forked from Minki/linux
002374f371
ASID restoration on guest resume should determine the guest execution
mode based on the guest Status register rather than bit 30 of the guest
PC.
Fix the two places in locore.S that do this, loading the guest status
from the cop0 area. Note, this assembly is specific to the trap &
emulate implementation of KVM, so it doesn't need to check the
supervisor bit as that mode is not implemented in the guest.
Fixes: b680f70fc1
("KVM/MIPS32: Entry point for trampolining to...")
Signed-off-by: James Hogan <james.hogan@imgtec.com>
Cc: Ralf Baechle <ralf@linux-mips.org>
Cc: Paolo Bonzini <pbonzini@redhat.com>
Cc: Gleb Natapov <gleb@kernel.org>
Cc: linux-mips@linux-mips.org
Cc: kvm@vger.kernel.org
Cc: <stable@vger.kernel.org> # 3.10.x-
Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
655 lines
15 KiB
ArmAsm
655 lines
15 KiB
ArmAsm
/*
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* This file is subject to the terms and conditions of the GNU General Public
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* License. See the file "COPYING" in the main directory of this archive
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* for more details.
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*
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* Main entry point for the guest, exception handling.
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*
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* Copyright (C) 2012 MIPS Technologies, Inc. All rights reserved.
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* Authors: Sanjay Lal <sanjayl@kymasys.com>
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*/
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#include <asm/asm.h>
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#include <asm/asmmacro.h>
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#include <asm/regdef.h>
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#include <asm/mipsregs.h>
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#include <asm/stackframe.h>
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#include <asm/asm-offsets.h>
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#define _C_LABEL(x) x
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#define MIPSX(name) mips32_ ## name
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#define CALLFRAME_SIZ 32
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/*
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* VECTOR
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* exception vector entrypoint
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*/
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#define VECTOR(x, regmask) \
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.ent _C_LABEL(x),0; \
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EXPORT(x);
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#define VECTOR_END(x) \
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EXPORT(x);
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/* Overload, Danger Will Robinson!! */
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#define PT_HOST_ASID PT_BVADDR
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#define PT_HOST_USERLOCAL PT_EPC
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#define CP0_DDATA_LO $28,3
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/* Resume Flags */
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#define RESUME_FLAG_HOST (1<<1) /* Resume host? */
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#define RESUME_GUEST 0
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#define RESUME_HOST RESUME_FLAG_HOST
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/*
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* __kvm_mips_vcpu_run: entry point to the guest
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* a0: run
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* a1: vcpu
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*/
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.set noreorder
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.set noat
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FEXPORT(__kvm_mips_vcpu_run)
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/* k0/k1 not being used in host kernel context */
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INT_ADDIU k1, sp, -PT_SIZE
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LONG_S $0, PT_R0(k1)
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LONG_S $1, PT_R1(k1)
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LONG_S $2, PT_R2(k1)
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LONG_S $3, PT_R3(k1)
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LONG_S $4, PT_R4(k1)
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LONG_S $5, PT_R5(k1)
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LONG_S $6, PT_R6(k1)
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LONG_S $7, PT_R7(k1)
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LONG_S $8, PT_R8(k1)
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LONG_S $9, PT_R9(k1)
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LONG_S $10, PT_R10(k1)
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LONG_S $11, PT_R11(k1)
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LONG_S $12, PT_R12(k1)
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LONG_S $13, PT_R13(k1)
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LONG_S $14, PT_R14(k1)
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LONG_S $15, PT_R15(k1)
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LONG_S $16, PT_R16(k1)
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LONG_S $17, PT_R17(k1)
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LONG_S $18, PT_R18(k1)
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LONG_S $19, PT_R19(k1)
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LONG_S $20, PT_R20(k1)
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LONG_S $21, PT_R21(k1)
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LONG_S $22, PT_R22(k1)
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LONG_S $23, PT_R23(k1)
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LONG_S $24, PT_R24(k1)
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LONG_S $25, PT_R25(k1)
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/*
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* XXXKYMA k0/k1 not saved, not being used if we got here through
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* an ioctl()
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*/
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LONG_S $28, PT_R28(k1)
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LONG_S $29, PT_R29(k1)
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LONG_S $30, PT_R30(k1)
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LONG_S $31, PT_R31(k1)
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/* Save hi/lo */
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mflo v0
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LONG_S v0, PT_LO(k1)
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mfhi v1
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LONG_S v1, PT_HI(k1)
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/* Save host status */
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mfc0 v0, CP0_STATUS
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LONG_S v0, PT_STATUS(k1)
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/* Save host ASID, shove it into the BVADDR location */
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mfc0 v1, CP0_ENTRYHI
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andi v1, 0xff
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LONG_S v1, PT_HOST_ASID(k1)
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/* Save DDATA_LO, will be used to store pointer to vcpu */
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mfc0 v1, CP0_DDATA_LO
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LONG_S v1, PT_HOST_USERLOCAL(k1)
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/* DDATA_LO has pointer to vcpu */
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mtc0 a1, CP0_DDATA_LO
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/* Offset into vcpu->arch */
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INT_ADDIU k1, a1, VCPU_HOST_ARCH
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/*
