rc;
8098 if (fHostDrive)
8099 dev.strHostDriveSrc = pMedium->getLocation();
8100 else
8101 dev.uuid = pMedium->getId();
8102 dev.fPassThrough = pAttach->getPassthrough();
8103 }
8104
8105 data.llAttachedDevices.push_back(dev);
8106 }
8107
8108 return S_OK;
8109}
8110
8111/**
8112 * Saves machine state settings as defined by aFlags
8113 * (SaveSTS_* values).
8114 *
8115 * @param aFlags Combination of SaveSTS_* flags.
8116 *
8117 * @note Locks objects for writing.
8118 */
8119HRESULT Machine::saveStateSettings(int aFlags)
8120{
8121 if (aFlags == 0)
8122 return S_OK;
8123
8124 AutoCaller autoCaller(this);
8125 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
8126
8127 /* This object's write lock is also necessary to serialize file access
8128 * (prevent concurrent reads and writes) */
8129 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
8130
8131 HRESULT rc = S_OK;
8132
8133 Assert(mData->pMachineConfigFile);
8134
8135 try
8136 {
8137 if (aFlags & SaveSTS_CurStateModified)
8138 mData->pMachineConfigFile->fCurrentStateModified = true;
8139
8140 if (aFlags & SaveSTS_StateFilePath)
8141 {
8142 if (!mSSData->mStateFilePath.isEmpty())
8143 /* try to make the file name relative to the settings file dir */
8144 copyPathRelativeToMachine(mSSData->mStateFilePath, mData->pMachineConfigFile->strStateFile);
8145 else
8146 mData->pMachineConfigFile->strStateFile.setNull();
8147 }
8148
8149 if (aFlags & SaveSTS_StateTimeStamp)
8150 {
8151 Assert( mData->mMachineState != MachineState_Aborted
8152 || mSSData->mStateFilePath.isEmpty());
8153
8154 mData->pMachineConfigFile->timeLastStateChange = mData->mLastStateChange;
8155
8156 mData->pMachineConfigFile->fAborted = (mData->mMachineState == MachineState_Aborted);
8157//@todo live migration mData->pMachineConfigFile->fTeleported = (mData->mMachineState == MachineState_Teleported);
8158 }
8159
8160 mData->pMachineConfigFile->write(mData->m_strConfigFileFull);
8161 }
8162 catch (...)
8163 {
8164 rc = VirtualBox::handleUnexpectedExceptions(RT_SRC_POS);
8165 }
8166
8167 return rc;
8168}
8169
8170/**
8171 * Creates differencing hard disks for all normal hard disks attached to this
8172 * machine and a new set of attachments to refer to created disks.
8173 *
8174 * Used when taking a snapshot or when deleting the current state.
8175 *
8176 * This method assumes that mMediaData contains the original hard disk attachments
8177 * it needs to create diffs for. On success, these attachments will be replaced
8178 * with the created diffs. On failure, #deleteImplicitDiffs() is implicitly
8179 * called to delete created diffs which will also rollback mMediaData and restore
8180 * whatever was backed up before calling this method.
8181 *
8182 * Attachments with non-normal hard disks are left as is.
8183 *
8184 * If @a aOnline is @c false then the original hard disks that require implicit
8185 * diffs will be locked for reading. Otherwise it is assumed that they are
8186 * already locked for writing (when the VM was started). Note that in the latter
8187 * case it is responsibility of the caller to lock the newly created diffs for
8188 * writing if this method succeeds.
8189 *
8190 * @param aFolder Folder where to create diff hard disks.
8191 * @param aProgress Progress object to run (must contain at least as
8192 * many operations left as the number of hard disks
8193 * attached).
8194 * @param aOnline Whether the VM was online prior to this operation.
8195 * @param pfNeedsSaveSettings Optional pointer to a bool that must have been initialized to false and that will be set to true
8196 * by this function if the caller should invoke VirtualBox::saveSettings() because the global settings have changed.
8197 *
8198 * @note The progress object is not marked as completed, neither on success nor
8199 * on failure. This is a responsibility of the caller.
8200 *
8201 * @note Locks this object for writing.
8202 */
8203HRESULT Machine::createImplicitDiffs(const Bstr &aFolder,
8204 IProgress *aProgress,
8205 ULONG aWeight,
8206 bool aOnline,
8207 bool *pfNeedsSaveSettings)
8208{
8209 AssertReturn(!aFolder.isEmpty(), E_FAIL);
8210
8211 LogFlowThisFunc(("aFolder='%ls', aOnline=%d\n", aFolder.raw(), aOnline));
8212
8213 AutoCaller autoCaller(this);
8214 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
8215
8216 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
8217
8218 /* must be in a protective state because we leave the lock below */
8219 AssertReturn( mData->mMachineState == MachineState_Saving
8220 || mData->mMachineState == MachineState_LiveSnapshotting
8221 || mData->mMachineState == MachineState_RestoringSnapshot
8222 || mData->mMachineState == MachineState_DeletingSnapshot
8223 , E_FAIL);
8224
8225 HRESULT rc = S_OK;
8226
8227 MediumLockListMap lockedMediaOffline;
8228 MediumLockListMap *lockedMediaMap;
8229 if (aOnline)
8230 lockedMediaMap = &mData->mSession.mLockedMedia;
8231 else
8232 lockedMediaMap = &lockedMediaOffline;
8233
8234 try
8235 {
8236 if (!aOnline)
8237 {
8238 /* lock all attached hard disks early to detect "in use"
8239 * situations before creating actual diffs */
8240 for (MediaData::AttachmentList::const_iterator it = mMediaData->mAttachments.begin();
8241 it != mMediaData->mAttachments.end();
8242 ++it)
8243 {
8244 MediumAttachment* pAtt = *it;
8245 if (pAtt->getType() == DeviceType_HardDisk)
8246 {
8247 Medium* pMedium = pAtt->getMedium();
8248 Assert(pMedium);
8249
8250 MediumLockList *pMediumLockList(new MediumLockList());
8251 rc = pMedium->createMediumLockList(true /* fFailIfInaccessible */,
8252 false /* fMediumLockWrite */,
8253 NULL,
8254 *pMediumLockList);
8255 if (FAILED(rc))
8256 {
8257 delete pMediumLockList;
8258 throw rc;
8259 }
8260 rc = lockedMediaMap->Insert(pAtt, pMediumLockList);
8261 if (FAILED(rc))
8262 {
8263 throw setError(rc,
8264 tr("Collecting locking information for all attached media failed"));
8265 }
8266 }
8267 }
8268
8269 /* Now lock all media. If this fails, nothing is locked. */
8270 rc = lockedMediaMap->Lock();
8271 if (FAILED(rc))
8272 {
8273 throw setError(rc,
8274 tr("Locking of attached media failed"));
8275 }
8276 }
8277
8278 /* remember the current list (note that we don't use backup() since
8279 * mMediaData may be already backed up) */
8280 MediaData::AttachmentList atts = mMediaData->mAttachments;
8281
8282 /* start from scratch */
8283 mMediaData->mAttachments.clear();
8284
8285 /* go through remembered attachments and create diffs for normal hard
8286 * disks and attach them */
8287 for (MediaData::AttachmentList::const_iterator it = atts.begin();
8288 it != atts.end();
8289 ++it)
8290 {
8291 MediumAttachment* pAtt = *it;
8292
8293 DeviceType_T devType = pAtt->getType();
8294 Medium* pMedium = pAtt->getMedium();
8295
8296 if ( devType != DeviceType_HardDisk
8297 || pMedium == NULL
8298 || pMedium->getType() != MediumType_Normal)
8299 {
8300 /* copy the attachment as is */
8301
8302 /** @todo the progress object created in Console::TakeSnaphot
8303 * only expects operations for hard disks. Later other
8304 * device types need to show up in the progress as well. */
8305 if (devType == DeviceType_HardDisk)
8306 {
8307 if (pMedium == NULL)
8308 aProgress->SetNextOperation(Bstr(tr("Skipping attachment without medium")),
8309 aWeight); // weight
8310 else
8311 aProgress->SetNextOperation(BstrFmt(tr("Skipping medium '%s'"),
8312 pMedium->getBase()->getName().raw()),
8313 aWeight); // weight
8314 }
8315
8316 mMediaData->mAttachments.push_back(pAtt);
8317 continue;
8318 }
8319
8320 /* need a diff */
8321 aProgress->SetNextOperation(BstrFmt(tr("Creating differencing hard disk for '%s'"),
8322 pMedium->getBase()->getName().raw()),
8323 aWeight); // weight
8324
8325 ComObjPtr<Medium> diff;
8326 diff.createObject();
8327 rc = diff->init(mParent,
8328 pMedium->preferredDiffFormat().raw(),
8329 BstrFmt("%ls"RTPATH_SLASH_STR,
8330 mUserData->mSnapshotFolderFull.raw()).raw(),
8331 pfNeedsSaveSettings);
8332 if (FAILED(rc)) throw rc;
8333
8334 /** @todo r=bird: How is the locking and diff image cleaned up if we fail before
8335 * the push_back? Looks like we're going to leave medium with the
8336 * wrong kind of lock (general issue with if we fail anywhere at all)
8337 * and an orphaned VDI in the snapshots folder. */
8338
8339 /* update the appropriate lock list */
8340 MediumLockList *pMediumLockList;
8341 rc = lockedMediaMap->Get(pAtt, pMediumLockList);
8342 AssertComRCThrowRC(rc);
8343 if (aOnline)
8344 {
8345 rc = pMediumLockList->Update(pMedium, false);
8346 AssertComRCThrowRC(rc);
8347 }
8348
8349 /* leave the lock before the potentially lengthy operation */
8350 alock.leave();
8351 rc = pMedium->createDiffStorage(diff, MediumVariant_Standard,
8352 pMediumLockList,
8353 NULL /* aProgress */,
8354 true /* aWait */,
8355 pfNeedsSaveSettings);
8356 alock.enter();
8357 if (FAILED(rc)) throw rc;
8358
8359 rc = lockedMediaMap->Unlock();
8360 AssertComRCThrowRC(rc);
8361 rc = pMediumLockList->Append(diff, true);
8362 AssertComRCThrowRC(rc);
8363 rc = lockedMediaMap->Lock();
8364 AssertComRCThrowRC(rc);
8365
8366 rc = diff->attachTo(mData->mUuid);
8367 AssertComRCThrowRC(rc);
8368
8369 /* add a new attachment */
8370 ComObjPtr<MediumAttachment> attachment;
8371 attachment.createObject();
8372 rc = attachment->init(this,
8373 diff,
8374 pAtt->getControllerName(),
8375 pAtt->getPort(),
8376 pAtt->getDevice(),
8377 DeviceType_HardDisk,
8378 true /* aImplicit */);
8379 if (FAILED(rc)) throw rc;
8380
8381 rc = lockedMediaMap->ReplaceKey(pAtt, attachment);
8382 AssertComRCThrowRC(rc);
8383 mMediaData->mAttachments.push_back(attachment);
8384 }
8385 }
8386 catch (HRESULT aRC) { rc = aRC; }
8387
8388 /* unlock all hard disks we locked */
8389 if (!aOnline)
8390 {
8391 ErrorInfoKeeper eik;
8392
8393 rc = lockedMediaMap->Clear();
8394 AssertComRC(rc);
8395 }
8396
8397 if (FAILED(rc))
8398 {
8399 MultiResultRef mrc(rc);
8400
8401 mrc = deleteImplicitDiffs(pfNeedsSaveSettings);
8402 }
8403
8404 return rc;
8405}
8406
8407/**
8408 * Deletes implicit differencing hard disks created either by
8409 * #createImplicitDiffs() or by #AttachMedium() and rolls back mMediaData.
8410 *
8411 * Note that to delete hard disks created by #AttachMedium() this method is
8412 * called from #fixupMedia() when the changes are rolled back.
8413 *
8414 * @param pfNeedsSaveSettings Optional pointer to a bool that must have been initialized to false and that will be set to true
8415 * by this function if the caller should invoke VirtualBox::saveSettings() because the global settings have changed.
8416 *
8417 * @note Locks this object for writing.
8418 */
8419HRESULT Machine::deleteImplicitDiffs(bool *pfNeedsSaveSettings)
8420{
8421 AutoCaller autoCaller(this);
8422 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
8423
8424 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
8425 LogFlowThisFuncEnter();
8426
8427 AssertReturn(mMediaData.isBackedUp(), E_FAIL);
8428
8429 HRESULT rc = S_OK;
8430
8431 MediaData::AttachmentList implicitAtts;
8432
8433 const MediaData::AttachmentList &oldAtts = mMediaData.backedUpData()->mAttachments;
8434
8435 /* enumerate new attachments */
8436 for (MediaData::AttachmentList::const_iterator it = mMediaData->mAttachments.begin();
8437 it != mMediaData->mAttachments.end();
8438 ++it)
8439 {
8440 ComObjPtr<Medium> hd = (*it)->getMedium();
8441 if (hd.isNull())
8442 continue;
8443
8444 if ((*it)->isImplicit())
8445 {
8446 /* deassociate and mark for deletion */
8447 LogFlowThisFunc(("Detaching '%s', pending deletion\n", (*it)->getLogName()));
8448 rc = hd->detachFrom(mData->mUuid);
8449 AssertComRC(rc);
8450 implicitAtts.push_back(*it);
8451 continue;
8452 }
8453
8454 /* was this hard disk attached before? */
8455 if (!findAttachment(oldAtts, hd))
8456 {
8457 /* no: de-associate */
8458 LogFlowThisFunc(("Detaching '%s', no deletion\n", (*it)->getLogName()));
8459 rc = hd->detachFrom(mData->mUuid);
8460 AssertComRC(rc);
8461 continue;
8462 }
8463 LogFlowThisFunc(("Not detaching '%s'\n", (*it)->getLogName()));
8464 }
8465
8466 /* rollback hard disk changes */
8467 mMediaData.rollback();
8468
8469 MultiResult mrc(S_OK);
8470
8471 /* delete unused implicit diffs */
8472 if (implicitAtts.size() != 0)
8473 {
8474 /* will leave the lock before the potentially lengthy
8475 * operation, so protect with the special state (unless already
8476 * protected) */
8477 MachineState_T oldState = mData->mMachineState;
8478 if ( oldState != MachineState_Saving
8479 && oldState != MachineState_LiveSnapshotting
8480 && oldState != MachineState_RestoringSnapshot
8481 && oldState != MachineState_DeletingSnapshot
8482 && oldState != MachineState_DeletingSnapshotOnline
8483 && oldState != MachineState_DeletingSnapshotPaused
8484 )
8485 setMachineState(MachineState_SettingUp);
8486
8487 alock.leave();
8488
8489 for (MediaData::AttachmentList::const_iterator it = implicitAtts.begin();
8490 it != implicitAtts.end();
8491 ++it)
8492 {
8493 LogFlowThisFunc(("Deleting '%s'\n", (*it)->getLogName()));
8494 ComObjPtr<Medium> hd = (*it)->getMedium();
8495
8496 rc = hd->deleteStorage(NULL /*aProgress*/, true /*aWait*/,
8497 pfNeedsSaveSettings);
8498 AssertMsg(SUCCEEDED(rc), ("rc=%Rhrc it=%s hd=%s\n", rc, (*it)->getLogName(), hd->getLocationFull().c_str() ));
8499 mrc = rc;
8500 }
8501
8502 alock.enter();
8503
8504 if (mData->mMachineState == MachineState_SettingUp)
8505 {
8506 setMachineState(oldState);
8507 }
8508 }
8509
8510 return mrc;
8511}
8512
8513/**
8514 * Looks through the given list of media attachments for one with the given parameters
8515 * and returns it, or NULL if not found. The list is a parameter so that backup lists
8516 * can be searched as well if needed.
