/* $Id: USBProxyService.cpp 65088 2017-01-03 20:52:49Z vboxsync $ */ /** @file * VirtualBox USB Proxy Service (base) class. */ /* * Copyright (C) 2006-2016 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ #include "USBProxyService.h" #include "HostUSBDeviceImpl.h" #include "HostImpl.h" #include "MachineImpl.h" #include "VirtualBoxImpl.h" #include "AutoCaller.h" #include "Logging.h" #include #include #include #include #include #include #include /** Pair of a USB proxy backend and the opaque filter data assigned by the backend. */ typedef std::pair , void *> USBFilterPair; /** List of USB filter pairs. */ typedef std::list USBFilterList; /** * Data for a USB device filter. */ struct USBFilterData { USBFilterData() : llUsbFilters() { } USBFilterList llUsbFilters; }; /** * Initialize data members. */ USBProxyService::USBProxyService(Host *aHost) : mHost(aHost), mDevices(), mBackends() { LogFlowThisFunc(("aHost=%p\n", aHost)); } /** * Stub needed as long as the class isn't virtual */ HRESULT USBProxyService::init(void) { # if defined(RT_OS_DARWIN) ComObjPtr UsbProxyBackendHost; # elif defined(RT_OS_LINUX) ComObjPtr UsbProxyBackendHost; # elif defined(RT_OS_OS2) ComObjPtr UsbProxyBackendHost; # elif defined(RT_OS_SOLARIS) ComObjPtr UsbProxyBackendHost; # elif defined(RT_OS_WINDOWS) ComObjPtr UsbProxyBackendHost; # elif defined(RT_OS_FREEBSD) ComObjPtr UsbProxyBackendHost; # else ComObjPtr UsbProxyBackendHost; # endif UsbProxyBackendHost.createObject(); int vrc = UsbProxyBackendHost->init(this, Utf8Str("host"), Utf8Str("")); if (RT_FAILURE(vrc)) { mLastError = vrc; } else mBackends.push_back(static_cast >(UsbProxyBackendHost)); return S_OK; } /** * Empty destructor. */ USBProxyService::~USBProxyService() { LogFlowThisFunc(("\n")); while (!mBackends.empty()) mBackends.pop_front(); mDevices.clear(); mBackends.clear(); mHost = NULL; } /** * Query if the service is active and working. * * @returns true if the service is up running. * @returns false if the service isn't running. */ bool USBProxyService::isActive(void) { return mBackends.size() > 0; } /** * Get last error. * Can be used to check why the proxy !isActive() upon construction. * * @returns VBox status code. */ int USBProxyService::getLastError(void) { return mLastError; } /** * We're using the Host object lock. * * This is just a temporary measure until all the USB refactoring is * done, probably... For now it help avoiding deadlocks we don't have * time to fix. * * @returns Lock handle. */ RWLockHandle *USBProxyService::lockHandle() const { return mHost->lockHandle(); } void *USBProxyService::insertFilter(PCUSBFILTER aFilter) { USBFilterData *pFilterData = new USBFilterData(); for (USBProxyBackendList::iterator it = mBackends.begin(); it != mBackends.end(); ++it) { ComObjPtr pUsbProxyBackend = *it; void *pvId = pUsbProxyBackend->insertFilter(aFilter); pFilterData->llUsbFilters.push_back(USBFilterPair(pUsbProxyBackend, pvId)); } return pFilterData; } void USBProxyService::removeFilter(void *aId) { USBFilterData *pFilterData = (USBFilterData *)aId; for (USBFilterList::iterator it = pFilterData->llUsbFilters.begin(); it != pFilterData->llUsbFilters.end(); ++it) { ComObjPtr pUsbProxyBackend = it->first; pUsbProxyBackend->removeFilter(it->second); } pFilterData->llUsbFilters.clear(); delete pFilterData; } /** * Gets the collection of USB devices, slave of Host::USBDevices. * * This is an interface for the HostImpl::USBDevices property getter. * * * @param aUSBDevices Where to store the pointer to the collection. * * @returns COM status code. * * @remarks The caller must own the write