/** @file * * VBox Console COM Class implementation */ /* * Copyright (C) 2006-2007 Sun Microsystems, Inc. * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa * Clara, CA 95054 USA or visit http://www.sun.com if you need * additional information or have any questions. */ #include /* for stdint.h constants */ #if defined(RT_OS_WINDOWS) #elif defined(RT_OS_LINUX) # include # include # include # include # include # include # include # include # include # include # include #elif defined(VBOX_WITH_UNIXY_TAP_NETWORKING) # include # include #endif #include "ConsoleImpl.h" #include "GuestImpl.h" #include "KeyboardImpl.h" #include "MouseImpl.h" #include "DisplayImpl.h" #include "MachineDebuggerImpl.h" #include "USBDeviceImpl.h" #include "RemoteUSBDeviceImpl.h" #include "SharedFolderImpl.h" #include "AudioSnifferInterface.h" #include "ConsoleVRDPServer.h" #include "VMMDev.h" #include "Version.h" #include "package-generated.h" // generated header #include "SchemaDefs.h" #include "Logging.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef VBOX_WITH_USB # include #endif #include #include #ifdef VBOX_WITH_GUEST_PROPS # include # include #endif #include #include #include // for auto_ptr // VMTask and friends //////////////////////////////////////////////////////////////////////////////// /** * Task structure for asynchronous VM operations. * * Once created, the task structure adds itself as a Console caller. * This means: * * 1. The user must check for #rc() before using the created structure * (e.g. passing it as a thread function argument). If #rc() returns a * failure, the Console object may not be used by the task (see Console::addCaller() for more details). * 2. On successful initialization, the structure keeps the Console caller * until destruction (to ensure Console remains in the Ready state and won't * be accidentially uninitialized). Forgetting to delete the created task * will lead to Console::uninit() stuck waiting for releasing all added * callers. * * If \a aUsesVMPtr parameter is true, the task structure will also add itself * as a Console::mpVM caller with the same meaning as above. See * Console::addVMCaller() for more info. */ struct VMTask { VMTask (Console *aConsole, bool aUsesVMPtr) : mConsole (aConsole), mCallerAdded (false), mVMCallerAdded (false) { AssertReturnVoid (aConsole); mRC = aConsole->addCaller(); if (SUCCEEDED (mRC)) { mCallerAdded = true; if (aUsesVMPtr) { mRC = aConsole->addVMCaller(); if (SUCCEEDED (mRC)) mVMCallerAdded = true; } } } ~VMTask() { if (mVMCallerAdded) mConsole->releaseVMCaller(); if (mCallerAdded) mConsole->releaseCaller(); } HRESULT rc() const { return mRC; } bool isOk() const { return SUCCEEDED (rc()); } /** Releases the Console caller before destruction. Not normally necessary. */ void releaseCaller() { AssertReturnVoid (mCallerAdded); mConsole->releaseCaller(); mCallerAdded = false; } /** Releases the VM caller before destruction. Not normally necessary. */ void releaseVMCaller() { AssertReturnVoid (mVMCallerAdded); mConsole->releaseVMCaller(); mVMCallerAdded = false; } const ComObjPtr mConsole; private: HRESULT mRC; bool mCallerAdded : 1; bool mVMCallerAdded : 1; }; struct VMProgressTask : public VMTask { VMProgressTask (Console *aConsole, Progress *aProgress, bool aUsesVMPtr) : VMTask (aConsole, aUsesVMPtr), mProgress (aProgress) {} const ComObjPtr mProgress; Utf8Str mErrorMsg; }; struct VMPowerUpTask : public VMProgressTask { VMPowerUpTask (Console *aConsole, Progress *aProgress) : VMProgressTask (aConsole, aProgress, false /* aUsesVMPtr */) , mSetVMErrorCallback (NULL), mConfigConstructor (NULL), mStartPaused (false) {} PFNVMATERROR mSetVMErrorCallback; PFNCFGMCONSTRUCTOR mConfigConstructor; Utf8Str mSavedStateFile; Console::SharedFolderDataMap mSharedFolders; bool mStartPaused; }; struct VMSaveTask : public VMProgressTask { VMSaveTask (Console *aConsole, Progress *aProgress) : VMProgressTask (aConsole, aProgress, true /* aUsesVMPtr */) , mIsSnapshot (false) , mLastMachineState (MachineState_Null) {} bool mIsSnapshot; Utf8Str mSavedStateFile; MachineState_T mLastMachineState; ComPtr mServerProgress; }; // constructor / desctructor ///////////////////////////////////////////////////////////////////////////// Console::Console() : mSavedStateDataLoaded (false) , mConsoleVRDPServer (NULL) , mpVM (NULL) , mVMCallers (0) , mVMZeroCallersSem (NIL_RTSEMEVENT) , mVMDestroying (false) , meDVDState (DriveState_NotMounted) , meFloppyState (DriveState_NotMounted) , mVMMDev (NULL) , mAudioSniffer (NULL) , mVMStateChangeCallbackDisabled (false) , mMachineState (MachineState_PoweredOff) {} Console::~Console() {} HRESULT Console::FinalConstruct() { LogFlowThisFunc (("\n")); memset(mapFDLeds, 0, sizeof(mapFDLeds)); memset(mapIDELeds, 0, sizeof(mapIDELeds)); memset(mapSATALeds, 0, sizeof(mapSATALeds)); memset(mapNetworkLeds, 0, sizeof(mapNetworkLeds)); memset(&mapUSBLed, 0, sizeof(mapUSBLed)); memset(&mapSharedFolderLed, 0, sizeof(mapSharedFolderLed)); #ifdef VBOX_WITH_UNIXY_TAP_NETWORKING Assert(ELEMENTS(maTapFD) == ELEMENTS(maTAPDeviceName)); Assert(ELEMENTS(maTapFD) >= SchemaDefs::NetworkAdapterCount); for (unsigned i = 0; i < ELEMENTS(maTapFD); i++) { maTapFD[i] = NIL_RTFILE; maTAPDeviceName[i] = ""; } #endif return S_OK; } void Console::FinalRelease() { LogFlowThisFunc (("\n")); uninit(); } // public initializer/uninitializer for internal purposes only ///////////////////////////////////////////////////////////////////////////// HRESULT Console::init (IMachine *aMachine, IInternalMachineControl *aControl) { AssertReturn (aMachine && aControl, E_INVALIDARG); /* Enclose the state transition NotReady->InInit->Ready */ AutoInitSpan autoInitSpan (this); AssertReturn (autoInitSpan.isOk(), E_UNEXPECTED); LogFlowThisFuncEnter(); LogFlowThisFunc(("aMachine=%p, aControl=%p\n", aMachine, aControl)); HRESULT rc = E_FAIL; unconst (mMachine) = aMachine; unconst (mControl) = aControl; memset (&mCallbackData, 0, sizeof (mCallbackData)); /* Cache essential properties and objects */ rc = mMachine->COMGETTER(State) (&mMachineState); AssertComRCReturnRC (rc); #ifdef VBOX_WITH_VRDP rc = mMachine->COMGETTER(VRDPServer) (unconst (mVRDPServer).asOutParam()); AssertComRCReturnRC (rc); #endif rc = mMachine->COMGETTER(DVDDrive) (unconst (mDVDDrive).asOutParam()); AssertComRCReturnRC (rc); rc = mMachine->COMGETTER(FloppyDrive) (unconst (mFloppyDrive).asOutParam()); AssertComRCReturnRC (rc); /* Create associated child COM objects */ unconst (mGuest).createObject(); rc = mGuest->init (this); AssertComRCReturnRC (rc); unconst (mKeyboard).createObject(); rc = mKeyboard->init (this); AssertComRCReturnRC (rc); unconst (mMouse).createObject(); rc = mMouse->init (this); AssertComRCReturnRC (rc); unconst (mDisplay).createObject(); rc = mDisplay->init (this); AssertComRCReturnRC (rc); unconst (mRemoteDisplayInfo).createObject(); rc = mRemoteDisplayInfo->init (this); AssertComRCReturnRC (rc); /* Grab global and machine shared folder lists */ rc = fetchSharedFolders (true /* aGlobal */); AssertComRCReturnRC (rc); rc = fetchSharedFolders (false /* aGlobal */); AssertComRCReturnRC (rc); /* Create other child objects */ unconst (mConsoleVRDPServer) = new ConsoleVRDPServer (this); AssertReturn (mConsoleVRDPServer, E_FAIL); mcAudioRefs = 0; mcVRDPClients = 0; mu32SingleRDPClientId = 0; unconst (mVMMDev) = new VMMDev(this); AssertReturn (mVMMDev, E_FAIL); unconst (mAudioSniffer) = new AudioSniffer(this); AssertReturn (mAudioSniffer, E_FAIL); /* Confirm a successful initialization when it's the case */ autoInitSpan.setSucceeded(); LogFlowThisFuncLeave(); return S_OK; } /** * Uninitializes the Console object. */ void Console::uninit() { LogFlowThisFuncEnter(); /* Enclose the state transition Ready->InUninit->NotReady */ AutoUninitSpan autoUninitSpan (this); if (autoUninitSpan.uninitDone()) { LogFlowThisFunc (("Already uninitialized.\n")); LogFlowThisFuncLeave(); return; } LogFlowThisFunc (("initFailed()=%d\n", autoUninitSpan.initFailed())); /* * Uninit all children that ise addDependentChild()/removeDependentChild() * in their init()/uninit() methods. */ uninitDependentChildren(); /* power down the VM if necessary */ if (mpVM) { powerDown(); Assert (mpVM == NULL); } if (mVMZeroCallersSem != NIL_RTSEMEVENT) { RTSemEventDestroy (mVMZeroCallersSem); mVMZeroCallersSem = NIL_RTSEMEVENT; } if (mAudioSniffer) { delete mAudioSniffer; unconst (mAudioSniffer) = NULL; } if (mVMMDev) { delete mVMMDev; unconst (mVMMDev) = NULL; } mGlobalSharedFolders.clear(); mMachineSharedFolders.clear(); mSharedFolders.clear(); mRemoteUSBDevices.clear(); mUSBDevices.clear(); if (mRemoteDisplayInfo) { mRemoteDisplayInfo->uninit(); unconst (mRemoteDisplayInfo).setNull();; } if (mDebugger) { mDebugger->uninit(); unconst (mDebugger).setNull(); } if (mDisplay) { mDisplay->uninit(); unconst (mDisplay).setNull(); } if (mMouse) { mMouse->uninit(); unconst (mMouse).setNull(); } if (mKeyboard) { mKeyboard->uninit(); unconst (mKeyboard).setNull();; } if (mGuest) { mGuest->uninit(); unconst (mGuest).setNull();; } if (mConsoleVRDPServer) { delete mConsoleVRDPServer; unconst (mConsoleVRDPServer) = NULL; } unconst (mFloppyDrive).setNull(); unconst (mDVDDrive).setNull(); #ifdef VBOX_WITH_VRDP unconst (mVRDPServer).setNull(); #endif unconst (mControl).setNull(); unconst (mMachine).setNull(); /* Release all callbacks. Do this after uninitializing the components, * as some of them are well-behaved and unregister their callbacks. * These would trigger error messages complaining about trying to * unregister a non-registered callback. */ mCallbacks.clear(); /* dynamically allocated members of mCallbackData are uninitialized * at the end of powerDown() */ Assert (!mCallbackData.mpsc.valid && mCallbackData.mpsc.shape == NULL); Assert (!mCallbackData.mcc.valid); Assert (!mCallbackData.klc.valid); LogFlowThisFuncLeave(); } int Console::VRDPClientLogon (uint32_t u32ClientId, const char *pszUser, const char *pszPassword, const char *pszDomain) { LogFlowFuncEnter(); LogFlowFunc (("%d, %s, %s, %s\n", u32ClientId, pszUser, pszPassword, pszDomain)); AutoCaller autoCaller (this); if (!autoCaller.isOk()) { /* Console has been already uninitialized, deny request */ LogRel(("VRDPAUTH: Access denied (Console uninitialized).\n")); LogFlowFuncLeave(); return VERR_ACCESS_DENIED; } Guid uuid; HRESULT hrc = mMachine->COMGETTER (Id) (uuid.asOutParam()); AssertComRCReturn (hrc, VERR_ACCESS_DENIED); VRDPAuthType_T authType = VRDPAuthType_Null; hrc = mVRDPServer->COMGETTER(AuthType) (&authType); AssertComRCReturn (hrc, VERR_ACCESS_DENIED); ULONG authTimeout = 0; hrc = mVRDPServer->COMGETTER(AuthTimeout) (&authTimeout); AssertComRCReturn (hrc, VERR_ACCESS_DENIED); VRDPAuthResult result = VRDPAuthAccessDenied; VRDPAuthGuestJudgement guestJudgement = VRDPAuthGuestNotAsked; LogFlowFunc(("Auth type %d\n", authType)); LogRel (("VRDPAUTH: User: [%s]. Domain: [%s]. Authentication type: [%s]\n", pszUser, pszDomain, authType == VRDPAuthType_Null? "Null": (authType == VRDPAuthType_External? "External": (authType == VRDPAuthType_Guest? "Guest": "INVALID" ) ) )); switch (authType) { case VRDPAuthType_Null: { result = VRDPAuthAccessGranted; break; } case VRDPAuthType_External: { /* Call the external library. */ result = mConsoleVRDPServer->Authenticate (uuid, guestJudgement, pszUser, pszPassword, pszDomain, u32ClientId); if (result != VRDPAuthDelegateToGuest) { break; } LogRel(("VRDPAUTH: Delegated to guest.\n")); LogFlowFunc (("External auth asked for guest judgement\n")); } /* pass through */ case VRDPAuthType_Guest: { guestJudgement = VRDPAuthGuestNotReacted; if (mVMMDev) { /* Issue the request to guest. Assume that the call does not require EMT. It should not. */ /* Ask the guest to judge these credentials. */ uint32_t u32GuestFlags = VMMDEV_SETCREDENTIALS_JUDGE; int rc = mVMMDev->getVMMDevPort()->pfnSetCredentials (mVMMDev->getVMMDevPort(), pszUser, pszPassword, pszDomain, u32GuestFlags); if (VBOX_SUCCESS (rc)) { /* Wait for guest. */ rc = mVMMDev->WaitCredentialsJudgement (authTimeout, &u32GuestFlags); if (VBOX_SUCCESS (rc)) { switch (u32GuestFlags & (VMMDEV_CREDENTIALS_JUDGE_OK | VMMDEV_CREDENTIALS_JUDGE_DENY | VMMDEV_CREDENTIALS_JUDGE_NOJUDGEMENT)) { case VMMDEV_CREDENTIALS_JUDGE_DENY: guestJudgement = VRDPAuthGuestAccessDenied; break; case VMMDEV_CREDENTIALS_JUDGE_NOJUDGEMENT: guestJudgement = VRDPAuthGuestNoJudgement; break; case VMMDEV_CREDENTIALS_JUDGE_OK: guestJudgement = VRDPAuthGuestAccessGranted; break; default: LogFlowFunc (("Invalid guest flags %08X!!!\n", u32GuestFlags)); break; } } else { LogFlowFunc (("Wait for credentials judgement rc = %Vrc!!!\n", rc)); } LogFlowFunc (("Guest judgement %d\n", guestJudgement)); } else { LogFlowFunc (("Could not set credentials rc = %Vrc!!!\n", rc)); } } if (authType == VRDPAuthType_External) { LogRel(("VRDPAUTH: Guest judgement %d.\n", guestJudgement)); LogFlowFunc (("External auth called again with guest judgement = %d\n", guestJudgement)); result = mConsoleVRDPServer->Authenticate (uuid, guestJudgement, pszUser, pszPassword, pszDomain, u32ClientId); } else { switch (guestJudgement) { case VRDPAuthGuestAccessGranted: result = VRDPAuthAccessGranted; break; default: result = VRDPAuthAccessDenied; break; } } } break; default: AssertFailed(); } LogFlowFunc (("Result = %d\n", result)); LogFlowFuncLeave(); if (result != VRDPAuthAccessGranted) { /* Reject. */ LogRel(("VRDPAUTH: Access denied.\n")); return VERR_ACCESS_DENIED; } LogRel(("VRDPAUTH: Access granted.\n")); /* Multiconnection check must be made after authentication, so bad clients would not interfere with a good one. */ BOOL allowMultiConnection = FALSE; hrc = mVRDPServer->COMGETTER(AllowMultiConnection) (&allowMultiConnection); AssertComRCReturn (hrc, VERR_ACCESS_DENIED); BOOL reuseSingleConnection = FALSE; hrc = mVRDPServer->COMGETTER(ReuseSingleConnection) (&reuseSingleConnection); AssertComRCReturn (hrc, VERR_ACCESS_DENIED); LogFlowFunc(("allowMultiConnection %d, reuseSingleConnection = %d, mcVRDPClients = %d, mu32SingleRDPClientId = %d\n", allowMultiConnection, reuseSingleConnection, mcVRDPClients, mu32SingleRDPClientId)); if (allowMultiConnection == FALSE) { /* Note: the 'mcVRDPClients' variable is incremented in ClientConnect callback, which is called when the client * is successfully connected, that is after the ClientLogon callback. Therefore the mcVRDPClients * value is 0 for first client. */ if (mcVRDPClients != 0) { Assert(mcVRDPClients == 1); /* There is a client already. * If required drop the existing client connection and let the connecting one in. */ if (reuseSingleConnection) { LogRel(("VRDPAUTH: Multiple connections are not enabled. Disconnecting existing client.\n")); mConsoleVRDPServer->DisconnectClient (mu32SingleRDPClientId, false); } else { /* Reject. */ LogRel(("VRDPAUTH: Multiple connections are not enabled. Access denied.\n")); return VERR_ACCESS_DENIED; } } /* Save the connected client id. From now on it will be necessary to disconnect this one. */ mu32SingleRDPClientId = u32ClientId; } return VINF_SUCCESS; } void Console::VRDPClientConnect (uint32_t u32ClientId) { LogFlowFuncEnter(); AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); #ifdef VBOX_WITH_VRDP uint32_t u32Clients = ASMAtomicIncU32(&mcVRDPClients); if (u32Clients == 1) { getVMMDev()->getVMMDevPort()-> pfnVRDPChange (getVMMDev()->getVMMDevPort(), true, VRDP_EXPERIENCE_LEVEL_FULL); // @todo configurable } NOREF(u32ClientId); mDisplay->VideoAccelVRDP (true); #endif /* VBOX_WITH_VRDP */ LogFlowFuncLeave(); return; } void Console::VRDPClientDisconnect (uint32_t u32ClientId, uint32_t fu32Intercepted) { LogFlowFuncEnter(); AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); AssertReturnVoid (mConsoleVRDPServer); #ifdef VBOX_WITH_VRDP uint32_t u32Clients = ASMAtomicDecU32(&mcVRDPClients); if (u32Clients == 0) { getVMMDev()->getVMMDevPort()-> pfnVRDPChange (getVMMDev()->getVMMDevPort(), false, 0); } mDisplay->VideoAccelVRDP (false); #endif /* VBOX_WITH_VRDP */ if (fu32Intercepted & VRDP_CLIENT_INTERCEPT_USB) { mConsoleVRDPServer->USBBackendDelete (u32ClientId); } #ifdef VBOX_WITH_VRDP if (fu32Intercepted & VRDP_CLIENT_INTERCEPT_CLIPBOARD) { mConsoleVRDPServer->ClipboardDelete (u32ClientId); } if (fu32Intercepted & VRDP_CLIENT_INTERCEPT_AUDIO) { mcAudioRefs--; if (mcAudioRefs <= 0) { if (mAudioSniffer) { PPDMIAUDIOSNIFFERPORT port = mAudioSniffer->getAudioSnifferPort(); if (port) { port->pfnSetup (port, false, false); } } } } #endif /* VBOX_WITH_VRDP */ Guid uuid; HRESULT hrc = mMachine->COMGETTER (Id) (uuid.asOutParam()); AssertComRC (hrc); VRDPAuthType_T authType = VRDPAuthType_Null; hrc = mVRDPServer->COMGETTER(AuthType) (&authType); AssertComRC (hrc); if (authType == VRDPAuthType_External) mConsoleVRDPServer->AuthDisconnect (uuid, u32ClientId); LogFlowFuncLeave(); return; } void Console::VRDPInterceptAudio (uint32_t u32ClientId) { LogFlowFuncEnter(); AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); LogFlowFunc (("mAudioSniffer %p, u32ClientId %d.\n", mAudioSniffer, u32ClientId)); NOREF(u32ClientId); #ifdef VBOX_WITH_VRDP mcAudioRefs++; if (mcAudioRefs == 1) { if (mAudioSniffer) { PPDMIAUDIOSNIFFERPORT port = mAudioSniffer->getAudioSnifferPort(); if (port) { port->pfnSetup (port, true, true); } } } #endif LogFlowFuncLeave(); return; } void Console::VRDPInterceptUSB (uint32_t u32ClientId, void **ppvIntercept) { LogFlowFuncEnter(); AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); AssertReturnVoid (mConsoleVRDPServer); mConsoleVRDPServer->USBBackendCreate (u32ClientId, ppvIntercept); LogFlowFuncLeave(); return; } void Console::VRDPInterceptClipboard (uint32_t u32ClientId) { LogFlowFuncEnter(); AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); AssertReturnVoid (mConsoleVRDPServer); #ifdef VBOX_WITH_VRDP mConsoleVRDPServer->ClipboardCreate (u32ClientId); #endif /* VBOX_WITH_VRDP */ LogFlowFuncLeave(); return; } //static const char *Console::sSSMConsoleUnit = "ConsoleData"; //static uint32_t Console::sSSMConsoleVer = 0x00010001; /** * Loads various console data stored in the saved state file. * This method does validation of the state file and returns an error info * when appropriate. * * The method does nothing if the machine is not in the Saved file or if * console data from it has already been loaded. * * @note The caller must lock this object for writing. */ HRESULT Console::loadDataFromSavedState() { if (mMachineState != MachineState_Saved || mSavedStateDataLoaded) return S_OK; Bstr savedStateFile; HRESULT rc = mMachine->COMGETTER(StateFilePath) (savedStateFile.asOutParam()); if (FAILED (rc)) return rc; PSSMHANDLE ssm; int vrc = SSMR3Open (Utf8Str(savedStateFile), 0, &ssm); if (VBOX_SUCCESS (vrc)) { uint32_t version = 0; vrc = SSMR3Seek (ssm, sSSMConsoleUnit, 0 /* iInstance */, &version); if (SSM_VERSION_MAJOR(version) == SSM_VERSION_MAJOR(sSSMConsoleVer)) { if (VBOX_SUCCESS (vrc)) vrc = loadStateFileExec (ssm, this, 0); else if (vrc == VERR_SSM_UNIT_NOT_FOUND) vrc = VINF_SUCCESS; } else vrc = VERR_SSM_UNSUPPORTED_DATA_UNIT_VERSION; SSMR3Close (ssm); } if (VBOX_FAILURE (vrc)) rc = setError (E_FAIL, tr ("The saved state file '%ls' is invalid (%Vrc). " "Discard the saved state and try again"), savedStateFile.raw(), vrc); mSavedStateDataLoaded = true; return rc; } /** * Callback handler to save various console data to the state file, * called when the user saves the VM state. * * @param pvUser pointer to Console * * @note Locks the Console object for reading. */ //static DECLCALLBACK(void) Console::saveStateFileExec (PSSMHANDLE pSSM, void *pvUser) { LogFlowFunc (("\n")); Console *that = static_cast (pvUser); AssertReturnVoid (that); AutoCaller autoCaller (that); AssertComRCReturnVoid (autoCaller.rc()); AutoReadLock alock (that); int vrc = SSMR3PutU32 (pSSM, (uint32_t)that->mSharedFolders.size()); AssertRC (vrc); for (SharedFolderMap::const_iterator it = that->mSharedFolders.begin(); it != that->mSharedFolders.end(); ++ it) { ComObjPtr folder = (*it).second; // don't lock the folder because methods we access are const Utf8Str name = folder->name(); vrc = SSMR3PutU32 (pSSM, (uint32_t)name.length() + 1 /* term. 0 */); AssertRC (vrc); vrc = SSMR3PutStrZ (pSSM, name); AssertRC (vrc); Utf8Str hostPath = folder->hostPath(); vrc = SSMR3PutU32 (pSSM, (uint32_t)hostPath.length() + 1 /* term. 0 */); AssertRC (vrc); vrc = SSMR3PutStrZ (pSSM, hostPath); AssertRC (vrc); vrc = SSMR3PutBool (pSSM, !!folder->writable()); AssertRC (vrc); } return; } /** * Callback handler to load various console data from the state file. * When \a u32Version is 0, this method is called from #loadDataFromSavedState, * otherwise it is called when the VM is being restored from the saved state. * * @param pvUser pointer to Console * @param u32Version Console unit version. * When not 0, should match sSSMConsoleVer. * * @note Locks the Console object for writing. */ //static DECLCALLBACK(int) Console::loadStateFileExec (PSSMHANDLE pSSM, void *pvUser, uint32_t u32Version) { LogFlowFunc (("\n")); if (u32Version != 0 && SSM_VERSION_MAJOR_CHANGED(u32Version, sSSMConsoleVer)) return VERR_VERSION_MISMATCH; if (u32Version != 0) { /* currently, nothing to do when we've been called from VMR3Load */ return VINF_SUCCESS; } Console *that = static_cast (pvUser); AssertReturn (that, VERR_INVALID_PARAMETER); AutoCaller autoCaller (that); AssertComRCReturn (autoCaller.rc(), VERR_ACCESS_DENIED); AutoWriteLock alock (that); AssertReturn (that->mSharedFolders.size() == 0, VERR_INTERNAL_ERROR); uint32_t size = 0; int vrc = SSMR3GetU32 (pSSM, &size); AssertRCReturn (vrc, vrc); for (uint32_t i = 0; i < size; ++ i) { Bstr name; Bstr hostPath; bool writable = true; uint32_t szBuf = 0; char *buf = NULL; vrc = SSMR3GetU32 (pSSM, &szBuf); AssertRCReturn (vrc, vrc); buf = new char [szBuf]; vrc = SSMR3GetStrZ (pSSM, buf, szBuf); AssertRC (vrc); name = buf; delete[] buf; vrc = SSMR3GetU32 (pSSM, &szBuf); AssertRCReturn (vrc, vrc); buf = new char [szBuf]; vrc = SSMR3GetStrZ (pSSM, buf, szBuf); AssertRC (vrc); hostPath = buf; delete[] buf; if (u32Version > 0x00010000) SSMR3GetBool (pSSM, &writable); ComObjPtr sharedFolder; sharedFolder.createObject(); HRESULT