/* $Id: VBoxServiceControlProcess.cpp $ */ /** @file * VBoxServiceControlThread - Guest process handling. */ /* * Copyright (C) 2012-2019 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "VBoxServiceInternal.h" #include "VBoxServiceControl.h" #include "VBoxServiceToolBox.h" using namespace guestControl; /********************************************************************************************************************************* * Internal Functions * *********************************************************************************************************************************/ static int vgsvcGstCtrlProcessAssignPID(PVBOXSERVICECTRLPROCESS pThread, uint32_t uPID); static int vgsvcGstCtrlProcessLock(PVBOXSERVICECTRLPROCESS pProcess); static int vgsvcGstCtrlProcessSetupPipe(const char *pszHowTo, int fd, PRTHANDLE ph, PRTHANDLE *pph, PRTPIPE phPipe); static int vgsvcGstCtrlProcessUnlock(PVBOXSERVICECTRLPROCESS pProcess); /* Request handlers. */ static DECLCALLBACK(int) vgsvcGstCtrlProcessOnInput(PVBOXSERVICECTRLPROCESS pThis, const PVBGLR3GUESTCTRLCMDCTX pHostCtx, bool fPendingClose, void *pvBuf, uint32_t cbBuf); static DECLCALLBACK(int) vgsvcGstCtrlProcessOnOutput(PVBOXSERVICECTRLPROCESS pThis, const PVBGLR3GUESTCTRLCMDCTX pHostCtx, uint32_t uHandle, uint32_t cbToRead, uint32_t uFlags); /** * Initialies the passed in thread data structure with the parameters given. * * @return IPRT status code. * @param pProcess Process to initialize. * @param pSession Guest session the process is bound to. * @param pStartupInfo Startup information. * @param u32ContextID The context ID bound to this request / command. */ static int vgsvcGstCtrlProcessInit(PVBOXSERVICECTRLPROCESS pProcess, const PVBOXSERVICECTRLSESSION pSession, const PVBOXSERVICECTRLPROCSTARTUPINFO pStartupInfo, uint32_t u32ContextID) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); AssertPtrReturn(pSession, VERR_INVALID_POINTER); AssertPtrReturn(pStartupInfo, VERR_INVALID_POINTER); /* General stuff. */ pProcess->hProcess = NIL_RTPROCESS; pProcess->pSession = pSession; pProcess->Node.pPrev = NULL; pProcess->Node.pNext = NULL; pProcess->fShutdown = false; pProcess->fStarted = false; pProcess->fStopped = false; pProcess->uPID = 0; /* Don't have a PID yet. */ pProcess->cRefs = 0; /* * Use the initial context ID we got for starting * the process to report back its status with the * same context ID. */ pProcess->uContextID = u32ContextID; /* * Note: pProcess->ClientID will be assigned when thread is started; * every guest process has its own client ID to detect crashes on * a per-guest-process level. */ int rc = RTCritSectInit(&pProcess->CritSect); if (RT_FAILURE(rc)) return rc; pProcess->hPollSet = NIL_RTPOLLSET; pProcess->hPipeStdInW = NIL_RTPIPE; pProcess->hPipeStdOutR = NIL_RTPIPE; pProcess->hPipeStdErrR = NIL_RTPIPE; pProcess->hNotificationPipeW = NIL_RTPIPE; pProcess->hNotificationPipeR = NIL_RTPIPE; rc = RTReqQueueCreate(&pProcess->hReqQueue); AssertReleaseRC(rc); /* Copy over startup info. */ memcpy(&pProcess->StartupInfo, pStartupInfo, sizeof(VBOXSERVICECTRLPROCSTARTUPINFO)); /* Adjust timeout value. */ if ( pProcess->StartupInfo.uTimeLimitMS == UINT32_MAX || pProcess->StartupInfo.uTimeLimitMS == 0) pProcess->StartupInfo.uTimeLimitMS = RT_INDEFINITE_WAIT; if (RT_FAILURE(rc)) /* Clean up on failure. */ VGSvcGstCtrlProcessFree(pProcess); return rc; } /** * Frees a guest process. On success, pProcess will be * free'd and thus won't be available anymore. * * @return IPRT status code. * @param pProcess Guest process to free. */ int VGSvcGstCtrlProcessFree(PVBOXSERVICECTRLPROCESS pProcess) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); VGSvcVerbose(3, "[PID %RU32]: Freeing (cRefs=%RU32)...\n", pProcess->uPID, pProcess->cRefs); Assert(pProcess->cRefs == 0); /* * Destroy other thread data. */ if (RTCritSectIsInitialized(&pProcess->CritSect)) RTCritSectDelete(&pProcess->CritSect); int rc = RTReqQueueDestroy(pProcess->hReqQueue); AssertRC(rc); /* * Remove from list. */ AssertPtr(pProcess->pSession); rc = VGSvcGstCtrlSessionProcessRemove(pProcess->pSession, pProcess); AssertRC(rc); /* * Destroy thread structure as final step. */ RTMemFree(pProcess); pProcess = NULL; return VINF_SUCCESS; } /** * Signals a guest process thread that we want it to shut down in * a gentle way. * * @return IPRT status code. * @param pProcess Process to stop. */ int VGSvcGstCtrlProcessStop(PVBOXSERVICECTRLPROCESS pProcess) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); VGSvcVerbose(3, "[PID %RU32]: Stopping ...\n", pProcess->uPID); /* Do *not* set pThread->fShutdown or other stuff here! * The guest thread loop will clean up itself. */ return VGSvcGstCtrlProcessHandleTerm(pProcess); } /** * Releases a previously acquired guest process (decreases the refcount). * * @param pProcess Process to unlock. */ void VGSvcGstCtrlProcessRelease(PVBOXSERVICECTRLPROCESS pProcess) { AssertPtrReturnVoid(pProcess); bool fShutdown = false; int rc = RTCritSectEnter(&pProcess->CritSect); if (RT_SUCCESS(rc)) { Assert(pProcess->cRefs); pProcess->cRefs--; fShutdown = pProcess->fStopped; /* Has the process' thread been stopped? */ rc = RTCritSectLeave(&pProcess->CritSect); AssertRC(rc); } if (fShutdown) VGSvcGstCtrlProcessFree(pProcess); } /** * Wait for a guest process thread to shut down. * * @return IPRT status code. * @param pProcess Process to wait shutting down for. * @param msTimeout Timeout in ms to wait for shutdown. * @param prc Where to store the thread's return code. * Optional. */ int VGSvcGstCtrlProcessWait(const PVBOXSERVICECTRLPROCESS pProcess, RTMSINTERVAL msTimeout, int *prc) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); AssertPtrNullReturn(prc, VERR_INVALID_POINTER); int rc = vgsvcGstCtrlProcessLock(pProcess); if (RT_SUCCESS(rc)) { VGSvcVerbose(2, "[PID %RU32]: Waiting for shutdown (%RU32ms) ...\n", pProcess->uPID, msTimeout); AssertMsgReturn(pProcess->fStarted, ("Tried to wait on guest process=%p (PID %RU32) which has not been started yet\n", pProcess, pProcess->uPID), VERR_INVALID_PARAMETER); /* Guest process already has been stopped, no need to wait. */ if (!pProcess->fStopped) { /* Unlock process before waiting. */ rc = vgsvcGstCtrlProcessUnlock(pProcess); AssertRC(rc); /* Do the actual waiting. */ int rcThread; Assert(pProcess->Thread != NIL_RTTHREAD); rc = RTThreadWait(pProcess->Thread, msTimeout, &rcThread); if (RT_SUCCESS(rc)) { pProcess->Thread = NIL_RTTHREAD; VGSvcVerbose(3, "[PID %RU32]: Thread shutdown complete, thread rc=%Rrc\n", pProcess->uPID, rcThread); if (prc) *prc = rcThread; } else VGSvcError("[PID %RU32]: Waiting for shutting down thread returned error rc=%Rrc\n", pProcess->uPID, rc); } else { VGSvcVerbose(3, "[PID %RU32]: Thread already shut down, no waiting needed\n", pProcess->uPID); int rc2 = vgsvcGstCtrlProcessUnlock(pProcess); AssertRC(rc2); } } VGSvcVerbose(3, "[PID %RU32]: Waiting resulted in rc=%Rrc\n", pProcess->uPID, rc); return rc; } /** * Closes the stdin pipe of a guest process. * * @return IPRT status code. * @param pProcess The process which input pipe we close. * @param phStdInW The standard input pipe handle. */ static int vgsvcGstCtrlProcessPollsetCloseInput(PVBOXSERVICECTRLPROCESS pProcess, PRTPIPE phStdInW) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); AssertPtrReturn(phStdInW, VERR_INVALID_POINTER); int rc = RTPollSetRemove(pProcess->hPollSet, VBOXSERVICECTRLPIPEID_STDIN); if (rc != VERR_POLL_HANDLE_ID_NOT_FOUND) AssertRC(rc); if (*phStdInW != NIL_RTPIPE) { rc = RTPipeClose(*phStdInW); AssertRC(rc); *phStdInW = NIL_RTPIPE; } return rc; } #ifdef DEBUG /** * Names a poll handle ID. * * @returns Pointer to read-only string. * @param idPollHnd What to name. */ static const char *vgsvcGstCtrlProcessPollHandleToString(uint32_t