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|
/* $Id: CPUMR0.cpp $ */
/** @file
* CPUM - Host Context Ring 0.
*/
/*
* Copyright (C) 2006-2023 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
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define LOG_GROUP LOG_GROUP_CPUM
#define CPUM_WITH_NONCONST_HOST_FEATURES
#include <VBox/vmm/cpum.h>
#include <VBox/vmm/hm.h>
#include "CPUMInternal.h"
#include <VBox/vmm/vmcc.h>
#include <VBox/vmm/gvm.h>
#include <VBox/err.h>
#include <VBox/log.h>
#include <VBox/vmm/hm.h>
#include <iprt/assert.h>
#include <iprt/asm-amd64-x86.h>
#include <iprt/mem.h>
#include <iprt/x86.h>
/*********************************************************************************************************************************
* Global Variables *
*********************************************************************************************************************************/
/** Host CPU features. */
DECL_HIDDEN_DATA(CPUHOSTFEATURES) g_CpumHostFeatures;
/** Static storage for host MSRs. */
static CPUMMSRS g_CpumHostMsrs;
/**
* CPUID bits to unify among all cores.
*/
static struct
{
uint32_t uLeaf; /**< Leaf to check. */
uint32_t uEcx; /**< which bits in ecx to unify between CPUs. */
uint32_t uEdx; /**< which bits in edx to unify between CPUs. */
}
const g_aCpuidUnifyBits[] =
{
{
0x00000001,
X86_CPUID_FEATURE_ECX_CX16 | X86_CPUID_FEATURE_ECX_MONITOR,
X86_CPUID_FEATURE_EDX_CX8
}
};
/*********************************************************************************************************************************
* Internal Functions *
*********************************************************************************************************************************/
static int cpumR0SaveHostDebugState(PVMCPUCC pVCpu);
/**
* Check the CPUID features of this particular CPU and disable relevant features
* for the guest which do not exist on this CPU.
*
* We have seen systems where the X86_CPUID_FEATURE_ECX_MONITOR feature flag is
* only set on some host CPUs, see @bugref{5436}.
*
* @note This function might be called simultaneously on more than one CPU!
*
* @param idCpu The identifier for the CPU the function is called on.
* @param pvUser1 Leaf array.
* @param pvUser2 Number of leaves.
*/
static DECLCALLBACK(void) cpumR0CheckCpuid(RTCPUID idCpu, void *pvUser1, void *pvUser2)
{
PCPUMCPUIDLEAF const paLeaves = (PCPUMCPUIDLEAF)pvUser1;
uint32_t const cLeaves = (uint32_t)(uintptr_t)pvUser2;
RT_NOREF(idCpu);
for (uint32_t i = 0; i < RT_ELEMENTS(g_aCpuidUnifyBits); i++)
{
PCPUMCPUIDLEAF pLeaf = cpumCpuIdGetLeafInt(paLeaves, cLeaves, g_aCpuidUnifyBits[i].uLeaf, 0);
if (pLeaf)
{
uint32_t uEax, uEbx, uEcx, uEdx;
ASMCpuIdExSlow(g_aCpuidUnifyBits[i].uLeaf, 0, 0, 0, &uEax, &uEbx, &uEcx, &uEdx);
ASMAtomicAndU32(&pLeaf->uEcx, uEcx | ~g_aCpuidUnifyBits[i].uEcx);
ASMAtomicAndU32(&pLeaf->uEdx, uEdx | ~g_aCpuidUnifyBits[i].uEdx);
}
}
}
/**
* Does the Ring-0 CPU initialization once during module load.
* XXX Host-CPU hot-plugging?
*/
VMMR0_INT_DECL(int) CPUMR0ModuleInit(void)
{
/*
* Query the hardware virtualization capabilities of the host CPU first.
*/
uint32_t fHwCaps = 0;
int rc = SUPR0GetVTSupport(&fHwCaps);
AssertLogRelMsg(RT_SUCCESS(rc) || rc == VERR_UNSUPPORTED_CPU || rc == VERR_SVM_NO_SVM || rc == VERR_VMX_NO_VMX,
("SUPR0GetHwvirtMsrs -> %Rrc\n", rc));
if (RT_SUCCESS(rc))
{
SUPHWVIRTMSRS HwvirtMsrs;
rc = SUPR0GetHwvirtMsrs(&HwvirtMsrs, fHwCaps, false /*fIgnored*/);
AssertLogRelRC(rc);
if (RT_SUCCESS(rc))
{
if (fHwCaps & SUPVTCAPS_VT_X)
HMGetVmxMsrsFromHwvirtMsrs(&HwvirtMsrs, &g_CpumHostMsrs.hwvirt.vmx);
else
HMGetSvmMsrsFromHwvirtMsrs(&HwvirtMsrs, &g_CpumHostMsrs.hwvirt.svm);
}
}
/*
* Collect CPUID leaves.