rc = sharedFolder->init (that, name, hostPath, writable); AssertComRCReturn (rc, VERR_INTERNAL_ERROR); that->mSharedFolders.insert (std::make_pair (name, sharedFolder)); } return VINF_SUCCESS; } // IConsole properties ///////////////////////////////////////////////////////////////////////////// STDMETHODIMP Console::COMGETTER(Machine) (IMachine **aMachine) { if (!aMachine) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); /* mMachine is constant during life time, no need to lock */ mMachine.queryInterfaceTo (aMachine); return S_OK; } STDMETHODIMP Console::COMGETTER(State) (MachineState_T *aMachineState) { if (!aMachineState) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoReadLock alock (this); /* we return our local state (since it's always the same as on the server) */ *aMachineState = mMachineState; return S_OK; } STDMETHODIMP Console::COMGETTER(Guest) (IGuest **aGuest) { if (!aGuest) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); /* mGuest is constant during life time, no need to lock */ mGuest.queryInterfaceTo (aGuest); return S_OK; } STDMETHODIMP Console::COMGETTER(Keyboard) (IKeyboard **aKeyboard) { if (!aKeyboard) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); /* mKeyboard is constant during life time, no need to lock */ mKeyboard.queryInterfaceTo (aKeyboard); return S_OK; } STDMETHODIMP Console::COMGETTER(Mouse) (IMouse **aMouse) { if (!aMouse) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); /* mMouse is constant during life time, no need to lock */ mMouse.queryInterfaceTo (aMouse); return S_OK; } STDMETHODIMP Console::COMGETTER(Display) (IDisplay **aDisplay) { if (!aDisplay) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); /* mDisplay is constant during life time, no need to lock */ mDisplay.queryInterfaceTo (aDisplay); return S_OK; } STDMETHODIMP Console::COMGETTER(Debugger) (IMachineDebugger **aDebugger) { if (!aDebugger) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); /* we need a write lock because of the lazy mDebugger initialization*/ AutoWriteLock alock (this); /* check if we have to create the debugger object */ if (!mDebugger) { unconst (mDebugger).createObject(); mDebugger->init (this); } mDebugger.queryInterfaceTo (aDebugger); return S_OK; } STDMETHODIMP Console::COMGETTER(USBDevices) (IUSBDeviceCollection **aUSBDevices) { if (!aUSBDevices) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoReadLock alock (this); ComObjPtr collection; collection.createObject(); collection->init (mUSBDevices); collection.queryInterfaceTo (aUSBDevices); return S_OK; } STDMETHODIMP Console::COMGETTER(RemoteUSBDevices) (IHostUSBDeviceCollection **aRemoteUSBDevices) { if (!aRemoteUSBDevices) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoReadLock alock (this); ComObjPtr collection; collection.createObject(); collection->init (mRemoteUSBDevices); collection.queryInterfaceTo (aRemoteUSBDevices); return S_OK; } STDMETHODIMP Console::COMGETTER(RemoteDisplayInfo) (IRemoteDisplayInfo **aRemoteDisplayInfo) { if (!aRemoteDisplayInfo) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); /* mDisplay is constant during life time, no need to lock */ mRemoteDisplayInfo.queryInterfaceTo (aRemoteDisplayInfo); return S_OK; } STDMETHODIMP Console::COMGETTER(SharedFolders) (ISharedFolderCollection **aSharedFolders) { if (!aSharedFolders) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); /* loadDataFromSavedState() needs a write lock */ AutoWriteLock alock (this); /* Read console data stored in the saved state file (if not yet done) */ HRESULT rc = loadDataFromSavedState(); CheckComRCReturnRC (rc); ComObjPtr coll; coll.createObject(); coll->init (mSharedFolders); coll.queryInterfaceTo (aSharedFolders); return S_OK; } // IConsole methods ///////////////////////////////////////////////////////////////////////////// STDMETHODIMP Console::PowerUp (IProgress **aProgress) { return powerUpCommon (aProgress, false /* aPaused */); } STDMETHODIMP Console::PowerUpPaused (IProgress **aProgress) { return powerUpCommon (aProgress, true /* aPaused */); } /** * Common worker for PowerUp and PowerUpPaused. * * @returns COM status code. * * @param aProgress Where to return the progress object. * @param aPaused true if PowerUpPaused called. * * @todo move down to powerDown(); */ HRESULT Console::powerUpCommon (IProgress **aProgress, bool aPaused) { LogFlowThisFuncEnter(); LogFlowThisFunc (("mMachineState=%d\n", mMachineState)); AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState >= MachineState_Running) return setError(E_FAIL, tr ("Cannot power up the machine as it is " "already running (machine state: %d)"), mMachineState); /* * First check whether all disks are accessible. This is not a 100% * bulletproof approach (race condition, it might become inaccessible * right after the check) but it's convenient as it will cover 99.9% * of the cases and here, we're able to provide meaningful error * information. */ ComPtr coll; mMachine->COMGETTER(HardDiskAttachments)(coll.asOutParam()); ComPtr enumerator; coll->Enumerate(enumerator.asOutParam()); BOOL fHasMore; while (SUCCEEDED(enumerator->HasMore(&fHasMore)) && fHasMore) { ComPtr attach; enumerator->GetNext(attach.asOutParam()); ComPtr hdd; attach->COMGETTER(HardDisk)(hdd.asOutParam()); Assert(hdd); BOOL fAccessible; HRESULT rc = hdd->COMGETTER(AllAccessible)(&fAccessible); CheckComRCReturnRC (rc); if (!fAccessible) { Bstr loc; hdd->COMGETTER(Location) (loc.asOutParam()); Bstr errMsg; hdd->COMGETTER(LastAccessError) (errMsg.asOutParam()); return setError (E_FAIL, tr ("VM cannot start because the hard disk '%ls' is not accessible " "(%ls)"), loc.raw(), errMsg.raw()); } } /* now perform the same check if a ISO is mounted */ ComPtr dvdDrive; mMachine->COMGETTER(DVDDrive)(dvdDrive.asOutParam()); ComPtr dvdImage; dvdDrive->GetImage(dvdImage.asOutParam()); if (dvdImage) { BOOL fAccessible; HRESULT rc = dvdImage->COMGETTER(Accessible)(&fAccessible); CheckComRCReturnRC (rc); if (!fAccessible) { Bstr filePath; dvdImage->COMGETTER(FilePath)(filePath.asOutParam()); /// @todo (r=dmik) grab the last access error once // IDVDImage::lastAccessError is there return setError (E_FAIL, tr ("The virtual machine could not be started because the DVD image '%ls' which is attached to it could not be found or could not be opened. Please detach the image and try again"), filePath.raw()); } } /* now perform the same check if a floppy is mounted */ ComPtr floppyDrive; mMachine->COMGETTER(FloppyDrive)(floppyDrive.asOutParam()); ComPtr floppyImage; floppyDrive->GetImage(floppyImage.asOutParam()); if (floppyImage) { BOOL fAccessible; HRESULT rc = floppyImage->COMGETTER(Accessible)(&fAccessible); CheckComRCReturnRC (rc); if (!fAccessible) { Bstr filePath; floppyImage->COMGETTER(FilePath)(filePath.asOutParam()); /// @todo (r=dmik) grab the last access error once // IDVDImage::lastAccessError is there return setError (E_FAIL, tr ("The virtual machine could not be started because the floppy image '%ls' which is attached to it could not be found or could not be opened. Please detach the image and try again"), filePath.raw()); } } /* now the network cards will undergo a quick consistency check */ for (ULONG slot = 0; slot < SchemaDefs::NetworkAdapterCount; slot ++) { ComPtr adapter; mMachine->GetNetworkAdapter (slot, adapter.asOutParam()); BOOL enabled = FALSE; adapter->COMGETTER(Enabled) (&enabled); if (!enabled) continue; NetworkAttachmentType_T netattach; adapter->COMGETTER(AttachmentType)(&netattach); switch (netattach) { case NetworkAttachmentType_HostInterface: { #ifdef RT_OS_WINDOWS /* a valid host interface must have been set */ Bstr hostif; adapter->COMGETTER(HostInterface)(hostif.asOutParam()); if (!hostif) { return setError (E_FAIL, tr ("VM cannot start because host interface networking " "requires a host interface name to be set")); } ComPtr virtualBox; mMachine->COMGETTER(Parent)(virtualBox.asOutParam()); ComPtr host; virtualBox->COMGETTER(Host)(host.asOutParam()); ComPtr coll; host->COMGETTER(NetworkInterfaces)(coll.asOutParam()); ComPtr hostInterface; if (!SUCCEEDED(coll->FindByName(hostif, hostInterface.asOutParam()))) { return setError (E_FAIL, tr ("VM cannot start because the host interface '%ls' " "does not exist"), hostif.raw()); } #endif /* RT_OS_WINDOWS */ break; } default: break; } } /* Read console data stored in the saved state file (if not yet done) */ { HRESULT rc = loadDataFromSavedState(); CheckComRCReturnRC (rc); } /* Check all types of shared folders and compose a single list */ SharedFolderDataMap sharedFolders; { /* first, insert global folders */ for (SharedFolderDataMap::const_iterator it = mGlobalSharedFolders.begin(); it != mGlobalSharedFolders.end(); ++ it) sharedFolders [it->first] = it->second; /* second, insert machine folders */ for (SharedFolderDataMap::const_iterator it = mMachineSharedFolders.begin(); it != mMachineSharedFolders.end(); ++ it) sharedFolders [it->first] = it->second; /* third, insert console folders */ for (SharedFolderMap::const_iterator it = mSharedFolders.begin(); it != mSharedFolders.end(); ++ it) sharedFolders [it->first] = SharedFolderData(it->second->hostPath(), it->second->writable()); } Bstr savedStateFile; /* * Saved VMs will have to prove that their saved states are kosher. */ if (mMachineState == MachineState_Saved) { HRESULT rc = mMachine->COMGETTER(StateFilePath) (savedStateFile.asOutParam()); CheckComRCReturnRC (rc); ComAssertRet (!!savedStateFile, E_FAIL); int vrc = SSMR3ValidateFile (Utf8Str (savedStateFile)); if (VBOX_FAILURE (vrc)) return setError (E_FAIL, tr ("VM cannot start because the saved state file '%ls' is invalid (%Vrc). " "Discard the saved state prior to starting the VM"), savedStateFile.raw(), vrc); } /* create an IProgress object to track progress of this operation */ ComObjPtr progress; progress.createObject(); Bstr progressDesc; if (mMachineState == MachineState_Saved) progressDesc = tr ("Restoring the virtual machine"); else progressDesc = tr ("Starting the virtual machine"); progress->init (static_cast (this), progressDesc, FALSE /* aCancelable */); /* pass reference to caller if requested */ if (aProgress) progress.queryInterfaceTo (aProgress); /* setup task object and thread to carry out the operation asynchronously */ std::auto_ptr task (new VMPowerUpTask (this, progress)); ComAssertComRCRetRC (task->rc()); task->mSetVMErrorCallback = setVMErrorCallback; task->mConfigConstructor = configConstructor; task->mSharedFolders = sharedFolders; task->mStartPaused = aPaused; if (mMachineState == MachineState_Saved) task->mSavedStateFile = savedStateFile; HRESULT hrc = consoleInitReleaseLog (mMachine); if (FAILED (hrc)) return hrc; int vrc = RTThreadCreate (NULL, Console::powerUpThread, (void *) task.get(), 0, RTTHREADTYPE_MAIN_WORKER, 0, "VMPowerUp"); ComAssertMsgRCRet (vrc, ("Could not create VMPowerUp thread (%Vrc)\n", vrc), E_FAIL); /* task is now owned by powerUpThread(), so release it */ task.release(); if (mMachineState == MachineState_Saved) setMachineState (MachineState_Restoring); else setMachineState (MachineState_Starting); LogFlowThisFunc (("mMachineState=%d\n", mMachineState)); LogFlowThisFuncLeave(); return S_OK; } STDMETHODIMP Console::PowerDown() { LogFlowThisFuncEnter(); LogFlowThisFunc (("mMachineState=%d\n", mMachineState)); AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState != MachineState_Running && mMachineState != MachineState_Paused && mMachineState != MachineState_Stuck) { /* extra nice error message for a common case */ if (mMachineState == MachineState_Saved) return setError(E_FAIL, tr ("Cannot power off a saved machine")); else return setError(E_FAIL, tr ("Cannot power off the machine as it is " "not running or paused (machine state: %d)"), mMachineState); } LogFlowThisFunc (("Sending SHUTDOWN request...\n")); HRESULT rc = powerDown(); LogFlowThisFunc (("mMachineState=%d, rc=%08X\n", mMachineState, rc)); LogFlowThisFuncLeave(); return rc; } STDMETHODIMP Console::Reset() { LogFlowThisFuncEnter(); LogFlowThisFunc (("mMachineState=%d\n", mMachineState)); AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState != MachineState_Running) return setError(E_FAIL, tr ("Cannot reset the machine as it is " "not running (machine state: %d)"), mMachineState); /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* leave the lock before a VMR3* call (EMT will call us back)! */ alock.leave(); int vrc = VMR3Reset (mpVM); HRESULT rc = VBOX_SUCCESS (vrc) ? S_OK : setError (E_FAIL, tr ("Could not reset the machine (%Vrc)"), vrc); LogFlowThisFunc (("mMachineState=%d, rc=%08X\n", mMachineState, rc)); LogFlowThisFuncLeave(); return rc; } STDMETHODIMP Console::Pause() { LogFlowThisFuncEnter(); AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState != MachineState_Running) return setError (E_FAIL, tr ("Cannot pause the machine as it is " "not running (machine state: %d)"), mMachineState); /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); LogFlowThisFunc (("Sending PAUSE request...\n")); /* leave the lock before a VMR3* call (EMT will call us back)! */ alock.leave(); int vrc = VMR3Suspend (mpVM); HRESULT rc = VBOX_SUCCESS (vrc) ? S_OK : setError (E_FAIL, tr ("Could not suspend the machine execution (%Vrc)"), vrc); LogFlowThisFunc (("rc=%08X\n", rc)); LogFlowThisFuncLeave(); return rc; } STDMETHODIMP Console::Resume() { LogFlowThisFuncEnter(); AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState != MachineState_Paused) return setError (E_FAIL, tr ("Cannot resume the machine as it is " "not paused (machine state: %d)"), mMachineState); /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); LogFlowThisFunc (("Sending RESUME request...\n")); /* leave the lock before a VMR3* call (EMT will call us back)! */ alock.leave(); int vrc; if (VMR3GetState(mpVM) == VMSTATE_CREATED) vrc = VMR3PowerOn (mpVM); /* (PowerUpPaused) */ else vrc = VMR3Resume (mpVM); HRESULT rc = VBOX_SUCCESS (vrc) ? S_OK : setError (E_FAIL, tr ("Could not resume the machine execution (%Vrc)"), vrc); LogFlowThisFunc (("rc=%08X\n", rc)); LogFlowThisFuncLeave(); return rc; } STDMETHODIMP Console::PowerButton() { LogFlowThisFuncEnter(); AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState != MachineState_Running) return setError (E_FAIL, tr ("Cannot power off the machine as it is " "not running (machine state: %d)"), mMachineState); /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); PPDMIBASE pBase; int vrc = PDMR3QueryDeviceLun (mpVM, "acpi", 0, 0, &pBase); if (VBOX_SUCCESS (vrc)) { Assert (pBase); PPDMIACPIPORT pPort = (PPDMIACPIPORT) pBase->pfnQueryInterface(pBase, PDMINTERFACE_ACPI_PORT); vrc = pPort ? pPort->pfnPowerButtonPress(pPort) : VERR_INVALID_POINTER; } HRESULT rc = VBOX_SUCCESS (vrc) ? S_OK : setError (E_FAIL, tr ("Controlled power off failed (%Vrc)"), vrc); LogFlowThisFunc (("rc=%08X\n", rc)); LogFlowThisFuncLeave(); return rc; } STDMETHODIMP Console::GetPowerButtonHandled(BOOL *aHandled) { LogFlowThisFuncEnter(); if (!aHandled) return E_POINTER; *aHandled = FALSE; AutoCaller autoCaller (this); AutoWriteLock alock (this); if (mMachineState != MachineState_Running) return E_FAIL; /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); PPDMIBASE pBase; int vrc = PDMR3QueryDeviceLun (mpVM, "acpi", 0, 0, &pBase); bool handled = false; if (VBOX_SUCCESS (vrc)) { Assert (pBase); PPDMIACPIPORT pPort = (PPDMIACPIPORT) pBase->pfnQueryInterface(pBase, PDMINTERFACE_ACPI_PORT); vrc = pPort ? pPort->pfnGetPowerButtonHandled(pPort, &handled) : VERR_INVALID_POINTER; } HRESULT rc = VBOX_SUCCESS (vrc) ? S_OK : setError (E_FAIL, tr ("Checking if the ACPI Power Button event was handled by the " "guest OS failed (%Vrc)"), vrc); *aHandled = handled; LogFlowThisFunc (("rc=%08X\n", rc)); LogFlowThisFuncLeave(); return rc; } STDMETHODIMP Console::SleepButton() { LogFlowThisFuncEnter(); AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState != MachineState_Running) return setError (E_FAIL, tr ("Cannot send the sleep button event as it is " "not running (machine state: %d)"), mMachineState); /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); PPDMIBASE pBase; int vrc = PDMR3QueryDeviceLun (mpVM, "acpi", 0, 0, &pBase); if (VBOX_SUCCESS (vrc)) { Assert (pBase); PPDMIACPIPORT pPort = (PPDMIACPIPORT) pBase->pfnQueryInterface(pBase, PDMINTERFACE_ACPI_PORT); vrc = pPort ? pPort->pfnSleepButtonPress(pPort) : VERR_INVALID_POINTER; } HRESULT rc = VBOX_SUCCESS (vrc) ? S_OK : setError (E_FAIL, tr ("Sending sleep button event failed (%Vrc)"), vrc); LogFlowThisFunc (("rc=%08X\n", rc)); LogFlowThisFuncLeave(); return rc; } STDMETHODIMP Console::SaveState (IProgress **aProgress) { LogFlowThisFuncEnter(); LogFlowThisFunc (("mMachineState=%d\n", mMachineState)); if (!aProgress) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState != MachineState_Running && mMachineState != MachineState_Paused) { return setError (E_FAIL, tr ("Cannot save the execution state as the machine " "is not running (machine state: %d)"), mMachineState); } /* memorize the current machine state */ MachineState_T lastMachineState = mMachineState; if (mMachineState == MachineState_Running) { HRESULT rc = Pause(); CheckComRCReturnRC (rc); } HRESULT rc = S_OK; /* create a progress object to track operation completion */ ComObjPtr progress; progress.createObject(); progress->init (static_cast (this), Bstr (tr ("Saving the execution state of the virtual machine")), FALSE /* aCancelable */); bool beganSavingState = false; bool taskCreationFailed = false; do { /* create a task object early to ensure mpVM protection is successful */ std::auto_ptr task (new VMSaveTask (this, progress)); rc = task->rc(); /* * If we fail here it means a PowerDown() call happened on another * thread while we were doing Pause() (which leaves the Console lock). * We assign PowerDown() a higher precendence than SaveState(), * therefore just return the error to the caller. */ if (FAILED (rc)) { taskCreationFailed = true; break; } Bstr stateFilePath; /* * request a saved state file path from the server * (this will set the machine state to Saving on the server to block * others from accessing this machine) */ rc = mControl->BeginSavingState (progress, stateFilePath.asOutParam()); CheckComRCBreakRC (rc); beganSavingState = true; /* sync the state with the server */ setMachineStateLocally (MachineState_Saving); /* ensure the directory for the saved state file exists */ { Utf8Str dir = stateFilePath; RTPathStripFilename (dir.mutableRaw()); if (!RTDirExists (dir)) { int vrc = RTDirCreateFullPath (dir, 0777); if (VBOX_FAILURE (vrc)) { rc = setError (E_FAIL, tr ("Could not create a directory '%s' to save the state to (%Vrc)"), dir.raw(), vrc); break; } } } /* setup task object and thread to carry out the operation asynchronously */ task->mIsSnapshot = false; task->mSavedStateFile = stateFilePath; /* set the state the operation thread will restore when it is finished */ task->mLastMachineState = lastMachineState; /* create a thread to wait until the VM state is saved */ int vrc = RTThreadCreate (NULL, Console::saveStateThread, (void *) task.get(), 0, RTTHREADTYPE_MAIN_WORKER, 0, "VMSave"); ComAssertMsgRCBreak (vrc, ("Could not create VMSave thread (%Vrc)\n", vrc), rc = E_FAIL); /* task is now owned by saveStateThread(), so release it */ task.release(); /* return the progress to the caller */ progress.queryInterfaceTo (aProgress); } while (0); if (FAILED (rc) && !taskCreationFailed) { /* preserve existing error info */ ErrorInfoKeeper eik; if (beganSavingState) { /* * cancel the requested save state procedure. * This will reset the machine state to the state it had right * before calling mControl->BeginSavingState(). */ mControl->EndSavingState (FALSE); } if (lastMachineState == MachineState_Running) { /* restore the paused state if appropriate */ setMachineStateLocally (MachineState_Paused); /* restore the running state if appropriate */ Resume(); } else setMachineStateLocally (lastMachineState); } LogFlowThisFunc (("rc=%08X\n", rc)); LogFlowThisFuncLeave(); return rc; } STDMETHODIMP Console::AdoptSavedState (INPTR BSTR aSavedStateFile) { if (!aSavedStateFile) return E_INVALIDARG; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState != MachineState_PoweredOff && mMachineState != MachineState_Aborted) return setError (E_FAIL, tr ("Cannot adopt the saved machine state as the machine is " "not in Powered Off or Aborted state (machine state: %d)"), mMachineState); return mControl->AdoptSavedState (aSavedStateFile); } STDMETHODIMP Console::DiscardSavedState() { AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState != MachineState_Saved) return setError (E_FAIL, tr ("Cannot discard the machine state as the machine is " "not in the saved state (machine state: %d)"), mMachineState); /* * Saved -> PoweredOff transition will be detected in the SessionMachine * and properly handled. */ setMachineState (MachineState_PoweredOff); return S_OK; } /** read the value of a LEd. */ inline uint32_t readAndClearLed(PPDMLED pLed) { if (!pLed) return 0; uint32_t u32 = pLed->Actual.u32 | pLed->Asserted.u32; pLed->Asserted.u32 = 0; return u32; } STDMETHODIMP Console::GetDeviceActivity (DeviceType_T aDeviceType, DeviceActivity_T *aDeviceActivity) { if (!aDeviceActivity) return E_INVALIDARG; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); /* * Note: we don't lock the console object here because * readAndClearLed() should be thread safe. */ /* Get LED array to read */ PDMLEDCORE SumLed = {0}; switch (aDeviceType) { case DeviceType_Floppy: { for (unsigned i = 0; i < RT_ELEMENTS(mapFDLeds); i++) SumLed.u32 |= readAndClearLed(mapFDLeds[i]); break; } case DeviceType_DVD: { SumLed.u32 |= readAndClearLed(mapIDELeds[2]); break; } case DeviceType_HardDisk: { SumLed.u32 |= readAndClearLed(mapIDELeds[0]); SumLed.u32 |= readAndClearLed(mapIDELeds[1]); SumLed.u32 |= readAndClearLed(mapIDELeds[3]); for (unsigned i = 0; i < RT_ELEMENTS(mapSATALeds); i++) SumLed.u32 |= readAndClearLed(mapSATALeds[i]); break; } case DeviceType_Network: { for (unsigned i = 0; i < RT_ELEMENTS(mapNetworkLeds); i++) SumLed.u32 |= readAndClearLed(mapNetworkLeds[i]); break; } case DeviceType_USB: { for (unsigned i = 0; i < RT_ELEMENTS(mapUSBLed); i++) SumLed.u32 |= readAndClearLed(mapUSBLed[i]); break; } case DeviceType_SharedFolder: { SumLed.u32 |= readAndClearLed(mapSharedFolderLed); break; } default: return setError (E_INVALIDARG, tr ("Invalid device type: %d"), aDeviceType); } /* Compose the result */ switch (SumLed.u32 & (PDMLED_READING | PDMLED_WRITING)) { case 0: *aDeviceActivity = DeviceActivity_Idle; break; case PDMLED_READING: *aDeviceActivity = DeviceActivity_Reading; break; case PDMLED_WRITING: case PDMLED_READING | PDMLED_WRITING: *aDeviceActivity = DeviceActivity_Writing; break; } return S_OK; } STDMETHODIMP Console::AttachUSBDevice (INPTR GUIDPARAM aId) { #ifdef VBOX_WITH_USB AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); /// @todo (r=dmik) is it legal to attach USB devices when the machine is // Paused, Starting, Saving, Stopping, etc? if not, we should make a // stricter check (mMachineState != MachineState_Running). // // I'm changing it to the semi-strict check for the time being. We'll // consider the below later. // /* bird: It is not permitted to attach or detach while the VM is saving, * is restoring or has stopped - definintly not. * * Attaching while starting, well, if you don't create any deadlock it * should work... Paused should work I guess, but we shouldn't push our * luck if we're pausing because an runtime error condition was raised * (which is one of the reasons there better be a separate state for that * in the VMM). */ if (mMachineState != MachineState_Running && mMachineState != MachineState_Paused) return setError (E_FAIL, tr ("Cannot attach a USB device to the machine which is not running" "(machine state: %d)"), mMachineState); /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* Don't proceed unless we've found the usb controller. */ PPDMIBASE pBase = NULL; int vrc = PDMR3QueryLun (mpVM, "usb-ohci", 0, 0, &pBase); if (VBOX_FAILURE (vrc)) return setError (E_FAIL, tr ("The virtual machine does not have a USB controller")); /* leave the lock because the USB Proxy service may call us back * (via onUSBDeviceAttach()) */ alock.leave(); /* Request the device capture */ HRESULT rc = mControl->CaptureUSBDevice (aId); CheckComRCReturnRC (rc); return rc; #else /* !VBOX_WITH_USB */ return setError (E_FAIL, tr ("The virtual machine does not have a USB controller")); #endif /* !VBOX_WITH_USB */ } STDMETHODIMP Console::DetachUSBDevice (INPTR GUIDPARAM aId, IUSBDevice **aDevice) { #ifdef VBOX_WITH_USB if (!aDevice) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); /* Find it. */ ComObjPtr device; USBDeviceList::iterator it = mUSBDevices.begin(); while (it != mUSBDevices.end()) { if ((*it)->id() == aId) { device = *it; break; } ++ it; } if (!device) return setError (E_INVALIDARG, tr ("USB device with UUID {%Vuuid} is not attached to this machine"), Guid (aId).raw()); /* * Inform the USB device and USB proxy about what's cooking. */ alock.leave(); HRESULT rc2 = mControl->DetachUSBDevice (aId, false /* aDone */); if (FAILED (rc2)) return rc2; alock.enter(); /* Request the PDM to detach the USB device. */ HRESULT rc = detachUSBDevice (it); if (SUCCEEDED (rc)) { /* leave the lock since we don't need it any more (note though that * the USB Proxy service must not call us back here) */ alock.leave(); /* Request the device release. Even if it fails, the device will * remain as held by proxy, which is OK for us (the VM process). */ rc = mControl->DetachUSBDevice (aId, true /* aDone */); } return rc; #else /* !VBOX_WITH_USB */ return setError (E_INVALIDARG, tr ("USB device with UUID {%Vuuid} is not attached to this machine"), Guid (aId).raw()); #endif /* !VBOX_WITH_USB */ } STDMETHODIMP Console::CreateSharedFolder (INPTR BSTR aName, INPTR BSTR aHostPath, BOOL aWritable) { if (!aName || !aHostPath) return E_INVALIDARG; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); /// @todo see @todo in AttachUSBDevice() about the Paused state if (mMachineState == MachineState_Saved) return setError (E_FAIL, tr ("Cannot create a transient shared folder on the " "machine in the saved state")); if (mMachineState > MachineState_Paused) return setError (E_FAIL, tr ("Cannot create a transient shared folder on the " "machine while it is changing the state (machine state: %d)"), mMachineState); ComObjPtr sharedFolder; HRESULT rc = findSharedFolder (aName, sharedFolder, false /* aSetError */); if (SUCCEEDED (rc)) return setError (E_FAIL, tr ("Shared folder named '%ls' already exists"), aName); sharedFolder.createObject(); rc = sharedFolder->init (this, aName, aHostPath, aWritable); CheckComRCReturnRC (rc); BOOL accessible = FALSE; rc = sharedFolder->COMGETTER(Accessible) (&accessible); CheckComRCReturnRC (rc); if (!accessible) return setError (E_FAIL, tr ("Shared folder host path '%ls' is not accessible"), aHostPath); /* protect mpVM (if not NULL) */ AutoVMCallerQuietWeak autoVMCaller (this); if (mpVM && autoVMCaller.isOk() && mVMMDev->isShFlActive()) { /* If the VM is online and supports shared folders, share this folder * under the specified name. */ /* first, remove the machine or the global folder if there is any */ SharedFolderDataMap::const_iterator it; if (findOtherSharedFolder (aName, it)) { rc = removeSharedFolder (aName); CheckComRCReturnRC (rc); } /* second, create the given folder */ rc = createSharedFolder (aName, SharedFolderData (aHostPath, aWritable)); CheckComRCReturnRC (rc); } mSharedFolders.insert (std::make_pair (aName, sharedFolder)); /* notify console callbacks after the folder is added to the list */ { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnSharedFolderChange (Scope_Session); } return rc; } STDMETHODIMP Console::RemoveSharedFolder (INPTR BSTR aName) { if (!aName) return E_INVALIDARG; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); /// @todo see @todo in AttachUSBDevice() about the Paused state if (mMachineState == MachineState_Saved) return setError (E_FAIL, tr ("Cannot remove a transient shared folder from the " "machine in the saved state")); if (mMachineState > MachineState_Paused) return setError (E_FAIL, tr ("Cannot remove a transient shared folder from the " "machine while it is changing the state (machine state: %d)"), mMachineState); ComObjPtr sharedFolder; HRESULT rc = findSharedFolder (aName, sharedFolder, true /* aSetError */); CheckComRCReturnRC (rc); /* protect mpVM (if not NULL) */ AutoVMCallerQuietWeak autoVMCaller (this); if (mpVM && autoVMCaller.isOk() && mVMMDev->isShFlActive()) { /* if the VM is online and supports shared folders, UNshare this * folder. */ /* first, remove the given folder */ rc = removeSharedFolder (aName); CheckComRCReturnRC (rc); /* first, remove the machine or the global folder if there is any */ SharedFolderDataMap::const_iterator it; if (findOtherSharedFolder (aName, it)) { rc = createSharedFolder (aName, it->second); /* don't check rc here because we need to remove the console * folder from the collection even on failure */ } } mSharedFolders.erase (aName); /* notify console callbacks after the folder is removed to the list */ { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnSharedFolderChange (Scope_Session); } return rc; } STDMETHODIMP Console::TakeSnapshot (INPTR BSTR aName, INPTR BSTR aDescription, IProgress **aProgress) { LogFlowThisFuncEnter(); LogFlowThisFunc (("aName='%ls' mMachineState=%08X\n", aName, mMachineState)); if (!aName) return E_INVALIDARG; if (!aProgress) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState > MachineState_Paused) { return setError (E_FAIL, tr ("Cannot take a snapshot of the machine " "while it is changing the state (machine state: %d)"), mMachineState); } /* memorize the current machine state */ MachineState_T lastMachineState = mMachineState; if (mMachineState == MachineState_Running) { HRESULT rc = Pause(); CheckComRCReturnRC (rc); } HRESULT rc = S_OK; bool takingSnapshotOnline = mMachineState == MachineState_Paused; /* * create a descriptionless VM-side progress object * (only when creating a snapshot online) */ ComObjPtr saveProgress; if (takingSnapshotOnline) { saveProgress.createObject(); rc = saveProgress->init (FALSE, 1, Bstr (tr ("Saving the execution state"))); AssertComRCReturn (rc, rc); } bool beganTakingSnapshot = false; bool taskCreationFailed = false; do { /* create a task object early to ensure mpVM protection is successful */ std::auto_ptr task; if (takingSnapshotOnline) { task.reset (new VMSaveTask (this, saveProgress)); rc = task->rc(); /* * If we fail here it means a PowerDown() call happened on another * thread while we were doing Pause() (which leaves the Console lock). * We assign PowerDown() a higher precendence than TakeSnapshot(), * therefore just return the error to the caller. */ if (FAILED (rc)) { taskCreationFailed = true; break; } } Bstr stateFilePath; ComPtr serverProgress; /* * request taking a new snapshot object on the server * (this will set the machine state to Saving on the server to block * others from accessing this machine) */ rc = mControl->BeginTakingSnapshot (this, aName, aDescription, saveProgress, stateFilePath.asOutParam(), serverProgress.asOutParam()); if (FAILED (rc)) break; /* * state file is non-null only when the VM is paused * (i.e. createing a snapshot online) */ ComAssertBreak ( (!stateFilePath.isNull() && takingSnapshotOnline) || (stateFilePath.isNull() && !takingSnapshotOnline), rc = E_FAIL); beganTakingSnapshot = true; /* sync the state with the server */ setMachineStateLocally (MachineState_Saving); /* * create a combined VM-side progress object and start the save task * (only when creating a snapshot online) */ ComObjPtr combinedProgress; if (takingSnapshotOnline) { combinedProgress.createObject(); rc = combinedProgress->init (static_cast (this), Bstr (tr ("Taking snapshot of virtual machine")), serverProgress, saveProgress); AssertComRCBreakRC (rc); /* setup task object and thread to carry out the operation asynchronously */ task->mIsSnapshot = true; task->mSavedStateFile = stateFilePath; task->mServerProgress = serverProgress; /* set the state the operation thread will restore when it is finished */ task->mLastMachineState = lastMachineState; /* create a thread to wait until the VM state is saved */ int vrc = RTThreadCreate (NULL, Console::saveStateThread, (void *) task.get(), 0, RTTHREADTYPE_MAIN_WORKER, 0, "VMTakeSnap"); ComAssertMsgRCBreak (vrc, ("Could not create VMTakeSnap thread (%Vrc)\n", vrc), rc = E_FAIL); /* task is now owned by saveStateThread(), so release it */ task.release(); } if (SUCCEEDED (rc)) { /* return the correct progress to the caller */ if (combinedProgress) combinedProgress.queryInterfaceTo (aProgress); else serverProgress.queryInterfaceTo (aProgress); } } while (0); if (FAILED (rc) && !taskCreationFailed) { /* preserve existing error info */ ErrorInfoKeeper eik; if (beganTakingSnapshot && takingSnapshotOnline) { /* * cancel the requested snapshot (only when creating a snapshot * online, otherwise the server will cancel the snapshot itself). * This will reset the machine state to the state it had right * before calling mControl->BeginTakingSnapshot(). */ mControl->EndTakingSnapshot (FALSE); } if (lastMachineState == MachineState_Running) { /* restore the paused state if appropriate */ setMachineStateLocally (MachineState_Paused); /* restore the running state if appropriate */ Resume(); } else setMachineStateLocally (lastMachineState); } LogFlowThisFunc (("rc=%08X\n", rc)); LogFlowThisFuncLeave(); return rc; } STDMETHODIMP Console::DiscardSnapshot (INPTR GUIDPARAM aId, IProgress **aProgress) { if (Guid (aId).isEmpty()) return E_INVALIDARG; if (!aProgress) return E_POINTER; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState >= MachineState_Running) return setError (E_FAIL, tr ("Cannot discard a snapshot of the running machine " "(machine state: %d)"), mMachineState); MachineState_T machineState = MachineState_Null; HRESULT rc = mControl->DiscardSnapshot (this, aId, &machineState, aProgress); CheckComRCReturnRC (rc); setMachineStateLocally (machineState); return S_OK; } STDMETHODIMP Console::DiscardCurrentState (IProgress **aProgress) { AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState >= MachineState_Running) return setError (E_FAIL, tr ("Cannot discard the current state of the running machine " "(nachine state: %d)"), mMachineState); MachineState_T machineState = MachineState_Null; HRESULT rc = mControl->DiscardCurrentState (this, &machineState, aProgress); CheckComRCReturnRC (rc); setMachineStateLocally (machineState); return S_OK; } STDMETHODIMP Console::DiscardCurrentSnapshotAndState (IProgress **aProgress) { AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mMachineState >= MachineState_Running) return setError (E_FAIL, tr ("Cannot discard the current snapshot and state of the " "running machine (machine state: %d)"), mMachineState); MachineState_T machineState = MachineState_Null; HRESULT rc = mControl->DiscardCurrentSnapshotAndState (this, &machineState, aProgress); CheckComRCReturnRC (rc); setMachineStateLocally (machineState); return S_OK; } STDMETHODIMP Console::RegisterCallback (IConsoleCallback *aCallback) { if (!aCallback) return E_INVALIDARG; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); mCallbacks.push_back (CallbackList::value_type (aCallback)); /* Inform the callback about the current status (for example, the new * callback must know the current mouse capabilities and the pointer * shape in order to properly integrate the mouse pointer). */ if (mCallbackData.mpsc.valid) aCallback->OnMousePointerShapeChange (mCallbackData.mpsc.visible, mCallbackData.mpsc.alpha, mCallbackData.mpsc.xHot, mCallbackData.mpsc.yHot, mCallbackData.mpsc.width, mCallbackData.mpsc.height, mCallbackData.mpsc.shape); if (mCallbackData.mcc.valid) aCallback->OnMouseCapabilityChange (mCallbackData.mcc.supportsAbsolute, mCallbackData.mcc.needsHostCursor); aCallback->OnAdditionsStateChange(); if (mCallbackData.klc.valid) aCallback->OnKeyboardLedsChange (mCallbackData.klc.numLock, mCallbackData.klc.capsLock, mCallbackData.klc.scrollLock); /* Note: we don't call OnStateChange for new callbacks because the * machine state is a) not actually changed on callback registration * and b) can be always queried from Console. */ return S_OK; } STDMETHODIMP Console::UnregisterCallback (IConsoleCallback *aCallback) { if (!aCallback) return E_INVALIDARG; AutoCaller autoCaller (this); CheckComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); CallbackList::iterator it; it = std::find (mCallbacks.begin(), mCallbacks.end(), CallbackList::value_type (aCallback)); if (it == mCallbacks.end()) return setError (E_INVALIDARG, tr ("The given callback handler is not registered")); mCallbacks.erase (it); return S_OK; } // Non-interface public methods ///////////////////////////////////////////////////////////////////////////// /** * Called by IInternalSessionControl::OnDVDDriveChange(). * * @note Locks this object for writing. */ HRESULT Console::onDVDDriveChange() { LogFlowThisFunc (("\n")); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); /* doDriveChange() needs a write lock */ AutoWriteLock alock (this); /* Ignore callbacks when there's no VM around */ if (!mpVM) return S_OK; /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* Get the current DVD state */ HRESULT rc; DriveState_T eState; rc = mDVDDrive->COMGETTER (State) (&eState); ComAssertComRCRetRC (rc); /* Paranoia */ if ( eState == DriveState_NotMounted && meDVDState == DriveState_NotMounted) { LogFlowThisFunc (("Returns (NotMounted -> NotMounted)\n")); return S_OK; } /* Get the path string and other relevant properties */ Bstr Path; bool fPassthrough = false; switch (eState) { case DriveState_ImageMounted: { ComPtr ImagePtr; rc = mDVDDrive->GetImage (ImagePtr.asOutParam()); if (SUCCEEDED (rc)) rc = ImagePtr->COMGETTER(FilePath) (Path.asOutParam()); break; } case DriveState_HostDriveCaptured: { ComPtr DrivePtr; BOOL enabled; rc = mDVDDrive->GetHostDrive (DrivePtr.asOutParam()); if (SUCCEEDED (rc)) rc = DrivePtr->COMGETTER (Name) (Path.asOutParam()); if (SUCCEEDED (rc)) rc = mDVDDrive->COMGETTER (Passthrough) (&enabled); if (SUCCEEDED (rc)) fPassthrough = !!enabled; break; } case DriveState_NotMounted: break; default: AssertMsgFailed (("Invalid DriveState: %d\n", eState)); rc = E_FAIL; break; } AssertComRC (rc); if (FAILED (rc)) { LogFlowThisFunc (("Returns %#x\n", rc)); return rc; } rc = doDriveChange ("piix3ide", 0, 2, eState, &meDVDState, Utf8Str (Path).raw(), fPassthrough); /* notify console callbacks on success */ if (SUCCEEDED (rc)) { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnDVDDriveChange(); } return rc; } /** * Called by IInternalSessionControl::OnFloppyDriveChange(). * * @note Locks this object for writing. */ HRESULT Console::onFloppyDriveChange() { LogFlowThisFunc (("\n")); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); /* doDriveChange() needs a write lock */ AutoWriteLock alock (this); /* Ignore callbacks when there's no VM around */ if (!mpVM) return S_OK; /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* Get the current floppy state */ HRESULT rc; DriveState_T eState; /* If the floppy drive is disabled, we're not interested */ BOOL fEnabled; rc = mFloppyDrive->COMGETTER (Enabled) (&fEnabled); ComAssertComRCRetRC (rc); if (!fEnabled) return S_OK; rc = mFloppyDrive->COMGETTER (State) (&eState); ComAssertComRCRetRC (rc); Log2 (("onFloppyDriveChange: eState=%d meFloppyState=%d\n", eState, meFloppyState)); /* Paranoia */ if ( eState == DriveState_NotMounted && meFloppyState == DriveState_NotMounted) { LogFlowThisFunc (("Returns (NotMounted -> NotMounted)\n")); return S_OK; } /* Get the path string and other relevant properties */ Bstr Path; switch (eState) { case DriveState_ImageMounted: { ComPtr ImagePtr; rc = mFloppyDrive->GetImage (ImagePtr.asOutParam()); if (SUCCEEDED (rc)) rc = ImagePtr->COMGETTER(FilePath) (Path.asOutParam()); break; } case DriveState_HostDriveCaptured: { ComPtr DrivePtr; rc = mFloppyDrive->GetHostDrive (DrivePtr.asOutParam()); if (SUCCEEDED (rc)) rc = DrivePtr->COMGETTER (Name) (Path.asOutParam()); break; } case DriveState_NotMounted: break; default: AssertMsgFailed (("Invalid DriveState: %d\n", eState)); rc = E_FAIL; break; } AssertComRC (rc); if (FAILED (rc)) { LogFlowThisFunc (("Returns %#x\n", rc)); return rc; } rc = doDriveChange ("i82078", 0, 0, eState, &meFloppyState, Utf8Str (Path).raw(), false); /* notify console callbacks on success */ if (SUCCEEDED (rc)) { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnFloppyDriveChange(); } return rc; } /** * Process a floppy or dvd change. * * @returns COM status code. * * @param pszDevice The PDM device name. * @param uInstance The PDM device instance. * @param uLun The PDM LUN number of the drive. * @param eState The new state. * @param peState Pointer to the variable keeping the actual state of the drive. * This will be both read and updated to eState or other appropriate state. * @param pszPath The path to the media / drive which is now being mounted / captured. * If NULL no media or drive is attached and the lun will be configured with * the default block driver with no media. This will also be the state if * mounting / capturing the specified media / drive fails. * @param fPassthrough Enables using passthrough mode of the host DVD drive if applicable. * * @note Locks this object for writing. */ HRESULT Console::doDriveChange (const char *pszDevice, unsigned uInstance, unsigned uLun, DriveState_T eState, DriveState_T *peState, const char *pszPath, bool fPassthrough) { LogFlowThisFunc (("pszDevice=%p:{%s} uInstance=%u uLun=%u eState=%d " "peState=%p:{%d} pszPath=%p:{%s} fPassthrough=%d\n", pszDevice, pszDevice, uInstance, uLun, eState, peState, *peState, pszPath, pszPath, fPassthrough)); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); /* We will need to release the write lock before calling EMT */ AutoWriteLock alock (this); /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* * Call worker in EMT, that's faster and safer than doing everything * using VM3ReqCall. Note that we separate VMR3ReqCall from VMR3ReqWait * here to make requests from under the lock in order to serialize them. */ PVMREQ pReq; int vrc = VMR3ReqCall (mpVM, &pReq, 0 /* no wait! */, (PFNRT) Console::changeDrive, 8, this, pszDevice, uInstance, uLun, eState, peState, pszPath, fPassthrough); /// @todo (r=dmik) bird, it would be nice to have a special VMR3Req method // for that purpose, that doesn't return useless VERR_TIMEOUT if (vrc == VERR_TIMEOUT) vrc = VINF_SUCCESS; /* leave the lock before waiting for a result (EMT will call us back!) */ alock.leave(); if (VBOX_SUCCESS (vrc)) { vrc = VMR3ReqWait (pReq, RT_INDEFINITE_WAIT); AssertRC (vrc); if (VBOX_SUCCESS (vrc)) vrc = pReq->iStatus; } VMR3ReqFree (pReq); if (VBOX_SUCCESS (vrc)) { LogFlowThisFunc (("Returns S_OK\n")); return S_OK; } if (pszPath) return setError (E_FAIL, tr ("Could not mount the media/drive '%s' (%Vrc)"), pszPath, vrc); return setError (E_FAIL, tr ("Could not unmount the currently mounted media/drive (%Vrc)"), vrc); } /** * Performs the Floppy/DVD change in EMT. * * @returns VBox status code. * * @param pThis Pointer to the Console object. * @param pszDevice The PDM device name. * @param uInstance The PDM device instance. * @param uLun The PDM LUN number of the drive. * @param eState The new state. * @param peState Pointer to the variable keeping the actual state of the drive. * This will be both read and updated to eState or other appropriate state. * @param pszPath The path to the media / drive which is now being mounted / captured. * If NULL no media or drive is attached and the lun will be configured with * the default block driver with no media. This will also be the state if * mounting / capturing the specified media / drive fails. * @param fPassthrough Enables using passthrough mode of the host DVD drive if applicable. * * @thread EMT * @note Locks the Console object for writing. */ DECLCALLBACK(int) Console::changeDrive (Console *pThis, const char *pszDevice, unsigned uInstance, unsigned uLun, DriveState_T eState, DriveState_T *peState, const char *pszPath, bool fPassthrough) { LogFlowFunc (("pThis=%p pszDevice=%p:{%s} uInstance=%u uLun=%u eState=%d " "peState=%p:{%d} pszPath=%p:{%s} fPassthrough=%d\n", pThis, pszDevice, pszDevice, uInstance, uLun, eState, peState, *peState, pszPath, pszPath, fPassthrough)); AssertReturn (pThis, VERR_INVALID_PARAMETER); AssertMsg ( (!strcmp (pszDevice, "i82078") && uLun == 0 && uInstance == 0) || (!strcmp (pszDevice, "piix3ide") && uLun == 2 && uInstance == 0), ("pszDevice=%s uLun=%d uInstance=%d\n", pszDevice, uLun, uInstance)); AutoCaller autoCaller (pThis); AssertComRCReturn (autoCaller.rc(), VERR_ACCESS_DENIED); /* * Locking the object before doing VMR3* calls is quite safe here, since * we're on EMT. Write lock is necessary because we indirectly modify the * meDVDState/meFloppyState members (pointed to by peState). */ AutoWriteLock alock (pThis); /* protect mpVM */ AutoVMCaller autoVMCaller (pThis); CheckComRCReturnRC (autoVMCaller.rc()); PVM pVM = pThis->mpVM; /* * Suspend the VM first. * * The VM must not be running since it might have pending I/O to * the drive which is being changed. */ bool fResume; VMSTATE enmVMState = VMR3GetState (pVM); switch (enmVMState) { case VMSTATE_RESETTING: case VMSTATE_RUNNING: { LogFlowFunc (("Suspending the VM...