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|
/* $Id: ApplianceImplExport.cpp $ */
/** @file
* IAppliance and IVirtualSystem COM class implementations.
*/
/*
* Copyright (C) 2008-2023 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, in version 3 of the
* License.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses>.
*
* SPDX-License-Identifier: GPL-3.0-only
*/
#define LOG_GROUP LOG_GROUP_MAIN_APPLIANCE
#include <iprt/buildconfig.h>
#include <iprt/path.h>
#include <iprt/dir.h>
#include <iprt/param.h>
#include <iprt/manifest.h>
#include <iprt/stream.h>
#include <iprt/zip.h>
#include <iprt/formats/tar.h>
#include <VBox/version.h>
#include "ApplianceImpl.h"
#include "VirtualBoxImpl.h"
#include "ProgressImpl.h"
#include "MachineImpl.h"
#include "MediumImpl.h"
#include "LoggingNew.h"
#include "Global.h"
#include "MediumFormatImpl.h"
#include "SystemPropertiesImpl.h"
#include "AutoCaller.h"
#include "ApplianceImplPrivate.h"
using namespace std;
////////////////////////////////////////////////////////////////////////////////
//
// IMachine public methods
//
////////////////////////////////////////////////////////////////////////////////
// This code is here so we won't have to include the appliance headers in the
// IMachine implementation, and we also need to access private appliance data.
/**
* Public method implementation.
* @param aAppliance Appliance object.
* @param aLocation Where to store the appliance.
* @param aDescription Appliance description.
* @return
*/
HRESULT Machine::exportTo(const ComPtr<IAppliance> &aAppliance, const com::Utf8Str &aLocation,
ComPtr<IVirtualSystemDescription> &aDescription)
{
HRESULT hrc = S_OK;
if (!aAppliance)
return E_POINTER;
ComObjPtr<VirtualSystemDescription> pNewDesc;
try
{
IAppliance *iAppliance = aAppliance;
Appliance *pAppliance = static_cast<Appliance*>(iAppliance);
LocationInfo locInfo;
i_parseURI(aLocation, locInfo);
Utf8Str strBasename(locInfo.strPath);
strBasename.stripPath().stripSuffix();
if (locInfo.strPath.endsWith(".tar.gz", Utf8Str::CaseSensitive))
strBasename.stripSuffix();
// create a new virtual system to store in the appliance
hrc = pNewDesc.createObject();
if (FAILED(hrc)) throw hrc;
hrc = pNewDesc->init();
if (FAILED(hrc)) throw hrc;
// store the machine object so we can dump the XML in Appliance::Write()
pNewDesc->m->pMachine = this;
#ifdef VBOX_WITH_USB
// first, call the COM methods, as they request locks
BOOL fUSBEnabled = FALSE;
com::SafeIfaceArray<IUSBController> usbControllers;
hrc = COMGETTER(USBControllers)(ComSafeArrayAsOutParam(usbControllers));
if (SUCCEEDED(hrc))
{
for (unsigned i = 0; i < usbControllers.size(); ++i)
{
USBControllerType_T enmType;
hrc = usbControllers[i]->COMGETTER(Type)(&enmType);
if (FAILED(hrc)) throw hrc;
if (enmType == USBControllerType_OHCI)
fUSBEnabled = TRUE;
}
}
#endif /* VBOX_WITH_USB */
// request the machine lock while accessing internal members
AutoReadLock alock1(this COMMA_LOCKVAL_SRC_POS);
ComPtr<IAudioAdapter> pAudioAdapter;
hrc = mAudioSettings->COMGETTER(Adapter)(pAudioAdapter.asOutParam());
if (FAILED(hrc)) throw hrc;
BOOL fAudioEnabled;
hrc = pAudioAdapter->COMGETTER(Enabled)(&fAudioEnabled);
if (FAILED(hrc)) throw hrc;
AudioControllerType_T audioController;
hrc = pAudioAdapter->COMGETTER(AudioController)(&audioController);
if (FAILED(hrc)) throw hrc;
// get name
Utf8Str strVMName = mUserData->s.strName;
// get description
Utf8Str strDescription = mUserData->s.strDescription;
// get guest OS
Utf8Str strOsTypeVBox = mUserData->s.strOsType;
// CPU count
uint32_t cCPUs = mHWData->mCPUCount;
// memory size in MB
uint32_t ulMemSizeMB = mHWData->mMemorySize;
// VRAM size?
// BIOS settings?
// 3D acceleration enabled?
// hardware virtualization enabled?
// nested paging enabled?
// HWVirtExVPIDEnabled?
// PAEEnabled?
// Long mode enabled?
BOOL fLongMode;
hrc = GetCPUProperty(CPUPropertyType_LongMode, &fLongMode);
if (FAILED(hrc)) throw hrc;
// snapshotFolder?
// VRDPServer?
/* Guest OS type */
ovf::CIMOSType_T cim = convertVBoxOSType2CIMOSType(strOsTypeVBox.c_str(), fLongMode);
pNewDesc->i_addEntry(VirtualSystemDescriptionType_OS,
"",
Utf8StrFmt("%RI32", cim),
strOsTypeVBox);
/* VM name */
pNewDesc->i_addEntry(VirtualSystemDescriptionType_Name,
"",
strVMName,
strVMName);
// description
pNewDesc->i_addEntry(VirtualSystemDescriptionType_Description,
"",
strDescription,
strDescription);
/* CPU count*/
Utf8Str strCpuCount = Utf8StrFmt("%RI32", cCPUs);
pNewDesc->i_addEntry(VirtualSystemDescriptionType_CPU,
"",
strCpuCount,
strCpuCount);
/* Memory, it's always stored in bytes in VSD according to the old internal agreement within the team */
Utf8Str strMemory = Utf8StrFmt("%RI64", (uint64_t)ulMemSizeMB * _1M);
pNewDesc->i_addEntry(VirtualSystemDescriptionType_Memory,
"",
strMemory,
strMemory);
// the one VirtualBox IDE controller has two channels with two ports each, which is
// considered two IDE controllers with two ports each by OVF, so export it as two
int32_t lIDEControllerPrimaryIndex = 0;
int32_t lIDEControllerSecondaryIndex = 0;
int32_t lSATAControllerIndex = 0;
int32_t lSCSIControllerIndex = 0;
int32_t lVirtioSCSIControllerIndex = 0;
int32_t lNVMeControllerIndex = 0;
/* Fetch all available storage controllers */
com::SafeIfaceArray<IStorageController> nwControllers;
hrc = COMGETTER(StorageControllers)(ComSafeArrayAsOutParam(nwControllers));
if (FAILED(hrc)) throw hrc;
ComPtr<IStorageController> pIDEController;
ComPtr<IStorageController> pSATAController;
ComPtr<IStorageController> pSCSIController;
ComPtr<IStorageController> pSASController;
ComPtr<IStorageController> pVirtioSCSIController;
ComPtr<IStorageController> pNVMeController;
for (size_t j = 0; j < nwControllers.size(); ++j)
{
StorageBus_T eType;
hrc = nwControllers[j]->COMGETTER(Bus)(&eType);
if (FAILED(hrc)) throw hrc;
if ( eType == StorageBus_IDE
&& pIDEController.isNull())
pIDEController = nwControllers[j];
else if ( eType == StorageBus_SATA
&& pSATAController.isNull())
pSATAController = nwControllers[j];
else if ( eType == StorageBus_SCSI
&& pSCSIController.isNull())
pSCSIController = nwControllers[j];
else if ( eType == StorageBus_SAS
&& pSASController.isNull())
pSASController = nwControllers[j];
else if ( eType == StorageBus_VirtioSCSI
&& pVirtioSCSIController.isNull())
pVirtioSCSIController = nwControllers[j];
else if ( eType == StorageBus_PCIe
&& pNVMeController.isNull())
pNVMeController = nwControllers[j];
}
// <const name="HardDiskControllerIDE" value="6" />
if (!pIDEController.isNull())
{
StorageControllerType_T ctlr;
hrc = pIDEController->COMGETTER(ControllerType)(&ctlr);
if (FAILED(hrc)) throw hrc;
Utf8Str strVBox;
switch (ctlr)
{
case StorageControllerType_PIIX3: strVBox = "PIIX3"; break;
case StorageControllerType_PIIX4: strVBox = "PIIX4"; break;
case StorageControllerType_ICH6: strVBox = "ICH6"; break;
default: break; /* Shut up MSC. */
}
if (strVBox.length())
{
lIDEControllerPrimaryIndex = (int32_t)pNewDesc->m->maDescriptions.size();
pNewDesc->i_addEntry(VirtualSystemDescriptionType_HardDiskControllerIDE,
Utf8StrFmt("%d", lIDEControllerPrimaryIndex), // strRef
strVBox, // aOvfValue
strVBox); // aVBoxValue
lIDEControllerSecondaryIndex = lIDEControllerPrimaryIndex + 1;
pNewDesc->i_addEntry(VirtualSystemDescriptionType_HardDiskControllerIDE,
Utf8StrFmt("%d", lIDEControllerSecondaryIndex),
strVBox,
strVBox);
}
}
// <const name="HardDiskControllerSATA" value="7" />
if (!pSATAController.isNull())
{
Utf8Str strVBox = "AHCI";
lSATAControllerIndex = (int32_t)pNewDesc->m->maDescriptions.size();
pNewDesc->i_addEntry(VirtualSystemDescriptionType_HardDiskControllerSATA,
Utf8StrFmt("%d", lSATAControllerIndex),
strVBox,
strVBox);
}
// <const name="HardDiskControllerSCSI" value="8" />
if (!pSCSIController.isNull())
{
StorageControllerType_T ctlr;
hrc = pSCSIController->COMGETTER(ControllerType)(&ctlr);
if (SUCCEEDED(hrc))
{
Utf8Str strVBox = "LsiLogic"; // the default in VBox
switch (ctlr)
{
case StorageControllerType_LsiLogic: strVBox = "LsiLogic"; break;
case StorageControllerType_BusLogic: strVBox = "BusLogic"; break;
default: break; /* Shut up MSC. */
}
lSCSIControllerIndex = (int32_t)pNewDesc->m->maDescriptions.size();
pNewDesc->i_addEntry(VirtualSystemDescriptionType_HardDiskControllerSCSI,
Utf8StrFmt("%d", lSCSIControllerIndex),
strVBox,
strVBox);
}
else
throw hrc;
}
if (!pSASController.isNull())
{
// VirtualBox considers the SAS controller a class of its own but in OVF
// it should be a SCSI controller
Utf8Str strVBox = "LsiLogicSas";
lSCSIControllerIndex = (int32_t)pNewDesc->m->maDescriptions.size();
pNewDesc->i_addEntry(VirtualSystemDescriptionType_HardDiskControllerSAS,
Utf8StrFmt("%d", lSCSIControllerIndex),
strVBox,
strVBox);
}
if (!pVirtioSCSIController.isNull())
{
StorageControllerType_T ctlr;
hrc = pVirtioSCSIController->COMGETTER(ControllerType)(&ctlr);
if (SUCCEEDED(hrc))
{
Utf8Str strVBox = "VirtioSCSI"; // the default in VBox
switch (ctlr)
{
case StorageControllerType_VirtioSCSI: strVBox = "VirtioSCSI"; break;
default: break; /* Shut up MSC. */
}
lVirtioSCSIControllerIndex = (int32_t)pNewDesc->m->maDescriptions.size();
pNewDesc->i_addEntry(VirtualSystemDescriptionType_HardDiskControllerVirtioSCSI,
Utf8StrFmt("%d", lVirtioSCSIControllerIndex),
strVBox,
strVBox);
}
else
throw hrc;
}
if (!pNVMeController.isNull())
{
Utf8Str strVBox = "NVMe";
lNVMeControllerIndex = (int32_t)pNewDesc->m->maDescriptions.size();
pNewDesc->i_addEntry(VirtualSystemDescriptionType_HardDiskControllerNVMe,
Utf8StrFmt("%d", lNVMeControllerIndex),
strVBox,
strVBox);
}
// <const name="HardDiskImage" value="9" />
// <const name="Floppy" value="18" />
// <const name="CDROM" value="19" />
for (MediumAttachmentList::const_iterator
it = mMediumAttachments->begin();
it != mMediumAttachments->end();
++it)
{
ComObjPtr<MediumAttachment> pHDA = *it;
// the attachment's data
ComPtr<IMedium> pMedium;
ComPtr<IStorageController> ctl;
Bstr controllerName;
hrc = pHDA->COMGETTER(Controller)(controllerName.asOutParam());
if (FAILED(hrc)) throw hrc;
hrc = GetStorageControllerByName(controllerName.raw(), ctl.asOutParam());
if (FAILED(hrc)) throw hrc;
StorageBus_T storageBus;
DeviceType_T deviceType;
LONG lChannel;
LONG lDevice;
hrc = ctl->COMGETTER(Bus)(&storageBus);
if (FAILED(hrc)) throw hrc;
hrc = pHDA->COMGETTER(Type)(&deviceType);
if (FAILED(hrc)) throw hrc;
hrc = pHDA->COMGETTER(Port)(&lChannel);
if (FAILED(hrc)) throw hrc;
hrc = pHDA->COMGETTER(Device)(&lDevice);
if (FAILED(hrc)) throw hrc;
hrc = pHDA->COMGETTER(Medium)(pMedium.asOutParam());
if (FAILED(hrc)) throw hrc;
if (pMedium.isNull())
{
Utf8Str strStBus;
if ( storageBus == StorageBus_IDE)
strStBus = "IDE";
else if ( storageBus == StorageBus_SATA)
strStBus = "SATA";
else if ( storageBus == StorageBus_SCSI)
strStBus = "SCSI";
else if ( storageBus == StorageBus_SAS)
strStBus = "SAS";
else if ( storageBus == StorageBus_PCIe)
strStBus = "PCIe";
else if ( storageBus == StorageBus_VirtioSCSI)
strStBus = "VirtioSCSI";
LogRel(("Warning: skip the medium (bus: %s, slot: %d, port: %d). No storage device attached.\n",
strStBus.c_str(), lDevice, lChannel));
continue;
}
Utf8Str strTargetImageName;
Utf8Str strLocation;
LONG64 llSize = 0;
if ( deviceType == DeviceType_HardDisk
&& pMedium)
{
Bstr bstrLocation;
hrc = pMedium->COMGETTER(Location)(bstrLocation.asOutParam());
if (FAILED(hrc)) throw hrc;
strLocation = bstrLocation;
// find the source's base medium for two things:
// 1) we'll use its name to determine the name of the target disk, which is readable,
// as opposed to the UUID filename of a differencing image, if pMedium is one
// 2) we need the size of the base image so we can give it to addEntry(), and later
// on export, the progress will be based on that (and not the diff image)
ComPtr<IMedium> pBaseMedium;
hrc = pMedium->COMGETTER(Base)(pBaseMedium.asOutParam());
// returns pMedium if there are no diff images
if (FAILED(hrc)) throw hrc;
strTargetImageName = Utf8StrFmt("%s-disk%.3d.vmdk", strBasename.c_str(), ++pAppliance->m->cDisks);
