/* $Id: PDMDevice.cpp 70948 2018-02-10 15:38:12Z vboxsync $ */ /** @file * PDM - Pluggable Device and Driver Manager, Device parts. */ /* * Copyright (C) 2006-2017 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 #include "PDMInternal.h" #include #include #include #include #include #include #include #ifdef VBOX_WITH_REM # include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ /** * Internal callback structure pointer. * The main purpose is to define the extra data we associate * with PDMDEVREGCB so we can find the VM instance and so on. */ typedef struct PDMDEVREGCBINT { /** The callback structure. */ PDMDEVREGCB Core; /** A bit of padding. */ uint32_t u32[4]; /** VM Handle. */ PVM pVM; /** Pointer to the configuration node the registrations should be * associated with. Can be NULL. */ PCFGMNODE pCfgNode; } PDMDEVREGCBINT; /** Pointer to a PDMDEVREGCBINT structure. */ typedef PDMDEVREGCBINT *PPDMDEVREGCBINT; /** Pointer to a const PDMDEVREGCBINT structure. */ typedef const PDMDEVREGCBINT *PCPDMDEVREGCBINT; /********************************************************************************************************************************* * Internal Functions * *********************************************************************************************************************************/ static DECLCALLBACK(int) pdmR3DevReg_Register(PPDMDEVREGCB pCallbacks, PCPDMDEVREG pReg); static int pdmR3DevLoadModules(PVM pVM); static int pdmR3DevLoad(PVM pVM, PPDMDEVREGCBINT pRegCB, const char *pszFilename, const char *pszName); /** * This function will initialize the devices for this VM instance. * * * First of all this mean loading the builtin device and letting them * register themselves. Beyond that any additional device modules are * loaded and called for registration. * * Then the device configuration is enumerated, the instantiation order * is determined, and finally they are instantiated. * * After all devices have been successfully instantiated the primary * PCI Bus device is called to emulate the PCI BIOS, i.e. making the * resource assignments. If there is no PCI device, this step is of course * skipped. * * Finally the init completion routines of the instantiated devices * are called. * * @returns VBox status code. * @param pVM The cross context VM structure. */ int pdmR3DevInit(PVM pVM) { LogFlow(("pdmR3DevInit:\n")); AssertRelease(!(RT_OFFSETOF(PDMDEVINS, achInstanceData) & 15)); AssertRelease(sizeof(pVM->pdm.s.pDevInstances->Internal.s) <= sizeof(pVM->pdm.s.pDevInstances->Internal.padding)); /* * Load device modules. */ int rc = pdmR3DevLoadModules(pVM); if (RT_FAILURE(rc)) return rc; #ifdef VBOX_WITH_USB /* ditto for USB Devices. */ rc = pdmR3UsbLoadModules(pVM); if (RT_FAILURE(rc)) return rc; #endif /* * Get the RC & R0 devhlps and create the devhlp R3 task queue. */ PCPDMDEVHLPRC pHlpRC = NIL_RTRCPTR; if (VM_IS_RAW_MODE_ENABLED(pVM)) { rc = PDMR3LdrGetSymbolRC(pVM, NULL, "g_pdmRCDevHlp", &pHlpRC); AssertReleaseRCReturn(rc, rc); } PCPDMDEVHLPR0 pHlpR0; rc = PDMR3LdrGetSymbolR0(pVM, NULL, "g_pdmR0DevHlp", &pHlpR0); AssertReleaseRCReturn(rc, rc); rc = PDMR3QueueCreateInternal(pVM, sizeof(PDMDEVHLPTASK), 8, 0, pdmR3DevHlpQueueConsumer, true, "DevHlp", &pVM->pdm.s.pDevHlpQueueR3); AssertRCReturn(rc, rc); pVM->pdm.s.pDevHlpQueueR0 = PDMQueueR0Ptr(pVM->pdm.s.pDevHlpQueueR3); pVM->pdm.s.pDevHlpQueueRC = PDMQueueRCPtr(pVM->pdm.s.pDevHlpQueueR3); /* * * Enumerate the device instance configurations * and come up with a instantiation order. * */ /* Switch to /Devices, which contains the device instantiations. */ PCFGMNODE pDevicesNode = CFGMR3GetChild(CFGMR3GetRoot(pVM), "Devices"); /* * Count the device instances. */ PCFGMNODE pCur; PCFGMNODE pInstanceNode; unsigned cDevs = 0; for (pCur = CFGMR3GetFirstChild(pDevicesNode); pCur; pCur = CFGMR3GetNextChild(pCur)) for (pInstanceNode = CFGMR3GetFirstChild(pCur); pInstanceNode; pInstanceNode = CFGMR3GetNextChild(pInstanceNode)) cDevs++; if (!cDevs) { Log(("PDM: No devices were configured!