/* $Id: ApplianceImpl.cpp 78923 2019-06-03 09:09:54Z vboxsync $ */ /** @file * IAppliance and IVirtualSystem COM class implementations. */ /* * Copyright (C) 2008-2019 Oracle Corporation * * 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. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #define LOG_GROUP LOG_GROUP_MAIN_APPLIANCE #include #include #include #include #include #include "ApplianceImpl.h" #include "VFSExplorerImpl.h" #include "VirtualBoxImpl.h" #include "GuestOSTypeImpl.h" #include "Global.h" #include "ProgressImpl.h" #include "MachineImpl.h" #include "SystemPropertiesImpl.h" #include "AutoCaller.h" #include "LoggingNew.h" #include "CertificateImpl.h" #include "ApplianceImplPrivate.h" using namespace std; /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ static const char * const g_pszISOURI = "http://www.ecma-international.org/publications/standards/Ecma-119.htm"; static const char * const g_pszVMDKStreamURI = "http://www.vmware.com/interfaces/specifications/vmdk.html#streamOptimized"; static const char * const g_pszVMDKSparseURI = "http://www.vmware.com/specifications/vmdk.html#sparse"; static const char * const g_pszVMDKCompressedURI = "http://www.vmware.com/specifications/vmdk.html#compressed"; static const char * const g_pszVMDKCompressedURI2 = "http://www.vmware.com/interfaces/specifications/vmdk.html#compressed"; static const char * const g_pszrVHDURI = "http://go.microsoft.com/fwlink/?LinkId=137171"; static char g_szIsoBackend[128]; static char g_szVmdkBackend[128]; static char g_szVhdBackend[128]; /** Set after the g_szXxxxBackend variables has been initialized. */ static bool volatile g_fInitializedBackendNames = false; static struct { const char *pszUri, *pszBackend; } const g_aUriToBackend[] = { { g_pszISOURI, g_szIsoBackend }, { g_pszVMDKStreamURI, g_szVmdkBackend }, { g_pszVMDKSparseURI, g_szVmdkBackend }, { g_pszVMDKCompressedURI, g_szVmdkBackend }, { g_pszVMDKCompressedURI2, g_szVmdkBackend }, { g_pszrVHDURI, g_szVhdBackend }, }; static std::map supportedStandardsURI; static struct { ovf::CIMOSType_T cim; VBOXOSTYPE osType; } const g_aOsTypes[] = { { ovf::CIMOSType_CIMOS_Unknown, VBOXOSTYPE_Unknown }, { ovf::CIMOSType_CIMOS_OS2, VBOXOSTYPE_OS2 }, { ovf::CIMOSType_CIMOS_OS2, VBOXOSTYPE_OS2Warp3 }, { ovf::CIMOSType_CIMOS_OS2, VBOXOSTYPE_OS2Warp4 }, { ovf::CIMOSType_CIMOS_OS2, VBOXOSTYPE_OS2Warp45 }, { ovf::CIMOSType_CIMOS_MSDOS, VBOXOSTYPE_DOS }, { ovf::CIMOSType_CIMOS_WIN3x, VBOXOSTYPE_Win31 }, { ovf::CIMOSType_CIMOS_WIN95, VBOXOSTYPE_Win95 }, { ovf::CIMOSType_CIMOS_WIN98, VBOXOSTYPE_Win98 }, { ovf::CIMOSType_CIMOS_WINNT, VBOXOSTYPE_WinNT }, { ovf::CIMOSType_CIMOS_WINNT, VBOXOSTYPE_WinNT4 }, { ovf::CIMOSType_CIMOS_WINNT, VBOXOSTYPE_WinNT3x }, { ovf::CIMOSType_CIMOS_NetWare, VBOXOSTYPE_Netware }, { ovf::CIMOSType_CIMOS_NovellOES, VBOXOSTYPE_Netware }, { ovf::CIMOSType_CIMOS_Solaris, VBOXOSTYPE_Solaris }, { ovf::CIMOSType_CIMOS_SunOS, VBOXOSTYPE_Solaris }, { ovf::CIMOSType_CIMOS_FreeBSD, VBOXOSTYPE_FreeBSD }, { ovf::CIMOSType_CIMOS_NetBSD, VBOXOSTYPE_NetBSD }, { ovf::CIMOSType_CIMOS_QNX, VBOXOSTYPE_QNX }, { ovf::CIMOSType_CIMOS_Windows2000, VBOXOSTYPE_Win2k }, { ovf::CIMOSType_CIMOS_WindowsMe, VBOXOSTYPE_WinMe }, { ovf::CIMOSType_CIMOS_OpenBSD, VBOXOSTYPE_OpenBSD }, { ovf::CIMOSType_CIMOS_WindowsXP, VBOXOSTYPE_WinXP }, { ovf::CIMOSType_CIMOS_WindowsXPEmbedded, VBOXOSTYPE_WinXP }, { ovf::CIMOSType_CIMOS_WindowsEmbeddedforPointofService, VBOXOSTYPE_WinXP }, { ovf::CIMOSType_CIMOS_MicrosoftWindowsServer2003, VBOXOSTYPE_Win2k3 }, { ovf::CIMOSType_CIMOS_MicrosoftWindowsServer2003_64, VBOXOSTYPE_Win2k3_x64 }, { ovf::CIMOSType_CIMOS_WindowsXP_64, VBOXOSTYPE_WinXP_x64 }, { ovf::CIMOSType_CIMOS_WindowsVista, VBOXOSTYPE_WinVista }, { ovf::CIMOSType_CIMOS_WindowsVista_64, VBOXOSTYPE_WinVista_x64 }, { ovf::CIMOSType_CIMOS_MicrosoftWindowsServer2008, VBOXOSTYPE_Win2k8 }, { ovf::CIMOSType_CIMOS_MicrosoftWindowsServer2008_64, VBOXOSTYPE_Win2k8_x64 }, { ovf::CIMOSType_CIMOS_FreeBSD_64, VBOXOSTYPE_FreeBSD_x64 }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS_x64 }, // there is no CIM 64-bit type for this { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS106 }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS106_x64 }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS107_x64 }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS108_x64 }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS109_x64 }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS1010_x64 }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS1011_x64 }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS1012_x64 }, { ovf::CIMOSType_CIMOS_MACOS, VBOXOSTYPE_MacOS1013_x64 }, // Linuxes { ovf::CIMOSType_CIMOS_RedHatEnterpriseLinux, VBOXOSTYPE_RedHat }, { ovf::CIMOSType_CIMOS_RedHatEnterpriseLinux_64, VBOXOSTYPE_RedHat_x64 }, { ovf::CIMOSType_CIMOS_Solaris_64, VBOXOSTYPE_Solaris_x64 }, { ovf::CIMOSType_CIMOS_SUSE, VBOXOSTYPE_OpenSUSE }, { ovf::CIMOSType_CIMOS_SLES, VBOXOSTYPE_OpenSUSE }, { ovf::CIMOSType_CIMOS_NovellLinuxDesktop, VBOXOSTYPE_OpenSUSE }, { ovf::CIMOSType_CIMOS_SUSE_64, VBOXOSTYPE_OpenSUSE_x64 }, { ovf::CIMOSType_CIMOS_SLES_64, VBOXOSTYPE_OpenSUSE_x64 }, { ovf::CIMOSType_CIMOS_LINUX, VBOXOSTYPE_Linux }, { ovf::CIMOSType_CIMOS_LINUX, VBOXOSTYPE_Linux22 }, { ovf::CIMOSType_CIMOS_SunJavaDesktopSystem, VBOXOSTYPE_Linux }, { ovf::CIMOSType_CIMOS_TurboLinux, VBOXOSTYPE_Turbolinux }, { ovf::CIMOSType_CIMOS_TurboLinux_64, VBOXOSTYPE_Turbolinux_x64 }, { ovf::CIMOSType_CIMOS_Mandriva, VBOXOSTYPE_Mandriva }, { ovf::CIMOSType_CIMOS_Mandriva_64, VBOXOSTYPE_Mandriva_x64 }, { ovf::CIMOSType_CIMOS_Ubuntu, VBOXOSTYPE_Ubuntu }, { ovf::CIMOSType_CIMOS_Ubuntu_64, VBOXOSTYPE_Ubuntu_x64 }, { ovf::CIMOSType_CIMOS_Debian, VBOXOSTYPE_Debian }, { ovf::CIMOSType_CIMOS_Debian_64, VBOXOSTYPE_Debian_x64 }, { ovf::CIMOSType_CIMOS_Linux_2_4_x, VBOXOSTYPE_Linux24 }, { ovf::CIMOSType_CIMOS_Linux_2_4_x_64, VBOXOSTYPE_Linux24_x64 }, { ovf::CIMOSType_CIMOS_Linux_2_6_x, VBOXOSTYPE_Linux26 }, { ovf::CIMOSType_CIMOS_Linux_2_6_x_64, VBOXOSTYPE_Linux26_x64 }, { ovf::CIMOSType_CIMOS_Linux_64, VBOXOSTYPE_Linux26_x64 }, // types that we have support for but CIM doesn't { ovf::CIMOSType_CIMOS_Linux_2_6_x, VBOXOSTYPE_ArchLinux }, { ovf::CIMOSType_CIMOS_Linux_2_6_x_64, VBOXOSTYPE_ArchLinux_x64 }, { ovf::CIMOSType_CIMOS_Linux_2_6_x, VBOXOSTYPE_FedoraCore }, { ovf::CIMOSType_CIMOS_Linux_2_6_x_64, VBOXOSTYPE_FedoraCore_x64 }, { ovf::CIMOSType_CIMOS_Linux_2_6_x, VBOXOSTYPE_Gentoo }, { ovf::CIMOSType_CIMOS_Linux_2_6_x_64, VBOXOSTYPE_Gentoo_x64 }, { ovf::CIMOSType_CIMOS_Linux_2_6_x, VBOXOSTYPE_Xandros }, { ovf::CIMOSType_CIMOS_Linux_2_6_x_64, VBOXOSTYPE_Xandros_x64 }, { ovf::CIMOSType_CIMOS_Solaris, VBOXOSTYPE_OpenSolaris }, { ovf::CIMOSType_CIMOS_Solaris_64, VBOXOSTYPE_OpenSolaris_x64 }, // types added with CIM 2.25.0 follow: { ovf::CIMOSType_CIMOS_WindowsServer2008R2, VBOXOSTYPE_Win2k8 }, // duplicate, see above // { ovf::CIMOSType_CIMOS_VMwareESXi = 104, // we can't run ESX in a VM { ovf::CIMOSType_CIMOS_Windows7, VBOXOSTYPE_Win7 }, { ovf::CIMOSType_CIMOS_Windows7, VBOXOSTYPE_Win7_x64 }, // there is no // CIM 64-bit type for this { ovf::CIMOSType_CIMOS_CentOS, VBOXOSTYPE_RedHat }, { ovf::CIMOSType_CIMOS_CentOS_64, VBOXOSTYPE_RedHat_x64 }, { ovf::CIMOSType_CIMOS_OracleEnterpriseLinux, VBOXOSTYPE_Oracle }, { ovf::CIMOSType_CIMOS_OracleEnterpriseLinux_64, VBOXOSTYPE_Oracle_x64 }, { ovf::CIMOSType_CIMOS_eComStation, VBOXOSTYPE_ECS } // there are no CIM types for these, so these turn to "other" on export: // VBOXOSTYPE_OpenBSD // VBOXOSTYPE_OpenBSD_x64 // VBOXOSTYPE_NetBSD // VBOXOSTYPE_NetBSD_x64 }; /* Pattern structure for matching the OS type description field */ struct osTypePattern { const char *pcszPattern; VBOXOSTYPE osType; }; /* These are the 32-Bit ones. They are sorted by priority. */ static const osTypePattern g_aOsTypesPattern[] = { {"Windows NT", VBOXOSTYPE_WinNT4}, {"Windows XP", VBOXOSTYPE_WinXP}, {"Windows 2000", VBOXOSTYPE_Win2k}, {"Windows 2003", VBOXOSTYPE_Win2k3}, {"Windows Vista", VBOXOSTYPE_WinVista}, {"Windows 2008", VBOXOSTYPE_Win2k8}, {"SUSE", VBOXOSTYPE_OpenSUSE}, {"Novell", VBOXOSTYPE_OpenSUSE}, {"Red Hat", VBOXOSTYPE_RedHat}, {"Mandriva", VBOXOSTYPE_Mandriva}, {"Ubuntu", VBOXOSTYPE_Ubuntu}, {"Debian", VBOXOSTYPE_Debian}, {"QNX", VBOXOSTYPE_QNX}, {"Linux 2.4", VBOXOSTYPE_Linux24}, {"Linux 2.6", VBOXOSTYPE_Linux26}, {"Linux", VBOXOSTYPE_Linux}, {"OpenSolaris", VBOXOSTYPE_OpenSolaris}, {"Solaris", VBOXOSTYPE_OpenSolaris}, {"FreeBSD", VBOXOSTYPE_FreeBSD}, {"NetBSD", VBOXOSTYPE_NetBSD}, {"Windows 95", VBOXOSTYPE_Win95}, {"Windows 98", VBOXOSTYPE_Win98}, {"Windows Me", VBOXOSTYPE_WinMe}, {"Windows 3.", VBOXOSTYPE_Win31}, {"DOS", VBOXOSTYPE_DOS}, {"OS2", VBOXOSTYPE_OS2} }; /* These are the 64-Bit ones. They are sorted by priority. */ static const osTypePattern g_aOsTypesPattern64[] = { {"Windows XP", VBOXOSTYPE_WinXP_x64}, {"Windows 2003", VBOXOSTYPE_Win2k3_x64}, {"Windows Vista", VBOXOSTYPE_WinVista_x64}, {"Windows 2008", VBOXOSTYPE_Win2k8_x64}, {"SUSE", VBOXOSTYPE_OpenSUSE_x64}, {"Novell", VBOXOSTYPE_OpenSUSE_x64}, {"Red Hat", VBOXOSTYPE_RedHat_x64}, {"Mandriva", VBOXOSTYPE_Mandriva_x64}, {"Ubuntu", VBOXOSTYPE_Ubuntu_x64}, {"Debian", VBOXOSTYPE_Debian_x64}, {"Linux 2.4", VBOXOSTYPE_Linux24_x64}, {"Linux 2.6", VBOXOSTYPE_Linux26_x64}, {"Linux", VBOXOSTYPE_Linux26_x64}, {"OpenSolaris", VBOXOSTYPE_OpenSolaris_x64}, {"Solaris", VBOXOSTYPE_OpenSolaris_x64}, {"FreeBSD", VBOXOSTYPE_FreeBSD_x64}, }; /** * Private helper func that suggests a VirtualBox guest OS type * for the given OVF operating system type. */ void convertCIMOSType2VBoxOSType(Utf8Str &strType, ovf::CIMOSType_T c, const Utf8Str &cStr) { /* First check if the type is other/other_64 */ if (c == ovf::CIMOSType_CIMOS_Other) { for (size_t i = 0; i < RT_ELEMENTS(g_aOsTypesPattern); ++i) if (cStr.contains(g_aOsTypesPattern[i].pcszPattern, Utf8Str::CaseInsensitive)) { strType = Global::OSTypeId(g_aOsTypesPattern[i].osType); return; } } else if (c == ovf::CIMOSType_CIMOS_Other_64) { for (size_t i = 0; i < RT_ELEMENTS(g_aOsTypesPattern64); ++i) if (cStr.contains(g_aOsTypesPattern64[i].pcszPattern, Utf8Str::CaseInsensitive)) { strType = Global::OSTypeId(g_aOsTypesPattern64[i].osType); return; } } for (size_t i = 0; i < RT_ELEMENTS(g_aOsTypes); ++i) { if (c == g_aOsTypes[i].cim) { strType = Global::OSTypeId(g_aOsTypes[i].osType); return; } } if (c == ovf::CIMOSType_CIMOS_Other_64) strType = Global::OSTypeId(VBOXOSTYPE_Unknown_x64); else strType = Global::OSTypeId(VBOXOSTYPE_Unknown); } /** * Private helper func that suggests a VirtualBox guest OS type * for the given OVF operating system type. * @returns CIM OS type. * @param pcszVBox Our guest OS type identifier string. * @param fLongMode Whether long mode is enabled and a 64-bit CIM type is * preferred even if the VBox guest type isn't 64-bit. */ ovf::CIMOSType_T convertVBoxOSType2CIMOSType(const char *pcszVBox, BOOL fLongMode) { for (size_t i = 0; i < RT_ELEMENTS(g_aOsTypes); ++i) { if (!RTStrICmp(pcszVBox, Global::OSTypeId(g_aOsTypes[i].osType))) { if (fLongMode && !(g_aOsTypes[i].osType & VBOXOSTYPE_x64)) { VBOXOSTYPE enmDesiredOsType = (VBOXOSTYPE)((int)g_aOsTypes[i].osType | (int)VBOXOSTYPE_x64); size_t j = i; while (++j < RT_ELEMENTS(g_aOsTypes)) if (g_aOsTypes[j].osType == enmDesiredOsType) return g_aOsTypes[j].cim; j = i; while (--j > 0) if (g_aOsTypes[j].osType == enmDesiredOsType) return g_aOsTypes[j].cim; /* Not all OSes have 64-bit versions, so just return the 32-bit variant. */ } return g_aOsTypes[i].cim; } } return fLongMode ? ovf::CIMOSType_CIMOS_Other_64 : ovf::CIMOSType_CIMOS_Other; } Utf8Str convertNetworkAttachmentTypeToString(NetworkAttachmentType_T type) { Utf8Str strType; switch (type) { case NetworkAttachmentType_NAT: strType = "NAT"; break; case NetworkAttachmentType_Bridged: strType = "Bridged"; break; case NetworkAttachmentType_Internal: strType = "Internal"; break; case NetworkAttachmentType_HostOnly: strType = "HostOnly"; break; case NetworkAttachmentType_Generic: strType = "Generic"; break; case NetworkAttachmentType_NATNetwork: strType = "NATNetwork"; break; case