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/* $Id: MsiCommon.cpp $ */
/** @file
* MSI support routines
*
* @todo Straighten up this file!!
*/
/*
* Copyright (C) 2010-2023 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, in version 3 of the
* License.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses>.
*
* SPDX-License-Identifier: GPL-3.0-only
*/
#define LOG_GROUP LOG_GROUP_DEV_PCI
#define PDMPCIDEV_INCLUDE_PRIVATE /* Hack to get pdmpcidevint.h included at the right point. */
#include <VBox/pci.h>
#include <VBox/msi.h>
#include <VBox/vmm/pdmdev.h>
#include <VBox/log.h>
#include "MsiCommon.h"
#include "PciInline.h"
#include "DevPciInternal.h"
DECLINLINE(uint16_t) msiGetMessageControl(PPDMPCIDEV pDev)
{
uint32_t idxMessageControl = pDev->Int.s.u8MsiCapOffset + VBOX_MSI_CAP_MESSAGE_CONTROL;
#ifdef IN_RING3
if (pciDevIsPassthrough(pDev) && pDev->Int.s.pfnConfigRead)
{
uint32_t u32Value = 0;
VBOXSTRICTRC rcStrict = pDev->Int.s.pfnConfigRead(pDev->Int.s.CTX_SUFF(pDevIns), pDev, idxMessageControl, 2, &u32Value);
AssertRCSuccess(VBOXSTRICTRC_VAL(rcStrict));
return (uint16_t)u32Value;
}
#endif
return PCIDevGetWord(pDev, idxMessageControl);
}
DECLINLINE(bool) msiIs64Bit(PPDMPCIDEV pDev)
{
return pciDevIsMsi64Capable(pDev);
}
/** @todo r=klaus This design assumes that the config space cache is always
* up to date, which is a wrong assumption for the "emulate passthrough" case
* where only the callbacks give the correct data. */
DECLINLINE(uint32_t *) msiGetMaskBits(PPDMPCIDEV pDev)
{
uint8_t iOff = msiIs64Bit(pDev) ? VBOX_MSI_CAP_MASK_BITS_64 : VBOX_MSI_CAP_MASK_BITS_32;
/* devices may have no masked/pending support */
if (iOff >= pDev->Int.s.u8MsiCapSize)
return NULL;
iOff += pDev->Int.s.u8MsiCapOffset;
return (uint32_t*)(pDev->abConfig + iOff);
}
/** @todo r=klaus This design assumes that the config space cache is always
* up to date, which is a wrong assumption for the "emulate passthrough" case
* where only the callbacks give the correct data. */
DECLINLINE(uint32_t*) msiGetPendingBits(PPDMPCIDEV pDev)
{
uint8_t iOff = msiIs64Bit(pDev) ? VBOX_MSI_CAP_PENDING_BITS_64 : VBOX_MSI_CAP_PENDING_BITS_32;
/* devices may have no masked/pending support */
if (iOff >= pDev->Int.s.u8MsiCapSize)
return NULL;
iOff += pDev->Int.s.u8MsiCapOffset;
return (uint32_t*)(pDev->abConfig + iOff);
}
DECLINLINE(bool) msiIsEnabled(PPDMPCIDEV pDev)
{
return (msiGetMessageControl(pDev) & VBOX_PCI_MSI_FLAGS_ENABLE) != 0;
}
DECLINLINE(uint8_t) msiGetMme(PPDMPCIDEV pDev)
{
return (msiGetMessageControl(pDev) & VBOX_PCI_MSI_FLAGS_QSIZE) >> 4;
}
DECLINLINE(RTGCPHYS) msiGetMsiAddress(PPDMPCIDEV pDev)
{
if (msiIs64Bit(pDev))
{
uint32_t lo = PCIDevGetDWord(pDev, pDev->Int.s.u8MsiCapOffset + VBOX_MSI_CAP_MESSAGE_ADDRESS_LO);
uint32_t hi = PCIDevGetDWord(pDev, pDev->Int.s.u8MsiCapOffset + VBOX_MSI_CAP_MESSAGE_ADDRESS_HI);
return RT_MAKE_U64(lo, hi);
}
return PCIDevGetDWord(pDev, pDev->Int.s.u8MsiCapOffset + VBOX_MSI_CAP_MESSAGE_ADDRESS_32);
}
DECLINLINE(uint32_t) msiGetMsiData(PPDMPCIDEV pDev, int32_t iVector)
{
int16_t iOff = msiIs64Bit(pDev) ? VBOX_MSI_CAP_MESSAGE_DATA_64 : VBOX_MSI_CAP_MESSAGE_DATA_32;
uint16_t lo = PCIDevGetWord(pDev, pDev->Int.s.u8MsiCapOffset + iOff);
// vector encoding into lower bits of message data
uint8_t bits = msiGetMme(pDev);
uint16_t uMask = ((1 << bits) - 1);
lo &= ~uMask;
lo |= iVector & uMask;
return RT_MAKE_U32(lo, 0);
}
#ifdef IN_RING3
DECLINLINE(bool) msiR3BitJustCleared(uint32_t uOldValue, uint32_t uNewValue, uint32_t uMask)
{
return !!(uOldValue & uMask) && !(uNewValue & uMask);
}
DECLINLINE(bool) msiR3BitJustSet(uint32_t uOldValue, uint32_t uNewValue, uint32_t uMask)
{
return !(uOldValue & uMask) && !!(uNewValue & uMask);
}
/**
* PCI config space accessors for MSI registers.
