forked from luck/tmp_suning_uos_patched
f7adbba1e5
SRR1 stores more information that just the MSR value. It also stores valuable information about the type of interrupt we received, for example whether the storage interrupt we just got was because of a missing htab entry or not. We use that information to speed up the exit path. Now if we get preempted before we can interpret the shadow_msr values, we get into vcpu_put which then calls the MSR handler, which then sets all the SRR1 information bits in shadow_msr to 0. Great. So let's preserve the SRR1 specific bits in shadow_msr whenever we set the MSR. They don't hurt. Signed-off-by: Alexander Graf <agraf@suse.de> Signed-off-by: Avi Kivity <avi@redhat.com>
319 lines
7.5 KiB
ArmAsm
319 lines
7.5 KiB
ArmAsm
/*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License, version 2, as
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* published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*
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* Copyright SUSE Linux Products GmbH 2009
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*
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* Authors: Alexander Graf <agraf@suse.de>
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*/
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#include <asm/ppc_asm.h>
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#include <asm/kvm_asm.h>
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#include <asm/reg.h>
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#include <asm/page.h>
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#include <asm/asm-offsets.h>
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#include <asm/exception-64s.h>
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#define KVMPPC_HANDLE_EXIT .kvmppc_handle_exit
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#define ULONG_SIZE 8
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#define VCPU_GPR(n) (VCPU_GPRS + (n * ULONG_SIZE))
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.macro DISABLE_INTERRUPTS
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mfmsr r0
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rldicl r0,r0,48,1
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rotldi r0,r0,16
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mtmsrd r0,1
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.endm
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#define VCPU_LOAD_NVGPRS(vcpu) \
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ld r14, VCPU_GPR(r14)(vcpu); \
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ld r15, VCPU_GPR(r15)(vcpu); \
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ld r16, VCPU_GPR(r16)(vcpu); \
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ld r17, VCPU_GPR(r17)(vcpu); \
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ld r18, VCPU_GPR(r18)(vcpu); \
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ld r19, VCPU_GPR(r19)(vcpu); \
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ld r20, VCPU_GPR(r20)(vcpu); \
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ld r21, VCPU_GPR(r21)(vcpu); \
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ld r22, VCPU_GPR(r22)(vcpu); \
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ld r23, VCPU_GPR(r23)(vcpu); \
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ld r24, VCPU_GPR(r24)(vcpu); \
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ld r25, VCPU_GPR(r25)(vcpu); \
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ld r26, VCPU_GPR(r26)(vcpu); \
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ld r27, VCPU_GPR(r27)(vcpu); \
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ld r28, VCPU_GPR(r28)(vcpu); \
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ld r29, VCPU_GPR(r29)(vcpu); \
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ld r30, VCPU_GPR(r30)(vcpu); \
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ld r31, VCPU_GPR(r31)(vcpu); \
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/*****************************************************************************
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* *
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* Guest entry / exit code that is in kernel module memory (highmem) *
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* *
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****************************************************************************/
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/* Registers:
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* r3: kvm_run pointer
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* r4: vcpu pointer
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*/
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_GLOBAL(__kvmppc_vcpu_entry)
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kvm_start_entry:
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/* Write correct stack frame */
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mflr r0
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std r0,16(r1)
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/* Save host state to the stack */
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stdu r1, -SWITCH_FRAME_SIZE(r1)
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/* Save r3 (kvm_run) and r4 (vcpu) */
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SAVE_2GPRS(3, r1)
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/* Save non-volatile registers (r14 - r31) */
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SAVE_NVGPRS(r1)
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/* Save LR */
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std r0, _LINK(r1)
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/* Load non-volatile guest state from the vcpu */
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VCPU_LOAD_NVGPRS(r4)
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/* Save R1/R2 in the PACA */
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std r1, PACA_KVM_HOST_R1(r13)
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std r2, PACA_KVM_HOST_R2(r13)
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/* XXX swap in/out on load? */
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ld r3, VCPU_HIGHMEM_HANDLER(r4)
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std r3, PACA_KVM_VMHANDLER(r13)
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kvm_start_lightweight:
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ld r9, VCPU_PC(r4) /* r9 = vcpu->arch.pc */
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ld r10, VCPU_SHADOW_MSR(r4) /* r10 = vcpu->arch.shadow_msr */
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/* Load some guest state in the respective registers */
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ld r5, VCPU_CTR(r4) /* r5 = vcpu->arch.ctr */
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/* will be swapped in by rmcall */
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ld r3, VCPU_LR(r4) /* r3 = vcpu->arch.lr */
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mtlr r3 /* LR = r3 */
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DISABLE_INTERRUPTS
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/* Some guests may need to have dcbz set to 32 byte length.
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*
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* Usually we ensure that by patching the guest's instructions
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* to trap on dcbz and emulate it in the hypervisor.
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*
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* If we can, we should tell the CPU to use 32 byte dcbz though,
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* because that's a lot faster.
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*/
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ld r3, VCPU_HFLAGS(r4)
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rldicl. r3, r3, 0, 63 /* CR = ((r3 & 1) == 0) */
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beq no_dcbz32_on
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mfspr r3,SPRN_HID5
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ori r3, r3, 0x80 /* XXX HID5_dcbz32 = 0x80 */
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mtspr SPRN_HID5,r3
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no_dcbz32_on:
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ld r6, VCPU_RMCALL(r4)
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mtctr r6
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ld r3, VCPU_TRAMPOLINE_ENTER(r4)
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LOAD_REG_IMMEDIATE(r4, MSR_KERNEL & ~(MSR_IR | MSR_DR))
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/* Jump to SLB patching handlder and into our guest */
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bctr
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/*
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* This is the handler in module memory. It gets jumped at from the
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* lowmem trampoline code, so it's basically the guest exit code.