idPollHnd) { switch (idPollHnd) { case VBOXSERVICECTRLPIPEID_UNKNOWN: return "unknown"; case VBOXSERVICECTRLPIPEID_STDIN: return "stdin"; case VBOXSERVICECTRLPIPEID_STDIN_WRITABLE: return "stdin_writable"; case VBOXSERVICECTRLPIPEID_STDOUT: return "stdout"; case VBOXSERVICECTRLPIPEID_STDERR: return "stderr"; case VBOXSERVICECTRLPIPEID_IPC_NOTIFY: return "ipc_notify"; default: return "unknown"; } } #endif /* DEBUG */ /** * Handle an error event on standard input. * * @return IPRT status code. * @param pProcess Process to handle pollset for. * @param fPollEvt The event mask returned by RTPollNoResume. * @param phStdInW The standard input pipe handle. */ static int vgsvcGstCtrlProcessPollsetOnInput(PVBOXSERVICECTRLPROCESS pProcess, uint32_t fPollEvt, PRTPIPE phStdInW) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); NOREF(fPollEvt); return vgsvcGstCtrlProcessPollsetCloseInput(pProcess, phStdInW); } /** * Handle pending output data or error on standard out or standard error. * * @returns IPRT status code from client send. * @param pProcess Process to handle pollset for. * @param fPollEvt The event mask returned by RTPollNoResume. * @param phPipeR The pipe handle. * @param idPollHnd The pipe ID to handle. */ static int vgsvcGstCtrlProcessHandleOutputError(PVBOXSERVICECTRLPROCESS pProcess, uint32_t fPollEvt, PRTPIPE phPipeR, uint32_t idPollHnd) { RT_NOREF1(fPollEvt); AssertPtrReturn(pProcess, VERR_INVALID_POINTER); if (!phPipeR) return VINF_SUCCESS; #ifdef DEBUG VGSvcVerbose(4, "[PID %RU32]: Output error: idPollHnd=%s, fPollEvt=0x%x\n", pProcess->uPID, vgsvcGstCtrlProcessPollHandleToString(idPollHnd), fPollEvt); #endif /* Remove pipe from poll set. */ int rc2 = RTPollSetRemove(pProcess->hPollSet, idPollHnd); AssertMsg(RT_SUCCESS(rc2) || rc2 == VERR_POLL_HANDLE_ID_NOT_FOUND, ("%Rrc\n", rc2)); bool fClosePipe = true; /* By default close the pipe. */ /* Check if there's remaining data to read from the pipe. */ if (*phPipeR != NIL_RTPIPE) { size_t cbReadable; rc2 = RTPipeQueryReadable(*phPipeR, &cbReadable); if ( RT_SUCCESS(rc2) && cbReadable) { #ifdef DEBUG VGSvcVerbose(3, "[PID %RU32]: idPollHnd=%s has %zu bytes left, vetoing close\n", pProcess->uPID, vgsvcGstCtrlProcessPollHandleToString(idPollHnd), cbReadable); #endif /* Veto closing the pipe yet because there's still stuff to read * from the pipe. This can happen on UNIX-y systems where on * error/hangup there still can be data to be read out. */ fClosePipe = false; } } #ifdef DEBUG else VGSvcVerbose(3, "[PID %RU32]: idPollHnd=%s will be closed\n", pProcess->uPID, vgsvcGstCtrlProcessPollHandleToString(idPollHnd)); #endif if ( *phPipeR != NIL_RTPIPE && fClosePipe) { rc2 = RTPipeClose(*phPipeR); AssertRC(rc2); *phPipeR = NIL_RTPIPE; } return VINF_SUCCESS; } /** * Handle pending output data or error on standard out or standard error. * * @returns IPRT status code from client send. * @param pProcess Process to handle pollset for. * @param fPollEvt The event mask returned by RTPollNoResume. * @param phPipeR The pipe handle. * @param idPollHnd The pipe ID to handle. * */ static int vgsvcGstCtrlProcessPollsetOnOutput(PVBOXSERVICECTRLPROCESS pProcess, uint32_t fPollEvt, PRTPIPE phPipeR, uint32_t idPollHnd) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); #ifdef DEBUG VGSvcVerbose(4, "[PID %RU32]: Output event phPipeR=%p, idPollHnd=%s, fPollEvt=0x%x\n", pProcess->uPID, phPipeR, vgsvcGstCtrlProcessPollHandleToString(idPollHnd), fPollEvt); #endif if (!phPipeR) return VINF_SUCCESS; int rc = VINF_SUCCESS; #ifdef DEBUG if (*phPipeR != NIL_RTPIPE) { size_t cbReadable; rc = RTPipeQueryReadable(*phPipeR, &cbReadable); if ( RT_SUCCESS(rc) && cbReadable) { VGSvcVerbose(4, "[PID %RU32]: Output event cbReadable=%zu\n", pProcess->uPID, cbReadable); } } #endif #if 0 /* Push output to the host. */ if (fPollEvt & RTPOLL_EVT_READ) { size_t cbRead = 0; uint8_t byData[_64K]; rc = RTPipeRead(*phPipeR, byData, sizeof(byData), &cbRead); VGSvcVerbose(4, "VGSvcGstCtrlProcessHandleOutputEvent cbRead=%u, rc=%Rrc\n", cbRead, rc); /* Make sure we go another poll round in case there was too much data for the buffer to hold. */ fPollEvt &= RTPOLL_EVT_ERROR; } #endif if (fPollEvt & RTPOLL_EVT_ERROR) rc = vgsvcGstCtrlProcessHandleOutputError(pProcess, fPollEvt, phPipeR, idPollHnd); return rc; } /** * Execution loop which runs in a dedicated per-started-process thread and * handles all pipe input/output and signalling stuff. * * @return IPRT status code. * @param pProcess The guest process to handle. */ static int vgsvcGstCtrlProcessProcLoop(PVBOXSERVICECTRLPROCESS pProcess) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); int rc; int rc2; uint64_t const uMsStart = RTTimeMilliTS(); RTPROCSTATUS ProcessStatus = { 254, RTPROCEXITREASON_ABEND }; bool fProcessAlive = true; bool fProcessTimedOut = false; uint64_t MsProcessKilled = UINT64_MAX; RTMSINTERVAL const cMsPollBase = pProcess->hPipeStdInW != NIL_RTPIPE ? 100 /* Need to poll for input. */ : 1000; /* Need only poll for process exit and aborts. */ RTMSINTERVAL cMsPollCur = 0; /* * Assign PID to thread data. * Also check if there already was a thread with the same PID and shut it down -- otherwise * the first (stale) entry will be found and we get really weird results! */ rc = vgsvcGstCtrlProcessAssignPID(pProcess, pProcess->hProcess /* Opaque PID handle */); if (RT_FAILURE(rc)) { VGSvcError("Unable to assign PID=%u, to new thread, rc=%Rrc\n", pProcess->hProcess, rc); return rc; } /* * Before entering the loop, tell the host that we've started the guest * and that it's now OK to send input to the process. */ VGSvcVerbose(2, "[PID %RU32]: Process '%s' started, CID=%u, User=%s, cMsTimeout=%RU32\n", pProcess->uPID, pProcess->StartupInfo.szCmd, pProcess->uContextID, pProcess->StartupInfo.szUser, pProcess->StartupInfo.uTimeLimitMS); VBGLR3GUESTCTRLCMDCTX ctxStart = { g_idControlSvcClient, pProcess->uContextID }; rc = VbglR3GuestCtrlProcCbStatus(&ctxStart, pProcess->uPID, PROC_STS_STARTED, 0 /* u32Flags */, NULL /* pvData */, 0 /* cbData */); if (rc == VERR_INTERRUPTED) rc = VINF_SUCCESS; /* SIGCHLD send by quick childs! */ if (RT_FAILURE(rc)) VGSvcError("[PID %RU32]: Error reporting starting status to host, rc=%Rrc\n", pProcess->uPID, rc); /* * Process input, output, the test pipe and client requests. */ while ( RT_SUCCESS(rc) && RT_UNLIKELY(!pProcess->fShutdown)) { /* * Wait/Process all pending events. */ uint32_t idPollHnd; uint32_t fPollEvt; rc2 = RTPollNoResume(pProcess->hPollSet, cMsPollCur, &fPollEvt, &idPollHnd); if (pProcess->fShutdown) continue; cMsPollCur = 0; /* No rest until we've checked everything. */ if (RT_SUCCESS(rc2)) { switch (idPollHnd) { case VBOXSERVICECTRLPIPEID_STDIN: rc = vgsvcGstCtrlProcessPollsetOnInput(pProcess, fPollEvt, &pProcess->hPipeStdInW); break; case VBOXSERVICECTRLPIPEID_STDOUT: rc = vgsvcGstCtrlProcessPollsetOnOutput(pProcess, fPollEvt, &pProcess->hPipeStdOutR, idPollHnd); break; case VBOXSERVICECTRLPIPEID_STDERR: rc = vgsvcGstCtrlProcessPollsetOnOutput(pProcess, fPollEvt, &pProcess->hPipeStdOutR, idPollHnd); break; case VBOXSERVICECTRLPIPEID_IPC_NOTIFY: #ifdef DEBUG_andy VGSvcVerbose(4, "[PID %RU32]: IPC notify\n", pProcess->uPID); #endif rc2 = vgsvcGstCtrlProcessLock(pProcess); if (RT_SUCCESS(rc2)) { /* Drain the notification pipe. */ uint8_t abBuf[8]; size_t cbIgnore; rc2 = RTPipeRead(pProcess->hNotificationPipeR, abBuf, sizeof(abBuf), &cbIgnore); if (RT_FAILURE(rc2)) VGSvcError("Draining IPC notification pipe failed with rc=%Rrc\n", rc2); /* Process all pending requests. */ VGSvcVerbose(4, "[PID %RU32]: Processing pending requests ...