*/
PCPUMCPUIDLEAF paLeaves;
uint32_t cLeaves;
rc = CPUMCpuIdCollectLeavesX86(&paLeaves, &cLeaves);
AssertLogRelRCReturn(rc, rc);
/*
* Unify/cross check some CPUID feature bits on all available CPU cores
* and threads. We've seen CPUs where the monitor support differed.
*/
RTMpOnAll(cpumR0CheckCpuid, paLeaves, (void *)(uintptr_t)cLeaves);
/*
* Populate the host CPU feature global variable.
*/
rc = cpumCpuIdExplodeFeaturesX86(paLeaves, cLeaves, &g_CpumHostMsrs, &g_CpumHostFeatures.s);
RTMemFree(paLeaves);
AssertLogRelRCReturn(rc, rc);
/*
* Get MSR_IA32_ARCH_CAPABILITIES and expand it into the host feature structure.
*/
if (ASMHasCpuId())
{
/** @todo Should add this MSR to CPUMMSRS and expose it via SUPDrv... */
g_CpumHostFeatures.s.fArchRdclNo = 0;
g_CpumHostFeatures.s.fArchIbrsAll = 0;
g_CpumHostFeatures.s.fArchRsbOverride = 0;
g_CpumHostFeatures.s.fArchVmmNeedNotFlushL1d = 0;
g_CpumHostFeatures.s.fArchMdsNo = 0;
uint32_t const cStdRange = ASMCpuId_EAX(0);
if ( RTX86IsValidStdRange(cStdRange)
&& cStdRange >= 7)
{
uint32_t const fStdFeaturesEdx = ASMCpuId_EDX(1);
uint32_t fStdExtFeaturesEdx;
ASMCpuIdExSlow(7, 0, 0, 0, NULL, NULL, NULL, &fStdExtFeaturesEdx);
if ( (fStdExtFeaturesEdx & X86_CPUID_STEXT_FEATURE_EDX_ARCHCAP)
&& (fStdFeaturesEdx & X86_CPUID_FEATURE_EDX_MSR))
{
uint64_t fArchVal = ASMRdMsr(MSR_IA32_ARCH_CAPABILITIES);
g_CpumHostFeatures.s.fArchRdclNo = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_RDCL_NO);
g_CpumHostFeatures.s.fArchIbrsAll = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_IBRS_ALL);
g_CpumHostFeatures.s.fArchRsbOverride = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_RSBO);
g_CpumHostFeatures.s.fArchVmmNeedNotFlushL1d = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_VMM_NEED_NOT_FLUSH_L1D);
g_CpumHostFeatures.s.fArchMdsNo = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_MDS_NO);
}
else
g_CpumHostFeatures.s.fArchCap = 0;
}
}
return VINF_SUCCESS;
}
/**
* Terminate the module.
*/
VMMR0_INT_DECL(int) CPUMR0ModuleTerm(void)
{
return VINF_SUCCESS;
}
/**
* Initializes the CPUM data in the VM structure.
*
* @param pGVM The global VM structure.
*/
VMMR0_INT_DECL(void) CPUMR0InitPerVMData(PGVM pGVM)
{
/* Copy the ring-0 host feature set to the shared part so ring-3 can pick it up. */
pGVM->cpum.s.HostFeatures = g_CpumHostFeatures.s;
}
/**
* Check the CPUID features of this particular CPU and disable relevant features
* for the guest which do not exist on this CPU. We have seen systems where the
* X86_CPUID_FEATURE_ECX_MONITOR feature flag is only set on some host CPUs, see
* @bugref{5436}.
*
* @note This function might be called simultaneously on more than one CPU!
*
* @param idCpu The identifier for the CPU the function is called on.
* @param pvUser1 Pointer to the VM structure.
* @param pvUser2 Ignored.