8517 *
8518 * @param list
8519 * @param aControllerName
8520 * @param aControllerPort
8521 * @param aDevice
8522 * @return
8523 */
8524MediumAttachment* Machine::findAttachment(const MediaData::AttachmentList &ll,
8525 IN_BSTR aControllerName,
8526 LONG aControllerPort,
8527 LONG aDevice)
8528{
8529 for (MediaData::AttachmentList::const_iterator it = ll.begin();
8530 it != ll.end();
8531 ++it)
8532 {
8533 MediumAttachment *pAttach = *it;
8534 if (pAttach->matches(aControllerName, aControllerPort, aDevice))
8535 return pAttach;
8536 }
8537
8538 return NULL;
8539}
8540
8541/**
8542 * Looks through the given list of media attachments for one with the given parameters
8543 * and returns it, or NULL if not found. The list is a parameter so that backup lists
8544 * can be searched as well if needed.
8545 *
8546 * @param list
8547 * @param aControllerName
8548 * @param aControllerPort
8549 * @param aDevice
8550 * @return
8551 */
8552MediumAttachment* Machine::findAttachment(const MediaData::AttachmentList &ll,
8553 ComObjPtr<Medium> pMedium)
8554{
8555 for (MediaData::AttachmentList::const_iterator it = ll.begin();
8556 it != ll.end();
8557 ++it)
8558 {
8559 MediumAttachment *pAttach = *it;
8560 ComObjPtr<Medium> pMediumThis = pAttach->getMedium();
8561 if (pMediumThis.equalsTo(pMedium))
8562 return pAttach;
8563 }
8564
8565 return NULL;
8566}
8567
8568/**
8569 * Looks through the given list of media attachments for one with the given parameters
8570 * and returns it, or NULL if not found. The list is a parameter so that backup lists
8571 * can be searched as well if needed.
8572 *
8573 * @param list
8574 * @param aControllerName
8575 * @param aControllerPort
8576 * @param aDevice
8577 * @return
8578 */
8579MediumAttachment* Machine::findAttachment(const MediaData::AttachmentList &ll,
8580 Guid &id)
8581{
8582 for (MediaData::AttachmentList::const_iterator it = ll.begin();
8583 it != ll.end();
8584 ++it)
8585 {
8586 MediumAttachment *pAttach = *it;
8587 ComObjPtr<Medium> pMediumThis = pAttach->getMedium();
8588 if (pMediumThis->getId() == id)
8589 return pAttach;
8590 }
8591
8592 return NULL;
8593}
8594
8595/**
8596 * Perform deferred hard disk detachments.
8597 *
8598 * Does nothing if the hard disk attachment data (mMediaData) is not changed (not
8599 * backed up).
8600 *
8601 * If @a aOnline is @c true then this method will also unlock the old hard disks
8602 * for which the new implicit diffs were created and will lock these new diffs for
8603 * writing.
8604 *
8605 * @param aOnline Whether the VM was online prior to this operation.
8606 *
8607 * @note Locks this object for writing!
8608 */
8609void Machine::commitMedia(bool aOnline /*= false*/)
8610{
8611 AutoCaller autoCaller(this);
8612 AssertComRCReturnVoid(autoCaller.rc());
8613
8614 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
8615
8616 LogFlowThisFunc(("Entering, aOnline=%d\n", aOnline));
8617
8618 HRESULT rc = S_OK;
8619
8620 /* no attach/detach operations -- nothing to do */
8621 if (!mMediaData.isBackedUp())
8622 return;
8623
8624 MediaData::AttachmentList &oldAtts = mMediaData.backedUpData()->mAttachments;
8625 bool fMediaNeedsLocking = false;
8626
8627 /* enumerate new attachments */
8628 for (MediaData::AttachmentList::const_iterator it = mMediaData->mAttachments.begin();
8629 it != mMediaData->mAttachments.end();
8630 ++it)
8631 {
8632 MediumAttachment *pAttach = *it;
8633
8634 pAttach->commit();
8635
8636 Medium* pMedium = pAttach->getMedium();
8637 bool fImplicit = pAttach->isImplicit();
8638
8639 LogFlowThisFunc(("Examining current medium '%s' (implicit: %d)\n",
8640 (pMedium) ? pMedium->getName().raw() : "NULL",
8641 fImplicit));
8642
8643 /** @todo convert all this Machine-based voodoo to MediumAttachment
8644 * based commit logic. */
8645 if (fImplicit)
8646 {
8647 /* convert implicit attachment to normal */
8648 pAttach->setImplicit(false);
8649
8650 if ( aOnline
8651 && pMedium
8652 && pAttach->getType() == DeviceType_HardDisk
8653 )
8654 {
8655 ComObjPtr<Medium> parent = pMedium->getParent();
8656 AutoWriteLock parentLock(parent COMMA_LOCKVAL_SRC_POS);
8657
8658 /* update the appropriate lock list */
8659 MediumLockList *pMediumLockList;
8660 rc = mData->mSession.mLockedMedia.Get(pAttach, pMediumLockList);
8661 AssertComRC(rc);
8662 if (pMediumLockList)
8663 {
8664 /* unlock if there's a need to change the locking */
8665 if (!fMediaNeedsLocking)
8666 {
8667 rc = mData->mSession.mLockedMedia.Unlock();
8668 AssertComRC(rc);
8669 fMediaNeedsLocking = true;
8670 }
8671 rc = pMediumLockList->Update(parent, false);
8672 AssertComRC(rc);
8673 rc = pMediumLockList->Append(pMedium, true);
8674 AssertComRC(rc);
8675 }
8676 }
8677
8678 continue;
8679 }
8680
8681 if (pMedium)
8682 {
8683 /* was this medium attached before? */
8684 for (MediaData::AttachmentList::iterator oldIt = oldAtts.begin();
8685 oldIt != oldAtts.end();
8686 ++oldIt)
8687 {
8688 MediumAttachment *pOldAttach = *oldIt;
8689 if (pOldAttach->getMedium().equalsTo(pMedium))
8690 {
8691 LogFlowThisFunc(("--> medium '%s' was attached before, will not remove\n", pMedium->getName().raw()));
8692
8693 /* yes: remove from old to avoid de-association */
8694 oldAtts.erase(oldIt);
8695 break;
8696 }
8697 }
8698 }
8699 }
8700
8701 /* enumerate remaining old attachments and de-associate from the
8702 * current machine state */
8703 for (MediaData::AttachmentList::const_iterator it = oldAtts.begin();
8704 it != oldAtts.end();
8705 ++it)
8706 {
8707 MediumAttachment *pAttach = *it;
8708 Medium* pMedium = pAttach->getMedium();
8709
8710 /* Detach only hard disks, since DVD/floppy media is detached
8711 * instantly in MountMedium. */
8712 if (pAttach->getType() == DeviceType_HardDisk && pMedium)
8713 {
8714 LogFlowThisFunc(("detaching medium '%s' from machine\n", pMedium->getName().raw()));
8715
8716 /* now de-associate from the current machine state */
8717 rc = pMedium->detachFrom(mData->mUuid);
8718 AssertComRC(rc);
8719
8720 if (aOnline)
8721 {
8722 /* unlock since medium is not used anymore */
8723 MediumLockList *pMediumLockList;
8724 rc = mData->mSession.mLockedMedia.Get(pAttach, pMediumLockList);
8725 AssertComRC(rc);
8726 if (pMediumLockList)
8727 {
8728 rc = mData->mSession.mLockedMedia.Remove(pAttach);
8729 AssertComRC(rc);
8730 }
8731 }
8732 }
8733 }
8734
8735 /* take media locks again so that the locking state is consistent */
8736 if (fMediaNeedsLocking)
8737 {
8738 Assert(aOnline);
8739 rc = mData->mSession.mLockedMedia.Lock();
8740 AssertComRC(rc);
8741 }
8742
8743 /* commit the hard disk changes */
8744 mMediaData.commit();
8745
8746 if (getClassID() == clsidSessionMachine)
8747 {
8748 /* attach new data to the primary machine and reshare it */
8749 mPeer->mMediaData.attach(mMediaData);
8750 }
8751
8752 return;
8753}
8754
8755/**
8756 * Perform deferred deletion of implicitly created diffs.
8757 *
8758 * Does nothing if the hard disk attachment data (mMediaData) is not changed (not
8759 * backed up).
8760 *
8761 * @param pfNeedsSaveSettings Optional pointer to a bool that must have been initialized to false and that will be set to true
8762 * by this function if the caller should invoke VirtualBox::saveSettings() because the global settings have changed.
8763 *
8764 * @note Locks this object for writing!
8765 */
8766void Machine::rollbackMedia()
8767{
8768 AutoCaller autoCaller(this);
8769 AssertComRCReturnVoid (autoCaller.rc());
8770
8771 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
8772
8773 LogFlowThisFunc(("Entering\n"));
8774
8775 HRESULT rc = S_OK;
8776
8777 /* no attach/detach operations -- nothing to do */
8778 if (!mMediaData.isBackedUp())
8779 return;
8780
8781 /* enumerate new attachments */
8782 for (MediaData::AttachmentList::const_iterator it = mMediaData->mAttachments.begin();
8783 it != mMediaData->mAttachments.end();
8784 ++it)
8785 {
8786 MediumAttachment *pAttach = *it;
8787 /* Fix up the backrefs for DVD/floppy media. */
8788 if (pAttach->getType() != DeviceType_HardDisk)
8789 {
8790 Medium* pMedium = pAttach->getMedium();
8791 if (pMedium)
8792 {
8793 rc = pMedium->detachFrom(mData->mUuid);
8794 AssertComRC(rc);
8795 }
8796 }
8797
8798 (*it)->rollback();
8799
8800 pAttach = *it;
8801 /* Fix up the backrefs for DVD/floppy media. */
8802 if (pAttach->getType() != DeviceType_HardDisk)
8803 {
8804 Medium* pMedium = pAttach->getMedium();
8805 if (pMedium)
8806 {
8807 rc = pMedium->attachTo(mData->mUuid);
8808 AssertComRC(rc);
8809 }
8810 }
8811 }
8812
8813 /** @todo convert all this Machine-based voodoo to MediumAttachment
8814 * based rollback logic. */
8815 // @todo r=dj the below totally fails if this gets called from Machine::rollback(),
8816 // which gets called if Machine::registeredInit() fails...
8817 deleteImplicitDiffs(NULL /*pfNeedsSaveSettings*/);
8818
8819 return;
8820}
8821
8822/**
8823 * Returns true if the settings file is located in the directory named exactly
8824 * as the machine. This will be true if the machine settings structure was
8825 * created by default in #openConfigLoader().
8826 *
8827 * @param aSettingsDir if not NULL, the full machine settings file directory
8828 * name will be assigned there.
8829 *
8830 * @note Doesn't lock anything.
8831 * @note Not thread safe (must be called from this object's lock).
8832 */
8833bool Machine::isInOwnDir(Utf8Str *aSettingsDir /* = NULL */) const
8834{
8835 Utf8Str settingsDir = mData->m_strConfigFileFull;
8836 settingsDir.stripFilename();
8837 char *dirName = RTPathFilename(settingsDir.c_str());
8838
8839 AssertReturn(dirName, false);
8840
8841 /* if we don't rename anything on name change, return false shorlty */
8842 if (!mUserData->mNameSync)
8843 return false;
8844
8845 if (aSettingsDir)
8846 *aSettingsDir = settingsDir;
8847
8848 return Bstr(dirName) == mUserData->mName;
8849}
8850
8851/**
8852 * Discards all changes to machine settings.
8853 *
8854 * @param aNotify Whether to notify the direct session about changes or not.
8855 *
8856 * @note Locks objects for writing!
