/* $Id: USBProxyBackend.cpp 60758 2016-04-29 11:18:03Z vboxsync $ */ /** @file * VirtualBox USB Proxy Service (base) class. */ /* * Copyright (C) 2006-2014 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 "USBProxyBackend.h" #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 /** * Empty constructor. */ USBProxyBackend::USBProxyBackend() { LogFlowThisFunc(("\n")); } /** * Empty destructor. */ USBProxyBackend::~USBProxyBackend() { } HRESULT USBProxyBackend::FinalConstruct() { return BaseFinalConstruct(); } void USBProxyBackend::FinalRelease() { uninit(); BaseFinalRelease(); } /** * Stub needed as long as the class isn't virtual */ int USBProxyBackend::init(USBProxyService *pUsbProxyService, const com::Utf8Str &strId, const com::Utf8Str &strAddress) { m_pUsbProxyService = pUsbProxyService; mThread = NIL_RTTHREAD; mTerminate = false; unconst(m_strId) = strId; m_cRefs = 0; unconst(m_strAddress) = strAddress; unconst(m_strBackend) = Utf8Str::Empty; return VINF_SUCCESS; } void USBProxyBackend::uninit() { LogFlowThisFunc(("\n")); Assert(mThread == NIL_RTTHREAD); mTerminate = true; m_pUsbProxyService = NULL; m_llDevices.clear(); } /** * 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 USBProxyBackend::isActive(void) { return mThread != NIL_RTTHREAD; } /** * Returns the ID of the instance. * * @returns ID string for the instance. */ const com::Utf8Str &USBProxyBackend::i_getId() { return m_strId; } /** * Returns the address of the instance. * * @returns ID string for the instance. */ const com::Utf8Str &USBProxyBackend::i_getAddress() { return m_strAddress; } /** * Returns the backend of the instance. * * @returns ID string for the instance. */ const com::Utf8Str &USBProxyBackend::i_getBackend() { return m_strBackend; } /** * Returns the current reference counter for the backend. */ uint32_t USBProxyBackend::i_getRefCount() { AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); return m_cRefs; } /** * A filter was inserted / loaded. * * @param aFilter Pointer to the inserted filter. * @return ID of the inserted filter */ void *USBProxyBackend::insertFilter(PCUSBFILTER aFilter) { // return non-NULL to fake success. NOREF(aFilter); return (void *)1; } /** * A filter was removed. * * @param aId ID of the filter to remove */ void USBProxyBackend::removeFilter(void *aId) { NOREF(aId); } /** * A VM is trying to capture a device, do necessary preparations. * * @returns VBox status code. * @param aDevice The device in question. */ int USBProxyBackend::captureDevice(HostUSBDevice *aDevice) { NOREF(aDevice); return VERR_NOT_IMPLEMENTED; } /** * Notification that an async captureDevice() operation completed. * * This is used by the proxy to release temporary filters. * * @returns VBox status code. * @param aDevice The device in question. * @param aSuccess Whether it succeeded or failed. */ void USBProxyBackend::captureDeviceCompleted(HostUSBDevice *aDevice, bool aSuccess) { NOREF(aDevice); NOREF(aSuccess); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); incRef(); } /** * A VM is releasing a device back to the host. * * @returns VBox status code. * @param aDevice The device in question. */ int USBProxyBackend::releaseDevice(HostUSBDevice *aDevice) { NOREF(aDevice); return VERR_NOT_IMPLEMENTED; } /** * Notification that an async releaseDevice() operation completed. * * This is used by the proxy to release temporary filters. * * @returns VBox status code. * @param aDevice The device in question. * @param aSuccess Whether it succeeded or failed. */ void USBProxyBackend::releaseDeviceCompleted(HostUSBDevice *aDevice, bool aSuccess) { NOREF(aDevice); NOREF(aSuccess); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); decRef(); } bool