lock of the host object. */ HRESULT USBProxyService::getDeviceCollection(std::vector > &aUSBDevices) { AssertReturn(isWriteLockOnCurrentThread(), E_FAIL); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); aUSBDevices.resize(mDevices.size()); size_t i = 0; for (HostUSBDeviceList::const_iterator it = mDevices.begin(); it != mDevices.end(); ++it, ++i) aUSBDevices[i] = *it; return S_OK; } HRESULT USBProxyService::addUSBDeviceSource(const com::Utf8Str &aBackend, const com::Utf8Str &aId, const com::Utf8Str &aAddress, const std::vector &aPropertyNames, const std::vector &aPropertyValues) { AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); HRESULT hrc = createUSBDeviceSource(aBackend, aId, aAddress, aPropertyNames, aPropertyValues); if (SUCCEEDED(hrc)) { alock.release(); AutoWriteLock vboxLock(mHost->i_parent() COMMA_LOCKVAL_SRC_POS); return mHost->i_parent()->i_saveSettings(); } return hrc; } HRESULT USBProxyService::removeUSBDeviceSource(const com::Utf8Str &aId) { AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); for (USBProxyBackendList::iterator it = mBackends.begin(); it != mBackends.end(); ++it) { ComObjPtr UsbProxyBackend = *it; if (aId.equals(UsbProxyBackend->i_getId())) { mBackends.erase(it); /* * The proxy backend uninit method will be called when the pointer goes * out of scope. */ alock.release(); AutoWriteLock vboxLock(mHost->i_parent() COMMA_LOCKVAL_SRC_POS); return mHost->i_parent()->i_saveSettings(); } } return setError(VBOX_E_OBJECT_NOT_FOUND, tr("The USB device source \"%s\" could not be found"), aId.c_str()); } /** * Request capture of a specific device. * * This is in an interface for SessionMachine::CaptureUSBDevice(), which is * an internal worker used by Console::AttachUSBDevice() from the VM process. * * When the request is completed, SessionMachine::onUSBDeviceAttach() will * be called for the given machine object. * * * @param aMachine The machine to attach the device to. * @param aId The UUID of the USB device to capture and attach. * @param aCaptureFilename * * @returns COM status code and error info. * * @remarks This method may operate synchronously as well as asynchronously. In the * former case it will temporarily abandon locks because of IPC. */ HRESULT USBProxyService::captureDeviceForVM(SessionMachine *aMachine, IN_GUID aId, const com::Utf8Str &aCaptureFilename) { ComAssertRet(aMachine, E_INVALIDARG); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); /* * Translate the device id into a device object. */ ComObjPtr pHostDevice = findDeviceById(aId); if (pHostDevice.isNull()) return setError(E_INVALIDARG, tr("The USB device with UUID {%RTuuid} is not currently attached to the host"), Guid(aId).raw()); /* * Try to capture the device */ alock.release(); return pHostDevice->i_requestCaptureForVM(aMachine, true /* aSetError */, aCaptureFilename); } /** * Notification from VM process about USB device detaching progress. * * This is in an interface for SessionMachine::DetachUSBDevice(), which is * an internal worker used by Console::DetachUSBDevice() from the VM process. * * @param aMachine The machine which is sending the notification. * @param aId The UUID of the USB device is concerns. * @param aDone \a false for the pre-action notification (necessary * for advancing the device state to avoid confusing * the guest). * \a true for the post-action notification. The device * will be subjected to all filters except those of * of \a Machine. * * @returns COM status code. * * @remarks When \a aDone is \a true this method may end up doing IPC to other * VMs when running filters. In these cases it will