if (strTargetImageName.length() > RTZIPTAR_NAME_MAX)
throw setError(VBOX_E_NOT_SUPPORTED,
tr("Cannot attach disk '%s' -- file name too long"), strTargetImageName.c_str());
// force reading state, or else size will be returned as 0
MediumState_T ms;
hrc = pBaseMedium->RefreshState(&ms);
if (FAILED(hrc)) throw hrc;
hrc = pBaseMedium->COMGETTER(Size)(&llSize);
if (FAILED(hrc)) throw hrc;
/* If the medium is encrypted add the key identifier to the list. */
IMedium *iBaseMedium = pBaseMedium;
Medium *pBase = static_cast<Medium*>(iBaseMedium);
const com::Utf8Str strKeyId = pBase->i_getKeyId();
if (!strKeyId.isEmpty())
{
IMedium *iMedium = pMedium;
Medium *pMed = static_cast<Medium*>(iMedium);
com::Guid mediumUuid = pMed->i_getId();
bool fKnown = false;
/* Check whether the ID is already in our sequence, add it otherwise. */
for (unsigned i = 0; i < pAppliance->m->m_vecPasswordIdentifiers.size(); i++)
{
if (strKeyId.equals(pAppliance->m->m_vecPasswordIdentifiers[i]))
{
fKnown = true;
break;
}
}
if (!fKnown)
{
GUIDVEC vecMediumIds;
vecMediumIds.push_back(mediumUuid);
pAppliance->m->m_vecPasswordIdentifiers.push_back(strKeyId);
pAppliance->m->m_mapPwIdToMediumIds.insert(std::pair<com::Utf8Str, GUIDVEC>(strKeyId, vecMediumIds));
}
else
{
std::map<com::Utf8Str, GUIDVEC>::iterator itMap = pAppliance->m->m_mapPwIdToMediumIds.find(strKeyId);
if (itMap == pAppliance->m->m_mapPwIdToMediumIds.end())
throw setError(E_FAIL, tr("Internal error adding a medium UUID to the map"));
itMap->second.push_back(mediumUuid);
}
}
}
else if ( deviceType == DeviceType_DVD
&& pMedium)
{
/*
* check the minimal rules to grant access to export an image
* 1. no host drive CD/DVD image
* 2. the image must be accessible and readable
* 3. only ISO image is exported
*/
//1. no host drive CD/DVD image
BOOL fHostDrive = false;
hrc = pMedium->COMGETTER(HostDrive)(&fHostDrive);
if (FAILED(hrc)) throw hrc;
if(fHostDrive)
continue;
//2. the image must be accessible and readable
MediumState_T ms;
hrc = pMedium->RefreshState(&ms);
if (FAILED(hrc)) throw hrc;
if (ms != MediumState_Created)
continue;
//3. only ISO image is exported
Bstr bstrLocation;
hrc = pMedium->COMGETTER(Location)(bstrLocation.asOutParam());
if (FAILED(hrc)) throw hrc;
strLocation = bstrLocation;
Utf8Str ext = strLocation;
ext.assignEx(RTPathSuffix(strLocation.c_str()));//returns extension with dot (".iso")
int eq = ext.compare(".iso", Utf8Str::CaseInsensitive);
if (eq != 0)
continue;
strTargetImageName = Utf8StrFmt("%s-disk%.3d.iso", strBasename.c_str(), ++pAppliance->m->cDisks);
if (strTargetImageName.length() > RTZIPTAR_NAME_MAX)
throw setError(VBOX_E_NOT_SUPPORTED,
tr("Cannot attach image '%s' -- file name too long"), strTargetImageName.c_str());
hrc = pMedium->COMGETTER(Size)(&llSize);
if (FAILED(hrc)) throw hrc;
}
// and how this translates to the virtual system
int32_t lControllerVsys = 0;
LONG lChannelVsys;
switch (storageBus)
{
case StorageBus_IDE:
// this is the exact reverse to what we're doing in Appliance::taskThreadImportMachines,
// and it must be updated when that is changed!
// Before 3.2 we exported one IDE controller with channel 0-3, but we now maintain
// compatibility with what VMware does and export two IDE controllers with two channels each
if (lChannel == 0 && lDevice == 0) // primary master
{
lControllerVsys = lIDEControllerPrimaryIndex;
lChannelVsys = 0;
}
else if (lChannel == 0 && lDevice == 1) // primary slave
{
lControllerVsys = lIDEControllerPrimaryIndex;
lChannelVsys = 1;
}
else if (lChannel == 1 && lDevice == 0) // secondary master; by default this is the CD-ROM but
// as of VirtualBox 3.1 that can change
{
lControllerVsys = lIDEControllerSecondaryIndex;
lChannelVsys = 0;
}
else if (lChannel == 1 && lDevice == 1) // secondary slave
{
lControllerVsys = lIDEControllerSecondaryIndex;
lChannelVsys = 1;
}
else
throw setError(VBOX_E_NOT_SUPPORTED,
tr("Cannot handle medium attachment: channel is %d, device is %d"), lChannel, lDevice);
break;
case StorageBus_SATA:
lChannelVsys = lChannel; // should be between 0 and 29
lControllerVsys = lSATAControllerIndex;
break;
case StorageBus_VirtioSCSI:
lChannelVsys = lChannel; // should be between 0 and 255
lControllerVsys = lVirtioSCSIControllerIndex;
break;
case StorageBus_SCSI:
case StorageBus_SAS:
lChannelVsys = lChannel; // should be between 0 and 15
lControllerVsys = lSCSIControllerIndex;
break;
case StorageBus_PCIe:
lChannelVsys = lChannel; // should be between 0 and 255
lControllerVsys = lNVMeControllerIndex;
break;
case StorageBus_Floppy:
lChannelVsys = 0;
lControllerVsys = 0;
break;
default:
throw setError(VBOX_E_NOT_SUPPORTED,
tr("Cannot handle medium attachment: storageBus is %d, channel is %d, device is %d"),
storageBus, lChannel, lDevice);
}
Utf8StrFmt strExtra("controller=%RI32;channel=%RI32", lControllerVsys, lChannelVsys);
Utf8Str strEmpty;
switch (deviceType)
{
case DeviceType_HardDisk:
Log(("Adding VirtualSystemDescriptionType_HardDiskImage, disk size: %RI64\n", llSize));
pNewDesc->i_addEntry(VirtualSystemDescriptionType_HardDiskImage,
strTargetImageName, // disk ID: let's use the name
strTargetImageName, // OVF value:
strLocation, // vbox value: media path
(uint32_t)(llSize / _1M),
strExtra);
break;
case DeviceType_DVD:
Log(("Adding VirtualSystemDescriptionType_CDROM, disk size: %RI64\n", llSize));
pNewDesc->i_addEntry(VirtualSystemDescriptionType_CDROM,
strTargetImageName, // disk ID
strTargetImageName, // OVF value
strLocation, // vbox value
(uint32_t)(llSize / _1M),// ulSize
strExtra);
break;
case DeviceType_Floppy:
pNewDesc->i_addEntry(VirtualSystemDescriptionType_Floppy,
strEmpty, // disk ID
strEmpty, // OVF value
strEmpty, // vbox value
1, // ulSize
strExtra);
break;
default: break; /* Shut up MSC. */
}
}
// <const name="NetworkAdapter" />
uint32_t maxNetworkAdapters = Global::getMaxNetworkAdapters(i_getChipsetType());
size_t a;
for (a = 0; a < maxNetworkAdapters; ++a)
{
ComPtr<INetworkAdapter> pNetworkAdapter;
hrc = GetNetworkAdapter((ULONG)a, pNetworkAdapter.asOutParam());
if (FAILED(hrc)) throw hrc;
/* Enable the network card & set the adapter type */
BOOL fEnabled;
hrc = pNetworkAdapter->COMGETTER(Enabled)(&fEnabled);
if (FAILED(hrc)) throw hrc;
if (fEnabled)
{
NetworkAdapterType_T adapterType;
hrc = pNetworkAdapter->COMGETTER(AdapterType)(&adapterType);
if (FAILED(hrc)) throw hrc;
NetworkAttachmentType_T attachmentType;
hrc = pNetworkAdapter->COMGETTER(AttachmentType)(&attachmentType);
if (FAILED(hrc)) throw hrc;
Utf8Str strAttachmentType = convertNetworkAttachmentTypeToString(attachmentType);
pNewDesc->i_addEntry(VirtualSystemDescriptionType_NetworkAdapter,
"", // ref
strAttachmentType, // orig
Utf8StrFmt("%RI32", (uint32_t)adapterType), // conf
0,
Utf8StrFmt("type=%s", strAttachmentType.c_str())); // extra conf
}
}
// <const name="USBController" />
#ifdef VBOX_WITH_USB
if (fUSBEnabled)
pNewDesc->i_addEntry(VirtualSystemDescriptionType_USBController, "", "", "");
#endif /* VBOX_WITH_USB */
// <const name="SoundCard" />
if (fAudioEnabled)
pNewDesc->i_addEntry(VirtualSystemDescriptionType_SoundCard,
"",
"ensoniq1371", // this is what OVFTool writes and VMware supports
Utf8StrFmt("%RI32", audioController));
/* We return the new description to the caller */
ComPtr<IVirtualSystemDescription> copy(pNewDesc);
copy.queryInterfaceTo(aDescription.asOutParam());
AutoWriteLock alock(pAppliance COMMA_LOCKVAL_SRC_POS);
// finally, add the virtual system to the appliance
pAppliance->m->virtualSystemDescriptions.push_back(pNewDesc);
}
catch(HRESULT arc)
{
hrc = arc;
}
return hrc;
}
////////////////////////////////////////////////////////////////////////////////
//
// IAppliance public methods
//
////////////////////////////////////////////////////////////////////////////////
/**
* Public method implementation.
* @param aFormat Appliance format.
* @param aOptions Export options.
* @param aPath Path to write the appliance to.
* @param aProgress Progress object.
* @return
*/
HRESULT Appliance::write(const com::Utf8Str &aFormat,
const std::vector<ExportOptions_T> &aOptions,
const com::Utf8Str &aPath,
ComPtr<IProgress> &aProgress)
{
AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS);
m->optListExport.clear();
if (aOptions.size())
{
for (size_t i = 0; i < aOptions.size(); ++i)
{
m->optListExport.insert(i, aOptions[i]);
}
}
HRESULT hrc = S_OK;
// AssertReturn(!(m->optListExport.contains(ExportOptions_CreateManifest)
// && m->optListExport.contains(ExportOptions_ExportDVDImages)), E_INVALIDARG);
/* Parse all necessary info out of the URI */
i_parseURI(aPath, m->locInfo);
if (m->locInfo.storageType == VFSType_Cloud)
{
hrc = S_OK;
ComObjPtr<Progress> progress;
try
{
hrc = i_writeCloudImpl(m->locInfo, progress);
}
catch (HRESULT hrcXcpt)
{
hrc = hrcXcpt;
}
if (SUCCEEDED(hrc))
/* Return progress to the caller */
progress.queryInterfaceTo(aProgress.asOutParam());
}
else
{
m->fExportISOImages = m->optListExport.contains(ExportOptions_ExportDVDImages);
if (!m->fExportISOImages)/* remove all ISO images from VirtualSystemDescription */
{
for (list<ComObjPtr<VirtualSystemDescription> >::const_iterator
it = m->virtualSystemDescriptions.begin();
it != m->virtualSystemDescriptions.end();
++it)
{
ComObjPtr<VirtualSystemDescription> vsdescThis = *it;
std::list<VirtualSystemDescriptionEntry*> skipped = vsdescThis->i_findByType(VirtualSystemDescriptionType_CDROM);
std::list<VirtualSystemDescriptionEntry*>::const_iterator itSkipped = skipped.begin();
while (itSkipped != skipped.end())
{
(*itSkipped)->skipIt = true;
++itSkipped;
}
}
}
// do not allow entering this method if the appliance is busy reading or writing
if (!i_isApplianceIdle())
return E_ACCESSDENIED;
// figure the export format. We exploit the unknown version value for oracle public cloud.
ovf::OVFVersion_T ovfF;
if (aFormat == "ovf-0.9")
ovfF = ovf::OVFVersion_0_9;
else if (aFormat == "ovf-1.0")
ovfF = ovf::OVFVersion_1_0;
else if (aFormat == "ovf-2.0")
ovfF = ovf::OVFVersion_2_0;
else if (aFormat == "opc-1.0")
ovfF = ovf::OVFVersion_unknown;
else
return setError(VBOX_E_FILE_ERROR,
tr("Invalid format \"%s\" specified"), aFormat.c_str());
// Check the extension.
if (ovfF == ovf::OVFVersion_unknown)
{
if (!aPath.endsWith(".tar.gz", Utf8Str::CaseInsensitive))
return setError(VBOX_E_FILE_ERROR,
tr("OPC appliance file must have .tar.gz extension"));
}
else if ( !aPath.endsWith(".ovf", Utf8Str::CaseInsensitive)
&& !aPath.endsWith(".ova", Utf8Str::CaseInsensitive))
return setError(VBOX_E_FILE_ERROR, tr("Appliance file must have .ovf or .ova extension"));
/* As of OVF 2.0 we have to use SHA-256 in the manifest. */
m->fManifest = m->optListExport.contains(ExportOptions_CreateManifest);
if (m->fManifest)
m->fDigestTypes = ovfF >= ovf::OVFVersion_2_0 ? RTMANIFEST_ATTR_SHA256 : RTMANIFEST_ATTR_SHA1;
Assert(m->hOurManifest == NIL_RTMANIFEST);
/* Check whether all passwords are supplied or error out. */
if (m->m_cPwProvided < m->m_vecPasswordIdentifiers.size())
return setError(VBOX_E_INVALID_OBJECT_STATE,
tr("Appliance export failed because not all passwords were provided for all encrypted media"));
ComObjPtr<Progress> progress;
hrc = S_OK;
try
{
/* Parse all necessary info out of the URI */
i_parseURI(aPath, m->locInfo);
switch (ovfF)
{
case ovf::OVFVersion_unknown:
hrc = i_writeOPCImpl(ovfF, m->locInfo, progress);
break;
default:
hrc = i_writeImpl(ovfF, m->locInfo, progress);
break;
}
}
catch (HRESULT hrcXcpt)
{
hrc = hrcXcpt;
}
if (SUCCEEDED(hrc))
/* Return progress to the caller */
progress.queryInterfaceTo(aProgress.asOutParam());
}
return hrc;
}
////////////////////////////////////////////////////////////////////////////////
//
// Appliance private methods
//
////////////////////////////////////////////////////////////////////////////////
/*******************************************************************************
* Export stuff
******************************************************************************/
/**
* Implementation for writing out the OVF to disk. This starts a new thread which will call
* Appliance::taskThreadWriteOVF().