\n")); /* disable the callback to prevent Console-level state change */ pThis->mVMStateChangeCallbackDisabled = true; int rc = VMR3Suspend (pVM); pThis->mVMStateChangeCallbackDisabled = false; AssertRCReturn (rc, rc); fResume = true; break; } case VMSTATE_SUSPENDED: case VMSTATE_CREATED: case VMSTATE_OFF: fResume = false; break; default: AssertMsgFailedReturn (("enmVMState=%d\n", enmVMState), VERR_ACCESS_DENIED); } int rc = VINF_SUCCESS; int rcRet = VINF_SUCCESS; do { /* * Unmount existing media / detach host drive. */ PPDMIMOUNT pIMount = NULL; switch (*peState) { case DriveState_ImageMounted: { /* * Resolve the interface. */ PPDMIBASE pBase; rc = PDMR3QueryLun (pVM, pszDevice, uInstance, uLun, &pBase); if (VBOX_FAILURE (rc)) { if (rc == VERR_PDM_LUN_NOT_FOUND) rc = VINF_SUCCESS; AssertRC (rc); break; } pIMount = (PPDMIMOUNT) pBase->pfnQueryInterface (pBase, PDMINTERFACE_MOUNT); AssertBreakStmt (pIMount, rc = VERR_INVALID_POINTER); /* * Unmount the media. */ rc = pIMount->pfnUnmount (pIMount, false); if (rc == VERR_PDM_MEDIA_NOT_MOUNTED) rc = VINF_SUCCESS; break; } case DriveState_HostDriveCaptured: { rc = PDMR3DeviceDetach (pVM, pszDevice, uInstance, uLun); if (rc == VINF_PDM_NO_DRIVER_ATTACHED_TO_LUN) rc = VINF_SUCCESS; AssertRC (rc); break; } case DriveState_NotMounted: break; default: AssertMsgFailed (("Invalid *peState: %d\n", peState)); break; } if (VBOX_FAILURE (rc)) { rcRet = rc; break; } /* * Nothing is currently mounted. */ *peState = DriveState_NotMounted; /* * Process the HostDriveCaptured state first, as the fallback path * means mounting the normal block driver without media. */ if (eState == DriveState_HostDriveCaptured) { /* * Detach existing driver chain (block). */ int rc = PDMR3DeviceDetach (pVM, pszDevice, uInstance, uLun); if (VBOX_FAILURE (rc)) { if (rc == VERR_PDM_LUN_NOT_FOUND) rc = VINF_SUCCESS; AssertReleaseRC (rc); break; /* we're toast */ } pIMount = NULL; /* * Construct a new driver configuration. */ PCFGMNODE pInst = CFGMR3GetChildF (CFGMR3GetRoot (pVM), "Devices/%s/%d/", pszDevice, uInstance); AssertRelease (pInst); /* nuke anything which might have been left behind. */ CFGMR3RemoveNode (CFGMR3GetChildF (pInst, "LUN#%d", uLun)); /* create a new block driver config */ PCFGMNODE pLunL0; PCFGMNODE pCfg; if ( VBOX_SUCCESS (rc = CFGMR3InsertNodeF (pInst, &pLunL0, "LUN#%u", uLun)) && VBOX_SUCCESS (rc = CFGMR3InsertString (pLunL0, "Driver", !strcmp (pszDevice, "i82078") ? "HostFloppy" : "HostDVD")) && VBOX_SUCCESS (rc = CFGMR3InsertNode (pLunL0, "Config", &pCfg)) && VBOX_SUCCESS (rc = CFGMR3InsertString (pCfg, "Path", pszPath)) && VBOX_SUCCESS (rc = !strcmp (pszDevice, "i82078") ? VINF_SUCCESS : CFGMR3InsertInteger(pCfg, "Passthrough", fPassthrough))) { /* * Attempt to attach the driver. */ rc = PDMR3DeviceAttach (pVM, pszDevice, uInstance, uLun, NULL); AssertRC (rc); } if (VBOX_FAILURE (rc)) rcRet = rc; } /* * Process the ImageMounted, NotMounted and failed HostDriveCapture cases. */ rc = VINF_SUCCESS; switch (eState) { #define RC_CHECK() do { if (VBOX_FAILURE (rc)) { AssertReleaseRC (rc); break; } } while (0) case DriveState_HostDriveCaptured: if (VBOX_SUCCESS (rcRet)) break; /* fallback: umounted block driver. */ pszPath = NULL; eState = DriveState_NotMounted; /* fallthru */ case DriveState_ImageMounted: case DriveState_NotMounted: { /* * Resolve the drive interface / create the driver. */ if (!pIMount) { PPDMIBASE pBase; rc = PDMR3QueryLun (pVM, pszDevice, uInstance, uLun, &pBase); if (rc == VERR_PDM_NO_DRIVER_ATTACHED_TO_LUN) { /* * We have to create it, so we'll do the full config setup and everything. */ PCFGMNODE pIdeInst = CFGMR3GetChildF (CFGMR3GetRoot (pVM), "Devices/%s/%d/", pszDevice, uInstance); AssertRelease (pIdeInst); /* nuke anything which might have been left behind. */ CFGMR3RemoveNode (CFGMR3GetChildF (pIdeInst, "LUN#%d", uLun)); /* create a new block driver config */ PCFGMNODE pLunL0; rc = CFGMR3InsertNodeF (pIdeInst, &pLunL0, "LUN#%d", uLun); RC_CHECK(); rc = CFGMR3InsertString (pLunL0, "Driver", "Block"); RC_CHECK(); PCFGMNODE pCfg; rc = CFGMR3InsertNode (pLunL0, "Config", &pCfg); RC_CHECK(); rc = CFGMR3InsertString (pCfg, "Type", !strcmp (pszDevice, "i82078") ? "Floppy 1.44" : "DVD"); RC_CHECK(); rc = CFGMR3InsertInteger (pCfg, "Mountable", 1); RC_CHECK(); /* * Attach the driver. */ rc = PDMR3DeviceAttach (pVM, pszDevice, uInstance, uLun, &pBase); RC_CHECK(); } else if (VBOX_FAILURE(rc)) { AssertRC (rc); return rc; } pIMount = (PPDMIMOUNT) pBase->pfnQueryInterface (pBase, PDMINTERFACE_MOUNT); if (!pIMount) { AssertFailed(); return rc; } } /* * If we've got an image, let's mount it. */ if (pszPath && *pszPath) { rc = pIMount->pfnMount (pIMount, pszPath, strcmp (pszDevice, "i82078") ? "MediaISO" : "RawImage"); if (VBOX_FAILURE (rc)) eState = DriveState_NotMounted; } break; } default: AssertMsgFailed (("Invalid eState: %d\n", eState)); break; #undef RC_CHECK } if (VBOX_FAILURE (rc) && VBOX_SUCCESS (rcRet)) rcRet = rc; *peState = eState; } while (0); /* * Resume the VM if necessary. */ if (fResume) { LogFlowFunc (("Resuming the VM...\n")); /* disable the callback to prevent Console-level state change */ pThis->mVMStateChangeCallbackDisabled = true; rc = VMR3Resume (pVM); pThis->mVMStateChangeCallbackDisabled = false; AssertRC (rc); if (VBOX_FAILURE (rc)) { /* too bad, we failed. try to sync the console state with the VMM state */ vmstateChangeCallback (pVM, VMSTATE_SUSPENDED, enmVMState, pThis); } /// @todo (r=dmik) if we failed with drive mount, then the VMR3Resume // error (if any) will be hidden from the caller. For proper reporting // of such multiple errors to the caller we need to enhance the // IVurtualBoxError interface. For now, give the first error the higher // priority. if (VBOX_SUCCESS (rcRet)) rcRet = rc; } LogFlowFunc (("Returning %Vrc\n", rcRet)); return rcRet; } /** * Called by IInternalSessionControl::OnNetworkAdapterChange(). * * @note Locks this object for writing. */ HRESULT Console::onNetworkAdapterChange (INetworkAdapter *aNetworkAdapter) { LogFlowThisFunc (("\n")); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); /* Don't do anything if the VM isn't running */ if (!mpVM) return S_OK; /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* Get the properties we need from the adapter */ BOOL fCableConnected; HRESULT rc = aNetworkAdapter->COMGETTER(CableConnected) (&fCableConnected); AssertComRC(rc); if (SUCCEEDED(rc)) { ULONG ulInstance; rc = aNetworkAdapter->COMGETTER(Slot) (&ulInstance); AssertComRC (rc); if (SUCCEEDED (rc)) { /* * Find the pcnet instance, get the config interface and update * the link state. */ PPDMIBASE pBase; const char *cszAdapterName = "pcnet"; #ifdef VBOX_WITH_E1000 /* * Perharps it would be much wiser to wrap both 'pcnet' and 'e1000' * into generic 'net' device. */ NetworkAdapterType_T adapterType; rc = aNetworkAdapter->COMGETTER(AdapterType)(&adapterType); AssertComRC(rc); if (adapterType == NetworkAdapterType_I82540EM || adapterType == NetworkAdapterType_I82543GC) cszAdapterName = "e1000"; #endif int vrc = PDMR3QueryDeviceLun (mpVM, cszAdapterName, (unsigned) ulInstance, 0, &pBase); ComAssertRC (vrc); if (VBOX_SUCCESS (vrc)) { Assert(pBase); PPDMINETWORKCONFIG pINetCfg = (PPDMINETWORKCONFIG) pBase-> pfnQueryInterface(pBase, PDMINTERFACE_NETWORK_CONFIG); if (pINetCfg) { Log (("Console::onNetworkAdapterChange: setting link state to %d\n", fCableConnected)); vrc = pINetCfg->pfnSetLinkState (pINetCfg, fCableConnected ? PDMNETWORKLINKSTATE_UP : PDMNETWORKLINKSTATE_DOWN); ComAssertRC (vrc); } } if (VBOX_FAILURE (vrc)) rc = E_FAIL; } } /* notify console callbacks on success */ if (SUCCEEDED (rc)) { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnNetworkAdapterChange (aNetworkAdapter); } LogFlowThisFunc (("Leaving rc=%#x\n", rc)); return rc; } /** * Called by IInternalSessionControl::OnSerialPortChange(). * * @note Locks this object for writing. */ HRESULT Console::onSerialPortChange (ISerialPort *aSerialPort) { LogFlowThisFunc (("\n")); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); /* Don't do anything if the VM isn't running */ if (!mpVM) return S_OK; HRESULT rc = S_OK; /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* nothing to do so far */ /* notify console callbacks on success */ if (SUCCEEDED (rc)) { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnSerialPortChange (aSerialPort); } LogFlowThisFunc (("Leaving rc=%#x\n", rc)); return rc; } /** * Called by IInternalSessionControl::OnParallelPortChange(). * * @note Locks this object for writing. */ HRESULT Console::onParallelPortChange (IParallelPort *aParallelPort) { LogFlowThisFunc (("\n")); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); /* Don't do anything if the VM isn't running */ if (!mpVM) return S_OK; HRESULT rc = S_OK; /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* nothing to do so far */ /* notify console callbacks on success */ if (SUCCEEDED (rc)) { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnParallelPortChange (aParallelPort); } LogFlowThisFunc (("Leaving rc=%#x\n", rc)); return rc; } /** * Called by IInternalSessionControl::OnVRDPServerChange(). * * @note Locks this object for writing. */ HRESULT Console::onVRDPServerChange() { AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); HRESULT rc = S_OK; if (mVRDPServer && mMachineState == MachineState_Running) { BOOL vrdpEnabled = FALSE; rc = mVRDPServer->COMGETTER(Enabled) (&vrdpEnabled); ComAssertComRCRetRC (rc); if (vrdpEnabled) { // If there was no VRDP server started the 'stop' will do nothing. // However if a server was started and this notification was called, // we have to restart the server. mConsoleVRDPServer->Stop (); if (VBOX_FAILURE(mConsoleVRDPServer->Launch ())) { rc = E_FAIL; } else { mConsoleVRDPServer->EnableConnections (); } } else { mConsoleVRDPServer->Stop (); } } /* notify console callbacks on success */ if (SUCCEEDED (rc)) { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnVRDPServerChange(); } return rc; } /** * Called by IInternalSessionControl::OnUSBControllerChange(). * * @note Locks this object for writing. */ HRESULT Console::onUSBControllerChange() { LogFlowThisFunc (("\n")); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); /* Ignore if no VM is running yet. */ if (!mpVM) return S_OK; HRESULT rc = S_OK; /// @todo (dmik) // check for the Enabled state and disable virtual USB controller?? // Anyway, if we want to query the machine's USB Controller we need to cache // it to to mUSBController in #init() (as it is done with mDVDDrive). // // bird: While the VM supports hot-plugging, I doubt any guest can handle it at this time... :-) // // /* protect mpVM */ // AutoVMCaller autoVMCaller (this); // CheckComRCReturnRC (autoVMCaller.rc()); /* notify console callbacks on success */ if (SUCCEEDED (rc)) { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnUSBControllerChange(); } return rc; } /** * Called by IInternalSessionControl::OnSharedFolderChange(). * * @note Locks this object for writing. */ HRESULT Console::onSharedFolderChange (BOOL aGlobal) { LogFlowThisFunc (("aGlobal=%RTbool\n", aGlobal)); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); HRESULT rc = fetchSharedFolders (aGlobal); /* notify console callbacks on success */ if (SUCCEEDED (rc)) { CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnSharedFolderChange (aGlobal ? (Scope_T) Scope_Global : (Scope_T) Scope_Machine); } return rc; } /** * Called by IInternalSessionControl::OnUSBDeviceAttach() or locally by * processRemoteUSBDevices() after IInternalMachineControl::RunUSBDeviceFilters() * returns TRUE for a given remote USB device. * * @return S_OK if the device was attached to the VM. * @return failure if not attached. * * @param aDevice * The device in question. * @param aMaskedIfs * The interfaces to hide from the guest. * * @note Locks this object for writing. */ HRESULT Console::onUSBDeviceAttach (IUSBDevice *aDevice, IVirtualBoxErrorInfo *aError, ULONG aMaskedIfs) { #ifdef VBOX_WITH_USB LogFlowThisFunc (("aDevice=%p aError=%p\n", aDevice, aError)); AutoCaller autoCaller (this); ComAssertComRCRetRC (autoCaller.rc()); AutoWriteLock alock (this); /* protect mpVM (we don't need error info, since it's a callback) */ AutoVMCallerQuiet autoVMCaller (this); if (FAILED (autoVMCaller.rc())) { /* The VM may be no more operational when this message arrives * (e.g. it may be Saving or Stopping or just PoweredOff) -- * autoVMCaller.rc() will return a failure in this case. */ LogFlowThisFunc (("Attach request ignored (mMachineState=%d).\n", mMachineState)); return autoVMCaller.rc(); } if (aError != NULL) { /* notify callbacks about the error */ onUSBDeviceStateChange (aDevice, true /* aAttached */, aError); return S_OK; } /* Don't proceed unless there's at least one USB hub. */ if (!PDMR3USBHasHub (mpVM)) { LogFlowThisFunc (("Attach request ignored (no USB controller).\n")); return E_FAIL; } HRESULT rc = attachUSBDevice (aDevice, aMaskedIfs); if (FAILED (rc)) { /* take the current error info */ com::ErrorInfoKeeper eik; /* the error must be a VirtualBoxErrorInfo instance */ ComPtr error = eik.takeError(); Assert (!error.isNull()); if (!error.isNull()) { /* notify callbacks about the error */ onUSBDeviceStateChange (aDevice, true /* aAttached */, error); } } return rc; #else /* !VBOX_WITH_USB */ return E_FAIL; #endif /* !VBOX_WITH_USB */ } /** * Called by IInternalSessionControl::OnUSBDeviceDetach() and locally by * processRemoteUSBDevices(). * * @note Locks this object for writing. */ HRESULT Console::onUSBDeviceDetach (INPTR GUIDPARAM aId, IVirtualBoxErrorInfo *aError) { #ifdef VBOX_WITH_USB Guid Uuid (aId); LogFlowThisFunc (("aId={%Vuuid} aError=%p\n", Uuid.raw(), aError)); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); /* Find the device. */ ComObjPtr device; USBDeviceList::iterator it = mUSBDevices.begin(); while (it != mUSBDevices.end()) { LogFlowThisFunc (("it={%Vuuid}\n", (*it)->id().raw())); if ((*it)->id() == Uuid) { device = *it; break; } ++ it; } if (device.isNull()) { LogFlowThisFunc (("USB device not found.\n")); /* The VM may be no more operational when this message arrives * (e.g. it may be Saving or Stopping or just PoweredOff). Use * AutoVMCaller to detect it -- AutoVMCaller::rc() will return a * failure in this case. */ AutoVMCallerQuiet autoVMCaller (this); if (FAILED (autoVMCaller.rc())) { LogFlowThisFunc (("Detach request ignored (mMachineState=%d).\n", mMachineState)); return autoVMCaller.rc(); } /* the device must be in the list otherwise */ AssertFailedReturn (E_FAIL); } if (aError != NULL) { /* notify callback about an error */ onUSBDeviceStateChange (device, false /* aAttached */, aError); return S_OK; } HRESULT rc = detachUSBDevice (it); if (FAILED (rc)) { /* take the current error info */ com::ErrorInfoKeeper eik; /* the error must be a VirtualBoxErrorInfo instance */ ComPtr error = eik.takeError(); Assert (!error.isNull()); if (!error.isNull()) { /* notify callbacks about the error */ onUSBDeviceStateChange (device, false /* aAttached */, error); } } return rc; #else /* !VBOX_WITH_USB */ return E_FAIL; #endif /* !VBOX_WITH_USB */ } /** * @note Temporarily locks this object for writing. */ HRESULT Console::getGuestProperty (INPTR BSTR aName, BSTR *aValue, ULONG64 *aTimestamp, BSTR *aFlags) { #if !defined (VBOX_WITH_GUEST_PROPS) return E_NOTIMPL; #else if (!VALID_PTR (aName)) return E_INVALIDARG; if (!VALID_PTR (aValue)) return E_POINTER; if ((aTimestamp != NULL) && !VALID_PTR (aTimestamp)) return E_POINTER; if ((aFlags != NULL) && !VALID_PTR (aFlags)) return E_POINTER; AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); /* protect mpVM (if not NULL) */ AutoVMCallerWeak autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* Note: validity of mVMMDev which is bound to uninit() is guaranteed by * autoVMCaller, so there is no need to hold a lock of this */ HRESULT rc = E_UNEXPECTED; using namespace guestProp; VBOXHGCMSVCPARM parm[4]; Utf8Str Utf8Name = aName; AssertReturn(!Utf8Name.isNull(), E_OUTOFMEMORY); char pszBuffer[MAX_VALUE_LEN + MAX_FLAGS_LEN + 2]; parm[0].type = VBOX_HGCM_SVC_PARM_PTR; /* To save doing a const cast, we use the mutableRaw() member. */ parm[0].u.pointer.addr = Utf8Name.mutableRaw(); /* The + 1 is the null terminator */ parm[0].u.pointer.size = Utf8Name.length() + 1; parm[1].type = VBOX_HGCM_SVC_PARM_PTR; parm[1].u.pointer.addr = pszBuffer; parm[1].u.pointer.size = sizeof(pszBuffer); int vrc = mVMMDev->hgcmHostCall ("VBoxGuestPropSvc", GET_PROP_HOST, 4, &parm[0]); /* The returned string should never be able to be greater than our buffer */ AssertLogRel (vrc != VERR_BUFFER_OVERFLOW); AssertLogRel (!RT_SUCCESS(vrc) || VBOX_HGCM_SVC_PARM_64BIT == parm[2].type); if (RT_SUCCESS (vrc) || (VERR_NOT_FOUND == vrc)) { rc = S_OK; if (vrc != VERR_NOT_FOUND) { size_t iFlags = strlen(pszBuffer) + 1; Utf8Str(pszBuffer).cloneTo (aValue); *aTimestamp = parm[2].u.uint64; Utf8Str(pszBuffer + iFlags).cloneTo (aFlags); } else aValue = NULL; } else rc = setError (E_UNEXPECTED, tr ("Failed to call the VBoxGuestPropSvc service (%Rrc)"), vrc); return rc; #endif /* else !defined (VBOX_WITH_GUEST_PROPS) */ } /** * @note Temporarily locks this object for writing. */ HRESULT Console::setGuestProperty (INPTR BSTR aName, INPTR BSTR aValue, INPTR BSTR aFlags) { #if !defined (VBOX_WITH_GUEST_PROPS) return E_NOTIMPL; #else if (!VALID_PTR (aName)) return E_INVALIDARG; if ((aValue != NULL) && !VALID_PTR (aValue)) return E_INVALIDARG; if ((aFlags != NULL) && !VALID_PTR (aFlags)) return E_INVALIDARG; AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); /* protect mpVM (if not NULL) */ AutoVMCallerWeak autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* Note: validity of mVMMDev which is bound to uninit() is guaranteed by * autoVMCaller, so there is no need to hold a lock of this */ HRESULT rc = E_UNEXPECTED; using namespace guestProp; VBOXHGCMSVCPARM parm[3]; Utf8Str Utf8Name = aName; int vrc = VINF_SUCCESS; parm[0].type = VBOX_HGCM_SVC_PARM_PTR; /* To save doing a const cast, we use the mutableRaw() member. */ parm[0].u.pointer.addr = Utf8Name.mutableRaw(); /* The + 1 is the null terminator */ parm[0].u.pointer.size = Utf8Name.length() + 1; Utf8Str Utf8Value = aValue; if (aValue != NULL) { parm[1].type = VBOX_HGCM_SVC_PARM_PTR; /* To save doing a const cast, we use the mutableRaw() member. */ parm[1].u.pointer.addr = Utf8Value.mutableRaw(); /* The + 1 is the null terminator */ parm[1].u.pointer.size = Utf8Value.length() + 1; } Utf8Str Utf8Flags = aFlags; if (aFlags != NULL) { parm[2].type = VBOX_HGCM_SVC_PARM_PTR; /* To save doing a const cast, we use the mutableRaw() member. */ parm[2].u.pointer.addr = Utf8Flags.mutableRaw(); /* The + 1 is the null terminator */ parm[2].u.pointer.size = Utf8Flags.length() + 1; } if ((aValue != NULL) && (aFlags != NULL)) vrc = mVMMDev->hgcmHostCall ("VBoxGuestPropSvc", SET_PROP_HOST, 3, &parm[0]); else if (aValue != NULL) vrc = mVMMDev->hgcmHostCall ("VBoxGuestPropSvc", SET_PROP_VALUE_HOST, 2, &parm[0]); else vrc = mVMMDev->hgcmHostCall ("VBoxGuestPropSvc", DEL_PROP_HOST, 1, &parm[0]); if (RT_SUCCESS (vrc)) rc = S_OK; else rc = setError (E_UNEXPECTED, tr ("Failed to call the VBoxGuestPropSvc service (%Rrc)"), vrc); return rc; #endif /* else !defined (VBOX_WITH_GUEST_PROPS) */ } /** * @note Temporarily locks this object for writing. */ HRESULT Console::enumerateGuestProperties (INPTR BSTR aPatterns, ComSafeArrayOut(BSTR, aNames), ComSafeArrayOut(BSTR, aValues), ComSafeArrayOut(ULONG64, aTimestamps), ComSafeArrayOut(BSTR, aFlags)) { #if !defined (VBOX_WITH_GUEST_PROPS) return E_NOTIMPL; #else if (!VALID_PTR (aPatterns) && (aPatterns != NULL)) return E_POINTER; if (ComSafeArrayOutIsNull (aNames)) return E_POINTER; if (ComSafeArrayOutIsNull (aValues)) return E_POINTER; if (ComSafeArrayOutIsNull (aTimestamps)) return E_POINTER; if (ComSafeArrayOutIsNull (aFlags)) return E_POINTER; AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); /* protect mpVM (if not NULL) */ AutoVMCallerWeak autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* Note: validity of mVMMDev which is bound to uninit() is guaranteed by * autoVMCaller, so there is no need to hold a lock of this */ using namespace guestProp; VBOXHGCMSVCPARM parm[3]; /* * Set up the pattern parameter, translating the comma-separated list to a * double-terminated zero-separated one. */ Utf8Str Utf8PatternsIn = aPatterns; if ((aPatterns != NULL) && Utf8PatternsIn.isNull()) return E_OUTOFMEMORY; size_t cchPatterns = Utf8PatternsIn.length(); Utf8Str Utf8Patterns(cchPatterns + 2); /* Double terminator */ if (Utf8Patterns.isNull()) return E_OUTOFMEMORY; char *pszPatterns = Utf8Patterns.mutableRaw(); unsigned iPatterns = 0; for (unsigned i = 0; i < cchPatterns; ++i) { char cIn = Utf8PatternsIn.raw()[i]; if ((cIn != ',') && (cIn != ' ')) pszPatterns[iPatterns] = cIn; else if (cIn != ' ') pszPatterns[iPatterns] = '\0'; if (cIn != ' ') ++iPatterns; } pszPatterns[iPatterns] = '\0'; parm[0].type = VBOX_HGCM_SVC_PARM_PTR; parm[0].u.pointer.addr = pszPatterns; parm[0].u.pointer.size = iPatterns + 1; /* * Now things get slightly complicated. Due to a race with the guest adding * properties, there is no good way to know how much large a buffer to provide * the service to enumerate into. We choose a decent starting size and loop a * few times, each time retrying with the size suggested by the service plus * one Kb. */ size_t cchBuf = 4096; Utf8Str Utf8Buf; int vrc = VERR_BUFFER_OVERFLOW; for (unsigned i = 0; i < 10 && (VERR_BUFFER_OVERFLOW == vrc); ++i) { Utf8Buf.alloc(cchBuf + 1024); if (Utf8Buf.isNull()) return E_OUTOFMEMORY; parm[1].type = VBOX_HGCM_SVC_PARM_PTR; parm[1].u.pointer.addr = Utf8Buf.mutableRaw(); parm[1].u.pointer.size = cchBuf + 1024; vrc = mVMMDev->hgcmHostCall ("VBoxGuestPropSvc", ENUM_PROPS_HOST, 3, &parm[0]); if (parm[2].type != VBOX_HGCM_SVC_PARM_32BIT) return setError (E_FAIL, tr ("Internal application error")); cchBuf = parm[2].u.uint32; } if (VERR_BUFFER_OVERFLOW == vrc) return setError (E_UNEXPECTED, tr ("Temporary failure due to guest activity, please retry")); /* * Finally we have to unpack the data returned by the service into the safe * arrays supplied by the caller. We start by counting the number of entries. */ const char *pszBuf = reinterpret_cast(parm[1].u.pointer.addr); unsigned cEntries = 0; /* The list is terminated by a zero-length string at the end of a set * of four strings. */ for (size_t i = 0; strlen(pszBuf + i) != 0; ) { /* We are counting sets of four strings. */ for (unsigned j = 0; j < 4; ++j) i += strlen(pszBuf + i) + 1; ++cEntries; } /* * And now we create the COM safe arrays and fill them in. */ com::SafeArray names(cEntries); com::SafeArray values(cEntries); com::SafeArray timestamps(cEntries); com::SafeArray flags(cEntries); size_t iBuf = 0; /* Rely on the service to have formated the data correctly. */ for (unsigned i = 0; i < cEntries; ++i) { size_t cchName = strlen(pszBuf + iBuf); Bstr(pszBuf + iBuf).detachTo(&names[i]); iBuf += cchName + 1; size_t cchValue = strlen(pszBuf + iBuf); Bstr(pszBuf + iBuf).detachTo(&values[i]); iBuf += cchValue + 1; size_t cchTimestamp = strlen(pszBuf + iBuf); timestamps[i] = RTStrToUInt64(pszBuf + iBuf); iBuf += cchTimestamp + 1; size_t cchFlags = strlen(pszBuf + iBuf); Bstr(pszBuf + iBuf).detachTo(&flags[i]); iBuf += cchFlags + 1; } names.detachTo(ComSafeArrayOutArg (aNames)); values.detachTo(ComSafeArrayOutArg (aValues)); timestamps.detachTo(ComSafeArrayOutArg (aTimestamps)); flags.detachTo(ComSafeArrayOutArg (aFlags)); return S_OK; #endif /* else !defined (VBOX_WITH_GUEST_PROPS) */ } /** * Gets called by Session::UpdateMachineState() * (IInternalSessionControl::updateMachineState()). * * Must be called only in certain cases (see the implementation). * * @note Locks this object for writing. */ HRESULT Console::updateMachineState (MachineState_T aMachineState) { AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); AssertReturn (mMachineState == MachineState_Saving || mMachineState == MachineState_Discarding, E_FAIL); return setMachineStateLocally (aMachineState); } /** * @note Locks this object for writing. */ void Console::onMousePointerShapeChange(bool fVisible, bool fAlpha, uint32_t xHot, uint32_t yHot, uint32_t width, uint32_t height, void *pShape) { #if 0 LogFlowThisFuncEnter(); LogFlowThisFunc (("fVisible=%d, fAlpha=%d, xHot = %d, yHot = %d, width=%d, " "height=%d, shape=%p\n", fVisible, fAlpha, xHot, yHot, width, height, pShape)); #endif AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); /* We need a write lock because we alter the cached callback data */ AutoWriteLock alock (this); /* Save the callback arguments */ mCallbackData.mpsc.visible = fVisible; mCallbackData.mpsc.alpha = fAlpha; mCallbackData.mpsc.xHot = xHot; mCallbackData.mpsc.yHot = yHot; mCallbackData.mpsc.width = width; mCallbackData.mpsc.height = height; /* start with not valid */ bool wasValid = mCallbackData.mpsc.valid; mCallbackData.mpsc.valid = false; if (pShape != NULL) { size_t cb = (width + 7) / 8 * height; /* size of the AND mask */ cb = ((cb + 3) & ~3) + width * 4 * height; /* + gap + size of the XOR mask */ /* try to reuse the old shape buffer if the size is the same */ if (!wasValid) mCallbackData.mpsc.shape = NULL; else if (mCallbackData.mpsc.shape != NULL && mCallbackData.mpsc.shapeSize != cb) { RTMemFree (mCallbackData.mpsc.shape); mCallbackData.mpsc.shape = NULL; } if (mCallbackData.mpsc.shape == NULL) { mCallbackData.mpsc.shape = (BYTE *) RTMemAllocZ (cb); AssertReturnVoid (mCallbackData.mpsc.shape); } mCallbackData.mpsc.shapeSize = cb; memcpy (mCallbackData.mpsc.shape, pShape, cb); } else { if (wasValid && mCallbackData.mpsc.shape != NULL) RTMemFree (mCallbackData.mpsc.shape); mCallbackData.mpsc.shape = NULL; mCallbackData.mpsc.shapeSize = 0; } mCallbackData.mpsc.valid = true; CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnMousePointerShapeChange (fVisible, fAlpha, xHot, yHot, width, height, (BYTE *) pShape); #if 0 LogFlowThisFuncLeave(); #endif } /** * @note Locks this object for writing. */ void Console::onMouseCapabilityChange (BOOL supportsAbsolute, BOOL needsHostCursor) { LogFlowThisFunc (("supportsAbsolute=%d needsHostCursor=%d\n", supportsAbsolute, needsHostCursor)); AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); /* We need a write lock because we alter the cached callback data */ AutoWriteLock alock (this); /* save the callback arguments */ mCallbackData.mcc.supportsAbsolute = supportsAbsolute; mCallbackData.mcc.needsHostCursor = needsHostCursor; mCallbackData.mcc.valid = true; CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) { Log2(("Console::onMouseCapabilityChange: calling %p\n", (void*)*it)); (*it++)->OnMouseCapabilityChange (supportsAbsolute, needsHostCursor); } } /** * @note Locks this object for reading. */ void Console::onStateChange (MachineState_T machineState) { AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); AutoReadLock alock (this); CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnStateChange (machineState); } /** * @note Locks this object for reading. */ void Console::onAdditionsStateChange() { AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); AutoReadLock alock (this); CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnAdditionsStateChange(); } /** * @note Locks this object for reading. */ void Console::onAdditionsOutdated() { AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); AutoReadLock alock (this); /** @todo Use the On-Screen Display feature to report the fact. * The user should be told to install additions that are * provided with the current VBox build: * VBOX_VERSION_MAJOR.VBOX_VERSION_MINOR.VBOX_VERSION_BUILD */ } /** * @note Locks this object for writing. */ void Console::onKeyboardLedsChange(bool fNumLock, bool fCapsLock, bool fScrollLock) { AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); /* We need a write lock because we alter the cached callback data */ AutoWriteLock alock (this); /* save the callback arguments */ mCallbackData.klc.numLock = fNumLock; mCallbackData.klc.capsLock = fCapsLock; mCallbackData.klc.scrollLock = fScrollLock; mCallbackData.klc.valid = true; CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnKeyboardLedsChange(fNumLock, fCapsLock, fScrollLock); } /** * @note Locks this object for reading. */ void Console::onUSBDeviceStateChange (IUSBDevice *aDevice, bool aAttached, IVirtualBoxErrorInfo *aError) { AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); AutoReadLock alock (this); CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnUSBDeviceStateChange (aDevice, aAttached, aError); } /** * @note Locks this object for reading. */ void Console::onRuntimeError (BOOL aFatal, INPTR BSTR aErrorID, INPTR BSTR aMessage) { AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); AutoReadLock alock (this); CallbackList::iterator it = mCallbacks.begin(); while (it != mCallbacks.end()) (*it++)->OnRuntimeError (aFatal, aErrorID, aMessage); } /** * @note Locks this object for reading. */ HRESULT Console::onShowWindow (BOOL aCheck, BOOL *aCanShow, ULONG64 *aWinId) { AssertReturn (aCanShow, E_POINTER); AssertReturn (aWinId, E_POINTER); *aCanShow = FALSE; *aWinId = 0; AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoReadLock alock (this); HRESULT rc = S_OK; CallbackList::iterator it = mCallbacks.begin(); if (aCheck) { while (it != mCallbacks.end()) { BOOL canShow = FALSE; rc = (*it++)->OnCanShowWindow (&canShow); AssertComRC (rc); if (FAILED (rc) || !canShow) return rc; } *aCanShow = TRUE; } else { while (it != mCallbacks.end()) { ULONG64 winId = 0; rc = (*it++)->OnShowWindow (&winId); AssertComRC (rc); if (FAILED (rc)) return rc; /* only one callback may return non-null winId */ Assert (*aWinId == 0 || winId == 0); if (*aWinId == 0) *aWinId = winId; } } return S_OK; } // private methods //////////////////////////////////////////////////////////////////////////////// /** * Increases the usage counter of the mpVM pointer. Guarantees that * VMR3Destroy() will not be called on it at least until releaseVMCaller() * is called. * * If this method returns a failure, the caller is not allowed to use mpVM * and may return the failed result code to the upper level. This method sets * the extended error info on failure if \a aQuiet is false. * * Setting \a aQuiet to true is useful for methods that don't want to return * the failed result code to the caller when this method fails (e.g. need to * silently check for the mpVM avaliability). * * When mpVM is NULL but \a aAllowNullVM is true, a corresponding error will be * returned instead of asserting. Having it false is intended as a sanity check * for methods that have checked mMachineState and expect mpVM *NOT* to be NULL. * * @param aQuiet true to suppress setting error info * @param aAllowNullVM true to accept mpVM being NULL and return a failure * (otherwise this method will assert if mpVM is NULL) * * @note Locks this object for writing. */ HRESULT Console::addVMCaller (bool aQuiet /* = false */, bool aAllowNullVM /* = false */) { AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); if (mVMDestroying) { /* powerDown() is waiting for all callers to finish */ return aQuiet ? E_ACCESSDENIED : setError (E_ACCESSDENIED, tr ("Virtual machine is being powered down")); } if (mpVM == NULL) { Assert (aAllowNullVM == true); /* The machine is not powered up */ return aQuiet ? E_ACCESSDENIED : setError (E_ACCESSDENIED, tr ("Virtual machine is not powered up")); } ++ mVMCallers; return S_OK; } /** * Decreases the usage counter of the mpVM pointer. Must always complete * the addVMCaller() call after the mpVM pointer is no more necessary. * * @note Locks this object for writing. */ void Console::releaseVMCaller() { AutoCaller autoCaller (this); AssertComRCReturnVoid (autoCaller.rc()); AutoWriteLock alock (this); AssertReturnVoid (mpVM != NULL); Assert (mVMCallers > 0); -- mVMCallers; if (mVMCallers == 0 && mVMDestroying) { /* inform powerDown() there are no more callers */ RTSemEventSignal (mVMZeroCallersSem); } } /** * Initialize the release logging facility. In case something * goes wrong, there will be no release logging. Maybe in the future * we can add some logic to use different file names in this case. * Note that the logic must be in sync with Machine::DeleteSettings(). */ HRESULT Console::consoleInitReleaseLog (const ComPtr aMachine) { HRESULT hrc = S_OK; Bstr logFolder; hrc = aMachine->COMGETTER(LogFolder) (logFolder.asOutParam()); CheckComRCReturnRC (hrc); Utf8Str logDir = logFolder; /* make sure the Logs folder exists */ Assert (!logDir.isEmpty()); if (!RTDirExists (logDir)) RTDirCreateFullPath (logDir, 0777); Utf8Str logFile = Utf8StrFmt ("%s%cVBox.log", logDir.raw(), RTPATH_DELIMITER); Utf8Str pngFile = Utf8StrFmt ("%s%cVBox.png", logDir.raw(), RTPATH_DELIMITER); /* * Age the old log files * Rename .(n-1) to .(n), .(n-2) to .(n-1), ..., and the last log file to .1 * Overwrite target files in case they exist. */ ComPtr virtualBox; aMachine->COMGETTER(Parent)(virtualBox.asOutParam()); ComPtr systemProperties; virtualBox->COMGETTER(SystemProperties)(systemProperties.asOutParam()); ULONG uLogHistoryCount = 3; systemProperties->COMGETTER(LogHistoryCount)(&uLogHistoryCount); if (uLogHistoryCount) { for (int i = uLogHistoryCount-1; i >= 0; i--) { Utf8Str *files[] = { &logFile, &pngFile }; Utf8Str oldName, newName; for (unsigned int j = 0; j < ELEMENTS (files); ++ j) { if (i > 0) oldName = Utf8StrFmt ("%s.%d", files [j]->raw(), i); else oldName = *files [j]; newName = Utf8StrFmt ("%s.%d", files [j]->raw(), i + 1); /* If the old file doesn't exist, delete the new file (if it * exists) to provide correct rotation even if the sequence is * broken */ if ( RTFileRename (oldName, newName, RTFILEMOVE_FLAGS_REPLACE) == VERR_FILE_NOT_FOUND) RTFileDelete (newName); } } } PRTLOGGER loggerRelease; static const char * const s_apszGroups[] = VBOX_LOGGROUP_NAMES; RTUINT fFlags = RTLOGFLAGS_PREFIX_TIME_PROG; #if defined (RT_OS_WINDOWS) || defined (RT_OS_OS2) fFlags |= RTLOGFLAGS_USECRLF; #endif char szError[RTPATH_MAX + 128] = ""; int vrc = RTLogCreateEx(&loggerRelease, fFlags, "all", "VBOX_RELEASE_LOG", RT_ELEMENTS(s_apszGroups), s_apszGroups, RTLOGDEST_FILE, szError, sizeof(szError), logFile.raw()); if (RT_SUCCESS(vrc)) { /* some introductory information */ RTTIMESPEC timeSpec; char szTmp[256]; RTTimeSpecToString(RTTimeNow(&timeSpec), szTmp, sizeof(szTmp)); RTLogRelLogger(loggerRelease, 0, ~0U, "VirtualBox %s r%d %s (%s %s) release log\n" "Log opened %s\n", VBOX_VERSION_STRING, VBoxSVNRev (), VBOX_BUILD_TARGET, __DATE__, __TIME__, szTmp); vrc = RTSystemQueryOSInfo(RTSYSOSINFO_PRODUCT, szTmp, sizeof(szTmp)); if (RT_SUCCESS(vrc) || vrc == VERR_BUFFER_OVERFLOW) RTLogRelLogger(loggerRelease, 0, ~0U, "OS Product: %s\n", szTmp); vrc = RTSystemQueryOSInfo(RTSYSOSINFO_RELEASE, szTmp, sizeof(szTmp)); if (RT_SUCCESS(vrc) || vrc == VERR_BUFFER_OVERFLOW) RTLogRelLogger(loggerRelease, 0, ~0U, "OS Release: %s\n", szTmp); vrc = RTSystemQueryOSInfo(RTSYSOSINFO_VERSION, szTmp, sizeof(szTmp)); if (RT_SUCCESS(vrc) || vrc == VERR_BUFFER_OVERFLOW) RTLogRelLogger(loggerRelease, 0, ~0U, "OS Version: %s\n", szTmp); vrc = RTSystemQueryOSInfo(RTSYSOSINFO_SERVICE_PACK, szTmp, sizeof(szTmp)); if (RT_SUCCESS(vrc) || vrc == VERR_BUFFER_OVERFLOW) RTLogRelLogger(loggerRelease, 0, ~0U, "OS Service Pack: %s\n", szTmp); /* the package type is interesting for Linux distributions */ RTLogRelLogger (loggerRelease, 0, ~0U, "Package type: %s" #ifdef VBOX_OSE " (OSE)" #endif "\n", VBOX_PACKAGE_STRING); /* register this logger as the release logger */ RTLogRelSetDefaultInstance(loggerRelease); hrc = S_OK; } else hrc = setError (E_FAIL, tr ("Failed to open release log (%s, %Rrc)"), szError, vrc); return hrc; } /** * Internal power off worker routine. * * This method may be called only at certain places with the folliwing meaning * as shown below: * * - if the machine state is either Running or Paused, a normal * Console-initiated powerdown takes place (e.g. PowerDown()); * - if the machine state is Saving, saveStateThread() has successfully * done its job; * - if the machine state is Starting or Restoring, powerUpThread() has * failed to start/load the VM; * - if the machine state is Stopping, the VM has powered itself off * (i.e. not as a result of the powerDown() call). * * Calling it in situations other than the above will cause unexpected * behavior. * * Note that this method should be the only one that destroys mpVM and sets * it to NULL. * * @note Locks this object for writing. * * @note Never call this method from a thread that called addVMCaller() or * instantiated an AutoVMCaller object; first call releaseVMCaller() or * release(). Otherwise it will deadlock. */ HRESULT Console::powerDown() { LogFlowThisFuncEnter(); AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); int vrc = VINF_SUCCESS; /* sanity */ AssertReturn (mVMDestroying == false, E_FAIL); LogRel (("Console::powerDown(): a request to power off the VM has been issued " "(mMachineState=%d, InUninit=%d)\n", mMachineState, autoCaller.state() == InUninit)); /* * Stop the VRDP server to prevent new clients connection while VM is being powered off. */ if (mConsoleVRDPServer) { LogFlowThisFunc (("Stopping VRDP server...\n")); /* Leave the lock since EMT will call us back as addVMCaller in updateDisplayData(). */ alock.leave(); mConsoleVRDPServer->Stop(); alock.enter(); } #ifdef VBOX_WITH_HGCM /* * Shutdown HGCM services before stopping the guest, because they might need a cleanup. */ if (mVMMDev) { LogFlowThisFunc (("Shutdown HGCM...\n")); /* Leave the lock. */ alock.leave(); mVMMDev->hgcmShutdown (); alock.enter(); } # ifdef VBOX_WITH_GUEST_PROPS /* Save all guest property store entries to the machine XML file */ PCFGMNODE pValues = CFGMR3GetChild (CFGMR3GetRoot (mpVM), "GuestProps/Values/"); PCFGMNODE pTimestamps = CFGMR3GetChild (CFGMR3GetRoot (mpVM), "GuestProps/Timestamps/"); PCFGMNODE pFlags = CFGMR3GetChild (CFGMR3GetRoot (mpVM), "GuestProps/Flags/"); /* Count the number of entries we have */ unsigned cValues = 0; for (PCFGMLEAF pValue = CFGMR3GetFirstValue (pValues); pValue != NULL; pValue = CFGMR3GetNextValue (pValue)) ++cValues; /* And pack them into safe arrays */ com::SafeArray names(cValues); com::SafeArray values(cValues); com::SafeArray timestamps(cValues); com::SafeArray flags(cValues); PCFGMLEAF pValue = CFGMR3GetFirstValue (pValues); vrc = VINF_SUCCESS; unsigned iProp = 0; while (pValue != NULL && RT_SUCCESS(vrc)) { using namespace guestProp; char szPropName[MAX_NAME_LEN + 1]; char szPropValue[MAX_VALUE_LEN + 1]; char szPropFlags[MAX_FLAGS_LEN + 1]; ULONG64 u64Timestamp = 0; /* default */ szPropFlags[0] = '\0'; /* default */ vrc = CFGMR3GetValueName (pValue, szPropName, sizeof(szPropName)); if (RT_SUCCESS(vrc)) vrc = CFGMR3QueryString (pValues, szPropName, szPropValue, sizeof(szPropValue)); if (RT_SUCCESS(vrc)) { CFGMR3QueryString (pFlags, szPropName, szPropFlags, sizeof(szPropFlags)); CFGMR3QueryU64 (pTimestamps, szPropName, &u64Timestamp); Bstr(szPropName).cloneTo(&names[iProp]); Bstr(szPropValue).cloneTo(&values[iProp]); timestamps[iProp] = u64Timestamp; Bstr(szPropFlags).cloneTo(&flags[iProp]); pValue = CFGMR3GetNextValue (pValue); ++iProp; if (iProp >= cValues) vrc = VERR_TOO_MUCH_DATA; } } if (RT_SUCCESS(vrc) || (VERR_TOO_MUCH_DATA == vrc)) { /* PushGuestProperties() calls DiscardSettings(), which calls us back */ alock.leave(); mControl->PushGuestProperties(ComSafeArrayAsInParam (names), ComSafeArrayAsInParam (values), ComSafeArrayAsInParam (timestamps), ComSafeArrayAsInParam (flags)); alock.enter(); } # endif /* VBOX_WITH_GUEST_PROPS defined */ #endif /* VBOX_WITH_HGCM */ /* First, wait for all mpVM callers to finish their work if necessary */ if (mVMCallers > 0) { /* go to the destroying state to prevent from adding new callers */ mVMDestroying = true; /* lazy creation */ if (mVMZeroCallersSem == NIL_RTSEMEVENT) RTSemEventCreate (&mVMZeroCallersSem); LogFlowThisFunc (("Waiting for mpVM callers (%d) to drop to zero...\n", mVMCallers)); alock.leave(); RTSemEventWait (mVMZeroCallersSem, RT_INDEFINITE_WAIT); alock.enter(); } AssertReturn (mpVM, E_FAIL); AssertMsg (mMachineState == MachineState_Running || mMachineState == MachineState_Paused || mMachineState == MachineState_Stuck || mMachineState == MachineState_Saving || mMachineState == MachineState_Starting || mMachineState == MachineState_Restoring || mMachineState == MachineState_Stopping, ("Invalid machine state: %d\n", mMachineState)); HRESULT rc = S_OK; vrc = VINF_SUCCESS; /* * Power off the VM if not already done that. In case of Stopping, the VM * has powered itself off and notified Console in vmstateChangeCallback(). * In case of Starting or Restoring, powerUpThread() is calling us on * failure, so the VM is already off at that point. */ if (mMachineState != MachineState_Stopping && mMachineState != MachineState_Starting && mMachineState != MachineState_Restoring) { /* * don't go from Saving to Stopping, vmstateChangeCallback needs it * to set the state to Saved on VMSTATE_TERMINATED. */ if (mMachineState != MachineState_Saving) setMachineState (MachineState_Stopping); LogFlowThisFunc (("Powering off the VM...\n")); /* Leave the lock since EMT will call us back on VMR3PowerOff() */ alock.leave(); vrc = VMR3PowerOff (mpVM); /* * Note that VMR3PowerOff() may fail here (invalid VMSTATE) if the * VM-(guest-)initiated power off happened in parallel a ms before * this call. So far, we let this error pop up on the user's side. */ alock.enter(); } LogFlowThisFunc (("Ready for VM destruction\n")); /* * If we are called from Console::uninit(), then try to destroy the VM * even on failure (this will most likely fail too, but what to do?..) */ if (VBOX_SUCCESS (vrc) || autoCaller.state() == InUninit) { /* If the machine has an USB comtroller, release all USB devices * (symmetric to the code in captureUSBDevices()) */ bool fHasUSBController = false; { PPDMIBASE pBase; int vrc = PDMR3QueryLun (mpVM, "usb-ohci", 0, 0, &pBase); if (VBOX_SUCCESS (vrc)) { fHasUSBController = true; detachAllUSBDevices (false /* aDone */); } } /* * Now we've got to destroy the VM as well. (mpVM is not valid * beyond this point). We leave the lock before calling VMR3Destroy() * because it will result into calling destructors of drivers * associated with Console children which may in turn try to lock * Console (e.g. by instantiating SafeVMPtr to access mpVM). It's safe * here because mVMDestroying is set which should prevent any activity. */ /* * Set mpVM to NULL early just in case if some old code is not using * addVMCaller()/releaseVMCaller(). */ PVM pVM = mpVM; mpVM = NULL; LogFlowThisFunc (("Destroying the VM...