8857 */
8858void Machine::rollback(bool aNotify)
8859{
8860 AutoCaller autoCaller(this);
8861 AssertComRCReturn(autoCaller.rc(), (void)0);
8862
8863 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
8864
8865 if (!mStorageControllers.isNull())
8866 {
8867 if (mStorageControllers.isBackedUp())
8868 {
8869 /* unitialize all new devices (absent in the backed up list). */
8870 StorageControllerList::const_iterator it = mStorageControllers->begin();
8871 StorageControllerList *backedList = mStorageControllers.backedUpData();
8872 while (it != mStorageControllers->end())
8873 {
8874 if ( std::find(backedList->begin(), backedList->end(), *it)
8875 == backedList->end()
8876 )
8877 {
8878 (*it)->uninit();
8879 }
8880 ++it;
8881 }
8882
8883 /* restore the list */
8884 mStorageControllers.rollback();
8885 }
8886
8887 /* rollback any changes to devices after restoring the list */
8888 if (mData->flModifications & IsModified_Storage)
8889 {
8890 StorageControllerList::const_iterator it = mStorageControllers->begin();
8891 while (it != mStorageControllers->end())
8892 {
8893 (*it)->rollback();
8894 ++it;
8895 }
8896 }
8897 }
8898
8899 mUserData.rollback();
8900
8901 mHWData.rollback();
8902
8903 if (mData->flModifications & IsModified_Storage)
8904 rollbackMedia();
8905
8906 if (mBIOSSettings)
8907 mBIOSSettings->rollback();
8908
8909#ifdef VBOX_WITH_VRDP
8910 if (mVRDPServer && (mData->flModifications & IsModified_VRDPServer))
8911 mVRDPServer->rollback();
8912#endif
8913
8914 if (mAudioAdapter)
8915 mAudioAdapter->rollback();
8916
8917 if (mUSBController && (mData->flModifications & IsModified_USB))
8918 mUSBController->rollback();
8919
8920 ComPtr<INetworkAdapter> networkAdapters[RT_ELEMENTS(mNetworkAdapters)];
8921 ComPtr<ISerialPort> serialPorts[RT_ELEMENTS(mSerialPorts)];
8922 ComPtr<IParallelPort> parallelPorts[RT_ELEMENTS(mParallelPorts)];
8923
8924 if (mData->flModifications & IsModified_NetworkAdapters)
8925 for (ULONG slot = 0; slot < RT_ELEMENTS(mNetworkAdapters); slot++)
8926 if ( mNetworkAdapters[slot]
8927 && mNetworkAdapters[slot]->isModified())
8928 {
8929 mNetworkAdapters[slot]->rollback();
8930 networkAdapters[slot] = mNetworkAdapters[slot];
8931 }
8932
8933 if (mData->flModifications & IsModified_SerialPorts)
8934 for (ULONG slot = 0; slot < RT_ELEMENTS(mSerialPorts); slot++)
8935 if ( mSerialPorts[slot]
8936 && mSerialPorts[slot]->isModified())
8937 {
8938 mSerialPorts[slot]->rollback();
8939 serialPorts[slot] = mSerialPorts[slot];
8940 }
8941
8942 if (mData->flModifications & IsModified_ParallelPorts)
8943 for (ULONG slot = 0; slot < RT_ELEMENTS(mParallelPorts); slot++)
8944 if ( mParallelPorts[slot]
8945 && mParallelPorts[slot]->isModified())
8946 {
8947 mParallelPorts[slot]->rollback();
8948 parallelPorts[slot] = mParallelPorts[slot];
8949 }
8950
8951 if (aNotify)
8952 {
8953 /* inform the direct session about changes */
8954
8955 ComObjPtr<Machine> that = this;
8956 uint32_t flModifications = mData->flModifications;
8957 alock.leave();
8958
8959 if (flModifications & IsModified_SharedFolders)
8960 that->onSharedFolderChange();
8961
8962 if (flModifications & IsModified_VRDPServer)
8963 that->onVRDPServerChange(/* aRestart */ TRUE);
8964 if (flModifications & IsModified_USB)
8965 that->onUSBControllerChange();
8966
8967 for (ULONG slot = 0; slot < RT_ELEMENTS(networkAdapters); slot ++)
8968 if (networkAdapters[slot])
8969 that->onNetworkAdapterChange(networkAdapters[slot], FALSE);
8970 for (ULONG slot = 0; slot < RT_ELEMENTS(serialPorts); slot ++)
8971 if (serialPorts[slot])
8972 that->onSerialPortChange(serialPorts[slot]);
8973 for (ULONG slot = 0; slot < RT_ELEMENTS(parallelPorts); slot ++)
8974 if (parallelPorts[slot])
8975 that->onParallelPortChange(parallelPorts[slot]);
8976
8977 if (flModifications & IsModified_Storage)
8978 that->onStorageControllerChange();
8979 }
8980}
8981
8982/**
8983 * Commits all the changes to machine settings.
8984 *
8985 * Note that this operation is supposed to never fail.
8986 *
8987 * @note Locks this object and children for writing.
8988 */
8989void Machine::commit()
8990{
8991 AutoCaller autoCaller(this);
8992 AssertComRCReturnVoid(autoCaller.rc());
8993
8994 AutoCaller peerCaller(mPeer);
8995 AssertComRCReturnVoid(peerCaller.rc());
8996
8997 AutoMultiWriteLock2 alock(mPeer, this COMMA_LOCKVAL_SRC_POS);
8998
8999 /*
9000 * use safe commit to ensure Snapshot machines (that share mUserData)
9001 * will still refer to a valid memory location
9002 */
9003 mUserData.commitCopy();
9004
9005 mHWData.commit();
9006
9007 if (mMediaData.isBackedUp())
9008 commitMedia();
9009
9010 mBIOSSettings->commit();
9011#ifdef VBOX_WITH_VRDP
9012 mVRDPServer->commit();
9013#endif
9014 mAudioAdapter->commit();
9015 mUSBController->commit();
9016
9017 for (ULONG slot = 0; slot < RT_ELEMENTS(mNetworkAdapters); slot++)
9018 mNetworkAdapters[slot]->commit();
9019 for (ULONG slot = 0; slot < RT_ELEMENTS(mSerialPorts); slot++)
9020 mSerialPorts[slot]->commit();
9021 for (ULONG slot = 0; slot < RT_ELEMENTS(mParallelPorts); slot++)
9022 mParallelPorts[slot]->commit();
9023
9024 bool commitStorageControllers = false;
9025
9026 if (mStorageControllers.isBackedUp())
9027 {
9028 mStorageControllers.commit();
9029
9030 if (mPeer)
9031 {
9032 AutoWriteLock peerlock(mPeer COMMA_LOCKVAL_SRC_POS);
9033
9034 /* Commit all changes to new controllers (this will reshare data with
9035 * peers for thos who have peers) */
9036 StorageControllerList *newList = new StorageControllerList();
9037 StorageControllerList::const_iterator it = mStorageControllers->begin();
9038 while (it != mStorageControllers->end())
9039 {
9040 (*it)->commit();
9041
9042 /* look if this controller has a peer device */
9043 ComObjPtr<StorageController> peer = (*it)->getPeer();
9044 if (!peer)
9045 {
9046 /* no peer means the device is a newly created one;
9047 * create a peer owning data this device share it with */
9048 peer.createObject();
9049 peer->init(mPeer, *it, true /* aReshare */);
9050 }
9051 else
9052 {
9053 /* remove peer from the old list */
9054 mPeer->mStorageControllers->remove(peer);
9055 }
9056 /* and add it to the new list */
9057 newList->push_back(peer);
9058
9059 ++it;
9060 }
9061
9062 /* uninit old peer's controllers that are left */
9063 it = mPeer->mStorageControllers->begin();
9064 while (it != mPeer->mStorageControllers->end())
9065 {
9066 (*it)->uninit();
9067 ++it;
9068 }
9069
9070 /* attach new list of controllers to our peer */
9071 mPeer->mStorageControllers.attach(newList);
9072 }
9073 else
9074 {
9075 /* we have no peer (our parent is the newly created machine);
9076 * just commit changes to devices */
9077 commitStorageControllers = true;
9078 }
9079 }
9080 else
9081 {
9082 /* the list of controllers itself is not changed,
9083 * just commit changes to controllers themselves */
9084 commitStorageControllers = true;
9085 }
9086
9087 if (commitStorageControllers)
9088 {
9089 StorageControllerList::const_iterator it = mStorageControllers->begin();
9090 while (it != mStorageControllers->end())
9091 {
9092 (*it)->commit();
9093 ++it;
9094 }
9095 }
9096
9097 if (getClassID() == clsidSessionMachine)
9098 {
9099 /* attach new data to the primary machine and reshare it */
9100 mPeer->mUserData.attach(mUserData);
9101 mPeer->mHWData.attach(mHWData);
9102 /* mMediaData is reshared by fixupMedia */
9103 // mPeer->mMediaData.attach(mMediaData);
9104 Assert(mPeer->mMediaData.data() == mMediaData.data());
9105 }
9106}
9107
9108/**
9109 * Copies all the hardware data from the given machine.
9110 *
9111 * Currently, only called when the VM is being restored from a snapshot. In
9112 * particular, this implies that the VM is not running during this method's
9113 * call.
9114 *
9115 * @note This method must be called from under this object's lock.
9116 *
9117 * @note This method doesn't call #commit(), so all data remains backed up and
9118 * unsaved.
9119 */
9120void Machine::copyFrom(Machine *aThat)
9121{
9122 AssertReturnVoid(getClassID() == clsidMachine || getClassID() == clsidSessionMachine);
9123 AssertReturnVoid(aThat->getClassID() == clsidSnapshotMachine);
9124
9125 AssertReturnVoid(!Global::IsOnline(mData->mMachineState));
9126
9127 mHWData.assignCopy(aThat->mHWData);
9128
9129 // create copies of all shared folders (mHWData after attiching a copy
9130 // contains just references to original objects)
9131 for (HWData::SharedFolderList::iterator it = mHWData->mSharedFolders.begin();
9132 it != mHWData->mSharedFolders.end();
9133 ++it)
9134 {
9135 ComObjPtr<SharedFolder> folder;
9136 folder.createObject();
9137 HRESULT rc = folder->initCopy(getMachine(), *it);
9138 AssertComRC(rc);
9139 *it = folder;
9140 }
9141
9142 mBIOSSettings->copyFrom(aThat->mBIOSSettings);
9143#ifdef VBOX_WITH_VRDP
9144 mVRDPServer->copyFrom(aThat->mVRDPServer);
9145#endif
9146 mAudioAdapter->copyFrom(aThat->mAudioAdapter);
9147 mUSBController->copyFrom(aThat->mUSBController);
9148
9149 /* create private copies of all controllers */
9150 mStorageControllers.backup();
9151 mStorageControllers->clear();
9152 for (StorageControllerList::iterator it = aThat->mStorageControllers->begin();
9153 it != aThat->mStorageControllers->end();
9154 ++it)
9155 {
9156 ComObjPtr<StorageController> ctrl;
9157 ctrl.createObject();
9158 ctrl->initCopy(this, *it);
9159 mStorageControllers->push_back(ctrl);
9160 }
9161
9162 for (ULONG slot = 0; slot < RT_ELEMENTS(mNetworkAdapters); slot++)
9163 mNetworkAdapters[slot]->copyFrom(aThat->mNetworkAdapters[slot]);
9164 for (ULONG slot = 0; slot < RT_ELEMENTS(mSerialPorts); slot++)
9165 mSerialPorts[slot]->copyFrom(aThat->mSerialPorts[slot]);
9166 for (ULONG slot = 0; slot < RT_ELEMENTS(mParallelPorts); slot++)
9167 mParallelPorts[slot]->copyFrom(aThat->mParallelPorts[slot]);
9168}
9169
9170#ifdef VBOX_WITH_RESOURCE_USAGE_API
9171
9172void Machine::registerMetrics(PerformanceCollector *aCollector, Machine *aMachine, RTPROCESS pid)
9173{
9174 pm::CollectorHAL *hal = aCollector->getHAL();
9175 /* Create sub metrics */
9176 pm::SubMetric *cpuLoadUser = new pm::SubMetric("CPU/Load/User",
9177 "Percentage of processor time spent in user mode by the VM process.");
9178 pm::SubMetric *cpuLoadKernel = new pm::SubMetric("CPU/Load/Kernel",
9179 "Percentage of processor time spent in kernel mode by the VM process.");
9180 pm::SubMetric *ramUsageUsed = new pm::SubMetric("RAM/Usage/Used",
9181 "Size of resident portion of VM process in memory.");
9182 /* Create and register base metrics */
9183 pm::BaseMetric *cpuLoad = new pm::MachineCpuLoadRaw(hal, aMachine, pid,
9184 cpuLoadUser, cpuLoadKernel);
9185 aCollector->registerBaseMetric(cpuLoad);
9186 pm::BaseMetric *ramUsage = new pm::MachineRamUsage(hal, aMachine, pid,
9187 ramUsageUsed);
9188 aCollector->registerBaseMetric(ramUsage);
9189
9190 aCollector->registerMetric(new pm::Metric(cpuLoad, cpuLoadUser, 0));
9191 aCollector->registerMetric(new pm::Metric(cpuLoad, cpuLoadUser,
9192 new pm::AggregateAvg()));
9193 aCollector->registerMetric(new pm::Metric(cpuLoad, cpuLoadUser,
9194 new pm::AggregateMin()));
9195 aCollector->registerMetric(new pm::Metric(cpuLoad, cpuLoadUser,
9196 new pm::AggregateMax()));
9197 aCollector->registerMetric(new pm::Metric(cpuLoad, cpuLoadKernel, 0));
9198 aCollector->registerMetric(new pm::Metric(cpuLoad, cpuLoadKernel,
9199 new pm::AggregateAvg()));
9200 aCollector->registerMetric(new pm::Metric(cpuLoad, cpuLoadKernel,
9201 new pm::AggregateMin()));
9202 aCollector->registerMetric(new pm::Metric(cpuLoad, cpuLoadKernel,
9203 new pm::AggregateMax()));
9204
9205 aCollector->registerMetric(new pm::Metric(ramUsage, ramUsageUsed, 0));
9206 aCollector->registerMetric(new pm::Metric(ramUsage, ramUsageUsed,
9207 new pm::AggregateAvg()));
9208 aCollector->registerMetric(new pm::Metric(ramUsage, ramUsageUsed,
9209 new pm::AggregateMin()));
9210 aCollector->registerMetric(new pm::Metric(ramUsage, ramUsageUsed,
9211 new pm::AggregateMax()));
9212
9213
9214 /* Guest metrics */
9215 mGuestHAL = new pm::CollectorGuestHAL(this, hal);
9216
9217 /* Create sub metrics */
9218 pm::SubMetric *guestLoadUser = new pm::SubMetric("Guest/CPU/Load/User",
9219 "Percentage of processor time spent in user mode as seen by the guest.");
9220 pm::SubMetric *guestLoadKernel = new pm::SubMetric("Guest/CPU/Load/Kernel",
9221 "Percentage of processor time spent in kernel mode as seen by the guest.");
9222 pm::SubMetric *guestLoadIdle = new pm::SubMetric("Guest/CPU/Load/Idle",
9223 "Percentage of processor time spent idling as seen by the guest.");
9224
9225 /* The total amount of physical ram is fixed now, but we'll support dynamic guest ram configurations in the future. */
9226 pm::SubMetric *guestMemTotal = new pm::SubMetric("Guest/RAM/Usage/Total", "Total amount of physical guest RAM.");
9227 pm::SubMetric *guestMemFree = new pm::SubMetric("Guest/RAM/Usage/Free", "Free amount of physical guest RAM.");
9228 pm::SubMetric *guestMemBalloon = new pm::SubMetric("Guest/RAM/Usage/Balloon", "Amount of ballooned physical guest RAM.");
9229 pm::SubMetric *guestMemShared = new pm::SubMetric("Guest/RAM/Usage/Shared", "Amount of shared physical guest RAM.");
9230 pm::SubMetric *guestMemCache = new pm::SubMetric("Guest/RAM/Usage/Cache", "Total amount of guest (disk) cache memory.");
9231
9232 pm::SubMetric *guestPagedTotal = new pm::SubMetric("Guest/Pagefile/Usage/Total", "Total amount of space in the page file.");
9233
9234 /* Create and register base metrics */
9235 pm::BaseMetric *guestCpuLoad = new pm::GuestCpuLoad(mGuestHAL, aMachine, guestLoadUser, guestLoadKernel, guestLoadIdle);
9236 aCollector->registerBaseMetric(guestCpuLoad);
9237
9238 pm::BaseMetric *guestCpuMem = new pm::GuestRamUsage(mGuestHAL, aMachine, guestMemTotal, guestMemFree, guestMemBalloon, guestMemShared,
9239 guestMemCache, guestPagedTotal);
9240 aCollector->registerBaseMetric(guestCpuMem);
9241
9242 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadUser, 0));
9243 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadUser, new pm::AggregateAvg()));
9244 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadUser, new pm::AggregateMin()));
9245 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadUser, new pm::AggregateMax()));
9246
9247 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadKernel, 0));
9248 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadKernel, new pm::AggregateAvg()));
9249 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadKernel, new pm::AggregateMin()));
9250 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadKernel, new pm::AggregateMax()));
9251
9252 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadIdle, 0));
9253 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadIdle, new pm::AggregateAvg()));
9254 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadIdle, new pm::AggregateMin()));
9255 aCollector->registerMetric(new pm::Metric(guestCpuLoad, guestLoadIdle, new pm::AggregateMax()));
9256
9257 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemTotal, 0));
9258 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemTotal, new pm::AggregateAvg()));
9259 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemTotal, new pm::AggregateMin()));
9260 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemTotal, new pm::AggregateMax()));
9261
9262 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemFree, 0));
9263 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemFree, new pm::AggregateAvg()));
9264 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemFree, new pm::AggregateMin()));
9265 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemFree, new pm::AggregateMax()));
9266
9267 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemBalloon, 0));
9268 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemBalloon, new pm::AggregateAvg()));
9269 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemBalloon, new pm::AggregateMin()));
9270 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemBalloon, new pm::AggregateMax()));
9271
9272 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemShared, 0));
9273 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemShared, new pm::AggregateAvg()));
9274 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemShared, new pm::AggregateMin()));
9275 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemShared, new pm::AggregateMax()));
9276
9277 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemCache, 0));
9278 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemCache, new pm::AggregateAvg()));
9279 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemCache, new pm::AggregateMin()));
9280 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestMemCache, new pm::AggregateMax()));
9281
9282 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestPagedTotal, 0));
9283 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestPagedTotal, new pm::AggregateAvg()));
9284 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestPagedTotal, new pm::AggregateMin()));
9285 aCollector->registerMetric(new pm::Metric(guestCpuMem, guestPagedTotal, new pm::AggregateMax()));
9286}
9287
9288void Machine::unregisterMetrics(PerformanceCollector *aCollector, Machine *aMachine)
9289{
9290 aCollector->unregisterMetricsFor(aMachine);
9291 aCollector->unregisterBaseMetricsFor(aMachine);
9292
9293 if (mGuestHAL)
9294 delete mGuestHAL;
9295}
9296
9297#endif /* VBOX_WITH_RESOURCE_USAGE_API */
9298
9299
9300////////////////////////////////////////////////////////////////////////////////
9301
9302DEFINE_EMPTY_CTOR_DTOR(SessionMachine)
9303
9304HRESULT SessionMachine::FinalConstruct()
9305{
9306 LogFlowThisFunc(("\n"));
9307
9308#if defined(RT_OS_WINDOWS)
9309 mIPCSem = NULL;
9310#elif defined(RT_OS_OS2)
9311 mIPCSem = NULLHANDLE;
9312#elif defined(VBOX_WITH_SYS_V_IPC_SESSION_WATCHER)
9313 mIPCSem = -1;
9314#else
9315# error "Port me!"