*
* This is in a separate private method because it is used from two locations:
*
* 1) from the public Appliance::Write().
*
* 2) in a second worker thread; in that case, Appliance::Write() called Appliance::i_writeImpl(), which
* called Appliance::i_writeFSOVA(), which called Appliance::i_writeImpl(), which then called this again.
*
* @param aFormat
* @param aLocInfo
* @param aProgress
* @return
*/
HRESULT Appliance::i_writeImpl(ovf::OVFVersion_T aFormat, const LocationInfo &aLocInfo, ComObjPtr<Progress> &aProgress)
{
/* Prepare progress object: */
HRESULT hrc;
try
{
hrc = i_setUpProgress(aProgress,
Utf8StrFmt(tr("Export appliance '%s'"), aLocInfo.strPath.c_str()),
aLocInfo.storageType == VFSType_File ? WriteFile : WriteS3);
}
catch (std::bad_alloc &) /* only Utf8StrFmt */
{
hrc = E_OUTOFMEMORY;
}
if (SUCCEEDED(hrc))
{
/* Create our worker task: */
TaskOVF *pTask = NULL;
try
{
pTask = new TaskOVF(this, TaskOVF::Write, aLocInfo, aProgress);
}
catch (std::bad_alloc &)
{
return E_OUTOFMEMORY;
}
/* The OVF version to produce: */
pTask->enFormat = aFormat;
/* Start the thread: */
hrc = pTask->createThread();
pTask = NULL;
}
return hrc;
}
HRESULT Appliance::i_writeCloudImpl(const LocationInfo &aLocInfo, ComObjPtr<Progress> &aProgress)
{
for (list<ComObjPtr<VirtualSystemDescription> >::const_iterator
it = m->virtualSystemDescriptions.begin();
it != m->virtualSystemDescriptions.end();
++it)
{
ComObjPtr<VirtualSystemDescription> vsdescThis = *it;
std::list<VirtualSystemDescriptionEntry*> skipped = vsdescThis->i_findByType(VirtualSystemDescriptionType_CDROM);
std::list<VirtualSystemDescriptionEntry*>::const_iterator itSkipped = skipped.begin();
while (itSkipped != skipped.end())
{
(*itSkipped)->skipIt = true;
++itSkipped;
}
//remove all disks from the VirtualSystemDescription exept one
skipped = vsdescThis->i_findByType(VirtualSystemDescriptionType_HardDiskImage);
itSkipped = skipped.begin();
Utf8Str strBootLocation;
while (itSkipped != skipped.end())
{
if (strBootLocation.isEmpty())
strBootLocation = (*itSkipped)->strVBoxCurrent;
else
(*itSkipped)->skipIt = true;
++itSkipped;
}
//just in case
if (vsdescThis->i_findByType(VirtualSystemDescriptionType_HardDiskImage).empty())
return setError(VBOX_E_OBJECT_NOT_FOUND, tr("There are no images to export to Cloud after preparation steps"));
/*
* Fills out the OCI settings
*/
std::list<VirtualSystemDescriptionEntry*> profileName
= vsdescThis->i_findByType(VirtualSystemDescriptionType_CloudProfileName);
if (profileName.size() > 1)
return setError(VBOX_E_OBJECT_NOT_FOUND, tr("Cloud: More than one profile name was found."));
if (profileName.empty())
return setError(VBOX_E_OBJECT_NOT_FOUND, tr("Cloud: Profile name wasn't specified."));
if (profileName.front()->strVBoxCurrent.isEmpty())
return setError(VBOX_E_OBJECT_NOT_FOUND, tr("Cloud: Cloud user profile name is empty"));
LogRel(("profile name: %s\n", profileName.front()->strVBoxCurrent.c_str()));
}
// Create a progress object here otherwise Task won't be created successfully
HRESULT hrc = aProgress.createObject();
if (SUCCEEDED(hrc))
{
if (aLocInfo.strProvider.equals("OCI"))
hrc = aProgress->init(mVirtualBox, static_cast<IAppliance *>(this),
Utf8Str(tr("Exporting VM to Cloud...")),
TRUE /* aCancelable */,
5, // ULONG cOperations,
1000, // ULONG ulTotalOperationsWeight,
Utf8Str(tr("Exporting VM to Cloud...")), // aFirstOperationDescription
10); // ULONG ulFirstOperationWeight
else
hrc = setError(VBOX_E_NOT_SUPPORTED,
tr("Only \"OCI\" cloud provider is supported for now. \"%s\" isn't supported."),
aLocInfo.strProvider.c_str());
if (SUCCEEDED(hrc))
{
/* Initialize the worker task: */
TaskCloud *pTask = NULL;
try
{
pTask = new Appliance::TaskCloud(this, TaskCloud::Export, aLocInfo, aProgress);
}
catch (std::bad_alloc &)
{
pTask = NULL;
hrc = E_OUTOFMEMORY;
}
if (SUCCEEDED(hrc))
{
/* Kick off the worker task: */
hrc = pTask->createThread();
pTask = NULL;
}
}
}
return hrc;
}
HRESULT Appliance::i_writeOPCImpl(ovf::OVFVersion_T aFormat, const LocationInfo &aLocInfo, ComObjPtr<Progress> &aProgress)
{
RT_NOREF(aFormat);
/* Prepare progress object: */
HRESULT hrc;
try
{
hrc = i_setUpProgress(aProgress,
Utf8StrFmt(tr("Export appliance '%s'"), aLocInfo.strPath.c_str()),
aLocInfo.storageType == VFSType_File ? WriteFile : WriteS3);
}
catch (std::bad_alloc &) /* only Utf8StrFmt */
{
hrc = E_OUTOFMEMORY;
}
if (SUCCEEDED(hrc))
{
/* Create our worker task: */
TaskOPC *pTask = NULL;
try
{
pTask = new Appliance::TaskOPC(this, TaskOPC::Export, aLocInfo, aProgress);
}
catch (std::bad_alloc &)
{
return E_OUTOFMEMORY;
}
/* Kick it off: */
hrc = pTask->createThread();
pTask = NULL;
}
return hrc;
}
/**
* Called from Appliance::i_writeFS() for creating a XML document for this
* Appliance.
*
* @param writeLock The current write lock.
* @param doc The xml document to fill.
* @param stack Structure for temporary private
* data shared with caller.
* @param strPath Path to the target OVF.
* instance for which to write XML.
* @param enFormat OVF format (0.9 or 1.0).
*/
void Appliance::i_buildXML(AutoWriteLockBase& writeLock,
xml::Document &doc,
XMLStack &stack,
const Utf8Str &strPath,
ovf::OVFVersion_T enFormat)
{
xml::ElementNode *pelmRoot = doc.createRootElement("Envelope");
pelmRoot->setAttribute("ovf:version", enFormat == ovf::OVFVersion_2_0 ? "2.0"
: enFormat == ovf::OVFVersion_1_0 ? "1.0"
: "0.9");
pelmRoot->setAttribute("xml:lang", "en-US");
Utf8Str strNamespace;
if (enFormat == ovf::OVFVersion_0_9)
{
strNamespace = ovf::OVF09_URI_string;
}
else if (enFormat == ovf::OVFVersion_1_0)
{
strNamespace = ovf::OVF10_URI_string;
}
else
{
strNamespace = ovf::OVF20_URI_string;
}
pelmRoot->setAttribute("xmlns", strNamespace);
pelmRoot->setAttribute("xmlns:ovf", strNamespace);
// pelmRoot->setAttribute("xmlns:ovfstr", "http://schema.dmtf.org/ovf/strings/1");
pelmRoot->setAttribute("xmlns:rasd", "http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_ResourceAllocationSettingData");
pelmRoot->setAttribute("xmlns:vssd", "http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_VirtualSystemSettingData");
pelmRoot->setAttribute("xmlns:xsi", "http://www.w3.org/2001/XMLSchema-instance");
pelmRoot->setAttribute("xmlns:vbox", "http://www.virtualbox.org/ovf/machine");
// pelmRoot->setAttribute("xsi:schemaLocation", "http://schemas.dmtf.org/ovf/envelope/1 ../ovf-envelope.xsd");
if (enFormat == ovf::OVFVersion_2_0)
{
pelmRoot->setAttribute("xmlns:epasd",
"http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_EthernetPortAllocationSettingData.xsd");
pelmRoot->setAttribute("xmlns:sasd",
"http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_StorageAllocationSettingData.xsd");
}
// <Envelope>/<References>
xml::ElementNode *pelmReferences = pelmRoot->createChild("References"); // 0.9 and 1.0
/* <Envelope>/<DiskSection>:
<DiskSection>
<Info>List of the virtual disks used in the package</Info>
<Disk ovf:capacity="4294967296" ovf:diskId="lamp" ovf:format="..." ovf:populatedSize="1924967692"/>
</DiskSection> */
xml::ElementNode *pelmDiskSection;
if (enFormat == ovf::OVFVersion_0_9)
{
// <Section xsi:type="ovf:DiskSection_Type">
pelmDiskSection = pelmRoot->createChild("Section");
pelmDiskSection->setAttribute("xsi:type", "ovf:DiskSection_Type");
}
else
pelmDiskSection = pelmRoot->createChild("DiskSection");
xml::ElementNode *pelmDiskSectionInfo = pelmDiskSection->createChild("Info");
pelmDiskSectionInfo->addContent("List of the virtual disks used in the package");
/* <Envelope>/<NetworkSection>:
<NetworkSection>
<Info>Logical networks used in the package</Info>
<Network ovf:name="VM Network">
<Description>The network that the LAMP Service will be available on</Description>
</Network>
</NetworkSection> */
xml::ElementNode *pelmNetworkSection;
if (enFormat == ovf::OVFVersion_0_9)
{
// <Section xsi:type="ovf:NetworkSection_Type">
pelmNetworkSection = pelmRoot->createChild("Section");
pelmNetworkSection->setAttribute("xsi:type", "ovf:NetworkSection_Type");
}
else
pelmNetworkSection = pelmRoot->createChild("NetworkSection");
xml::ElementNode *pelmNetworkSectionInfo = pelmNetworkSection->createChild("Info");
pelmNetworkSectionInfo->addContent("Logical networks used in the package");
// and here come the virtual systems:
// write a collection if we have more than one virtual system _and_ we're
// writing OVF 1.0; otherwise fail since ovftool can't import more than
// one machine, it seems
xml::ElementNode *pelmToAddVirtualSystemsTo;
if (m->virtualSystemDescriptions.size() > 1)
{
if (enFormat == ovf::OVFVersion_0_9)
throw setError(VBOX_E_FILE_ERROR,
tr("Cannot export more than one virtual system with OVF 0.9, use OVF 1.0"));
pelmToAddVirtualSystemsTo = pelmRoot->createChild("VirtualSystemCollection");
pelmToAddVirtualSystemsTo->setAttribute("ovf:name", "ExportedVirtualBoxMachines"); // whatever
}
else
pelmToAddVirtualSystemsTo = pelmRoot; // add virtual system directly under root element
// this list receives pointers to the XML elements in the machine XML which
// might have UUIDs that need fixing after we know the UUIDs of the exported images
std::list<xml::ElementNode*> llElementsWithUuidAttributes;
uint32_t ulFile = 1;
/* Iterate through all virtual systems of that appliance */
for (list<ComObjPtr<VirtualSystemDescription> >::const_iterator
itV = m->virtualSystemDescriptions.begin();
itV != m->virtualSystemDescriptions.end();
++itV)
{
ComObjPtr<VirtualSystemDescription> vsdescThis = *itV;
i_buildXMLForOneVirtualSystem(writeLock,
*pelmToAddVirtualSystemsTo,
&llElementsWithUuidAttributes,
vsdescThis,
enFormat,
stack); // disks and networks stack
list<Utf8Str> diskList;
for (list<Utf8Str>::const_iterator
itDisk = stack.mapDiskSequenceForOneVM.begin();
itDisk != stack.mapDiskSequenceForOneVM.end();
++itDisk)
{
const Utf8Str &strDiskID = *itDisk;
const VirtualSystemDescriptionEntry *pDiskEntry = stack.mapDisks[strDiskID];
// source path: where the VBox image is
const Utf8Str &strSrcFilePath = pDiskEntry->strVBoxCurrent;
Bstr bstrSrcFilePath(strSrcFilePath);
//skip empty Medium. There are no information to add into section <References> or <DiskSection>
if (strSrcFilePath.isEmpty() ||
pDiskEntry->skipIt == true)
continue;
// Do NOT check here whether the file exists. FindMedium will figure
// that out, and filesystem-based tests are simply wrong in the
// general case (think of iSCSI).