*/
void MsiR3PciConfigWrite(PPDMDEVINS pDevIns, PCPDMPCIHLP pPciHlp, PPDMPCIDEV pDev,
uint32_t u32Address, uint32_t val, unsigned len)
{
int32_t iOff = u32Address - pDev->Int.s.u8MsiCapOffset;
Assert(iOff >= 0 && (pciDevIsMsiCapable(pDev) && iOff < pDev->Int.s.u8MsiCapSize));
Log2(("MsiR3PciConfigWrite: %d <- %x (%d)\n", iOff, val, len));
uint32_t uAddr = u32Address;
bool f64Bit = msiIs64Bit(pDev);
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_MSI_CAP_MESSAGE_CONTROL:
/* don't change read-only bits: 1-3,7 */
u8Val &= UINT8_C(~0x8e);
pDev->abConfig[uAddr] = u8Val | (pDev->abConfig[uAddr] & UINT8_C(0x8e));
break;
case VBOX_MSI_CAP_MESSAGE_CONTROL + 1:
/* don't change read-only bit 8, and reserved 9-15 */
break;
default:
if (pDev->abConfig[uAddr] != u8Val)
{
int32_t maskUpdated = -1;
/* If we're enabling masked vector, and have pending messages
for this vector, we have to send this message now */
if ( !f64Bit
&& (reg >= VBOX_MSI_CAP_MASK_BITS_32)
&& (reg < VBOX_MSI_CAP_MASK_BITS_32 + 4)
)
{
maskUpdated = reg - VBOX_MSI_CAP_MASK_BITS_32;
}
if ( f64Bit
&& (reg >= VBOX_MSI_CAP_MASK_BITS_64)
&& (reg < VBOX_MSI_CAP_MASK_BITS_64 + 4)
)
{
maskUpdated = reg - VBOX_MSI_CAP_MASK_BITS_64;
}
if (maskUpdated != -1 && msiIsEnabled(pDev))
{
uint32_t* puPending = msiGetPendingBits(pDev);
for (int iBitNum = 0; iBitNum < 8; iBitNum++)
{
int32_t iBit = 1 << iBitNum;
uint32_t uVector = maskUpdated*8 + iBitNum;
if (msiR3BitJustCleared(pDev->abConfig[uAddr], u8Val, iBit))
{
Log(("msi: mask updated bit %d@%x (%d)\n", iBitNum, uAddr, maskUpdated));
/* To ensure that we're no longer masked */
pDev->abConfig[uAddr] &= ~iBit;
if ((*puPending & (1 << uVector)) != 0)
{
Log(("msi: notify earlier masked pending vector: %d\n", uVector));
MsiNotify(pDevIns, pPciHlp, pDev, uVector, PDM_IRQ_LEVEL_HIGH, 0 /*uTagSrc*/);
}
}
if (msiR3BitJustSet(pDev->abConfig[uAddr], u8Val, iBit))
{
Log(("msi: mask vector: %d\n", uVector));
}
}
}
pDev->abConfig[uAddr] = u8Val;
}
}
uAddr++;
val >>= 8;
}
}
/**
* Initializes MSI support for the given PCI device.