9316#endif
9317
9318 return S_OK;
9319}
9320
9321void SessionMachine::FinalRelease()
9322{
9323 LogFlowThisFunc(("\n"));
9324
9325 uninit(Uninit::Unexpected);
9326}
9327
9328/**
9329 * @note Must be called only by Machine::openSession() from its own write lock.
9330 */
9331HRESULT SessionMachine::init(Machine *aMachine)
9332{
9333 LogFlowThisFuncEnter();
9334 LogFlowThisFunc(("mName={%ls}\n", aMachine->mUserData->mName.raw()));
9335
9336 AssertReturn(aMachine, E_INVALIDARG);
9337
9338 AssertReturn(aMachine->lockHandle()->isWriteLockOnCurrentThread(), E_FAIL);
9339
9340 /* Enclose the state transition NotReady->InInit->Ready */
9341 AutoInitSpan autoInitSpan(this);
9342 AssertReturn(autoInitSpan.isOk(), E_FAIL);
9343
9344 /* create the interprocess semaphore */
9345#if defined(RT_OS_WINDOWS)
9346 mIPCSemName = aMachine->mData->m_strConfigFileFull;
9347 for (size_t i = 0; i < mIPCSemName.length(); i++)
9348 if (mIPCSemName[i] == '\\')
9349 mIPCSemName[i] = '/';
9350 mIPCSem = ::CreateMutex(NULL, FALSE, mIPCSemName);
9351 ComAssertMsgRet(mIPCSem,
9352 ("Cannot create IPC mutex '%ls', err=%d",
9353 mIPCSemName.raw(), ::GetLastError()),
9354 E_FAIL);
9355#elif defined(RT_OS_OS2)
9356 Utf8Str ipcSem = Utf8StrFmt("\\SEM32\\VBOX\\VM\\{%RTuuid}",
9357 aMachine->mData->mUuid.raw());
9358 mIPCSemName = ipcSem;
9359 APIRET arc = ::DosCreateMutexSem((PSZ)ipcSem.raw(), &mIPCSem, 0, FALSE);
9360 ComAssertMsgRet(arc == NO_ERROR,
9361 ("Cannot create IPC mutex '%s', arc=%ld",
9362 ipcSem.raw(), arc),
9363 E_FAIL);
9364#elif defined(VBOX_WITH_SYS_V_IPC_SESSION_WATCHER)
9365# ifdef VBOX_WITH_NEW_SYS_V_KEYGEN
9366# if defined(RT_OS_FREEBSD) && (HC_ARCH_BITS == 64)
9367 /** @todo Check that this still works correctly. */
9368 AssertCompileSize(key_t, 8);
9369# else
9370 AssertCompileSize(key_t, 4);
9371# endif
9372 key_t key;
9373 mIPCSem = -1;
9374 mIPCKey = "0";
9375 for (uint32_t i = 0; i < 1 << 24; i++)
9376 {
9377 key = ((uint32_t)'V' << 24) | i;
9378 int sem = ::semget(key, 1, S_IRUSR | S_IWUSR | IPC_CREAT | IPC_EXCL);
9379 if (sem >= 0 || (errno != EEXIST && errno != EACCES))
9380 {
9381 mIPCSem = sem;
9382 if (sem >= 0)
9383 mIPCKey = BstrFmt("%u", key);
9384 break;
9385 }
9386 }
9387# else /* !VBOX_WITH_NEW_SYS_V_KEYGEN */
9388 Utf8Str semName = aMachine->mData->m_strConfigFileFull;
9389 char *pszSemName = NULL;
9390 RTStrUtf8ToCurrentCP(&pszSemName, semName);
9391 key_t key = ::ftok(pszSemName, 'V');
9392 RTStrFree(pszSemName);
9393
9394 mIPCSem = ::semget(key, 1, S_IRWXU | S_IRWXG | S_IRWXO | IPC_CREAT);
9395# endif /* !VBOX_WITH_NEW_SYS_V_KEYGEN */
9396
9397 int errnoSave = errno;
9398 if (mIPCSem < 0 && errnoSave == ENOSYS)
9399 {
9400 setError(E_FAIL,
9401 tr("Cannot create IPC semaphore. Most likely your host kernel lacks "
9402 "support for SysV IPC. Check the host kernel configuration for "
9403 "CONFIG_SYSVIPC=y"));
9404 return E_FAIL;
9405 }
9406 /* ENOSPC can also be the result of VBoxSVC crashes without properly freeing
9407 * the IPC semaphores */
9408 if (mIPCSem < 0 && errnoSave == ENOSPC)
9409 {
9410#ifdef RT_OS_LINUX
9411 setError(E_FAIL,
9412 tr("Cannot create IPC semaphore because the system limit for the "
9413 "maximum number of semaphore sets (SEMMNI), or the system wide "
9414 "maximum number of sempahores (SEMMNS) would be exceeded. The "
9415 "current set of SysV IPC semaphores can be determined from "
9416 "the file /proc/sysvipc/sem"));
9417#else
9418 setError(E_FAIL,
9419 tr("Cannot create IPC semaphore because the system-imposed limit "
9420 "on the maximum number of allowed semaphores or semaphore "
9421 "identifiers system-wide would be exceeded"));
9422#endif
9423 return E_FAIL;
9424 }
9425 ComAssertMsgRet(mIPCSem >= 0, ("Cannot create IPC semaphore, errno=%d", errnoSave),
9426 E_FAIL);
9427 /* set the initial value to 1 */
9428 int rv = ::semctl(mIPCSem, 0, SETVAL, 1);
9429 ComAssertMsgRet(rv == 0, ("Cannot init IPC semaphore, errno=%d", errno),
9430 E_FAIL);
9431#else
9432# error "Port me!"
9433#endif
9434
9435 /* memorize the peer Machine */
9436 unconst(mPeer) = aMachine;
9437 /* share the parent pointer */
9438 unconst(mParent) = aMachine->mParent;
9439
9440 /* take the pointers to data to share */
9441 mData.share(aMachine->mData);
9442 mSSData.share(aMachine->mSSData);
9443
9444 mUserData.share(aMachine->mUserData);
9445 mHWData.share(aMachine->mHWData);
9446 mMediaData.share(aMachine->mMediaData);
9447
9448 mStorageControllers.allocate();
9449 for (StorageControllerList::const_iterator it = aMachine->mStorageControllers->begin();
9450 it != aMachine->mStorageControllers->end();
9451 ++it)
9452 {
9453 ComObjPtr<StorageController> ctl;
9454 ctl.createObject();
9455 ctl->init(this, *it);
9456 mStorageControllers->push_back(ctl);
9457 }
9458
9459 unconst(mBIOSSettings).createObject();
9460 mBIOSSettings->init(this, aMachine->mBIOSSettings);
9461#ifdef VBOX_WITH_VRDP
9462 /* create another VRDPServer object that will be mutable */
9463 unconst(mVRDPServer).createObject();
9464 mVRDPServer->init(this, aMachine->mVRDPServer);
9465#endif
9466 /* create another audio adapter object that will be mutable */
9467 unconst(mAudioAdapter).createObject();
9468 mAudioAdapter->init(this, aMachine->mAudioAdapter);
9469 /* create a list of serial ports that will be mutable */
9470 for (ULONG slot = 0; slot < RT_ELEMENTS(mSerialPorts); slot++)
9471 {
9472 unconst(mSerialPorts[slot]).createObject();
9473 mSerialPorts[slot]->init(this, aMachine->mSerialPorts[slot]);
9474 }
9475 /* create a list of parallel ports that will be mutable */
9476 for (ULONG slot = 0; slot < RT_ELEMENTS(mParallelPorts); slot++)
9477 {
9478 unconst(mParallelPorts[slot]).createObject();
9479 mParallelPorts[slot]->init(this, aMachine->mParallelPorts[slot]);
9480 }
9481 /* create another USB controller object that will be mutable */
9482 unconst(mUSBController).createObject();
9483 mUSBController->init(this, aMachine->mUSBController);
9484
9485 /* create a list of network adapters that will be mutable */
9486 for (ULONG slot = 0; slot < RT_ELEMENTS(mNetworkAdapters); slot++)
9487 {
9488 unconst(mNetworkAdapters[slot]).createObject();
9489 mNetworkAdapters[slot]->init(this, aMachine->mNetworkAdapters[slot]);
9490 }
9491
9492 /* default is to delete saved state on Saved -> PoweredOff transition */
9493 mRemoveSavedState = true;
9494
9495 /* Confirm a successful initialization when it's the case */
9496 autoInitSpan.setSucceeded();
9497
9498 LogFlowThisFuncLeave();
9499 return S_OK;
9500}
9501
9502/**
9503 * Uninitializes this session object. If the reason is other than
9504 * Uninit::Unexpected, then this method MUST be called from #checkForDeath().
9505 *
9506 * @param aReason uninitialization reason
9507 *
9508 * @note Locks mParent + this object for writing.
9509 */
9510void SessionMachine::uninit(Uninit::Reason aReason)
9511{
9512 LogFlowThisFuncEnter();
9513 LogFlowThisFunc(("reason=%d\n", aReason));
9514
9515 /*
9516 * Strongly reference ourselves to prevent this object deletion after
9517 * mData->mSession.mMachine.setNull() below (which can release the last
9518 * reference and call the destructor). Important: this must be done before
9519 * accessing any members (and before AutoUninitSpan that does it as well).
9520 * This self reference will be released as the very last step on return.
9521 */
9522 ComObjPtr<SessionMachine> selfRef = this;
9523
9524 /* Enclose the state transition Ready->InUninit->NotReady */
9525 AutoUninitSpan autoUninitSpan(this);
9526 if (autoUninitSpan.uninitDone())
9527 {
9528 LogFlowThisFunc(("Already uninitialized\n"));
9529 LogFlowThisFuncLeave();
9530 return;
9531 }
9532
9533 if (autoUninitSpan.initFailed())
9534 {
9535 /* We've been called by init() because it's failed. It's not really
9536 * necessary (nor it's safe) to perform the regular uninit sequense
9537 * below, the following is enough.
9538 */
9539 LogFlowThisFunc(("Initialization failed.\n"));
9540#if defined(RT_OS_WINDOWS)
9541 if (mIPCSem)
9542 ::CloseHandle(mIPCSem);
9543 mIPCSem = NULL;
9544#elif defined(RT_OS_OS2)
9545 if (mIPCSem != NULLHANDLE)
9546 ::DosCloseMutexSem(mIPCSem);
9547 mIPCSem = NULLHANDLE;
9548#elif defined(VBOX_WITH_SYS_V_IPC_SESSION_WATCHER)
9549 if (mIPCSem >= 0)
9550 ::semctl(mIPCSem, 0, IPC_RMID);
9551 mIPCSem = -1;
9552# ifdef VBOX_WITH_NEW_SYS_V_KEYGEN
9553 mIPCKey = "0";
9554# endif /* VBOX_WITH_NEW_SYS_V_KEYGEN */
9555#else
9556# error "Port me!"
9557#endif
9558 uninitDataAndChildObjects();
9559 mData.free();
9560 unconst(mParent) = NULL;
9561 unconst(mPeer) = NULL;
9562 LogFlowThisFuncLeave();
9563 return;
9564 }
9565
9566 MachineState_T lastState;
9567 {
9568 AutoReadLock tempLock(this COMMA_LOCKVAL_SRC_POS);
9569 lastState = mData->mMachineState;
9570 }
9571 NOREF(lastState);
9572
9573#ifdef VBOX_WITH_USB
9574 // release all captured USB devices, but do this before requesting the locks below
9575 if (aReason == Uninit::Abnormal && Global::IsOnline(lastState))
9576 {
9577 /* Console::captureUSBDevices() is called in the VM process only after
9578 * setting the machine state to Starting or Restoring.