// We need some info from the source disks
ComPtr<IMedium> pSourceDisk;
//DeviceType_T deviceType = DeviceType_HardDisk;// by default
Log(("Finding source disk \"%ls\"\n", bstrSrcFilePath.raw()));
HRESULT hrc;
if (pDiskEntry->type == VirtualSystemDescriptionType_HardDiskImage)
{
hrc = mVirtualBox->OpenMedium(bstrSrcFilePath.raw(),
DeviceType_HardDisk,
AccessMode_ReadWrite,
FALSE /* fForceNewUuid */,
pSourceDisk.asOutParam());
if (FAILED(hrc))
throw hrc;
}
else if (pDiskEntry->type == VirtualSystemDescriptionType_CDROM)//may be, this is CD/DVD
{
hrc = mVirtualBox->OpenMedium(bstrSrcFilePath.raw(),
DeviceType_DVD,
AccessMode_ReadOnly,
FALSE,
pSourceDisk.asOutParam());
if (FAILED(hrc))
throw hrc;
}
Bstr uuidSource;
hrc = pSourceDisk->COMGETTER(Id)(uuidSource.asOutParam());
if (FAILED(hrc)) throw hrc;
Guid guidSource(uuidSource);
// output filename
const Utf8Str &strTargetFileNameOnly = pDiskEntry->strOvf;
// target path needs to be composed from where the output OVF is
Utf8Str strTargetFilePath(strPath);
strTargetFilePath.stripFilename();
strTargetFilePath.append("/");
strTargetFilePath.append(strTargetFileNameOnly);
// We are always exporting to VMDK stream optimized for now
//Bstr bstrSrcFormat = L"VMDK";//not used
diskList.push_back(strTargetFilePath);
LONG64 cbCapacity = 0; // size reported to guest
hrc = pSourceDisk->COMGETTER(LogicalSize)(&cbCapacity);
if (FAILED(hrc)) throw hrc;
/// @todo r=poetzsch: wrong it is reported in bytes ...
// capacity is reported in megabytes, so...
//cbCapacity *= _1M;
Guid guidTarget; /* Creates a new uniq number for the target disk. */
guidTarget.create();
// now handle the XML for the disk:
Utf8StrFmt strFileRef("file%RI32", ulFile++);
// <File ovf:href="WindowsXpProfessional-disk1.vmdk" ovf:id="file1" ovf:size="1710381056"/>
xml::ElementNode *pelmFile = pelmReferences->createChild("File");
pelmFile->setAttribute("ovf:id", strFileRef);
pelmFile->setAttribute("ovf:href", strTargetFileNameOnly);
/// @todo the actual size is not available at this point of time,
// cause the disk will be compressed. The 1.0 standard says this is
// optional! 1.1 isn't fully clear if the "gzip" format is used.
// Need to be checked. */
// pelmFile->setAttribute("ovf:size", Utf8StrFmt("%RI64", cbFile).c_str());
// add disk to XML Disks section
// <Disk ovf:capacity="8589934592" ovf:diskId="vmdisk1" ovf:fileRef="file1" ovf:format="..."/>
xml::ElementNode *pelmDisk = pelmDiskSection->createChild("Disk");
pelmDisk->setAttribute("ovf:capacity", Utf8StrFmt("%RI64", cbCapacity).c_str());
pelmDisk->setAttribute("ovf:diskId", strDiskID);
pelmDisk->setAttribute("ovf:fileRef", strFileRef);
if (pDiskEntry->type == VirtualSystemDescriptionType_HardDiskImage)//deviceType == DeviceType_HardDisk
{
pelmDisk->setAttribute("ovf:format",
(enFormat == ovf::OVFVersion_0_9)
? "http://www.vmware.com/specifications/vmdk.html#sparse" // must be sparse or ovftoo
: "http://www.vmware.com/interfaces/specifications/vmdk.html#streamOptimized"
// correct string as communicated to us by VMware (public bug #6612)
);
}
else //pDiskEntry->type == VirtualSystemDescriptionType_CDROM, deviceType == DeviceType_DVD
{
pelmDisk->setAttribute("ovf:format",
"http://www.ecma-international.org/publications/standards/Ecma-119.htm"
);
}
// add the UUID of the newly target image to the OVF disk element, but in the
// vbox: namespace since it's not part of the standard
pelmDisk->setAttribute("vbox:uuid", Utf8StrFmt("%RTuuid", guidTarget.raw()).c_str());
// now, we might have other XML elements from vbox:Machine pointing to this image,
// but those would refer to the UUID of the _source_ image (which we created the
// export image from); those UUIDs need to be fixed to the export image
Utf8Str strGuidSourceCurly = guidSource.toStringCurly();
for (std::list<xml::ElementNode*>::const_iterator
it = llElementsWithUuidAttributes.begin();
it != llElementsWithUuidAttributes.end();
++it)
{
xml::ElementNode *pelmImage = *it;
Utf8Str strUUID;
pelmImage->getAttributeValue("uuid", strUUID);
if (strUUID == strGuidSourceCurly)
// overwrite existing uuid attribute
pelmImage->setAttribute("uuid", guidTarget.toStringCurly());
}
}
llElementsWithUuidAttributes.clear();
stack.mapDiskSequenceForOneVM.clear();
}
// now, fill in the network section we set up empty above according
// to the networks we found with the hardware items
for (map<Utf8Str, bool>::const_iterator
it = stack.mapNetworks.begin();
it != stack.mapNetworks.end();
++it)
{
const Utf8Str &strNetwork = it->first;
xml::ElementNode *pelmNetwork = pelmNetworkSection->createChild("Network");
pelmNetwork->setAttribute("ovf:name", strNetwork.c_str());
pelmNetwork->createChild("Description")->addContent("Logical network used by this appliance.");
}
}
/**
* Called from Appliance::i_buildXML() for each virtual system (machine) that
* needs XML written out.
*
* @param writeLock The current write lock.
* @param elmToAddVirtualSystemsTo XML element to append elements to.
* @param pllElementsWithUuidAttributes out: list of XML elements produced here
* with UUID attributes for quick
* fixing by caller later
* @param vsdescThis The IVirtualSystemDescription
* instance for which to write XML.
* @param enFormat OVF format (0.9 or 1.0).
* @param stack Structure for temporary private
* data shared with caller.
*/
void Appliance::i_buildXMLForOneVirtualSystem(AutoWriteLockBase& writeLock,
xml::ElementNode &elmToAddVirtualSystemsTo,
std::list<xml::ElementNode*> *pllElementsWithUuidAttributes,
ComObjPtr<VirtualSystemDescription> &vsdescThis,
ovf::OVFVersion_T enFormat,
XMLStack &stack)
{
LogFlowFunc(("ENTER appliance %p\n", this));
xml::ElementNode *pelmVirtualSystem;
if (enFormat == ovf::OVFVersion_0_9)
{
// <Section xsi:type="ovf:NetworkSection_Type">
pelmVirtualSystem = elmToAddVirtualSystemsTo.createChild("Content");
pelmVirtualSystem->setAttribute("xsi:type", "ovf:VirtualSystem_Type");
}
else
pelmVirtualSystem = elmToAddVirtualSystemsTo.createChild("VirtualSystem");
/*xml::ElementNode *pelmVirtualSystemInfo =*/ pelmVirtualSystem->createChild("Info")->addContent("A virtual machine");
std::list<VirtualSystemDescriptionEntry*> llName = vsdescThis->i_findByType(VirtualSystemDescriptionType_Name);
if (llName.empty())
throw setError(VBOX_E_NOT_SUPPORTED, tr("Missing VM name"));
Utf8Str &strVMName = llName.back()->strVBoxCurrent;
pelmVirtualSystem->setAttribute("ovf:id", strVMName);
// product info
std::list<VirtualSystemDescriptionEntry*> llProduct = vsdescThis->i_findByType(VirtualSystemDescriptionType_Product);
std::list<VirtualSystemDescriptionEntry*> llProductUrl = vsdescThis->i_findByType(VirtualSystemDescriptionType_ProductUrl);
std::list<VirtualSystemDescriptionEntry*> llVendor = vsdescThis->i_findByType(VirtualSystemDescriptionType_Vendor);
std::list<VirtualSystemDescriptionEntry*> llVendorUrl = vsdescThis->i_findByType(VirtualSystemDescriptionType_VendorUrl);
std::list<VirtualSystemDescriptionEntry*> llVersion = vsdescThis->i_findByType(VirtualSystemDescriptionType_Version);
bool fProduct = llProduct.size() && !llProduct.back()->strVBoxCurrent.isEmpty();
bool fProductUrl = llProductUrl.size() && !llProductUrl.back()->strVBoxCurrent.isEmpty();
bool fVendor = llVendor.size() && !llVendor.back()->strVBoxCurrent.isEmpty();
bool fVendorUrl = llVendorUrl.size() && !llVendorUrl.back()->strVBoxCurrent.isEmpty();
bool fVersion = llVersion.size() && !llVersion.back()->strVBoxCurrent.isEmpty();
if (fProduct || fProductUrl || fVendor || fVendorUrl || fVersion)
{
/* <Section ovf:required="false" xsi:type="ovf:ProductSection_Type">
<Info>Meta-information about the installed software</Info>
<Product>VAtest</Product>
<Vendor>SUN Microsystems</Vendor>
<Version>10.0</Version>
<ProductUrl>http://blogs.sun.com/VirtualGuru</ProductUrl>
<VendorUrl>http://www.sun.com</VendorUrl>
</Section> */
xml::ElementNode *pelmAnnotationSection;
if (enFormat == ovf::OVFVersion_0_9)
{
// <Section ovf:required="false" xsi:type="ovf:ProductSection_Type">
pelmAnnotationSection = pelmVirtualSystem->createChild("Section");
pelmAnnotationSection->setAttribute("xsi:type", "ovf:ProductSection_Type");
}
else
pelmAnnotationSection = pelmVirtualSystem->createChild("ProductSection");
pelmAnnotationSection->createChild("Info")->addContent("Meta-information about the installed software");
if (fProduct)
pelmAnnotationSection->createChild("Product")->addContent(llProduct.back()->strVBoxCurrent);
if (fVendor)
pelmAnnotationSection->createChild("Vendor")->addContent(llVendor.back()->strVBoxCurrent);
if (fVersion)
pelmAnnotationSection->createChild("Version")->addContent(llVersion.back()->strVBoxCurrent);
if (fProductUrl)
pelmAnnotationSection->createChild("ProductUrl")->addContent(llProductUrl.back()->strVBoxCurrent);
if (fVendorUrl)
pelmAnnotationSection->createChild("VendorUrl")->addContent(llVendorUrl.back()->strVBoxCurrent);
}
// description
std::list<VirtualSystemDescriptionEntry*> llDescription = vsdescThis->i_findByType(VirtualSystemDescriptionType_Description);
if (llDescription.size() &&
!llDescription.back()->strVBoxCurrent.isEmpty())
{
/* <Section ovf:required="false" xsi:type="ovf:AnnotationSection_Type">
<Info>A human-readable annotation</Info>
<Annotation>Plan 9</Annotation>
</Section> */
xml::ElementNode *pelmAnnotationSection;
if (enFormat == ovf::OVFVersion_0_9)
{
// <Section ovf:required="false" xsi:type="ovf:AnnotationSection_Type">
pelmAnnotationSection = pelmVirtualSystem->createChild("Section");
pelmAnnotationSection->setAttribute("xsi:type", "ovf:AnnotationSection_Type");
}
else
pelmAnnotationSection = pelmVirtualSystem->createChild("AnnotationSection");
pelmAnnotationSection->createChild("Info")->addContent("A human-readable annotation");
pelmAnnotationSection->createChild("Annotation")->addContent(llDescription.back()->strVBoxCurrent);
}
// license
std::list<VirtualSystemDescriptionEntry*> llLicense = vsdescThis->i_findByType(VirtualSystemDescriptionType_License);
if (llLicense.size() &&
!llLicense.back()->strVBoxCurrent.isEmpty())
{
/* <EulaSection>
<Info ovf:msgid="6">License agreement for the Virtual System.</Info>
<License ovf:msgid="1">License terms can go in here.</License>
</EulaSection> */
xml::ElementNode *pelmEulaSection;
if (enFormat == ovf::OVFVersion_0_9)
{
pelmEulaSection = pelmVirtualSystem->createChild("Section");
pelmEulaSection->setAttribute("xsi:type", "ovf:EulaSection_Type");
}
else
pelmEulaSection = pelmVirtualSystem->createChild("EulaSection");
pelmEulaSection->createChild("Info")->addContent("License agreement for the virtual system");
pelmEulaSection->createChild("License")->addContent(llLicense.back()->strVBoxCurrent);
}
// operating system
std::list<VirtualSystemDescriptionEntry*> llOS = vsdescThis->i_findByType(VirtualSystemDescriptionType_OS);
if (llOS.empty())
throw setError(VBOX_E_NOT_SUPPORTED, tr("Missing OS type"));
/* <OperatingSystemSection ovf:id="82">
<Info>Guest Operating System</Info>
<Description>Linux 2.6.x</Description>
</OperatingSystemSection> */
VirtualSystemDescriptionEntry *pvsdeOS = llOS.back();
xml::ElementNode *pelmOperatingSystemSection;
if (enFormat == ovf::OVFVersion_0_9)
{
pelmOperatingSystemSection = pelmVirtualSystem->createChild("Section");
pelmOperatingSystemSection->setAttribute("xsi:type", "ovf:OperatingSystemSection_Type");
}
else
pelmOperatingSystemSection = pelmVirtualSystem->createChild("OperatingSystemSection");
pelmOperatingSystemSection->setAttribute("ovf:id", pvsdeOS->strOvf);
pelmOperatingSystemSection->createChild("Info")->addContent("The kind of installed guest operating system");
Utf8Str strOSDesc;
convertCIMOSType2VBoxOSType(strOSDesc, (ovf::CIMOSType_T)pvsdeOS->strOvf.toInt32(), "");
pelmOperatingSystemSection->createChild("Description")->addContent(strOSDesc);
// add the VirtualBox ostype in a custom tag in a different namespace
xml::ElementNode *pelmVBoxOSType = pelmOperatingSystemSection->createChild("vbox:OSType");
pelmVBoxOSType->setAttribute("ovf:required", "false");
pelmVBoxOSType->addContent(pvsdeOS->strVBoxCurrent);
// <VirtualHardwareSection ovf:id="hw1" ovf:transport="iso">
xml::ElementNode *pelmVirtualHardwareSection;
if (enFormat == ovf::OVFVersion_0_9)
{
// <Section xsi:type="ovf:VirtualHardwareSection_Type">
pelmVirtualHardwareSection = pelmVirtualSystem->createChild("Section");
pelmVirtualHardwareSection->setAttribute("xsi:type", "ovf:VirtualHardwareSection_Type");
}
else
pelmVirtualHardwareSection = pelmVirtualSystem->createChild("VirtualHardwareSection");
pelmVirtualHardwareSection->createChild("Info")->addContent("Virtual hardware requirements for a virtual machine");
/* <System>
<vssd:Description>Description of the virtual hardware section.</vssd:Description>
<vssd:ElementName>vmware</vssd:ElementName>
<vssd:InstanceID>1</vssd:InstanceID>
<vssd:VirtualSystemIdentifier>MyLampService</vssd:VirtualSystemIdentifier>
<vssd:VirtualSystemType>vmx-4</vssd:VirtualSystemType>
</System> */
xml::ElementNode *pelmSystem = pelmVirtualHardwareSection->createChild("System");
pelmSystem->createChild("vssd:ElementName")->addContent("Virtual Hardware Family"); // required OVF 1.0
// <vssd:InstanceId>0</vssd:InstanceId>
if (enFormat == ovf::OVFVersion_0_9)
pelmSystem->createChild("vssd:InstanceId")->addContent("0");
else // capitalization changed...