\n")); return VINF_SUCCESS; } Log2(("PDM: cDevs=%u\n", cDevs)); /* * Collect info on each device instance. */ struct DEVORDER { /** Configuration node. */ PCFGMNODE pNode; /** Pointer to device. */ PPDMDEV pDev; /** Init order. */ uint32_t u32Order; /** VBox instance number. */ uint32_t iInstance; } *paDevs = (struct DEVORDER *)alloca(sizeof(paDevs[0]) * (cDevs + 1)); /* (One extra for swapping) */ Assert(paDevs); unsigned i = 0; for (pCur = CFGMR3GetFirstChild(pDevicesNode); pCur; pCur = CFGMR3GetNextChild(pCur)) { /* Get the device name. */ char szName[sizeof(paDevs[0].pDev->pReg->szName)]; rc = CFGMR3GetName(pCur, szName, sizeof(szName)); AssertMsgRCReturn(rc, ("Configuration error: device name is too long (or something)! rc=%Rrc\n", rc), rc); /* Find the device. */ PPDMDEV pDev = pdmR3DevLookup(pVM, szName); AssertLogRelMsgReturn(pDev, ("Configuration error: device '%s' not found!\n", szName), VERR_PDM_DEVICE_NOT_FOUND); /* Configured priority or use default based on device class? */ uint32_t u32Order; rc = CFGMR3QueryU32(pCur, "Priority", &u32Order); if (rc == VERR_CFGM_VALUE_NOT_FOUND) { uint32_t u32 = pDev->pReg->fClass; for (u32Order = 1; !(u32 & u32Order); u32Order <<= 1) /* nop */; } else AssertMsgRCReturn(rc, ("Configuration error: reading \"Priority\" for the '%s' device failed rc=%Rrc!\n", szName, rc), rc); /* Enumerate the device instances. */ uint32_t const iStart = i; for (pInstanceNode = CFGMR3GetFirstChild(pCur); pInstanceNode; pInstanceNode = CFGMR3GetNextChild(pInstanceNode)) { paDevs[i].pNode = pInstanceNode; paDevs[i].pDev = pDev; paDevs[i].u32Order = u32Order; /* Get the instance number. */ char szInstance[32]; rc = CFGMR3GetName(pInstanceNode, szInstance, sizeof(szInstance)); AssertMsgRCReturn(rc, ("Configuration error: instance name is too long (or something)! rc=%Rrc\n", rc), rc); char *pszNext = NULL; rc = RTStrToUInt32Ex(szInstance, &pszNext, 0, &paDevs[i].iInstance); AssertMsgRCReturn(rc, ("Configuration error: RTStrToInt32Ex failed on the instance name '%s'! rc=%Rrc\n", szInstance, rc), rc); AssertMsgReturn(!*pszNext, ("Configuration error: the instance name '%s' isn't all digits. (%s)\n", szInstance, pszNext), VERR_INVALID_PARAMETER); /* next instance */ i++; } /* check the number of instances */ if (i - iStart > pDev->pReg->cMaxInstances) AssertLogRelMsgFailedReturn(("Configuration error: Too many instances of %s was configured: %u, max %u\n", szName, i - iStart, pDev->pReg->cMaxInstances), VERR_PDM_TOO_MANY_DEVICE_INSTANCES); } /* devices */ Assert(i == cDevs); /* * Sort (bubble) the device array ascending on u32Order and instance number * for a device. */ unsigned c = cDevs - 1; while (c) { unsigned j = 0; for (i = 0; i < c; i++) if ( paDevs[i].u32Order > paDevs[i + 1].u32Order || ( paDevs[i].u32Order == paDevs[i + 1].u32Order && paDevs[i].iInstance > paDevs[i + 1].iInstance && paDevs[i].pDev == paDevs[i + 1].pDev) ) { paDevs[cDevs] = paDevs[i + 1]; paDevs[i + 1] = paDevs[i]; paDevs[i] = paDevs[cDevs]; j = i; } c = j; } /* * * Instantiate the devices. * */ for (i = 0; i < cDevs; i++) { /* * Gather a bit of config. */ /* trusted */ bool fTrusted; rc = CFGMR3QueryBool(paDevs[i].pNode, "Trusted", &fTrusted); if (rc == VERR_CFGM_VALUE_NOT_FOUND) fTrusted = false; else if (RT_FAILURE(rc)) { AssertMsgFailed(("configuration error: failed to query boolean \"Trusted\", rc=%Rrc\n", rc)); return rc; } /* config node */ PCFGMNODE pConfigNode = CFGMR3GetChild(paDevs[i].pNode, "Config"); if (!pConfigNode) { rc = CFGMR3InsertNode(paDevs[i].pNode, "Config", &pConfigNode); if (RT_FAILURE(rc)) { AssertMsgFailed(("Failed to create Config node! rc=%Rrc\n", rc)); return rc; } } CFGMR3SetRestrictedRoot(pConfigNode); /* * Allocate the device instance and critical section. */ AssertReturn(paDevs[i].pDev->cInstances < paDevs[i].pDev->pReg->cMaxInstances, VERR_PDM_TOO_MANY_DEVICE_INSTANCES); size_t cb = RT_OFFSETOF(PDMDEVINS, achInstanceData[paDevs[i].pDev->pReg->cbInstance]); cb = RT_ALIGN_Z(cb, 16); PPDMDEVINS pDevIns; if (paDevs[i].pDev->pReg->fFlags & (PDM_DEVREG_FLAGS_RC | PDM_DEVREG_FLAGS_R0)) rc = MMR3HyperAllocOnceNoRel(pVM, cb, 0, MM_TAG_PDM_DEVICE, (void **)&pDevIns); else rc = MMR3HeapAllocZEx(pVM, MM_TAG_PDM_DEVICE, cb, (void **)&pDevIns); AssertLogRelMsgRCReturn(rc, ("Failed to allocate %d bytes of instance data for device '%s'. rc=%Rrc\n", cb, paDevs[i].pDev->pReg->szName, rc), rc); PPDMCRITSECT pCritSect; if (paDevs[i].pDev->pReg->fFlags & (PDM_DEVREG_FLAGS_RC | PDM_DEVREG_FLAGS_R0)) rc = MMHyperAlloc(pVM, sizeof(*pCritSect), 0, MM_TAG_PDM_DEVICE, (void **)&pCritSect); else rc = MMR3HeapAllocZEx(pVM, MM_TAG_PDM_DEVICE, sizeof(*pCritSect), (void **)&pCritSect); AssertLogRelMsgRCReturn(rc, ("Failed to allocate a critical section for the device (%Rrc)\n", rc), rc); /* * Initialize it. */ pDevIns->u32Version = PDM_DEVINS_VERSION; pDevIns->iInstance = paDevs[i].iInstance; //pDevIns->Internal.s.pNextR3 = NULL; //pDevIns->Internal.s.pPerDeviceNextR3 = NULL; pDevIns->Internal.s.pDevR3 = paDevs[i].pDev; pDevIns->Internal.s.pVMR3 = pVM; pDevIns->Internal.s.pVMR0 = pVM->pVMR0; pDevIns->Internal.s.pVMRC = pVM->pVMRC; //pDevIns->Internal.s.pLunsR3 = NULL; pDevIns->Internal.s.pCfgHandle = paDevs[i].pNode; //pDevIns->Internal.s.pHeadPciDevR3 = NULL; //pDevIns->Internal.s.pHeadPciDevR0 = 0; //pDevIns->Internal.s.pHeadPciDevRC = 0; pDevIns->Internal.s.fIntFlags = PDMDEVINSINT_FLAGS_SUSPENDED; //pDevIns->Internal.s.uLastIrqTag = 0; pDevIns->pHlpR3 = fTrusted ? &g_pdmR3DevHlpTrusted : &g_pdmR3DevHlpUnTrusted; pDevIns->pHlpRC = pHlpRC; pDevIns->pHlpR0 = pHlpR0; pDevIns->pReg = paDevs[i].pDev->pReg; pDevIns->pCfg = pConfigNode; //pDevIns->IBase.pfnQueryInterface = NULL; //pDevIns->fTracing = 0; pDevIns->idTracing = ++pVM->pdm.s.idTracingDev; pDevIns->pvInstanceDataR3 = &pDevIns->achInstanceData[0]; pDevIns->pvInstanceDataRC = pDevIns->pReg->fFlags & PDM_DEVREG_FLAGS_RC ? MMHyperR3ToRC(pVM, pDevIns->pvInstanceDataR3) : NIL_RTRCPTR; pDevIns->pvInstanceDataR0 = pDevIns->pReg->fFlags & PDM_DEVREG_FLAGS_R0 ? MMHyperR3ToR0(pVM, pDevIns->pvInstanceDataR3) : NIL_RTR0PTR; pDevIns->pCritSectRoR3 = pCritSect; pDevIns->pCritSectRoRC = pDevIns->pReg->fFlags & PDM_DEVREG_FLAGS_RC ? MMHyperR3ToRC(pVM, pCritSect) : NIL_RTRCPTR; pDevIns->pCritSectRoR0 = pDevIns->pReg->fFlags & PDM_DEVREG_FLAGS_R0 ? MMHyperR3ToR0(pVM, pCritSect) : NIL_RTR0PTR; rc = pdmR3CritSectInitDeviceAuto(pVM, pDevIns, pCritSect, RT_SRC_POS, "%s#%uAuto", pDevIns->pReg->szName, pDevIns->iInstance); AssertLogRelRCReturn(rc, rc); /* * Link it into all the lists. */ /* The global instance FIFO. */ PPDMDEVINS pPrev1 = pVM->pdm.s.pDevInstances; if (!pPrev1) pVM->pdm.s.pDevInstances = pDevIns; else { while (pPrev1->Internal.s.pNextR3) pPrev1 = pPrev1->Internal.s.pNextR3; pPrev1->Internal.s.pNextR3 = pDevIns; } /* The per device instance FIFO. */ PPDMDEVINS pPrev2 = paDevs[i].pDev->pInstances; if (!pPrev2) paDevs[i].pDev->pInstances = pDevIns; else { while (pPrev2->Internal.s.pPerDeviceNextR3) pPrev2 = pPrev2->Internal.s.pPerDeviceNextR3; pPrev2->Internal.s.pPerDeviceNextR3 = pDevIns; } /* * Call the constructor. */ paDevs[i].pDev->cInstances++; Log(("PDM: Constructing device '%s' instance %d...