\n", pProcess->uPID); Assert(pProcess->hReqQueue != NIL_RTREQQUEUE); rc2 = RTReqQueueProcess(pProcess->hReqQueue, 0 /* Only process all pending requests, don't wait for new ones */); if ( RT_FAILURE(rc2) && rc2 != VERR_TIMEOUT) VGSvcError("Processing requests failed with with rc=%Rrc\n", rc2); int rc3 = vgsvcGstCtrlProcessUnlock(pProcess); AssertRC(rc3); #ifdef DEBUG VGSvcVerbose(4, "[PID %RU32]: Processing pending requests done, rc=%Rrc\n", pProcess->uPID, rc2); #endif } break; default: AssertMsgFailed(("Unknown idPollHnd=%RU32\n", idPollHnd)); break; } if (RT_FAILURE(rc) || rc == VINF_EOF) break; /* Abort command, or client dead or something. */ } #if 0 VGSvcVerbose(4, "[PID %RU32]: Polling done, pollRc=%Rrc, pollCnt=%RU32, idPollHnd=%s, rc=%Rrc, fProcessAlive=%RTbool, fShutdown=%RTbool\n", pProcess->uPID, rc2, RTPollSetGetCount(hPollSet), vgsvcGstCtrlProcessPollHandleToString(idPollHnd), rc, fProcessAlive, pProcess->fShutdown); VGSvcVerbose(4, "[PID %RU32]: stdOut=%s, stdErrR=%s\n", pProcess->uPID, *phStdOutR == NIL_RTPIPE ? "closed" : "open", *phStdErrR == NIL_RTPIPE ? "closed" : "open"); #endif if (RT_UNLIKELY(pProcess->fShutdown)) break; /* We were asked to shutdown. */ /* * Check for process death. */ if (fProcessAlive) { rc2 = RTProcWaitNoResume(pProcess->hProcess, RTPROCWAIT_FLAGS_NOBLOCK, &ProcessStatus); if (RT_SUCCESS_NP(rc2)) { fProcessAlive = false; /* Note: Don't bail out here yet. First check in the next block below * if all needed pipe outputs have been consumed. */ } else { if (RT_UNLIKELY(rc2 == VERR_INTERRUPTED)) continue; if (RT_UNLIKELY(rc2 == VERR_PROCESS_NOT_FOUND)) { fProcessAlive = false; ProcessStatus.enmReason = RTPROCEXITREASON_ABEND; ProcessStatus.iStatus = 255; AssertFailed(); } else AssertMsg(rc2 == VERR_PROCESS_RUNNING, ("%Rrc\n", rc2)); } } /* * If the process has terminated and all output has been consumed, * we should be heading out. */ if (!fProcessAlive) { if ( fProcessTimedOut || ( pProcess->hPipeStdOutR == NIL_RTPIPE && pProcess->hPipeStdErrR == NIL_RTPIPE) ) { VGSvcVerbose(3, "[PID %RU32]: RTProcWaitNoResume=%Rrc\n", pProcess->uPID, rc2); break; } } /* * Check for timed out, killing the process. */ uint32_t cMilliesLeft = RT_INDEFINITE_WAIT; if ( pProcess->StartupInfo.uTimeLimitMS != RT_INDEFINITE_WAIT && pProcess->StartupInfo.uTimeLimitMS != 0) { uint64_t u64Now = RTTimeMilliTS(); uint64_t cMsElapsed = u64Now - uMsStart; if (cMsElapsed >= pProcess->StartupInfo.uTimeLimitMS) { fProcessTimedOut = true; if ( MsProcessKilled == UINT64_MAX || u64Now - MsProcessKilled > 1000) { if (u64Now - MsProcessKilled > 20*60*1000) break; /* Give up after 20 mins. */ VGSvcVerbose(3, "[PID %RU32]: Timed out (%RU64ms elapsed > %RU32ms timeout), killing ...\n", pProcess->uPID, cMsElapsed, pProcess->StartupInfo.uTimeLimitMS); rc2 = RTProcTerminate(pProcess->hProcess); VGSvcVerbose(3, "[PID %RU32]: Killing process resulted in rc=%Rrc\n", pProcess->uPID, rc2); MsProcessKilled = u64Now; continue; } cMilliesLeft = 10000; } else cMilliesLeft = pProcess->StartupInfo.uTimeLimitMS - (uint32_t)cMsElapsed; } /* Reset the polling interval since we've done all pending work. */ cMsPollCur = fProcessAlive ? cMsPollBase : RT_MS_1MIN; if (cMilliesLeft < cMsPollCur) cMsPollCur = cMilliesLeft; } VGSvcVerbose(3, "[PID %RU32]: Loop ended: rc=%Rrc, fShutdown=%RTbool, fProcessAlive=%RTbool, fProcessTimedOut=%RTbool, MsProcessKilled=%RU64 (%RX64)\n", pProcess->uPID, rc, pProcess->fShutdown, fProcessAlive, fProcessTimedOut, MsProcessKilled, MsProcessKilled); VGSvcVerbose(3, "[PID %RU32]: *phStdOutR=%s, *phStdErrR=%s\n", pProcess->uPID, pProcess->hPipeStdOutR == NIL_RTPIPE ? "closed" : "open", pProcess->hPipeStdErrR == NIL_RTPIPE ? "closed" : "open"); /* Signal that this thread is in progress of shutting down. */ ASMAtomicWriteBool(&pProcess->fShutdown, true); /* * Try killing the process if it's still alive at this point. */ if (fProcessAlive) { if (MsProcessKilled == UINT64_MAX) { VGSvcVerbose(2, "[PID %RU32]: Is still alive and not killed yet\n", pProcess->uPID); MsProcessKilled = RTTimeMilliTS(); rc2 = RTProcTerminate(pProcess->hProcess); if (rc2 == VERR_NOT_FOUND) { fProcessAlive = false; } else if (RT_FAILURE(rc2)) VGSvcError("[PID %RU32]: Killing process failed with rc=%Rrc\n", pProcess->uPID, rc2); RTThreadSleep(500); } for (int i = 0; i < 10 && fProcessAlive; i++) { VGSvcVerbose(4, "[PID %RU32]: Kill attempt %d/10: Waiting to exit ...\n", pProcess->uPID, i + 1); rc2 = RTProcWait(pProcess->hProcess, RTPROCWAIT_FLAGS_NOBLOCK, &ProcessStatus); if (RT_SUCCESS(rc2)) { VGSvcVerbose(4, "[PID %RU32]: Kill attempt %d/10: Exited\n", pProcess->uPID, i + 1); fProcessAlive = false; break; } if (i >= 5) { VGSvcVerbose(4, "[PID %RU32]: Kill attempt %d/10: Trying to terminate ...\n", pProcess->uPID, i + 1); rc2 = RTProcTerminate(pProcess->hProcess); if ( RT_FAILURE(rc) && rc2 != VERR_NOT_FOUND) VGSvcError("PID %RU32]: Killing process failed with rc=%Rrc\n", pProcess->uPID, rc2); } RTThreadSleep(i >= 5 ? 2000 : 500); } if (fProcessAlive) VGSvcError("[PID %RU32]: Could not be killed\n", pProcess->uPID); } /* * Shutdown procedure: * - Set the pProcess->fShutdown indicator to let others know we're * not accepting any new requests anymore. * - After setting the indicator, try to process all outstanding * requests to make sure they're getting delivered. * * Note: After removing the process from the session's list it's not * even possible for the session anymore to control what's * happening to this thread, so be careful and don't mess it up. */ rc2 = vgsvcGstCtrlProcessLock(pProcess); if (RT_SUCCESS(rc2)) { VGSvcVerbose(3, "[PID %RU32]: Processing outstanding requests ...\n", pProcess->uPID); /* Process all pending requests (but don't wait for new ones). */ Assert(pProcess->hReqQueue != NIL_RTREQQUEUE); rc2 = RTReqQueueProcess(pProcess->hReqQueue, 0 /* No timeout */); if ( RT_FAILURE(rc2) && rc2 != VERR_TIMEOUT) VGSvcError("[PID %RU32]: Processing outstanding requests failed with with rc=%Rrc\n", pProcess->uPID, rc2); VGSvcVerbose(3, "[PID %RU32]: Processing outstanding requests done, rc=%Rrc\n", pProcess->uPID, rc2); rc2 = vgsvcGstCtrlProcessUnlock(pProcess); AssertRC(rc2); } /* * If we don't have a client problem (RT_FAILURE(rc)) we'll reply to the * clients exec packet now. */ if (RT_SUCCESS(rc)) { uint32_t uStatus = PROC_STS_UNDEFINED; uint32_t fFlags = 0; if ( fProcessTimedOut && !fProcessAlive && MsProcessKilled != UINT64_MAX) { VGSvcVerbose(3, "[PID %RU32]: Timed out and got killed\n", pProcess->uPID); uStatus = PROC_STS_TOK; } else if (fProcessTimedOut && fProcessAlive && MsProcessKilled != UINT64_MAX) { VGSvcVerbose(3, "[PID %RU32]: Timed out and did *not* get killed\n", pProcess->uPID); uStatus = PROC_STS_TOA; } else if (pProcess->fShutdown && (fProcessAlive || MsProcessKilled != UINT64_MAX)) { VGSvcVerbose(3, "[PID %RU32]: Got terminated because system/service is about to shutdown\n", pProcess->uPID); uStatus = PROC_STS_DWN; /* Service is stopping, process was killed. */ fFlags = pProcess->StartupInfo.uFlags; /* Return handed-in execution flags back to the host. */ } else if (fProcessAlive) VGSvcError("[PID %RU32]: Is alive when it should not!\n", pProcess->uPID); else if (MsProcessKilled != UINT64_MAX) VGSvcError("[PID %RU32]: Has been killed when it should not!