*/
static DECLCALLBACK(void) cpumR0CheckCpuidLegacy(RTCPUID idCpu, void *pvUser1, void *pvUser2)
{
PVMCC pVM = (PVMCC)pvUser1;
NOREF(idCpu); NOREF(pvUser2);
for (uint32_t i = 0; i < RT_ELEMENTS(g_aCpuidUnifyBits); i++)
{
/* Note! Cannot use cpumCpuIdGetLeaf from here because we're not
necessarily in the VM process context. So, we using the
legacy arrays as temporary storage. */
uint32_t uLeaf = g_aCpuidUnifyBits[i].uLeaf;
PCPUMCPUID pLegacyLeaf;
if (uLeaf < RT_ELEMENTS(pVM->cpum.s.aGuestCpuIdPatmStd))
pLegacyLeaf = &pVM->cpum.s.aGuestCpuIdPatmStd[uLeaf];
else if (uLeaf - UINT32_C(0x80000000) < RT_ELEMENTS(pVM->cpum.s.aGuestCpuIdPatmExt))
pLegacyLeaf = &pVM->cpum.s.aGuestCpuIdPatmExt[uLeaf - UINT32_C(0x80000000)];
else if (uLeaf - UINT32_C(0xc0000000) < RT_ELEMENTS(pVM->cpum.s.aGuestCpuIdPatmCentaur))
pLegacyLeaf = &pVM->cpum.s.aGuestCpuIdPatmCentaur[uLeaf - UINT32_C(0xc0000000)];
else
continue;
uint32_t eax, ebx, ecx, edx;
ASMCpuIdExSlow(uLeaf, 0, 0, 0, &eax, &ebx, &ecx, &edx);
ASMAtomicAndU32(&pLegacyLeaf->uEcx, ecx | ~g_aCpuidUnifyBits[i].uEcx);
ASMAtomicAndU32(&pLegacyLeaf->uEdx, edx | ~g_aCpuidUnifyBits[i].uEdx);
}
}
/**
* Does Ring-0 CPUM initialization.
*
* This is mainly to check that the Host CPU mode is compatible
* with VBox.
*
* @returns VBox status code.
* @param pVM The cross context VM structure.
*/
VMMR0_INT_DECL(int) CPUMR0InitVM(PVMCC pVM)
{
LogFlow(("CPUMR0Init: %p\n", pVM));
AssertCompile(sizeof(pVM->aCpus[0].cpum.s.Host.abXState) >= sizeof(pVM->aCpus[0].cpum.s.Guest.abXState));
/*
* Check CR0 & CR4 flags.
*/
uint32_t u32CR0 = ASMGetCR0();
if ((u32CR0 & (X86_CR0_PE | X86_CR0_PG)) != (X86_CR0_PE | X86_CR0_PG)) /* a bit paranoid perhaps.. */
{
Log(("CPUMR0Init: PE or PG not set. cr0=%#x\n", u32CR0));
return VERR_UNSUPPORTED_CPU_MODE;
}
/*
* Check for sysenter and syscall usage.
*/
if (ASMHasCpuId())
{
/*
* SYSENTER/SYSEXIT
*
* Intel docs claim you should test both the flag and family, model &
* stepping because some Pentium Pro CPUs have the SEP cpuid flag set,
* but don't support it. AMD CPUs may support this feature in legacy
* mode, they've banned it from long mode. Since we switch to 32-bit
* mode when entering raw-mode context the feature would become
* accessible again on AMD CPUs, so we have to check regardless of
* host bitness.
*/
uint32_t u32CpuVersion;
uint32_t u32Dummy;
uint32_t fFeatures; /* (Used further down to check for MSRs, so don't clobber.) */
ASMCpuId(1, &u32CpuVersion, &u32Dummy, &u32Dummy, &fFeatures);
uint32_t const u32Family = u32CpuVersion >> 8;
uint32_t const u32Model = (u32CpuVersion >> 4) & 0xF;
uint32_t const u32Stepping = u32CpuVersion & 0xF;
if ( (fFeatures & X86_CPUID_FEATURE_EDX_SEP)
&& ( u32Family != 6 /* (> pentium pro) */
|| u32Model >= 3
|| u32Stepping >= 3
|| !ASMIsIntelCpu())
)
{
/*
* Read the MSR and see if it's in use or not.
*/
uint32_t u32 = ASMRdMsr_Low(MSR_IA32_SYSENTER_CS);
if (u32)
{
pVM->cpum.s.fHostUseFlags |= CPUM_USE_SYSENTER;
Log(("CPUMR0Init: host uses sysenter cs=%08x%08x\n", ASMRdMsr_High(MSR_IA32_SYSENTER_CS), u32));
}
}
/*
* SYSCALL/SYSRET
*
* This feature is indicated by the SEP bit returned in EDX by CPUID
* function 0x80000001. Intel CPUs only supports this feature in
* long mode. Since we're not running 64-bit guests in raw-mode there
* are no issues with 32-bit intel hosts.