USBProxyBackend::isFakeUpdateRequired() { return false; } /** * Returns whether devices reported by this backend go through a de/re-attach * and device re-enumeration cycle when they are captured or released. */ bool USBProxyBackend::i_isDevReEnumerationRequired() { return false; } // Internals ///////////////////////////////////////////////////////////////////////////// /** * Starts the service. * * @returns VBox status code. */ int USBProxyBackend::start(void) { int rc = VINF_SUCCESS; if (mThread == NIL_RTTHREAD) { /* * Force update before starting the poller thread. */ rc = wait(0); if (rc == VERR_TIMEOUT || rc == VERR_INTERRUPTED || RT_SUCCESS(rc)) { PUSBDEVICE pDevices = getDevices(); updateDeviceList(pDevices); /* * Create the poller thread which will look for changes. */ mTerminate = false; rc = RTThreadCreate(&mThread, USBProxyBackend::serviceThread, this, 0, RTTHREADTYPE_INFREQUENT_POLLER, RTTHREADFLAGS_WAITABLE, "USBPROXY"); AssertRC(rc); if (RT_SUCCESS(rc)) LogFlowThisFunc(("started mThread=%RTthrd\n", mThread)); else mThread = NIL_RTTHREAD; } } else LogFlowThisFunc(("already running, mThread=%RTthrd\n", mThread)); return rc; } /** * Stops the service. * * @returns VBox status code. */ int USBProxyBackend::stop(void) { int rc = VINF_SUCCESS; if (mThread != NIL_RTTHREAD) { /* * Mark the thread for termination and kick it. */ ASMAtomicXchgSize(&mTerminate, true); rc = interruptWait(); AssertRC(rc); /* * Wait for the thread to finish and then update the state. */ rc = RTThreadWait(mThread, 60000, NULL); if (rc == VERR_INVALID_HANDLE) rc = VINF_SUCCESS; if (RT_SUCCESS(rc)) { LogFlowThisFunc(("stopped mThread=%RTthrd\n", mThread)); mThread = NIL_RTTHREAD; mTerminate = false; } else AssertRC(rc); } else LogFlowThisFunc(("not active\n")); /* Make sure there is no device from us in the list anymore. */ updateDeviceList(NULL); return rc; } /** * The service thread created by start(). * * @param Thread The thread handle. * @param pvUser Pointer to the USBProxyBackend instance. */ /*static*/ DECLCALLBACK(int) USBProxyBackend::serviceThread(RTTHREAD /* Thread */, void *pvUser) { USBProxyBackend *pThis = (USBProxyBackend *)pvUser; LogFlowFunc(("pThis=%p\n", pThis)); pThis->serviceThreadInit(); int rc = VINF_SUCCESS; /* * Processing loop. */ for (;;) { rc = pThis->wait(RT_INDEFINITE_WAIT); if (RT_FAILURE(rc) && rc != VERR_INTERRUPTED && rc != VERR_TIMEOUT) break; if (pThis->mTerminate) break; PUSBDEVICE pDevices = pThis->getDevices(); pThis->updateDeviceList(pDevices); } pThis->serviceThreadTerm(); LogFlowFunc(("returns %Rrc\n", rc)); return rc; } /** * First call made on the service thread, use it to do * thread initialization. * * The default implementation in USBProxyBackend just a dummy stub. */ void USBProxyBackend::serviceThreadInit(void) { } /** * Last call made on the service thread, use it to do * thread termination. */ void USBProxyBackend::serviceThreadTerm(void) { } /** * Wait for a change in the USB devices attached to the host. * * The default implementation in USBProxyBackend just a dummy stub. * * @returns VBox status code. VERR_INTERRUPTED and VERR_TIMEOUT are considered * harmless, while all other error status are fatal. * @param aMillies Number of milliseconds to wait. */ int USBProxyBackend::wait(RTMSINTERVAL aMillies) { return RTThreadSleep(RT_MIN(aMillies, 250)); } /** * Interrupt any wait() call in progress. * * The default implementation in USBProxyBackend just a dummy stub. * * @returns VBox status code. */ int USBProxyBackend::interruptWait(void) { return VERR_NOT_IMPLEMENTED; } /** * Get a list of USB device currently attached to the host. * * The default implementation in USBProxyBackend just a dummy stub. * * @returns Pointer to a list of USB devices. * The