\n", pProcess->uPID); else if (ProcessStatus.enmReason == RTPROCEXITREASON_NORMAL) { VGSvcVerbose(3, "[PID %RU32]: Ended with RTPROCEXITREASON_NORMAL (Exit code: %d)\n", pProcess->uPID, ProcessStatus.iStatus); uStatus = PROC_STS_TEN; fFlags = ProcessStatus.iStatus; } else if (ProcessStatus.enmReason == RTPROCEXITREASON_SIGNAL) { VGSvcVerbose(3, "[PID %RU32]: Ended with RTPROCEXITREASON_SIGNAL (Signal: %u)\n", pProcess->uPID, ProcessStatus.iStatus); uStatus = PROC_STS_TES; fFlags = ProcessStatus.iStatus; } else if (ProcessStatus.enmReason == RTPROCEXITREASON_ABEND) { /* ProcessStatus.iStatus will be undefined. */ VGSvcVerbose(3, "[PID %RU32]: Ended with RTPROCEXITREASON_ABEND\n", pProcess->uPID); uStatus = PROC_STS_TEA; fFlags = ProcessStatus.iStatus; } else VGSvcVerbose(1, "[PID %RU32]: Handling process status %u not implemented\n", pProcess->uPID, ProcessStatus.enmReason); VBGLR3GUESTCTRLCMDCTX ctxEnd = { g_idControlSvcClient, pProcess->uContextID }; VGSvcVerbose(2, "[PID %RU32]: Ended, ClientID=%u, CID=%u, Status=%u, Flags=0x%x\n", pProcess->uPID, ctxEnd.uClientID, pProcess->uContextID, uStatus, fFlags); rc2 = VbglR3GuestCtrlProcCbStatus(&ctxEnd, pProcess->uPID, uStatus, fFlags, NULL /* pvData */, 0 /* cbData */); if ( RT_FAILURE(rc2) && rc2 == VERR_NOT_FOUND) VGSvcError("[PID %RU32]: Error reporting final status to host; rc=%Rrc\n", pProcess->uPID, rc2); } VGSvcVerbose(3, "[PID %RU32]: Process loop returned with rc=%Rrc\n", pProcess->uPID, rc); return rc; } #if 0 /* unused */ /** * Initializes a pipe's handle and pipe object. * * @return IPRT status code. * @param ph The pipe's handle to initialize. * @param phPipe The pipe's object to initialize. */ static int vgsvcGstCtrlProcessInitPipe(PRTHANDLE ph, PRTPIPE phPipe) { AssertPtrReturn(ph, VERR_INVALID_PARAMETER); AssertPtrReturn(phPipe, VERR_INVALID_PARAMETER); ph->enmType = RTHANDLETYPE_PIPE; ph->u.hPipe = NIL_RTPIPE; *phPipe = NIL_RTPIPE; return VINF_SUCCESS; } #endif /** * Sets up the redirection / pipe / nothing for one of the standard handles. * * @returns IPRT status code. No client replies made. * @param pszHowTo How to set up this standard handle. * @param fd Which standard handle it is (0 == stdin, 1 == * stdout, 2 == stderr). * @param ph The generic handle that @a pph may be set * pointing to. Always set. * @param pph Pointer to the RTProcCreateExec argument. * Always set. * @param phPipe Where to return the end of the pipe that we * should service. */ static int vgsvcGstCtrlProcessSetupPipe(const char *pszHowTo, int fd, PRTHANDLE ph, PRTHANDLE *pph, PRTPIPE phPipe) { AssertPtrReturn(ph, VERR_INVALID_POINTER); AssertPtrReturn(pph, VERR_INVALID_POINTER); AssertPtrReturn(phPipe, VERR_INVALID_POINTER); int rc; ph->enmType = RTHANDLETYPE_PIPE; ph->u.hPipe = NIL_RTPIPE; *pph = NULL; *phPipe = NIL_RTPIPE; if (!strcmp(pszHowTo, "|")) { /* * Setup a pipe for forwarding to/from the client. * The ph union struct will be filled with a pipe read/write handle * to represent the "other" end to phPipe. */ if (fd == 0) /* stdin? */ { /* Connect a wrtie pipe specified by phPipe to stdin. */ rc = RTPipeCreate(&ph->u.hPipe, phPipe, RTPIPE_C_INHERIT_READ); } else /* stdout or stderr. */ { /* Connect a read pipe specified by phPipe to stdout or stderr. */ rc = RTPipeCreate(phPipe, &ph->u.hPipe, RTPIPE_C_INHERIT_WRITE); } if (RT_FAILURE(rc)) return rc; ph->enmType = RTHANDLETYPE_PIPE; *pph = ph; } else if (!strcmp(pszHowTo, "/dev/null")) { /* * Redirect to/from /dev/null. */ RTFILE hFile; rc = RTFileOpenBitBucket(&hFile, fd == 0 ? RTFILE_O_READ : RTFILE_O_WRITE); if (RT_FAILURE(rc)) return rc; ph->enmType = RTHANDLETYPE_FILE; ph->u.hFile = hFile; *pph = ph; } else /* Add other piping stuff here. */ rc = VINF_SUCCESS; /* Same as parent (us). */ return rc; } /** * Expands a file name / path to its real content. This only works on Windows * for now (e.g. translating "%TEMP%\foo.exe" to "C:\Windows\Temp" when starting * with system / administrative rights). * * @return IPRT status code. * @param pszPath Path to resolve. * @param pszExpanded Pointer to string to store the resolved path in. * @param cbExpanded Size (in bytes) of string to store the resolved path. */ static int vgsvcGstCtrlProcessMakeFullPath(const char *pszPath, char *pszExpanded, size_t cbExpanded) { int rc = VINF_SUCCESS; /** @todo r=bird: This feature shall be made optional, i.e. require a * flag to be passed down. Further, it shall work on the environment * block of the new process (i.e. include env changes passed down from * the caller). I would also suggest using the unix variable expansion * syntax, not the DOS one. * * Since this currently not available on non-windows guests, I suggest * we disable it until such a time as it is implemented correctly. */ #ifdef RT_OS_WINDOWS if (!ExpandEnvironmentStrings(pszPath, pszExpanded, (DWORD)cbExpanded)) rc = RTErrConvertFromWin32(GetLastError()); #else /* No expansion for non-Windows yet. */ rc = RTStrCopy(pszExpanded, cbExpanded, pszPath); #endif #ifdef DEBUG VGSvcVerbose(3, "vgsvcGstCtrlProcessMakeFullPath: %s -> %s\n", pszPath, pszExpanded); #endif return rc; } /** * Resolves the full path of a specified executable name. This function also * resolves internal VBoxService tools to its appropriate executable path + name if * VBOXSERVICE_NAME is specified as pszFileName. * * @return IPRT status code. * @param pszFileName File name to resolve. * @param pszResolved Pointer to a string where the resolved file name will be stored. * @param cbResolved Size (in bytes) of resolved file name string. */ static int vgsvcGstCtrlProcessResolveExecutable(const char *pszFileName, char *pszResolved, size_t cbResolved) { AssertPtrReturn(pszFileName, VERR_INVALID_POINTER); AssertPtrReturn(pszResolved, VERR_INVALID_POINTER); AssertReturn(cbResolved, VERR_INVALID_PARAMETER); int rc = VINF_SUCCESS; char szPathToResolve[RTPATH_MAX]; if ( (g_pszProgName && (RTStrICmp(pszFileName, g_pszProgName) == 0)) || !RTStrICmp(pszFileName, VBOXSERVICE_NAME)) { /* Resolve executable name of this process. */ if (!RTProcGetExecutablePath(szPathToResolve, sizeof(szPathToResolve))) rc = VERR_FILE_NOT_FOUND; } else { /* Take the raw argument to resolve. */ rc = RTStrCopy(szPathToResolve, sizeof(szPathToResolve), pszFileName); } if (RT_SUCCESS(rc)) { rc = vgsvcGstCtrlProcessMakeFullPath(szPathToResolve, pszResolved, cbResolved); if (RT_SUCCESS(rc)) VGSvcVerbose(3, "Looked up executable: %s -> %s\n", pszFileName, pszResolved); } if (RT_FAILURE(rc)) VGSvcError("Failed to lookup executable '%s' with rc=%Rrc\n", pszFileName, rc); return rc; } /** * Constructs the argv command line by resolving environment variables * and relative paths. * * @return IPRT status code. * @param pszArgv0 First argument (argv0), either original or modified version. Optional. * @param papszArgs Original argv command line from the host, starting at argv[1]. * @param fFlags The process creation flags pass to us from the host. * @param ppapszArgv Pointer to a pointer with the new argv command line. * Needs to be freed with RTGetOptArgvFree. */ static int vgsvcGstCtrlProcessAllocateArgv(const char *pszArgv0, const char * const *papszArgs, uint32_t fFlags, char ***ppapszArgv) { AssertPtrReturn(ppapszArgv, VERR_INVALID_POINTER); VGSvcVerbose(3, "VGSvcGstCtrlProcessPrepareArgv: pszArgv0=%p, papszArgs=%p, fFlags=%#x, ppapszArgv=%p\n", pszArgv0, papszArgs, fFlags, ppapszArgv); int rc = VINF_SUCCESS; uint32_t cArgs; for (cArgs = 0; papszArgs[cArgs]; cArgs++) { if (cArgs >= UINT32_MAX - 2) return VERR_BUFFER_OVERFLOW; } /* Allocate new argv vector (adding + 2 for argv0 + termination). */ size_t cbSize = (cArgs + 2) * sizeof(char *); char **papszNewArgv = (char **)RTMemAlloc(cbSize); if (!papszNewArgv) return VERR_NO_MEMORY; #ifdef DEBUG VGSvcVerbose(3, "VGSvcGstCtrlProcessAllocateArgv: cbSize=%RU32, cArgs=%RU32\n", cbSize, cArgs); #endif /* HACK ALERT! Since we still don't allow the user to really specify the first argument separately from the executable image, we have to fudge a little in the unquoted argument case to deal with executables containing spaces. */ /** @todo Fix the stupid host/guest protocol so the user can do this for us! */ if ( !