pelmSystem->createChild("vssd:InstanceID")->addContent("0");
// <vssd:VirtualSystemIdentifier>VAtest</vssd:VirtualSystemIdentifier>
pelmSystem->createChild("vssd:VirtualSystemIdentifier")->addContent(strVMName);
// <vssd:VirtualSystemType>vmx-4</vssd:VirtualSystemType>
const char *pcszHardware = "virtualbox-2.2";
if (enFormat == ovf::OVFVersion_0_9)
// pretend to be vmware compatible then
pcszHardware = "vmx-6";
pelmSystem->createChild("vssd:VirtualSystemType")->addContent(pcszHardware);
// loop thru all description entries twice; once to write out all
// devices _except_ disk images, and a second time to assign the
// disk images; this is because disk images need to reference
// IDE controllers, and we can't know their instance IDs without
// assigning them first
uint32_t idIDEPrimaryController = 0;
int32_t lIDEPrimaryControllerIndex = 0;
uint32_t idIDESecondaryController = 0;
int32_t lIDESecondaryControllerIndex = 0;
uint32_t idSATAController = 0;
int32_t lSATAControllerIndex = 0;
uint32_t idSCSIController = 0;
int32_t lSCSIControllerIndex = 0;
uint32_t idVirtioSCSIController = 0;
int32_t lVirtioSCSIControllerIndex = 0;
uint32_t idNVMeController = 0;
int32_t lNVMeControllerIndex = 0;
uint32_t ulInstanceID = 1;
uint32_t cDVDs = 0;
for (size_t uLoop = 1; uLoop <= 2; ++uLoop)
{
int32_t lIndexThis = 0;
for (vector<VirtualSystemDescriptionEntry>::const_iterator
it = vsdescThis->m->maDescriptions.begin();
it != vsdescThis->m->maDescriptions.end();
++it, ++lIndexThis)
{
const VirtualSystemDescriptionEntry &desc = *it;
LogFlowFunc(("Loop %u: handling description entry ulIndex=%u, type=%s, strRef=%s, strOvf=%s, strVBox=%s, strExtraConfig=%s\n",
uLoop,
desc.ulIndex,
( desc.type == VirtualSystemDescriptionType_HardDiskControllerIDE ? "HardDiskControllerIDE"
: desc.type == VirtualSystemDescriptionType_HardDiskControllerSATA ? "HardDiskControllerSATA"
: desc.type == VirtualSystemDescriptionType_HardDiskControllerSCSI ? "HardDiskControllerSCSI"
: desc.type == VirtualSystemDescriptionType_HardDiskControllerSAS ? "HardDiskControllerSAS"
: desc.type == VirtualSystemDescriptionType_HardDiskControllerNVMe ? "HardDiskControllerNVMe"
: desc.type == VirtualSystemDescriptionType_HardDiskImage ? "HardDiskImage"
: Utf8StrFmt("%d", desc.type).c_str()),
desc.strRef.c_str(),
desc.strOvf.c_str(),
desc.strVBoxCurrent.c_str(),
desc.strExtraConfigCurrent.c_str()));
ovf::ResourceType_T type = (ovf::ResourceType_T)0; // if this becomes != 0 then we do stuff
Utf8Str strResourceSubType;
Utf8Str strDescription; // results in <rasd:Description>...</rasd:Description> block
Utf8Str strCaption; // results in <rasd:Caption>...</rasd:Caption> block
uint32_t ulParent = 0;
int32_t lVirtualQuantity = -1;
Utf8Str strAllocationUnits;
int32_t lAddress = -1;
int32_t lBusNumber = -1;
int32_t lAddressOnParent = -1;
int32_t lAutomaticAllocation = -1; // 0 means "false", 1 means "true"
Utf8Str strConnection; // results in <rasd:Connection>...</rasd:Connection> block
Utf8Str strHostResource;
uint64_t uTemp;
ovf::VirtualHardwareItem vhi;
ovf::StorageItem si;
ovf::EthernetPortItem epi;
switch (desc.type)
{
case VirtualSystemDescriptionType_CPU:
/* <Item>
<rasd:Caption>1 virtual CPU</rasd:Caption>
<rasd:Description>Number of virtual CPUs</rasd:Description>
<rasd:ElementName>virtual CPU</rasd:ElementName>
<rasd:InstanceID>1</rasd:InstanceID>
<rasd:ResourceType>3</rasd:ResourceType>
<rasd:VirtualQuantity>1</rasd:VirtualQuantity>
</Item> */
if (uLoop == 1)
{
strDescription = "Number of virtual CPUs";
type = ovf::ResourceType_Processor; // 3
desc.strVBoxCurrent.toInt(uTemp);
lVirtualQuantity = (int32_t)uTemp;
strCaption = Utf8StrFmt("%d virtual CPU", lVirtualQuantity); // without this ovftool
// won't eat the item
}
break;
case VirtualSystemDescriptionType_Memory:
/* <Item>
<rasd:AllocationUnits>MegaBytes</rasd:AllocationUnits>
<rasd:Caption>256 MB of memory</rasd:Caption>
<rasd:Description>Memory Size</rasd:Description>
<rasd:ElementName>Memory</rasd:ElementName>
<rasd:InstanceID>2</rasd:InstanceID>
<rasd:ResourceType>4</rasd:ResourceType>
<rasd:VirtualQuantity>256</rasd:VirtualQuantity>
</Item> */
if (uLoop == 1)
{
strDescription = "Memory Size";
type = ovf::ResourceType_Memory; // 4
desc.strVBoxCurrent.toInt(uTemp);
/* It's always stored in bytes in VSD according to the old internal agreement within the team */
lVirtualQuantity = (int32_t)(uTemp / _1M);//convert to MB
strAllocationUnits = "MegaBytes";
strCaption = Utf8StrFmt("%d MB of memory", lVirtualQuantity); // without this ovftool
// won't eat the item
}
break;
case VirtualSystemDescriptionType_HardDiskControllerIDE:
/* <Item>
<rasd:Caption>ideController1</rasd:Caption>
<rasd:Description>IDE Controller</rasd:Description>
<rasd:InstanceId>5</rasd:InstanceId>
<rasd:ResourceType>5</rasd:ResourceType>
<rasd:Address>1</rasd:Address>
<rasd:BusNumber>1</rasd:BusNumber>
</Item> */
if (uLoop == 1)
{
strDescription = "IDE Controller";
type = ovf::ResourceType_IDEController; // 5
strResourceSubType = desc.strVBoxCurrent;
if (!lIDEPrimaryControllerIndex)
{
// first IDE controller:
strCaption = "ideController0";
lAddress = 0;
lBusNumber = 0;
// remember this ID
idIDEPrimaryController = ulInstanceID;
lIDEPrimaryControllerIndex = lIndexThis;
}
else
{
// second IDE controller:
strCaption = "ideController1";
lAddress = 1;
lBusNumber = 1;
// remember this ID
idIDESecondaryController = ulInstanceID;
lIDESecondaryControllerIndex = lIndexThis;
}
}
break;
case VirtualSystemDescriptionType_HardDiskControllerSATA:
/* <Item>
<rasd:Caption>sataController0</rasd:Caption>
<rasd:Description>SATA Controller</rasd:Description>
<rasd:InstanceId>4</rasd:InstanceId>
<rasd:ResourceType>20</rasd:ResourceType>
<rasd:ResourceSubType>ahci</rasd:ResourceSubType>
<rasd:Address>0</rasd:Address>
<rasd:BusNumber>0</rasd:BusNumber>
</Item>
*/
if (uLoop == 1)
{
strDescription = "SATA Controller";
strCaption = "sataController0";
type = ovf::ResourceType_OtherStorageDevice; // 20
// it seems that OVFTool always writes these two, and since we can only
// have one SATA controller, we'll use this as well
lAddress = 0;
lBusNumber = 0;
if ( desc.strVBoxCurrent.isEmpty() // AHCI is the default in VirtualBox
|| (!desc.strVBoxCurrent.compare("ahci", Utf8Str::CaseInsensitive))
)
strResourceSubType = "AHCI";
else
throw setError(VBOX_E_NOT_SUPPORTED,
tr("Invalid config string \"%s\" in SATA controller"), desc.strVBoxCurrent.c_str());
// remember this ID
idSATAController = ulInstanceID;
lSATAControllerIndex = lIndexThis;
}
break;
case VirtualSystemDescriptionType_HardDiskControllerSCSI:
case VirtualSystemDescriptionType_HardDiskControllerSAS:
/* <Item>
<rasd:Caption>scsiController0</rasd:Caption>
<rasd:Description>SCSI Controller</rasd:Description>
<rasd:InstanceId>4</rasd:InstanceId>
<rasd:ResourceType>6</rasd:ResourceType>
<rasd:ResourceSubType>buslogic</rasd:ResourceSubType>
<rasd:Address>0</rasd:Address>
<rasd:BusNumber>0</rasd:BusNumber>
</Item>
*/
if (uLoop == 1)
{
strDescription = "SCSI Controller";
strCaption = "scsiController0";
type = ovf::ResourceType_ParallelSCSIHBA; // 6
// it seems that OVFTool always writes these two, and since we can only
// have one SATA controller, we'll use this as well
lAddress = 0;
lBusNumber = 0;
if ( desc.strVBoxCurrent.isEmpty() // LsiLogic is the default in VirtualBox
|| (!desc.strVBoxCurrent.compare("lsilogic", Utf8Str::CaseInsensitive))
)
strResourceSubType = "lsilogic";
else if (!desc.strVBoxCurrent.compare("buslogic", Utf8Str::CaseInsensitive))
strResourceSubType = "buslogic";
else if (!desc.strVBoxCurrent.compare("lsilogicsas", Utf8Str::CaseInsensitive))
strResourceSubType = "lsilogicsas";
else
throw setError(VBOX_E_NOT_SUPPORTED,
tr("Invalid config string \"%s\" in SCSI/SAS controller"),
desc.strVBoxCurrent.c_str());
// remember this ID
idSCSIController = ulInstanceID;
lSCSIControllerIndex = lIndexThis;
}
break;
case VirtualSystemDescriptionType_HardDiskControllerVirtioSCSI:
/* <Item>
<rasd:Caption>VirtioSCSIController0</rasd:Caption>
<rasd:Description>VirtioSCSI Controller</rasd:Description>
<rasd:InstanceId>4</rasd:InstanceId>
<rasd:ResourceType>20</rasd:ResourceType>
<rasd:Address>0</rasd:Address>
<rasd:BusNumber>0</rasd:BusNumber>
</Item>
*/
if (uLoop == 1)
{
strDescription = "VirtioSCSI Controller";
strCaption = "virtioSCSIController0";
type = ovf::ResourceType_OtherStorageDevice; // 20
lAddress = 0;
lBusNumber = 0;
strResourceSubType = "VirtioSCSI";
// remember this ID
idVirtioSCSIController = ulInstanceID;
lVirtioSCSIControllerIndex = lIndexThis;
}
break;
case VirtualSystemDescriptionType_HardDiskControllerNVMe:
/* <Item>
<rasd:Caption>NVMeController0</rasd:Caption>
<rasd:Description>NVMe Controller</rasd:Description>
<rasd:InstanceId>4</rasd:InstanceId>
<rasd:ResourceType>20</rasd:ResourceType>
<rasd:Address>0</rasd:Address>
<rasd:BusNumber>0</rasd:BusNumber>
</Item>
*/
if (uLoop == 1)
{
strDescription = "NVMe Controller";
strCaption = "nvmeController0";
type = ovf::ResourceType_OtherStorageDevice; // 20
lAddress = 0;
lBusNumber = 0;
strResourceSubType = "NVMe";
// remember this ID
idNVMeController = ulInstanceID;
lNVMeControllerIndex = lIndexThis;
}
break;
case VirtualSystemDescriptionType_HardDiskImage:
/* <Item>
<rasd:Caption>disk1</rasd:Caption>
<rasd:InstanceId>8</rasd:InstanceId>
<rasd:ResourceType>17</rasd:ResourceType>
<rasd:HostResource>/disk/vmdisk1</rasd:HostResource>
<rasd:Parent>4</rasd:Parent>
<rasd:AddressOnParent>0</rasd:AddressOnParent>
</Item> */
if (uLoop == 2)
{
uint32_t cDisks = (uint32_t)stack.mapDisks.size();
Utf8Str strDiskID = Utf8StrFmt("vmdisk%RI32", ++cDisks);
strDescription = "Disk Image";
strCaption = Utf8StrFmt("disk%RI32", cDisks); // this is not used for anything else
type = ovf::ResourceType_HardDisk; // 17
// the following references the "<Disks>" XML block
strHostResource = Utf8StrFmt("/disk/%s", strDiskID.c_str());
// controller=<index>;channel=<c>
size_t pos1 = desc.strExtraConfigCurrent.find("controller=");
size_t pos2 = desc.strExtraConfigCurrent.find("channel=");
int32_t lControllerIndex = -1;
if (pos1 != Utf8Str::npos)
{
RTStrToInt32Ex(desc.strExtraConfigCurrent.c_str() + pos1 + 11, NULL, 0, &lControllerIndex);
if (lControllerIndex == lIDEPrimaryControllerIndex)
ulParent = idIDEPrimaryController;
else if (lControllerIndex == lIDESecondaryControllerIndex)
ulParent = idIDESecondaryController;
else if (lControllerIndex == lSCSIControllerIndex)
ulParent = idSCSIController;
else if (lControllerIndex == lSATAControllerIndex)
ulParent = idSATAController;
else if (lControllerIndex == lVirtioSCSIControllerIndex)
ulParent = idVirtioSCSIController;
else if (lControllerIndex == lNVMeControllerIndex)
ulParent = idNVMeController;
}
if (pos2 != Utf8Str::npos)
RTStrToInt32Ex(desc.strExtraConfigCurrent.c_str() + pos2 + 8, NULL, 0, &lAddressOnParent);
LogFlowFunc(("HardDiskImage details: pos1=%d, pos2=%d, lControllerIndex=%d, lIDEPrimaryControllerIndex=%d, lIDESecondaryControllerIndex=%d, ulParent=%d, lAddressOnParent=%d\n",
pos1, pos2, lControllerIndex, lIDEPrimaryControllerIndex, lIDESecondaryControllerIndex,
ulParent, lAddressOnParent));
if ( !ulParent
|| lAddressOnParent == -1
)
throw setError(VBOX_E_NOT_SUPPORTED,
tr("Missing or bad extra config string in hard disk image: \"%s\""),
desc.strExtraConfigCurrent.c_str());
stack.mapDisks[strDiskID] = &desc;
//use the list stack.mapDiskSequence where the disks go as the "VirtualSystem" should be placed
//in the OVF description file.