list nodes are freed individually by calling freeDevice(). */ PUSBDEVICE USBProxyBackend::getDevices(void) { return NULL; } /** * Increments the reference counter. * * @returns New reference count value. */ uint32_t USBProxyBackend::incRef() { Assert(isWriteLockOnCurrentThread()); return ++m_cRefs; } /** * Decrements the reference counter. * * @returns New reference count value. */ uint32_t USBProxyBackend::decRef() { Assert(isWriteLockOnCurrentThread()); return --m_cRefs; } /** * Free all the members of a USB device returned by getDevice(). * * @param pDevice Pointer to the device. */ /*static*/ void USBProxyBackend::freeDeviceMembers(PUSBDEVICE pDevice) { RTStrFree((char *)pDevice->pszManufacturer); pDevice->pszManufacturer = NULL; RTStrFree((char *)pDevice->pszProduct); pDevice->pszProduct = NULL; RTStrFree((char *)pDevice->pszSerialNumber); pDevice->pszSerialNumber = NULL; RTStrFree((char *)pDevice->pszAddress); pDevice->pszAddress = NULL; RTStrFree((char *)pDevice->pszBackend); pDevice->pszBackend = NULL; #ifdef RT_OS_WINDOWS RTStrFree(pDevice->pszAltAddress); pDevice->pszAltAddress = NULL; RTStrFree(pDevice->pszHubName); pDevice->pszHubName = NULL; #elif defined(RT_OS_SOLARIS) RTStrFree(pDevice->pszDevicePath); pDevice->pszDevicePath = NULL; #endif } /** * Free one USB device returned by getDevice(). * * @param pDevice Pointer to the device. */ /*static*/ void USBProxyBackend::freeDevice(PUSBDEVICE pDevice) { freeDeviceMembers(pDevice); RTMemFree(pDevice); } void USBProxyBackend::deviceAdded(ComObjPtr &aDevice, PUSBDEVICE pDev) { /* Nothing to do. */ NOREF(aDevice); NOREF(pDev); } /** * Initializes a filter with the data from the specified device. * * @param aFilter The filter to fill. * @param aDevice The device to fill it with. */ /*static*/ void USBProxyBackend::initFilterFromDevice(PUSBFILTER aFilter, HostUSBDevice *aDevice) { PCUSBDEVICE pDev = aDevice->i_getUsbData(); int vrc; vrc = USBFilterSetNumExact(aFilter, USBFILTERIDX_VENDOR_ID, pDev->idVendor, true); AssertRC(vrc); vrc = USBFilterSetNumExact(aFilter, USBFILTERIDX_PRODUCT_ID, pDev->idProduct, true); AssertRC(vrc); vrc = USBFilterSetNumExact(aFilter, USBFILTERIDX_DEVICE_REV, pDev->bcdDevice, true); AssertRC(vrc); vrc = USBFilterSetNumExact(aFilter, USBFILTERIDX_DEVICE_CLASS, pDev->bDeviceClass, true); AssertRC(vrc); vrc = USBFilterSetNumExact(aFilter, USBFILTERIDX_DEVICE_SUB_CLASS, pDev->bDeviceSubClass, true); AssertRC(vrc); vrc = USBFilterSetNumExact(aFilter, USBFILTERIDX_DEVICE_PROTOCOL, pDev->bDeviceProtocol, true); AssertRC(vrc); vrc = USBFilterSetNumExact(aFilter, USBFILTERIDX_PORT, pDev->bPort, false); AssertRC(vrc); vrc = USBFilterSetNumExact(aFilter, USBFILTERIDX_BUS, pDev->bBus, false); AssertRC(vrc); if (pDev->pszSerialNumber) { vrc = USBFilterSetStringExact(aFilter, USBFILTERIDX_SERIAL_NUMBER_STR, pDev->pszSerialNumber, true /*fMustBePresent*/, false /*fPurge*/); AssertRC(vrc); } if (pDev->pszProduct) { vrc = USBFilterSetStringExact(aFilter, USBFILTERIDX_PRODUCT_STR, pDev->pszProduct, true /*fMustBePresent*/, false /*fPurge*/); AssertRC(vrc); } if (pDev->pszManufacturer) { vrc = USBFilterSetStringExact(aFilter, USBFILTERIDX_MANUFACTURER_STR, pDev->pszManufacturer, true /*fMustBePresent*/, false /*fPurge*/); AssertRC(vrc); } } HRESULT USBProxyBackend::getName(com::Utf8Str &aName) { /* strId is constant during life time, no need to lock */ aName = m_strId; return S_OK; } HRESULT USBProxyBackend::getType(com::Utf8Str &aType) { aType = Utf8Str::Empty; return S_OK; } /** * Sort a list of USB devices. * * @returns Pointer to the head of the sorted doubly linked list. * @param aDevices Head pointer (can be both singly and doubly linked list). */ static PUSBDEVICE sortDevices(PUSBDEVICE