(fFlags & EXECUTEPROCESSFLAG_UNQUOTED_ARGS) || !strpbrk(pszArgv0, " \t\n\r") || pszArgv0[0] == '"') rc = RTStrDupEx(&papszNewArgv[0], pszArgv0); else { size_t cchArgv0 = strlen(pszArgv0); rc = RTStrAllocEx(&papszNewArgv[0], 1 + cchArgv0 + 1 + 1); if (RT_SUCCESS(rc)) { char *pszDst = papszNewArgv[0]; *pszDst++ = '"'; memcpy(pszDst, pszArgv0, cchArgv0); pszDst += cchArgv0; *pszDst++ = '"'; *pszDst = '\0'; } } if (RT_SUCCESS(rc)) { size_t i; for (i = 0; i < cArgs; i++) { char *pszArg; #if 0 /* Arguments expansion -- untested. */ if (fFlags & EXECUTEPROCESSFLAG_EXPAND_ARGUMENTS) { /** @todo r=bird: If you want this, we need a generic implementation, preferably in RTEnv or somewhere like that. The marking * up of the variables must be the same on all platforms. */ /* According to MSDN the limit on older Windows version is 32K, whereas * Vista+ there are no limits anymore. We still stick to 4K. */ char szExpanded[_4K]; # ifdef RT_OS_WINDOWS if (!ExpandEnvironmentStrings(papszArgs[i], szExpanded, sizeof(szExpanded))) rc = RTErrConvertFromWin32(GetLastError()); # else /* No expansion for non-Windows yet. */ rc = RTStrCopy(papszArgs[i], sizeof(szExpanded), szExpanded); # endif if (RT_SUCCESS(rc)) rc = RTStrDupEx(&pszArg, szExpanded); } else #endif rc = RTStrDupEx(&pszArg, papszArgs[i]); if (RT_FAILURE(rc)) break; papszNewArgv[i + 1] = pszArg; } if (RT_SUCCESS(rc)) { /* Terminate array. */ papszNewArgv[cArgs + 1] = NULL; *ppapszArgv = papszNewArgv; return VINF_SUCCESS; } /* Failed, bail out. */ for (; i > 0; i--) RTStrFree(papszNewArgv[i]); } RTMemFree(papszNewArgv); return rc; } /** * Assigns a valid PID to a guest control thread and also checks if there already was * another (stale) guest process which was using that PID before and destroys it. * * @return IPRT status code. * @param pProcess Process to assign PID to. * @param uPID PID to assign to the specified guest control execution thread. */ static int vgsvcGstCtrlProcessAssignPID(PVBOXSERVICECTRLPROCESS pProcess, uint32_t uPID) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); AssertReturn(uPID, VERR_INVALID_PARAMETER); AssertPtr(pProcess->pSession); int rc = RTCritSectEnter(&pProcess->pSession->CritSect); if (RT_SUCCESS(rc)) { /* Search old threads using the desired PID and shut them down completely -- it's * not used anymore. */ bool fTryAgain; do { fTryAgain = false; PVBOXSERVICECTRLPROCESS pProcessCur; RTListForEach(&pProcess->pSession->lstProcesses, pProcessCur, VBOXSERVICECTRLPROCESS, Node) { if (pProcessCur->uPID == uPID) { Assert(pProcessCur != pProcess); /* can't happen */ uint32_t uTriedPID = uPID; uPID += 391939; VGSvcVerbose(2, "PID %RU32 was used before (process %p), trying again with %RU32 ...\n", uTriedPID, pProcessCur, uPID); fTryAgain = true; break; } } } while (fTryAgain); /* Assign PID to current thread. */ pProcess->uPID = uPID; rc = RTCritSectLeave(&pProcess->pSession->CritSect); AssertRC(rc); } return rc; } static void vgsvcGstCtrlProcessFreeArgv(char **papszArgv) { if (papszArgv) { size_t i = 0; while (papszArgv[i]) RTStrFree(papszArgv[i++]); RTMemFree(papszArgv); } } /** * Helper function to create/start a process on the guest. * * @return IPRT status code. * @param pszExec Full qualified path of process to start (without arguments). * @param papszArgs Pointer to array of command line arguments. * @param hEnv Handle to environment block to use. * @param fFlags Process execution flags. * @param phStdIn Handle for the process' stdin pipe. * @param phStdOut Handle for the process' stdout pipe. * @param phStdErr Handle for the process' stderr pipe. * @param pszAsUser User name (account) to start the process under. * @param pszPassword Password of the specified user. * @param pszDomain Domain to use for authentication. * @param phProcess Pointer which will receive the process handle after * successful process start. */ static int vgsvcGstCtrlProcessCreateProcess(const char *pszExec, const char * const *papszArgs, RTENV hEnv, uint32_t fFlags, PCRTHANDLE phStdIn, PCRTHANDLE phStdOut, PCRTHANDLE phStdErr, const char *pszAsUser, const char *pszPassword, const char *pszDomain, PRTPROCESS phProcess) { #ifndef RT_OS_WINDOWS RT_NOREF1(pszDomain); #endif AssertPtrReturn(pszExec, VERR_INVALID_PARAMETER); AssertPtrReturn(papszArgs, VERR_INVALID_PARAMETER); /* phStdIn is optional. */ /* phStdOut is optional. */ /* phStdErr is optional. */ /* pszPassword is optional. */ /* pszDomain is optional. */ AssertPtrReturn(phProcess, VERR_INVALID_PARAMETER); int rc = VINF_SUCCESS; char szExecExp[RTPATH_MAX]; #ifdef DEBUG /* Never log this in release mode! */ VGSvcVerbose(4, "pszUser=%s, pszPassword=%s, pszDomain=%s\n", pszAsUser, pszPassword, pszDomain); #endif #ifdef RT_OS_WINDOWS /* * If sysprep should be executed do this in the context of VBoxService, which * (usually, if started by SCM) has administrator rights. Because of that a UI * won't be shown (doesn't have a desktop). */ if (!RTStrICmp(pszExec, "sysprep")) { /* Use a predefined sysprep path as default. */ char szSysprepCmd[RTPATH_MAX] = "C:\\sysprep\\sysprep.exe"; /** @todo Check digital signature of file above before executing it? */ /* * On Windows Vista (and up) sysprep is located in "system32\\Sysprep\\sysprep.exe", * so detect the OS and use a different path. */ OSVERSIONINFOEX OSInfoEx; RT_ZERO(OSInfoEx); OSInfoEx.dwOSVersionInfoSize = sizeof(OSVERSIONINFOEX); BOOL fRet = GetVersionEx((LPOSVERSIONINFO) &OSInfoEx); if ( fRet && OSInfoEx.dwPlatformId == VER_PLATFORM_WIN32_NT && OSInfoEx.dwMajorVersion >= 6 /* Vista or later */) { rc = RTEnvGetEx(RTENV_DEFAULT, "windir", szSysprepCmd, sizeof(szSysprepCmd), NULL); #ifndef RT_ARCH_AMD64 /* Don't execute 64-bit sysprep from a 32-bit service host! */ char szSysWow64[RTPATH_MAX]; if (RTStrPrintf(szSysWow64, sizeof(szSysWow64), "%s", szSysprepCmd)) { rc = RTPathAppend(szSysWow64, sizeof(szSysWow64), "SysWow64"); AssertRC(rc); } if ( RT_SUCCESS(rc) && RTPathExists(szSysWow64)) VGSvcVerbose(0, "Warning: This service is 32-bit; could not execute sysprep on 64-bit OS!\n"); #endif if (RT_SUCCESS(rc)) rc = RTPathAppend(szSysprepCmd, sizeof(szSysprepCmd), "system32\\Sysprep\\sysprep.exe"); if (RT_SUCCESS(rc)) RTPathChangeToDosSlashes(szSysprepCmd, false /* No forcing necessary */); if (RT_FAILURE(rc)) VGSvcError("Failed to detect sysrep location, rc=%Rrc\n", rc); } else if (!fRet) VGSvcError("Failed to retrieve OS information, last error=%ld\n", GetLastError()); VGSvcVerbose(3, "Sysprep executable is: %s\n", szSysprepCmd); if (RT_SUCCESS(rc)) { char **papszArgsExp; rc = vgsvcGstCtrlProcessAllocateArgv(szSysprepCmd /* argv0 */, papszArgs, fFlags, &papszArgsExp); if (RT_SUCCESS(rc)) { /* As we don't specify credentials for the sysprep process, it will * run under behalf of the account VBoxService was started under, most * likely local system. */ rc = RTProcCreateEx(szSysprepCmd, papszArgsExp, hEnv, 0 /* fFlags */, phStdIn, phStdOut, phStdErr, NULL /* pszAsUser */, NULL /* pszPassword */, phProcess); vgsvcGstCtrlProcessFreeArgv(papszArgsExp); } } if (RT_FAILURE(rc)) VGSvcVerbose(3, "Starting sysprep returned rc=%Rrc\n", rc); return rc; } #endif /* RT_OS_WINDOWS */ #ifdef VBOX_WITH_VBOXSERVICE_TOOLBOX if (RTStrStr(pszExec, "vbox_") == pszExec) { /* We want to use the internal toolbox (all internal * tools are starting with "vbox_" (e.g. "vbox_cat"). */ rc = vgsvcGstCtrlProcessResolveExecutable(VBOXSERVICE_NAME, szExecExp, sizeof(szExecExp)); } else { #endif /* * Do the environment variables expansion on executable and arguments. */ rc = vgsvcGstCtrlProcessResolveExecutable(pszExec, szExecExp, sizeof(szExecExp)); #ifdef VBOX_WITH_VBOXSERVICE_TOOLBOX } #endif if (RT_SUCCESS(rc)) { char **papszArgsExp; /** @todo r-bird: pszExec != argv[0]! When are you going to get that?!? How many * times does this need to be pointed out? HOST/GUEST INTERFACE IS MISDESIGNED! */ rc = vgsvcGstCtrlProcessAllocateArgv(pszExec /* Always use the unmodified executable name as argv0. */, papszArgs /* Append the rest of the argument vector (if any). */, fFlags, &papszArgsExp); if (RT_FAILURE(rc)) { /* Don't print any arguments -- may contain passwords or other sensible data! */ VGSvcError("Could not prepare arguments, rc=%Rrc\n", rc); } else { uint32_t uProcFlags = 0; if (fFlags) { if (fFlags & EXECUTEPROCESSFLAG_HIDDEN) uProcFlags |= RTPROC_FLAGS_HIDDEN; if (fFlags & EXECUTEPROCESSFLAG_PROFILE) uProcFlags |= RTPROC_FLAGS_PROFILE; if (fFlags & EXECUTEPROCESSFLAG_UNQUOTED_ARGS) uProcFlags |= RTPROC_FLAGS_UNQUOTED_ARGS; } /* If no user name specified run with current credentials (e.g. * full service/system rights). This is prohibited via official Main API! * * Otherwise use the RTPROC_FLAGS_SERVICE to use some special authentication * code (at least on Windows) for running processes as different users * started from our system service. */ if (pszAsUser && *pszAsUser) uProcFlags |= RTPROC_FLAGS_SERVICE; #ifdef DEBUG VGSvcVerbose(3, "Command: %s\n", szExecExp); for (size_t i = 0; papszArgsExp[i]; i++) VGSvcVerbose(3, "\targv[%ld]: %s\n", i, papszArgsExp[i]); #endif VGSvcVerbose(3, "Starting process '%s' ...