\n", pDevIns->pReg->szName, pDevIns->iInstance)); rc = pDevIns->pReg->pfnConstruct(pDevIns, pDevIns->iInstance, pDevIns->pCfg); if (RT_FAILURE(rc)) { LogRel(("PDM: Failed to construct '%s'/%d! %Rra\n", pDevIns->pReg->szName, pDevIns->iInstance, rc)); paDevs[i].pDev->cInstances--; /* Because we're damn lazy, the destructor will be called even if the constructor fails. So, no unlinking. */ return rc == VERR_VERSION_MISMATCH ? VERR_PDM_DEVICE_VERSION_MISMATCH : rc; } } /* for device instances */ #ifdef VBOX_WITH_USB /* ditto for USB Devices. */ rc = pdmR3UsbInstantiateDevices(pVM); if (RT_FAILURE(rc)) return rc; #endif LogFlow(("pdmR3DevInit: returns %Rrc\n", VINF_SUCCESS)); return VINF_SUCCESS; } /** * Performs the init complete callback after ring-0 and raw-mode has been * initialized. * * @returns VBox status code. * @param pVM The cross context VM structure. */ int pdmR3DevInitComplete(PVM pVM) { int rc; /* * Iterate thru the device instances and work the callback. */ for (PPDMDEVINS pDevIns = pVM->pdm.s.pDevInstances; pDevIns; pDevIns = pDevIns->Internal.s.pNextR3) { if (pDevIns->pReg->pfnInitComplete) { PDMCritSectEnter(pDevIns->pCritSectRoR3, VERR_IGNORED); rc = pDevIns->pReg->pfnInitComplete(pDevIns); PDMCritSectLeave(pDevIns->pCritSectRoR3); if (RT_FAILURE(rc)) { AssertMsgFailed(("InitComplete on device '%s'/%d failed with rc=%Rrc\n", pDevIns->pReg->szName, pDevIns->iInstance, rc)); return rc; } } } #ifdef VBOX_WITH_USB rc = pdmR3UsbVMInitComplete(pVM); if (RT_FAILURE(rc)) { Log(("pdmR3DevInit: returns %Rrc\n", rc)); return rc; } #endif LogFlow(("pdmR3DevInit: returns %Rrc\n", VINF_SUCCESS)); return VINF_SUCCESS; } /** * Lookups a device structure by name. * @internal */ PPDMDEV pdmR3DevLookup(PVM pVM, const char *pszName) { size_t cchName = strlen(pszName); for (PPDMDEV pDev = pVM->pdm.s.pDevs; pDev; pDev = pDev->pNext) if ( pDev->cchName == cchName && !strcmp(pDev->pReg->szName, pszName)) return pDev; return NULL; } /** * Loads the device modules. * * @returns VBox status code. * @param pVM The cross context VM structure. */ static int pdmR3DevLoadModules(PVM pVM) { /* * Initialize the callback structure. */ PDMDEVREGCBINT RegCB; RegCB.Core.u32Version = PDM_DEVREG_CB_VERSION; RegCB.Core.pfnRegister = pdmR3DevReg_Register; RegCB.pVM = pVM; RegCB.pCfgNode = NULL; /* * Load the internal VMM APIC device. */ int rc2 = pdmR3DevReg_Register(&RegCB.Core, &g_DeviceAPIC); AssertRCReturn(rc2, rc2); /* * Load the builtin module. */ PCFGMNODE pDevicesNode = CFGMR3GetChild(CFGMR3GetRoot(pVM), "PDM/Devices"); bool fLoadBuiltin; int rc = CFGMR3QueryBool(pDevicesNode, "LoadBuiltin", &fLoadBuiltin); if (rc == VERR_CFGM_VALUE_NOT_FOUND || rc == VERR_CFGM_NO_PARENT) fLoadBuiltin = true; else if (RT_FAILURE(rc)) { AssertMsgFailed(("Configuration error: Querying boolean \"LoadBuiltin\" failed with %Rrc\n", rc)); return rc; } if (fLoadBuiltin) { /* make filename */ char *pszFilename = pdmR3FileR3("VBoxDD", true /*fShared*/); if (!pszFilename) return VERR_NO_TMP_MEMORY; rc = pdmR3DevLoad(pVM, &RegCB, pszFilename, "VBoxDD"); RTMemTmpFree(pszFilename); if (RT_FAILURE(rc)) return rc; /* make filename */ pszFilename = pdmR3FileR3("VBoxDD2", true /*fShared*/); if (!pszFilename) return VERR_NO_TMP_MEMORY; rc = pdmR3DevLoad(pVM, &RegCB, pszFilename, "VBoxDD2"); RTMemTmpFree(pszFilename); if (RT_FAILURE(rc)) return rc; } /* * Load additional device modules. */ PCFGMNODE pCur; for (pCur = CFGMR3GetFirstChild(pDevicesNode); pCur; pCur = CFGMR3GetNextChild(pCur)) { /* * Get the name and path. */ char szName[PDMMOD_NAME_LEN]; rc = CFGMR3GetName(pCur, &szName[0], sizeof(szName)); if (rc == VERR_CFGM_NOT_ENOUGH_SPACE) { AssertMsgFailed(("configuration error: The module name is too long, cchName=%zu.\n", CFGMR3GetNameLen(pCur))); return VERR_PDM_MODULE_NAME_TOO_LONG; } else if (RT_FAILURE(rc)) { AssertMsgFailed(("CFGMR3GetName -> %Rrc.\n", rc)); return rc; } /* the path is optional, if no path the module name + path is used. */ char szFilename[RTPATH_MAX]; rc = CFGMR3QueryString(pCur, "Path", &szFilename[0], sizeof(szFilename)); if (rc == VERR_CFGM_VALUE_NOT_FOUND) strcpy(szFilename, szName); else if (RT_FAILURE(rc)) { AssertMsgFailed(("configuration error: Failure to query the module path, rc=%Rrc.