temporarily * abandon its locks. */ HRESULT USBProxyService::detachDeviceFromVM(SessionMachine *aMachine, IN_GUID aId, bool aDone) { LogFlowThisFunc(("aMachine=%p{%s} aId={%RTuuid} aDone=%RTbool\n", aMachine, aMachine->i_getName().c_str(), Guid(aId).raw(), aDone)); // get a list of all running machines while we're outside the lock // (getOpenedMachines requests locks which are incompatible with the lock of the machines list) SessionMachinesList llOpenedMachines; mHost->i_parent()->i_getOpenedMachines(llOpenedMachines); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); ComObjPtr pHostDevice = findDeviceById(aId); ComAssertRet(!pHostDevice.isNull(), E_FAIL); AutoWriteLock devLock(pHostDevice COMMA_LOCKVAL_SRC_POS); /* * Work the state machine. */ LogFlowThisFunc(("id={%RTuuid} state=%s aDone=%RTbool name={%s}\n", pHostDevice->i_getId().raw(), pHostDevice->i_getStateName(), aDone, pHostDevice->i_getName().c_str())); bool fRunFilters = false; HRESULT hrc = pHostDevice->i_onDetachFromVM(aMachine, aDone, &fRunFilters); /* * Run filters if necessary. */ if ( SUCCEEDED(hrc) && fRunFilters) { Assert(aDone && pHostDevice->i_getUnistate() == kHostUSBDeviceState_HeldByProxy && pHostDevice->i_getMachine().isNull()); devLock.release(); alock.release(); HRESULT hrc2 = runAllFiltersOnDevice(pHostDevice, llOpenedMachines, aMachine); ComAssertComRC(hrc2); } return hrc; } /** * Apply filters for the machine to all eligible USB devices. * * This is in an interface for SessionMachine::CaptureUSBDevice(), which * is an internal worker used by Console::AutoCaptureUSBDevices() from the * VM process at VM startup. * * Matching devices will be attached to the VM and may result IPC back * to the VM process via SessionMachine::onUSBDeviceAttach() depending * on whether the device needs to be captured or not. If capture is * required, SessionMachine::onUSBDeviceAttach() will be called * asynchronously by the USB proxy service thread. * * @param aMachine The machine to capture devices for. * * @returns COM status code, perhaps with error info. * * @remarks Temporarily locks this object, the machine object and some USB * device, and the called methods will lock similar objects. */ HRESULT USBProxyService::autoCaptureDevicesForVM(SessionMachine *aMachine) { LogFlowThisFunc(("aMachine=%p{%s}\n", aMachine, aMachine->i_getName().c_str())); /* * Make a copy of the list because we cannot hold the lock protecting it. * (This will not make copies of any HostUSBDevice objects, only reference them.) */ AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); HostUSBDeviceList ListCopy = mDevices; alock.release(); for (HostUSBDeviceList::iterator it = ListCopy.begin(); it != ListCopy.end(); ++it) { ComObjPtr pHostDevice = *it; AutoReadLock devLock(pHostDevice COMMA_LOCKVAL_SRC_POS); if ( pHostDevice->i_getUnistate() == kHostUSBDeviceState_HeldByProxy || pHostDevice->i_getUnistate() == kHostUSBDeviceState_Unused || pHostDevice->i_getUnistate() == kHostUSBDeviceState_Capturable) { devLock.release(); runMachineFilters(aMachine, pHostDevice); } } return S_OK; } /** * Detach all USB devices currently attached to a VM. * * This is in an interface for SessionMachine::DetachAllUSBDevices(), which * is an internal worker used by Console::powerDown() from the VM process * at VM startup, and SessionMachine::uninit() at VM abend. * * This is, like #detachDeviceFromVM(), normally a two stage journey * where \a aDone indicates where we are. In addition we may be called * to clean up VMs that have abended, in which case there will be no * preparatory call. Filters will be applied to the