\n", szExecExp); const char *pszUser = pszAsUser; #ifdef RT_OS_WINDOWS /* If a domain name is given, construct an UPN (User Principle Name) with * the domain name built-in, e.g. "joedoe@example.com". */ char *pszUserUPN = NULL; if ( pszDomain && strlen(pszDomain)) { int cbUserUPN = RTStrAPrintf(&pszUserUPN, "%s@%s", pszAsUser, pszDomain); if (cbUserUPN > 0) { pszUser = pszUserUPN; VGSvcVerbose(3, "Using UPN: %s\n", pszUserUPN); } } #endif /* Do normal execution. */ rc = RTProcCreateEx(szExecExp, papszArgsExp, hEnv, uProcFlags, phStdIn, phStdOut, phStdErr, pszUser, pszPassword && *pszPassword ? pszPassword : NULL, phProcess); #ifdef RT_OS_WINDOWS if (pszUserUPN) RTStrFree(pszUserUPN); #endif VGSvcVerbose(3, "Starting process '%s' returned rc=%Rrc\n", szExecExp, rc); vgsvcGstCtrlProcessFreeArgv(papszArgsExp); } } return rc; } #ifdef DEBUG static int vgsvcGstCtrlProcessDumpToFile(const char *pszFileName, void *pvBuf, size_t cbBuf) { AssertPtrReturn(pszFileName, VERR_INVALID_POINTER); AssertPtrReturn(pvBuf, VERR_INVALID_POINTER); if (!cbBuf) return VINF_SUCCESS; char szFile[RTPATH_MAX]; int rc = RTPathTemp(szFile, sizeof(szFile)); if (RT_SUCCESS(rc)) rc = RTPathAppend(szFile, sizeof(szFile), pszFileName); if (RT_SUCCESS(rc)) { VGSvcVerbose(4, "Dumping %ld bytes to '%s'\n", cbBuf, szFile); RTFILE fh; rc = RTFileOpen(&fh, szFile, RTFILE_O_OPEN_CREATE | RTFILE_O_WRITE | RTFILE_O_DENY_WRITE); if (RT_SUCCESS(rc)) { rc = RTFileWrite(fh, pvBuf, cbBuf, NULL /* pcbWritten */); RTFileClose(fh); } } return rc; } #endif /* DEBUG */ /** * The actual worker routine (loop) for a started guest process. * * @return IPRT status code. * @param pProcess The process we're servicing and monitoring. */ static int vgsvcGstCtrlProcessProcessWorker(PVBOXSERVICECTRLPROCESS pProcess) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); VGSvcVerbose(3, "Thread of process pThread=0x%p = '%s' started\n", pProcess, pProcess->StartupInfo.szCmd); VGSvcVerbose(3, "Guest process '%s', flags=0x%x\n", pProcess->StartupInfo.szCmd, pProcess->StartupInfo.uFlags); int rc = VGSvcGstCtrlSessionProcessAdd(pProcess->pSession, pProcess); if (RT_FAILURE(rc)) { VGSvcError("Errorwhile adding guest process '%s' (%p) to session process list, rc=%Rrc\n", pProcess->StartupInfo.szCmd, pProcess, rc); RTThreadUserSignal(RTThreadSelf()); return rc; } bool fSignalled = false; /* Indicator whether we signalled the thread user event already. */ /* * Prepare argument list. */ char **papszArgs; int cArgs = 0; /* Initialize in case of RTGetOptArgvFromString() is failing ... */ rc = RTGetOptArgvFromString(&papszArgs, &cArgs, pProcess->StartupInfo.uNumArgs > 0 ? pProcess->StartupInfo.szArgs : "", RTGETOPTARGV_CNV_QUOTE_BOURNE_SH, NULL); /* Did we get the same result? */ Assert((int)pProcess->StartupInfo.uNumArgs == cArgs + 1 /* Take argv[0] into account */); /* * Prepare environment variables list. */ /** @todo r=bird: you don't need to prepare this, do you? Why don't you replace * the brilliant RTStrAPrintf call with RTEnvPutEx and drop the papszEnv related code? */ char **papszEnv = NULL; uint32_t uNumEnvVars = 0; /* Initialize in case of failing ... */ if (RT_SUCCESS(rc)) { /* Prepare environment list. */ if (pProcess->StartupInfo.uNumEnvVars) { papszEnv = (char **)RTMemAlloc(pProcess->StartupInfo.uNumEnvVars * sizeof(char*)); AssertPtr(papszEnv); uNumEnvVars = pProcess->StartupInfo.uNumEnvVars; const char *pszCur = pProcess->StartupInfo.szEnv; uint32_t i = 0; uint32_t cbLen = 0; while (cbLen < pProcess->StartupInfo.cbEnv) { /* sanity check */ if (i >= pProcess->StartupInfo.uNumEnvVars) { rc = VERR_INVALID_PARAMETER; break; } int cbStr = RTStrAPrintf(&papszEnv[i++], "%s", pszCur); if (cbStr < 0) { rc = VERR_NO_STR_MEMORY; break; } pszCur += cbStr + 1; /* Skip terminating '\0' */ cbLen += cbStr + 1; /* Skip terminating '\0' */ } Assert(i == pProcess->StartupInfo.uNumEnvVars); } } /* * Create the environment. */ if (RT_SUCCESS(rc)) { RTENV hEnv; rc = RTEnvClone(&hEnv, RTENV_DEFAULT); if (RT_SUCCESS(rc)) { size_t i; for (i = 0; i < uNumEnvVars && papszEnv; i++) { rc = RTEnvPutEx(hEnv, papszEnv[i]); if (RT_FAILURE(rc)) break; } if (RT_SUCCESS(rc)) { /* * Setup the redirection of the standard stuff. */ /** @todo consider supporting: gcc stuff.c >file 2>&1. */ RTHANDLE hStdIn; PRTHANDLE phStdIn; rc = vgsvcGstCtrlProcessSetupPipe("|", 0 /*STDIN_FILENO*/, &hStdIn, &phStdIn, &pProcess->hPipeStdInW); if (RT_SUCCESS(rc)) { RTHANDLE hStdOut; PRTHANDLE phStdOut; rc = vgsvcGstCtrlProcessSetupPipe( (pProcess->StartupInfo.uFlags & EXECUTEPROCESSFLAG_WAIT_STDOUT) ? "|" : "/dev/null", 1 /*STDOUT_FILENO*/, &hStdOut, &phStdOut, &pProcess->hPipeStdOutR); if (RT_SUCCESS(rc)) { RTHANDLE hStdErr; PRTHANDLE phStdErr; rc = vgsvcGstCtrlProcessSetupPipe( (pProcess->StartupInfo.uFlags & EXECUTEPROCESSFLAG_WAIT_STDERR) ? "|" : "/dev/null", 2 /*STDERR_FILENO*/, &hStdErr, &phStdErr, &pProcess->hPipeStdErrR); if (RT_SUCCESS(rc)) { /* * Create a poll set for the pipes and let the * transport layer add stuff to it as well. */ rc = RTPollSetCreate(&pProcess->hPollSet); if (RT_SUCCESS(rc)) { uint32_t uFlags = RTPOLL_EVT_ERROR; #if 0 /* Add reading event to pollset to get some more information. */ uFlags |= RTPOLL_EVT_READ; #endif /* Stdin. */ if (RT_SUCCESS(rc)) rc = RTPollSetAddPipe(pProcess->hPollSet, pProcess->hPipeStdInW, RTPOLL_EVT_ERROR, VBOXSERVICECTRLPIPEID_STDIN); /* Stdout. */ if (RT_SUCCESS(rc)) rc = RTPollSetAddPipe(pProcess->hPollSet, pProcess->hPipeStdOutR, uFlags, VBOXSERVICECTRLPIPEID_STDOUT); /* Stderr. */ if (RT_SUCCESS(rc)) rc = RTPollSetAddPipe(pProcess->hPollSet, pProcess->hPipeStdErrR, uFlags, VBOXSERVICECTRLPIPEID_STDERR); /* IPC notification pipe. */ if (RT_SUCCESS(rc)) rc = RTPipeCreate(&pProcess->hNotificationPipeR, &pProcess->hNotificationPipeW, 0 /* Flags */); if (RT_SUCCESS(rc)) rc = RTPollSetAddPipe(pProcess->hPollSet, pProcess->hNotificationPipeR, RTPOLL_EVT_READ, VBOXSERVICECTRLPIPEID_IPC_NOTIFY); if (RT_SUCCESS(rc)) { AssertPtr(pProcess->pSession); bool fNeedsImpersonation = !