*/
uint32_t cExt = 0;
ASMCpuId(0x80000000, &cExt, &u32Dummy, &u32Dummy, &u32Dummy);
if (RTX86IsValidExtRange(cExt))
{
uint32_t fExtFeaturesEDX = ASMCpuId_EDX(0x80000001);
if (fExtFeaturesEDX & X86_CPUID_EXT_FEATURE_EDX_SYSCALL)
{
#ifdef RT_ARCH_X86
if (!ASMIsIntelCpu())
#endif
{
uint64_t fEfer = ASMRdMsr(MSR_K6_EFER);
if (fEfer & MSR_K6_EFER_SCE)
{
pVM->cpum.s.fHostUseFlags |= CPUM_USE_SYSCALL;
Log(("CPUMR0Init: host uses syscall\n"));
}
}
}
}
/*
* Copy MSR_IA32_ARCH_CAPABILITIES bits over into the host and guest feature
* structure and as well as the guest MSR.
* Note! we assume this happens after the CPUMR3Init is done, so CPUID bits are settled.
*/
pVM->cpum.s.HostFeatures.fArchRdclNo = 0;
pVM->cpum.s.HostFeatures.fArchIbrsAll = 0;
pVM->cpum.s.HostFeatures.fArchRsbOverride = 0;
pVM->cpum.s.HostFeatures.fArchVmmNeedNotFlushL1d = 0;
pVM->cpum.s.HostFeatures.fArchMdsNo = 0;
uint32_t const cStdRange = ASMCpuId_EAX(0);
if ( RTX86IsValidStdRange(cStdRange)
&& cStdRange >= 7)
{
uint32_t fEdxFeatures = ASMCpuId_EDX(7);
if ( (fEdxFeatures & X86_CPUID_STEXT_FEATURE_EDX_ARCHCAP)
&& (fFeatures & X86_CPUID_FEATURE_EDX_MSR))
{
/* Host: */
uint64_t fArchVal = ASMRdMsr(MSR_IA32_ARCH_CAPABILITIES);
pVM->cpum.s.HostFeatures.fArchRdclNo = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_RDCL_NO);
pVM->cpum.s.HostFeatures.fArchIbrsAll = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_IBRS_ALL);
pVM->cpum.s.HostFeatures.fArchRsbOverride = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_RSBO);
pVM->cpum.s.HostFeatures.fArchVmmNeedNotFlushL1d = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_VMM_NEED_NOT_FLUSH_L1D);
pVM->cpum.s.HostFeatures.fArchMdsNo = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_MDS_NO);
/* guest: */
if (!pVM->cpum.s.GuestFeatures.fArchCap)
fArchVal = 0;
else if (!pVM->cpum.s.GuestFeatures.fIbrs)
fArchVal &= ~MSR_IA32_ARCH_CAP_F_IBRS_ALL;
VMCC_FOR_EACH_VMCPU_STMT(pVM, pVCpu->cpum.s.GuestMsrs.msr.ArchCaps = fArchVal);
pVM->cpum.s.GuestFeatures.fArchRdclNo = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_RDCL_NO);
pVM->cpum.s.GuestFeatures.fArchIbrsAll = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_IBRS_ALL);
pVM->cpum.s.GuestFeatures.fArchRsbOverride = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_RSBO);
pVM->cpum.s.GuestFeatures.fArchVmmNeedNotFlushL1d = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_VMM_NEED_NOT_FLUSH_L1D);
pVM->cpum.s.GuestFeatures.fArchMdsNo = RT_BOOL(fArchVal & MSR_IA32_ARCH_CAP_F_MDS_NO);
}
else
pVM->cpum.s.HostFeatures.fArchCap = 0;
}
/*
* Unify/cross check some CPUID feature bits on all available CPU cores
* and threads. We've seen CPUs where the monitor support differed.
*
* Because the hyper heap isn't always mapped into ring-0, we cannot
* access it from a RTMpOnAll callback. We use the legacy CPUID arrays
* as temp ring-0 accessible memory instead, ASSUMING that they're all
* up to date when we get here.
*/
RTMpOnAll(cpumR0CheckCpuidLegacy, pVM, NULL);
for (uint32_t i = 0; i < RT_ELEMENTS(g_aCpuidUnifyBits); i++)
{
bool fIgnored;
uint32_t uLeaf = g_aCpuidUnifyBits[i].uLeaf;
PCPUMCPUIDLEAF pLeaf = cpumCpuIdGetLeafEx(pVM, uLeaf, 0, &fIgnored);
if (pLeaf)
{
PCPUMCPUID pLegacyLeaf;
if (uLeaf < RT_ELEMENTS(pVM->cpum.s.aGuestCpuIdPatmStd))
pLegacyLeaf = &pVM->cpum.s.aGuestCpuIdPatmStd[uLeaf];
else if (uLeaf - UINT32_C(0x80000000) < RT_ELEMENTS(pVM->cpum.s.aGuestCpuIdPatmExt))
pLegacyLeaf = &pVM->cpum.s.aGuestCpuIdPatmExt[uLeaf - UINT32_C(0x80000000)];
else if (uLeaf - UINT32_C(0xc0000000) < RT_ELEMENTS(pVM->cpum.s.aGuestCpuIdPatmCentaur))
pLegacyLeaf = &pVM->cpum.s.aGuestCpuIdPatmCentaur[uLeaf - UINT32_C(0xc0000000)];
else
continue;
pLeaf->uEcx = pLegacyLeaf->uEcx;
pLeaf->uEdx = pLegacyLeaf->uEdx;
}
}
}
/*
* Check if debug registers are armed.