devices in the final * call with the risk that we have to do some IPC when attaching them * to other VMs. * * @param aMachine The machine to detach devices from. * @param aDone * @param aAbnormal * * @returns COM status code, perhaps with error info. * * @remarks Write locks the host object and may temporarily abandon * its locks to perform IPC. */ HRESULT USBProxyService::detachAllDevicesFromVM(SessionMachine *aMachine, bool aDone, bool aAbnormal) { // get a list of all running machines while we're outside the lock // (getOpenedMachines requests locks which are incompatible with the host object lock) SessionMachinesList llOpenedMachines; mHost->i_parent()->i_getOpenedMachines(llOpenedMachines); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); /* * Make a copy of the device list (not the HostUSBDevice objects, just * the list) since we may end up performing IPC and temporarily have * to abandon locks when applying filters. */ HostUSBDeviceList ListCopy = mDevices; for (HostUSBDeviceList::iterator it = ListCopy.begin(); it != ListCopy.end(); ++it) { ComObjPtr pHostDevice = *it; AutoWriteLock devLock(pHostDevice COMMA_LOCKVAL_SRC_POS); if (pHostDevice->i_getMachine() == aMachine) { /* * Same procedure as in detachUSBDevice(). */ bool fRunFilters = false; HRESULT hrc = pHostDevice->i_onDetachFromVM(aMachine, aDone, &fRunFilters, aAbnormal); if ( SUCCEEDED(hrc) && fRunFilters) { Assert( aDone && pHostDevice->i_getUnistate() == kHostUSBDeviceState_HeldByProxy && pHostDevice->i_getMachine().isNull()); devLock.release(); alock.release(); HRESULT hrc2 = runAllFiltersOnDevice(pHostDevice, llOpenedMachines, aMachine); ComAssertComRC(hrc2); alock.acquire(); } } } return S_OK; } // Internals ///////////////////////////////////////////////////////////////////////////// /** * Loads the given settings and constructs the additional USB device sources. * * @returns COM status code. * @param llUSBDeviceSources The list of additional device sources. */ HRESULT USBProxyService::i_loadSettings(const settings::USBDeviceSourcesList &llUSBDeviceSources) { HRESULT hrc = S_OK; for (settings::USBDeviceSourcesList::const_iterator it = llUSBDeviceSources.begin(); it != llUSBDeviceSources.end() && SUCCEEDED(hrc); ++it) { std::vector vecPropNames, vecPropValues; const settings::USBDeviceSource &src = *it; hrc = createUSBDeviceSource(src.strBackend, src.strName, src.strAddress, vecPropNames, vecPropValues); } return hrc; } /** * Saves the additional device sources in the given settings. * * @returns COM status code. * @param llUSBDeviceSources The list of additional device sources. */ HRESULT USBProxyService::i_saveSettings(settings::USBDeviceSourcesList &llUSBDeviceSources) { for (USBProxyBackendList::iterator it = mBackends.begin(); it != mBackends.end(); ++it) { USBProxyBackend *pUsbProxyBackend = *it; /* Host backends are not saved as they are always created during startup. */ if (!pUsbProxyBackend->i_getBackend().equals("host")) { settings::USBDeviceSource src; src.strBackend = pUsbProxyBackend->i_getBackend(); src.strName = pUsbProxyBackend->i_getId(); src.strAddress = pUsbProxyBackend->i_getAddress(); llUSBDeviceSources.push_back(src); } } return S_OK; } /** * Performs the required actions when a device has been added. * * This means things like running filters and subsequent capturing and * VM attaching. This may result in IPC and temporary lock abandonment. * * @param aDevice The device in question. * @param aUSBDevice The USB device structure. */ void USBProxyService::i_deviceAdded(ComObjPtr &aDevice, PUSBDEVICE pDev) { /* * Validate preconditions. */ AssertReturnVoid(!isWriteLockOnCurrentThread()); AssertReturnVoid(!aDevice->isWriteLockOnCurrentThread()); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); AutoReadLock devLock(aDevice COMMA_LOCKVAL_SRC_POS); LogFlowThisFunc(("aDevice=%p name={%s} state=%s id={%RTuuid}\n", (HostUSBDevice *)aDevice, aDevice->i_getName().c_str(), aDevice->i_getStateName(), aDevice->i_getId().raw())); /* Add to our list. */ HostUSBDeviceList::iterator it = mDevices.begin(); while (it != mDevices.end()) { ComObjPtr pHostDevice = *it; /* Assert that the object is still alive. */ AutoCaller devCaller(pHostDevice); AssertComRC(devCaller.rc()); AutoWriteLock curLock(pHostDevice COMMA_LOCKVAL_SRC_POS); if ( pHostDevice->i_getUsbProxyBackend() == aDevice->i_getUsbProxyBackend() && pHostDevice->i_compare(pDev) < 0) break; it++; } mDevices.insert(it, aDevice); /* * Run filters on the device. */ if (aDevice->i_isCapturableOrHeld()) { devLock.release(); alock.release(); SessionMachinesList llOpenedMachines; mHost->i_parent()->i_getOpenedMachines(llOpenedMachines); HRESULT rc = runAllFiltersOnDevice(aDevice, llOpenedMachines, NULL /* aIgnoreMachine */); AssertComRC(rc); } } /** * Remove device notification hook for the USB proxy service. * * @param aDevice The device in question. */ void USBProxyService::i_deviceRemoved(ComObjPtr &aDevice) { /* * Validate preconditions. */ AssertReturnVoid(!isWriteLockOnCurrentThread()); AssertReturnVoid(!aDevice->isWriteLockOnCurrentThread()); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); AutoWriteLock devLock(aDevice COMMA_LOCKVAL_SRC_POS); LogFlowThisFunc(("aDevice=%p name={%s} state=%s id={%RTuuid}\n", (HostUSBDevice *)aDevice, aDevice->i_getName().c_str(), aDevice->i_getStateName(), aDevice->i_getId().raw())); mDevices.remove(aDevice); /* * Detach the device from any machine currently using it, * reset all data and uninitialize the device object. */ devLock.release(); alock.release(); aDevice->i_onPhysicalDetached(); } /** * Updates the device state. * * This is responsible for calling HostUSBDevice::updateState(). * * @returns true if there is a state change. * @param aDevice The device in question. * @param aUSBDevice The USB device structure for the last enumeration. * @param fFakeUpdate Flag whether to fake updating state. */ void USBProxyService::i_updateDeviceState(ComObjPtr &aDevice, PUSBDEVICE aUSBDevice, bool fFakeUpdate) { AssertReturnVoid(aDevice); AssertReturnVoid(!aDevice->isWriteLockOnCurrentThread()); bool fRunFilters = false; SessionMachine *pIgnoreMachine = NULL; bool fDevChanged = false; if (fFakeUpdate) fDevChanged = aDevice->i_updateStateFake(aUSBDevice, &fRunFilters, &pIgnoreMachine); else fDevChanged = aDevice->i_updateState(aUSBDevice, &fRunFilters, &pIgnoreMachine); if (fDevChanged) deviceChanged(aDevice, fRunFilters, pIgnoreMachine); } /** * Handle a device which state changed in some significant way. * * This means things like running filters and subsequent capturing and * VM attaching. This may result in IPC and temporary lock abandonment. * * @param aDevice The device. * @param fRunFilters Flag whether to run filters. * @param aIgnoreMachine Machine to ignore when running filters. */ void USBProxyService::deviceChanged(ComObjPtr &aDevice, bool fRunFilters, SessionMachine *aIgnoreMachine) { /* * Validate preconditions. */ AssertReturnVoid(!isWriteLockOnCurrentThread()); AssertReturnVoid(!aDevice->isWriteLockOnCurrentThread()); AutoReadLock devLock(aDevice COMMA_LOCKVAL_SRC_POS); LogFlowThisFunc(("aDevice=%p name={%s} state=%s id={%RTuuid} aRunFilters=%RTbool aIgnoreMachine=%p\n", (HostUSBDevice *)aDevice, aDevice->i_getName().c_str(), aDevice->i_getStateName(), aDevice->i_getId().raw(), fRunFilters, aIgnoreMachine)); devLock.release(); /* * Run filters if requested to do so. */ if (fRunFilters) { SessionMachinesList llOpenedMachines; mHost->i_parent()->i_getOpenedMachines(llOpenedMachines); HRESULT rc = runAllFiltersOnDevice(aDevice, llOpenedMachines, aIgnoreMachine); AssertComRC(rc); } } /** * Runs all the filters on the specified device. * * All filters mean global and active VM, with the exception of those * belonging to \a aMachine. If a global ignore filter matched or if * none of the filters matched, the device will be released back to * the host. * * The device calling us here will be in the HeldByProxy, Unused, or * Capturable state. The caller is aware that locks held might have * to be abandond because of IPC and that the device might be in * almost any state upon return. * * * @returns COM status code (only parameter & state checks will fail). * @param aDevice The USB device to apply filters to. * @param aIgnoreMachine The machine to ignore filters from (we've just * detached the device from this machine). * * @note The caller is expected to own no locks. */ HRESULT USBProxyService::runAllFiltersOnDevice(ComObjPtr &aDevice, SessionMachinesList &llOpenedMachines, SessionMachine *aIgnoreMachine) { LogFlowThisFunc(("{%s} ignoring=%p\n", aDevice->i_getName().c_str(), aIgnoreMachine)); /* * Verify preconditions. */ AssertReturn(!isWriteLockOnCurrentThread(), E_FAIL); AssertReturn(!aDevice->isWriteLockOnCurrentThread(), E_FAIL); /* * Get the lists we'll iterate. */ Host::USBDeviceFilterList globalFilters; mHost->i_getUSBFilters(&globalFilters); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); AutoWriteLock devLock(aDevice COMMA_LOCKVAL_SRC_POS); AssertMsgReturn(aDevice->i_isCapturableOrHeld(), ("{%s} %s\n", aDevice->i_getName().c_str(), aDevice->i_getStateName()), E_FAIL); /* * Run global filters filters first. */ bool fHoldIt = false; for (Host::USBDeviceFilterList::const_iterator it = globalFilters.begin(); it != globalFilters.end(); ++it) { AutoWriteLock filterLock(*it COMMA_LOCKVAL_SRC_POS); const HostUSBDeviceFilter::BackupableUSBDeviceFilterData &data = (*it)->i_getData(); if (aDevice->i_isMatch(data)) { USBDeviceFilterAction_T action = USBDeviceFilterAction_Null; (*it)->COMGETTER(Action)(&action); if (action == USBDeviceFilterAction_Ignore) { /* * Release the device to the host and we're done. */ filterLock.release(); devLock.release(); alock.release(); aDevice->i_requestReleaseToHost(); return S_OK; } if (action == USBDeviceFilterAction_Hold) { /* * A device held by the proxy needs to be subjected * to the machine filters. */ fHoldIt = true; break; } AssertMsgFailed(("action=%d\n", action)); } } globalFilters.clear(); /* * Run the per-machine filters. */ for (SessionMachinesList::const_iterator it = llOpenedMachines.begin(); it != llOpenedMachines.end(); ++it) { ComObjPtr pMachine = *it; /* Skip the machine the device was just detached from. */ if ( aIgnoreMachine && pMachine == aIgnoreMachine) continue; /* runMachineFilters takes care of checking the machine state. */ devLock.release(); alock.release(); if (runMachineFilters(pMachine, aDevice)) { LogFlowThisFunc(("{%s} attached to %p\n", aDevice->i_getName().c_str(), (void *)pMachine)); return S_OK; } alock.acquire(); devLock.acquire(); } /* * No matching machine, so request hold or release depending * on global filter match. */ devLock.release(); alock.release(); if (fHoldIt) aDevice->i_requestHold(); else aDevice->i_requestReleaseToHost(); return