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* Save the host stack to VCPU, used for exception processing
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* when we exit from the Guest
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*/
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LONG_S sp, VCPU_HOST_STACK(k1)
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/* Save the kernel gp as well */
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LONG_S gp, VCPU_HOST_GP(k1)
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/*
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* Setup status register for running the guest in UM, interrupts
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* are disabled
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*/
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li k0, (ST0_EXL | KSU_USER | ST0_BEV)
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mtc0 k0, CP0_STATUS
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ehb
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/* load up the new EBASE */
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LONG_L k0, VCPU_GUEST_EBASE(k1)
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mtc0 k0, CP0_EBASE
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/*
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* Now that the new EBASE has been loaded, unset BEV, set
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* interrupt mask as it was but make sure that timer interrupts
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* are enabled
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*/
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li k0, (ST0_EXL | KSU_USER | ST0_IE)
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andi v0, v0, ST0_IM
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or k0, k0, v0
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mtc0 k0, CP0_STATUS
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ehb
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/* Set Guest EPC */
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LONG_L t0, VCPU_PC(k1)
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mtc0 t0, CP0_EPC
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FEXPORT(__kvm_mips_load_asid)
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/* Set the ASID for the Guest Kernel */
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PTR_L t0, VCPU_COP0(k1)
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LONG_L t0, COP0_STATUS(t0)
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andi t0, KSU_USER | ST0_ERL | ST0_EXL
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xori t0, KSU_USER
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bnez t0, 1f /* If kernel */
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INT_ADDIU t1, k1, VCPU_GUEST_KERNEL_ASID /* (BD) */
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INT_ADDIU t1, k1, VCPU_GUEST_USER_ASID /* else user */
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1:
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/* t1: contains the base of the ASID array, need to get the cpu id */
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LONG_L t2, TI_CPU($28) /* smp_processor_id */
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INT_SLL t2, t2, 2 /* x4 */
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REG_ADDU t3, t1, t2
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LONG_L k0, (t3)
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andi k0, k0, 0xff
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mtc0 k0, CP0_ENTRYHI
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ehb
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/* Disable RDHWR access */
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mtc0 zero, CP0_HWRENA
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/* Now load up the Guest Context from VCPU */
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LONG_L $1, VCPU_R1(k1)
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LONG_L $2, VCPU_R2(k1)
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LONG_L $3, VCPU_R3(k1)
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LONG_L $4, VCPU_R4(k1)
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LONG_L $5, VCPU_R5(k1)
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LONG_L $6, VCPU_R6(k1)
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LONG_L $7, VCPU_R7(k1)
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LONG_L $8, VCPU_R8(k1)
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LONG_L $9, VCPU_R9(k1)
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LONG_L $10, VCPU_R10(k1)
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LONG_L $11, VCPU_R11(k1)
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LONG_L $12, VCPU_R12(k1)
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LONG_L $13, VCPU_R13(k1)
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LONG_L $14, VCPU_R14(k1)
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LONG_L $15, VCPU_R15(k1)
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LONG_L $16, VCPU_R16(k1)
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LONG_L $17, VCPU_R17(k1)
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LONG_L $18, VCPU_R18(k1)
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LONG_L $19, VCPU_R19(k1)
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LONG_L $20, VCPU_R20(k1)
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LONG_L $21, VCPU_R21(k1)
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LONG_L $22, VCPU_R22(k1)
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LONG_L $23, VCPU_R23(k1)
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LONG_L $24, VCPU_R24(k1)
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LONG_L $25, VCPU_R25(k1)
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/* k0/k1 loaded up later */
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LONG_L $28, VCPU_R28(k1)
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LONG_L $29, VCPU_R29(k1)
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LONG_L $30, VCPU_R30(k1)
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LONG_L $31, VCPU_R31(k1)
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/* Restore hi/lo */
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LONG_L k0, VCPU_LO(k1)
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mtlo k0
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LONG_L k0, VCPU_HI(k1)
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mthi k0
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FEXPORT(__kvm_mips_load_k0k1)
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/* Restore the guest's k0/k1 registers */
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LONG_L k0, VCPU_R26(k1)
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LONG_L k1, VCPU_R27(k1)
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/* Jump to guest */
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eret
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VECTOR(MIPSX(exception), unknown)
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/* Find out what mode we came from and jump to the proper handler. */
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mtc0 k0, CP0_ERROREPC #01: Save guest k0
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ehb #02:
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mfc0 k0, CP0_EBASE #02: Get EBASE
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INT_SRL k0, k0, 10 #03: Get rid of CPUNum
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INT_SLL k0, k0, 10 #04
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LONG_S k1, 0x3000(k0) #05: Save k1 @ offset 0x3000
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INT_ADDIU k0, k0, 0x2000 #06: Exception handler is
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# installed @ offset 0x2000
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j k0 #07: jump to the function
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nop #08: branch delay slot
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VECTOR_END(MIPSX(exceptionEnd))
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.end MIPSX(exception)
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/*
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* Generic Guest exception handler. We end up here when the guest
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* does something that causes a trap to kernel mode.