NetworkAttachmentType_Null: strType = "Null"; break; #ifdef VBOX_WITH_XPCOM_CPP_ENUM_HACK case NetworkAttachmentType_32BitHack: AssertFailedBreak(); /* (compiler warnings) */ #endif } return strType; } //////////////////////////////////////////////////////////////////////////////// // // Appliance constructor / destructor // // //////////////////////////////////////////////////////////////////////////////// DEFINE_EMPTY_CTOR_DTOR(VirtualSystemDescription) HRESULT VirtualSystemDescription::FinalConstruct() { return BaseFinalConstruct(); } void VirtualSystemDescription::FinalRelease() { uninit(); BaseFinalRelease(); } Appliance::Appliance() : mVirtualBox(NULL) { } Appliance::~Appliance() { } HRESULT Appliance::FinalConstruct() { return BaseFinalConstruct(); } void Appliance::FinalRelease() { uninit(); BaseFinalRelease(); } //////////////////////////////////////////////////////////////////////////////// // // Internal helpers // //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // // IVirtualBox public methods // //////////////////////////////////////////////////////////////////////////////// // This code is here so we won't have to include the appliance headers in the // IVirtualBox implementation. /** * Implementation for IVirtualBox::createAppliance. * * @param aAppliance IAppliance object created if S_OK is returned. * @return S_OK or error. */ HRESULT VirtualBox::createAppliance(ComPtr &aAppliance) { ComObjPtr appliance; HRESULT hrc = appliance.createObject(); if (SUCCEEDED(hrc)) { hrc = appliance->init(this); if (SUCCEEDED(hrc)) hrc = appliance.queryInterfaceTo(aAppliance.asOutParam()); } return hrc; } /** * Appliance COM initializer. * @param aVirtualBox The VirtualBox object. */ HRESULT Appliance::init(VirtualBox *aVirtualBox) { HRESULT rc = S_OK; /* Enclose the state transition NotReady->InInit->Ready */ AutoInitSpan autoInitSpan(this); AssertReturn(autoInitSpan.isOk(), E_FAIL); /* Weak reference to a VirtualBox object */ unconst(mVirtualBox) = aVirtualBox; // initialize data m = new Data; m->m_pSecretKeyStore = new SecretKeyStore(false /* fRequireNonPageable*/); AssertReturn(m->m_pSecretKeyStore, E_FAIL); rc = i_initBackendNames(); /* Confirm a successful initialization */ autoInitSpan.setSucceeded(); return rc; } /** * Appliance COM uninitializer. */ void Appliance::uninit() { /* Enclose the state transition Ready->InUninit->NotReady */ AutoUninitSpan autoUninitSpan(this); if (autoUninitSpan.uninitDone()) return; if (m->m_pSecretKeyStore) delete m->m_pSecretKeyStore; delete m; m = NULL; } //////////////////////////////////////////////////////////////////////////////// // // IAppliance public methods // //////////////////////////////////////////////////////////////////////////////// /** * Public method implementation. */ HRESULT Appliance::getPath(com::Utf8Str &aPath) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); aPath = m->locInfo.strPath; return S_OK; } /** * Public method implementation. */ HRESULT Appliance::getDisks(std::vector &aDisks) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); aDisks.resize(0); if (m->pReader) // OVFReader instantiated? { aDisks.resize(m->pReader->m_mapDisks.size()); ovf::DiskImagesMap::const_iterator it; size_t i = 0; for (it = m->pReader->m_mapDisks.begin(); it != m->pReader->m_mapDisks.end(); ++it, ++i) { // create a string representing this disk const ovf::DiskImage &d = it->second; char *psz = NULL; RTStrAPrintf(&psz, "%s\t" "%RI64\t" "%RI64\t" "%s\t" "%s\t" "%RI64\t" "%RI64\t" "%s", d.strDiskId.c_str(), d.iCapacity, d.iPopulatedSize, d.strFormat.c_str(), d.strHref.c_str(), d.iSize, d.iChunkSize, d.strCompression.c_str()); Utf8Str utf(psz); aDisks[i] = utf; RTStrFree(psz); } } return S_OK; } /** * Public method implementation. */ HRESULT Appliance::getCertificate(ComPtr &aCertificateInfo) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); /* Can be NULL at this point, queryInterfaceto handles that. */ m->ptrCertificateInfo.queryInterfaceTo(aCertificateInfo.asOutParam()); return S_OK; } /** * Public method implementation. */ HRESULT Appliance::getVirtualSystemDescriptions(std::vector > &aVirtualSystemDescriptions) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); aVirtualSystemDescriptions.resize(m->virtualSystemDescriptions.size()); std::list< ComObjPtr > vsds(m->virtualSystemDescriptions); size_t i = 0; for (std::list< ComObjPtr >::iterator it = vsds.begin(); it != vsds.end(); ++it, ++i) { (*it).queryInterfaceTo(aVirtualSystemDescriptions[i].asOutParam()); } return S_OK; } /** * Public method implementation. */ HRESULT Appliance::getMachines(std::vector &aMachines) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); aMachines.resize(m->llGuidsMachinesCreated.size()); size_t i = 0; for (std::list::const_iterator it = m->llGuidsMachinesCreated.begin(); it != m->llGuidsMachinesCreated.end(); ++it, ++i) { const Guid &uuid = *it; aMachines[i] = uuid.toUtf16(); } return S_OK; } HRESULT Appliance::createVFSExplorer(const com::Utf8Str &aURI, ComPtr &aExplorer) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); ComObjPtr explorer; HRESULT rc = S_OK; try { Utf8Str uri(aURI); /* Check which kind of export the user has requested */ LocationInfo li; i_parseURI(aURI, li); /* Create the explorer object */ explorer.createObject(); rc = explorer->init(li.storageType, li.strPath, li.strHostname, li.strUsername, li.strPassword, mVirtualBox); } catch (HRESULT aRC) { rc = aRC; } if (SUCCEEDED(rc)) /* Return explorer to the caller */ explorer.queryInterfaceTo(aExplorer.asOutParam()); return rc; } /** * Public method implementation. * Add the "aRequested" numbers of new empty objects of VSD into the list * "virtualSystemDescriptions". * The parameter "aCreated" keeps the actual number of the added objects. * In case of exception all added objects are removed from the list. */ HRESULT Appliance::createVirtualSystemDescriptions(ULONG aRequested, ULONG *aCreated) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); HRESULT rc = S_OK; uint32_t lQuantity = aRequested; uint32_t