9579 * Console::detachAllUSBDevices() will be called upon successful
9580 * termination. So, we need to release USB devices only if there was
9581 * an abnormal termination of a running VM.
9582 *
9583 * This is identical to SessionMachine::DetachAllUSBDevices except
9584 * for the aAbnormal argument. */
9585 HRESULT rc = mUSBController->notifyProxy(false /* aInsertFilters */);
9586 AssertComRC(rc);
9587 NOREF(rc);
9588
9589 USBProxyService *service = mParent->host()->usbProxyService();
9590 if (service)
9591 service->detachAllDevicesFromVM(this, true /* aDone */, true /* aAbnormal */);
9592 }
9593#endif /* VBOX_WITH_USB */
9594
9595 // we need to lock this object in uninit() because the lock is shared
9596 // with mPeer (as well as data we modify below). mParent->addProcessToReap()
9597 // and others need mParent lock, and USB needs host lock.
9598 AutoMultiWriteLock3 multilock(mParent, mParent->host(), this COMMA_LOCKVAL_SRC_POS);
9599
9600#ifdef VBOX_WITH_RESOURCE_USAGE_API
9601 unregisterMetrics(mParent->performanceCollector(), mPeer);
9602#endif /* VBOX_WITH_RESOURCE_USAGE_API */
9603
9604 if (aReason == Uninit::Abnormal)
9605 {
9606 LogWarningThisFunc(("ABNORMAL client termination! (wasBusy=%d)\n",
9607 Global::IsOnlineOrTransient(lastState)));
9608
9609 /* reset the state to Aborted */
9610 if (mData->mMachineState != MachineState_Aborted)
9611 setMachineState(MachineState_Aborted);
9612 }
9613
9614 // any machine settings modified?
9615 if (mData->flModifications)
9616 {
9617 LogWarningThisFunc(("Discarding unsaved settings changes!\n"));
9618 rollback(false /* aNotify */);
9619 }
9620
9621 Assert(mSnapshotData.mStateFilePath.isEmpty() || !mSnapshotData.mSnapshot);
9622 if (!mSnapshotData.mStateFilePath.isEmpty())
9623 {
9624 LogWarningThisFunc(("canceling failed save state request!\n"));
9625 endSavingState(FALSE /* aSuccess */);
9626 }
9627 else if (!mSnapshotData.mSnapshot.isNull())
9628 {
9629 LogWarningThisFunc(("canceling untaken snapshot!\n"));
9630
9631 /* delete all differencing hard disks created (this will also attach
9632 * their parents back by rolling back mMediaData) */
9633 rollbackMedia();
9634 /* delete the saved state file (it might have been already created) */
9635 if (mSnapshotData.mSnapshot->stateFilePath().length())
9636 RTFileDelete(mSnapshotData.mSnapshot->stateFilePath().c_str());
9637
9638 mSnapshotData.mSnapshot->uninit();
9639 }
9640
9641 if (!mData->mSession.mType.isEmpty())
9642 {
9643 /* mType is not null when this machine's process has been started by
9644 * VirtualBox::OpenRemoteSession(), therefore it is our child. We
9645 * need to queue the PID to reap the process (and avoid zombies on
9646 * Linux). */
9647 Assert(mData->mSession.mPid != NIL_RTPROCESS);
9648 mParent->addProcessToReap(mData->mSession.mPid);
9649 }
9650
9651 mData->mSession.mPid = NIL_RTPROCESS;
9652
9653 if (aReason == Uninit::Unexpected)
9654 {
9655 /* Uninitialization didn't come from #checkForDeath(), so tell the
9656 * client watcher thread to update the set of machines that have open
9657 * sessions. */
9658 mParent->updateClientWatcher();
9659 }
9660
9661 /* uninitialize all remote controls */
9662 if (mData->mSession.mRemoteControls.size())
9663 {
9664 LogFlowThisFunc(("Closing remote sessions (%d):\n",
9665 mData->mSession.mRemoteControls.size()));
9666
9667 Data::Session::RemoteControlList::iterator it =
9668 mData->mSession.mRemoteControls.begin();
9669 while (it != mData->mSession.mRemoteControls.end())
9670 {
9671 LogFlowThisFunc((" Calling remoteControl->Uninitialize()...\n"));
9672 HRESULT rc = (*it)->Uninitialize();
9673 LogFlowThisFunc((" remoteControl->Uninitialize() returned %08X\n", rc));
9674 if (FAILED(rc))
9675 LogWarningThisFunc(("Forgot to close the remote session?\n"));
9676 ++it;
9677 }
9678 mData->mSession.mRemoteControls.clear();
9679 }
9680
9681 /*
9682 * An expected uninitialization can come only from #checkForDeath().
9683 * Otherwise it means that something's got really wrong (for examlple,
9684 * the Session implementation has released the VirtualBox reference
9685 * before it triggered #OnSessionEnd(), or before releasing IPC semaphore,
9686 * etc). However, it's also possible, that the client releases the IPC
9687 * semaphore correctly (i.e. before it releases the VirtualBox reference),
9688 * but the VirtualBox release event comes first to the server process.
9689 * This case is practically possible, so we should not assert on an
9690 * unexpected uninit, just log a warning.
9691 */
9692
9693 if ((aReason == Uninit::Unexpected))
9694 LogWarningThisFunc(("Unexpected SessionMachine uninitialization!\n"));
9695
9696 if (aReason != Uninit::Normal)
9697 {
9698 mData->mSession.mDirectControl.setNull();
9699 }
9700 else
9701 {
9702 /* this must be null here (see #OnSessionEnd()) */
9703 Assert(mData->mSession.mDirectControl.isNull());
9704 Assert(mData->mSession.mState == SessionState_Closing);
9705 Assert(!mData->mSession.mProgress.isNull());
9706 }
9707 if (mData->mSession.mProgress)
9708 {
9709 if (aReason == Uninit::Normal)
9710 mData->mSession.mProgress->notifyComplete(S_OK);
9711 else
9712 mData->mSession.mProgress->notifyComplete(E_FAIL,
9713 COM_IIDOF(ISession),
9714 getComponentName(),
9715 tr("The VM session was aborted"));
9716 mData->mSession.mProgress.setNull();
9717 }
9718
9719 /* remove the association between the peer machine and this session machine */
9720 Assert(mData->mSession.mMachine == this ||
9721 aReason == Uninit::Unexpected);
9722
9723 /* reset the rest of session data */
9724 mData->mSession.mMachine.setNull();
9725 mData->mSession.mState = SessionState_Closed;
9726 mData->mSession.mType.setNull();
9727
9728 /* close the interprocess semaphore before leaving the exclusive lock */
9729#if defined(RT_OS_WINDOWS)
9730 if (mIPCSem)
9731 ::CloseHandle(mIPCSem);
9732 mIPCSem = NULL;
9733#elif defined(RT_OS_OS2)
9734 if (mIPCSem != NULLHANDLE)
9735 ::DosCloseMutexSem(mIPCSem);
9736 mIPCSem = NULLHANDLE;
9737#elif defined(VBOX_WITH_SYS_V_IPC_SESSION_WATCHER)
9738 if (mIPCSem >= 0)
9739 ::semctl(mIPCSem, 0, IPC_RMID);
9740 mIPCSem = -1;
9741# ifdef VBOX_WITH_NEW_SYS_V_KEYGEN
9742 mIPCKey = "0";
9743# endif /* VBOX_WITH_NEW_SYS_V_KEYGEN */
9744#else
9745# error "Port me!"
9746#endif
9747
9748 /* fire an event */
9749 mParent->onSessionStateChange(mData->mUuid, SessionState_Closed);
9750
9751 uninitDataAndChildObjects();
9752
9753 /* free the essential data structure last */
9754 mData.free();
9755
9756#if 1 /** @todo Please review this change! (bird) */
9757 /* drop the exclusive lock before setting the below two to NULL */
9758 multilock.release();
9759#else
9760 /* leave the exclusive lock before setting the below two to NULL */
9761 multilock.leave();
9762#endif
9763
9764 unconst(mParent) = NULL;
9765 unconst(mPeer) = NULL;
9766
9767 LogFlowThisFuncLeave();
9768}
9769
9770// util::Lockable interface
9771////////////////////////////////////////////////////////////////////////////////
9772
9773/**
9774 * Overrides VirtualBoxBase::lockHandle() in order to share the lock handle
9775 * with the primary Machine instance (mPeer).
9776 */
9777RWLockHandle *SessionMachine::lockHandle() const
9778{
9779 AssertReturn(mPeer != NULL, NULL);
9780 return mPeer->lockHandle();
9781}
9782
9783// IInternalMachineControl methods
9784////////////////////////////////////////////////////////////////////////////////
9785
9786/**
9787 * @note Locks this object for writing.
9788 */
9789STDMETHODIMP SessionMachine::SetRemoveSavedState(BOOL aRemove)
9790{
9791 AutoCaller autoCaller(this);
9792 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
9793
9794 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
9795
9796 mRemoveSavedState = aRemove;
9797
9798 return S_OK;
9799}
9800
9801/**
9802 * @note Locks the same as #setMachineState() does.
9803 */
9804STDMETHODIMP SessionMachine::UpdateState(MachineState_T aMachineState)
9805{
9806 return setMachineState(aMachineState);
9807}
9808
9809/**
9810 * @note Locks this object for reading.
9811 */
9812STDMETHODIMP SessionMachine::GetIPCId(BSTR *aId)
9813{
9814 AutoCaller autoCaller(this);
9815 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
9816
9817 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
9818
9819#if defined(RT_OS_WINDOWS) || defined(RT_OS_OS2)
9820 mIPCSemName.cloneTo(aId);
9821 return S_OK;
9822#elif defined(VBOX_WITH_SYS_V_IPC_SESSION_WATCHER)
9823# ifdef VBOX_WITH_NEW_SYS_V_KEYGEN
9824 mIPCKey.cloneTo(aId);
9825# else /* !VBOX_WITH_NEW_SYS_V_KEYGEN */
9826 mData->m_strConfigFileFull.cloneTo(aId);
9827# endif /* !VBOX_WITH_NEW_SYS_V_KEYGEN */
9828 return S_OK;
9829#else
9830# error "Port me!"
9831#endif
9832}
9833
9834/**
9835 * @note Locks this object for writing.
9836 */
9837STDMETHODIMP SessionMachine::BeginPowerUp(IProgress *aProgress)
9838{
9839 AutoCaller autoCaller(this);
9840 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
9841
9842 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
9843
9844 if (mData->mSession.mState != SessionState_Open)
9845 return VBOX_E_INVALID_OBJECT_STATE;
9846
9847 if (!mData->mSession.mProgress.isNull())
9848 mData->mSession.mProgress->setOtherProgressObject(aProgress);
9849
9850 return S_OK;
9851}
9852
9853
9854/**
9855 * @note Locks this object for writing.
9856 */
9857STDMETHODIMP SessionMachine::EndPowerUp(LONG iResult)
9858{
9859 AutoCaller autoCaller(this);
9860 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
9861
9862 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
9863
9864 if (mData->mSession.mState != SessionState_Open)
9865 return VBOX_E_INVALID_OBJECT_STATE;
9866
9867 /* Finalize the openRemoteSession progress object. */
9868 if (mData->mSession.mProgress)
9869 {
9870 mData->mSession.mProgress->notifyComplete((HRESULT)iResult);
9871 mData->mSession.mProgress.setNull();
9872 }
9873 return S_OK;
9874}
9875
9876/**
9877 * Goes through the USB filters of the given machine to see if the given
9878 * device matches any filter or not.
9879 *
9880 * @note Locks the same as USBController::hasMatchingFilter() does.
9881 */
9882STDMETHODIMP SessionMachine::RunUSBDeviceFilters(IUSBDevice *aUSBDevice,
9883 BOOL *aMatched,
9884 ULONG *aMaskedIfs)
9885{
9886 LogFlowThisFunc(("\n"));
9887
9888 CheckComArgNotNull(aUSBDevice);
9889 CheckComArgOutPointerValid(aMatched);
9890
9891 AutoCaller autoCaller(this);
9892 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
9893
9894#ifdef VBOX_WITH_USB
9895 *aMatched = mUSBController->hasMatchingFilter(aUSBDevice, aMaskedIfs);
9896#else
9897 NOREF(aUSBDevice);
9898 NOREF(aMaskedIfs);
9899 *aMatched = FALSE;
9900#endif
9901
9902 return S_OK;
9903}
9904
9905/**
9906 * @note Locks the same as Host::captureUSBDevice() does.
9907 */
9908STDMETHODIMP SessionMachine::CaptureUSBDevice(IN_BSTR aId)
9909{
9910 LogFlowThisFunc(("\n"));
9911
9912 AutoCaller autoCaller(this);
9913 AssertComRCReturnRC(autoCaller.rc());
9914
9915#ifdef VBOX_WITH_USB
9916 /* if captureDeviceForVM() fails, it must have set extended error info */
9917 MultiResult rc = mParent->host()->checkUSBProxyService();
9918 if (FAILED(rc)) return rc;
9919
9920 USBProxyService *service = mParent->host()->usbProxyService();
9921 AssertReturn(service, E_FAIL);
9922 return service->captureDeviceForVM(this, Guid(aId));
9923#else
9924 NOREF(aId);
9925 return E_NOTIMPL;
9926#endif
9927}
9928
9929/**
9930 * @note Locks the same as Host::detachUSBDevice() does.
9931 */
9932STDMETHODIMP SessionMachine::DetachUSBDevice(IN_BSTR aId, BOOL aDone)
9933{
9934 LogFlowThisFunc(("\n"));
9935
9936 AutoCaller autoCaller(this);
9937 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
9938
9939#ifdef VBOX_WITH_USB
9940 USBProxyService *service = mParent->host()->usbProxyService();
9941 AssertReturn(service, E_FAIL);
9942 return service->detachDeviceFromVM(this, Guid(aId), !!aDone);
9943#else
9944 NOREF(aId);
9945 NOREF(aDone);
9946 return E_NOTIMPL;
9947#endif
9948}
9949
9950/**
9951 * Inserts all machine filters to the USB proxy service and then calls
9952 * Host::autoCaptureUSBDevices().
9953 *
9954 * Called by Console from the VM process upon VM startup.
9955 *
9956 * @note Locks what called methods lock.