* This ASSUMES that DR7.GD is not set, or that it's handled transparently!
*/
uint32_t u32DR7 = ASMGetDR7();
if (u32DR7 & X86_DR7_ENABLED_MASK)
{
VMCC_FOR_EACH_VMCPU_STMT(pVM, pVCpu->cpum.s.fUseFlags |= CPUM_USE_DEBUG_REGS_HOST);
Log(("CPUMR0Init: host uses debug registers (dr7=%x)\n", u32DR7));
}
return VINF_SUCCESS;
}
/**
* Trap handler for device-not-available fault (\#NM).
* Device not available, FP or (F)WAIT instruction.
*
* @returns VBox status code.
* @retval VINF_SUCCESS if the guest FPU state is loaded.
* @retval VINF_EM_RAW_GUEST_TRAP if it is a guest trap.
* @retval VINF_CPUM_HOST_CR0_MODIFIED if we modified the host CR0.
*
* @param pVM The cross context VM structure.
* @param pVCpu The cross context virtual CPU structure.
*/
VMMR0_INT_DECL(int) CPUMR0Trap07Handler(PVMCC pVM, PVMCPUCC pVCpu)
{
Assert(pVM->cpum.s.HostFeatures.fFxSaveRstor);
Assert(ASMGetCR4() & X86_CR4_OSFXSR);
/* If the FPU state has already been loaded, then it's a guest trap. */
if (CPUMIsGuestFPUStateActive(pVCpu))
{
Assert( ((pVCpu->cpum.s.Guest.cr0 & (X86_CR0_MP | X86_CR0_EM | X86_CR0_TS)) == (X86_CR0_MP | X86_CR0_TS))
|| ((pVCpu->cpum.s.Guest.cr0 & (X86_CR0_MP | X86_CR0_EM | X86_CR0_TS)) == (X86_CR0_MP | X86_CR0_TS | X86_CR0_EM)));
return VINF_EM_RAW_GUEST_TRAP;
}
/*
* There are two basic actions:
* 1. Save host fpu and restore guest fpu.
* 2. Generate guest trap.
*
* When entering the hypervisor we'll always enable MP (for proper wait
* trapping) and TS (for intercepting all fpu/mmx/sse stuff). The EM flag
* is taken from the guest OS in order to get proper SSE handling.
*
*
* Actions taken depending on the guest CR0 flags:
*
* 3 2 1
* TS | EM | MP | FPUInstr | WAIT :: VMM Action
* ------------------------------------------------------------------------
* 0 | 0 | 0 | Exec | Exec :: Clear TS & MP, Save HC, Load GC.
* 0 | 0 | 1 | Exec | Exec :: Clear TS, Save HC, Load GC.
* 0 | 1 | 0 | #NM | Exec :: Clear TS & MP, Save HC, Load GC.
* 0 | 1 | 1 | #NM | Exec :: Clear TS, Save HC, Load GC.
* 1 | 0 | 0 | #NM | Exec :: Clear MP, Save HC, Load GC. (EM is already cleared.)
* 1 | 0 | 1 | #NM | #NM :: Go to guest taking trap there.
* 1 | 1 | 0 | #NM | Exec :: Clear MP, Save HC, Load GC. (EM is already set.)
* 1 | 1 | 1 | #NM | #NM :: Go to guest taking trap there.
*/
switch (pVCpu->cpum.s.Guest.cr0 & (X86_CR0_MP | X86_CR0_EM | X86_CR0_TS))
{
case X86_CR0_MP | X86_CR0_TS:
case X86_CR0_MP | X86_CR0_TS | X86_CR0_EM:
return VINF_EM_RAW_GUEST_TRAP;
default:
break;
}
return CPUMR0LoadGuestFPU(pVM, pVCpu);
}
/**
* Saves the host-FPU/XMM state (if necessary) and (always) loads the guest-FPU
* state into the CPU.
*
* @returns VINF_SUCCESS on success, host CR0 unmodified.
* @returns VINF_CPUM_HOST_CR0_MODIFIED on success when the host CR0 was
* modified and VT-x needs to update the value in the VMCS.