i=0; if (lQuantity < 1) return setError(E_FAIL, tr("The number of VirtualSystemDescription objects must be at least 1 or more.")); try { for (; i opVSD; rc = opVSD.createObject(); if (SUCCEEDED(rc)) { rc = opVSD->init(); if (SUCCEEDED(rc)) m->virtualSystemDescriptions.push_back(opVSD); else break; } else break; } if (i0; --i) { if (!m->virtualSystemDescriptions.empty()) m->virtualSystemDescriptions.pop_back(); else break; } rc = aRC; } return rc; } /** * Public method implementation. */ HRESULT Appliance::getWarnings(std::vector &aWarnings) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); aWarnings.resize(m->llWarnings.size()); list::const_iterator it; size_t i = 0; for (it = m->llWarnings.begin(); it != m->llWarnings.end(); ++it, ++i) { aWarnings[i] = *it; } return S_OK; } HRESULT Appliance::getPasswordIds(std::vector &aIdentifiers) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); aIdentifiers = m->m_vecPasswordIdentifiers; return S_OK; } HRESULT Appliance::getMediumIdsForPasswordId(const com::Utf8Str &aPasswordId, std::vector &aIdentifiers) { HRESULT hrc = S_OK; AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); std::map::const_iterator it = m->m_mapPwIdToMediumIds.find(aPasswordId); if (it != m->m_mapPwIdToMediumIds.end()) aIdentifiers = it->second; else hrc = setError(E_FAIL, tr("The given password identifier is not associated with any medium")); return hrc; } HRESULT Appliance::addPasswords(const std::vector &aIdentifiers, const std::vector &aPasswords) { HRESULT hrc = S_OK; AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); /* Check that the IDs do not exist already before changing anything. */ for (unsigned i = 0; i < aIdentifiers.size(); i++) { SecretKey *pKey = NULL; int rc = m->m_pSecretKeyStore->retainSecretKey(aIdentifiers[i], &pKey); if (rc != VERR_NOT_FOUND) { AssertPtr(pKey); if (pKey) pKey->release(); return setError(VBOX_E_OBJECT_IN_USE, tr("A password with the given ID already exists")); } } for (unsigned i = 0; i < aIdentifiers.size() && SUCCEEDED(hrc); i++) { size_t cbKey = aPasswords[i].length() + 1; /* Include terminator */ const uint8_t *pbKey = (const uint8_t *)aPasswords[i].c_str(); int rc = m->m_pSecretKeyStore->addSecretKey(aIdentifiers[i], pbKey, cbKey); if (RT_SUCCESS(rc)) m->m_cPwProvided++; else if (rc == VERR_NO_MEMORY) hrc = setError(E_OUTOFMEMORY, tr("Failed to allocate enough secure memory for the key")); else hrc = setError(E_FAIL, tr("Unknown error happened while adding a password (%Rrc)"), rc); } return hrc; } //////////////////////////////////////////////////////////////////////////////// // // Appliance private methods // //////////////////////////////////////////////////////////////////////////////// HRESULT Appliance::i_initBackendNames() { HRESULT hrc = S_OK; if (!g_fInitializedBackendNames) { /* * Use the system properties to translate file extensions into * storage backend names. */ static struct { const char *pszExt; /**< extension */ char *pszBackendName; size_t cbBackendName; } const s_aFormats[] = { { "iso", g_szIsoBackend, sizeof(g_szIsoBackend) }, { "vmdk", g_szVmdkBackend, sizeof(g_szVmdkBackend) }, { "vhd", g_szVhdBackend, sizeof(g_szVhdBackend) }, }; SystemProperties *pSysProps = mVirtualBox->i_getSystemProperties(); for (unsigned i = 0; i < RT_ELEMENTS(s_aFormats); i++) { ComObjPtr trgFormat = pSysProps->i_mediumFormatFromExtension(s_aFormats[i].pszExt); if (trgFormat.isNotNull()) { const char *pszName = trgFormat->i_getName().c_str(); int vrc = RTStrCopy(s_aFormats[i].pszBackendName, s_aFormats[i].cbBackendName, pszName); AssertRCStmt(vrc, hrc = setError(E_FAIL, "Unexpected storage backend name copy error %Rrc for %s.", vrc, pszName)); } else hrc = setError(E_FAIL, tr("Can't find appropriate medium format for ISO type of a virtual disk.")); } if (SUCCEEDED(hrc)) g_fInitializedBackendNames = true; } return hrc; } Utf8Str Appliance::i_typeOfVirtualDiskFormatFromURI(Utf8Str uri) const { Assert(g_fInitializedBackendNames); unsigned i = RT_ELEMENTS(g_aUriToBackend); while (i-- > 0) if (RTStrICmp(g_aUriToBackend[i].pszUri, uri.c_str()) == 0) return Utf8Str(g_aUriToBackend[i].pszBackend); return Utf8Str(); } #if 0 /* unused */ std::set Appliance::i_URIFromTypeOfVirtualDiskFormat(Utf8Str type) { Assert(g_fInitializedBackendNames); std::set UriSet; unsigned i = RT_ELEMENTS(g_aUriToBackend); while (i-- > 0) if (RTStrICmp(g_aUriToBackend[i].pszBackend, type.c_str()) == 0) UriSet.insert(g_aUriToBackend[i].pszUri); return UriSet; } #endif /** * Returns a medium format object corresponding to the given * disk image or null if no such format. * * @param di Disk Image * @param mf Medium Format * * @return ComObjPtr */ HRESULT Appliance::i_findMediumFormatFromDiskImage(const ovf::DiskImage &di, ComObjPtr& mf) { HRESULT rc = S_OK; /* Get the system properties. */ SystemProperties *pSysProps = mVirtualBox->i_getSystemProperties(); /* We need a proper source format description */ /* Which format to use? */ Utf8Str strSrcFormat = i_typeOfVirtualDiskFormatFromURI(di.strFormat); /* * fallback, if we can't determine virtual disk format using URI from the attribute ovf:format * in the corresponding section in the OVF file. */ if (strSrcFormat.isEmpty()) { strSrcFormat = di.strHref; /* check either file gzipped or not * if "yes" then remove last extension, * i.e. "image.vmdk.gz"->"image.vmdk" */ if (di.strCompression == "gzip") { if (RTPathHasSuffix(strSrcFormat.c_str())) { strSrcFormat.stripSuffix(); } else { mf.setNull(); rc = setError(E_FAIL, tr("Internal inconsistency looking up medium format for the disk image '%s'"), di.strHref.c_str()); return rc; } } /* Figure out from extension which format the image of disk has. */ if (RTPathHasSuffix(strSrcFormat.c_str())) { const char *pszExt = RTPathSuffix(strSrcFormat.c_str()); if (pszExt) pszExt++; mf = pSysProps->i_mediumFormatFromExtension(pszExt); } else mf.setNull(); } else mf = pSysProps->i_mediumFormat(strSrcFormat); if (mf.isNull()) rc = setError(E_FAIL, tr("Internal inconsistency looking up medium format for the disk image '%s'"), di.strHref.c_str()); return rc; } /** * Setup automatic I/O stream digest calculation, adding it to hOurManifest. * * @returns Passthru I/O stream, of @a hVfsIos if no digest calc needed. * @param hVfsIos The stream to wrap. Always consumed. * @param pszManifestEntry The manifest entry. * @param fRead Set if read stream, clear if write. * @throws Nothing. */ RTVFSIOSTREAM Appliance::i_manifestSetupDigestCalculationForGivenIoStream(RTVFSIOSTREAM hVfsIos, const char *pszManifestEntry, bool fRead /*= true */) { int vrc; Assert(!RTManifestPtIosIsInstanceOf(hVfsIos)); if (m->fDigestTypes == 0) return hVfsIos; /* Create the manifest if necessary. */ if (m->hOurManifest == NIL_RTMANIFEST) { vrc = RTManifestCreate(0 /*fFlags*/, &m->hOurManifest); AssertRCReturnStmt(vrc, RTVfsIoStrmRelease(hVfsIos), NIL_RTVFSIOSTREAM); } /* Setup the stream. */ RTVFSIOSTREAM hVfsIosPt; vrc = RTManifestEntryAddPassthruIoStream(m->hOurManifest, hVfsIos, pszManifestEntry, m->fDigestTypes, fRead, &hVfsIosPt); RTVfsIoStrmRelease(hVfsIos); /* always consumed! */ if (RT_SUCCESS(vrc)) return hVfsIosPt; setErrorVrc(vrc, "RTManifestEntryAddPassthruIoStream failed with rc=%Rrc", vrc); return NIL_RTVFSIOSTREAM; } /** * Returns true if the appliance is in "idle" state. This should always be the * case unless an import or export is currently in progress. Similar to machine * states, this permits the Appliance implementation code to let go of the * Appliance object lock while a time-consuming disk conversion is in progress * without exposing the appliance to conflicting calls. * * This sets an error on "this" (the appliance) and returns false if the appliance * is busy. The caller should then return E_ACCESSDENIED. * * Must be called from under the object lock! */ bool Appliance::i_isApplianceIdle() { if (m->state == ApplianceImporting) setError(VBOX_E_INVALID_OBJECT_STATE, tr("The appliance is busy importing files")); else if (m->state == ApplianceExporting) setError(VBOX_E_INVALID_OBJECT_STATE, tr("The appliance is busy exporting files")); else return true; return false; } HRESULT Appliance::i_searchUniqueVMName(Utf8Str& aName) const { IMachine *machine = NULL; char *tmpName = RTStrDup(aName.c_str()); int i = 1; while (mVirtualBox->FindMachine(Bstr(tmpName).raw(), &machine) != VBOX_E_OBJECT_NOT_FOUND) { RTStrFree(tmpName); RTStrAPrintf(&tmpName, "%s %d", aName.c_str(), i); ++i; } aName = tmpName; RTStrFree(tmpName); return S_OK; } HRESULT Appliance::i_searchUniqueImageFilePath(const Utf8Str &aMachineFolder, DeviceType_T aDeviceType, Utf8Str &aName) const { /* * Check if the file exists or if a medium with this path is registered already */ Utf8Str strAbsName; ssize_t offDashNum = -1; ssize_t cchDashNum = 0; for (unsigned i = 1;; i++) { /* Complete the path (could be relative to machine folder). */ int rc = RTPathAbsExCxx(strAbsName, aMachineFolder, aName); AssertRCReturn(rc, Global::vboxStatusCodeToCOM(rc)); /** @todo stupid caller ignores this */ /* Check that the file does not exist and that there is no media somehow matching the name. */ if (!RTPathExists(strAbsName.c_str())) { ComPtr ptrMedium; HRESULT hrc = mVirtualBox->OpenMedium(Bstr(strAbsName).raw(), aDeviceType, AccessMode_ReadWrite, FALSE /* fForceNewUuid */, ptrMedium.asOutParam()); if (hrc == VBOX_E_OBJECT_NOT_FOUND) return S_OK; } /* Insert '_%i' before the suffix and try again. */ if (offDashNum < 0) { const char *pszSuffix = RTPathSuffix(aName.c_str()); offDashNum = pszSuffix ? pszSuffix - aName.c_str() : aName.length(); } char szTmp[32]; size_t cchTmp = RTStrPrintf(szTmp, sizeof(szTmp), "_%u", i); aName.replace(offDashNum, cchDashNum, szTmp, cchTmp); cchDashNum = cchTmp; } } /** * Called from Appliance::importImpl() and Appliance::writeImpl() to set up a * progress object with the proper weights and maximum progress values. */ HRESULT Appliance::i_setUpProgress(ComObjPtr &pProgress, const Utf8Str &strDescription, SetUpProgressMode mode) { HRESULT rc; /* Create the progress object */ try { rc = pProgress.createObject(); if (FAILED(rc)) return rc; } catch (std::bad_alloc &) { return E_OUTOFMEMORY; } // compute the disks weight (this sets ulTotalDisksMB and cDisks in the instance data) i_disksWeight(); m->ulWeightForManifestOperation = 0; ULONG cOperations = 1 // one for XML setup + m->cDisks; // plus one per disk ULONG ulTotalOperationsWeight; if (m->ulTotalDisksMB) { m->ulWeightForXmlOperation = (ULONG)((double)m->ulTotalDisksMB * 1 / 100); // use 1% of the progress for the XML ulTotalOperationsWeight = m->ulTotalDisksMB + m->ulWeightForXmlOperation; } else { // no disks to export: m->ulWeightForXmlOperation = 1; ulTotalOperationsWeight = 1; } switch (mode) { case ImportFile: { break; } case WriteFile: { // assume that creating the manifest will take .1% of the time it takes to export the disks if (m->fManifest) { ++cOperations; // another one for creating the manifest m->ulWeightForManifestOperation = (ULONG)((double)m->ulTotalDisksMB * .1 / 100); // use .5% of the // progress for the manifest ulTotalOperationsWeight += m->ulWeightForManifestOperation; } break; } case ImportS3: { cOperations += 1 + 1; // another one for the manifest file & another one for the import ulTotalOperationsWeight = m->ulTotalDisksMB; if (!m->ulTotalDisksMB) // no disks to export: ulTotalOperationsWeight = 1; ULONG ulImportWeight = (ULONG)((double)ulTotalOperationsWeight * 50 / 100); // use 50% for import ulTotalOperationsWeight += ulImportWeight; m->ulWeightForXmlOperation = ulImportWeight; /* save for using later */ ULONG ulInitWeight = (ULONG)((double)ulTotalOperationsWeight * 0.1 / 100); // use 0.1% for init ulTotalOperationsWeight += ulInitWeight; break; } case WriteS3: { cOperations += 1 + 1; // another one for the mf & another one for temporary creation if (m->ulTotalDisksMB) { m->ulWeightForXmlOperation = (ULONG)((double)m->ulTotalDisksMB * 1 / 100); // use 1% of the progress // for OVF file upload // (we didn't know the // size at this point) ulTotalOperationsWeight = m->ulTotalDisksMB + m->ulWeightForXmlOperation; } else { // no disks to export: ulTotalOperationsWeight = 1; m->ulWeightForXmlOperation = 1; } ULONG ulOVFCreationWeight = (ULONG)((double)ulTotalOperationsWeight * 50.0 / 100.0); /* Use 50% for the creation of the OVF & the disks */ ulTotalOperationsWeight += ulOVFCreationWeight; break; } case ExportCloud: case ImportCloud: break; } Log(("Setting up progress object: ulTotalMB = %d, cDisks = %d, => cOperations = %d, ulTotalOperationsWeight = %d, m->ulWeightForXmlOperation = %d\n", m->ulTotalDisksMB, m->cDisks, cOperations, ulTotalOperationsWeight, m->ulWeightForXmlOperation)); return pProgress->init(mVirtualBox, static_cast(this), strDescription, TRUE /* aCancelable */, cOperations, // ULONG cOperations, ulTotalOperationsWeight, // ULONG ulTotalOperationsWeight, strDescription, // CBSTR bstrFirstOperationDescription, m->ulWeightForXmlOperation); // ULONG ulFirstOperationWeight, } void Appliance::i_addWarning(const char* aWarning, ...) { try { va_list args; va_start(args, aWarning); Utf8Str str(aWarning, args); va_end(args); m->llWarnings.push_back(str); } catch (...) { AssertFailed(); } } /** * Refreshes the cDisks and ulTotalDisksMB members in the instance data. * Requires that virtual system descriptions are present. */ void Appliance::i_disksWeight() { m->ulTotalDisksMB = 0; m->cDisks = 0; // weigh the disk images according to their sizes list< ComObjPtr >::const_iterator it; for (it = m->virtualSystemDescriptions.begin(); it != m->virtualSystemDescriptions.end(); ++it) { ComObjPtr vsdescThis = (*it); /* One for every medium of the Virtual System */ std::list avsdeHDs = vsdescThis->i_findByType(VirtualSystemDescriptionType_HardDiskImage); std::list::const_iterator itH; for (itH = avsdeHDs.begin(); itH != avsdeHDs.end(); ++itH) { const VirtualSystemDescriptionEntry *pHD = *itH; m->ulTotalDisksMB += pHD->ulSizeMB; ++m->cDisks; } avsdeHDs = vsdescThis->i_findByType(VirtualSystemDescriptionType_CDROM); for (itH = avsdeHDs.begin(); itH != avsdeHDs.end(); ++itH) { const VirtualSystemDescriptionEntry *pHD = *itH; m->ulTotalDisksMB += pHD->ulSizeMB; ++m->cDisks; } } } void Appliance::i_parseBucket(Utf8Str &aPath, Utf8Str &aBucket) { /* Buckets are S3 specific. So parse the bucket out of the file path */ if (!aPath.startsWith("/")) throw setError(E_INVALIDARG, tr("The path '%s' must start with /"), aPath.c_str()); size_t bpos = aPath.find("/", 1); if (bpos != Utf8Str::npos) { aBucket = aPath.substr(1, bpos - 1); /* The bucket without any slashes */ aPath = aPath.substr(bpos); /* The rest of the file path */ } /* If there is no bucket name provided reject it */ if (aBucket.isEmpty()) throw setError(E_INVALIDARG, tr("You doesn't provide a bucket name in the URI '%s'"), aPath.c_str()); } /** * Worker for TaskOVF::handler. * * The TaskOVF is started in Appliance::readImpl() and Appliance::importImpl() * and Appliance::writeImpl(). * * This will in turn call Appliance::readFS() or Appliance::importFS() or * Appliance::writeFS(). * * @thread pTask The task. */ /* static */ void Appliance::i_importOrExportThreadTask(TaskOVF *pTask) { LogFlowFuncEnter(); AssertReturnVoid(pTask); Appliance *pAppliance = pTask->pAppliance; LogFlowFunc(("Appliance %p taskType=%d\n", pAppliance, pTask->taskType)); switch (pTask->taskType) { case TaskOVF::Read: pAppliance->m->resetReadData(); if (pTask->locInfo.storageType == VFSType_File) pTask->rc = pAppliance->i_readFS(pTask); else pTask->rc = E_NOTIMPL; break; case TaskOVF::Import: /** @todo allow overriding these? */ if (!pAppliance->m->fSignatureValid && pAppliance->m->pbSignedDigest) pTask->rc = pAppliance->setError(E_FAIL, tr("The manifest signature for '%s' is not valid"), pTask->locInfo.strPath.c_str()); else if (!pAppliance->m->fCertificateValid && pAppliance->m->pbSignedDigest) { if (pAppliance->m->strCertError.isNotEmpty()) pTask->rc = pAppliance->setError(E_FAIL, tr("The certificate used to signed '%s' is not valid: %s"), pTask->locInfo.strPath.c_str(), pAppliance->m->strCertError.c_str()); else pTask->rc = pAppliance->setError(E_FAIL, tr("The certificate used to signed '%s' is not valid"), pTask->locInfo.strPath.c_str()); } // fusion does not consider this a show stopper (we've filed a warning during read). //else if (pAppliance->m->fCertificateMissingPath && pAppliance->m->pbSignedDigest) // pTask->rc = pAppliance->setError(E_FAIL, tr("The certificate used to signed '%s' is does not have a valid CA path"), // pTask->locInfo.strPath.c_str()); else { if (pTask->locInfo.storageType == VFSType_File) pTask->rc = pAppliance->i_importFS(pTask); else pTask->rc = E_NOTIMPL; } break; case TaskOVF::Write: if (pTask->locInfo.storageType == VFSType_File) pTask->rc = pAppliance->i_writeFS(pTask); else pTask->rc = E_NOTIMPL; break; default: AssertFailed(); pTask->rc = E_FAIL; break; } if (!pTask->pProgress.isNull()) pTask->pProgress->i_notifyComplete(pTask->rc); LogFlowFuncLeave(); } /* static */ DECLCALLBACK(int) Appliance::TaskOVF::updateProgress(unsigned uPercent, void *pvUser) { Appliance::TaskOVF* pTask = *(Appliance::TaskOVF**)pvUser; if ( pTask && !pTask->pProgress.isNull()) { BOOL fCanceled; pTask->pProgress->COMGETTER(Canceled)(&fCanceled); if (fCanceled) return -1; pTask->pProgress->SetCurrentOperationProgress(uPercent); } return VINF_SUCCESS; } /** * Worker for TaskOPC::handler. * @thread pTask The task. */ /* static */ void Appliance::i_exportOPCThreadTask(TaskOPC *pTask) { LogFlowFuncEnter(); AssertReturnVoid(pTask); Appliance *pAppliance = pTask->pAppliance; LogFlowFunc(("Appliance %p taskType=%d\n", pAppliance, pTask->taskType)); switch (pTask->taskType) { case TaskOPC::Export: pTask->rc = pAppliance->i_writeFSOPC(pTask); break; default: AssertFailed(); pTask->rc = E_FAIL; break; } if (!pTask->pProgress.isNull()) pTask->pProgress->i_notifyComplete(pTask->rc); LogFlowFuncLeave(); } /* static */ DECLCALLBACK(int) Appliance::TaskOPC::updateProgress(unsigned uPercent, void *pvUser) { Appliance::TaskOPC* pTask = *(Appliance::TaskOPC**)pvUser; if ( pTask && !pTask->pProgress.isNull()) { BOOL