9957 */
9958STDMETHODIMP SessionMachine::AutoCaptureUSBDevices()
9959{
9960 LogFlowThisFunc(("\n"));
9961
9962 AutoCaller autoCaller(this);
9963 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
9964
9965#ifdef VBOX_WITH_USB
9966 HRESULT rc = mUSBController->notifyProxy(true /* aInsertFilters */);
9967 AssertComRC(rc);
9968 NOREF(rc);
9969
9970 USBProxyService *service = mParent->host()->usbProxyService();
9971 AssertReturn(service, E_FAIL);
9972 return service->autoCaptureDevicesForVM(this);
9973#else
9974 return S_OK;
9975#endif
9976}
9977
9978/**
9979 * Removes all machine filters from the USB proxy service and then calls
9980 * Host::detachAllUSBDevices().
9981 *
9982 * Called by Console from the VM process upon normal VM termination or by
9983 * SessionMachine::uninit() upon abnormal VM termination (from under the
9984 * Machine/SessionMachine lock).
9985 *
9986 * @note Locks what called methods lock.
9987 */
9988STDMETHODIMP SessionMachine::DetachAllUSBDevices(BOOL aDone)
9989{
9990 LogFlowThisFunc(("\n"));
9991
9992 AutoCaller autoCaller(this);
9993 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
9994
9995#ifdef VBOX_WITH_USB
9996 HRESULT rc = mUSBController->notifyProxy(false /* aInsertFilters */);
9997 AssertComRC(rc);
9998 NOREF(rc);
9999
10000 USBProxyService *service = mParent->host()->usbProxyService();
10001 AssertReturn(service, E_FAIL);
10002 return service->detachAllDevicesFromVM(this, !!aDone, false /* aAbnormal */);
10003#else
10004 NOREF(aDone);
10005 return S_OK;
10006#endif
10007}
10008
10009/**
10010 * @note Locks this object for writing.
10011 */
10012STDMETHODIMP SessionMachine::OnSessionEnd(ISession *aSession,
10013 IProgress **aProgress)
10014{
10015 LogFlowThisFuncEnter();
10016
10017 AssertReturn(aSession, E_INVALIDARG);
10018 AssertReturn(aProgress, E_INVALIDARG);
10019
10020 AutoCaller autoCaller(this);
10021
10022 LogFlowThisFunc(("callerstate=%d\n", autoCaller.state()));
10023 /*
10024 * We don't assert below because it might happen that a non-direct session
10025 * informs us it is closed right after we've been uninitialized -- it's ok.
10026 */
10027 if (FAILED(autoCaller.rc())) return autoCaller.rc();
10028
10029 /* get IInternalSessionControl interface */
10030 ComPtr<IInternalSessionControl> control(aSession);
10031
10032 ComAssertRet(!control.isNull(), E_INVALIDARG);
10033
10034 /* Creating a Progress object requires the VirtualBox lock, and
10035 * thus locking it here is required by the lock order rules. */
10036 AutoMultiWriteLock2 alock(mParent->lockHandle(), this->lockHandle() COMMA_LOCKVAL_SRC_POS);
10037
10038 if (control.equalsTo(mData->mSession.mDirectControl))
10039 {
10040 ComAssertRet(aProgress, E_POINTER);
10041
10042 /* The direct session is being normally closed by the client process
10043 * ----------------------------------------------------------------- */
10044
10045 /* go to the closing state (essential for all open*Session() calls and
10046 * for #checkForDeath()) */
10047 Assert(mData->mSession.mState == SessionState_Open);
10048 mData->mSession.mState = SessionState_Closing;
10049
10050 /* set direct control to NULL to release the remote instance */
10051 mData->mSession.mDirectControl.setNull();
10052 LogFlowThisFunc(("Direct control is set to NULL\n"));
10053
10054 if (mData->mSession.mProgress)
10055 {
10056 /* finalize the progress, someone might wait if a frontend
10057 * closes the session before powering on the VM. */
10058 mData->mSession.mProgress->notifyComplete(E_FAIL,
10059 COM_IIDOF(ISession),
10060 getComponentName(),
10061 tr("The VM session was closed before any attempt to power it on"));
10062 mData->mSession.mProgress.setNull();
10063 }
10064
10065 /* Create the progress object the client will use to wait until
10066 * #checkForDeath() is called to uninitialize this session object after
10067 * it releases the IPC semaphore.
10068 * Note! Because we're "reusing" mProgress here, this must be a proxy
10069 * object just like for openRemoteSession. */
10070 Assert(mData->mSession.mProgress.isNull());
10071 ComObjPtr<ProgressProxy> progress;
10072 progress.createObject();
10073 ComPtr<IUnknown> pPeer(mPeer);
10074 progress->init(mParent, pPeer,
10075 Bstr(tr("Closing session")),
10076 FALSE /* aCancelable */);
10077 progress.queryInterfaceTo(aProgress);
10078 mData->mSession.mProgress = progress;
10079 }
10080 else
10081 {
10082 /* the remote session is being normally closed */
10083 Data::Session::RemoteControlList::iterator it =
10084 mData->mSession.mRemoteControls.begin();
10085 while (it != mData->mSession.mRemoteControls.end())
10086 {
10087 if (control.equalsTo(*it))
10088 break;
10089 ++it;
10090 }
10091 BOOL found = it != mData->mSession.mRemoteControls.end();
10092 ComAssertMsgRet(found, ("The session is not found in the session list!"),
10093 E_INVALIDARG);
10094 mData->mSession.mRemoteControls.remove(*it);
10095 }
10096
10097 LogFlowThisFuncLeave();
10098 return S_OK;
10099}
10100
10101/**
10102 * @note Locks this object for writing.
10103 */
10104STDMETHODIMP SessionMachine::BeginSavingState(IProgress *aProgress, BSTR *aStateFilePath)
10105{
10106 LogFlowThisFuncEnter();
10107
10108 AssertReturn(aProgress, E_INVALIDARG);
10109 AssertReturn(aStateFilePath, E_POINTER);
10110
10111 AutoCaller autoCaller(this);
10112 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10113
10114 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
10115
10116 AssertReturn( mData->mMachineState == MachineState_Paused
10117 && mSnapshotData.mLastState == MachineState_Null
10118 && mSnapshotData.mProgressId.isEmpty()
10119 && mSnapshotData.mStateFilePath.isEmpty(),
10120 E_FAIL);
10121
10122 /* memorize the progress ID and add it to the global collection */
10123 Bstr progressId;
10124 HRESULT rc = aProgress->COMGETTER(Id)(progressId.asOutParam());
10125 AssertComRCReturn(rc, rc);
10126 rc = mParent->addProgress(aProgress);
10127 AssertComRCReturn(rc, rc);
10128
10129 Bstr stateFilePath;
10130 /* stateFilePath is null when the machine is not running */
10131 if (mData->mMachineState == MachineState_Paused)
10132 {
10133 stateFilePath = Utf8StrFmt("%ls%c{%RTuuid}.sav",
10134 mUserData->mSnapshotFolderFull.raw(),
10135 RTPATH_DELIMITER, mData->mUuid.raw());
10136 }
10137
10138 /* fill in the snapshot data */
10139 mSnapshotData.mLastState = mData->mMachineState;
10140 mSnapshotData.mProgressId = Guid(progressId);
10141 mSnapshotData.mStateFilePath = stateFilePath;
10142
10143 /* set the state to Saving (this is expected by Console::SaveState()) */
10144 setMachineState(MachineState_Saving);
10145
10146 stateFilePath.cloneTo(aStateFilePath);
10147
10148 return S_OK;
10149}
10150
10151/**
10152 * @note Locks mParent + this object for writing.
10153 */
10154STDMETHODIMP SessionMachine::EndSavingState(BOOL aSuccess)
10155{
10156 LogFlowThisFunc(("\n"));
10157
10158 AutoCaller autoCaller(this);
10159 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10160
10161 /* endSavingState() need mParent lock */
10162 AutoMultiWriteLock2 alock(mParent, this COMMA_LOCKVAL_SRC_POS);
10163
10164 AssertReturn( mData->mMachineState == MachineState_Saving
10165 && mSnapshotData.mLastState != MachineState_Null
10166 && !mSnapshotData.mProgressId.isEmpty()
10167 && !mSnapshotData.mStateFilePath.isEmpty(),
10168 E_FAIL);
10169
10170 /*
10171 * on success, set the state to Saved;
10172 * on failure, set the state to the state we had when BeginSavingState() was
10173 * called (this is expected by Console::SaveState() and
10174 * Console::saveStateThread())
10175 */
10176 if (aSuccess)
10177 setMachineState(MachineState_Saved);
10178 else
10179 setMachineState(mSnapshotData.mLastState);
10180
10181 return endSavingState(aSuccess);
10182}
10183
10184/**
10185 * @note Locks this object for writing.
10186 */
10187STDMETHODIMP SessionMachine::AdoptSavedState(IN_BSTR aSavedStateFile)
10188{
10189 LogFlowThisFunc(("\n"));
10190
10191 CheckComArgStrNotEmptyOrNull(aSavedStateFile);
10192
10193 AutoCaller autoCaller(this);
10194 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10195
10196 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
10197
10198 AssertReturn( mData->mMachineState == MachineState_PoweredOff
10199 || mData->mMachineState == MachineState_Teleported
10200 || mData->mMachineState == MachineState_Aborted
10201 , E_FAIL); /** @todo setError. */
10202
10203 Utf8Str stateFilePathFull = aSavedStateFile;
10204 int vrc = calculateFullPath(stateFilePathFull, stateFilePathFull);
10205 if (RT_FAILURE(vrc))
10206 return setError(VBOX_E_FILE_ERROR,
10207 tr("Invalid saved state file path '%ls' (%Rrc)"),
10208 aSavedStateFile,
10209 vrc);
10210
10211 mSSData->mStateFilePath = stateFilePathFull;
10212
10213 /* The below setMachineState() will detect the state transition and will
10214 * update the settings file */
10215
10216 return setMachineState(MachineState_Saved);
10217}
10218
10219STDMETHODIMP SessionMachine::PullGuestProperties(ComSafeArrayOut(BSTR, aNames),
10220 ComSafeArrayOut(BSTR, aValues),
10221 ComSafeArrayOut(ULONG64, aTimestamps),
10222 ComSafeArrayOut(BSTR, aFlags))
10223{
10224 LogFlowThisFunc(("\n"));
10225
10226#ifdef VBOX_WITH_GUEST_PROPS
10227 using namespace guestProp;
10228
10229 AutoCaller autoCaller(this);
10230 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10231
10232 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10233
10234 AssertReturn(!ComSafeArrayOutIsNull(aNames), E_POINTER);
10235 AssertReturn(!ComSafeArrayOutIsNull(aValues), E_POINTER);
10236 AssertReturn(!ComSafeArrayOutIsNull(aTimestamps), E_POINTER);
10237 AssertReturn(!ComSafeArrayOutIsNull(aFlags), E_POINTER);
10238
10239 size_t cEntries = mHWData->mGuestProperties.size();
10240 com::SafeArray<BSTR> names(cEntries);
10241 com::SafeArray<BSTR> values(cEntries);
10242 com::SafeArray<ULONG64> timestamps(cEntries);
10243 com::SafeArray<BSTR> flags(cEntries);
10244 unsigned i = 0;
10245 for (HWData::GuestPropertyList::iterator it = mHWData->mGuestProperties.begin();
10246 it != mHWData->mGuestProperties.end();
10247 ++it)
10248 {
10249 char szFlags[MAX_FLAGS_LEN + 1];
10250 it->strName.cloneTo(&names[i]);
10251 it->strValue.cloneTo(&values[i]);
10252 timestamps[i] = it->mTimestamp;
10253 /* If it is NULL, keep it NULL. */
10254 if (it->mFlags)
10255 {
10256 writeFlags(it->mFlags, szFlags);
10257 Bstr(szFlags).cloneTo(&flags[i]);
10258 }
10259 else
10260 flags[i] = NULL;
10261 ++i;
10262 }
10263 names.detachTo(ComSafeArrayOutArg(aNames));
10264 values.detachTo(ComSafeArrayOutArg(aValues));
10265 timestamps.detachTo(ComSafeArrayOutArg(aTimestamps));
10266 flags.detachTo(ComSafeArrayOutArg(aFlags));
10267 return S_OK;
10268#else
10269 ReturnComNotImplemented();
10270#endif
10271}
10272
10273STDMETHODIMP SessionMachine::PushGuestProperty(IN_BSTR aName,
10274 IN_BSTR aValue,
10275 ULONG64 aTimestamp,
10276 IN_BSTR aFlags)
10277{
10278 LogFlowThisFunc(("\n"));
10279
10280#ifdef VBOX_WITH_GUEST_PROPS
10281 using namespace guestProp;
10282
10283 CheckComArgStrNotEmptyOrNull(aName);
10284 if (aValue != NULL && (!VALID_PTR(aValue) || !VALID_PTR(aFlags)))
10285 return E_POINTER; /* aValue can be NULL to indicate deletion */
10286
10287 try
10288 {
10289 /*
10290 * Convert input up front.
10291 */
10292 Utf8Str utf8Name(aName);
10293 uint32_t fFlags = NILFLAG;
10294 if (aFlags)
10295 {
10296 Utf8Str utf8Flags(aFlags);
10297 int vrc = validateFlags(utf8Flags.raw(), &fFlags);
10298 AssertRCReturn(vrc, E_INVALIDARG);
10299 }
10300
10301 /*
10302 * Now grab the object lock, validate the state and do the update.
10303 */
10304 AutoCaller autoCaller(this);
10305 if (FAILED(autoCaller.rc())) return autoCaller.rc();
10306
10307 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
10308
10309 switch (mData->mMachineState)
10310 {
10311 case MachineState_Paused:
10312 case MachineState_Running:
10313 case MachineState_Teleporting:
10314 case MachineState_TeleportingPausedVM:
10315 case MachineState_LiveSnapshotting:
10316 case MachineState_DeletingSnapshotOnline:
10317 case MachineState_DeletingSnapshotPaused:
10318 case MachineState_Saving:
10319 break;
10320
10321 default:
10322 AssertMsgFailedReturn(("%s\n", Global::stringifyMachineState(mData->mMachineState)),
10323 VBOX_E_INVALID_VM_STATE);
10324 }
10325
10326 setModified(IsModified_MachineData);
10327 mHWData.backup();
10328
10329 /** @todo r=bird: The careful memory handling doesn't work out here because
10330 * the catch block won't undo any damange we've done. So, if push_back throws
10331 * bad_alloc then you've lost the value.
10332 *
10333 * Another thing. Doing a linear search here isn't extremely efficient, esp.