*/
int MsiR3Init(PPDMPCIDEV pDev, PPDMMSIREG pMsiReg)
{
if (pMsiReg->cMsiVectors == 0)
return VINF_SUCCESS;
/* XXX: done in pcirawAnalyzePciCaps() */
if (pciDevIsPassthrough(pDev))
return VINF_SUCCESS;
uint16_t cVectors = pMsiReg->cMsiVectors;
uint8_t iCapOffset = pMsiReg->iMsiCapOffset;
uint8_t iNextOffset = pMsiReg->iMsiNextOffset;
bool f64bit = pMsiReg->fMsi64bit;
bool fNoMasking = pMsiReg->fMsiNoMasking;
uint16_t iFlags = 0;
Assert(iCapOffset != 0 && iCapOffset < 0xff && iNextOffset < 0xff);
if (!fNoMasking)
{
int iMmc;
/* Compute multiple-message capable bitfield */
for (iMmc = 0; iMmc < 6; iMmc++)
{
if ((1 << iMmc) >= cVectors)
break;
}
if ((cVectors > VBOX_MSI_MAX_ENTRIES) || (1 << iMmc) < cVectors)
return VERR_TOO_MUCH_DATA;
/* We support per-vector masking */
iFlags |= VBOX_PCI_MSI_FLAGS_MASKBIT;
/* How many vectors we're capable of */
iFlags |= iMmc;
}
if (f64bit)
iFlags |= VBOX_PCI_MSI_FLAGS_64BIT;
pDev->Int.s.u8MsiCapOffset = iCapOffset;
pDev->Int.s.u8MsiCapSize = f64bit ? VBOX_MSI_CAP_SIZE_64 : VBOX_MSI_CAP_SIZE_32;
PCIDevSetByte(pDev, iCapOffset + 0, VBOX_PCI_CAP_ID_MSI);
PCIDevSetByte(pDev, iCapOffset + 1, iNextOffset); /* next */
PCIDevSetWord(pDev, iCapOffset + VBOX_MSI_CAP_MESSAGE_CONTROL, iFlags);
if (!fNoMasking)
{
*msiGetMaskBits(pDev) = 0;
*msiGetPendingBits(pDev) = 0;
}
pciDevSetMsiCapable(pDev);
if (f64bit)
pciDevSetMsi64Capable(pDev);
return VINF_SUCCESS;
}
#endif /* IN_RING3 */
/**
* Checks if MSI is enabled for the given PCI device.
*
* (Must use MSINotify() for notifications when true.)
*/
bool MsiIsEnabled(PPDMPCIDEV pDev)
{
return pciDevIsMsiCapable(pDev) && msiIsEnabled(pDev);
}
/**
* Device notification (aka interrupt).
*/
void MsiNotify(PPDMDEVINS pDevIns, PCPDMPCIHLP pPciHlp, PPDMPCIDEV pDev, int iVector, int iLevel, uint32_t uTagSrc)
{
AssertMsg(msiIsEnabled(pDev), ("Must be enabled to use that"));
uint32_t uMask;
uint32_t *puPending = msiGetPendingBits(pDev);
if (puPending)
{
uint32_t *puMask = msiGetMaskBits(pDev);
AssertPtr(puMask);
uMask = *puMask;
LogFlow(("MsiNotify: %d pending=%x mask=%x\n", iVector, *puPending, uMask));
}
else
{
uMask = 0;
LogFlow(("MsiNotify: %d\n", iVector));
}
/* We only trigger MSI on level up */
if ((iLevel & PDM_IRQ_LEVEL_HIGH) == 0)
{
/** @todo maybe clear pending interrupts on level down? */
#if 0
if (puPending)
{
*puPending &= ~(1<<iVector);
LogFlow(("msi: clear pending %d, now %x\n", iVector, *puPending));
}
#endif
return;
}
if ((uMask & (1<<iVector)) != 0)
{
*puPending |= (1<<iVector);
LogFlow(("msi: %d is masked, mark pending, now %x\n", iVector, *puPending));
return;
}
MSIMSG Msi;
Msi.Addr.u64 = msiGetMsiAddress(pDev);
Msi.Data.u32 = msiGetMsiData(pDev, iVector);
if (puPending)
*puPending &= ~(1<<iVector);
PPDMDEVINS pDevInsBus = pPciHlp->pfnGetBusByNo(pDevIns, pDev->Int.s.idxPdmBus);
Assert(pDevInsBus);
PDEVPCIBUS pBus = PDMINS_2_DATA(pDevInsBus, PDEVPCIBUS);
uint16_t const uBusDevFn = PCIBDF_MAKE(pBus->iBus, pDev->uDevFn);
Assert(pPciHlp->pfnIoApicSendMsi != NULL);
pPciHlp->pfnIoApicSendMsi(pDevIns, uBusDevFn, &Msi, uTagSrc);
}
|