\n")); alock.leave(); vrc = VMR3Destroy (pVM); /* take the lock again */ alock.enter(); if (VBOX_SUCCESS (vrc)) { LogFlowThisFunc (("Machine has been destroyed (mMachineState=%d)\n", mMachineState)); /* * Note: the Console-level machine state change happens on the * VMSTATE_TERMINATE state change in vmstateChangeCallback(). If * powerDown() is called from EMT (i.e. from vmstateChangeCallback() * on receiving VM-initiated VMSTATE_OFF), VMSTATE_TERMINATE hasn't * occured yet. This is okay, because mMachineState is already * Stopping in this case, so any other attempt to call PowerDown() * will be rejected. */ } else { /* bad bad bad, but what to do? */ mpVM = pVM; rc = setError (E_FAIL, tr ("Could not destroy the machine. (Error: %Vrc)"), vrc); } /* * Complete the detaching of the USB devices. */ if (fHasUSBController) detachAllUSBDevices (true /* aDone */); } else { rc = setError (E_FAIL, tr ("Could not power off the machine. (Error: %Vrc)"), vrc); } /* * Finished with destruction. Note that if something impossible happened * and we've failed to destroy the VM, mVMDestroying will remain false and * mMachineState will be something like Stopping, so most Console methods * will return an error to the caller. */ if (mpVM == NULL) mVMDestroying = false; if (SUCCEEDED (rc)) { /* uninit dynamically allocated members of mCallbackData */ if (mCallbackData.mpsc.valid) { if (mCallbackData.mpsc.shape != NULL) RTMemFree (mCallbackData.mpsc.shape); } memset (&mCallbackData, 0, sizeof (mCallbackData)); } LogFlowThisFuncLeave(); return rc; } /** * @note Locks this object for writing. */ HRESULT Console::setMachineState (MachineState_T aMachineState, bool aUpdateServer /* = true */) { AutoCaller autoCaller (this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock (this); HRESULT rc = S_OK; if (mMachineState != aMachineState) { LogFlowThisFunc (("machineState=%d\n", aMachineState)); mMachineState = aMachineState; /// @todo (dmik) // possibly, we need to redo onStateChange() using the dedicated // Event thread, like it is done in VirtualBox. This will make it // much safer (no deadlocks possible if someone tries to use the // console from the callback), however, listeners will lose the // ability to synchronously react to state changes (is it really // necessary??) LogFlowThisFunc (("Doing onStateChange()...\n")); onStateChange (aMachineState); LogFlowThisFunc (("Done onStateChange()\n")); if (aUpdateServer) { /* * Server notification MUST be done from under the lock; otherwise * the machine state here and on the server might go out of sync, that * can lead to various unexpected results (like the machine state being * >= MachineState_Running on the server, while the session state is * already SessionState_Closed at the same time there). * * Cross-lock conditions should be carefully watched out: calling * UpdateState we will require Machine and SessionMachine locks * (remember that here we're holding the Console lock here, and * also all locks that have been entered by the thread before calling * this method). */ LogFlowThisFunc (("Doing mControl->UpdateState()...\n")); rc = mControl->UpdateState (aMachineState); LogFlowThisFunc (("mControl->UpdateState()=%08X\n", rc)); } } return rc; } /** * Searches for a shared folder with the given logical name * in the collection of shared folders. * * @param aName logical name of the shared folder * @param aSharedFolder where to return the found object * @param aSetError whether to set the error info if the folder is * not found * @return * S_OK when found or E_INVALIDARG when not found * * @note The caller must lock this object for writing. */ HRESULT Console::findSharedFolder (const BSTR aName, ComObjPtr &aSharedFolder, bool aSetError /* = false */) { /* sanity check */ AssertReturn (isWriteLockOnCurrentThread(), E_FAIL); SharedFolderMap::const_iterator it = mSharedFolders.find (aName); if (it != mSharedFolders.end()) { aSharedFolder = it->second; return S_OK; } if (aSetError) setError (E_INVALIDARG, tr ("Could not find a shared folder named '%ls'."), aName); return E_INVALIDARG; } /** * Fetches the list of global or machine shared folders from the server. * * @param aGlobal true to fetch global folders. * * @note The caller must lock this object for writing. */ HRESULT Console::fetchSharedFolders (BOOL aGlobal) { /* sanity check */ AssertReturn (AutoCaller (this).state() == InInit || isWriteLockOnCurrentThread(), E_FAIL); /* protect mpVM (if not NULL) */ AutoVMCallerQuietWeak autoVMCaller (this); HRESULT rc = S_OK; bool online = mpVM && autoVMCaller.isOk() && mVMMDev->isShFlActive(); if (aGlobal) { /// @todo grab & process global folders when they are done } else { SharedFolderDataMap oldFolders; if (online) oldFolders = mMachineSharedFolders; mMachineSharedFolders.clear(); ComPtr coll; rc = mMachine->COMGETTER(SharedFolders) (coll.asOutParam()); AssertComRCReturnRC (rc); ComPtr en; rc = coll->Enumerate (en.asOutParam()); AssertComRCReturnRC (rc); BOOL hasMore = FALSE; while (SUCCEEDED (rc = en->HasMore (&hasMore)) && hasMore) { ComPtr folder; rc = en->GetNext (folder.asOutParam()); CheckComRCBreakRC (rc); Bstr name; Bstr hostPath; BOOL writable; rc = folder->COMGETTER(Name) (name.asOutParam()); CheckComRCBreakRC (rc); rc = folder->COMGETTER(HostPath) (hostPath.asOutParam()); CheckComRCBreakRC (rc); rc = folder->COMGETTER(Writable) (&writable); mMachineSharedFolders.insert (std::make_pair (name, SharedFolderData (hostPath, writable))); /* send changes to HGCM if the VM is running */ /// @todo report errors as runtime warnings through VMSetError if (online) { SharedFolderDataMap::iterator it = oldFolders.find (name); if (it == oldFolders.end() || it->second.mHostPath != hostPath) { /* a new machine folder is added or * the existing machine folder is changed */ if (mSharedFolders.find (name) != mSharedFolders.end()) ; /* the console folder exists, nothing to do */ else { /* remove the old machhine folder (when changed) * or the global folder if any (when new) */ if (it != oldFolders.end() || mGlobalSharedFolders.find (name) != mGlobalSharedFolders.end()) rc = removeSharedFolder (name); /* create the new machine folder */ rc = createSharedFolder (name, SharedFolderData (hostPath, writable)); } } /* forget the processed (or identical) folder */ if (it != oldFolders.end()) oldFolders.erase (it); rc = S_OK; } } AssertComRCReturnRC (rc); /* process outdated (removed) folders */ /// @todo report errors as runtime warnings through VMSetError if (online) { for (SharedFolderDataMap::const_iterator it = oldFolders.begin(); it != oldFolders.end(); ++ it) { if (mSharedFolders.find (it->first) != mSharedFolders.end()) ; /* the console folder exists, nothing to do */ else { /* remove the outdated machine folder */ rc = removeSharedFolder (it->first); /* create the global folder if there is any */ SharedFolderDataMap::const_iterator git = mGlobalSharedFolders.find (it->first); if (git != mGlobalSharedFolders.end()) rc = createSharedFolder (git->first, git->second); } } rc = S_OK; } } return rc; } /** * Searches for a shared folder with the given name in the list of machine * shared folders and then in the list of the global shared folders. * * @param aName Name of the folder to search for. * @param aIt Where to store the pointer to the found folder. * @return @c true if the folder was found and @c false otherwise. * * @note The caller must lock this object for reading. */ bool Console::findOtherSharedFolder (INPTR BSTR aName, SharedFolderDataMap::const_iterator &aIt) { /* sanity check */ AssertReturn (isWriteLockOnCurrentThread(), false); /* first, search machine folders */ aIt = mMachineSharedFolders.find (aName); if (aIt != mMachineSharedFolders.end()) return true; /* second, search machine folders */ aIt = mGlobalSharedFolders.find (aName); if (aIt != mGlobalSharedFolders.end()) return true; return false; } /** * Calls the HGCM service to add a shared folder definition. * * @param aName Shared folder name. * @param aHostPath Shared folder path. * * @note Must be called from under AutoVMCaller and when mpVM != NULL! * @note Doesn't lock anything. */ HRESULT Console::createSharedFolder (INPTR BSTR aName, SharedFolderData aData) { ComAssertRet (aName && *aName, E_FAIL); ComAssertRet (aData.mHostPath, E_FAIL); /* sanity checks */ AssertReturn (mpVM, E_FAIL); AssertReturn (mVMMDev->isShFlActive(), E_FAIL); VBOXHGCMSVCPARM parms[SHFL_CPARMS_ADD_MAPPING]; SHFLSTRING *pFolderName, *pMapName; size_t cbString; Log (("Adding shared folder '%ls' -> '%ls'\n", aName, aData.mHostPath.raw())); cbString = (RTUtf16Len (aData.mHostPath) + 1) * sizeof (RTUTF16); if (cbString >= UINT16_MAX) return setError (E_INVALIDARG, tr ("The name is too long")); pFolderName = (SHFLSTRING *) RTMemAllocZ (sizeof (SHFLSTRING) + cbString); Assert (pFolderName); memcpy (pFolderName->String.ucs2, aData.mHostPath, cbString); pFolderName->u16Size = (uint16_t)cbString; pFolderName->u16Length = (uint16_t)cbString - sizeof(RTUTF16); parms[0].type = VBOX_HGCM_SVC_PARM_PTR; parms[0].u.pointer.addr = pFolderName; parms[0].u.pointer.size = sizeof (SHFLSTRING) + (uint16_t)cbString; cbString = (RTUtf16Len (aName) + 1) * sizeof (RTUTF16); if (cbString >= UINT16_MAX) { RTMemFree (pFolderName); return setError (E_INVALIDARG, tr ("The host path is too long")); } pMapName = (SHFLSTRING *) RTMemAllocZ (sizeof(SHFLSTRING) + cbString); Assert (pMapName); memcpy (pMapName->String.ucs2, aName, cbString); pMapName->u16Size = (uint16_t)cbString; pMapName->u16Length = (uint16_t)cbString - sizeof (RTUTF16); parms[1].type = VBOX_HGCM_SVC_PARM_PTR; parms[1].u.pointer.addr = pMapName; parms[1].u.pointer.size = sizeof (SHFLSTRING) + (uint16_t)cbString; parms[2].type = VBOX_HGCM_SVC_PARM_32BIT; parms[2].u.uint32 = aData.mWritable; int vrc = mVMMDev->hgcmHostCall ("VBoxSharedFolders", SHFL_FN_ADD_MAPPING, SHFL_CPARMS_ADD_MAPPING, &parms[0]); RTMemFree (pFolderName); RTMemFree (pMapName); if (VBOX_FAILURE (vrc)) return setError (E_FAIL, tr ("Could not create a shared folder '%ls' " "mapped to '%ls' (%Vrc)"), aName, aData.mHostPath.raw(), vrc); return S_OK; } /** * Calls the HGCM service to remove the shared folder definition. * * @param aName Shared folder name. * * @note Must be called from under AutoVMCaller and when mpVM != NULL! * @note Doesn't lock anything. */ HRESULT Console::removeSharedFolder (INPTR BSTR aName) { ComAssertRet (aName && *aName, E_FAIL); /* sanity checks */ AssertReturn (mpVM, E_FAIL); AssertReturn (mVMMDev->isShFlActive(), E_FAIL); VBOXHGCMSVCPARM parms; SHFLSTRING *pMapName; size_t cbString; Log (("Removing shared folder '%ls'\n", aName)); cbString = (RTUtf16Len (aName) + 1) * sizeof (RTUTF16); if (cbString >= UINT16_MAX) return setError (E_INVALIDARG, tr ("The name is too long")); pMapName = (SHFLSTRING *) RTMemAllocZ (sizeof (SHFLSTRING) + cbString); Assert (pMapName); memcpy (pMapName->String.ucs2, aName, cbString); pMapName->u16Size = (uint16_t)cbString; pMapName->u16Length = (uint16_t)cbString - sizeof (RTUTF16); parms.type = VBOX_HGCM_SVC_PARM_PTR; parms.u.pointer.addr = pMapName; parms.u.pointer.size = sizeof (SHFLSTRING) + (uint16_t)cbString; int vrc = mVMMDev->hgcmHostCall ("VBoxSharedFolders", SHFL_FN_REMOVE_MAPPING, 1, &parms); RTMemFree(pMapName); if (VBOX_FAILURE (vrc)) return setError (E_FAIL, tr ("Could not remove the shared folder '%ls' (%Vrc)"), aName, vrc); return S_OK; } /** * VM state callback function. Called by the VMM * using its state machine states. * * Primarily used to handle VM initiated power off, suspend and state saving, * but also for doing termination completed work (VMSTATE_TERMINATE). * * In general this function is called in the context of the EMT. * * @param aVM The VM handle. * @param aState The new state. * @param aOldState The old state. * @param aUser The user argument (pointer to the Console object). * * @note Locks the Console object for writing. */ DECLCALLBACK(void) Console::vmstateChangeCallback (PVM aVM, VMSTATE aState, VMSTATE aOldState, void *aUser) { LogFlowFunc (("Changing state from %d to %d (aVM=%p)\n", aOldState, aState, aVM)); Console *that = static_cast (aUser); AssertReturnVoid (that); AutoCaller autoCaller (that); /* * Note that we must let this method proceed even if Console::uninit() has * been already called. In such case this VMSTATE change is a result of: * 1) powerDown() called from uninit() itself, or * 2) VM-(guest-)initiated power off. */ AssertReturnVoid (autoCaller.isOk() || autoCaller.state() == InUninit); switch (aState) { /* * The VM has terminated */ case VMSTATE_OFF: { AutoWriteLock alock (that); if (that->mVMStateChangeCallbackDisabled) break; /* * Do we still think that it is running? It may happen if this is * a VM-(guest-)initiated shutdown/poweroff. */ if (that->mMachineState != MachineState_Stopping && that->mMachineState != MachineState_Saving && that->mMachineState != MachineState_Restoring) { LogFlowFunc (("VM has powered itself off but Console still " "thinks it is running. Notifying.\n")); /* prevent powerDown() from calling VMR3PowerOff() again */ that->setMachineState (MachineState_Stopping); /* * Setup task object and thread to carry out the operation * asynchronously (if we call powerDown() right here but there * is one or more mpVM callers (added with addVMCaller()) we'll * deadlock. */ std::auto_ptr task (new VMTask (that, true /* aUsesVMPtr */)); /* * If creating a task is falied, this can currently mean one * of two: either Console::uninit() has been called just a ms * before (so a powerDown() call is already on the way), or * powerDown() itself is being already executed. Just do * nothing . */ if (!task->isOk()) { LogFlowFunc (("Console is already being uninitialized.\n")); break; } int vrc = RTThreadCreate (NULL, Console::powerDownThread, (void *) task.get(), 0, RTTHREADTYPE_MAIN_WORKER, 0, "VMPowerDowm"); AssertMsgRC (vrc, ("Could not create VMPowerUp thread (%Vrc)\n", vrc)); if (VBOX_FAILURE (vrc)) break; /* task is now owned by powerDownThread(), so release it */ task.release(); } break; } /* * The VM has been completely destroyed. * * Note: This state change can happen at two points: * 1) At the end of VMR3Destroy() if it was not called from EMT. * 2) At the end of vmR3EmulationThread if VMR3Destroy() was * called by EMT. */ case VMSTATE_TERMINATED: { AutoWriteLock alock (that); if (that->mVMStateChangeCallbackDisabled) break; /* * Terminate host interface networking. If aVM is NULL, we've been * manually called from powerUpThread() either before calling * VMR3Create() or after VMR3Create() failed, so no need to touch * networking. */ if (aVM) that->powerDownHostInterfaces(); /* * From now on the machine is officially powered down or * remains in the Saved state. */ switch (that->mMachineState) { default: AssertFailed(); /* fall through */ case MachineState_Stopping: /* successfully powered down */ that->setMachineState (MachineState_PoweredOff); break; case MachineState_Saving: /* * successfully saved (note that the machine is already * in the Saved state on the server due to EndSavingState() * called from saveStateThread(), so only change the local * state) */ that->setMachineStateLocally (MachineState_Saved); break; case MachineState_Starting: /* * failed to start, but be patient: set back to PoweredOff * (for similarity with the below) */ that->setMachineState (MachineState_PoweredOff); break; case MachineState_Restoring: /* * failed to load the saved state file, but be patient: * set back to Saved (to preserve the saved state file) */ that->setMachineState (MachineState_Saved); break; } break; } case VMSTATE_SUSPENDED: { if (aOldState == VMSTATE_RUNNING) { AutoWriteLock alock (that); if (that->mVMStateChangeCallbackDisabled) break; /* Change the machine state from Running to Paused */ Assert (that->mMachineState == MachineState_Running); that->setMachineState (MachineState_Paused); } break; } case VMSTATE_RUNNING: { if (aOldState == VMSTATE_CREATED || aOldState == VMSTATE_SUSPENDED) { AutoWriteLock alock (that); if (that->mVMStateChangeCallbackDisabled) break; /* * Change the machine state from Starting, Restoring or Paused * to Running */ Assert ( ( ( that->mMachineState == MachineState_Starting || that->mMachineState == MachineState_Paused) && aOldState == VMSTATE_CREATED) || ( ( that->mMachineState == MachineState_Restoring || that->mMachineState == MachineState_Paused) && aOldState == VMSTATE_SUSPENDED)); that->setMachineState (MachineState_Running); } break; } case VMSTATE_GURU_MEDITATION: { AutoWriteLock alock (that); if (that->mVMStateChangeCallbackDisabled) break; /* Guru respects only running VMs */ Assert ((that->mMachineState >= MachineState_Running)); that->setMachineState (MachineState_Stuck); break; } default: /* shut up gcc */ break; } } #ifdef VBOX_WITH_USB /** * Sends a request to VMM to attach the given host device. * After this method succeeds, the attached device will appear in the * mUSBDevices collection. * * @param aHostDevice device to attach * * @note Synchronously calls EMT. * @note Must be called from under this object's lock. */ HRESULT Console::attachUSBDevice (IUSBDevice *aHostDevice, ULONG aMaskedIfs) { AssertReturn (aHostDevice, E_FAIL); AssertReturn (isWriteLockOnCurrentThread(), E_FAIL); /* still want a lock object because we need to leave it */ AutoWriteLock alock (this); HRESULT hrc; /* * Get the address and the Uuid, and call the pfnCreateProxyDevice roothub * method in EMT (using usbAttachCallback()). */ Bstr BstrAddress; hrc = aHostDevice->COMGETTER (Address) (BstrAddress.asOutParam()); ComAssertComRCRetRC (hrc); Utf8Str Address (BstrAddress); Guid Uuid; hrc = aHostDevice->COMGETTER (Id) (Uuid.asOutParam()); ComAssertComRCRetRC (hrc); BOOL fRemote = FALSE; hrc = aHostDevice->COMGETTER (Remote) (&fRemote); ComAssertComRCRetRC (hrc); /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); LogFlowThisFunc (("Proxying USB device '%s' {%Vuuid}...\n", Address.raw(), Uuid.ptr())); /* leave the lock before a VMR3* call (EMT will call us back)! */ alock.leave(); /** @todo just do everything here and only wrap the PDMR3Usb call. That'll offload some notification stuff from the EMT thread. */ PVMREQ pReq = NULL; int vrc = VMR3ReqCall (mpVM, &pReq, RT_INDEFINITE_WAIT, (PFNRT) usbAttachCallback, 6, this, aHostDevice, Uuid.ptr(), fRemote, Address.raw(), aMaskedIfs); if (VBOX_SUCCESS (vrc)) vrc = pReq->iStatus; VMR3ReqFree (pReq); /* restore the lock */ alock.enter(); /* hrc is S_OK here */ if (VBOX_FAILURE (vrc)) { LogWarningThisFunc (("Failed to create proxy device for '%s' {%Vuuid} (%Vrc)\n", Address.raw(), Uuid.ptr(), vrc)); switch (vrc) { case VERR_VUSB_NO_PORTS: hrc = setError (E_FAIL, tr ("Failed to attach the USB device. (No available ports on the USB controller).")); break; case VERR_VUSB_USBFS_PERMISSION: hrc = setError (E_FAIL, tr ("Not permitted to open the USB device, check usbfs options")); break; default: hrc = setError (E_FAIL, tr ("Failed to create a proxy device for the USB device. (Error: %Vrc)"), vrc); break; } } return hrc; } /** * USB device attach callback used by AttachUSBDevice(). * Note that AttachUSBDevice() doesn't return until this callback is executed, * so we don't use AutoCaller and don't care about reference counters of * interface pointers passed in. * * @thread EMT * @note Locks the console object for writing. */ //static DECLCALLBACK(int) Console::usbAttachCallback (Console *that, IUSBDevice *aHostDevice, PCRTUUID aUuid, bool aRemote, const char *aAddress, ULONG aMaskedIfs) { LogFlowFuncEnter(); LogFlowFunc (("that={%p}\n", that)); AssertReturn (that && aUuid, VERR_INVALID_PARAMETER); void *pvRemoteBackend = NULL; if (aRemote) { RemoteUSBDevice *pRemoteUSBDevice = static_cast (aHostDevice); Guid guid (*aUuid); pvRemoteBackend = that->consoleVRDPServer ()->USBBackendRequestPointer (pRemoteUSBDevice->clientId (), &guid); if (!pvRemoteBackend) return VERR_INVALID_PARAMETER; /* The clientId is invalid then. */ } USHORT portVersion = 1; HRESULT hrc = aHostDevice->COMGETTER(PortVersion)(&portVersion); AssertComRCReturn(hrc, VERR_GENERAL_FAILURE); Assert(portVersion == 1 || portVersion == 2); int vrc = PDMR3USBCreateProxyDevice (that->mpVM, aUuid, aRemote, aAddress, pvRemoteBackend, portVersion == 1 ? VUSB_STDVER_11 : VUSB_STDVER_20, aMaskedIfs); if (VBOX_SUCCESS (vrc)) { /* Create a OUSBDevice and add it to the device list */ ComObjPtr device; device.createObject(); HRESULT hrc = device->init (aHostDevice); AssertComRC (hrc); AutoWriteLock alock (that); that->mUSBDevices.push_back (device); LogFlowFunc (("Attached device {%Vuuid}\n", device->id().raw())); /* notify callbacks */ that->onUSBDeviceStateChange (device, true /* aAttached */, NULL); } LogFlowFunc (("vrc=%Vrc\n", vrc)); LogFlowFuncLeave(); return vrc; } /** * Sends a request to VMM to detach the given host device. After this method * succeeds, the detached device will disappear from the mUSBDevices * collection. * * @param aIt Iterator pointing to the device to detach. * * @note Synchronously calls EMT. * @note Must be called from under this object's lock. */ HRESULT Console::detachUSBDevice (USBDeviceList::iterator &aIt) { AssertReturn (isWriteLockOnCurrentThread(), E_FAIL); /* still want a lock object because we need to leave it */ AutoWriteLock alock (this); /* protect mpVM */ AutoVMCaller autoVMCaller (this); CheckComRCReturnRC (autoVMCaller.rc()); /* if the device is attached, then there must at least one USB hub. */ AssertReturn (PDMR3USBHasHub (mpVM), E_FAIL); LogFlowThisFunc (("Detaching USB proxy device {%Vuuid}...