/* $Id: PDMR0Device.cpp 84459 2020-05-22 12:55:07Z vboxsync $ */ /** @file * PDM - Pluggable Device and Driver Manager, R0 Device parts. */ /* * Copyright (C) 2006-2020 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #define LOG_GROUP LOG_GROUP_PDM_DEVICE #define PDMPCIDEV_INCLUDE_PRIVATE /* Hack to get pdmpcidevint.h included at the right point. */ #include "PDMInternal.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dtrace/VBoxVMM.h" #include "PDMInline.h" /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ RT_C_DECLS_BEGIN extern DECLEXPORT(const PDMDEVHLPR0) g_pdmR0DevHlp; #ifdef VBOX_WITH_DBGF_TRACING extern DECLEXPORT(const PDMDEVHLPR0) g_pdmR0DevHlpTracing; #endif extern DECLEXPORT(const PDMPICHLP) g_pdmR0PicHlp; extern DECLEXPORT(const PDMIOAPICHLP) g_pdmR0IoApicHlp; extern DECLEXPORT(const PDMPCIHLPR0) g_pdmR0PciHlp; extern DECLEXPORT(const PDMIOMMUHLPR0) g_pdmR0IommuHlp; extern DECLEXPORT(const PDMHPETHLPR0) g_pdmR0HpetHlp; extern DECLEXPORT(const PDMPCIRAWHLPR0) g_pdmR0PciRawHlp; RT_C_DECLS_END /** List of PDMDEVMODREGR0 structures protected by the loader lock. */ static RTLISTANCHOR g_PDMDevModList; /** * Pointer to the ring-0 device registrations for VMMR0. */ static const PDMDEVREGR0 *g_apVMM0DevRegs[] = { &g_DeviceAPIC, }; /** * Module device registration record for VMMR0. */ static PDMDEVMODREGR0 g_VBoxDDR0ModDevReg = { /* .u32Version = */ PDM_DEVMODREGR0_VERSION, /* .cDevRegs = */ RT_ELEMENTS(g_apVMM0DevRegs), /* .papDevRegs = */ &g_apVMM0DevRegs[0], /* .hMod = */ NULL, /* .ListEntry = */ { NULL, NULL }, }; /********************************************************************************************************************************* * Internal Functions * *********************************************************************************************************************************/ /** * Initializes the global ring-0 PDM data. */ VMMR0_INT_DECL(void) PDMR0Init(void *hMod) { RTListInit(&g_PDMDevModList); g_VBoxDDR0ModDevReg.hMod = hMod; RTListAppend(&g_PDMDevModList, &g_VBoxDDR0ModDevReg.ListEntry); } /** * Used by PDMR0CleanupVM to destroy a device instance. * * This is done during VM cleanup so that we're sure there are no active threads * inside the device code. * * @param pGVM The global (ring-0) VM structure. * @param pDevIns The device instance. * @param idxR0Device The device instance handle. */ static int pdmR0DeviceDestroy(PGVM pGVM, PPDMDEVINSR0 pDevIns, uint32_t idxR0Device) { /* * Assert sanity. */ Assert(idxR0Device < pGVM->pdmr0.s.cDevInstances); AssertPtrReturn(pDevIns, VERR_INVALID_HANDLE); Assert(pDevIns->u32Version == PDM_DEVINSR0_VERSION); Assert(pDevIns->Internal.s.idxR0Device == idxR0Device); /* * Call the final destructor if there is one. */ if (pDevIns->pReg->pfnFinalDestruct) pDevIns->pReg->pfnFinalDestruct(pDevIns); pDevIns->u32Version = ~PDM_DEVINSR0_VERSION; /* * Remove the device from the instance table. */ Assert(pGVM->pdmr0.s.apDevInstances[idxR0Device] == pDevIns); pGVM->pdmr0.s.apDevInstances[idxR0Device] = NULL; if (idxR0Device + 1 == pGVM->pdmr0.s.cDevInstances) pGVM->pdmr0.s.cDevInstances = idxR0Device; /* * Free the DBGF tracing tracking structures if necessary. */ if (pDevIns->Internal.s.hDbgfTraceEvtSrc != NIL_DBGFTRACEREVTSRC) { RTR0MemObjFree(pDevIns->Internal.s.hDbgfTraceObj, true); pDevIns->Internal.s.hDbgfTraceObj = NIL_RTR0MEMOBJ; } /* * Free the ring-3 mapping and instance memory. */ RTR0MEMOBJ hMemObj = pDevIns->Internal.s.hMapObj; pDevIns->Internal.s.hMapObj = NIL_RTR0MEMOBJ; RTR0MemObjFree(hMemObj, true); hMemObj = pDevIns->Internal.s.hMemObj; pDevIns->Internal.s.hMemObj = NIL_RTR0MEMOBJ; RTR0MemObjFree(hMemObj, true); return VINF_SUCCESS; } /** * Initializes the per-VM data for the PDM. * * This is called from under the GVMM lock, so it only need to initialize the * data so PDMR0CleanupVM and others will work smoothly. * * @param pGVM Pointer to the global VM structure. */ VMMR0_INT_DECL(void) PDMR0InitPerVMData(PGVM pGVM) { AssertCompile(sizeof(pGVM->pdm.s) <= sizeof(pGVM->pdm.padding)); AssertCompile(sizeof(pGVM->pdmr0.s) <= sizeof(pGVM->pdmr0.padding)); pGVM->pdmr0.s.cDevInstances = 0; } /** * Cleans up any loose ends before the GVM structure is destroyed. */ VMMR0_INT_DECL(void) PDMR0CleanupVM(PGVM pGVM) { uint32_t i = pGVM->pdmr0.s.cDevInstances; while (i-- > 0) { PPDMDEVINSR0 pDevIns = pGVM->pdmr0.s.apDevInstances[i]; if (pDevIns) pdmR0DeviceDestroy(pGVM, pDevIns, i); } } /** * Worker for PDMR0DeviceCreate that does the actual instantiation. * * Allocates a memory object and divides it up as follows: * @verbatim -------------------------------------- ring-0 devins -------------------------------------- ring-0 instance data -------------------------------------- ring-0 PCI device data (optional) ?? -------------------------------------- page alignment padding -------------------------------------- ring-3 devins -------------------------------------- ring-3 instance data -------------------------------------- ring-3 PCI device data (optional) ?? -------------------------------------- [page alignment padding ] - [--------------------------------------] \ [raw-mode devins ] \ [--------------------------------------] - Optional, only when raw-mode is enabled. [raw-mode instance data ] / [--------------------------------------] / [raw-mode PCI device data (optional)?? ] - -------------------------------------- shared instance data -------------------------------------- default crit section -------------------------------------- shared PCI device data (optional) -------------------------------------- @endverbatim * * @returns VBox status code. * @param pGVM The global (ring-0) VM structure. * @param pDevReg The device registration structure. * @param iInstance The device instance number. * @param cbInstanceR3 The size of the ring-3 instance data. * @param cbInstanceRC The size of the raw-mode instance data. * @param hMod The module implementing the device. * @param hDbgfTraceEvtSrc The DBGF tarcer event source handle. * @param RCPtrMapping The raw-mode context mapping address, NIL_RTGCPTR if * not to include raw-mode. * @param ppDevInsR3 Where to return the ring-3 device instance address. * @thread EMT(0) */ static int pdmR0DeviceCreateWorker(PGVM pGVM, PCPDMDEVREGR0 pDevReg, uint32_t iInstance, uint32_t cbInstanceR3, uint32_t cbInstanceRC, RTRGPTR RCPtrMapping, DBGFTRACEREVTSRC hDbgfTraceEvtSrc, void *hMod, PPDMDEVINSR3 *ppDevInsR3) { /* * Check that the instance number isn't a duplicate. */ for (size_t i = 0; i < pGVM->pdmr0.s.cDevInstances; i++) { PPDMDEVINS pCur = pGVM->pdmr0.s.apDevInstances[i]; AssertLogRelReturn(!pCur || pCur->pReg != pDevReg || pCur->iInstance != iInstance, VERR_DUPLICATE); } /* * Figure out how much memory we need and allocate it. */ uint32_t const cbRing0 = RT_ALIGN_32(RT_UOFFSETOF(PDMDEVINSR0, achInstanceData) + pDevReg->cbInstanceCC, PAGE_SIZE); uint32_t const cbRing3 = RT_ALIGN_32(RT_UOFFSETOF(PDMDEVINSR3, achInstanceData) + cbInstanceR3, RCPtrMapping != NIL_RTRGPTR ? PAGE_SIZE : 64); uint32_t const cbRC = RCPtrMapping != NIL_RTRGPTR ? 