fCanceled; pTask->pProgress->COMGETTER(Canceled)(&fCanceled); if (fCanceled) return -1; pTask->pProgress->SetCurrentOperationProgress(uPercent); } return VINF_SUCCESS; } /** * Worker for TaskCloud::handler. * @thread pTask The task. */ /* static */ void Appliance::i_importOrExportCloudThreadTask(TaskCloud *pTask) { LogFlowFuncEnter(); AssertReturnVoid(pTask); Appliance *pAppliance = pTask->pAppliance; LogFlowFunc(("Appliance %p taskType=%d\n", pAppliance, pTask->taskType)); switch (pTask->taskType) { case TaskCloud::Export: pAppliance->i_setApplianceState(ApplianceExporting); pTask->rc = pAppliance->i_exportCloudImpl(pTask); break; case TaskCloud::Import: pAppliance->i_setApplianceState(ApplianceImporting); pTask->rc = pAppliance->i_importCloudImpl(pTask); break; case TaskCloud::ReadData: pAppliance->i_setApplianceState(ApplianceImporting); pTask->rc = pAppliance->i_gettingCloudData(pTask); break; default: AssertFailed(); pTask->rc = E_FAIL; break; } pAppliance->i_setApplianceState(ApplianceIdle); if (!pTask->pProgress.isNull()) pTask->pProgress->i_notifyComplete(pTask->rc); LogFlowFuncLeave(); } /* static */ DECLCALLBACK(int) Appliance::TaskCloud::updateProgress(unsigned uPercent, void *pvUser) { Appliance::TaskCloud* pTask = *(Appliance::TaskCloud**)pvUser; if ( pTask && !pTask->pProgress.isNull()) { BOOL fCanceled; pTask->pProgress->COMGETTER(Canceled)(&fCanceled); if (fCanceled) return -1; pTask->pProgress->SetCurrentOperationProgress(uPercent); } return VINF_SUCCESS; } void i_parseURI(Utf8Str strUri, LocationInfo &locInfo) { /* Check the URI for the protocol */ if (strUri.startsWith("file://", Utf8Str::CaseInsensitive)) /* File based */ { locInfo.storageType = VFSType_File; strUri = strUri.substr(sizeof("file://") - 1); } else if (strUri.startsWith("SunCloud://", Utf8Str::CaseInsensitive)) /* Sun Cloud service */ { locInfo.storageType = VFSType_S3; strUri = strUri.substr(sizeof("SunCloud://") - 1); } else if (strUri.startsWith("S3://", Utf8Str::CaseInsensitive)) /* S3 service */ { locInfo.storageType = VFSType_S3; strUri = strUri.substr(sizeof("S3://") - 1); } else if (strUri.startsWith("OCI://", Utf8Str::CaseInsensitive)) /* OCI service (storage or compute) */ { locInfo.storageType = VFSType_Cloud; locInfo.strProvider = "OCI"; strUri = strUri.substr(sizeof("OCI://") - 1); } else if (strUri.startsWith("webdav://", Utf8Str::CaseInsensitive)) /* webdav service */ throw E_NOTIMPL; /* Not necessary on a file based URI */ // if (locInfo.storageType != VFSType_File) // { // size_t uppos = strUri.find("@"); /* username:password combo */ // if (uppos != Utf8Str::npos) // { // locInfo.strUsername = strUri.substr(0, uppos); // strUri = strUri.substr(uppos + 1); // size_t upos = locInfo.strUsername.find(":"); // if (upos != Utf8Str::npos) // { // locInfo.strPassword = locInfo.strUsername.substr(upos + 1); // locInfo.strUsername = locInfo.strUsername.substr(0, upos); // } // } // size_t hpos = strUri.find("/"); /* hostname part */ // if (hpos != Utf8Str::npos) // { // locInfo.strHostname = strUri.substr(0, hpos); // strUri = strUri.substr(hpos); // } // } locInfo.strPath = strUri; } //////////////////////////////////////////////////////////////////////////////// // // IVirtualSystemDescription constructor / destructor // //////////////////////////////////////////////////////////////////////////////// /** * COM initializer. * @return */ HRESULT VirtualSystemDescription::init() { /* Enclose the state transition NotReady->InInit->Ready */ AutoInitSpan autoInitSpan(this); AssertReturn(autoInitSpan.isOk(), E_FAIL); /* Initialize data */ m = new Data(); m->pConfig = NULL; /* Confirm a successful initialization */ autoInitSpan.setSucceeded(); return S_OK; } /** * COM uninitializer. */ void VirtualSystemDescription::uninit() { if (m->pConfig) delete m->pConfig; delete m; m = NULL; } //////////////////////////////////////////////////////////////////////////////// // // IVirtualSystemDescription public methods // //////////////////////////////////////////////////////////////////////////////// /** * Public method implementation. */ HRESULT VirtualSystemDescription::getCount(ULONG *aCount) { if (!aCount) return E_POINTER; AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); *aCount = (ULONG)m->maDescriptions.size(); return S_OK; } /** * Public method implementation. */ HRESULT VirtualSystemDescription::getDescription(std::vector &aTypes, std::vector &aRefs, std::vector &aOVFValues, std::vector &aVBoxValues, std::vector &aExtraConfigValues) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); size_t c = m->maDescriptions.size(); aTypes.resize(c); aRefs.resize(c); aOVFValues.resize(c); aVBoxValues.resize(c); aExtraConfigValues.resize(c); for (size_t i = 0; i < c; i++) { const VirtualSystemDescriptionEntry &vsde = m->maDescriptions[i]; aTypes[i] = vsde.type; aRefs[i] = vsde.strRef; aOVFValues[i] = vsde.strOvf; aVBoxValues[i] = vsde.strVBoxCurrent; aExtraConfigValues[i] = vsde.strExtraConfigCurrent; } return S_OK; } /** * Public method implementation. */ HRESULT VirtualSystemDescription::getDescriptionByType(VirtualSystemDescriptionType_T aType, std::vector &aTypes, std::vector &aRefs, std::vector &aOVFValues, std::vector &aVBoxValues, std::vector &aExtraConfigValues) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); std::list vsd = i_findByType(aType); size_t c = vsd.size(); aTypes.resize(c); aRefs.resize(c); aOVFValues.resize(c); aVBoxValues.resize(c); aExtraConfigValues.resize(c); size_t i = 0; for (list::const_iterator it = vsd.begin(); it != vsd.end(); ++it, ++i) { const VirtualSystemDescriptionEntry *vsde = (*it); aTypes[i] = vsde->type; aRefs[i] = vsde->strRef; aOVFValues[i] = vsde->strOvf; aVBoxValues[i] = vsde->strVBoxCurrent; aExtraConfigValues[i] = vsde->strExtraConfigCurrent; } return S_OK; } /** * Public method implementation. */ HRESULT VirtualSystemDescription::getValuesByType(VirtualSystemDescriptionType_T aType, VirtualSystemDescriptionValueType_T aWhich, std::vector &aValues) { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); std::list vsd = i_findByType (aType); aValues.resize((ULONG)vsd.size()); list::const_iterator it; size_t i = 0; for (it = vsd.begin(); it != vsd.end(); ++it, ++i) { const VirtualSystemDescriptionEntry *vsde = (*it); Bstr bstr; switch (aWhich) { case VirtualSystemDescriptionValueType_Reference: aValues[i] = vsde->strRef; break; case VirtualSystemDescriptionValueType_Original: aValues[i] = vsde->strOvf; break; case VirtualSystemDescriptionValueType_Auto: aValues[i] = vsde->strVBoxCurrent; break; case VirtualSystemDescriptionValueType_ExtraConfig: aValues[i] = vsde->strExtraConfigCurrent; break; #ifdef VBOX_WITH_XPCOM_CPP_ENUM_HACK case VirtualSystemDescriptionValueType_32BitHack: AssertFailedBreak(); /* (compiler warnings) */ #endif } } return S_OK; } /** * Public method implementation. */ HRESULT VirtualSystemDescription::setFinalValues(const std::vector &aEnabled, const std::vector &aVBoxValues, const std::vector &aExtraConfigValues) { #ifndef RT_OS_WINDOWS // NOREF(aEnabledSize); #endif /* RT_OS_WINDOWS */ AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); if ( (aEnabled.size() != m->maDescriptions.size()) || (aVBoxValues.size() != m->maDescriptions.size()) || (aExtraConfigValues.size() != m->maDescriptions.size()) ) return E_INVALIDARG; size_t i = 0; for (vector::iterator it = m->maDescriptions.begin(); it != m->maDescriptions.end(); ++it, ++i) { VirtualSystemDescriptionEntry& vsde = *it; if (aEnabled[i]) { vsde.strVBoxCurrent = aVBoxValues[i]; vsde.strExtraConfigCurrent = aExtraConfigValues[i]; } else vsde.type = VirtualSystemDescriptionType_Ignore; } return S_OK; } /** * Public method implementation. */ HRESULT VirtualSystemDescription::addDescription(VirtualSystemDescriptionType_T aType, const com::Utf8Str &aVBoxValue, const com::Utf8Str &aExtraConfigValue) { AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); i_addEntry(aType, "", aVBoxValue, aVBoxValue, 0, aExtraConfigValue); return S_OK; } /** * Internal method; adds a new description item to the member list. * @param aType Type of description for the new item. * @param strRef Reference item; only used with storage controllers. * @param aOvfValue Corresponding original value from OVF. * @param aVBoxValue Initial configuration value (can be overridden by caller with setFinalValues). * @param ulSizeMB Weight for IProgress * @param strExtraConfig Extra configuration; meaning dependent on type. */ void VirtualSystemDescription::i_addEntry(VirtualSystemDescriptionType_T aType, const Utf8Str &strRef, const Utf8Str &aOvfValue, const Utf8Str &aVBoxValue, uint32_t ulSizeMB, const Utf8Str &strExtraConfig /*= ""*/) { VirtualSystemDescriptionEntry vsde; vsde.ulIndex = (uint32_t)m->maDescriptions.size(); // each entry gets an index so the client side can reference them vsde.type = aType; vsde.strRef = strRef; vsde.strOvf = aOvfValue; vsde.strVBoxSuggested /* remember original value */ = vsde.strVBoxCurrent /* and set current value which can be overridden by setFinalValues() */ = aVBoxValue; vsde.strExtraConfigSuggested = vsde.strExtraConfigCurrent = strExtraConfig; vsde.ulSizeMB = ulSizeMB; vsde.skipIt = false; m->maDescriptions.push_back(vsde); } /** * Private method; returns a list of description items containing all the items from the member * description items of this virtual system that match the given type. */ std::list VirtualSystemDescription::i_findByType(VirtualSystemDescriptionType_T aType) { std::list vsd; for (vector::iterator it = m->maDescriptions.begin(); it != m->maDescriptions.end(); ++it) { if (it->type == aType) vsd.push_back(&(*it)); } return vsd; } HRESULT VirtualSystemDescription::removeDescriptionByType(VirtualSystemDescriptionType_T aType) { std::vector::iterator it = m->maDescriptions.begin(); while (it != m->maDescriptions.end()) { if (it->type == aType) it = m->maDescriptions.erase(it); else ++it; } return S_OK; } /* Private method; delete all records from the list * m->llDescriptions that match the given type. */ void VirtualSystemDescription::i_removeByType(VirtualSystemDescriptionType_T aType) { std::vector::iterator it = m->maDescriptions.begin(); while (it != m->maDescriptions.end()) { if (it->type == aType) it = m->maDescriptions.erase(it); else ++it; } } /** * Private method; looks thru the member hardware items for the IDE, SATA, or SCSI controller with * the given reference ID. Useful when needing the controller for a particular * virtual disk. */ const VirtualSystemDescriptionEntry* VirtualSystemDescription::i_findControllerFromID(uint32_t id) { Utf8Str strRef = Utf8StrFmt("%RI32", id); vector::const_iterator it; for (it = m->maDescriptions.begin(); it != m->maDescriptions.end(); ++it) { const VirtualSystemDescriptionEntry &d = *it; switch (d.type) { case VirtualSystemDescriptionType_HardDiskControllerIDE: case VirtualSystemDescriptionType_HardDiskControllerSATA: case VirtualSystemDescriptionType_HardDiskControllerSCSI: case VirtualSystemDescriptionType_HardDiskControllerSAS: if (d.strRef == strRef) return &d; break; default: break; /* Shut up MSC. */ } } return NULL; } /** * Method called from Appliance::Interpret() if the source OVF for a virtual system * contains a element. This method then attempts to parse that and * create a MachineConfigFile instance from it which is stored in this instance data * and can then be used to create a machine. * * This must only be called once per instance. * * This rethrows all XML and logic errors from MachineConfigFile. * * @param elmMachine element with attributes and subelements from some * DOM tree. */ void VirtualSystemDescription::i_importVBoxMachineXML(const xml::ElementNode &elmMachine) { settings::MachineConfigFile *pConfig = NULL; Assert(m->pConfig == NULL); try { pConfig = new settings::MachineConfigFile(NULL); pConfig->importMachineXML(elmMachine); m->pConfig = pConfig; } catch (...) { if (pConfig) delete pConfig; throw; } } /** * Returns the machine config created by importVBoxMachineXML() or NULL if there's none. */ const settings::MachineConfigFile* VirtualSystemDescription::i_getMachineConfig() const { return m->pConfig; }