stack.mapDiskSequence.push_back(strDiskID);
stack.mapDiskSequenceForOneVM.push_back(strDiskID);
}
break;
case VirtualSystemDescriptionType_Floppy:
if (uLoop == 1)
{
strDescription = "Floppy Drive";
strCaption = "floppy0"; // this is what OVFTool writes
type = ovf::ResourceType_FloppyDrive; // 14
lAutomaticAllocation = 0;
lAddressOnParent = 0; // this is what OVFTool writes
}
break;
case VirtualSystemDescriptionType_CDROM:
/* <Item>
<rasd:Caption>cdrom1</rasd:Caption>
<rasd:InstanceId>8</rasd:InstanceId>
<rasd:ResourceType>15</rasd:ResourceType>
<rasd:HostResource>/disk/cdrom1</rasd:HostResource>
<rasd:Parent>4</rasd:Parent>
<rasd:AddressOnParent>0</rasd:AddressOnParent>
</Item> */
if (uLoop == 2)
{
uint32_t cDisks = (uint32_t)stack.mapDisks.size();
Utf8Str strDiskID = Utf8StrFmt("iso%RI32", ++cDisks);
++cDVDs;
strDescription = "CD-ROM Drive";
strCaption = Utf8StrFmt("cdrom%RI32", cDVDs); // OVFTool starts with 1
type = ovf::ResourceType_CDDrive; // 15
lAutomaticAllocation = 1;
//skip empty Medium. There are no information to add into section <References> or <DiskSection>
if (desc.strVBoxCurrent.isNotEmpty() &&
desc.skipIt == false)
{
// the following references the "<Disks>" XML block
strHostResource = Utf8StrFmt("/disk/%s", strDiskID.c_str());
}
// controller=<index>;channel=<c>
size_t pos1 = desc.strExtraConfigCurrent.find("controller=");
size_t pos2 = desc.strExtraConfigCurrent.find("channel=");
int32_t lControllerIndex = -1;
if (pos1 != Utf8Str::npos)
{
RTStrToInt32Ex(desc.strExtraConfigCurrent.c_str() + pos1 + 11, NULL, 0, &lControllerIndex);
if (lControllerIndex == lIDEPrimaryControllerIndex)
ulParent = idIDEPrimaryController;
else if (lControllerIndex == lIDESecondaryControllerIndex)
ulParent = idIDESecondaryController;
else if (lControllerIndex == lSCSIControllerIndex)
ulParent = idSCSIController;
else if (lControllerIndex == lSATAControllerIndex)
ulParent = idSATAController;
else if (lControllerIndex == lVirtioSCSIControllerIndex)
ulParent = idVirtioSCSIController;
}
if (pos2 != Utf8Str::npos)
RTStrToInt32Ex(desc.strExtraConfigCurrent.c_str() + pos2 + 8, NULL, 0, &lAddressOnParent);
LogFlowFunc(("DVD drive details: pos1=%d, pos2=%d, lControllerIndex=%d, lIDEPrimaryControllerIndex=%d, lIDESecondaryControllerIndex=%d, ulParent=%d, lAddressOnParent=%d\n",
pos1, pos2, lControllerIndex, lIDEPrimaryControllerIndex,
lIDESecondaryControllerIndex, ulParent, lAddressOnParent));
if ( !ulParent
|| lAddressOnParent == -1
)
throw setError(VBOX_E_NOT_SUPPORTED,
tr("Missing or bad extra config string in DVD drive medium: \"%s\""),
desc.strExtraConfigCurrent.c_str());
stack.mapDisks[strDiskID] = &desc;
//use the list stack.mapDiskSequence where the disks go as the "VirtualSystem" should be placed
//in the OVF description file.
stack.mapDiskSequence.push_back(strDiskID);
stack.mapDiskSequenceForOneVM.push_back(strDiskID);
// there is no DVD drive map to update because it is
// handled completely with this entry.
}
break;
case VirtualSystemDescriptionType_NetworkAdapter:
/* <Item>
<rasd:AutomaticAllocation>true</rasd:AutomaticAllocation>
<rasd:Caption>Ethernet adapter on 'VM Network'</rasd:Caption>
<rasd:Connection>VM Network</rasd:Connection>
<rasd:ElementName>VM network</rasd:ElementName>
<rasd:InstanceID>3</rasd:InstanceID>
<rasd:ResourceType>10</rasd:ResourceType>
</Item> */
if (uLoop == 2)
{
lAutomaticAllocation = 1;
strCaption = Utf8StrFmt("Ethernet adapter on '%s'", desc.strOvf.c_str());
type = ovf::ResourceType_EthernetAdapter; // 10
/* Set the hardware type to something useful.
* To be compatible with vmware & others we set
* PCNet32 for our PCNet types & E1000 for the
* E1000 cards. */
switch (desc.strVBoxCurrent.toInt32())
{
case NetworkAdapterType_Am79C970A:
case NetworkAdapterType_Am79C973: strResourceSubType = "PCNet32"; break;
#ifdef VBOX_WITH_E1000
case NetworkAdapterType_I82540EM:
case NetworkAdapterType_I82545EM:
case NetworkAdapterType_I82543GC: strResourceSubType = "E1000"; break;
#endif /* VBOX_WITH_E1000 */
}
strConnection = desc.strOvf;
stack.mapNetworks[desc.strOvf] = true;
}
break;
case VirtualSystemDescriptionType_USBController:
/* <Item ovf:required="false">
<rasd:Caption>usb</rasd:Caption>
<rasd:Description>USB Controller</rasd:Description>
<rasd:InstanceId>3</rasd:InstanceId>
<rasd:ResourceType>23</rasd:ResourceType>
<rasd:Address>0</rasd:Address>
<rasd:BusNumber>0</rasd:BusNumber>
</Item> */
if (uLoop == 1)
{
strDescription = "USB Controller";
strCaption = "usb";
type = ovf::ResourceType_USBController; // 23
lAddress = 0; // this is what OVFTool writes
lBusNumber = 0; // this is what OVFTool writes
}
break;
case VirtualSystemDescriptionType_SoundCard:
/* <Item ovf:required="false">
<rasd:Caption>sound</rasd:Caption>
<rasd:Description>Sound Card</rasd:Description>
<rasd:InstanceId>10</rasd:InstanceId>
<rasd:ResourceType>35</rasd:ResourceType>
<rasd:ResourceSubType>ensoniq1371</rasd:ResourceSubType>
<rasd:AutomaticAllocation>false</rasd:AutomaticAllocation>
<rasd:AddressOnParent>3</rasd:AddressOnParent>
</Item> */
if (uLoop == 1)
{
strDescription = "Sound Card";
strCaption = "sound";
type = ovf::ResourceType_SoundCard; // 35
strResourceSubType = desc.strOvf; // e.g. ensoniq1371
lAutomaticAllocation = 0;
lAddressOnParent = 3; // what gives? this is what OVFTool writes
}
break;
default: break; /* Shut up MSC. */
}
if (type)
{
xml::ElementNode *pItem;
xml::ElementNode *pItemHelper;
RTCString itemElement;
RTCString itemElementHelper;
if (enFormat == ovf::OVFVersion_2_0)
{
if(uLoop == 2)
{
if (desc.type == VirtualSystemDescriptionType_NetworkAdapter)
{
itemElement = "epasd:";
pItem = pelmVirtualHardwareSection->createChild("EthernetPortItem");
}
else if (desc.type == VirtualSystemDescriptionType_CDROM ||
desc.type == VirtualSystemDescriptionType_HardDiskImage)
{
itemElement = "sasd:";
pItem = pelmVirtualHardwareSection->createChild("StorageItem");
}
else
pItem = NULL;
}
else
{
itemElement = "rasd:";
pItem = pelmVirtualHardwareSection->createChild("Item");
}
}
else
{
itemElement = "rasd:";
pItem = pelmVirtualHardwareSection->createChild("Item");
}
// NOTE: DO NOT CHANGE THE ORDER of these items! The OVF standards prescribes that
// the elements from the rasd: namespace must be sorted by letter, and VMware
// actually requires this as well (see public bug #6612)
if (lAddress != -1)
{
//pItem->createChild("rasd:Address")->addContent(Utf8StrFmt("%d", lAddress));
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("Address").c_str());
pItemHelper->addContent(Utf8StrFmt("%d", lAddress));
}
if (lAddressOnParent != -1)
{
//pItem->createChild("rasd:AddressOnParent")->addContent(Utf8StrFmt("%d", lAddressOnParent));
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("AddressOnParent").c_str());
pItemHelper->addContent(Utf8StrFmt("%d", lAddressOnParent));
}
if (!strAllocationUnits.isEmpty())
{
//pItem->createChild("rasd:AllocationUnits")->addContent(strAllocationUnits);
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("AllocationUnits").c_str());
pItemHelper->addContent(strAllocationUnits);
}
if (lAutomaticAllocation != -1)
{
//pItem->createChild("rasd:AutomaticAllocation")->addContent( (lAutomaticAllocation) ? "true" : "false" );
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("AutomaticAllocation").c_str());
pItemHelper->addContent((lAutomaticAllocation) ? "true" : "false" );
}
if (lBusNumber != -1)
{
if (enFormat == ovf::OVFVersion_0_9)
{
// BusNumber is invalid OVF 1.0 so only write it in 0.9 mode for OVFTool
//pItem->createChild("rasd:BusNumber")->addContent(Utf8StrFmt("%d", lBusNumber));
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("BusNumber").c_str());
pItemHelper->addContent(Utf8StrFmt("%d", lBusNumber));
}
}
if (!strCaption.isEmpty())
{
//pItem->createChild("rasd:Caption")->addContent(strCaption);
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("Caption").c_str());
pItemHelper->addContent(strCaption);
}
if (!strConnection.isEmpty())
{
//pItem->createChild("rasd:Connection")->addContent(strConnection);
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("Connection").c_str());
pItemHelper->addContent(strConnection);
}
if (!strDescription.isEmpty())
{
//pItem->createChild("rasd:Description")->addContent(strDescription);
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("Description").c_str());
pItemHelper->addContent(strDescription);
}
if (!strCaption.isEmpty())
{
if (enFormat == ovf::OVFVersion_1_0)
{
//pItem->createChild("rasd:ElementName")->addContent(strCaption);
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("ElementName").c_str());
pItemHelper->addContent(strCaption);
}
}
if (!strHostResource.isEmpty())
{
//pItem->createChild("rasd:HostResource")->addContent(strHostResource);
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("HostResource").c_str());
pItemHelper->addContent(strHostResource);
}
{
// <rasd:InstanceID>1</rasd:InstanceID>
itemElementHelper = itemElement;
if (enFormat == ovf::OVFVersion_0_9)
//pelmInstanceID = pItem->createChild("rasd:InstanceId");
pItemHelper = pItem->createChild(itemElementHelper.append("InstanceId").c_str());
else
//pelmInstanceID = pItem->createChild("rasd:InstanceID"); // capitalization changed...
pItemHelper = pItem->createChild(itemElementHelper.append("InstanceID").c_str());
pItemHelper->addContent(Utf8StrFmt("%d", ulInstanceID++));
}
if (ulParent)
{
//pItem->createChild("rasd:Parent")->addContent(Utf8StrFmt("%d", ulParent));
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("Parent").c_str());
pItemHelper->addContent(Utf8StrFmt("%d", ulParent));
}
if (!strResourceSubType.isEmpty())
{
//pItem->createChild("rasd:ResourceSubType")->addContent(strResourceSubType);
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("ResourceSubType").c_str());
pItemHelper->addContent(strResourceSubType);
}
{
// <rasd:ResourceType>3</rasd:ResourceType>
//pItem->createChild("rasd:ResourceType")->addContent(Utf8StrFmt("%d", type));
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("ResourceType").c_str());
pItemHelper->addContent(Utf8StrFmt("%d", type));
}
// <rasd:VirtualQuantity>1</rasd:VirtualQuantity>
if (lVirtualQuantity != -1)
{
//pItem->createChild("rasd:VirtualQuantity")->addContent(Utf8StrFmt("%d", lVirtualQuantity));
itemElementHelper = itemElement;
pItemHelper = pItem->createChild(itemElementHelper.append("VirtualQuantity").c_str());
pItemHelper->addContent(Utf8StrFmt("%d", lVirtualQuantity));
}
}
}
} // for (size_t uLoop = 1; uLoop <= 2; ++uLoop)
// now that we're done with the official OVF <Item> tags under <VirtualSystem>, write out VirtualBox XML
// under the vbox: namespace
xml::ElementNode *pelmVBoxMachine = pelmVirtualSystem->createChild("vbox:Machine");
// ovf:required="false" tells other OVF parsers that they can ignore this thing
pelmVBoxMachine->setAttribute("ovf:required", "false");
// ovf:Info element is required or VMware will bail out on the vbox:Machine element
pelmVBoxMachine->createChild("ovf:Info")->addContent("Complete VirtualBox machine configuration in VirtualBox format");
// create an empty machine config
// use the same settings version as the current VM settings file
settings::MachineConfigFile *pConfig = new settings::MachineConfigFile(&vsdescThis->m->pMachine->i_getSettingsFileFull());
writeLock.release();
try
{
AutoWriteLock machineLock(vsdescThis->m->pMachine COMMA_LOCKVAL_SRC_POS);
// fill the machine config
vsdescThis->m->pMachine->i_copyMachineDataToSettings(*pConfig);
pConfig->machineUserData.strName = strVMName;
// Apply export tweaks to machine settings
bool fStripAllMACs = m->optListExport.contains(ExportOptions_StripAllMACs);
bool fStripAllNonNATMACs = m->optListExport.contains(ExportOptions_StripAllNonNATMACs);
if (fStripAllMACs || fStripAllNonNATMACs)
{
for (settings::NetworkAdaptersList::iterator
it = pConfig->hardwareMachine.llNetworkAdapters.begin();
it != pConfig->hardwareMachine.llNetworkAdapters.end();
++it)
{
settings::NetworkAdapter &nic = *it;
if (fStripAllMACs || (fStripAllNonNATMACs && nic.mode != NetworkAttachmentType_NAT))
nic.strMACAddress.setNull();
}
}
// write the machine config to the vbox:Machine element
pConfig->buildMachineXML(*pelmVBoxMachine,
settings::MachineConfigFile::BuildMachineXML_WriteVBoxVersionAttribute
/*| settings::MachineConfigFile::BuildMachineXML_SkipRemovableMedia*/
| settings::MachineConfigFile::BuildMachineXML_SuppressSavedState,
// but not BuildMachineXML_IncludeSnapshots nor BuildMachineXML_MediaRegistry
pllElementsWithUuidAttributes);
delete pConfig;
}
catch (...)