*
* @param pVM The cross context VM structure.
* @param pVCpu The cross context virtual CPU structure.
*/
VMMR0_INT_DECL(int) CPUMR0LoadGuestFPU(PVMCC pVM, PVMCPUCC pVCpu)
{
int rc;
Assert(!RTThreadPreemptIsEnabled(NIL_RTTHREAD));
Assert(!(pVCpu->cpum.s.fUseFlags & CPUM_USED_FPU_GUEST));
/* Notify the support driver prior to loading the guest-FPU register state. */
SUPR0FpuBegin(VMMR0ThreadCtxHookIsEnabled(pVCpu));
/** @todo use return value? Currently skipping that to be on the safe side
* wrt. extended state (linux). */
if (!pVM->cpum.s.HostFeatures.fLeakyFxSR)
{
Assert(!(pVCpu->cpum.s.fUseFlags & CPUM_USED_MANUAL_XMM_RESTORE));
rc = cpumR0SaveHostRestoreGuestFPUState(&pVCpu->cpum.s);
}
else
{
Assert(!(pVCpu->cpum.s.fUseFlags & CPUM_USED_MANUAL_XMM_RESTORE) || (pVCpu->cpum.s.fUseFlags & CPUM_USED_FPU_HOST));
/** @todo r=ramshankar: Can't we used a cached value here
* instead of reading the MSR? host EFER doesn't usually
* change. */
uint64_t uHostEfer = ASMRdMsr(MSR_K6_EFER);
if (!(uHostEfer & MSR_K6_EFER_FFXSR))
rc = cpumR0SaveHostRestoreGuestFPUState(&pVCpu->cpum.s);
else
{
RTCCUINTREG const uSavedFlags = ASMIntDisableFlags();
pVCpu->cpum.s.fUseFlags |= CPUM_USED_MANUAL_XMM_RESTORE;
ASMWrMsr(MSR_K6_EFER, uHostEfer & ~MSR_K6_EFER_FFXSR);
rc = cpumR0SaveHostRestoreGuestFPUState(&pVCpu->cpum.s);
ASMWrMsr(MSR_K6_EFER, uHostEfer | MSR_K6_EFER_FFXSR);
ASMSetFlags(uSavedFlags);
}
}
Assert( (pVCpu->cpum.s.fUseFlags & (CPUM_USED_FPU_GUEST | CPUM_USED_FPU_HOST | CPUM_USED_FPU_SINCE_REM))
== (CPUM_USED_FPU_GUEST | CPUM_USED_FPU_HOST | CPUM_USED_FPU_SINCE_REM));
Assert(pVCpu->cpum.s.Guest.fUsedFpuGuest);
return rc;
}
/**
* Saves the guest FPU/XMM state if needed, restores the host FPU/XMM state as
* needed.
*
* @returns true if we saved the guest state.
* @param pVCpu The cross context virtual CPU structure.
*/
VMMR0_INT_DECL(bool) CPUMR0FpuStateMaybeSaveGuestAndRestoreHost(PVMCPUCC pVCpu)
{
bool fSavedGuest;
Assert(pVCpu->CTX_SUFF(pVM)->cpum.s.HostFeatures.fFxSaveRstor);
Assert(ASMGetCR4() & X86_CR4_OSFXSR);
if (pVCpu->cpum.s.fUseFlags & (CPUM_USED_FPU_GUEST | CPUM_USED_FPU_HOST))
{
fSavedGuest = RT_BOOL(pVCpu->cpum.s.fUseFlags & CPUM_USED_FPU_GUEST);
Assert(fSavedGuest == pVCpu->cpum.s.Guest.fUsedFpuGuest);
if (!(pVCpu->cpum.s.fUseFlags & CPUM_USED_MANUAL_XMM_RESTORE))
cpumR0SaveGuestRestoreHostFPUState(&pVCpu->cpum.s);
else
{
/* Temporarily clear MSR_K6_EFER_FFXSR or else we'll be unable to
save/restore the XMM state with fxsave/fxrstor. */
uint64_t uHostEfer = ASMRdMsr(MSR_K6_EFER);
if (uHostEfer & MSR_K6_EFER_FFXSR)
{
RTCCUINTREG const uSavedFlags = ASMIntDisableFlags();
ASMWrMsr(MSR_K6_EFER, uHostEfer & ~MSR_K6_EFER_FFXSR);
cpumR0SaveGuestRestoreHostFPUState(&pVCpu->cpum.s);
ASMWrMsr(MSR_K6_EFER, uHostEfer | MSR_K6_EFER_FFXSR);
ASMSetFlags(uSavedFlags);
}
else
cpumR0SaveGuestRestoreHostFPUState(&pVCpu->cpum.s);
pVCpu->cpum.s.fUseFlags &= ~CPUM_USED_MANUAL_XMM_RESTORE;
}
/* Notify the support driver after loading the host-FPU register state. */
SUPR0FpuEnd(VMMR0ThreadCtxHookIsEnabled(pVCpu));
}
else
fSavedGuest = false;
Assert(!( pVCpu->cpum.s.fUseFlags
& (CPUM_USED_FPU_GUEST | CPUM_USED_FPU_HOST | CPUM_USED_MANUAL_XMM_RESTORE)));
Assert(!pVCpu->cpum.s.Guest.fUsedFpuGuest);
return fSavedGuest;
}
/**
* Saves the host debug state, setting CPUM_USED_HOST_DEBUG_STATE and loading
* DR7 with safe values.