10334 * since values that changes actually bubbles to the end of the list. Using
10335 * something that has an efficient lookup and can tollerate a bit of updates
10336 * would be nice. RTStrSpace is one suggestion (it's not perfect). Some
10337 * combination of RTStrCache (for sharing names and getting uniqueness into
10338 * the bargain) and hash/tree is another. */
10339 for (HWData::GuestPropertyList::iterator iter = mHWData->mGuestProperties.begin();
10340 iter != mHWData->mGuestProperties.end();
10341 ++iter)
10342 if (utf8Name == iter->strName)
10343 {
10344 mHWData->mGuestProperties.erase(iter);
10345 mData->mGuestPropertiesModified = TRUE;
10346 break;
10347 }
10348 if (aValue != NULL)
10349 {
10350 HWData::GuestProperty property = { aName, aValue, aTimestamp, fFlags };
10351 mHWData->mGuestProperties.push_back(property);
10352 mData->mGuestPropertiesModified = TRUE;
10353 }
10354
10355 /*
10356 * Send a callback notification if appropriate
10357 */
10358 if ( mHWData->mGuestPropertyNotificationPatterns.isEmpty()
10359 || RTStrSimplePatternMultiMatch(mHWData->mGuestPropertyNotificationPatterns.raw(),
10360 RTSTR_MAX,
10361 utf8Name.raw(),
10362 RTSTR_MAX, NULL)
10363 )
10364 {
10365 alock.leave();
10366
10367 mParent->onGuestPropertyChange(mData->mUuid,
10368 aName,
10369 aValue,
10370 aFlags);
10371 }
10372 }
10373 catch (...)
10374 {
10375 return VirtualBox::handleUnexpectedExceptions(RT_SRC_POS);
10376 }
10377 return S_OK;
10378#else
10379 ReturnComNotImplemented();
10380#endif
10381}
10382
10383// public methods only for internal purposes
10384/////////////////////////////////////////////////////////////////////////////
10385
10386/**
10387 * Called from the client watcher thread to check for expected or unexpected
10388 * death of the client process that has a direct session to this machine.
10389 *
10390 * On Win32 and on OS/2, this method is called only when we've got the
10391 * mutex (i.e. the client has either died or terminated normally) so it always
10392 * returns @c true (the client is terminated, the session machine is
10393 * uninitialized).
10394 *
10395 * On other platforms, the method returns @c true if the client process has
10396 * terminated normally or abnormally and the session machine was uninitialized,
10397 * and @c false if the client process is still alive.
10398 *
10399 * @note Locks this object for writing.
10400 */
10401bool SessionMachine::checkForDeath()
10402{
10403 Uninit::Reason reason;
10404 bool terminated = false;
10405
10406 /* Enclose autoCaller with a block because calling uninit() from under it
10407 * will deadlock. */
10408 {
10409 AutoCaller autoCaller(this);
10410 if (!autoCaller.isOk())
10411 {
10412 /* return true if not ready, to cause the client watcher to exclude
10413 * the corresponding session from watching */
10414 LogFlowThisFunc(("Already uninitialized!\n"));
10415 return true;
10416 }
10417
10418 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
10419
10420 /* Determine the reason of death: if the session state is Closing here,
10421 * everything is fine. Otherwise it means that the client did not call
10422 * OnSessionEnd() before it released the IPC semaphore. This may happen
10423 * either because the client process has abnormally terminated, or
10424 * because it simply forgot to call ISession::Close() before exiting. We
10425 * threat the latter also as an abnormal termination (see
10426 * Session::uninit() for details). */
10427 reason = mData->mSession.mState == SessionState_Closing ?
10428 Uninit::Normal :
10429 Uninit::Abnormal;
10430
10431#if defined(RT_OS_WINDOWS)
10432
10433 AssertMsg(mIPCSem, ("semaphore must be created"));
10434
10435 /* release the IPC mutex */
10436 ::ReleaseMutex(mIPCSem);
10437
10438 terminated = true;
10439
10440#elif defined(RT_OS_OS2)
10441
10442 AssertMsg(mIPCSem, ("semaphore must be created"));
10443
10444 /* release the IPC mutex */
10445 ::DosReleaseMutexSem(mIPCSem);
10446
10447 terminated = true;
10448
10449#elif defined(VBOX_WITH_SYS_V_IPC_SESSION_WATCHER)
10450
10451 AssertMsg(mIPCSem >= 0, ("semaphore must be created"));
10452
10453 int val = ::semctl(mIPCSem, 0, GETVAL);
10454 if (val > 0)
10455 {
10456 /* the semaphore is signaled, meaning the session is terminated */
10457 terminated = true;
10458 }
10459
10460#else
10461# error "Port me!"
10462#endif
10463
10464 } /* AutoCaller block */
10465
10466 if (terminated)
10467 uninit(reason);
10468
10469 return terminated;
10470}
10471
10472/**
10473 * @note Locks this object for reading.
10474 */
10475HRESULT SessionMachine::onNetworkAdapterChange(INetworkAdapter *networkAdapter, BOOL changeAdapter)
10476{
10477 LogFlowThisFunc(("\n"));
10478
10479 AutoCaller autoCaller(this);
10480 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10481
10482 ComPtr<IInternalSessionControl> directControl;
10483 {
10484 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10485 directControl = mData->mSession.mDirectControl;
10486 }
10487
10488 /* ignore notifications sent after #OnSessionEnd() is called */
10489 if (!directControl)
10490 return S_OK;
10491
10492 return directControl->OnNetworkAdapterChange(networkAdapter, changeAdapter);
10493}
10494
10495/**
10496 * @note Locks this object for reading.
10497 */
10498HRESULT SessionMachine::onSerialPortChange(ISerialPort *serialPort)
10499{
10500 LogFlowThisFunc(("\n"));
10501
10502 AutoCaller autoCaller(this);
10503 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10504
10505 ComPtr<IInternalSessionControl> directControl;
10506 {
10507 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10508 directControl = mData->mSession.mDirectControl;
10509 }
10510
10511 /* ignore notifications sent after #OnSessionEnd() is called */
10512 if (!directControl)
10513 return S_OK;
10514
10515 return directControl->OnSerialPortChange(serialPort);
10516}
10517
10518/**
10519 * @note Locks this object for reading.
10520 */
10521HRESULT SessionMachine::onParallelPortChange(IParallelPort *parallelPort)
10522{
10523 LogFlowThisFunc(("\n"));
10524
10525 AutoCaller autoCaller(this);
10526 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10527
10528 ComPtr<IInternalSessionControl> directControl;
10529 {
10530 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10531 directControl = mData->mSession.mDirectControl;
10532 }
10533
10534 /* ignore notifications sent after #OnSessionEnd() is called */
10535 if (!directControl)
10536 return S_OK;
10537
10538 return directControl->OnParallelPortChange(parallelPort);
10539}
10540
10541/**
10542 * @note Locks this object for reading.
10543 */
10544HRESULT SessionMachine::onStorageControllerChange()
10545{
10546 LogFlowThisFunc(("\n"));
10547
10548 AutoCaller autoCaller(this);
10549 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10550
10551 ComPtr<IInternalSessionControl> directControl;
10552 {
10553 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10554 directControl = mData->mSession.mDirectControl;
10555 }
10556
10557 /* ignore notifications sent after #OnSessionEnd() is called */
10558 if (!directControl)
10559 return S_OK;
10560
10561 return directControl->OnStorageControllerChange();
10562}
10563
10564/**
10565 * @note Locks this object for reading.
10566 */
10567HRESULT SessionMachine::onMediumChange(IMediumAttachment *aAttachment, BOOL aForce)
10568{
10569 LogFlowThisFunc(("\n"));
10570
10571 AutoCaller autoCaller(this);
10572 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10573
10574 ComPtr<IInternalSessionControl> directControl;
10575 {
10576 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10577 directControl = mData->mSession.mDirectControl;
10578 }
10579
10580 /* ignore notifications sent after #OnSessionEnd() is called */
10581 if (!directControl)
10582 return S_OK;
10583
10584 return directControl->OnMediumChange(aAttachment, aForce);
10585}
10586
10587/**
10588 * @note Locks this object for reading.
10589 */
10590HRESULT SessionMachine::onCPUChange(ULONG aCPU, BOOL aRemove)
10591{
10592 LogFlowThisFunc(("\n"));
10593
10594 AutoCaller autoCaller(this);
10595 AssertComRCReturn (autoCaller.rc(), autoCaller.rc());
10596
10597 ComPtr<IInternalSessionControl> directControl;
10598 {
10599 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10600 directControl = mData->mSession.mDirectControl;
10601 }
10602
10603 /* ignore notifications sent after #OnSessionEnd() is called */
10604 if (!directControl)
10605 return S_OK;
10606
10607 return directControl->OnCPUChange(aCPU, aRemove);
10608}
10609
10610/**
10611 * @note Locks this object for reading.
10612 */
10613HRESULT SessionMachine::onVRDPServerChange(BOOL aRestart)
10614{
10615 LogFlowThisFunc(("\n"));
10616
10617 AutoCaller autoCaller(this);
10618 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10619
10620 ComPtr<IInternalSessionControl> directControl;
10621 {
10622 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10623 directControl = mData->mSession.mDirectControl;
10624 }
10625
10626 /* ignore notifications sent after #OnSessionEnd() is called */
10627 if (!directControl)
10628 return S_OK;
10629
10630 return directControl->OnVRDPServerChange(aRestart);
10631}
10632
10633/**
10634 * @note Locks this object for reading.
10635 */
10636HRESULT SessionMachine::onUSBControllerChange()
10637{
10638 LogFlowThisFunc(("\n"));
10639
10640 AutoCaller autoCaller(this);
10641 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10642
10643 ComPtr<IInternalSessionControl> directControl;
10644 {
10645 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10646 directControl = mData->mSession.mDirectControl;
10647 }
10648
10649 /* ignore notifications sent after #OnSessionEnd() is called */
10650 if (!directControl)
10651 return S_OK;
10652
10653 return directControl->OnUSBControllerChange();
10654}
10655
10656/**
10657 * @note Locks this object for reading.
10658 */
10659HRESULT SessionMachine::onSharedFolderChange()
10660{
10661 LogFlowThisFunc(("\n"));
10662
10663 AutoCaller autoCaller(this);
10664 AssertComRCReturnRC(autoCaller.rc());
10665
10666 ComPtr<IInternalSessionControl> directControl;
10667 {
10668 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10669 directControl = mData->mSession.mDirectControl;
10670 }
10671
10672 /* ignore notifications sent after #OnSessionEnd() is called */
10673 if (!directControl)
10674 return S_OK;
10675
10676 return directControl->OnSharedFolderChange(FALSE /* aGlobal */);
10677}
10678
10679/**
10680 * Returns @c true if this machine's USB controller reports it has a matching
10681 * filter for the given USB device and @c false otherwise.
10682 *
10683 * @note Caller must have requested machine read lock.
10684 */
10685bool SessionMachine::hasMatchingUSBFilter(const ComObjPtr<HostUSBDevice> &aDevice, ULONG *aMaskedIfs)
10686{
10687 AutoCaller autoCaller(this);
10688 /* silently return if not ready -- this method may be called after the
10689 * direct machine session has been called */
10690 if (!autoCaller.isOk())
10691 return false;
10692
10693
10694#ifdef VBOX_WITH_USB
10695 switch (mData->mMachineState)
10696 {
10697 case MachineState_Starting:
10698 case MachineState_Restoring:
10699 case MachineState_TeleportingIn:
10700 case MachineState_Paused:
10701 case MachineState_Running:
10702 /** @todo Live Migration: snapshoting & teleporting. Need to fend things of
10703 * elsewhere... */
10704 return mUSBController->hasMatchingFilter(aDevice, aMaskedIfs);
10705 default: break;
10706 }
10707#else
10708 NOREF(aDevice);
10709 NOREF(aMaskedIfs);
10710#endif
10711 return false;
10712}
10713
10714/**
10715 * @note The calls shall hold no locks. Will temporarily lock this object for reading.
10716 */
10717HRESULT SessionMachine::onUSBDeviceAttach(IUSBDevice *aDevice,
10718 IVirtualBoxErrorInfo *aError,
10719 ULONG aMaskedIfs)
10720{
10721 LogFlowThisFunc(("\n"));
10722
10723 AutoCaller autoCaller(this);
10724
10725 /* This notification may happen after the machine object has been
10726 * uninitialized (the session was closed), so don't assert. */
10727 if (FAILED(autoCaller.rc())) return autoCaller.rc();
10728
10729 ComPtr<IInternalSessionControl> directControl;
10730 {
10731 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10732 directControl = mData->mSession.mDirectControl;
10733 }
10734
10735 /* fail on notifications sent after #OnSessionEnd() is called, it is
10736 * expected by the caller */
10737 if (!directControl)
10738 return E_FAIL;
10739
10740 /* No locks should be held at this point. */
10741 AssertMsg(RTLockValidatorWriteLockGetCount(RTThreadSelf()) == 0, ("%d\n", RTLockValidatorWriteLockGetCount(RTThreadSelf())));
10742 AssertMsg(RTLockValidatorReadLockGetCount(RTThreadSelf()) == 0, ("%d\n", RTLockValidatorReadLockGetCount(RTThreadSelf())));
10743
10744 return directControl->OnUSBDeviceAttach(aDevice, aError, aMaskedIfs);
10745}
10746
10747/**
10748 * @note The calls shall hold no locks. Will temporarily lock this object for reading.
10749 */
10750HRESULT SessionMachine::onUSBDeviceDetach(IN_BSTR aId,
10751 IVirtualBoxErrorInfo *aError)
10752{
10753 LogFlowThisFunc(("\n"));
10754
10755 AutoCaller autoCaller(this);
10756
10757 /* This notification may happen after the machine object has been
10758 * uninitialized (the session was closed), so don't assert. */
10759 if (FAILED(autoCaller.rc())) return autoCaller.rc();
10760
10761 ComPtr<IInternalSessionControl> directControl;
10762 {
10763 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
10764 directControl = mData->mSession.mDirectControl;
10765 }
10766
10767 /* fail on notifications sent after #OnSessionEnd() is called, it is
10768 * expected by the caller */
10769 if (!directControl)
10770 return E_FAIL;
10771
10772 /* No locks should be held at this point. */
10773 AssertMsg(RTLockValidatorWriteLockGetCount(RTThreadSelf()) == 0, ("%d\n", RTLockValidatorWriteLockGetCount(RTThreadSelf())));
10774 AssertMsg(RTLockValidatorReadLockGetCount(RTThreadSelf()) == 0, ("%d\n", RTLockValidatorReadLockGetCount(RTThreadSelf())));
10775
10776 return directControl->OnUSBDeviceDetach(aId, aError);
10777}
10778
10779// protected methods
10780/////////////////////////////////////////////////////////////////////////////
10781
10782/**
10783 * Helper method to finalize saving the state.
10784 *
10785 * @note Must be called from under this object's lock.