{
writeLock.acquire();
delete pConfig;
throw;
}
writeLock.acquire();
}
/**
* Actual worker code for writing out OVF/OVA to disk. This is called from Appliance::taskThreadWriteOVF()
* and therefore runs on the OVF/OVA write worker thread.
*
* This runs in one context:
*
* 1) in a first worker thread; in that case, Appliance::Write() called Appliance::i_writeImpl();
*
* @param pTask
* @return
*/
HRESULT Appliance::i_writeFS(TaskOVF *pTask)
{
LogFlowFuncEnter();
LogFlowFunc(("ENTER appliance %p\n", this));
AutoCaller autoCaller(this);
if (FAILED(autoCaller.hrc())) return autoCaller.hrc();
HRESULT hrc = S_OK;
// Lock the media tree early to make sure nobody else tries to make changes
// to the tree. Also lock the IAppliance object for writing.
AutoMultiWriteLock2 multiLock(&mVirtualBox->i_getMediaTreeLockHandle(), this->lockHandle() COMMA_LOCKVAL_SRC_POS);
// Additional protect the IAppliance object, cause we leave the lock
// when starting the disk export and we don't won't block other
// callers on this lengthy operations.
m->state = ApplianceExporting;
if (pTask->locInfo.strPath.endsWith(".ovf", Utf8Str::CaseInsensitive))
hrc = i_writeFSOVF(pTask, multiLock);
else
hrc = i_writeFSOVA(pTask, multiLock);
// reset the state so others can call methods again
m->state = ApplianceIdle;
LogFlowFunc(("hrc=%Rhrc\n", hrc));
LogFlowFuncLeave();
return hrc;
}
HRESULT Appliance::i_writeFSOVF(TaskOVF *pTask, AutoWriteLockBase& writeLock)
{
LogFlowFuncEnter();
/*
* Create write-to-dir file system stream for the target directory.
* This unifies the disk access with the TAR based OVA variant.
*/
HRESULT hrc;
int vrc;
RTVFSFSSTREAM hVfsFss2Dir = NIL_RTVFSFSSTREAM;
try
{
Utf8Str strTargetDir(pTask->locInfo.strPath);
strTargetDir.stripFilename();
vrc = RTVfsFsStrmToNormalDir(strTargetDir.c_str(), 0 /*fFlags*/, &hVfsFss2Dir);
if (RT_SUCCESS(vrc))
hrc = S_OK;
else
hrc = setErrorVrc(vrc, tr("Failed to open directory '%s' (%Rrc)"), strTargetDir.c_str(), vrc);
}
catch (std::bad_alloc &)
{
hrc = E_OUTOFMEMORY;
}
if (SUCCEEDED(hrc))
{
/*
* Join i_writeFSOVA. On failure, delete (undo) anything we might
* have written to the disk before failing.
*/
hrc = i_writeFSImpl(pTask, writeLock, hVfsFss2Dir);
if (FAILED(hrc))
RTVfsFsStrmToDirUndo(hVfsFss2Dir);
RTVfsFsStrmRelease(hVfsFss2Dir);
}
LogFlowFuncLeave();
return hrc;
}
HRESULT Appliance::i_writeFSOVA(TaskOVF *pTask, AutoWriteLockBase &writeLock)
{
LogFlowFuncEnter();
/*
* Open the output file and attach a TAR creator to it.
* The OVF 1.1.0 spec specifies the TAR format to be compatible with USTAR
* according to POSIX 1003.1-2008. We use the 1988 spec here as it's the
* only variant we currently implement.
*/
HRESULT hrc;
RTVFSIOSTREAM hVfsIosTar;
int vrc = RTVfsIoStrmOpenNormal(pTask->locInfo.strPath.c_str(),
RTFILE_O_CREATE | RTFILE_O_WRITE | RTFILE_O_DENY_WRITE,
&hVfsIosTar);
if (RT_SUCCESS(vrc))
{
RTVFSFSSTREAM hVfsFssTar;
vrc = RTZipTarFsStreamToIoStream(hVfsIosTar, RTZIPTARFORMAT_USTAR, 0 /*fFlags*/, &hVfsFssTar);
RTVfsIoStrmRelease(hVfsIosTar);
if (RT_SUCCESS(vrc))
{
RTZipTarFsStreamSetFileMode(hVfsFssTar, 0660, 0440);
RTZipTarFsStreamSetOwner(hVfsFssTar, VBOX_VERSION_MAJOR,
pTask->enFormat == ovf::OVFVersion_0_9 ? "vboxovf09"
: pTask->enFormat == ovf::OVFVersion_1_0 ? "vboxovf10"
: pTask->enFormat == ovf::OVFVersion_2_0 ? "vboxovf20"
: "vboxovf");
RTZipTarFsStreamSetGroup(hVfsFssTar, VBOX_VERSION_MINOR,
Utf8StrFmt("vbox_v" RT_XSTR(VBOX_VERSION_MAJOR) "." RT_XSTR(VBOX_VERSION_MINOR) "."
RT_XSTR(VBOX_VERSION_BUILD) "r%RU32", RTBldCfgRevision()).c_str());
hrc = i_writeFSImpl(pTask, writeLock, hVfsFssTar);
RTVfsFsStrmRelease(hVfsFssTar);
}
else
hrc = setErrorVrc(vrc, tr("Failed create TAR creator for '%s' (%Rrc)"), pTask->locInfo.strPath.c_str(), vrc);
/* Delete the OVA on failure. */
if (FAILED(hrc))
RTFileDelete(pTask->locInfo.strPath.c_str());
}
else
hrc = setErrorVrc(vrc, tr("Failed to open '%s' for writing (%Rrc)"), pTask->locInfo.strPath.c_str(), vrc);
LogFlowFuncLeave();
return hrc;
}
/**
* Upload the image to the OCI Storage service, next import the
* uploaded image into internal OCI image format and launch an
* instance with this image in the OCI Compute service.
*/
HRESULT Appliance::i_exportCloudImpl(TaskCloud *pTask)
{
LogFlowFuncEnter();
HRESULT hrc = S_OK;
ComPtr<ICloudProviderManager> cpm;
hrc = mVirtualBox->COMGETTER(CloudProviderManager)(cpm.asOutParam());
if (FAILED(hrc))
return setError(VBOX_E_OBJECT_NOT_FOUND, tr("%s: Cloud provider manager object wasn't found"), __FUNCTION__);
Utf8Str strProviderName = pTask->locInfo.strProvider;
ComPtr<ICloudProvider> cloudProvider;
ComPtr<ICloudProfile> cloudProfile;
hrc = cpm->GetProviderByShortName(Bstr(strProviderName.c_str()).raw(), cloudProvider.asOutParam());
if (FAILED(hrc))
return setError(VBOX_E_OBJECT_NOT_FOUND, tr("%s: Cloud provider object wasn't found"), __FUNCTION__);
ComPtr<IVirtualSystemDescription> vsd = m->virtualSystemDescriptions.front();
com::SafeArray<VirtualSystemDescriptionType_T> retTypes;
com::SafeArray<BSTR> aRefs;
com::SafeArray<BSTR> aOvfValues;
com::SafeArray<BSTR> aVBoxValues;
com::SafeArray<BSTR> aExtraConfigValues;
hrc = vsd->GetDescriptionByType(VirtualSystemDescriptionType_CloudProfileName,
ComSafeArrayAsOutParam(retTypes),
ComSafeArrayAsOutParam(aRefs),
ComSafeArrayAsOutParam(aOvfValues),
ComSafeArrayAsOutParam(aVBoxValues),
ComSafeArrayAsOutParam(aExtraConfigValues));
if (FAILED(hrc))
return hrc;
Utf8Str profileName(aVBoxValues[0]);
if (profileName.isEmpty())
return setError(VBOX_E_OBJECT_NOT_FOUND, tr("%s: Cloud user profile name wasn't found"), __FUNCTION__);
hrc = cloudProvider->GetProfileByName(aVBoxValues[0], cloudProfile.asOutParam());
if (FAILED(hrc))
return setError(VBOX_E_OBJECT_NOT_FOUND, tr("%s: Cloud profile object wasn't found"), __FUNCTION__);
ComObjPtr<ICloudClient> cloudClient;
hrc = cloudProfile->CreateCloudClient(cloudClient.asOutParam());
if (FAILED(hrc))
return setError(VBOX_E_OBJECT_NOT_FOUND, tr("%s: Cloud client object wasn't found"), __FUNCTION__);
if (m->virtualSystemDescriptions.size() == 1)
{
ComPtr<IVirtualBox> VBox(mVirtualBox);
hrc = cloudClient->ExportVM(m->virtualSystemDescriptions.front(), pTask->pProgress);
}
else
hrc = setErrorVrc(VERR_MISMATCH, tr("Export to Cloud isn't supported for more than one VM instance."));
LogFlowFuncLeave();
return hrc;
}
/**
* Writes the Oracle Public Cloud appliance.
*
* It expect raw disk images inside a gzipped tarball. We enable sparse files
* to save diskspace on the target host system.
*/
HRESULT Appliance::i_writeFSOPC(TaskOPC *pTask)
{
LogFlowFuncEnter();
HRESULT hrc = S_OK;
// Lock the media tree early to make sure nobody else tries to make changes
// to the tree. Also lock the IAppliance object for writing.
AutoMultiWriteLock2 multiLock(&mVirtualBox->i_getMediaTreeLockHandle(), this->lockHandle() COMMA_LOCKVAL_SRC_POS);
// Additional protect the IAppliance object, cause we leave the lock
// when starting the disk export and we don't won't block other
// callers on this lengthy operations.
m->state = ApplianceExporting;
/*
* We're duplicating parts of i_writeFSImpl here because that's simpler
* and creates less spaghetti code.
*/
std::list<Utf8Str> lstTarballs;
/*
* Use i_buildXML to build a stack of disk images. We don't care about the XML doc here.
*/
XMLStack stack;
{
xml::Document doc;
i_buildXML(multiLock, doc, stack, pTask->locInfo.strPath, ovf::OVFVersion_2_0);
}
/*
* Process the disk images.
*/
unsigned cTarballs = 0;
for (list<Utf8Str>::const_iterator it = stack.mapDiskSequence.begin();
it != stack.mapDiskSequence.end();
++it)
{
const Utf8Str &strDiskID = *it;
const VirtualSystemDescriptionEntry *pDiskEntry = stack.mapDisks[strDiskID];
const Utf8Str &strSrcFilePath = pDiskEntry->strVBoxCurrent; // where the VBox image is
/*
* Some skipping.
*/
if (pDiskEntry->skipIt)
continue;
/* Skip empty media (DVD-ROM, floppy). */
if (strSrcFilePath.isEmpty())
continue;
/* Only deal with harddisk and DVD-ROMs, skip any floppies for now. */
if ( pDiskEntry->type != VirtualSystemDescriptionType_HardDiskImage
&& pDiskEntry->type != VirtualSystemDescriptionType_CDROM)
continue;
/*
* Locate the Medium object for this entry (by location/path).
*/
Log(("Finding source disk \"%s\"\n", strSrcFilePath.c_str()));
ComObjPtr<Medium> ptrSourceDisk;
if (pDiskEntry->type == VirtualSystemDescriptionType_HardDiskImage)
hrc = mVirtualBox->i_findHardDiskByLocation(strSrcFilePath, true /*aSetError*/, &ptrSourceDisk);
else
hrc = mVirtualBox->i_findDVDOrFloppyImage(DeviceType_DVD, NULL /*aId*/, strSrcFilePath,
true /*aSetError*/, &ptrSourceDisk);
if (FAILED(hrc))
break;
if (strSrcFilePath.isEmpty())
continue;
/*
* Figure out the names.
*/
/* The name inside the tarball. Replace the suffix of harddisk images with ".img". */
Utf8Str strInsideName = pDiskEntry->strOvf;
if (pDiskEntry->type == VirtualSystemDescriptionType_HardDiskImage)
strInsideName.stripSuffix().append(".img");
/* The first tarball we create uses the specified name. Subsequent
takes the name from the disk entry or something. */
Utf8Str strTarballPath = pTask->locInfo.strPath;
if (cTarballs > 0)
{
strTarballPath.stripFilename().append(RTPATH_SLASH_STR).append(pDiskEntry->strOvf);
const char *pszExt = RTPathSuffix(pDiskEntry->strOvf.c_str());
if (pszExt && pszExt[0] == '.' && pszExt[1] != '\0')
{
strTarballPath.stripSuffix();
if (pDiskEntry->type != VirtualSystemDescriptionType_HardDiskImage)
strTarballPath.append("_").append(&pszExt[1]);
}
strTarballPath.append(".tar.gz");
}
cTarballs++;
/*
* Create the tar output stream.