(pProcess->pSession->fFlags & VBOXSERVICECTRLSESSION_FLAG_SPAWN); rc = vgsvcGstCtrlProcessCreateProcess(pProcess->StartupInfo.szCmd, papszArgs, hEnv, pProcess->StartupInfo.uFlags, phStdIn, phStdOut, phStdErr, fNeedsImpersonation ? pProcess->StartupInfo.szUser : NULL, fNeedsImpersonation ? pProcess->StartupInfo.szPassword : NULL, fNeedsImpersonation ? pProcess->StartupInfo.szDomain : NULL, &pProcess->hProcess); if (RT_FAILURE(rc)) VGSvcError("Error starting process, rc=%Rrc\n", rc); /* * Tell the session thread that it can continue * spawning guest processes. This needs to be done after the new * process has been started because otherwise signal handling * on (Open) Solaris does not work correctly (see @bugref{5068}). */ int rc2 = RTThreadUserSignal(RTThreadSelf()); if (RT_SUCCESS(rc)) rc = rc2; fSignalled = true; if (RT_SUCCESS(rc)) { /* * Close the child ends of any pipes and redirected files. */ rc2 = RTHandleClose(phStdIn); AssertRC(rc2); phStdIn = NULL; rc2 = RTHandleClose(phStdOut); AssertRC(rc2); phStdOut = NULL; rc2 = RTHandleClose(phStdErr); AssertRC(rc2); phStdErr = NULL; /* Enter the process main loop. */ rc = vgsvcGstCtrlProcessProcLoop(pProcess); /* * The handles that are no longer in the set have * been closed by the above call in order to prevent * the guest from getting stuck accessing them. * So, NIL the handles to avoid closing them again. */ /** @todo r=bird: Can't see how hNotificationPipeR could be closed here! Found (and fixed) * confused comments documenting hNotificationPipeW, probably related. */ if (RT_FAILURE(RTPollSetQueryHandle(pProcess->hPollSet, VBOXSERVICECTRLPIPEID_IPC_NOTIFY, NULL))) { pProcess->hNotificationPipeR = NIL_RTPIPE; pProcess->hNotificationPipeW = NIL_RTPIPE; } if (RT_FAILURE(RTPollSetQueryHandle(pProcess->hPollSet, VBOXSERVICECTRLPIPEID_STDERR, NULL))) pProcess->hPipeStdErrR = NIL_RTPIPE; if (RT_FAILURE(RTPollSetQueryHandle(pProcess->hPollSet, VBOXSERVICECTRLPIPEID_STDOUT, NULL))) pProcess->hPipeStdOutR = NIL_RTPIPE; if (RT_FAILURE(RTPollSetQueryHandle(pProcess->hPollSet, VBOXSERVICECTRLPIPEID_STDIN, NULL))) pProcess->hPipeStdInW = NIL_RTPIPE; } } RTPollSetDestroy(pProcess->hPollSet); RTPipeClose(pProcess->hNotificationPipeR); pProcess->hNotificationPipeR = NIL_RTPIPE; RTPipeClose(pProcess->hNotificationPipeW); pProcess->hNotificationPipeW = NIL_RTPIPE; } RTPipeClose(pProcess->hPipeStdErrR); pProcess->hPipeStdErrR = NIL_RTPIPE; RTHandleClose(phStdErr); if (phStdErr) RTHandleClose(phStdErr); } RTPipeClose(pProcess->hPipeStdOutR); pProcess->hPipeStdOutR = NIL_RTPIPE; RTHandleClose(&hStdOut); if (phStdOut) RTHandleClose(phStdOut); } RTPipeClose(pProcess->hPipeStdInW); pProcess->hPipeStdInW = NIL_RTPIPE; RTHandleClose(phStdIn); } } RTEnvDestroy(hEnv); } } if (RT_FAILURE(rc)) { VBGLR3GUESTCTRLCMDCTX ctx = { g_idControlSvcClient, pProcess->uContextID }; int rc2 = VbglR3GuestCtrlProcCbStatus(&ctx, pProcess->uPID, PROC_STS_ERROR, rc, NULL /* pvData */, 0 /* cbData */); if ( RT_FAILURE(rc2) && rc2 != VERR_NOT_FOUND) VGSvcError("[PID %RU32]: Could not report process failure error; rc=%Rrc (process error %Rrc)\n", pProcess->uPID, rc2, rc); } /* Free argument + environment variable lists. */ if (uNumEnvVars) { for (uint32_t i = 0; i < uNumEnvVars; i++) RTStrFree(papszEnv[i]); RTMemFree(papszEnv); } if (cArgs) RTGetOptArgvFree(papszArgs); /* * If something went wrong signal the user event so that others don't wait * forever on this thread. */ if (RT_FAILURE(rc) && !fSignalled) RTThreadUserSignal(RTThreadSelf()); VGSvcVerbose(3, "[PID %RU32]: Thread of process '%s' ended with rc=%Rrc\n", pProcess->uPID, pProcess->StartupInfo.szCmd, rc); /* Finally, update stopped status. */ ASMAtomicWriteBool(&pProcess->fStopped, true); ASMAtomicWriteBool(&pProcess->fShutdown, true); return rc; } static int vgsvcGstCtrlProcessLock(PVBOXSERVICECTRLPROCESS pProcess) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); int rc = RTCritSectEnter(&pProcess->CritSect); AssertRC(rc); return rc; } /** * Thread main routine for a started process. * * @return IPRT status code. * @param hThreadSelf The thread handle. * @param pvUser Pointer to a VBOXSERVICECTRLPROCESS structure. * */ static DECLCALLBACK(int) vgsvcGstCtrlProcessThread(RTTHREAD hThreadSelf, void *pvUser) { RT_NOREF1(hThreadSelf); PVBOXSERVICECTRLPROCESS pProcess = (PVBOXSERVICECTRLPROCESS)pvUser; AssertPtrReturn(pProcess, VERR_INVALID_POINTER); return vgsvcGstCtrlProcessProcessWorker(pProcess); } static int vgsvcGstCtrlProcessUnlock(PVBOXSERVICECTRLPROCESS pProcess) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); int rc = RTCritSectLeave(&pProcess->CritSect); AssertRC(rc); return rc; } /** * Executes (starts) a process on the guest. This causes a new thread to be created * so that this function will not block the overall program execution. * * @return IPRT status code. * @param pSession Guest session. * @param pStartupInfo Startup info. * @param uContextID Context ID to associate the process to start with. */ int VGSvcGstCtrlProcessStart(const PVBOXSERVICECTRLSESSION pSession, const PVBOXSERVICECTRLPROCSTARTUPINFO pStartupInfo, uint32_t uContextID) { AssertPtrReturn(pSession, VERR_INVALID_POINTER); AssertPtrReturn(pStartupInfo, VERR_INVALID_POINTER); /* * Allocate new thread data and assign it to our thread list. */ PVBOXSERVICECTRLPROCESS pProcess = (PVBOXSERVICECTRLPROCESS)RTMemAlloc(sizeof(VBOXSERVICECTRLPROCESS)); if (!pProcess) return VERR_NO_MEMORY; int rc = vgsvcGstCtrlProcessInit(pProcess, pSession, pStartupInfo, uContextID); if (RT_SUCCESS(rc)) { static uint32_t s_uCtrlExecThread = 0; if (s_uCtrlExecThread++ == UINT32_MAX) /** @todo r=bird: ????????????? */ s_uCtrlExecThread = 0; /* Wrap around to not let IPRT freak out. */ rc = RTThreadCreateF(&pProcess->Thread, vgsvcGstCtrlProcessThread, pProcess /*pvUser*/, 0 /*cbStack*/, RTTHREADTYPE_DEFAULT, RTTHREADFLAGS_WAITABLE, "gctl%u", s_uCtrlExecThread); if (RT_FAILURE(rc)) { VGSvcError("Creating thread for guest process '%s' failed: rc=%Rrc, pProcess=%p\n", pStartupInfo->szCmd, rc, pProcess); VGSvcGstCtrlProcessFree(pProcess); } else { VGSvcVerbose(4, "Waiting for thread to initialize ...\n"); /* Wait for the thread to initialize. */ rc = RTThreadUserWait(pProcess->Thread, 60 * 1000 /* 60 seconds max. */); AssertRC(rc); if ( ASMAtomicReadBool(&pProcess->fShutdown) || ASMAtomicReadBool(&pProcess->fStopped) || RT_FAILURE(rc)) { VGSvcError("Thread for process '%s' failed to start, rc=%Rrc\n", pStartupInfo->szCmd, rc); int rc2 = RTThreadWait(pProcess->Thread, RT_MS_1SEC * 30, NULL); if (RT_SUCCESS(rc2)) pProcess->Thread = NIL_RTTHREAD; VGSvcGstCtrlProcessFree(pProcess); } else { ASMAtomicXchgBool(&pProcess->fStarted, true); } } } return rc; } static DECLCALLBACK(int) vgsvcGstCtrlProcessOnInput(PVBOXSERVICECTRLPROCESS pThis, const PVBGLR3GUESTCTRLCMDCTX pHostCtx, bool fPendingClose, void *pvBuf, uint32_t cbBuf) { AssertPtrReturn(pThis, VERR_INVALID_POINTER); AssertPtrReturn(pHostCtx, VERR_INVALID_POINTER); int rc; size_t cbWritten = 0; if (pvBuf && cbBuf) { if (pThis->hPipeStdInW != NIL_RTPIPE) rc = RTPipeWrite(pThis->hPipeStdInW, pvBuf, cbBuf, &cbWritten); else rc = VINF_EOF; } else rc = VERR_INVALID_PARAMETER; /* * If this is the last write + we have really have written all data * we need to close the stdin pipe on our end and remove it from * the poll set. */ if ( fPendingClose && cbBuf == cbWritten) { int rc2 = vgsvcGstCtrlProcessPollsetCloseInput(pThis, &pThis->hPipeStdInW); if (RT_SUCCESS(rc)) rc = rc2; } uint32_t uStatus = INPUT_STS_UNDEFINED; /* Status to send back to the host. */ uint32_t fFlags = 0; /* No flags at the moment. */ if (RT_SUCCESS(rc)) { VGSvcVerbose(4, "[PID %RU32]: Written %RU32 bytes input, CID=%RU32, fPendingClose=%RTbool\n", pThis->uPID, cbWritten, pHostCtx->uContextID, fPendingClose); uStatus = INPUT_STS_WRITTEN; } else { if (rc == VERR_BAD_PIPE) uStatus = INPUT_STS_TERMINATED; else if (rc == VERR_BUFFER_OVERFLOW) uStatus = INPUT_STS_OVERFLOW; /* else undefined */ } /* * If there was an error and we did not set the host status * yet, then do it now. */ if ( RT_FAILURE(rc) && uStatus == INPUT_STS_UNDEFINED) { uStatus = INPUT_STS_ERROR; fFlags = rc; /* funny thing to call a "flag"... */ } Assert(uStatus > INPUT_STS_UNDEFINED); int rc2 = VbglR3GuestCtrlProcCbStatusInput(pHostCtx, pThis->uPID, uStatus, fFlags, (uint32_t)cbWritten); if (RT_SUCCESS(rc)) rc = rc2; #ifdef DEBUG VGSvcVerbose(3, "[PID %RU32]: vgsvcGstCtrlProcessOnInput returned with rc=%Rrc\n", pThis->uPID, rc); #endif return VINF_SUCCESS; /** @todo Return rc here as soon as RTReqQueue todos are fixed. */ } static DECLCALLBACK(int) vgsvcGstCtrlProcessOnOutput(PVBOXSERVICECTRLPROCESS pThis, const PVBGLR3GUESTCTRLCMDCTX pHostCtx, uint32_t uHandle, uint32_t cbToRead, uint32_t fFlags) { AssertPtrReturn(pThis, VERR_INVALID_POINTER); AssertPtrReturn(pHostCtx, VERR_INVALID_POINTER); const PVBOXSERVICECTRLSESSION pSession = pThis->pSession; AssertPtrReturn(pSession, VERR_INVALID_POINTER); int rc; uint32_t cbBuf = cbToRead; uint8_t *pvBuf = (uint8_t *)RTMemAlloc(cbBuf); if (pvBuf) { PRTPIPE phPipe = uHandle == OUTPUT_HANDLE_ID_STDOUT ? &pThis->hPipeStdOutR : &pThis->hPipeStdErrR; AssertPtr(phPipe); size_t cbRead = 0; if (*phPipe != NIL_RTPIPE) { rc = RTPipeRead(*phPipe, pvBuf, cbBuf, &cbRead); if (RT_FAILURE(rc)) { RTPollSetRemove(pThis->hPollSet, uHandle == OUTPUT_HANDLE_ID_STDERR ? VBOXSERVICECTRLPIPEID_STDERR : VBOXSERVICECTRLPIPEID_STDOUT); RTPipeClose(*phPipe); *phPipe = NIL_RTPIPE; if (rc == VERR_BROKEN_PIPE) rc = VINF_EOF; } } else rc = VINF_EOF; #ifdef DEBUG if (RT_SUCCESS(rc)) { if ( pSession->fFlags & VBOXSERVICECTRLSESSION_FLAG_DUMPSTDOUT && ( uHandle == OUTPUT_HANDLE_ID_STDOUT || uHandle == OUTPUT_HANDLE_ID_STDOUT_DEPRECATED) ) { /** @todo r=bird: vgsvcGstCtrlProcessDumpToFile(void *pvBuf, size_t cbBuf, const char *pszFileNmFmt, ...) */ char szDumpFile[RTPATH_MAX]; if (!RTStrPrintf(szDumpFile, sizeof(szDumpFile), "VBoxService_Session%RU32_PID%RU32_StdOut.txt", pSession->StartupInfo.uSessionID, pThis->uPID)) rc = VERR_BUFFER_UNDERFLOW; if (RT_SUCCESS(rc)) rc = vgsvcGstCtrlProcessDumpToFile(szDumpFile, pvBuf, cbRead); AssertRC(rc); } else if ( pSession->fFlags & VBOXSERVICECTRLSESSION_FLAG_DUMPSTDERR && uHandle == OUTPUT_HANDLE_ID_STDERR) { char szDumpFile[RTPATH_MAX]; if (!RTStrPrintf(szDumpFile, sizeof(szDumpFile), "VBoxService_Session%RU32_PID%RU32_StdErr.txt", pSession->StartupInfo.uSessionID, pThis->uPID)) rc = VERR_BUFFER_UNDERFLOW; if (RT_SUCCESS(rc)) rc = vgsvcGstCtrlProcessDumpToFile(szDumpFile, pvBuf, cbRead); AssertRC(rc); } } #endif if (RT_SUCCESS(rc)) { #ifdef DEBUG VGSvcVerbose(3, "[PID %RU32]: Read %RU32 bytes output: uHandle=%RU32, CID=%RU32, fFlags=%x\n", pThis->uPID, cbRead, uHandle, pHostCtx->uContextID, fFlags); #endif /** Note: Don't convert/touch/modify/whatever the output data here! This might be binary * data which the host needs to work with -- so just pass through all data unfiltered! */ /* Note: Since the context ID is unique the request *has* to be completed here, * regardless whether we got data or not! Otherwise the waiting events * on the host never will get completed! */ Assert((uint32_t)cbRead == cbRead); rc = VbglR3GuestCtrlProcCbOutput(pHostCtx, pThis->uPID, uHandle, fFlags, pvBuf, (uint32_t)cbRead); if ( RT_FAILURE(rc) && rc == VERR_NOT_FOUND) /* Not critical if guest PID is not found on the host (anymore). */ rc = VINF_SUCCESS; } RTMemFree(pvBuf); } else rc = VERR_NO_MEMORY; #ifdef DEBUG VGSvcVerbose(3, "[PID %RU32]: Reading output returned with rc=%Rrc\n", pThis->uPID, rc); #endif return VINF_SUCCESS; /** @todo Return rc here as soon as RTReqQueue todos are fixed. */ } static DECLCALLBACK(int) vgsvcGstCtrlProcessOnTerm(PVBOXSERVICECTRLPROCESS pThis) { AssertPtrReturn(pThis, VERR_INVALID_POINTER); if (!ASMAtomicXchgBool(&pThis->fShutdown, true)) VGSvcVerbose(3, "[PID %RU32]: Setting shutdown flag ...\n", pThis->uPID); return VINF_SUCCESS; /** @todo Return rc here as soon as RTReqQueue todos are fixed. */ } static int vgsvcGstCtrlProcessRequestExV(PVBOXSERVICECTRLPROCESS pProcess, const PVBGLR3GUESTCTRLCMDCTX pHostCtx, bool fAsync, RTMSINTERVAL uTimeoutMS, PRTREQ pReq, PFNRT pfnFunction, unsigned cArgs, va_list Args) { RT_NOREF1(pHostCtx); AssertPtrReturn(pProcess, VERR_INVALID_POINTER); /* pHostCtx is optional. */ AssertPtrReturn(pfnFunction, VERR_INVALID_POINTER); if (!fAsync) AssertPtrReturn(pfnFunction, VERR_INVALID_POINTER); int rc = vgsvcGstCtrlProcessLock(pProcess); if (RT_SUCCESS(rc)) { #ifdef DEBUG VGSvcVerbose(3, "[PID %RU32]: vgsvcGstCtrlProcessRequestExV fAsync=%RTbool, uTimeoutMS=%RU32, cArgs=%u\n", pProcess->uPID, fAsync, uTimeoutMS, cArgs); #endif uint32_t fFlags = RTREQFLAGS_IPRT_STATUS; if (fAsync) { Assert(uTimeoutMS == 0); fFlags |= RTREQFLAGS_NO_WAIT; } rc = RTReqQueueCallV(pProcess->hReqQueue, &pReq, uTimeoutMS, fFlags, pfnFunction, cArgs, Args); if (RT_SUCCESS(rc)) { /* Wake up the process' notification pipe to get * the request being processed. */ Assert(pProcess->hNotificationPipeW != NIL_RTPIPE || pProcess->fShutdown /* latter in case of race */); size_t cbWritten = 0; rc = RTPipeWrite(pProcess->hNotificationPipeW, "i", 1, &cbWritten); if ( RT_SUCCESS(rc) && cbWritten != 1) { VGSvcError("[PID %RU32]: Notification pipe got %zu bytes instead of 1\n", pProcess->uPID, cbWritten); } else if (RT_UNLIKELY(RT_FAILURE(rc))) VGSvcError("[PID %RU32]: Writing to notification pipe failed, rc=%Rrc\n", pProcess->uPID, rc); } else VGSvcError("[PID %RU32]: RTReqQueueCallV failed, rc=%Rrc\n", pProcess->uPID, rc); int rc2 = vgsvcGstCtrlProcessUnlock(pProcess); if (RT_SUCCESS(rc)) rc = rc2; } #ifdef DEBUG VGSvcVerbose(3, "[PID %RU32]: vgsvcGstCtrlProcessRequestExV returned rc=%Rrc\n", pProcess->uPID, rc); #endif return rc; } static int vgsvcGstCtrlProcessRequestAsync(PVBOXSERVICECTRLPROCESS pProcess, const PVBGLR3GUESTCTRLCMDCTX pHostCtx, PFNRT pfnFunction, unsigned cArgs, ...) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); /* pHostCtx is optional. */ AssertPtrReturn(pfnFunction, VERR_INVALID_POINTER); va_list va; va_start(va, cArgs); int rc = vgsvcGstCtrlProcessRequestExV(pProcess, pHostCtx, true /* fAsync */, 0 /* uTimeoutMS */, NULL /* pReq */, pfnFunction, cArgs, va); va_end(va); return rc; } #if 0 /* unused */ static int vgsvcGstCtrlProcessRequestWait(PVBOXSERVICECTRLPROCESS pProcess, const PVBGLR3GUESTCTRLCMDCTX pHostCtx, RTMSINTERVAL uTimeoutMS, PRTREQ pReq, PFNRT pfnFunction, unsigned cArgs, ...) { AssertPtrReturn(pProcess, VERR_INVALID_POINTER); /* pHostCtx is optional. */ AssertPtrReturn(pfnFunction, VERR_INVALID_POINTER); va_list va; va_start(va, cArgs); int rc = vgsvcGstCtrlProcessRequestExV(pProcess, pHostCtx, false /* fAsync */, uTimeoutMS, pReq, pfnFunction, cArgs, va); va_end(va); return rc; } #endif int VGSvcGstCtrlProcessHandleInput(PVBOXSERVICECTRLPROCESS pProcess, PVBGLR3GUESTCTRLCMDCTX pHostCtx, bool fPendingClose, void *pvBuf, uint32_t cbBuf) { if (!ASMAtomicReadBool(&pProcess->fShutdown) && !ASMAtomicReadBool(&pProcess->fStopped)) return vgsvcGstCtrlProcessRequestAsync(pProcess, pHostCtx, (PFNRT)vgsvcGstCtrlProcessOnInput, 5 /* cArgs */, pProcess, pHostCtx, fPendingClose, pvBuf, cbBuf); return vgsvcGstCtrlProcessOnInput(pProcess, pHostCtx, fPendingClose, pvBuf, cbBuf); } int VGSvcGstCtrlProcessHandleOutput(PVBOXSERVICECTRLPROCESS pProcess, PVBGLR3GUESTCTRLCMDCTX pHostCtx, uint32_t uHandle, uint32_t cbToRead, uint32_t fFlags) { if (!ASMAtomicReadBool(&pProcess->fShutdown) && !ASMAtomicReadBool(&pProcess->fStopped)) return vgsvcGstCtrlProcessRequestAsync(pProcess, pHostCtx, (PFNRT)vgsvcGstCtrlProcessOnOutput, 5 /* cArgs */, pProcess, pHostCtx, uHandle, cbToRead, fFlags); return vgsvcGstCtrlProcessOnOutput(pProcess, pHostCtx, uHandle, cbToRead, fFlags); } int VGSvcGstCtrlProcessHandleTerm(PVBOXSERVICECTRLPROCESS pProcess) { if (!ASMAtomicReadBool(&pProcess->fShutdown) && !ASMAtomicReadBool(&pProcess->fStopped)) return vgsvcGstCtrlProcessRequestAsync(pProcess, NULL /* pHostCtx */, (PFNRT)vgsvcGstCtrlProcessOnTerm, 1 /* cArgs */, pProcess); return vgsvcGstCtrlProcessOnTerm(pProcess); }