*
* @returns VBox status code.
* @param pVCpu The cross context virtual CPU structure.
*/
static int cpumR0SaveHostDebugState(PVMCPUCC pVCpu)
{
/*
* Save the host state.
*/
pVCpu->cpum.s.Host.dr0 = ASMGetDR0();
pVCpu->cpum.s.Host.dr1 = ASMGetDR1();
pVCpu->cpum.s.Host.dr2 = ASMGetDR2();
pVCpu->cpum.s.Host.dr3 = ASMGetDR3();
pVCpu->cpum.s.Host.dr6 = ASMGetDR6();
/** @todo dr7 might already have been changed to 0x400; don't care right now as it's harmless. */
pVCpu->cpum.s.Host.dr7 = ASMGetDR7();
/* Preemption paranoia. */
ASMAtomicOrU32(&pVCpu->cpum.s.fUseFlags, CPUM_USED_DEBUG_REGS_HOST);
/*
* Make sure DR7 is harmless or else we could trigger breakpoints when
* load guest or hypervisor DRx values later.
*/
if (pVCpu->cpum.s.Host.dr7 != X86_DR7_INIT_VAL)
ASMSetDR7(X86_DR7_INIT_VAL);
return VINF_SUCCESS;
}
/**
* Saves the guest DRx state residing in host registers and restore the host
* register values.
*
* The guest DRx state is only saved if CPUMR0LoadGuestDebugState was called,
* since it's assumed that we're shadowing the guest DRx register values
* accurately when using the combined hypervisor debug register values
* (CPUMR0LoadHyperDebugState).
*
* @returns true if either guest or hypervisor debug registers were loaded.
* @param pVCpu The cross context virtual CPU structure of the calling EMT.
* @param fDr6 Whether to include DR6 or not.
* @thread EMT(pVCpu)
*/
VMMR0_INT_DECL(bool) CPUMR0DebugStateMaybeSaveGuestAndRestoreHost(PVMCPUCC pVCpu, bool fDr6)
{
Assert(!RTThreadPreemptIsEnabled(NIL_RTTHREAD));
bool const fDrXLoaded = RT_BOOL(pVCpu->cpum.s.fUseFlags & (CPUM_USED_DEBUG_REGS_GUEST | CPUM_USED_DEBUG_REGS_HYPER));
/*
* Do we need to save the guest DRx registered loaded into host registers?
* (DR7 and DR6 (if fDr6 is true) are left to the caller.)
*/
if (pVCpu->cpum.s.fUseFlags & CPUM_USED_DEBUG_REGS_GUEST)
{
pVCpu->cpum.s.Guest.dr[0] = ASMGetDR0();
pVCpu->cpum.s.Guest.dr[1] = ASMGetDR1();
pVCpu->cpum.s.Guest.dr[2] = ASMGetDR2();
pVCpu->cpum.s.Guest.dr[3] = ASMGetDR3();
if (fDr6)
pVCpu->cpum.s.Guest.dr[6] = ASMGetDR6() | X86_DR6_RA1_MASK; /* ASSUMES no guest supprot for TSX-NI / RTM. */
}
ASMAtomicAndU32(&pVCpu->cpum.s.fUseFlags, ~(CPUM_USED_DEBUG_REGS_GUEST | CPUM_USED_DEBUG_REGS_HYPER));
/*
* Restore the host's debug state. DR0-3, DR6 and only then DR7!