0 : RT_ALIGN_32(RT_UOFFSETOF(PDMDEVINSRC, achInstanceData) + cbInstanceRC, 64); uint32_t const cbShared = RT_ALIGN_32(pDevReg->cbInstanceShared, 64); uint32_t const cbCritSect = RT_ALIGN_32(sizeof(PDMCRITSECT), 64); uint32_t const cbMsixState = RT_ALIGN_32(pDevReg->cMaxMsixVectors * 16 + (pDevReg->cMaxMsixVectors + 7) / 8, _4K); uint32_t const cbPciDev = RT_ALIGN_32(RT_UOFFSETOF_DYN(PDMPCIDEV, abMsixState[cbMsixState]), 64); uint32_t const cPciDevs = RT_MIN(pDevReg->cMaxPciDevices, 8); uint32_t const cbPciDevs = cbPciDev * cPciDevs; uint32_t const cbTotal = RT_ALIGN_32(cbRing0 + cbRing3 + cbRC + cbShared + cbCritSect + cbPciDevs, PAGE_SIZE); AssertLogRelMsgReturn(cbTotal <= PDM_MAX_DEVICE_INSTANCE_SIZE, ("Instance of '%s' is too big: cbTotal=%u, max %u\n", pDevReg->szName, cbTotal, PDM_MAX_DEVICE_INSTANCE_SIZE), VERR_OUT_OF_RANGE); RTR0MEMOBJ hMemObj; int rc = RTR0MemObjAllocPage(&hMemObj, cbTotal, false /*fExecutable*/); if (RT_FAILURE(rc)) return rc; RT_BZERO(RTR0MemObjAddress(hMemObj), cbTotal); /* Map it. */ RTR0MEMOBJ hMapObj; rc = RTR0MemObjMapUserEx(&hMapObj, hMemObj, (RTR3PTR)-1, 0, RTMEM_PROT_READ | RTMEM_PROT_WRITE, RTR0ProcHandleSelf(), cbRing0, cbTotal - cbRing0); if (RT_SUCCESS(rc)) { PPDMDEVINSR0 pDevIns = (PPDMDEVINSR0)RTR0MemObjAddress(hMemObj); struct PDMDEVINSR3 *pDevInsR3 = (struct PDMDEVINSR3 *)((uint8_t *)pDevIns + cbRing0); /* * Initialize the ring-0 instance. */ pDevIns->u32Version = PDM_DEVINSR0_VERSION; pDevIns->iInstance = iInstance; #ifdef VBOX_WITH_DBGF_TRACING pDevIns->pHlpR0 = hDbgfTraceEvtSrc == NIL_DBGFTRACEREVTSRC ? &g_pdmR0DevHlp : &g_pdmR0DevHlpTracing; #else pDevIns->pHlpR0 = &g_pdmR0DevHlp; #endif pDevIns->pvInstanceDataR0 = (uint8_t *)pDevIns + cbRing0 + cbRing3 + cbRC; pDevIns->pvInstanceDataForR0 = &pDevIns->achInstanceData[0]; pDevIns->pCritSectRoR0 = (PPDMCRITSECT)((uint8_t *)pDevIns->pvInstanceDataR0 + cbShared); pDevIns->pReg = pDevReg; pDevIns->pDevInsForR3 = RTR0MemObjAddressR3(hMapObj); pDevIns->pDevInsForR3R0 = pDevInsR3; pDevIns->pvInstanceDataForR3R0 = &pDevInsR3->achInstanceData[0]; pDevIns->cbPciDev = cbPciDev; pDevIns->cPciDevs = cPciDevs; for (uint32_t iPciDev = 0; iPciDev < cPciDevs; iPciDev++) { /* Note! PDMDevice.cpp has a copy of this code. Keep in sync. */ PPDMPCIDEV pPciDev = (PPDMPCIDEV)((uint8_t *)pDevIns->pCritSectRoR0 + cbCritSect + cbPciDev * iPciDev); if (iPciDev < RT_ELEMENTS(pDevIns->apPciDevs)) pDevIns->apPciDevs[iPciDev] = pPciDev; pPciDev->cbConfig = _4K; pPciDev->cbMsixState = cbMsixState; pPciDev->idxSubDev = (uint16_t)iPciDev; pPciDev->Int.s.idxSubDev = (uint16_t)iPciDev; pPciDev->u32Magic = PDMPCIDEV_MAGIC; } pDevIns->Internal.s.pGVM = pGVM; pDevIns->Internal.s.pRegR0 = pDevReg; pDevIns->Internal.s.hMod = hMod; pDevIns->Internal.s.hMemObj = hMemObj; pDevIns->Internal.s.hMapObj = hMapObj; pDevIns->Internal.s.pInsR3R0 = pDevInsR3; pDevIns->Internal.s.pIntR3R0 = &pDevInsR3->Internal.s; pDevIns->Internal.s.hDbgfTraceEvtSrc = hDbgfTraceEvtSrc; /* * Initialize the ring-3 instance data as much as we can. * Note! PDMDevice.cpp does this job for ring-3 only devices. Keep in sync. */ pDevInsR3->u32Version = PDM_DEVINSR3_VERSION; pDevInsR3->iInstance = iInstance; pDevInsR3->cbRing3 = cbTotal - cbRing0; pDevInsR3->fR0Enabled = true; pDevInsR3->fRCEnabled = RCPtrMapping != NIL_RTRGPTR; pDevInsR3->pvInstanceDataR3 = pDevIns->pDevInsForR3 + cbRing3 + cbRC; pDevInsR3->pvInstanceDataForR3 = pDevIns->pDevInsForR3 + RT_UOFFSETOF(PDMDEVINSR3, achInstanceData); pDevInsR3->pCritSectRoR3 = pDevIns->pDevInsForR3 + cbRing3 + cbRC + cbShared; pDevInsR3->pDevInsR0RemoveMe = pDevIns; pDevInsR3->pvInstanceDataR0 = pDevIns->pvInstanceDataR0; pDevInsR3->pvInstanceDataRC = RCPtrMapping == NIL_RTRGPTR ? NIL_RTRGPTR : pDevIns->pDevInsForRC + RT_UOFFSETOF(PDMDEVINSRC, achInstanceData); pDevInsR3->pDevInsForRC = pDevIns->pDevInsForRC; pDevInsR3->pDevInsForRCR3 = pDevIns->pDevInsForR3 + cbRing3; pDevInsR3->pDevInsForRCR3 = pDevInsR3->pDevInsForRCR3 + RT_UOFFSETOF(PDMDEVINSRC, achInstanceData); pDevInsR3->cbPciDev = cbPciDev; pDevInsR3->cPciDevs = cPciDevs; for (uint32_t i = 0; i < RT_MIN(cPciDevs, RT_ELEMENTS(pDevIns->apPciDevs)); i++) pDevInsR3->apPciDevs[i] = pDevInsR3->pCritSectRoR3 + cbCritSect + cbPciDev * i; pDevInsR3->Internal.s.pVMR3 = pGVM->pVMR3; pDevInsR3->Internal.s.fIntFlags = RCPtrMapping == NIL_RTRGPTR ? PDMDEVINSINT_FLAGS_R0_ENABLED : PDMDEVINSINT_FLAGS_R0_ENABLED | PDMDEVINSINT_FLAGS_RC_ENABLED; pDevInsR3->Internal.s.hDbgfTraceEvtSrc = hDbgfTraceEvtSrc; /* * Initialize the raw-mode instance data as much as possible. */ if (RCPtrMapping != NIL_RTRGPTR) { struct PDMDEVINSRC *pDevInsRC = RCPtrMapping == NIL_RTRGPTR ? NULL : (struct PDMDEVINSRC *)((uint8_t *)pDevIns + cbRing0 + cbRing3); pDevIns->pDevInsForRC = RCPtrMapping; pDevIns->pDevInsForRCR0 = pDevInsRC; pDevIns->pvInstanceDataForRCR0 = &pDevInsRC->achInstanceData[0]; pDevInsRC->u32Version = PDM_DEVINSRC_VERSION; pDevInsRC->iInstance = iInstance; pDevInsRC->pvInstanceDataRC = pDevIns->pDevInsForRC + cbRC; pDevInsRC->pvInstanceDataForRC = pDevIns->pDevInsForRC + RT_UOFFSETOF(PDMDEVINSRC, achInstanceData); pDevInsRC->pCritSectRoRC = pDevIns->pDevInsForRC + cbRC + cbShared; pDevInsRC->cbPciDev = cbPciDev; pDevInsRC->cPciDevs = cPciDevs; for (uint32_t i = 0; i < RT_MIN(cPciDevs, RT_ELEMENTS(pDevIns->apPciDevs)); i++) pDevInsRC->apPciDevs[i] = pDevInsRC->pCritSectRoRC + cbCritSect + cbPciDev * i; pDevInsRC->Internal.s.pVMRC = pGVM->pVMRC; } /* * If the device is being traced we have to set up a single page for tracking * I/O and MMIO region registrations so we can inject our own handlers. */ if (hDbgfTraceEvtSrc != NIL_DBGFTRACEREVTSRC) { pDevIns->Internal.s.hDbgfTraceObj = NIL_RTR0MEMOBJ; rc = RTR0MemObjAllocPage(&pDevIns->Internal.s.hDbgfTraceObj, PDM_MAX_DEVICE_DBGF_TRACING_TRACK, false /*fExecutable*/); if (RT_SUCCESS(rc)) { pDevIns->Internal.s.paDbgfTraceTrack = (PPDMDEVINSDBGFTRACK)RTR0MemObjAddress(pDevIns->Internal.s.hDbgfTraceObj); pDevIns->Internal.s.idxDbgfTraceTrackNext = 0; pDevIns->Internal.s.cDbgfTraceTrackMax = PDM_MAX_DEVICE_DBGF_TRACING_TRACK / sizeof(PDMDEVINSDBGFTRACK); RT_BZERO(pDevIns->Internal.s.paDbgfTraceTrack, PDM_MAX_DEVICE_DBGF_TRACING_TRACK); } } if (RT_SUCCESS(rc)) { /* * Add to the device instance array and set its handle value. */ AssertCompile(sizeof(pGVM->pdmr0.padding) == sizeof(pGVM->pdmr0)); uint32_t idxR0Device = pGVM->pdmr0.s.cDevInstances; if (idxR0Device < RT_ELEMENTS(pGVM->pdmr0.s.apDevInstances)) { pGVM->pdmr0.s.apDevInstances[idxR0Device] = pDevIns; pGVM->pdmr0.s.cDevInstances = idxR0Device + 1; pDevIns->Internal.s.idxR0Device = idxR0Device; pDevInsR3->Internal.s.idxR0Device = idxR0Device; /* * Call the early constructor if present. */ if (pDevReg->pfnEarlyConstruct) rc = pDevReg->pfnEarlyConstruct(pDevIns); if (RT_SUCCESS(rc)) { /* * We're done. */ *ppDevInsR3 = RTR0MemObjAddressR3(hMapObj); return rc; } /* * Bail