\n", rc)); return rc; } /* prepend path? */ if (!RTPathHavePath(szFilename)) { char *psz = pdmR3FileR3(szFilename, false /*fShared*/); if (!psz) return VERR_NO_TMP_MEMORY; size_t cch = strlen(psz) + 1; if (cch > sizeof(szFilename)) { RTMemTmpFree(psz); AssertMsgFailed(("Filename too long! cch=%d '%s'\n", cch, psz)); return VERR_FILENAME_TOO_LONG; } memcpy(szFilename, psz, cch); RTMemTmpFree(psz); } /* * Load the module and register it's devices. */ RegCB.pCfgNode = pCur; rc = pdmR3DevLoad(pVM, &RegCB, szFilename, szName); if (RT_FAILURE(rc)) return rc; } return VINF_SUCCESS; } /** * Loads one device module and call the registration entry point. * * @returns VBox status code. * @param pVM The cross context VM structure. * @param pRegCB The registration callback stuff. * @param pszFilename Module filename. * @param pszName Module name. */ static int pdmR3DevLoad(PVM pVM, PPDMDEVREGCBINT pRegCB, const char *pszFilename, const char *pszName) { /* * Load it. */ int rc = pdmR3LoadR3U(pVM->pUVM, pszFilename, pszName); if (RT_SUCCESS(rc)) { /* * Get the registration export and call it. */ FNPDMVBOXDEVICESREGISTER *pfnVBoxDevicesRegister; rc = PDMR3LdrGetSymbolR3(pVM, pszName, "VBoxDevicesRegister", (void **)&pfnVBoxDevicesRegister); if (RT_SUCCESS(rc)) { Log(("PDM: Calling VBoxDevicesRegister (%p) of %s (%s)\n", pfnVBoxDevicesRegister, pszName, pszFilename)); rc = pfnVBoxDevicesRegister(&pRegCB->Core, VBOX_VERSION); if (RT_SUCCESS(rc)) Log(("PDM: Successfully loaded device module %s (%s).\n", pszName, pszFilename)); else AssertMsgFailed(("VBoxDevicesRegister failed with rc=%Rrc for module %s (%s)\n", rc, pszName, pszFilename)); } else { AssertMsgFailed(("Failed to locate 'VBoxDevicesRegister' in %s (%s) rc=%Rrc\n", pszName, pszFilename, rc)); if (rc == VERR_SYMBOL_NOT_FOUND) rc = VERR_PDM_NO_REGISTRATION_EXPORT; } } else AssertMsgFailed(("Failed to load %s %s!\n", pszFilename, pszName)); return rc; } /** * @interface_method_impl{PDMDEVREGCB,pfnRegister} */ static DECLCALLBACK(int) pdmR3DevReg_Register(PPDMDEVREGCB pCallbacks, PCPDMDEVREG pReg) { /* * Validate the registration structure. */ Assert(pReg); AssertMsgReturn(pReg->u32Version == PDM_DEVREG_VERSION, ("Unknown struct version %#x!\n", pReg->u32Version), VERR_PDM_UNKNOWN_DEVREG_VERSION); AssertMsgReturn( pReg->szName[0] && strlen(pReg->szName) < sizeof(pReg->szName) && pdmR3IsValidName(pReg->szName), ("Invalid name '%.*s'\n", sizeof(pReg->szName), pReg->szName), VERR_PDM_INVALID_DEVICE_REGISTRATION); AssertMsgReturn( !(pReg->fFlags & PDM_DEVREG_FLAGS_RC) || ( pReg->szRCMod[0] && strlen(pReg->szRCMod) < sizeof(pReg->szRCMod)), ("Invalid GC module name '%s' - (Device %s)\n", pReg->szRCMod, pReg->szName), VERR_PDM_INVALID_DEVICE_REGISTRATION); AssertMsgReturn( !(pReg->fFlags & PDM_DEVREG_FLAGS_R0) || ( pReg->szR0Mod[0] && strlen(pReg->szR0Mod) < sizeof(pReg->szR0Mod)), ("Invalid R0 module name '%s' - (Device %s)\n", pReg->szR0Mod, pReg->szName), VERR_PDM_INVALID_DEVICE_REGISTRATION); AssertMsgReturn((pReg->fFlags & PDM_DEVREG_FLAGS_HOST_BITS_MASK) == PDM_DEVREG_FLAGS_HOST_BITS_DEFAULT, ("Invalid host bits flags! fFlags=%#x (Device %s)\n", pReg->fFlags, pReg->szName), VERR_PDM_INVALID_DEVICE_HOST_BITS); AssertMsgReturn((pReg->fFlags & PDM_DEVREG_FLAGS_GUEST_BITS_MASK), ("Invalid guest bits flags! fFlags=%#x (Device %s)\n", pReg->fFlags, pReg->szName), VERR_PDM_INVALID_DEVICE_REGISTRATION); AssertMsgReturn(pReg->fClass, ("No class! (Device %s)\n", pReg->szName), VERR_PDM_INVALID_DEVICE_REGISTRATION); AssertMsgReturn(pReg->cMaxInstances > 0, ("Max instances %u! (Device %s)\n", pReg->cMaxInstances, pReg->szName), VERR_PDM_INVALID_DEVICE_REGISTRATION); AssertMsgReturn(pReg->cbInstance <= (uint32_t)(pReg->fFlags & (PDM_DEVREG_FLAGS_RC | PDM_DEVREG_FLAGS_R0) ? 