*/
RTVFSIOSTREAM hVfsIosFile;
int vrc = RTVfsIoStrmOpenNormal(strTarballPath.c_str(),
RTFILE_O_CREATE | RTFILE_O_WRITE | RTFILE_O_DENY_WRITE,
&hVfsIosFile);
if (RT_SUCCESS(vrc))
{
RTVFSIOSTREAM hVfsIosGzip = NIL_RTVFSIOSTREAM;
vrc = RTZipGzipCompressIoStream(hVfsIosFile, 0 /*fFlags*/, 6 /*uLevel*/, &hVfsIosGzip);
RTVfsIoStrmRelease(hVfsIosFile);
/** @todo insert I/O thread here between gzip and the tar creator. Needs
* implementing. */
RTVFSFSSTREAM hVfsFssTar = NIL_RTVFSFSSTREAM;
if (RT_SUCCESS(vrc))
vrc = RTZipTarFsStreamToIoStream(hVfsIosGzip, RTZIPTARFORMAT_GNU, RTZIPTAR_C_SPARSE, &hVfsFssTar);
RTVfsIoStrmRelease(hVfsIosGzip);
if (RT_SUCCESS(vrc))
{
RTZipTarFsStreamSetFileMode(hVfsFssTar, 0660, 0440);
RTZipTarFsStreamSetOwner(hVfsFssTar, VBOX_VERSION_MAJOR, "vboxopc10");
RTZipTarFsStreamSetGroup(hVfsFssTar, VBOX_VERSION_MINOR,
Utf8StrFmt("vbox_v" RT_XSTR(VBOX_VERSION_MAJOR) "." RT_XSTR(VBOX_VERSION_MINOR) "."
RT_XSTR(VBOX_VERSION_BUILD) "r%RU32", RTBldCfgRevision()).c_str());
/*
* Let the Medium code do the heavy work.
*
* The exporting requests a lock on the media tree. So temporarily
* leave the appliance lock.
*/
multiLock.release();
pTask->pProgress->SetNextOperation(BstrFmt(tr("Exporting to disk image '%Rbn'"), strTarballPath.c_str()).raw(),
pDiskEntry->ulSizeMB); // operation's weight, as set up
// with the IProgress originally
hrc = ptrSourceDisk->i_addRawToFss(strInsideName.c_str(), m->m_pSecretKeyStore, hVfsFssTar,
pTask->pProgress, true /*fSparse*/);
multiLock.acquire();
if (SUCCEEDED(hrc))
{
/*
* Complete and close the tarball.
*/
vrc = RTVfsFsStrmEnd(hVfsFssTar);
RTVfsFsStrmRelease(hVfsFssTar);
hVfsFssTar = NIL_RTVFSFSSTREAM;
if (RT_SUCCESS(vrc))
{
/* Remember the tarball name for cleanup. */
try
{
lstTarballs.push_back(strTarballPath.c_str());
strTarballPath.setNull();
}
catch (std::bad_alloc &)
{ hrc = E_OUTOFMEMORY; }
}
else
hrc = setErrorBoth(VBOX_E_FILE_ERROR, vrc,
tr("Error completing TAR file '%s' (%Rrc)"), strTarballPath.c_str(), vrc);
}
}
else
hrc = setErrorVrc(vrc, tr("Failed to TAR creator instance for '%s' (%Rrc)"), strTarballPath.c_str(), vrc);
if (FAILED(hrc) && strTarballPath.isNotEmpty())
RTFileDelete(strTarballPath.c_str());
}
else
hrc = setErrorVrc(vrc, tr("Failed to create '%s' (%Rrc)"), strTarballPath.c_str(), vrc);
if (FAILED(hrc))
break;
}
/*
* Delete output files on failure.
*/
if (FAILED(hrc))
for (list<Utf8Str>::const_iterator it = lstTarballs.begin(); it != lstTarballs.end(); ++it)
RTFileDelete(it->c_str());
// reset the state so others can call methods again
m->state = ApplianceIdle;
LogFlowFuncLeave();
return hrc;
}
HRESULT Appliance::i_writeFSImpl(TaskOVF *pTask, AutoWriteLockBase &writeLock, RTVFSFSSTREAM hVfsFssDst)
{
LogFlowFuncEnter();
HRESULT hrc = S_OK;
int vrc;
try
{
// the XML stack contains two maps for disks and networks, which allows us to
// a) have a list of unique disk names (to make sure the same disk name is only added once)
// and b) keep a list of all networks
XMLStack stack;
// Scope this to free the memory as soon as this is finished
{
/* Construct the OVF name. */
Utf8Str strOvfFile(pTask->locInfo.strPath);
strOvfFile.stripPath().stripSuffix().append(".ovf");
/* Render a valid ovf document into a memory buffer. The unknown
version upgrade relates to the OPC hack up in Appliance::write(). */
xml::Document doc;
i_buildXML(writeLock, doc, stack, pTask->locInfo.strPath,
pTask->enFormat != ovf::OVFVersion_unknown ? pTask->enFormat : ovf::OVFVersion_2_0);
void *pvBuf = NULL;
size_t cbSize = 0;
xml::XmlMemWriter writer;
writer.write(doc, &pvBuf, &cbSize);
if (RT_UNLIKELY(!pvBuf))
throw setError(VBOX_E_FILE_ERROR, tr("Could not create OVF file '%s'"), strOvfFile.c_str());
/* Write the ovf file to "disk". */
hrc = i_writeBufferToFile(hVfsFssDst, strOvfFile.c_str(), pvBuf, cbSize);
if (FAILED(hrc))
throw hrc;
}
// We need a proper format description
ComObjPtr<MediumFormat> formatTemp;
ComObjPtr<MediumFormat> format;
// Scope for the AutoReadLock
{
SystemProperties *pSysProps = mVirtualBox->i_getSystemProperties();
AutoReadLock propsLock(pSysProps COMMA_LOCKVAL_SRC_POS);
// We are always exporting to VMDK stream optimized for now
formatTemp = pSysProps->i_mediumFormatFromExtension("iso");
format = pSysProps->i_mediumFormat("VMDK");
if (format.isNull())
throw setError(VBOX_E_NOT_SUPPORTED,
tr("Invalid medium storage format"));
}
// Finally, write out the disks!
//use the list stack.mapDiskSequence where the disks were put as the "VirtualSystem"s had been placed
//in the OVF description file. I.e. we have one "VirtualSystem" in the OVF file, we extract all disks
//attached to it. And these disks are stored in the stack.mapDiskSequence. Next we shift to the next
//"VirtualSystem" and repeat the operation.
//And here we go through the list and extract all disks in the same sequence
for (list<Utf8Str>::const_iterator
it = stack.mapDiskSequence.begin();
it != stack.mapDiskSequence.end();
++it)
{
const Utf8Str &strDiskID = *it;
const VirtualSystemDescriptionEntry *pDiskEntry = stack.mapDisks[strDiskID];
// source path: where the VBox image is
const Utf8Str &strSrcFilePath = pDiskEntry->strVBoxCurrent;
//skip empty Medium. In common, It's may be empty CD/DVD
if (strSrcFilePath.isEmpty() ||
pDiskEntry->skipIt == true)
continue;
// Do NOT check here whether the file exists. findHardDisk will
// figure that out, and filesystem-based tests are simply wrong
// in the general case (think of iSCSI).
// clone the disk:
ComObjPtr<Medium> pSourceDisk;
Log(("Finding source disk \"%s\"\n", strSrcFilePath.c_str()));
if (pDiskEntry->type == VirtualSystemDescriptionType_HardDiskImage)
{
hrc = mVirtualBox->i_findHardDiskByLocation(strSrcFilePath, true, &pSourceDisk);
if (FAILED(hrc)) throw hrc;
}
else//may be CD or DVD
{
hrc = mVirtualBox->i_findDVDOrFloppyImage(DeviceType_DVD,
NULL,
strSrcFilePath,
true,
&pSourceDisk);
if (FAILED(hrc)) throw hrc;
}
Bstr uuidSource;
hrc = pSourceDisk->COMGETTER(Id)(uuidSource.asOutParam());
if (FAILED(hrc)) throw hrc;
Guid guidSource(uuidSource);
// output filename
const Utf8Str &strTargetFileNameOnly = pDiskEntry->strOvf;
// target path needs to be composed from where the output OVF is
const Utf8Str &strTargetFilePath = strTargetFileNameOnly;
// The exporting requests a lock on the media tree. So leave our lock temporary.
writeLock.release();
try
{
// advance to the next operation
pTask->pProgress->SetNextOperation(BstrFmt(tr("Exporting to disk image '%s'"),
RTPathFilename(strTargetFilePath.c_str())).raw(),
pDiskEntry->ulSizeMB); // operation's weight, as set up
// with the IProgress originally
// create a flat copy of the source disk image
if (pDiskEntry->type == VirtualSystemDescriptionType_HardDiskImage)
{
/*
* Export a disk image.
*/
/* For compressed VMDK fun, we let i_exportFile produce the image bytes. */
RTVFSIOSTREAM hVfsIosDst;
vrc = RTVfsFsStrmPushFile(hVfsFssDst, strTargetFilePath.c_str(), UINT64_MAX,
NULL /*paObjInfo*/, 0 /*cObjInfo*/, RTVFSFSSTRM_PUSH_F_STREAM, &hVfsIosDst);
if (RT_FAILURE(vrc))
throw setErrorVrc(vrc, tr("RTVfsFsStrmPushFile failed for '%s' (%Rrc)"), strTargetFilePath.c_str(), vrc);
hVfsIosDst = i_manifestSetupDigestCalculationForGivenIoStream(hVfsIosDst, strTargetFilePath.c_str(),
false /*fRead*/);
if (hVfsIosDst == NIL_RTVFSIOSTREAM)
throw setError(E_FAIL, "i_manifestSetupDigestCalculationForGivenIoStream(%s)", strTargetFilePath.c_str());
hrc = pSourceDisk->i_exportFile(strTargetFilePath.c_str(),
format,
MediumVariant_VmdkStreamOptimized,
m->m_pSecretKeyStore,
hVfsIosDst,
pTask->pProgress);
RTVfsIoStrmRelease(hVfsIosDst);
}
else
{
/*
* Copy CD/DVD/floppy image.
*/
Assert(pDiskEntry->type == VirtualSystemDescriptionType_CDROM);
hrc = pSourceDisk->i_addRawToFss(strTargetFilePath.c_str(), m->m_pSecretKeyStore, hVfsFssDst,
pTask->pProgress, false /*fSparse*/);
}
if (FAILED(hrc)) throw hrc;
}
catch (HRESULT rc3)
{
writeLock.acquire();
/// @todo file deletion on error? If not, we can remove that whole try/catch block.
throw rc3;
}
// Finished, lock again (so nobody mess around with the medium tree
// in the meantime)
writeLock.acquire();
}
if (m->fManifest)
{
// Create & write the manifest file
Utf8Str strMfFilePath = Utf8Str(pTask->locInfo.strPath).stripSuffix().append(".mf");
Utf8Str strMfFileName = Utf8Str(strMfFilePath).stripPath();
pTask->pProgress->SetNextOperation(BstrFmt(tr("Creating manifest file '%s'"), strMfFileName.c_str()).raw(),
m->ulWeightForManifestOperation); // operation's weight, as set up
// with the IProgress originally);
/* Create a memory I/O stream and write the manifest to it. */
RTVFSIOSTREAM hVfsIosManifest;
vrc = RTVfsMemIoStrmCreate(NIL_RTVFSIOSTREAM, _1K, &hVfsIosManifest);
if (RT_FAILURE(vrc))
throw setErrorVrc(vrc, tr("RTVfsMemIoStrmCreate failed (%Rrc)"), vrc);
if (m->hOurManifest != NIL_RTMANIFEST) /* In case it's empty. */
vrc = RTManifestWriteStandard(m->hOurManifest, hVfsIosManifest);
if (RT_SUCCESS(vrc))
{
/* Rewind the stream and add it to the output. */
size_t cbIgnored;
vrc = RTVfsIoStrmReadAt(hVfsIosManifest, 0 /*offset*/, &cbIgnored, 0, true /*fBlocking*/, &cbIgnored);
if (RT_SUCCESS(vrc))
{
RTVFSOBJ hVfsObjManifest = RTVfsObjFromIoStream(hVfsIosManifest);
vrc = RTVfsFsStrmAdd(hVfsFssDst, strMfFileName.c_str(), hVfsObjManifest, 0 /*fFlags*/);
if (RT_SUCCESS(vrc))
hrc = S_OK;
else
hrc = setErrorVrc(vrc, tr("RTVfsFsStrmAdd failed for the manifest (%Rrc)"), vrc);
}
else
hrc = setErrorVrc(vrc, tr("RTManifestWriteStandard failed (%Rrc)"), vrc);
}
else
hrc = setErrorVrc(vrc, tr("RTManifestWriteStandard failed (%Rrc)"), vrc);
RTVfsIoStrmRelease(hVfsIosManifest);
if (FAILED(hrc))
throw hrc;
}
}
catch (RTCError &x) // includes all XML exceptions
{
hrc = setError(VBOX_E_FILE_ERROR, x.what());
}
catch (HRESULT hrcXcpt)
{
hrc = hrcXcpt;
}
LogFlowFunc(("hrc=%Rhrc\n", hrc));
LogFlowFuncLeave();
return hrc;
}
/**
* Writes a memory buffer to a file in the output file system stream.
*
* @returns COM status code.
* @param hVfsFssDst The file system stream to add the file to.
* @param pszFilename The file name (w/ path if desired).
* @param pvContent Pointer to buffer containing the file content.
* @param cbContent Size of the content.
*/
HRESULT Appliance::i_writeBufferToFile(RTVFSFSSTREAM hVfsFssDst, const char *pszFilename, const void *pvContent, size_t cbContent)
{
/*
* Create a VFS file around the memory, converting it to a base VFS object handle.
*/
HRESULT hrc;
RTVFSIOSTREAM hVfsIosSrc;
int vrc = RTVfsIoStrmFromBuffer(RTFILE_O_READ, pvContent, cbContent, &hVfsIosSrc);
if (RT_SUCCESS(vrc))
{
hVfsIosSrc = i_manifestSetupDigestCalculationForGivenIoStream(hVfsIosSrc, pszFilename);
AssertReturn(hVfsIosSrc != NIL_RTVFSIOSTREAM,
setErrorVrc(vrc, "i_manifestSetupDigestCalculationForGivenIoStream"));
RTVFSOBJ hVfsObj = RTVfsObjFromIoStream(hVfsIosSrc);
RTVfsIoStrmRelease(hVfsIosSrc);
AssertReturn(hVfsObj != NIL_RTVFSOBJ, E_FAIL);
/*
* Add it to the stream.
*/
vrc = RTVfsFsStrmAdd(hVfsFssDst, pszFilename, hVfsObj, 0);
RTVfsObjRelease(hVfsObj);
if (RT_SUCCESS(vrc))
hrc = S_OK;
else
hrc = setErrorVrc(vrc, tr("RTVfsFsStrmAdd failed for '%s' (%Rrc)"), pszFilename, vrc);
}
else
hrc = setErrorVrc(vrc, "RTVfsIoStrmFromBuffer");
return hrc;
}
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