\n", (*aIt)->id().raw())); /* leave the lock before a VMR3* call (EMT will call us back)! */ alock.leave(); PVMREQ pReq; /** @todo just do everything here and only wrap the PDMR3Usb call. That'll offload some notification stuff from the EMT thread. */ int vrc = VMR3ReqCall (mpVM, &pReq, RT_INDEFINITE_WAIT, (PFNRT) usbDetachCallback, 4, this, &aIt, (*aIt)->id().raw()); if (VBOX_SUCCESS (vrc)) vrc = pReq->iStatus; VMR3ReqFree (pReq); ComAssertRCRet (vrc, E_FAIL); return S_OK; } /** * USB device detach callback used by DetachUSBDevice(). * Note that DetachUSBDevice() doesn't return until this callback is executed, * so we don't use AutoCaller and don't care about reference counters of * interface pointers passed in. * * @thread EMT * @note Locks the console object for writing. */ //static DECLCALLBACK(int) Console::usbDetachCallback (Console *that, USBDeviceList::iterator *aIt, PCRTUUID aUuid) { LogFlowFuncEnter(); LogFlowFunc (("that={%p}\n", that)); AssertReturn (that && aUuid, VERR_INVALID_PARAMETER); ComObjPtr device = **aIt; /* * If that was a remote device, release the backend pointer. * The pointer was requested in usbAttachCallback. */ BOOL fRemote = FALSE; HRESULT hrc2 = (**aIt)->COMGETTER (Remote) (&fRemote); ComAssertComRC (hrc2); if (fRemote) { Guid guid (*aUuid); that->consoleVRDPServer ()->USBBackendReleasePointer (&guid); } int vrc = PDMR3USBDetachDevice (that->mpVM, aUuid); if (VBOX_SUCCESS (vrc)) { AutoWriteLock alock (that); /* Remove the device from the collection */ that->mUSBDevices.erase (*aIt); LogFlowFunc (("Detached device {%Vuuid}\n", device->id().raw())); /* notify callbacks */ that->onUSBDeviceStateChange (device, false /* aAttached */, NULL); } LogFlowFunc (("vrc=%Vrc\n", vrc)); LogFlowFuncLeave(); return vrc; } #endif /* VBOX_WITH_USB */ /** * Call the initialisation script for a dynamic TAP interface. * * The initialisation script should create a TAP interface, set it up and write its name to * standard output followed by a carriage return. Anything further written to standard * output will be ignored. If it returns a non-zero exit code, or does not write an * intelligable interface name to standard output, it will be treated as having failed. * For now, this method only works on Linux. * * @returns COM status code * @param tapDevice string to store the name of the tap device created to * @param tapSetupApplication the name of the setup script */ HRESULT Console::callTapSetupApplication(bool isStatic, RTFILE tapFD, Bstr &tapDevice, Bstr &tapSetupApplication) { LogFlowThisFunc(("\n")); #ifdef RT_OS_LINUX /* Command line to start the script with. */ char szCommand[4096]; /* Result code */ int rc; /* Get the script name. */ Utf8Str tapSetupAppUtf8(tapSetupApplication), tapDeviceUtf8(tapDevice); RTStrPrintf(szCommand, sizeof(szCommand), "%s %d %s", tapSetupAppUtf8.raw(), isStatic ? tapFD : 0, isStatic ? tapDeviceUtf8.raw() : ""); /* * Create the process and read its output. */ Log2(("About to start the TAP setup script with the following command line: %s\n", szCommand)); FILE *pfScriptHandle = popen(szCommand, "r"); if (pfScriptHandle == 0) { int iErr = errno; LogRel(("Failed to start the TAP interface setup script %s, error text: %s\n", szCommand, strerror(iErr))); LogFlowThisFunc(("rc=E_FAIL\n")); return setError(E_FAIL, tr ("Failed to run the host networking set up command %s: %s"), szCommand, strerror(iErr)); } /* If we are using a dynamic TAP interface, we need to get the interface name. */ if (!isStatic) { /* Buffer to read the application output to. It doesn't have to be long, as we are only interested in the first few (normally 5 or 6) bytes. */ char acBuffer[64]; /* The length of the string returned by the application. We only accept strings of 63 characters or less. */ size_t cBufSize; /* Read the name of the device from the application. */ fgets(acBuffer, sizeof(acBuffer), pfScriptHandle); cBufSize = strlen(acBuffer); /* The script must return the name of the interface followed by a carriage return as the first line of its output. We need a null-terminated string. */ if ((cBufSize < 2) || (acBuffer[cBufSize - 1] != '\n')) { pclose(pfScriptHandle); LogRel(("The TAP interface setup script did not return the name of a TAP device.\n")); LogFlowThisFunc(("rc=E_FAIL\n")); return setError(E_FAIL, tr ("The host networking set up command did not supply an interface name")); } /* Overwrite the terminating newline character. */ acBuffer[cBufSize - 1] = 0; tapDevice = acBuffer; } rc = pclose(pfScriptHandle); if (!WIFEXITED(rc)) { LogRel(("The TAP interface setup script terminated abnormally.\n")); LogFlowThisFunc(("rc=E_FAIL\n")); return setError(E_FAIL, tr ("The host networking set up command did not run correctly")); } if (WEXITSTATUS(rc) != 0) { LogRel(("The TAP interface setup script returned a non-zero exit code.\n")); LogFlowThisFunc(("rc=E_FAIL\n")); return setError(E_FAIL, tr ("The host networking set up command returned a non-zero exit code")); } LogFlowThisFunc(("rc=S_OK\n")); return S_OK; #else /* RT_OS_LINUX not defined */ LogFlowThisFunc(("rc=E_NOTIMPL\n")); return E_NOTIMPL; /* not yet supported */ #endif } /** * Helper function to handle host interface device creation and attachment. * * @param networkAdapter the network adapter which attachment should be reset * @return COM status code * * @note The caller must lock this object for writing. */ HRESULT Console::attachToHostInterface(INetworkAdapter *networkAdapter) { #if !defined(RT_OS_LINUX) /* * Nothing to do here. * * Note, the reason for this method in the first place a memory / fork * bug on linux. All this code belongs in DrvTAP and similar places. */ NOREF(networkAdapter); return S_OK; #else /* RT_OS_LINUX */ LogFlowThisFunc(("\n")); /* sanity check */ AssertReturn (isWriteLockOnCurrentThread(), E_FAIL); # ifdef VBOX_STRICT /* paranoia */ NetworkAttachmentType_T attachment; networkAdapter->COMGETTER(AttachmentType)(&attachment); Assert(attachment == NetworkAttachmentType_HostInterface); # endif /* VBOX_STRICT */ HRESULT rc = S_OK; ULONG slot = 0; rc = networkAdapter->COMGETTER(Slot)(&slot); AssertComRC(rc); /* * Try get the FD. */ LONG ltapFD; rc = networkAdapter->COMGETTER(TAPFileDescriptor)(<apFD); if (SUCCEEDED(rc)) maTapFD[slot] = (RTFILE)ltapFD; else maTapFD[slot] = NIL_RTFILE; /* * Are we supposed to use an existing TAP interface? */ if (maTapFD[slot] != NIL_RTFILE) { /* nothing to do */ Assert(ltapFD >= 0); Assert((LONG)maTapFD[slot] == ltapFD); rc = S_OK; } else { /* * Allocate a host interface device */ int rcVBox = RTFileOpen(&maTapFD[slot], "/dev/net/tun", RTFILE_O_READWRITE | RTFILE_O_OPEN | RTFILE_O_DENY_NONE | RTFILE_O_INHERIT); if (VBOX_SUCCESS(rcVBox)) { /* * Set/obtain the tap interface. */ bool isStatic = false; struct ifreq IfReq; memset(&IfReq, 0, sizeof(IfReq)); /* The name of the TAP interface we are using and the TAP setup script resp. */ Bstr tapDeviceName, tapSetupApplication; rc = networkAdapter->COMGETTER(HostInterface)(tapDeviceName.asOutParam()); if (FAILED(rc)) { tapDeviceName.setNull(); /* Is this necessary? */ } else if (!tapDeviceName.isEmpty()) { isStatic = true; /* If we are using a static TAP device then try to open it. */ Utf8Str str(tapDeviceName); if (str.length() <= sizeof(IfReq.ifr_name)) strcpy(IfReq.ifr_name, str.raw()); else memcpy(IfReq.ifr_name, str.raw(), sizeof(IfReq.ifr_name) - 1); /** @todo bitch about names which are too long... */ IfReq.ifr_flags = IFF_TAP | IFF_NO_PI; rcVBox = ioctl(maTapFD[slot], TUNSETIFF, &IfReq); if (rcVBox != 0) { LogRel(("Failed to open the host network interface %ls\n", tapDeviceName.raw())); rc = setError(E_FAIL, tr ("Failed to open the host network interface %ls"), tapDeviceName.raw()); } } if (SUCCEEDED(rc)) { networkAdapter->COMGETTER(TAPSetupApplication)(tapSetupApplication.asOutParam()); if (tapSetupApplication.isEmpty()) { if (tapDeviceName.isEmpty()) { LogRel(("No setup application was supplied for the TAP interface.\n")); rc = setError(E_FAIL, tr ("No setup application was supplied for the host networking interface")); } } else { rc = callTapSetupApplication(isStatic, maTapFD[slot], tapDeviceName, tapSetupApplication); } } if (SUCCEEDED(rc)) { if (!isStatic) { Utf8Str str(tapDeviceName); if (str.length() <= sizeof(IfReq.ifr_name)) strcpy(IfReq.ifr_name, str.raw()); else memcpy(IfReq.ifr_name, str.raw(), sizeof(IfReq.ifr_name) - 1); /** @todo bitch about names which are too long... */ IfReq.ifr_flags = IFF_TAP | IFF_NO_PI; rcVBox = ioctl(maTapFD[slot], TUNSETIFF, &IfReq); if (rcVBox != 0) { LogRel(("Failed to open the host network interface %ls returned by the setup script", tapDeviceName.raw())); rc = setError(E_FAIL, tr ("Failed to open the host network interface %ls returned by the setup script"), tapDeviceName.raw()); } } if (SUCCEEDED(rc)) { /* * Make it pollable. */ if (fcntl(maTapFD[slot], F_SETFL, O_NONBLOCK) != -1) { Log(("attachToHostInterface: %RTfile %ls\n", maTapFD[slot], tapDeviceName.raw())); /* * Here is the right place to communicate the TAP file descriptor and * the host interface name to the server if/when it becomes really * necessary. */ maTAPDeviceName[slot] = tapDeviceName; rcVBox = VINF_SUCCESS; } else { int iErr = errno; LogRel(("Configuration error: Failed to configure /dev/net/tun non blocking. Error: %s\n", strerror(iErr))); rcVBox = VERR_HOSTIF_BLOCKING; rc = setError(E_FAIL, tr ("could not set up the host networking device for non blocking access: %s"), strerror(errno)); } } } } else { LogRel(("Configuration error: Failed to open /dev/net/tun rc=%Vrc\n", rcVBox)); switch (rcVBox) { case VERR_ACCESS_DENIED: /* will be handled by our caller */ rc = rcVBox; break; default: rc = setError(E_FAIL, tr ("Could not set up the host networking device: %Vrc"), rcVBox); break; } } /* in case of failure, cleanup. */ if (VBOX_FAILURE(rcVBox) && SUCCEEDED(rc)) { LogRel(("General failure attaching to host interface\n")); rc = setError(E_FAIL, tr ("General failure attaching to host interface")); } } LogFlowThisFunc(("rc=%d\n", rc)); return rc; #endif /* RT_OS_LINUX */ } /** * Helper function to handle detachment from a host interface * * @param networkAdapter the network adapter which attachment should be reset * @return COM status code * * @note The caller must lock this object for writing. */ HRESULT Console::detachFromHostInterface(INetworkAdapter *networkAdapter) { #if !defined(RT_OS_LINUX) /* * Nothing to do here. */ NOREF(networkAdapter); return S_OK; #else /* RT_OS_LINUX */ /* sanity check */ LogFlowThisFunc(("\n")); AssertReturn (isWriteLockOnCurrentThread(), E_FAIL); HRESULT rc = S_OK; # ifdef VBOX_STRICT /* paranoia */ NetworkAttachmentType_T attachment; networkAdapter->COMGETTER(AttachmentType)(&attachment); Assert(attachment == NetworkAttachmentType_HostInterface); # endif /* VBOX_STRICT */ ULONG slot = 0; rc = networkAdapter->COMGETTER(Slot)(&slot); AssertComRC(rc); /* is there an open TAP device? */ if (maTapFD[slot] != NIL_RTFILE) { /* * Close the file handle. */ Bstr tapDeviceName, tapTerminateApplication; bool isStatic = true; rc = networkAdapter->COMGETTER(HostInterface)(tapDeviceName.asOutParam()); if (FAILED(rc) || tapDeviceName.isEmpty()) { /* If the name is empty, this is a dynamic TAP device, so close it now, so that the termination script can remove the interface. Otherwise we still need the FD to pass to the termination script. */ isStatic = false; int rcVBox = RTFileClose(maTapFD[slot]); AssertRC(rcVBox); maTapFD[slot] = NIL_RTFILE; } /* * Execute the termination command. */ networkAdapter->COMGETTER(TAPTerminateApplication)(tapTerminateApplication.asOutParam()); if (tapTerminateApplication) { /* Get the program name. */ Utf8Str tapTermAppUtf8(tapTerminateApplication); /* Build the command line. */ char szCommand[4096]; RTStrPrintf(szCommand, sizeof(szCommand), "%s %d %s", tapTermAppUtf8.raw(), isStatic ? maTapFD[slot] : 0, maTAPDeviceName[slot].raw()); /** @todo check for overflow or use RTStrAPrintf! */ /* * Create the process and wait for it to complete. */ Log(("Calling the termination command: %s\n", szCommand)); int rcCommand = system(szCommand); if (rcCommand == -1) { LogRel(("Failed to execute the clean up script for the TAP interface")); rc = setError(E_FAIL, tr ("Failed to execute the clean up script for the TAP interface")); } if (!WIFEXITED(rc)) { LogRel(("The TAP interface clean up script terminated abnormally.\n")); rc = setError(E_FAIL, tr ("The TAP interface clean up script terminated abnormally")); } if (WEXITSTATUS(rc) != 0) { LogRel(("The TAP interface clean up script returned a non-zero exit code.\n")); rc = setError(E_FAIL, tr ("The TAP interface clean up script returned a non-zero exit code")); } } if (isStatic) { /* If we are using a static TAP device, we close it now, after having called the termination script. */ int rcVBox = RTFileClose(maTapFD[slot]); AssertRC(rcVBox); } /* the TAP device name and handle are no longer valid */ maTapFD[slot] = NIL_RTFILE; maTAPDeviceName[slot] = ""; } LogFlowThisFunc(("returning %d\n", rc)); return rc; #endif /* RT_OS_LINUX */ } /** * Called at power down to terminate host interface networking. * * @note The caller must lock this object for writing. */ HRESULT Console::powerDownHostInterfaces() { LogFlowThisFunc (("\n")); /* sanity check */ AssertReturn (isWriteLockOnCurrentThread(), E_FAIL); /* * host interface termination handling */ HRESULT rc; for (ULONG slot = 0; slot < SchemaDefs::NetworkAdapterCount; slot ++) { ComPtr networkAdapter; rc = mMachine->GetNetworkAdapter(slot, networkAdapter.asOutParam()); CheckComRCBreakRC (rc); BOOL enabled = FALSE; networkAdapter->COMGETTER(Enabled) (&enabled); if (!enabled) continue; NetworkAttachmentType_T attachment; networkAdapter->COMGETTER(AttachmentType)(&attachment); if (attachment == NetworkAttachmentType_HostInterface) { HRESULT rc2 = detachFromHostInterface(networkAdapter); if (FAILED(rc2) && SUCCEEDED(rc)) rc = rc2; } } return rc; } /** * Process callback handler for VMR3Load and VMR3Save. * * @param pVM The VM handle. * @param uPercent Completetion precentage (0-100). * @param pvUser Pointer to the VMProgressTask structure. * @return VINF_SUCCESS. */ /*static*/ DECLCALLBACK (int) Console::stateProgressCallback (PVM pVM, unsigned uPercent, void *pvUser) { VMProgressTask *task = static_cast (pvUser); AssertReturn (task, VERR_INVALID_PARAMETER); /* update the progress object */ if (task->mProgress) task->mProgress->notifyProgress (uPercent); return VINF_SUCCESS; } /** * VM error callback function. Called by the various VM components. * * @param pVM VM handle. Can be NULL if an error occurred before * successfully creating a VM. * @param pvUser Pointer to the VMProgressTask structure. * @param rc VBox status code. * @param pszFormat Printf-like error message. * @param args Various number of argumens for the error message. * * @thread EMT, VMPowerUp... * * @note The VMProgressTask structure modified by this callback is not thread * safe. */ /* static */ DECLCALLBACK (void) Console::setVMErrorCallback (PVM pVM, void *pvUser, int rc, RT_SRC_POS_DECL, const char *pszFormat, va_list args) { VMProgressTask *task = static_cast (pvUser); AssertReturnVoid (task); /* we ignore RT_SRC_POS_DECL arguments to avoid confusion of end-users */ va_list va2; va_copy(va2, args); /* Have to make a copy here or GCC will break. */ Utf8Str errorMsg = Utf8StrFmt (tr ("%N.\n" "VBox status code: %d (%Vrc)"), pszFormat, &va2, rc, rc); va_end(va2); /* For now, this may be called only once. Ignore subsequent calls. */ if (!task->mErrorMsg.isNull()) { #if !defined(DEBUG_bird) AssertMsgFailed (("Cannot set error to '%s': it is already set to '%s'", errorMsg.raw(), task->mErrorMsg.raw())); #endif return; } task->mErrorMsg = errorMsg; } /** * VM runtime error callback function. * See VMSetRuntimeError for the detailed description of parameters. * * @param pVM The VM handle. * @param pvUser The user argument. * @param fFatal Whether it is a fatal error or not. * @param pszErrorID Error ID string. * @param pszFormat Error message format string. * @param args Error message arguments. * @thread EMT. */ /* static */ DECLCALLBACK(void) Console::setVMRuntimeErrorCallback (PVM pVM, void *pvUser, bool fFatal, const char *pszErrorID, const char *pszFormat, va_list args) { LogFlowFuncEnter(); Console *that = static_cast (pvUser); AssertReturnVoid (that); Utf8Str message = Utf8StrFmtVA (pszFormat, args); LogRel (("Console: VM runtime error: fatal=%RTbool, " "errorID=%s message=\"%s\"\n", fFatal, pszErrorID, message.raw())); that->onRuntimeError (BOOL (fFatal), Bstr (pszErrorID), Bstr (message)); LogFlowFuncLeave(); } /** * Captures USB devices that match filters of the VM. * Called at VM startup. * * @param pVM The VM handle. * * @note The caller must lock this object for writing. */ HRESULT Console::captureUSBDevices (PVM pVM) { LogFlowThisFunc (("\n")); /* sanity check */ ComAssertRet (isWriteLockOnCurrentThread(), E_FAIL); /* If the machine has an USB controller, ask the USB proxy service to * capture devices */ PPDMIBASE pBase; int vrc = PDMR3QueryLun (pVM, "usb-ohci", 0, 0, &pBase); if (VBOX_SUCCESS (vrc)) { /* leave the lock before calling Host in VBoxSVC since Host may call * us back from under its lock (e.g. onUSBDeviceAttach()) which would * produce an inter-process dead-lock otherwise. */ AutoWriteLock alock (this); alock.leave(); HRESULT hrc = mControl->AutoCaptureUSBDevices(); ComAssertComRCRetRC (hrc); } else if ( vrc == VERR_PDM_DEVICE_NOT_FOUND || vrc == VERR_PDM_DEVICE_INSTANCE_NOT_FOUND) vrc = VINF_SUCCESS; else AssertRC (vrc); return VBOX_SUCCESS (vrc) ? S_OK : E_FAIL; } /** * Detach all USB device which are attached to the VM for the * purpose of clean up and such like. * * @note The caller must lock this object for writing. */ void Console::detachAllUSBDevices (bool aDone) { LogFlowThisFunc (("aDone=%RTbool\n", aDone)); /* sanity check */ AssertReturnVoid (isWriteLockOnCurrentThread()); mUSBDevices.clear(); /* leave the lock before calling Host in VBoxSVC since Host may call * us back from under its lock (e.g. onUSBDeviceAttach()) which would * produce an inter-process dead-lock otherwise. */ AutoWriteLock alock (this); alock.leave(); mControl->DetachAllUSBDevices (aDone); } /** * @note Locks this object for writing. */ void Console::processRemoteUSBDevices (uint32_t u32ClientId, VRDPUSBDEVICEDESC *pDevList, uint32_t cbDevList) { LogFlowThisFuncEnter(); LogFlowThisFunc (("u32ClientId = %d, pDevList=%p, cbDevList = %d\n", u32ClientId, pDevList, cbDevList)); AutoCaller autoCaller (this); if (!autoCaller.isOk()) { /* Console has been already uninitialized, deny request */ AssertMsgFailed (("Temporary assertion to prove that it happens, " "please report to dmik\n")); LogFlowThisFunc (("Console is already uninitialized\n")); LogFlowThisFuncLeave(); return; } AutoWriteLock alock (this); /* * Mark all existing remote USB devices as dirty. */ RemoteUSBDeviceList::iterator it = mRemoteUSBDevices.begin(); while (it != mRemoteUSBDevices.end()) { (*it)->dirty (true); ++ it; } /* * Process the pDevList and add devices those are not already in the mRemoteUSBDevices list. */ /** @todo (sunlover) REMOTE_USB Strict validation of the pDevList. */ VRDPUSBDEVICEDESC *e = pDevList; /* The cbDevList condition must be checked first, because the function can * receive pDevList = NULL and cbDevList = 0 on client disconnect. */ while (cbDevList >= 2 && e->oNext) { LogFlowThisFunc (("vendor %04X, product %04X, name = %s\n", e->idVendor, e->idProduct, e->oProduct? (char *)e + e->oProduct: "")); bool fNewDevice = true; it = mRemoteUSBDevices.begin(); while (it != mRemoteUSBDevices.end()) { if ((*it)->devId () == e->id && (*it)->clientId () == u32ClientId) { /* The device is already in the list. */ (*it)->dirty (false); fNewDevice = false; break; } ++ it; } if (fNewDevice) { LogRel(("Remote USB: ++++ Vendor %04X. Product %04X. Name = [%s].\n", e->idVendor, e->idProduct, e->oProduct? (char *)e + e->oProduct: "" )); /* Create the device object and add the new device to list. */ ComObjPtr device; device.createObject(); device->init (u32ClientId, e); mRemoteUSBDevices.push_back (device); /* Check if the device is ok for current USB filters. */ BOOL fMatched = FALSE; ULONG fMaskedIfs = 0; HRESULT hrc = mControl->RunUSBDeviceFilters(device, &fMatched, &fMaskedIfs); AssertComRC (hrc); LogFlowThisFunc (("USB filters return %d %#x\n", fMatched, fMaskedIfs)); if (fMatched) { hrc = onUSBDeviceAttach (device, NULL, fMaskedIfs); /// @todo (r=dmik) warning reporting subsystem if (hrc == S_OK) { LogFlowThisFunc (("Device attached\n")); device->captured (true); } } } if (cbDevList < e->oNext) { LogWarningThisFunc (("cbDevList %d > oNext %d\n", cbDevList, e->oNext)); break; } cbDevList -= e->oNext; e = (VRDPUSBDEVICEDESC *)((uint8_t *)e + e->oNext); } /* * Remove dirty devices, that is those which are not reported by the server anymore. */ for (;;) { ComObjPtr device; RemoteUSBDeviceList::iterator it = mRemoteUSBDevices.begin(); while (it != mRemoteUSBDevices.end()) { if ((*it)->dirty ()) { device = *it; break; } ++ it; } if (!device) { break; } USHORT vendorId = 0; device->COMGETTER(VendorId) (&vendorId); USHORT productId = 0; device->COMGETTER(ProductId) (&productId); Bstr product; device->COMGETTER(Product) (product.asOutParam()); LogRel(("Remote USB: ---- Vendor %04X. Product %04X. Name = [%ls].