10786 *
10787 * @param aSuccess TRUE if the snapshot has been taken successfully
10788 *
10789 * @note Locks mParent + this objects for writing.
10790 */
10791HRESULT SessionMachine::endSavingState(BOOL aSuccess)
10792{
10793 LogFlowThisFuncEnter();
10794
10795 AutoCaller autoCaller(this);
10796 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10797
10798 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
10799
10800 HRESULT rc = S_OK;
10801
10802 if (aSuccess)
10803 {
10804 mSSData->mStateFilePath = mSnapshotData.mStateFilePath;
10805
10806 /* save all VM settings */
10807 rc = saveSettings(NULL);
10808 // no need to check whether VirtualBox.xml needs saving also since
10809 // we can't have a name change pending at this point
10810 }
10811 else
10812 {
10813 /* delete the saved state file (it might have been already created) */
10814 RTFileDelete(mSnapshotData.mStateFilePath.c_str());
10815 }
10816
10817 /* remove the completed progress object */
10818 mParent->removeProgress(mSnapshotData.mProgressId);
10819
10820 /* clear out the temporary saved state data */
10821 mSnapshotData.mLastState = MachineState_Null;
10822 mSnapshotData.mProgressId.clear();
10823 mSnapshotData.mStateFilePath.setNull();
10824
10825 LogFlowThisFuncLeave();
10826 return rc;
10827}
10828
10829/**
10830 * Locks the attached media.
10831 *
10832 * All attached hard disks are locked for writing and DVD/floppy are locked for
10833 * reading. Parents of attached hard disks (if any) are locked for reading.
10834 *
10835 * This method also performs accessibility check of all media it locks: if some
10836 * media is inaccessible, the method will return a failure and a bunch of
10837 * extended error info objects per each inaccessible medium.
10838 *
10839 * Note that this method is atomic: if it returns a success, all media are
10840 * locked as described above; on failure no media is locked at all (all
10841 * succeeded individual locks will be undone).
10842 *
10843 * This method is intended to be called when the machine is in Starting or
10844 * Restoring state and asserts otherwise.
10845 *
10846 * The locks made by this method must be undone by calling #unlockMedia() when
10847 * no more needed.
10848 */
10849HRESULT SessionMachine::lockMedia()
10850{
10851 AutoCaller autoCaller(this);
10852 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10853
10854 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
10855
10856 AssertReturn( mData->mMachineState == MachineState_Starting
10857 || mData->mMachineState == MachineState_Restoring
10858 || mData->mMachineState == MachineState_TeleportingIn, E_FAIL);
10859 /* bail out if trying to lock things with already set up locking */
10860 AssertReturn(mData->mSession.mLockedMedia.IsEmpty(), E_FAIL);
10861
10862 MultiResult mrc(S_OK);
10863
10864 /* Collect locking information for all medium objects attached to the VM. */
10865 for (MediaData::AttachmentList::const_iterator it = mMediaData->mAttachments.begin();
10866 it != mMediaData->mAttachments.end();
10867 ++it)
10868 {
10869 MediumAttachment* pAtt = *it;
10870 DeviceType_T devType = pAtt->getType();
10871 Medium *pMedium = pAtt->getMedium();
10872
10873 MediumLockList *pMediumLockList(new MediumLockList());
10874 // There can be attachments without a medium (floppy/dvd), and thus
10875 // it's impossible to create a medium lock list. It still makes sense
10876 // to have the empty medium lock list in the map in case a medium is
10877 // attached later.
10878 if (pMedium != NULL)
10879 {
10880 bool fIsReadOnlyImage = (devType == DeviceType_DVD);
10881 bool fIsVitalImage = (devType == DeviceType_HardDisk);
10882 mrc = pMedium->createMediumLockList(fIsVitalImage /* fFailIfInaccessible */,
10883 !fIsReadOnlyImage /* fMediumLockWrite */,
10884 NULL,
10885 *pMediumLockList);
10886 if (FAILED(mrc))
10887 {
10888 delete pMediumLockList;
10889 mData->mSession.mLockedMedia.Clear();
10890 break;
10891 }
10892 }
10893
10894 HRESULT rc = mData->mSession.mLockedMedia.Insert(pAtt, pMediumLockList);
10895 if (FAILED(rc))
10896 {
10897 mData->mSession.mLockedMedia.Clear();
10898 mrc = setError(rc,
10899 tr("Collecting locking information for all attached media failed"));
10900 break;
10901 }
10902 }
10903
10904 if (SUCCEEDED(mrc))
10905 {
10906 /* Now lock all media. If this fails, nothing is locked. */
10907 HRESULT rc = mData->mSession.mLockedMedia.Lock();
10908 if (FAILED(rc))
10909 {
10910 mrc = setError(rc,
10911 tr("Locking of attached media failed"));
10912 }
10913 }
10914
10915 return mrc;
10916}
10917
10918/**
10919 * Undoes the locks made by by #lockMedia().
10920 */
10921void SessionMachine::unlockMedia()
10922{
10923 AutoCaller autoCaller(this);
10924 AssertComRCReturnVoid(autoCaller.rc());
10925
10926 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
10927
10928 /* we may be holding important error info on the current thread;
10929 * preserve it */
10930 ErrorInfoKeeper eik;
10931
10932 HRESULT rc = mData->mSession.mLockedMedia.Clear();
10933 AssertComRC(rc);
10934}
10935
10936/**
10937 * Helper to change the machine state (reimplementation).
10938 *
10939 * @note Locks this object for writing.
10940 */
10941HRESULT SessionMachine::setMachineState(MachineState_T aMachineState)
10942{
10943 LogFlowThisFuncEnter();
10944 LogFlowThisFunc(("aMachineState=%s\n", Global::stringifyMachineState(aMachineState) ));
10945
10946 AutoCaller autoCaller(this);
10947 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
10948
10949 AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
10950
10951 MachineState_T oldMachineState = mData->mMachineState;
10952
10953 AssertMsgReturn(oldMachineState != aMachineState,
10954 ("oldMachineState=%s, aMachineState=%s\n",
10955 Global::stringifyMachineState(oldMachineState), Global::stringifyMachineState(aMachineState)),
10956 E_FAIL);
10957
10958 HRESULT rc = S_OK;
10959
10960 int stsFlags = 0;
10961 bool deleteSavedState = false;
10962
10963 /* detect some state transitions */
10964
10965 if ( ( oldMachineState == MachineState_Saved
10966 && aMachineState == MachineState_Restoring)
10967 || ( ( oldMachineState == MachineState_PoweredOff
10968 || oldMachineState == MachineState_Teleported
10969 || oldMachineState == MachineState_Aborted
10970 )
10971 && ( aMachineState == MachineState_TeleportingIn
10972 || aMachineState == MachineState_Starting
10973 )
10974 )
10975 )
10976 {
10977 /* The EMT thread is about to start */
10978
10979 /* Nothing to do here for now... */
10980
10981 /// @todo NEWMEDIA don't let mDVDDrive and other children
10982 /// change anything when in the Starting/Restoring state
10983 }
10984 else if ( ( oldMachineState == MachineState_Running
10985 || oldMachineState == MachineState_Paused
10986 || oldMachineState == MachineState_Teleporting
10987 || oldMachineState == MachineState_LiveSnapshotting
10988 || oldMachineState == MachineState_Stuck
10989 || oldMachineState == MachineState_Starting
10990 || oldMachineState == MachineState_Stopping
10991 || oldMachineState == MachineState_Saving
10992 || oldMachineState == MachineState_Restoring
10993 || oldMachineState == MachineState_TeleportingPausedVM
10994 || oldMachineState == MachineState_TeleportingIn
10995 )
10996 && ( aMachineState == MachineState_PoweredOff
10997 || aMachineState == MachineState_Saved
10998 || aMachineState == MachineState_Teleported
10999 || aMachineState == MachineState_Aborted
11000 )
11001 /* ignore PoweredOff->Saving->PoweredOff transition when taking a
11002 * snapshot */
11003 && ( mSnapshotData.mSnapshot.isNull()
11004 || mSnapshotData.mLastState >= MachineState_Running /** @todo Live Migration: clean up (lazy bird) */
11005 )
11006 )
11007 {
11008 /* The EMT thread has just stopped, unlock attached media. Note that as
11009 * opposed to locking that is done from Console, we do unlocking here
11010 * because the VM process may have aborted before having a chance to
11011 * properly unlock all media it locked. */
11012
11013 unlockMedia();
11014 }
11015
11016 if (oldMachineState == MachineState_Restoring)
11017 {
11018 if (aMachineState != MachineState_Saved)
11019 {
11020 /*
11021 * delete the saved state file once the machine has finished
11022 * restoring from it (note that Console sets the state from
11023 * Restoring to Saved if the VM couldn't restore successfully,
11024 * to give the user an ability to fix an error and retry --
11025 * we keep the saved state file in this case)
11026 */
11027 deleteSavedState = true;
11028 }
11029 }
11030 else if ( oldMachineState == MachineState_Saved
11031 && ( aMachineState == MachineState_PoweredOff
11032 || aMachineState == MachineState_Aborted
11033 || aMachineState == MachineState_Teleported
11034 )
11035 )
11036 {
11037 /*
11038 * delete the saved state after Console::ForgetSavedState() is called
11039 * or if the VM process (owning a direct VM session) crashed while the
11040 * VM was Saved
11041 */
11042
11043 /// @todo (dmik)
11044 // Not sure that deleting the saved state file just because of the
11045 // client death before it attempted to restore the VM is a good
11046 // thing. But when it crashes we need to go to the Aborted state
11047 // which cannot have the saved state file associated... The only
11048 // way to fix this is to make the Aborted condition not a VM state
11049 // but a bool flag: i.e., when a crash occurs, set it to true and
11050 // change the state to PoweredOff or Saved depending on the
11051 // saved state presence.
11052
11053 deleteSavedState = true;
11054 mData->mCurrentStateModified = TRUE;
11055 stsFlags |= SaveSTS_CurStateModified;
11056 }
11057
11058 if ( aMachineState == MachineState_Starting
11059 || aMachineState == MachineState_Restoring
11060 || aMachineState == MachineState_TeleportingIn
11061 )
11062 {
11063 /* set the current state modified flag to indicate that the current
11064 * state is no more identical to the state in the
11065 * current snapshot */
11066 if (!mData->mCurrentSnapshot.isNull())
11067 {
11068 mData->mCurrentStateModified = TRUE;
11069 stsFlags |= SaveSTS_CurStateModified;
11070 }
11071 }
11072
11073 if (deleteSavedState)
11074 {
11075 if (mRemoveSavedState)
11076 {
11077 Assert(!mSSData->mStateFilePath.isEmpty());
11078 RTFileDelete(mSSData->mStateFilePath.c_str());
11079 }
11080 mSSData->mStateFilePath.setNull();
11081 stsFlags |= SaveSTS_StateFilePath;
11082 }
11083
11084 /* redirect to the underlying peer machine */
11085 mPeer->setMachineState(aMachineState);
11086
11087 if ( aMachineState == MachineState_PoweredOff
11088 || aMachineState == MachineState_Teleported
11089 || aMachineState == MachineState_Aborted
11090 || aMachineState == MachineState_Saved)
11091 {
11092 /* the machine has stopped execution
11093 * (or the saved state file was adopted) */
11094 stsFlags |= SaveSTS_StateTimeStamp;
11095 }
11096
11097 if ( ( oldMachineState == MachineState_PoweredOff
11098 || oldMachineState == MachineState_Aborted
11099 || oldMachineState == MachineState_Teleported
11100 )
11101 && aMachineState == MachineState_Saved)
11102 {
11103 /* the saved state file was adopted */
11104 Assert(!mSSData->mStateFilePath.isEmpty());
11105 stsFlags |= SaveSTS_StateFilePath;
11106 }
11107
11108 if ( aMachineState == MachineState_PoweredOff
11109 || aMachineState == MachineState_Aborted
11110 || aMachineState == MachineState_Teleported)
11111 {
11112 /* Make sure any transient guest properties get removed from the
11113 * property store on shutdown. */
11114
11115 HWData::GuestPropertyList::iterator it;
11116 BOOL fNeedsSaving = mData->mGuestPropertiesModified;
11117 if (!fNeedsSaving)
11118 for (it = mHWData->mGuestProperties.begin();
11119 it != mHWData->mGuestProperties.end(); ++it)
11120 if (it->mFlags & guestProp::TRANSIENT)
11121 {
11122 fNeedsSaving = true;
11123 break;
11124 }
11125 if (fNeedsSaving)
11126 {
11127 mData->mCurrentStateModified = TRUE;
11128 stsFlags |= SaveSTS_CurStateModified;
11129 SaveSettings(); // @todo r=dj why the public method? why first SaveSettings and then saveStateSettings?
11130 }
11131 }
11132
11133 rc = saveStateSettings(stsFlags);
11134
11135 if ( ( oldMachineState != MachineState_PoweredOff
11136 && oldMachineState != MachineState_Aborted
11137 && oldMachineState != MachineState_Teleported
11138 )
11139 && ( aMachineState == MachineState_PoweredOff
11140 || aMachineState == MachineState_Aborted
11141 || aMachineState == MachineState_Teleported
11142 )
11143 )
11144 {
11145 /* we've been shut down for any reason */
11146 /* no special action so far */
11147 }
11148
11149 LogFlowThisFunc(("rc=%Rhrc [%s]\n", rc, Global::stringifyMachineState(mData->mMachineState) ));
11150 LogFlowThisFuncLeave();
11151 return rc;
11152}
11153
11154/**
11155 * Sends the current machine state value to the VM process.
11156 *
11157 * @note Locks this object for reading, then calls a client process.
11158 */
11159HRESULT SessionMachine::updateMachineStateOnClient()
11160{
11161 AutoCaller autoCaller(this);
11162 AssertComRCReturn(autoCaller.rc(), autoCaller.rc());
11163
11164 ComPtr<IInternalSessionControl> directControl;
11165 {
11166 AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS);
11167 AssertReturn(!!mData, E_FAIL);
11168 directControl = mData->mSession.mDirectControl;
11169
11170 /* directControl may be already set to NULL here in #OnSessionEnd()
11171 * called too early by the direct session process while there is still
11172 * some operation (like deleting the snapshot) in progress. The client
11173 * process in this case is waiting inside Session::close() for the
11174 * "end session" process object to complete, while #uninit() called by
11175 * #checkForDeath() on the Watcher thread is waiting for the pending
11176 * operation to complete. For now, we accept this inconsitent behavior
11177 * and simply do nothing here. */
11178
11179 if (mData->mSession.mState == SessionState_Closing)
11180 return S_OK;
11181
11182 AssertReturn(!directControl.isNull(), E_FAIL);
11183 }
11184
11185 return directControl->UpdateMachineState(mData->mMachineState);
11186}
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