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*
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*/
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.global kvmppc_handler_highmem
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kvmppc_handler_highmem:
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/*
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* Register usage at this point:
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*
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* R0 = guest last inst
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* R1 = host R1
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* R2 = host R2
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* R3 = guest PC
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* R4 = guest MSR
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* R5 = guest DAR
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* R6 = guest DSISR
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* R13 = PACA
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* PACA.KVM.* = guest *
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*
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*/
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/* R7 = vcpu */
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ld r7, GPR4(r1)
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/* Now save the guest state */
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stw r0, VCPU_LAST_INST(r7)
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std r3, VCPU_PC(r7)
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std r4, VCPU_SHADOW_SRR1(r7)
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std r5, VCPU_FAULT_DEAR(r7)
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std r6, VCPU_FAULT_DSISR(r7)
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ld r5, VCPU_HFLAGS(r7)
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rldicl. r5, r5, 0, 63 /* CR = ((r5 & 1) == 0) */
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beq no_dcbz32_off
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li r4, 0
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mfspr r5,SPRN_HID5
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rldimi r5,r4,6,56
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mtspr SPRN_HID5,r5
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no_dcbz32_off:
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std r14, VCPU_GPR(r14)(r7)
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std r15, VCPU_GPR(r15)(r7)
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std r16, VCPU_GPR(r16)(r7)
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std r17, VCPU_GPR(r17)(r7)
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std r18, VCPU_GPR(r18)(r7)
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std r19, VCPU_GPR(r19)(r7)
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std r20, VCPU_GPR(r20)(r7)
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std r21, VCPU_GPR(r21)(r7)
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std r22, VCPU_GPR(r22)(r7)
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std r23, VCPU_GPR(r23)(r7)
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std r24, VCPU_GPR(r24)(r7)
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std r25, VCPU_GPR(r25)(r7)
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std r26, VCPU_GPR(r26)(r7)
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std r27, VCPU_GPR(r27)(r7)
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std r28, VCPU_GPR(r28)(r7)
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std r29, VCPU_GPR(r29)(r7)
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std r30, VCPU_GPR(r30)(r7)
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std r31, VCPU_GPR(r31)(r7)
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/* Save guest CTR */
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mfctr r5
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std r5, VCPU_CTR(r7)
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/* Save guest LR */
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mflr r5
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std r5, VCPU_LR(r7)
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/* Restore host msr -> SRR1 */
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ld r6, VCPU_HOST_MSR(r7)
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/*
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* For some interrupts, we need to call the real Linux
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* handler, so it can do work for us. This has to happen
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* as if the interrupt arrived from the kernel though,
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* so let's fake it here where most state is restored.
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*
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* Call Linux for hardware interrupts/decrementer
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* r3 = address of interrupt handler (exit reason)
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*/
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cmpwi r12, BOOK3S_INTERRUPT_EXTERNAL
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beq call_linux_handler
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cmpwi r12, BOOK3S_INTERRUPT_DECREMENTER
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beq call_linux_handler
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/* Back to EE=1 */
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mtmsr r6
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b kvm_return_point
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call_linux_handler:
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/*
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* If we land here we need to jump back to the handler we
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* came from.
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*
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* We have a page that we can access from real mode, so let's
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* jump back to that and use it as a trampoline to get back into the
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* interrupt handler!
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*
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* R3 still contains the exit code,
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* R5 VCPU_HOST_RETIP and
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* R6 VCPU_HOST_MSR
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*/
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/* Restore host IP -> SRR0 */
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ld r5, VCPU_HOST_RETIP(r7)
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/* XXX Better move to a safe function?
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* What if we get an HTAB flush in between mtsrr0 and mtsrr1? */
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mtlr r12
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ld r4, VCPU_TRAMPOLINE_LOWMEM(r7)
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mtsrr0 r4
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LOAD_REG_IMMEDIATE(r3, MSR_KERNEL & ~(MSR_IR | MSR_DR))
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mtsrr1 r3
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RFI
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.global kvm_return_point
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kvm_return_point:
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/* Jump back to lightweight entry if we're supposed to */
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/* go back into the guest */
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/* Pass the exit number as 3rd argument to kvmppc_handle_exit */
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mr r5, r12
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/* Restore r3 (kvm_run) and r4 (vcpu) */
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REST_2GPRS(3, r1)
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bl KVMPPC_HANDLE_EXIT
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/* If RESUME_GUEST, get back in the loop */
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cmpwi r3, RESUME_GUEST
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beq kvm_loop_lightweight
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cmpwi r3, RESUME_GUEST_NV
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beq kvm_loop_heavyweight
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kvm_exit_loop:
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ld r4, _LINK(r1)
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mtlr r4
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/* Restore non-volatile host registers (r14 - r31) */
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REST_NVGPRS(r1)
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addi r1, r1, SWITCH_FRAME_SIZE
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blr
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kvm_loop_heavyweight:
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ld r4, _LINK(r1)
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std r4, (16 + SWITCH_FRAME_SIZE)(r1)
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/* Load vcpu and cpu_run */
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REST_2GPRS(3, r1)
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/* Load non-volatile guest state from the vcpu */
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VCPU_LOAD_NVGPRS(r4)
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/* Jump back into the beginning of this function */
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b kvm_start_lightweight
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kvm_loop_lightweight:
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/* We'll need the vcpu pointer */
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REST_GPR(4, r1)
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/* Jump back into the beginning of this function */
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b kvm_start_lightweight
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