\n", vendorId, productId, product.raw () )); /* Detach the device from VM. */ if (device->captured ()) { Guid uuid; device->COMGETTER (Id) (uuid.asOutParam()); onUSBDeviceDetach (uuid, NULL); } /* And remove it from the list. */ mRemoteUSBDevices.erase (it); } LogFlowThisFuncLeave(); } /** * Thread function which starts the VM (also from saved state) and * track progress. * * @param Thread The thread id. * @param pvUser Pointer to a VMPowerUpTask structure. * @return VINF_SUCCESS (ignored). * * @note Locks the Console object for writing. */ /*static*/ DECLCALLBACK (int) Console::powerUpThread (RTTHREAD Thread, void *pvUser) { LogFlowFuncEnter(); std::auto_ptr task (static_cast (pvUser)); AssertReturn (task.get(), VERR_INVALID_PARAMETER); AssertReturn (!task->mConsole.isNull(), VERR_INVALID_PARAMETER); AssertReturn (!task->mProgress.isNull(), VERR_INVALID_PARAMETER); #if defined(RT_OS_WINDOWS) { /* initialize COM */ HRESULT hrc = CoInitializeEx (NULL, COINIT_MULTITHREADED | COINIT_DISABLE_OLE1DDE | COINIT_SPEED_OVER_MEMORY); LogFlowFunc (("CoInitializeEx()=%08X\n", hrc)); } #endif HRESULT hrc = S_OK; int vrc = VINF_SUCCESS; /* Set up a build identifier so that it can be seen from core dumps what * exact build was used to produce the core. */ static char saBuildID[40]; RTStrPrintf(saBuildID, sizeof(saBuildID), "%s%s%s%s VirtualBox %s r%d %s%s%s%s", "BU", "IL", "DI", "D", VBOX_VERSION_STRING, VBoxSVNRev (), "BU", "IL", "DI", "D"); ComObjPtr console = task->mConsole; /* Note: no need to use addCaller() because VMPowerUpTask does that */ AutoWriteLock alock (console); /* sanity */ Assert (console->mpVM == NULL); do { #ifdef VBOX_WITH_VRDP /* Create the VRDP server. In case of headless operation, this will * also create the framebuffer, required at VM creation. */ ConsoleVRDPServer *server = console->consoleVRDPServer(); Assert (server); /// @todo (dmik) // does VRDP server call Console from the other thread? // Not sure, so leave the lock just in case alock.leave(); vrc = server->Launch(); alock.enter(); if (VBOX_FAILURE (vrc)) { Utf8Str errMsg; switch (vrc) { case VERR_NET_ADDRESS_IN_USE: { ULONG port = 0; console->mVRDPServer->COMGETTER(Port) (&port); errMsg = Utf8StrFmt (tr ("VRDP server port %d is already in use"), port); break; } case VERR_FILE_NOT_FOUND: { errMsg = Utf8StrFmt (tr ("Could not load the VRDP library")); break; } default: errMsg = Utf8StrFmt (tr ("Failed to launch VRDP server (%Vrc)"), vrc); } LogRel (("Failed to launch VRDP server (%Vrc), error message: '%s'\n", vrc, errMsg.raw())); hrc = setError (E_FAIL, errMsg); break; } #endif /* VBOX_WITH_VRDP */ /* * Create the VM */ PVM pVM; /* * leave the lock since EMT will call Console. It's safe because * mMachineState is either Starting or Restoring state here. */ alock.leave(); vrc = VMR3Create (task->mSetVMErrorCallback, task.get(), task->mConfigConstructor, static_cast (console), &pVM); alock.enter(); #ifdef VBOX_WITH_VRDP /* Enable client connections to the server. */ console->consoleVRDPServer()->EnableConnections (); #endif /* VBOX_WITH_VRDP */ if (VBOX_SUCCESS (vrc)) { do { /* * Register our load/save state file handlers */ vrc = SSMR3RegisterExternal (pVM, sSSMConsoleUnit, 0 /* iInstance */, sSSMConsoleVer, 0 /* cbGuess */, NULL, saveStateFileExec, NULL, NULL, loadStateFileExec, NULL, static_cast (console)); AssertRC (vrc); if (VBOX_FAILURE (vrc)) break; /* * Synchronize debugger settings */ MachineDebugger *machineDebugger = console->getMachineDebugger(); if (machineDebugger) { machineDebugger->flushQueuedSettings(); } /* * Shared Folders */ if (console->getVMMDev()->isShFlActive()) { /// @todo (dmik) // does the code below call Console from the other thread? // Not sure, so leave the lock just in case alock.leave(); for (SharedFolderDataMap::const_iterator it = task->mSharedFolders.begin(); it != task->mSharedFolders.end(); ++ it) { hrc = console->createSharedFolder ((*it).first, (*it).second); CheckComRCBreakRC (hrc); } /* enter the lock again */ alock.enter(); CheckComRCBreakRC (hrc); } /* * Capture USB devices. */ hrc = console->captureUSBDevices (pVM); CheckComRCBreakRC (hrc); /* leave the lock before a lengthy operation */ alock.leave(); /* Load saved state? */ if (!!task->mSavedStateFile) { LogFlowFunc (("Restoring saved state from '%s'...\n", task->mSavedStateFile.raw())); vrc = VMR3Load (pVM, task->mSavedStateFile, Console::stateProgressCallback, static_cast (task.get())); if (VBOX_SUCCESS (vrc)) { if (task->mStartPaused) /* done */ console->setMachineState (MachineState_Paused); else { /* Start/Resume the VM execution */ vrc = VMR3Resume (pVM); AssertRC (vrc); } } /* Power off in case we failed loading or resuming the VM */ if (VBOX_FAILURE (vrc)) { int vrc2 = VMR3PowerOff (pVM); AssertRC (vrc2); } } else if (task->mStartPaused) /* done */ console->setMachineState (MachineState_Paused); else { /* Power on the VM (i.e. start executing) */ vrc = VMR3PowerOn(pVM); AssertRC (vrc); } /* enter the lock again */ alock.enter(); } while (0); /* On failure, destroy the VM */ if (FAILED (hrc) || VBOX_FAILURE (vrc)) { /* preserve existing error info */ ErrorInfoKeeper eik; /* powerDown() will call VMR3Destroy() and do all necessary * cleanup (VRDP, USB devices) */ HRESULT hrc2 = console->powerDown(); AssertComRC (hrc2); } } else { /* * If VMR3Create() failed it has released the VM memory. */ console->mpVM = NULL; } if (SUCCEEDED (hrc) && VBOX_FAILURE (vrc)) { /* If VMR3Create() or one of the other calls in this function fail, * an appropriate error message has been set in task->mErrorMsg. * However since that happens via a callback, the hrc status code in * this function is not updated. */ if (task->mErrorMsg.isNull()) { /* If the error message is not set but we've got a failure, * convert the VBox status code into a meaningfulerror message. * This becomes unused once all the sources of errors set the * appropriate error message themselves. */ AssertMsgFailed (("Missing error message during powerup for " "status code %Vrc\n", vrc)); task->mErrorMsg = Utf8StrFmt ( tr ("Failed to start VM execution (%Vrc)"), vrc); } /* Set the error message as the COM error. * Progress::notifyComplete() will pick it up later. */ hrc = setError (E_FAIL, task->mErrorMsg); break; } } while (0); if (console->mMachineState == MachineState_Starting || console->mMachineState == MachineState_Restoring) { /* We are still in the Starting/Restoring state. This means one of: * * 1) we failed before VMR3Create() was called; * 2) VMR3Create() failed. * * In both cases, there is no need to call powerDown(), but we still * need to go back to the PoweredOff/Saved state. Reuse * vmstateChangeCallback() for that purpose. */ /* preserve existing error info */ ErrorInfoKeeper eik; Assert (console->mpVM == NULL); vmstateChangeCallback (NULL, VMSTATE_TERMINATED, VMSTATE_CREATING, console); } /* * Evaluate the final result. Note that the appropriate mMachineState value * is already set by vmstateChangeCallback() in all cases. */ /* leave the lock, don't need it any more */ alock.leave(); if (SUCCEEDED (hrc)) { /* Notify the progress object of the success */ task->mProgress->notifyComplete (S_OK); } else { /* The progress object will fetch the current error info */ task->mProgress->notifyComplete (hrc); LogRel (("Power up failed (vrc=%Vrc, hrc=%Rhrc (%#08X))\n", vrc, hrc, hrc)); } #if defined(RT_OS_WINDOWS) /* uninitialize COM */ CoUninitialize(); #endif LogFlowFuncLeave(); return VINF_SUCCESS; } /** * Reconfigures a VDI. * * @param pVM The VM handle. * @param hda The harddisk attachment. * @param phrc Where to store com error - only valid if we return VERR_GENERAL_FAILURE. * @return VBox status code. */ static DECLCALLBACK(int) reconfigureVDI(PVM pVM, IHardDiskAttachment *hda, HRESULT *phrc) { LogFlowFunc (("pVM=%p hda=%p phrc=%p\n", pVM, hda, phrc)); int rc; HRESULT hrc; char *psz = NULL; BSTR str = NULL; *phrc = S_OK; #define STR_CONV() do { rc = RTUtf16ToUtf8(str, &psz); RC_CHECK(); } while (0) #define STR_FREE() do { if (str) { SysFreeString(str); str = NULL; } if (psz) { RTStrFree(psz); psz = NULL; } } while (0) #define RC_CHECK() do { if (VBOX_FAILURE(rc)) { AssertMsgFailed(("rc=%Vrc\n", rc)); STR_FREE(); return rc; } } while (0) #define H() do { if (FAILED(hrc)) { AssertMsgFailed(("hrc=%Rhrc (%#x)\n", hrc, hrc)); STR_FREE(); *phrc = hrc; return VERR_GENERAL_FAILURE; } } while (0) /* * Figure out which IDE device this is. */ ComPtr hardDisk; hrc = hda->COMGETTER(HardDisk)(hardDisk.asOutParam()); H(); StorageBus_T enmBus; hrc = hda->COMGETTER(Bus)(&enmBus); H(); LONG lDev; hrc = hda->COMGETTER(Device)(&lDev); H(); LONG lChannel; hrc = hda->COMGETTER(Channel)(&lChannel); H(); int iLUN; switch (enmBus) { case StorageBus_IDE: { if (lChannel >= 2) { AssertMsgFailed(("invalid controller channel number: %d\n", lChannel)); return VERR_GENERAL_FAILURE; } if (lDev >= 2) { AssertMsgFailed(("invalid controller device number: %d\n", lDev)); return VERR_GENERAL_FAILURE; } iLUN = 2*lChannel + lDev; } break; case StorageBus_SATA: iLUN = lChannel; break; default: AssertMsgFailed(("invalid disk controller type: %d\n", enmBus)); return VERR_GENERAL_FAILURE; } /* * Is there an existing LUN? If not create it. * We ASSUME that this will NEVER collide with the DVD. */ PCFGMNODE pCfg; PCFGMNODE pLunL1 = CFGMR3GetChildF(CFGMR3GetRoot(pVM), "Devices/piix3ide/0/LUN#%d/AttachedDriver/", iLUN); if (!pLunL1) { PCFGMNODE pInst = CFGMR3GetChild(CFGMR3GetRoot(pVM), "Devices/piix3ide/0/"); AssertReturn(pInst, VERR_INTERNAL_ERROR); PCFGMNODE pLunL0; rc = CFGMR3InsertNodeF(pInst, &pLunL0, "LUN#%d", iLUN); RC_CHECK(); rc = CFGMR3InsertString(pLunL0, "Driver", "Block"); RC_CHECK(); rc = CFGMR3InsertNode(pLunL0, "Config", &pCfg); RC_CHECK(); rc = CFGMR3InsertString(pCfg, "Type", "HardDisk"); RC_CHECK(); rc = CFGMR3InsertInteger(pCfg, "Mountable", 0); RC_CHECK(); rc = CFGMR3InsertNode(pLunL0, "AttachedDriver", &pLunL1); RC_CHECK(); rc = CFGMR3InsertString(pLunL1, "Driver", "VBoxHDD"); RC_CHECK(); rc = CFGMR3InsertNode(pLunL1, "Config", &pCfg); RC_CHECK(); } else { #ifdef VBOX_STRICT char *pszDriver; rc = CFGMR3QueryStringAlloc(pLunL1, "Driver", &pszDriver); RC_CHECK(); Assert(!strcmp(pszDriver, "VBoxHDD")); MMR3HeapFree(pszDriver); #endif /* * Check if things has changed. */ pCfg = CFGMR3GetChild(pLunL1, "Config"); AssertReturn(pCfg, VERR_INTERNAL_ERROR); /* the image */ /// @todo (dmik) we temporarily use the location property to // determine the image file name. This is subject to change // when iSCSI disks are here (we should either query a // storage-specific interface from IHardDisk, or "standardize" // the location property) hrc = hardDisk->COMGETTER(Location)(&str); H(); STR_CONV(); char *pszPath; rc = CFGMR3QueryStringAlloc(pCfg, "Path", &pszPath); RC_CHECK(); if (!strcmp(psz, pszPath)) { /* parent images. */ ComPtr parentHardDisk = hardDisk; for (PCFGMNODE pParent = pCfg;;) { MMR3HeapFree(pszPath); pszPath = NULL; STR_FREE(); /* get parent */ ComPtr curHardDisk; hrc = parentHardDisk->COMGETTER(Parent)(curHardDisk.asOutParam()); H(); PCFGMNODE pCur; pCur = CFGMR3GetChild(pParent, "Parent"); if (!pCur && !curHardDisk) { /* no change */ LogFlowFunc (("No change!\n")); return VINF_SUCCESS; } if (!pCur || !curHardDisk) break; /* compare paths. */ /// @todo (dmik) we temporarily use the location property to // determine the image file name. This is subject to change // when iSCSI disks are here (we should either query a // storage-specific interface from IHardDisk, or "standardize" // the location property) hrc = curHardDisk->COMGETTER(Location)(&str); H(); STR_CONV(); rc = CFGMR3QueryStringAlloc(pCfg, "Path", &pszPath); RC_CHECK(); if (strcmp(psz, pszPath)) break; /* next */ pParent = pCur; parentHardDisk = curHardDisk; } } else LogFlowFunc (("LUN#%d: old leaf image '%s'\n", iLUN, pszPath)); MMR3HeapFree(pszPath); STR_FREE(); /* * Detach the driver and replace the config node. */ rc = PDMR3DeviceDetach(pVM, "piix3ide", 0, iLUN); RC_CHECK(); CFGMR3RemoveNode(pCfg); rc = CFGMR3InsertNode(pLunL1, "Config", &pCfg); RC_CHECK(); } /* * Create the driver configuration. */ /// @todo (dmik) we temporarily use the location property to // determine the image file name. This is subject to change // when iSCSI disks are here (we should either query a // storage-specific interface from IHardDisk, or "standardize" // the location property) hrc = hardDisk->COMGETTER(Location)(&str); H(); STR_CONV(); LogFlowFunc (("LUN#%d: leaf image '%s'\n", iLUN, psz)); rc = CFGMR3InsertString(pCfg, "Path", psz); RC_CHECK(); STR_FREE(); /* Create an inversed tree of parents. */ ComPtr parentHardDisk = hardDisk; for (PCFGMNODE pParent = pCfg;;) { ComPtr curHardDisk; hrc = parentHardDisk->COMGETTER(Parent)(curHardDisk.asOutParam()); H(); if (!curHardDisk) break; PCFGMNODE pCur; rc = CFGMR3InsertNode(pParent, "Parent", &pCur); RC_CHECK(); /// @todo (dmik) we temporarily use the location property to // determine the image file name. This is subject to change // when iSCSI disks are here (we should either query a // storage-specific interface from IHardDisk, or "standardize" // the location property) hrc = curHardDisk->COMGETTER(Location)(&str); H(); STR_CONV(); rc = CFGMR3InsertString(pCur, "Path", psz); RC_CHECK(); STR_FREE(); /* next */ pParent = pCur; parentHardDisk = curHardDisk; } /* * Attach the new driver. */ rc = PDMR3DeviceAttach(pVM, "piix3ide", 0, iLUN, NULL); RC_CHECK(); LogFlowFunc (("Returns success\n")); return rc; } /** * Thread for executing the saved state operation. * * @param Thread The thread handle. * @param pvUser Pointer to a VMSaveTask structure. * @return VINF_SUCCESS (ignored). * * @note Locks the Console object for writing. */ /*static*/ DECLCALLBACK (int) Console::saveStateThread (RTTHREAD Thread, void *pvUser) { LogFlowFuncEnter(); std::auto_ptr task (static_cast (pvUser)); AssertReturn (task.get(), VERR_INVALID_PARAMETER); Assert (!task->mSavedStateFile.isNull()); Assert (!task->mProgress.isNull()); const ComObjPtr &that = task->mConsole; /* * Note: no need to use addCaller() to protect Console or addVMCaller() to * protect mpVM because VMSaveTask does that */ Utf8Str errMsg; HRESULT rc = S_OK; if (task->mIsSnapshot) { Assert (!task->mServerProgress.isNull()); LogFlowFunc (("Waiting until the server creates differencing VDIs...\n")); rc = task->mServerProgress->WaitForCompletion (-1); if (SUCCEEDED (rc)) { HRESULT result = S_OK; rc = task->mServerProgress->COMGETTER(ResultCode) (&result); if (SUCCEEDED (rc)) rc = result; } } if (SUCCEEDED (rc)) { LogFlowFunc (("Saving the state to '%s'...\n", task->mSavedStateFile.raw())); int vrc = VMR3Save (that->mpVM, task->mSavedStateFile, Console::stateProgressCallback, static_cast (task.get())); if (VBOX_FAILURE (vrc)) { errMsg = Utf8StrFmt ( Console::tr ("Failed to save the machine state to '%s' (%Vrc)"), task->mSavedStateFile.raw(), vrc); rc = E_FAIL; } } /* lock the console sonce we're going to access it */ AutoWriteLock thatLock (that); if (SUCCEEDED (rc)) { if (task->mIsSnapshot) do { LogFlowFunc (("Reattaching new differencing VDIs...\n")); ComPtr hdaColl; rc = that->mMachine->COMGETTER(HardDiskAttachments) (hdaColl.asOutParam()); if (FAILED (rc)) break; ComPtr hdaEn; rc = hdaColl->Enumerate (hdaEn.asOutParam()); if (FAILED (rc)) break; BOOL more = FALSE; while (SUCCEEDED (rc = hdaEn->HasMore (&more)) && more) { ComPtr hda; rc = hdaEn->GetNext (hda.asOutParam()); if (FAILED (rc)) break; PVMREQ pReq; IHardDiskAttachment *pHda = hda; /* * don't leave the lock since reconfigureVDI isn't going to * access Console. */ int vrc = VMR3ReqCall (that->mpVM, &pReq, RT_INDEFINITE_WAIT, (PFNRT)reconfigureVDI, 3, that->mpVM, pHda, &rc); if (VBOX_SUCCESS (rc)) rc = pReq->iStatus; VMR3ReqFree (pReq); if (FAILED (rc)) break; if (VBOX_FAILURE (vrc)) { errMsg = Utf8StrFmt (Console::tr ("%Vrc"), vrc); rc = E_FAIL; break; } } } while (0); } /* finalize the procedure regardless of the result */ if (task->mIsSnapshot) { /* * finalize the requested snapshot object. * This will reset the machine state to the state it had right * before calling mControl->BeginTakingSnapshot(). */ that->mControl->EndTakingSnapshot (SUCCEEDED (rc)); } else { /* * finalize the requested save state procedure. * In case of success, the server will set the machine state to Saved; * in case of failure it will reset the it to the state it had right * before calling mControl->BeginSavingState(). */ that->mControl->EndSavingState (SUCCEEDED (rc)); } /* synchronize the state with the server */ if (task->mIsSnapshot || FAILED (rc)) { if (task->mLastMachineState == MachineState_Running) { /* restore the paused state if appropriate */ that->setMachineStateLocally (MachineState_Paused); /* restore the running state if appropriate */ that->Resume(); } else that->setMachineStateLocally (task->mLastMachineState); } else { /* * The machine has been successfully saved, so power it down * (vmstateChangeCallback() will set state to Saved on success). * Note: we release the task's VM caller, otherwise it will * deadlock. */ task->releaseVMCaller(); rc = that->powerDown(); } /* notify the progress object about operation completion */ if (SUCCEEDED (rc)) task->mProgress->notifyComplete (S_OK); else { if (!errMsg.isNull()) task->mProgress->notifyComplete (rc, COM_IIDOF(IConsole), Console::getComponentName(), errMsg); else task->mProgress->notifyComplete (rc); } LogFlowFuncLeave(); return VINF_SUCCESS; } /** * Thread for powering down the Console. * * @param Thread The thread handle. * @param pvUser Pointer to the VMTask structure. * @return VINF_SUCCESS (ignored). * * @note Locks the Console object for writing. */ /*static*/ DECLCALLBACK (int) Console::powerDownThread (RTTHREAD Thread, void *pvUser) { LogFlowFuncEnter(); std::auto_ptr task (static_cast (pvUser)); AssertReturn (task.get(), VERR_INVALID_PARAMETER); AssertReturn (task->isOk(), VERR_GENERAL_FAILURE); const ComObjPtr &that = task->mConsole; /* * Note: no need to use addCaller() to protect Console * because VMTask does that */ /* release VM caller to let powerDown() proceed */ task->releaseVMCaller(); HRESULT rc = that->powerDown(); AssertComRC (rc); LogFlowFuncLeave(); return VINF_SUCCESS; } /** * The Main status driver instance data. */ typedef struct DRVMAINSTATUS { /** The LED connectors. */ PDMILEDCONNECTORS ILedConnectors; /** Pointer to the LED ports interface above us. */ PPDMILEDPORTS pLedPorts; /** Pointer to the array of LED pointers. */ PPDMLED *papLeds; /** The unit number corresponding to the first entry in the LED array. */ RTUINT iFirstLUN; /** The unit number corresponding to the last entry in the LED array. * (The size of the LED array is iLastLUN - iFirstLUN + 1.) */ RTUINT iLastLUN; } DRVMAINSTATUS, *PDRVMAINSTATUS; /** * Notification about a unit which have been changed. * * The driver must discard any pointers to data owned by * the unit and requery it. * * @param pInterface Pointer to the interface structure containing the called function pointer. * @param iLUN The unit number. */ DECLCALLBACK(void) Console::drvStatus_UnitChanged(PPDMILEDCONNECTORS pInterface, unsigned iLUN) { PDRVMAINSTATUS pData = (PDRVMAINSTATUS)(void *)pInterface; if (iLUN >= pData->iFirstLUN && iLUN <= pData->iLastLUN) { PPDMLED pLed; int rc = pData->pLedPorts->pfnQueryStatusLed(pData->pLedPorts, iLUN, &pLed); if (VBOX_FAILURE(rc)) pLed = NULL; ASMAtomicXchgPtr((void * volatile *)&pData->papLeds[iLUN - pData->iFirstLUN], pLed); Log(("drvStatus_UnitChanged: iLUN=%d pLed=%p\n", iLUN, pLed)); } } /** * Queries an interface to the driver. * * @returns Pointer to interface. * @returns NULL if the interface was not supported by the driver. * @param pInterface Pointer to this interface structure. * @param enmInterface The requested interface identification. */ DECLCALLBACK(void *) Console::drvStatus_QueryInterface(PPDMIBASE pInterface, PDMINTERFACE enmInterface) { PPDMDRVINS pDrvIns = PDMIBASE_2_PDMDRV(pInterface); PDRVMAINSTATUS pDrv = PDMINS_2_DATA(pDrvIns, PDRVMAINSTATUS); switch (enmInterface) { case PDMINTERFACE_BASE: return &pDrvIns->IBase; case PDMINTERFACE_LED_CONNECTORS: return &pDrv->ILedConnectors; default: return NULL; } } /** * Destruct a status driver instance. * * @returns VBox status. * @param pDrvIns The driver instance data. */ DECLCALLBACK(void) Console::drvStatus_Destruct(PPDMDRVINS pDrvIns) { PDRVMAINSTATUS pData = PDMINS_2_DATA(pDrvIns, PDRVMAINSTATUS); LogFlowFunc(("iInstance=%d\n", pDrvIns->iInstance)); if (pData->papLeds) { unsigned iLed = pData->iLastLUN - pData->iFirstLUN + 1; while (iLed-- > 0) ASMAtomicXchgPtr((void * volatile *)&pData->papLeds[iLed], NULL); } } /** * Construct a status driver instance. * * @returns VBox status. * @param pDrvIns The driver instance data. * If the registration structure is needed, pDrvIns->pDrvReg points to it. * @param pCfgHandle Configuration node handle for the driver. Use this to obtain the configuration * of the driver instance. It's also found in pDrvIns->pCfgHandle, but like * iInstance it's expected to be used a bit in this function. */ DECLCALLBACK(int) Console::drvStatus_Construct(PPDMDRVINS pDrvIns, PCFGMNODE pCfgHandle) { PDRVMAINSTATUS pData = PDMINS_2_DATA(pDrvIns, PDRVMAINSTATUS); LogFlowFunc(("iInstance=%d\n", pDrvIns->iInstance)); /* * Validate configuration. */ if (!CFGMR3AreValuesValid(pCfgHandle, "papLeds\0First\0Last\0")) return VERR_PDM_DRVINS_UNKNOWN_CFG_VALUES; PPDMIBASE pBaseIgnore; int rc = pDrvIns->pDrvHlp->pfnAttach(pDrvIns, &pBaseIgnore); if (rc != VERR_PDM_NO_ATTACHED_DRIVER) { AssertMsgFailed(("Configuration error: Not possible to attach anything to this driver!\n")); return VERR_PDM_DRVINS_NO_ATTACH; } /* * Data. */ pDrvIns->IBase.pfnQueryInterface = Console::drvStatus_QueryInterface; pData->ILedConnectors.pfnUnitChanged = Console::drvStatus_UnitChanged; /* * Read config. */ rc = CFGMR3QueryPtr(pCfgHandle, "papLeds", (void **)&pData->papLeds); if (VBOX_FAILURE(rc)) { AssertMsgFailed(("Configuration error: Failed to query the \"papLeds\" value! rc=%Vrc\n", rc)); return rc; } rc = CFGMR3QueryU32(pCfgHandle, "First", &pData->iFirstLUN); if (rc == VERR_CFGM_VALUE_NOT_FOUND) pData->iFirstLUN = 0; else if (VBOX_FAILURE(rc)) { AssertMsgFailed(("Configuration error: Failed to query the \"First\" value! rc=%Vrc\n", rc)); return rc; } rc = CFGMR3QueryU32(pCfgHandle, "Last", &pData->iLastLUN); if (rc == VERR_CFGM_VALUE_NOT_FOUND) pData->iLastLUN = 0; else if (VBOX_FAILURE(rc)) { AssertMsgFailed(("Configuration error: Failed to query the \"Last\" value! rc=%Vrc\n", rc)); return rc; } if (pData->iFirstLUN > pData->iLastLUN) { AssertMsgFailed(("Configuration error: Invalid unit range %u-%u\n", pData->iFirstLUN, pData->iLastLUN)); return VERR_GENERAL_FAILURE; } /* * Get the ILedPorts interface of the above driver/device and * query the LEDs we want. */ pData->pLedPorts = (PPDMILEDPORTS)pDrvIns->pUpBase->pfnQueryInterface(pDrvIns->pUpBase, PDMINTERFACE_LED_PORTS); if (!pData->pLedPorts) { AssertMsgFailed(("Configuration error: No led ports interface above!\n")); return VERR_PDM_MISSING_INTERFACE_ABOVE; } for (unsigned i = pData->iFirstLUN; i <= pData->iLastLUN; i++) Console::drvStatus_UnitChanged(&pData->ILedConnectors, i); return VINF_SUCCESS; } /** * Keyboard driver registration record. */ const PDMDRVREG Console::DrvStatusReg = { /* u32Version */ PDM_DRVREG_VERSION, /* szDriverName */ "MainStatus", /* pszDescription */ "Main status driver (Main as in the API).", /* fFlags */ PDM_DRVREG_FLAGS_HOST_BITS_DEFAULT, /* fClass. */ PDM_DRVREG_CLASS_STATUS, /* cMaxInstances */ ~0, /* cbInstance */ sizeof(DRVMAINSTATUS), /* pfnConstruct */ Console::drvStatus_Construct, /* pfnDestruct */ Console::drvStatus_Destruct, /* pfnIOCtl */ NULL, /* pfnPowerOn */ NULL, /* pfnReset */ NULL, /* pfnSuspend */ NULL, /* pfnResume */ NULL, /* pfnDetach */ NULL };