S_OK; } /** * Runs the USB filters of the machine on the device. * * If a match is found we will request capture for VM. This may cause * us to temporary abandon locks while doing IPC. * * @param aMachine Machine whose filters are to be run. * @param aDevice The USB device in question. * @returns @c true if the device has been or is being attached to the VM, @c false otherwise. * * @note Locks several objects temporarily for reading or writing. */ bool USBProxyService::runMachineFilters(SessionMachine *aMachine, ComObjPtr &aDevice) { LogFlowThisFunc(("{%s} aMachine=%p \n", aDevice->i_getName().c_str(), aMachine)); /* * Validate preconditions. */ AssertReturn(aMachine, false); AssertReturn(!isWriteLockOnCurrentThread(), false); AssertReturn(!aMachine->isWriteLockOnCurrentThread(), false); AssertReturn(!aDevice->isWriteLockOnCurrentThread(), false); /* Let HostUSBDevice::requestCaptureToVM() validate the state. */ /* * Do the job. */ ULONG ulMaskedIfs; if (aMachine->i_hasMatchingUSBFilter(aDevice, &ulMaskedIfs)) { /* try to capture the device */ HRESULT hrc = aDevice->i_requestCaptureForVM(aMachine, false /* aSetError */, Utf8Str(), ulMaskedIfs); return SUCCEEDED(hrc) || hrc == E_UNEXPECTED /* bad device state, give up */; } return false; } /** * Searches the list of devices (mDevices) for the given device. * * * @returns Smart pointer to the device on success, NULL otherwise. * @param aId The UUID of the device we're looking for. */ ComObjPtr USBProxyService::findDeviceById(IN_GUID aId) { Guid Id(aId); ComObjPtr Dev; for (HostUSBDeviceList::iterator it = mDevices.begin(); it != mDevices.end(); ++it) if ((*it)->i_getId() == Id) { Dev = (*it); break; } return Dev; } /** * Creates a new USB device source. * * @returns COM status code. * @param aBackend The backend to use. * @param aId The ID of the source. * @param aAddress The backend specific address. * @param aPropertyNames Vector of optional property keys the backend supports. * @param aPropertyValues Vector of optional property values the backend supports. */ HRESULT USBProxyService::createUSBDeviceSource(const com::Utf8Str &aBackend, const com::Utf8Str &aId, const com::Utf8Str &aAddress, const std::vector &aPropertyNames, const std::vector &aPropertyValues) { HRESULT hrc = S_OK; AssertReturn(isWriteLockOnCurrentThread(), E_FAIL); /** @todo */ NOREF(aPropertyNames); NOREF(aPropertyValues); /* Check whether the ID is used first. */ for (USBProxyBackendList::iterator it = mBackends.begin(); it != mBackends.end(); ++it) { USBProxyBackend *pUsbProxyBackend = *it; if (aId.equals(pUsbProxyBackend->i_getId())) return setError(VBOX_E_OBJECT_IN_USE, tr("The USB device source \"%s\" exists already"), aId.c_str()); } /* Create appropriate proxy backend. */ if (aBackend.equalsIgnoreCase("USBIP")) { ComObjPtr UsbProxyBackend; UsbProxyBackend.createObject(); int vrc = UsbProxyBackend->init(this, aId, aAddress); if (RT_FAILURE(vrc)) hrc = setError(E_FAIL, tr("Creating the USB device source \"%s\" using backend \"%s\" failed with %Rrc"), aId.c_str(), aBackend.c_str(), vrc); else mBackends.push_back(static_cast >(UsbProxyBackend)); } else hrc = setError(VBOX_E_OBJECT_NOT_FOUND, tr("The USB backend \"%s\" is not supported"), aBackend.c_str()); return hrc; } /*static*/ HRESULT USBProxyService::setError(HRESULT aResultCode, const char *aText, ...) { va_list va; va_start(va, aText); HRESULT rc = VirtualBoxBase::setErrorInternal(aResultCode, COM_IIDOF(IHost), "USBProxyService", Utf8StrFmt(aText, va), false /* aWarning*/, true /* aLogIt*/); va_end(va); return rc; } /* vi: set tabstop=4 shiftwidth=4 expandtab: */