96 * _1K : _1M), ("Instance size %d bytes! (Device %s)\n", pReg->cbInstance, pReg->szName), VERR_PDM_INVALID_DEVICE_REGISTRATION); AssertMsgReturn(pReg->pfnConstruct, ("No constructor! (Device %s)\n", pReg->szName), VERR_PDM_INVALID_DEVICE_REGISTRATION); AssertLogRelMsgReturn((pReg->fFlags & PDM_DEVREG_FLAGS_GUEST_BITS_MASK) == PDM_DEVREG_FLAGS_GUEST_BITS_DEFAULT, ("PDM: Rejected device '%s' because it didn't match the guest bits.\n", pReg->szName), VERR_PDM_INVALID_DEVICE_GUEST_BITS); AssertLogRelMsg(pReg->u32VersionEnd == PDM_DEVREG_VERSION, ("u32VersionEnd=%#x, expected %#x. (szName=%s)\n", pReg->u32VersionEnd, PDM_DEVREG_VERSION, pReg->szName)); /* * Check for duplicate and find FIFO entry at the same time. */ PCPDMDEVREGCBINT pRegCB = (PCPDMDEVREGCBINT)pCallbacks; PPDMDEV pDevPrev = NULL; PPDMDEV pDev = pRegCB->pVM->pdm.s.pDevs; for (; pDev; pDevPrev = pDev, pDev = pDev->pNext) AssertMsgReturn(strcmp(pDev->pReg->szName, pReg->szName), ("Device '%s' already exists\n", pReg->szName), VERR_PDM_DEVICE_NAME_CLASH); /* * Allocate new device structure, initialize and insert it into the list. */ int rc; pDev = (PPDMDEV)MMR3HeapAlloc(pRegCB->pVM, MM_TAG_PDM_DEVICE, sizeof(*pDev)); if (pDev) { pDev->pNext = NULL; pDev->cInstances = 0; pDev->pInstances = NULL; pDev->pReg = pReg; pDev->cchName = (uint32_t)strlen(pReg->szName); rc = CFGMR3QueryStringAllocDef( pRegCB->pCfgNode, "RCSearchPath", &pDev->pszRCSearchPath, NULL); if (RT_SUCCESS(rc)) rc = CFGMR3QueryStringAllocDef(pRegCB->pCfgNode, "R0SearchPath", &pDev->pszR0SearchPath, NULL); if (RT_SUCCESS(rc)) { if (pDevPrev) pDevPrev->pNext = pDev; else pRegCB->pVM->pdm.s.pDevs = pDev; Log(("PDM: Registered device '%s'\n", pReg->szName)); return VINF_SUCCESS; } MMR3HeapFree(pDev); } else rc = VERR_NO_MEMORY; return rc; } /** * Locates a LUN. * * @returns VBox status code. * @param pVM The cross context VM structure. * @param pszDevice Device name. * @param iInstance Device instance. * @param iLun The Logical Unit to obtain the interface of. * @param ppLun Where to store the pointer to the LUN if found. * @thread Try only do this in EMT... */ int pdmR3DevFindLun(PVM pVM, const char *pszDevice, unsigned iInstance, unsigned iLun, PPPDMLUN ppLun) { /* * Iterate registered devices looking for the device. */ size_t cchDevice = strlen(pszDevice); for (PPDMDEV pDev = pVM->pdm.s.pDevs; pDev; pDev = pDev->pNext) { if ( pDev->cchName == cchDevice && !memcmp(pDev->pReg->szName, pszDevice, cchDevice)) { /* * Iterate device instances. */ for (PPDMDEVINS pDevIns = pDev->pInstances; pDevIns; pDevIns = pDevIns->Internal.s.pPerDeviceNextR3) { if (pDevIns->iInstance == iInstance) { /* * Iterate luns. */ for (PPDMLUN pLun = pDevIns->Internal.s.pLunsR3; pLun; pLun = pLun->pNext) { if (pLun->iLun == iLun) { *ppLun = pLun; return VINF_SUCCESS; } } return VERR_PDM_LUN_NOT_FOUND; } } return VERR_PDM_DEVICE_INSTANCE_NOT_FOUND; } } return VERR_PDM_DEVICE_NOT_FOUND; } /** * Attaches a preconfigured driver to an existing device instance. * * This is used to change drivers and suchlike at runtime. * * @returns VBox status code. * @param pUVM The user mode VM handle. * @param pszDevice Device name. * @param iInstance Device instance. * @param iLun The Logical Unit to obtain the interface of. * @param fFlags Flags, combination of the PDMDEVATT_FLAGS_* \#defines. * @param ppBase Where to store the base interface pointer. Optional. * @thread EMT */ VMMR3DECL(int) PDMR3DeviceAttach(PUVM pUVM, const char *pszDevice, unsigned iInstance, unsigned iLun, uint32_t fFlags, PPPDMIBASE ppBase) { UVM_ASSERT_VALID_EXT_RETURN(pUVM, VERR_INVALID_VM_HANDLE); PVM pVM = pUVM->pVM; VM_ASSERT_VALID_EXT_RETURN(pVM, VERR_INVALID_VM_HANDLE); VM_ASSERT_EMT(pVM); LogFlow(("PDMR3DeviceAttach: pszDevice=%p:{%s} iInstance=%d iLun=%d fFlags=%#x ppBase=%p\n", pszDevice, pszDevice, iInstance, iLun, fFlags, ppBase)); /* * Find the LUN in question. */ PPDMLUN pLun; int rc = pdmR3DevFindLun(pVM, pszDevice, iInstance, iLun, &pLun); if (RT_SUCCESS(rc)) { /* * Can we attach anything at runtime? */ PPDMDEVINS pDevIns = pLun->pDevIns; if (pDevIns->pReg->pfnAttach) { if (!pLun->pTop) { PDMCritSectEnter(pDevIns->pCritSectRoR3, VERR_IGNORED); rc = pDevIns->pReg->pfnAttach(pDevIns, iLun, fFlags); PDMCritSectLeave(pDevIns->pCritSectRoR3); } else rc = VERR_PDM_DRIVER_ALREADY_ATTACHED; } else rc = VERR_PDM_DEVICE_NO_RT_ATTACH; if (ppBase) *ppBase = pLun->pTop ? &pLun->pTop->IBase : NULL; } else if (ppBase) *ppBase = NULL; if (ppBase) LogFlow(("PDMR3DeviceAttach: returns %Rrc *ppBase=%p\n", rc, *ppBase)); else LogFlow(("PDMR3DeviceAttach: returns %Rrc\n", rc)); return rc; } /** * Detaches a driver chain from an existing device instance. * * This is used to change drivers and suchlike at runtime. * * @returns VBox status code. * @param pUVM The user mode VM handle. * @param pszDevice Device name. * @param iInstance Device instance. * @param iLun The Logical Unit to obtain the interface of. * @param fFlags Flags, combination of the PDMDEVATT_FLAGS_* \#defines. * @thread EMT */ VMMR3DECL(int) PDMR3DeviceDetach(PUVM pUVM, const char *pszDevice, unsigned iInstance, unsigned iLun, uint32_t fFlags) { return PDMR3DriverDetach(pUVM, pszDevice, iInstance, iLun, NULL, 0, fFlags); } /** * References the critical section associated with a device for the use by a * timer or similar created by the device. * * @returns Pointer to the critical section. * @param pVM The cross context VM structure. * @param pDevIns The device instance in question. * * @internal */ VMMR3_INT_DECL(PPDMCRITSECT) PDMR3DevGetCritSect(PVM pVM, PPDMDEVINS pDevIns) { VM_ASSERT_EMT(pVM); RT_NOREF_PV(pVM); VM_ASSERT_STATE(pVM, VMSTATE_CREATING); AssertPtr(pDevIns); PPDMCRITSECT pCritSect = pDevIns->pCritSectRoR3; AssertPtr(pCritSect); pCritSect->s.fUsedByTimerOrSimilar = true; return pCritSect; } /** * Attaches a preconfigured driver to an existing device or driver instance. * * This is used to change drivers and suchlike at runtime. The driver or device * at the end of the chain will be told to attach to whatever is configured * below it. * * @returns VBox status code. * @param pUVM The user mode VM handle. * @param pszDevice Device name. * @param iInstance Device instance. * @param iLun The Logical Unit to obtain the interface of. * @param fFlags Flags, combination of the PDMDEVATT_FLAGS_* \#defines. * @param ppBase Where to store the base interface pointer. Optional. * * @thread EMT */ VMMR3DECL(int) PDMR3DriverAttach(PUVM pUVM, const char *pszDevice, unsigned iInstance, unsigned iLun, uint32_t fFlags, PPPDMIBASE ppBase) { LogFlow(("PDMR3DriverAttach: pszDevice=%p:{%s} iInstance=%d iLun=%d fFlags=%#x ppBase=%p\n", pszDevice, pszDevice, iInstance, iLun, fFlags, ppBase)); UVM_ASSERT_VALID_EXT_RETURN(pUVM, VERR_INVALID_VM_HANDLE); PVM pVM = pUVM->pVM; VM_ASSERT_VALID_EXT_RETURN(pVM, VERR_INVALID_VM_HANDLE); VM_ASSERT_EMT(pVM); if (ppBase) *ppBase = NULL; /* * Find the LUN in question. */ PPDMLUN pLun; int rc = pdmR3DevFindLun(pVM, pszDevice, iInstance, iLun, &pLun); if (RT_SUCCESS(rc)) { /* * Anything attached to the LUN? */ PPDMDRVINS pDrvIns = pLun->pTop; if (!pDrvIns) { /* No, ask the device to attach to the new stuff. */ PPDMDEVINS pDevIns = pLun->pDevIns; if (pDevIns->pReg->pfnAttach) { PDMCritSectEnter(pDevIns->pCritSectRoR3, VERR_IGNORED); rc = pDevIns->pReg->pfnAttach(pDevIns, iLun, fFlags); if (RT_SUCCESS(rc) && ppBase) *ppBase = pLun->pTop ? &pLun->pTop->IBase : NULL; PDMCritSectLeave(pDevIns->pCritSectRoR3); } else rc = VERR_PDM_DEVICE_NO_RT_ATTACH; } else { /* Yes, find the bottom most driver and ask it to attach to the new stuff. */ while (pDrvIns->Internal.s.pDown) pDrvIns = pDrvIns->Internal.s.pDown; if (pDrvIns->pReg->pfnAttach) { rc = pDrvIns->pReg->pfnAttach(pDrvIns, fFlags); if (RT_SUCCESS(rc) && ppBase) *ppBase = pDrvIns->Internal.s.pDown ? &pDrvIns->Internal.s.pDown->IBase : NULL; } else rc = VERR_PDM_DRIVER_NO_RT_ATTACH; } } if (ppBase) LogFlow(("PDMR3DriverAttach: returns %Rrc *ppBase=%p\n", rc, *ppBase)); else LogFlow(("PDMR3DriverAttach: returns %Rrc\n", rc)); return rc; } /** * Detaches the specified driver instance. * * This is used to replumb drivers at runtime for simulating hot plugging and * media changes. * * This is a superset of PDMR3DeviceDetach. It allows detaching drivers from * any driver or device by specifying the driver to start detaching at. The * only prerequisite is that the driver or device above implements the * pfnDetach callback (PDMDRVREG / PDMDEVREG). * * @returns VBox status code. * @param pUVM The user mode VM handle. * @param pszDevice Device name. * @param iDevIns Device instance. * @param iLun The Logical Unit in which to look for the driver. * @param pszDriver The name of the driver which to detach. If NULL * then the entire driver chain is detatched. * @param iOccurrence The occurrence of that driver in the chain. This is * usually 0. * @param fFlags Flags, combination of the PDMDEVATT_FLAGS_* \#defines. * @thread EMT */ VMMR3DECL(int) PDMR3DriverDetach(PUVM pUVM, const char *pszDevice, unsigned iDevIns, unsigned iLun, const char *pszDriver, unsigned iOccurrence, uint32_t fFlags) { LogFlow(("PDMR3DriverDetach: pszDevice=%p:{%s} iDevIns=%u iLun=%u pszDriver=%p:{%s} iOccurrence=%u fFlags=%#x\n", pszDevice, pszDevice, iDevIns, iLun, pszDriver, pszDriver, iOccurrence, fFlags)); UVM_ASSERT_VALID_EXT_RETURN(pUVM, VERR_INVALID_VM_HANDLE); PVM pVM = pUVM->pVM; VM_ASSERT_VALID_EXT_RETURN(pVM, VERR_INVALID_VM_HANDLE); VM_ASSERT_EMT(pVM); AssertPtr(pszDevice); AssertPtrNull(pszDriver); Assert(iOccurrence == 0 || pszDriver); Assert(!(fFlags & ~(PDM_TACH_FLAGS_NOT_HOT_PLUG))); /* * Find the LUN in question. */ PPDMLUN pLun; int rc = pdmR3DevFindLun(pVM, pszDevice, iDevIns, iLun, &pLun); if (RT_SUCCESS(rc)) { /* * Locate the driver. */ PPDMDRVINS pDrvIns = pLun->pTop; if (pDrvIns) { if (pszDriver) { while (pDrvIns) { if (!strcmp(pDrvIns->pReg->szName, pszDriver)) { if (iOccurrence == 0) break; iOccurrence--; } pDrvIns = pDrvIns->Internal.s.pDown; } } if (pDrvIns) rc = pdmR3DrvDetach(pDrvIns, fFlags); else rc = VERR_PDM_DRIVER_INSTANCE_NOT_FOUND; } else rc = VINF_PDM_NO_DRIVER_ATTACHED_TO_LUN; } LogFlow(("PDMR3DriverDetach: returns %Rrc\n", rc)); return rc; } /** * Runtime detach and reattach of a new driver chain or sub chain. * * This is intended to be called on a non-EMT thread, this will instantiate the * new driver (sub-)chain, and then the EMTs will do the actual replumbing. The * destruction of the old driver chain will be taken care of on the calling * thread. * * @returns VBox status code. * @param pUVM The user mode VM handle. * @param pszDevice Device name. * @param iDevIns Device instance. * @param iLun The Logical Unit in which to look for the driver. * @param pszDriver The name of the driver which to detach and replace. * If NULL then the entire driver chain is to be * reattached. * @param iOccurrence The occurrence of that driver in the chain. This is * usually 0. * @param fFlags Flags, combination of the PDMDEVATT_FLAGS_* \#defines. * @param pCfg The configuration of the new driver chain that is * going to be attached. The subtree starts with the * node containing a Driver key, a Config subtree and * optionally an AttachedDriver subtree. * If this parameter is NULL, then this call will work * like at a non-pause version of PDMR3DriverDetach. * @param ppBase Where to store the base interface pointer to the new * driver. Optional. * * @thread Any thread. The EMTs will be involved at some point though. */ VMMR3DECL(int) PDMR3DriverReattach(PUVM pUVM, const char *pszDevice, unsigned iDevIns, unsigned iLun, const char *pszDriver, unsigned iOccurrence, uint32_t fFlags, PCFGMNODE pCfg, PPPDMIBASE ppBase) { NOREF(pUVM); NOREF(pszDevice); NOREF(iDevIns); NOREF(iLun); NOREF(pszDriver); NOREF(iOccurrence); NOREF(fFlags); NOREF(pCfg); NOREF(ppBase); return VERR_NOT_IMPLEMENTED; }