pDevices) { PUSBDEVICE pHead = NULL; PUSBDEVICE pTail = NULL; while (pDevices) { /* unlink head */ PUSBDEVICE pDev = pDevices; pDevices = pDev->pNext; if (pDevices) pDevices->pPrev = NULL; /* find location. */ PUSBDEVICE pCur = pTail; while ( pCur && HostUSBDevice::i_compare(pCur, pDev) > 0) pCur = pCur->pPrev; /* insert (after pCur) */ pDev->pPrev = pCur; if (pCur) { pDev->pNext = pCur->pNext; pCur->pNext = pDev; if (pDev->pNext) pDev->pNext->pPrev = pDev; else pTail = pDev; } else { pDev->pNext = pHead; if (pHead) pHead->pPrev = pDev; else pTail = pDev; pHead = pDev; } } LogFlowFuncLeave(); return pHead; } /** * Process any relevant changes in the attached USB devices. * * This is called from any available USB proxy backends service thread when they discover * a change. */ void USBProxyBackend::updateDeviceList(PUSBDEVICE pDevices) { LogFlowThisFunc(("\n")); pDevices = sortDevices(pDevices); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); /* * Compare previous list with the new list of devices * and merge in any changes while notifying Host. */ HostUSBDeviceList::iterator it = this->m_llDevices.begin(); while ( it != m_llDevices.end() || pDevices) { ComObjPtr pHostDevice; if (it != m_llDevices.end()) pHostDevice = *it; /* * Assert that the object is still alive (we still reference it in * the collection and we're the only one who calls uninit() on it. */ AutoCaller devCaller(pHostDevice.isNull() ? NULL : pHostDevice); AssertComRC(devCaller.rc()); /* * Lock the device object since we will read/write its * properties. All Host callbacks also imply the object is locked. */ AutoWriteLock devLock(pHostDevice.isNull() ? NULL : pHostDevice COMMA_LOCKVAL_SRC_POS); /* We should never get devices from other backends here. */ Assert(pHostDevice.isNull() || pHostDevice->i_getUsbProxyBackend() == this); /* * Compare. */ int iDiff; if (pHostDevice.isNull()) iDiff = 1; else { if (!pDevices) iDiff = -1; else iDiff = pHostDevice->i_compare(pDevices); } if (!iDiff) { /* * The device still there, update the state and move on. The PUSBDEVICE * structure is eaten by updateDeviceState / HostUSBDevice::updateState(). */ PUSBDEVICE pCur = pDevices; pDevices = pDevices->pNext; pCur->pPrev = pCur->pNext = NULL; devLock.release(); alock.release(); m_pUsbProxyService->i_updateDeviceState(pHostDevice, pCur, isFakeUpdateRequired()); alock.acquire(); ++it; } else { if (iDiff > 0) { /* * Head of pDevices was attached. */ PUSBDEVICE pNew = pDevices; pDevices = pDevices->pNext; pNew->pPrev = pNew->pNext = NULL; ComObjPtr NewObj; NewObj.createObject(); NewObj->init(pNew, this); LogFlowThisFunc(("attached %p {%s} %s / %p:{.idVendor=%#06x, .idProduct=%#06x, .pszProduct=\"%s\", .pszManufacturer=\"%s\"}\n", (HostUSBDevice *)NewObj, NewObj->i_getName().c_str(), NewObj->i_getStateName(), pNew, pNew->idVendor, pNew->idProduct, pNew->pszProduct, pNew->pszManufacturer)); m_llDevices.insert(it, NewObj); devLock.release(); alock.release(); /* Do any backend specific work. */ deviceAdded(NewObj, pNew); m_pUsbProxyService->i_deviceAdded(NewObj, pNew); alock.acquire(); } else { /* * Check if the device was actually detached or logically detached * as the result of a re-enumeration. */ if (!pHostDevice->i_wasActuallyDetached()) ++it; else { it = m_llDevices.erase(it); devLock.release(); alock.release(); m_pUsbProxyService->i_deviceRemoved(pHostDevice); LogFlowThisFunc(("detached %p {%s}\n", (HostUSBDevice *)pHostDevice, pHostDevice->i_getName().c_str())); /* from now on, the object is no more valid, * uninitialize to avoid abuse */ devCaller.release(); pHostDevice->uninit(); alock.acquire(); } } } } /* while */ LogFlowThisFunc(("returns void\n")); } /* vi: set tabstop=4 shiftwidth=4 expandtab: */