out. */ if (pDevIns->pReg->pfnFinalDestruct) pDevIns->pReg->pfnFinalDestruct(pDevIns); pGVM->pdmr0.s.apDevInstances[idxR0Device] = NULL; Assert(pGVM->pdmr0.s.cDevInstances == idxR0Device + 1); pGVM->pdmr0.s.cDevInstances = idxR0Device; } } if ( hDbgfTraceEvtSrc != NIL_DBGFTRACEREVTSRC && pDevIns->Internal.s.hDbgfTraceObj != NIL_RTR0MEMOBJ) RTR0MemObjFree(pDevIns->Internal.s.hDbgfTraceObj, true); RTR0MemObjFree(hMapObj, true); } RTR0MemObjFree(hMemObj, true); return rc; } /** * Used by ring-3 PDM to create a device instance that operates both in ring-3 * and ring-0. * * Creates an instance of a device (for both ring-3 and ring-0, and optionally * raw-mode context). * * @returns VBox status code. * @param pGVM The global (ring-0) VM structure. * @param pReq Pointer to the request buffer. * @thread EMT(0) */ VMMR0_INT_DECL(int) PDMR0DeviceCreateReqHandler(PGVM pGVM, PPDMDEVICECREATEREQ pReq) { LogFlow(("PDMR0DeviceCreateReqHandler: %s in %s\n", pReq->szDevName, pReq->szModName)); /* * Validate the request. */ AssertReturn(pReq->Hdr.cbReq == sizeof(*pReq), VERR_INVALID_PARAMETER); pReq->pDevInsR3 = NIL_RTR3PTR; int rc = GVMMR0ValidateGVMandEMT(pGVM, 0); AssertRCReturn(rc, rc); AssertReturn(pReq->fFlags != 0, VERR_INVALID_FLAGS); AssertReturn(pReq->fClass != 0, VERR_WRONG_TYPE); AssertReturn(pReq->uSharedVersion != 0, VERR_INVALID_PARAMETER); AssertReturn(pReq->cbInstanceShared != 0, VERR_INVALID_PARAMETER); size_t const cchDevName = RTStrNLen(pReq->szDevName, sizeof(pReq->szDevName)); AssertReturn(cchDevName < sizeof(pReq->szDevName), VERR_NO_STRING_TERMINATOR); AssertReturn(cchDevName > 0, VERR_EMPTY_STRING); AssertReturn(cchDevName < RT_SIZEOFMEMB(PDMDEVREG, szName), VERR_NOT_FOUND); size_t const cchModName = RTStrNLen(pReq->szModName, sizeof(pReq->szModName)); AssertReturn(cchModName < sizeof(pReq->szModName), VERR_NO_STRING_TERMINATOR); AssertReturn(cchModName > 0, VERR_EMPTY_STRING); AssertReturn(pReq->cbInstanceShared <= PDM_MAX_DEVICE_INSTANCE_SIZE, VERR_OUT_OF_RANGE); AssertReturn(pReq->cbInstanceR3 <= PDM_MAX_DEVICE_INSTANCE_SIZE, VERR_OUT_OF_RANGE); AssertReturn(pReq->cbInstanceRC <= PDM_MAX_DEVICE_INSTANCE_SIZE, VERR_OUT_OF_RANGE); AssertReturn(pReq->iInstance < 1024, VERR_OUT_OF_RANGE); AssertReturn(pReq->iInstance < pReq->cMaxInstances, VERR_OUT_OF_RANGE); AssertReturn(pReq->cMaxPciDevices <= 8, VERR_OUT_OF_RANGE); AssertReturn(pReq->cMaxMsixVectors <= VBOX_MSIX_MAX_ENTRIES, VERR_OUT_OF_RANGE); /* * Reference the module. */ void *hMod = NULL; rc = SUPR0LdrModByName(pGVM->pSession, pReq->szModName, &hMod); if (RT_FAILURE(rc)) { LogRel(("PDMR0DeviceCreateReqHandler: SUPR0LdrModByName(,%s,) failed: %Rrc\n", pReq->szModName, rc)); return rc; } /* * Look for the the module and the device registration structure. */ int rcLock = SUPR0LdrLock(pGVM->pSession); AssertRC(rc); rc = VERR_NOT_FOUND; PPDMDEVMODREGR0 pMod; RTListForEach(&g_PDMDevModList, pMod, PDMDEVMODREGR0, ListEntry) { if (pMod->hMod == hMod) { /* * Found the module. We can drop the loader lock now before we * search the devices it registers. */ if (RT_SUCCESS(rcLock)) { rcLock = SUPR0LdrUnlock(pGVM->pSession); AssertRC(rcLock); } rcLock = VERR_ALREADY_RESET; PCPDMDEVREGR0 *papDevRegs = pMod->papDevRegs; size_t i = pMod->cDevRegs; while (i-- > 0) { PCPDMDEVREGR0 pDevReg = papDevRegs[i]; LogFlow(("PDMR0DeviceCreateReqHandler: candidate #%u: %s %#x\n", i, pReq->szDevName, pDevReg->u32Version)); if ( PDM_VERSION_ARE_COMPATIBLE(pDevReg->u32Version, PDM_DEVREGR0_VERSION) && pDevReg->szName[cchDevName] == '\0' && memcmp(pDevReg->szName, pReq->szDevName, cchDevName) == 0) { /* * Found the device, now check whether it matches the ring-3 registration. */ if ( pReq->uSharedVersion == pDevReg->uSharedVersion && pReq->cbInstanceShared == pDevReg->cbInstanceShared && pReq->cbInstanceRC == pDevReg->cbInstanceRC && pReq->fFlags == pDevReg->fFlags && pReq->fClass == pDevReg->fClass && pReq->cMaxInstances == pDevReg->cMaxInstances && pReq->cMaxPciDevices == pDevReg->cMaxPciDevices && pReq->cMaxMsixVectors == pDevReg->cMaxMsixVectors) { rc = pdmR0DeviceCreateWorker(pGVM, pDevReg, pReq->iInstance, pReq->cbInstanceR3, pReq->cbInstanceRC, NIL_RTRCPTR /** @todo new raw-mode */, pReq->hDbgfTracerEvtSrc, hMod, &pReq->pDevInsR3); if (RT_SUCCESS(rc)) hMod = NULL; /* keep the module reference */ } else { LogRel(("PDMR0DeviceCreate: Ring-3 does not match ring-0 device registration (%s):\n" " uSharedVersion: %#x vs %#x\n" " cbInstanceShared: %#x vs %#x\n" " cbInstanceRC: %#x vs %#x\n" " fFlags: %#x vs %#x\n" " fClass: %#x vs %#x\n" " cMaxInstances: %#x vs %#x\n" " cMaxPciDevices: %#x vs %#x\n" " cMaxMsixVectors: %#x vs %#x\n" , pReq->szDevName, pReq->uSharedVersion, pDevReg->uSharedVersion, pReq->cbInstanceShared, pDevReg->cbInstanceShared, pReq->cbInstanceRC, pDevReg->cbInstanceRC, pReq->fFlags, pDevReg->fFlags, pReq->fClass, pDevReg->fClass, pReq->cMaxInstances, pDevReg->cMaxInstances, pReq->cMaxPciDevices, pDevReg->cMaxPciDevices, pReq->cMaxMsixVectors, pDevReg->cMaxMsixVectors)); rc = VERR_INCOMPATIBLE_CONFIG; } } } break; } } if (RT_SUCCESS_NP(rcLock)) { rcLock = SUPR0LdrUnlock(pGVM->pSession); AssertRC(rcLock); } SUPR0LdrModRelease(pGVM->pSession, hMod); return rc; } /** * Used by ring-3 PDM to call standard ring-0 device methods. * * @returns VBox status code. * @param pGVM The global (ring-0) VM structure. * @param pReq Pointer to the request buffer. * @param idCpu The ID of the calling EMT. * @thread EMT(0), except for PDMDEVICEGENCALL_REQUEST which can be any EMT. */ VMMR0_INT_DECL(int) PDMR0DeviceGenCallReqHandler(PGVM pGVM, PPDMDEVICEGENCALLREQ pReq, VMCPUID idCpu) { /* * Validate the request. */ AssertReturn(pReq->Hdr.cbReq == sizeof(*pReq), VERR_INVALID_PARAMETER); int rc = GVMMR0ValidateGVMandEMT(pGVM, idCpu); AssertRCReturn(rc, rc); AssertReturn(pReq->idxR0Device < pGVM->pdmr0.s.cDevInstances, VERR_INVALID_HANDLE); PPDMDEVINSR0 pDevIns = pGVM->pdmr0.s.apDevInstances[pReq->idxR0Device]; AssertPtrReturn(pDevIns, VERR_INVALID_HANDLE); AssertReturn(pDevIns->pDevInsForR3 == pReq->pDevInsR3, VERR_INVALID_HANDLE); /* * Make the call. */ rc = VINF_SUCCESS /*VINF_NOT_IMPLEMENTED*/; switch (pReq->enmCall) { case PDMDEVICEGENCALL_CONSTRUCT: AssertMsgBreakStmt(pGVM->enmVMState < VMSTATE_CREATED, ("enmVMState=%d\n", pGVM->enmVMState), rc = VERR_INVALID_STATE); AssertReturn(idCpu == 0, VERR_VM_THREAD_NOT_EMT); if (pDevIns->pReg->pfnConstruct) rc = pDevIns->pReg->pfnConstruct(pDevIns); break; case PDMDEVICEGENCALL_DESTRUCT: AssertMsgBreakStmt(pGVM->enmVMState < VMSTATE_CREATED || pGVM->enmVMState >= VMSTATE_DESTROYING, ("enmVMState=%d\n", pGVM->enmVMState), rc = VERR_INVALID_STATE); AssertReturn(idCpu == 0, VERR_VM_THREAD_NOT_EMT); if (pDevIns->pReg->pfnDestruct) { pDevIns->pReg->pfnDestruct(pDevIns); rc = VINF_SUCCESS; } break; case PDMDEVICEGENCALL_REQUEST: if (pDevIns->pReg->pfnRequest) rc = pDevIns->pReg->pfnRequest(pDevIns, pReq->Params.Req.uReq, pReq->Params.Req.uArg); else rc = VERR_INVALID_FUNCTION; break; default: AssertMsgFailed(("enmCall=%d\n", pReq->enmCall)); rc = VERR_INVALID_FUNCTION; break; } return rc; } /** * Legacy device mode compatiblity. * * @returns VBox status code. * @param pGVM The global (ring-0) VM structure. * @param pReq Pointer to the request buffer. * @thread EMT(0) */ VMMR0_INT_DECL(int) PDMR0DeviceCompatSetCritSectReqHandler(PGVM pGVM, PPDMDEVICECOMPATSETCRITSECTREQ pReq) { /* * Validate the request. */ AssertReturn(pReq->Hdr.cbReq == sizeof(*pReq), VERR_INVALID_PARAMETER); int rc = GVMMR0ValidateGVMandEMT(pGVM, 0); AssertRCReturn(rc, rc); AssertReturn(pReq->idxR0Device < pGVM->pdmr0.s.cDevInstances, VERR_INVALID_HANDLE); PPDMDEVINSR0 pDevIns = pGVM->pdmr0.s.apDevInstances[pReq->idxR0Device]; AssertPtrReturn(pDevIns, VERR_INVALID_HANDLE); AssertReturn(pDevIns->pDevInsForR3 == pReq->pDevInsR3, VERR_INVALID_HANDLE); AssertReturn(pGVM->enmVMState == VMSTATE_CREATING, VERR_INVALID_STATE); /* * The critical section address can be in a few different places: * 1. shared data. * 2. nop section. * 3. pdm critsect. */ PPDMCRITSECT pCritSect; if (pReq->pCritSectR3 == pGVM->pVMR3 + RT_UOFFSETOF(VM, pdm.s.NopCritSect)) { pCritSect = &pGVM->pdm.s.NopCritSect; Log(("PDMR0DeviceCompatSetCritSectReqHandler: Nop - %p %#x\n", pCritSect, pCritSect->s.Core.u32Magic)); } else if (pReq->pCritSectR3 == pGVM->pVMR3 + RT_UOFFSETOF(VM, pdm.s.CritSect)) { pCritSect = &pGVM->pdm.s.CritSect; Log(("PDMR0DeviceCompatSetCritSectReqHandler: PDM - %p %#x\n", pCritSect, pCritSect->s.Core.u32Magic)); } else { size_t offCritSect = pReq->pCritSectR3 - pDevIns->pDevInsForR3R0->pvInstanceDataR3; AssertLogRelMsgReturn( offCritSect < pDevIns->pReg->cbInstanceShared && offCritSect + sizeof(PDMCRITSECT) <= pDevIns->pReg->cbInstanceShared, ("offCritSect=%p pCritSectR3=%p cbInstanceShared=%#x (%s)\n", offCritSect, pReq->pCritSectR3, pDevIns->pReg->cbInstanceShared, pDevIns->pReg->szName), VERR_INVALID_POINTER); pCritSect = (PPDMCRITSECT)((uint8_t *)pDevIns->pvInstanceDataR0 + offCritSect); Log(("PDMR0DeviceCompatSetCritSectReqHandler: custom - %#x/%p %#x\n", offCritSect, pCritSect, pCritSect->s.Core.u32Magic)); } AssertLogRelMsgReturn(pCritSect->s.Core.u32Magic == RTCRITSECT_MAGIC, ("cs=%p magic=%#x dev=%s\n", pCritSect, pCritSect->s.Core.u32Magic, pDevIns->pReg->szName), VERR_INVALID_MAGIC); /* * Make the update. */ pDevIns->pCritSectRoR0 = pCritSect; return VINF_SUCCESS; } /** * Registers the device implementations living in a module. * * This should normally only be called during ModuleInit(). The should be a * call to PDMR0DeviceDeregisterModule from the ModuleTerm() function to undo * the effects of this call. * * @returns VBox status code. * @param hMod The module handle of the module being registered. * @param pModReg The module registration structure. This will be * used directly so it must live as long as the module * and be writable. * * @note Caller must own the loader lock! */ VMMR0DECL(int) PDMR0DeviceRegisterModule(void *hMod, PPDMDEVMODREGR0 pModReg) { /* * Validate the input. */ AssertPtrReturn(hMod, VERR_INVALID_HANDLE); Assert(SUPR0LdrIsLockOwnerByMod(hMod, true)); AssertPtrReturn(pModReg, VERR_INVALID_POINTER); AssertLogRelMsgReturn(PDM_VERSION_ARE_COMPATIBLE(pModReg->u32Version, PDM_DEVMODREGR0_VERSION), ("pModReg->u32Version=%#x vs %#x\n", pModReg->u32Version, PDM_DEVMODREGR0_VERSION), VERR_VERSION_MISMATCH); AssertLogRelMsgReturn(pModReg->cDevRegs <= 256 && pModReg->cDevRegs > 0, ("cDevRegs=%u\n", pModReg->cDevRegs), VERR_OUT_OF_RANGE); AssertLogRelMsgReturn(pModReg->hMod == NULL, ("hMod=%p\n", pModReg->hMod), VERR_INVALID_PARAMETER); AssertLogRelMsgReturn(pModReg->ListEntry.pNext == NULL, ("pNext=%p\n", pModReg->ListEntry.pNext), VERR_INVALID_PARAMETER); AssertLogRelMsgReturn(pModReg->ListEntry.pPrev == NULL, ("pPrev=%p\n", pModReg->ListEntry.pPrev), VERR_INVALID_PARAMETER); for (size_t i = 0; i < pModReg->cDevRegs; i++) { PCPDMDEVREGR0 pDevReg = pModReg->papDevRegs[i]; AssertLogRelMsgReturn(RT_VALID_PTR(pDevReg), ("[%u]: %p\n", i, pDevReg), VERR_INVALID_POINTER); AssertLogRelMsgReturn(PDM_VERSION_ARE_COMPATIBLE(pDevReg->u32Version, PDM_DEVREGR0_VERSION), ("pDevReg->u32Version=%#x vs %#x\n", pModReg->u32Version, PDM_DEVREGR0_VERSION), VERR_VERSION_MISMATCH); AssertLogRelMsgReturn(RT_VALID_PTR(pDevReg->pszDescription), ("[%u]: %p\n", i, pDevReg->pszDescription), VERR_INVALID_POINTER); AssertLogRelMsgReturn(pDevReg->uReserved0 == 0, ("[%u]: %#x\n", i, pDevReg->uReserved0), VERR_INVALID_PARAMETER); AssertLogRelMsgReturn(pDevReg->fClass != 0, ("[%u]: %#x\n", i, pDevReg->fClass), VERR_INVALID_PARAMETER); AssertLogRelMsgReturn(pDevReg->fFlags != 0, ("[%u]: %#x\n", i, pDevReg->fFlags), VERR_INVALID_PARAMETER); AssertLogRelMsgReturn(pDevReg->cMaxInstances > 0, ("[%u]: %#x\n", i, pDevReg->cMaxInstances), VERR_INVALID_PARAMETER); AssertLogRelMsgReturn(pDevReg->cMaxPciDevices <= 8, ("[%u]: %#x\n", i, pDevReg->cMaxPciDevices), VERR_INVALID_PARAMETER); AssertLogRelMsgReturn(pDevReg->cMaxMsixVectors <= VBOX_MSIX_MAX_ENTRIES, ("[%u]: %#x\n", i, pDevReg->cMaxMsixVectors), VERR_INVALID_PARAMETER); /* The name must be printable ascii and correctly terminated. */ for (size_t off = 0; off < RT_ELEMENTS(pDevReg->szName); off++) { char ch = pDevReg->szName[off]; AssertLogRelMsgReturn(RT_C_IS_PRINT(ch) || (ch == '\0' && off > 0), ("[%u]: off=%u szName: %.*Rhxs\n", i, off, sizeof(pDevReg->szName), &pDevReg->szName[0]), VERR_INVALID_NAME); if (ch == '\0') break; } } /* * Add it, assuming we're being called at ModuleInit/ModuleTerm time only, or * that the caller has already taken the loader lock. */ pModReg->hMod = hMod; RTListAppend(&g_PDMDevModList, &pModReg->ListEntry); return VINF_SUCCESS; } /** * Deregisters the device implementations living in a module. * * This should normally only be called during ModuleTerm(). * * @returns VBox status code. * @param hMod The module handle of the module being registered. * @param pModReg The module registration structure. This will be * used directly so it must live as long as the module * and be writable. * * @note Caller must own the loader lock! */ VMMR0DECL(int) PDMR0DeviceDeregisterModule(void *hMod, PPDMDEVMODREGR0 pModReg) { /* * Validate the input. */ AssertPtrReturn(hMod, VERR_INVALID_HANDLE); Assert(SUPR0LdrIsLockOwnerByMod(hMod, true)); AssertPtrReturn(pModReg, VERR_INVALID_POINTER); AssertLogRelMsgReturn(PDM_VERSION_ARE_COMPATIBLE(pModReg->u32Version, PDM_DEVMODREGR0_VERSION), ("pModReg->u32Version=%#x vs %#x\n", pModReg->u32Version, PDM_DEVMODREGR0_VERSION), VERR_VERSION_MISMATCH); AssertLogRelMsgReturn(pModReg->hMod == hMod || pModReg->hMod == NULL, ("pModReg->hMod=%p vs %p\n", pModReg->hMod, hMod), VERR_INVALID_PARAMETER); /* * Unlink the registration record and return it to virgin conditions. Ignore * the call if not registered. */ if (pModReg->hMod) { pModReg->hMod = NULL; RTListNodeRemove(&pModReg->ListEntry); pModReg->ListEntry.pNext = NULL; pModReg->ListEntry.pPrev = NULL; return VINF_SUCCESS; } return VWRN_NOT_FOUND; }