*/
if (pVCpu->cpum.s.fUseFlags & CPUM_USED_DEBUG_REGS_HOST)
{
/* A bit of paranoia first... */
uint64_t uCurDR7 = ASMGetDR7();
if (uCurDR7 != X86_DR7_INIT_VAL)
ASMSetDR7(X86_DR7_INIT_VAL);
ASMSetDR0(pVCpu->cpum.s.Host.dr0);
ASMSetDR1(pVCpu->cpum.s.Host.dr1);
ASMSetDR2(pVCpu->cpum.s.Host.dr2);
ASMSetDR3(pVCpu->cpum.s.Host.dr3);
/** @todo consider only updating if they differ, esp. DR6. Need to figure how
* expensive DRx reads are over DRx writes. */
ASMSetDR6(pVCpu->cpum.s.Host.dr6);
ASMSetDR7(pVCpu->cpum.s.Host.dr7);
ASMAtomicAndU32(&pVCpu->cpum.s.fUseFlags, ~CPUM_USED_DEBUG_REGS_HOST);
}
return fDrXLoaded;
}
/**
* Saves the guest DRx state if it resides host registers.
*
* This does NOT clear any use flags, so the host registers remains loaded with
* the guest DRx state upon return. The purpose is only to make sure the values
* in the CPU context structure is up to date.
*
* @returns true if the host registers contains guest values, false if not.
* @param pVCpu The cross context virtual CPU structure of the calling EMT.
* @param fDr6 Whether to include DR6 or not.
* @thread EMT(pVCpu)
*/
VMMR0_INT_DECL(bool) CPUMR0DebugStateMaybeSaveGuest(PVMCPUCC pVCpu, bool fDr6)
{
/*
* Do we need to save the guest DRx registered loaded into host registers?
* (DR7 and DR6 (if fDr6 is true) are left to the caller.)
*/
if (pVCpu->cpum.s.fUseFlags & CPUM_USED_DEBUG_REGS_GUEST)
{
pVCpu->cpum.s.Guest.dr[0] = ASMGetDR0();
pVCpu->cpum.s.Guest.dr[1] = ASMGetDR1();
pVCpu->cpum.s.Guest.dr[2] = ASMGetDR2();
pVCpu->cpum.s.Guest.dr[3] = ASMGetDR3();
if (fDr6)
pVCpu->cpum.s.Guest.dr[6] = ASMGetDR6();
return true;
}
return false;
}
/**
* Lazily sync in the debug state.
*
* @param pVCpu The cross context virtual CPU structure of the calling EMT.
* @param fDr6 Whether to include DR6 or not.
* @thread EMT(pVCpu)
*/
VMMR0_INT_DECL(void) CPUMR0LoadGuestDebugState(PVMCPUCC pVCpu, bool fDr6)
{
/*
* Save the host state and disarm all host BPs.
*/
cpumR0SaveHostDebugState(pVCpu);
Assert(ASMGetDR7() == X86_DR7_INIT_VAL);
/*
* Activate the guest state DR0-3.
* DR7 and DR6 (if fDr6 is true) are left to the caller.
*/
ASMSetDR0(pVCpu->cpum.s.Guest.dr[0]);
ASMSetDR1(pVCpu->cpum.s.Guest.dr[1]);
ASMSetDR2(pVCpu->cpum.s.Guest.dr[2]);
ASMSetDR3(pVCpu->cpum.s.Guest.dr[3]);
if (fDr6)
ASMSetDR6(pVCpu->cpum.s.Guest.dr[6]);
ASMAtomicOrU32(&pVCpu->cpum.s.fUseFlags, CPUM_USED_DEBUG_REGS_GUEST);
}
/**
* Lazily sync in the hypervisor debug state
*
* @param pVCpu The cross context virtual CPU structure of the calling EMT.
* @param fDr6 Whether to include DR6 or not.
* @thread EMT(pVCpu)
*/
VMMR0_INT_DECL(void) CPUMR0LoadHyperDebugState(PVMCPUCC pVCpu, bool fDr6)
{
/*
* Save the host state and disarm all host BPs.
*/
cpumR0SaveHostDebugState(pVCpu);
Assert(ASMGetDR7() == X86_DR7_INIT_VAL);
/*
* Make sure the hypervisor values are up to date.
*/
CPUMRecalcHyperDRx(pVCpu, UINT8_MAX /* no loading, please */);
/*
* Activate the guest state DR0-3.
* DR7 and DR6 (if fDr6 is true) are left to the caller.
*/
ASMSetDR0(pVCpu->cpum.s.Hyper.dr[0]);
ASMSetDR1(pVCpu->cpum.s.Hyper.dr[1]);
ASMSetDR2(pVCpu->cpum.s.Hyper.dr[2]);
ASMSetDR3(pVCpu->cpum.s.Hyper.dr[3]);
if (fDr6)
ASMSetDR6(X86_DR6_INIT_VAL);
ASMAtomicOrU32(&pVCpu->cpum.s.fUseFlags, CPUM_USED_DEBUG_REGS_HYPER);
}
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