/* $Id: MsixCommon.cpp 64454 2016-10-28 12:39:30Z vboxsync $ */ /** @file * MSI-X support routines */ /* * Copyright (C) 2010-2016 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ #define LOG_GROUP LOG_GROUP_DEV_PCI #define PDMPCIDEV_INCLUDE_PRIVATE /* Hack to get pdmpcidevint.h included at the right point. */ #include #include #include #include #include #include #include "MsiCommon.h" #include "PciInline.h" #pragma pack(1) typedef struct { uint32_t u32MsgAddressLo; uint32_t u32MsgAddressHi; uint32_t u32MsgData; uint32_t u32VectorControl; } MsixTableRecord; AssertCompileSize(MsixTableRecord, VBOX_MSIX_ENTRY_SIZE); #pragma pack() /** @todo use accessors so that raw PCI devices work correctly with MSI-X. */ DECLINLINE(uint16_t) msixGetMessageControl(PPDMPCIDEV pDev) { return PCIDevGetWord(pDev, pDev->Int.s.u8MsixCapOffset + VBOX_MSIX_CAP_MESSAGE_CONTROL); } DECLINLINE(bool) msixIsEnabled(PPDMPCIDEV pDev) { return (msixGetMessageControl(pDev) & VBOX_PCI_MSIX_FLAGS_ENABLE) != 0; } DECLINLINE(bool) msixIsMasked(PPDMPCIDEV pDev) { return (msixGetMessageControl(pDev) & VBOX_PCI_MSIX_FLAGS_FUNCMASK) != 0; } DECLINLINE(uint16_t) msixTableSize(PPDMPCIDEV pDev) { return (msixGetMessageControl(pDev) & 0x3ff) + 1; } DECLINLINE(uint8_t*) msixGetPageOffset(PPDMPCIDEV pDev, uint32_t off) { return (uint8_t*)pDev->Int.s.CTX_SUFF(pMsixPage) + off; } DECLINLINE(MsixTableRecord*) msixGetVectorRecord(PPDMPCIDEV pDev, uint32_t iVector) { return (MsixTableRecord*)msixGetPageOffset(pDev, iVector * VBOX_MSIX_ENTRY_SIZE); } DECLINLINE(RTGCPHYS) msixGetMsiAddress(PPDMPCIDEV pDev, uint32_t iVector) { MsixTableRecord* pRec = msixGetVectorRecord(pDev, iVector); return RT_MAKE_U64(pRec->u32MsgAddressLo & ~UINT32_C(0x3), pRec->u32MsgAddressHi); } DECLINLINE(uint32_t) msixGetMsiData(PPDMPCIDEV pDev, uint32_t iVector) { return msixGetVectorRecord(pDev, iVector)->u32MsgData; } DECLINLINE(uint32_t) msixIsVectorMasked(PPDMPCIDEV pDev, uint32_t iVector) { return (msixGetVectorRecord(pDev, iVector)->u32VectorControl & 0x1) != 0; } DECLINLINE(uint8_t*) msixPendingByte(PPDMPCIDEV pDev, uint32_t iVector) { return msixGetPageOffset(pDev, 0x800 + iVector / 8); } DECLINLINE(void) msixSetPending(PPDMPCIDEV pDev, uint32_t iVector) { *msixPendingByte(pDev, iVector) |= (1 << (iVector & 0x7)); } DECLINLINE(void) msixClearPending(PPDMPCIDEV pDev, uint32_t iVector) { *msixPendingByte(pDev, iVector) &= ~(1 << (iVector & 0x7)); } DECLINLINE(bool) msixIsPending(PPDMPCIDEV pDev, uint32_t iVector) { return (*msixPendingByte(pDev, iVector) & (1 << (iVector & 0x7))) != 0; } static void msixCheckPendingVector(PPDMDEVINS pDevIns, PCPDMPCIHLP pPciHlp, PPDMPCIDEV pDev, uint32_t iVector) { if (msixIsPending(pDev, iVector) && !msixIsVectorMasked(pDev, iVector)) MsixNotify(pDevIns, pPciHlp, pDev, iVector, 1 /* iLevel */, 0 /*uTagSrc*/); } #ifdef IN_RING3 PDMBOTHCBDECL(int) msixMMIORead(PPDMDEVINS pDevIns, void *pvUser, RTGCPHYS GCPhysAddr, void *pv, unsigned cb) { /// @todo qword accesses? NOREF(pDevIns); AssertMsgReturn(cb == 4, ("MSI-X must be accessed with 4-byte reads"), VERR_INTERNAL_ERROR); uint32_t off = (uint32_t)(GCPhysAddr & 0xfff); PPDMPCIDEV pPciDev = (PPDMPCIDEV)pvUser; *(uint32_t*)pv = *(uint32_t*)msixGetPageOffset(pPciDev, off); return VINF_SUCCESS; } PDMBOTHCBDECL(int) msixMMIOWrite(PPDMDEVINS pDevIns, void *pvUser, RTGCPHYS GCPhysAddr, void const *pv, unsigned cb) { /// @todo qword accesses? AssertMsgReturn(cb == 4, ("MSI-X must be accessed with 4-byte reads"), VERR_INTERNAL_ERROR); PPDMPCIDEV pPciDev = (PPDMPCIDEV)pvUser; uint32_t off = (uint32_t)(GCPhysAddr & 0xfff); AssertMsgReturn(off < 0x800, ("Trying to write to PBA\n"), VINF_SUCCESS); *(uint32_t*)msixGetPageOffset(pPciDev, off) = *(uint32_t*)pv; msixCheckPendingVector(pDevIns, (PCPDMPCIHLP)pPciDev->Int.s.pPciBusPtrR3, pPciDev, off / VBOX_MSIX_ENTRY_SIZE); return VINF_SUCCESS; } /** * @callback_method_impl{FNPCIIOREGIONMAP} */ static DECLCALLBACK(int) msixMap(PPDMDEVINS pDevIns, PPDMPCIDEV pPciDev, uint32_t iRegion, RTGCPHYS GCPhysAddress, RTGCPHYS cb, PCIADDRESSSPACE enmType) { Assert(enmType == PCI_ADDRESS_SPACE_MEM); NOREF(iRegion); NOREF(enmType); int rc = PDMDevHlpMMIORegister(pDevIns, GCPhysAddress, cb, pPciDev, IOMMMIO_FLAGS_READ_PASSTHRU | IOMMMIO_FLAGS_WRITE_PASSTHRU, msixMMIOWrite, msixMMIORead, "MSI-X tables"); if (RT_FAILURE(rc)) return rc; return VINF_SUCCESS; } int MsixInit(PCPDMPCIHLP pPciHlp, PPDMPCIDEV pDev, PPDMMSIREG pMsiReg) { if (pMsiReg->cMsixVectors == 0) return VINF_SUCCESS; /* We cannot init MSI-X on raw devices yet. */ Assert(!pciDevIsPassthrough(pDev)); uint16_t cVectors = pMsiReg->cMsixVectors; uint8_t iCapOffset = pMsiReg->iMsixCapOffset; uint8_t iNextOffset = pMsiReg->iMsixNextOffset; uint8_t iBar = pMsiReg->iMsixBar; if (cVectors > VBOX_MSIX_MAX_ENTRIES) { AssertMsgFailed(("Too many MSI-X vectors: %d\n", cVectors)); return VERR_TOO_MUCH_DATA; } if (iBar > 5) { AssertMsgFailed(("Using wrong BAR for MSI-X: %d\n", iBar)); return VERR_INVALID_PARAMETER; } Assert(iCapOffset != 0 && iCapOffset < 0xff && iNextOffset < 0xff); int rc = VINF_SUCCESS; /* If device is passthrough, BAR is registered using common mechanism. */ if (!pciDevIsPassthrough(pDev)) { rc = PDMDevHlpPCIIORegionRegister(pDev->Int.s.CTX_SUFF(pDevIns), iBar, 0x1000, PCI_ADDRESS_SPACE_MEM, msixMap); if (RT_FAILURE (rc)) return rc; } pDev->Int.s.u8MsixCapOffset = iCapOffset; pDev->Int.s.u8MsixCapSize = VBOX_MSIX_CAP_SIZE; PVM pVM = PDMDevHlpGetVM(pDev->Int.s.CTX_SUFF(pDevIns)); pDev->Int.s.pMsixPageR3 = NULL; rc = MMHyperAlloc(pVM, 0x1000, 1, MM_TAG_PDM_DEVICE_USER, (void **)&pDev->Int.s.pMsixPageR3); if (RT_FAILURE(rc) || (pDev->Int.s.pMsixPageR3 == NULL)) return VERR_NO_VM_MEMORY; RT_BZERO(pDev->Int.s.pMsixPageR3, 0x1000); pDev->Int.s.pMsixPageR0 = MMHyperR3ToR0(pVM, pDev->Int.s.pMsixPageR3); pDev->Int.s.pMsixPageRC = MMHyperR3ToRC(pVM, pDev->Int.s.pMsixPageR3); /* R3 PCI helper */ pDev->Int.s.pPciBusPtrR3 = pPciHlp; PCIDevSetByte(pDev, iCapOffset + 0, VBOX_PCI_CAP_ID_MSIX); PCIDevSetByte(pDev, iCapOffset + 1, iNextOffset); /* next */ PCIDevSetWord(pDev, iCapOffset + VBOX_MSIX_CAP_MESSAGE_CONTROL, cVectors - 1); uint32_t offTable = 0, offPBA = 0x800; PCIDevSetDWord(pDev, iCapOffset + VBOX_MSIX_TABLE_BIROFFSET, offTable | iBar); PCIDevSetDWord(pDev, iCapOffset + VBOX_MSIX_PBA_BIROFFSET, offPBA | iBar); pciDevSetMsixCapable(pDev); return VINF_SUCCESS; } #endif bool MsixIsEnabled(PPDMPCIDEV pDev) { return pciDevIsMsixCapable(pDev) && msixIsEnabled(pDev); } void MsixNotify(PPDMDEVINS pDevIns, PCPDMPCIHLP pPciHlp, PPDMPCIDEV pDev, int iVector, int iLevel, uint32_t uTagSrc) { AssertMsg(msixIsEnabled(pDev), ("Must be enabled to use that")); Assert(pPciHlp->pfnIoApicSendMsi != NULL); /* We only trigger MSI-X on level up */ if ((iLevel & PDM_IRQ_LEVEL_HIGH) == 0) { return; } // if this vector is somehow disabled if (msixIsMasked(pDev) || msixIsVectorMasked(pDev, iVector)) { // mark pending bit msixSetPending(pDev, iVector); return; } // clear pending bit msixClearPending(pDev, iVector); RTGCPHYS GCAddr = msixGetMsiAddress(pDev, iVector); uint32_t u32Value = msixGetMsiData(pDev, iVector); pPciHlp->pfnIoApicSendMsi(pDevIns, GCAddr, u32Value, uTagSrc); } DECLINLINE(bool) msixBitJustCleared(uint32_t uOldValue, uint32_t uNewValue, uint32_t uMask) { return (!!(uOldValue & uMask) && !(uNewValue & uMask)); } static void msixCheckPendingVectors(PPDMDEVINS pDevIns, PCPDMPCIHLP pPciHlp, PPDMPCIDEV pDev) { for (uint32_t i = 0; i < msixTableSize(pDev); i++) msixCheckPendingVector(pDevIns, pPciHlp, pDev, i); } void MsixPciConfigWrite(PPDMDEVINS pDevIns, PCPDMPCIHLP pPciHlp, PPDMPCIDEV pDev, uint32_t u32Address, uint32_t val, unsigned len) { int32_t iOff = u32Address - pDev->Int.s.u8MsixCapOffset; Assert(iOff >= 0 && (pciDevIsMsixCapable(pDev) && iOff < pDev->Int.s.u8MsixCapSize)); Log2(("MsixPciConfigWrite: %d <- %x (%d)\n", iOff, val, len)); uint32_t uAddr = u32Address; uint8_t u8NewVal; bool fJustEnabled = false; for (uint32_t i = 0; i < len; i++) { uint32_t reg = i + iOff; uint8_t u8Val = (uint8_t)val; switch (reg) { case 0: /* Capability ID, ro */ case 1: /* Next pointer, ro */ break; case VBOX_MSIX_CAP_MESSAGE_CONTROL: /* don't change read-only bits: 0-7 */ break; case VBOX_MSIX_CAP_MESSAGE_CONTROL + 1: { /* don't change read-only bits 8-13 */ u8NewVal = (u8Val & UINT8_C(~0x3f)) | (pDev->abConfig[uAddr] & UINT8_C(0x3f)); /* If just enabled globally - check pending vectors */ fJustEnabled |= msixBitJustCleared(pDev->abConfig[uAddr], u8NewVal, VBOX_PCI_MSIX_FLAGS_ENABLE >> 8); fJustEnabled |= msixBitJustCleared(pDev->abConfig[uAddr], u8NewVal, VBOX_PCI_MSIX_FLAGS_FUNCMASK >> 8); pDev->abConfig[uAddr] = u8NewVal; break; } default: /* other fields read-only too */ break; } uAddr++; val >>= 8; } if (fJustEnabled) msixCheckPendingVectors(pDevIns, pPciHlp, pDev); }