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*/
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NESTED (MIPSX(GuestException), CALLFRAME_SIZ, ra)
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/* Get the VCPU pointer from DDTATA_LO */
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mfc0 k1, CP0_DDATA_LO
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INT_ADDIU k1, k1, VCPU_HOST_ARCH
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/* Start saving Guest context to VCPU */
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LONG_S $0, VCPU_R0(k1)
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LONG_S $1, VCPU_R1(k1)
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LONG_S $2, VCPU_R2(k1)
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LONG_S $3, VCPU_R3(k1)
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LONG_S $4, VCPU_R4(k1)
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LONG_S $5, VCPU_R5(k1)
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LONG_S $6, VCPU_R6(k1)
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LONG_S $7, VCPU_R7(k1)
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LONG_S $8, VCPU_R8(k1)
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LONG_S $9, VCPU_R9(k1)
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LONG_S $10, VCPU_R10(k1)
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LONG_S $11, VCPU_R11(k1)
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LONG_S $12, VCPU_R12(k1)
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LONG_S $13, VCPU_R13(k1)
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LONG_S $14, VCPU_R14(k1)
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LONG_S $15, VCPU_R15(k1)
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LONG_S $16, VCPU_R16(k1)
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LONG_S $17, VCPU_R17(k1)
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LONG_S $18, VCPU_R18(k1)
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LONG_S $19, VCPU_R19(k1)
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LONG_S $20, VCPU_R20(k1)
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LONG_S $21, VCPU_R21(k1)
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LONG_S $22, VCPU_R22(k1)
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LONG_S $23, VCPU_R23(k1)
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LONG_S $24, VCPU_R24(k1)
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LONG_S $25, VCPU_R25(k1)
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/* Guest k0/k1 saved later */
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LONG_S $28, VCPU_R28(k1)
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LONG_S $29, VCPU_R29(k1)
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LONG_S $30, VCPU_R30(k1)
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LONG_S $31, VCPU_R31(k1)
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/* We need to save hi/lo and restore them on the way out */
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mfhi t0
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LONG_S t0, VCPU_HI(k1)
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mflo t0
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LONG_S t0, VCPU_LO(k1)
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/* Finally save guest k0/k1 to VCPU */
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mfc0 t0, CP0_ERROREPC
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LONG_S t0, VCPU_R26(k1)
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/* Get GUEST k1 and save it in VCPU */
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PTR_LI t1, ~0x2ff
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mfc0 t0, CP0_EBASE
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and t0, t0, t1
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LONG_L t0, 0x3000(t0)
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LONG_S t0, VCPU_R27(k1)
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/* Now that context has been saved, we can use other registers */
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/* Restore vcpu */
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mfc0 a1, CP0_DDATA_LO
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move s1, a1
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/* Restore run (vcpu->run) */
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LONG_L a0, VCPU_RUN(a1)
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/* Save pointer to run in s0, will be saved by the compiler */
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move s0, a0
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/*
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* Save Host level EPC, BadVaddr and Cause to VCPU, useful to
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* process the exception
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*/
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mfc0 k0,CP0_EPC
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LONG_S k0, VCPU_PC(k1)
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mfc0 k0, CP0_BADVADDR
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LONG_S k0, VCPU_HOST_CP0_BADVADDR(k1)
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mfc0 k0, CP0_CAUSE
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LONG_S k0, VCPU_HOST_CP0_CAUSE(k1)
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mfc0 k0, CP0_ENTRYHI
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LONG_S k0, VCPU_HOST_ENTRYHI(k1)
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/* Now restore the host state just enough to run the handlers */
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/* Swtich EBASE to the one used by Linux */
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/* load up the host EBASE */
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mfc0 v0, CP0_STATUS
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.set at
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or k0, v0, ST0_BEV
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.set noat
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mtc0 k0, CP0_STATUS
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ehb
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LONG_L k0, VCPU_HOST_EBASE(k1)
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mtc0 k0,CP0_EBASE
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/*
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* If FPU is enabled, save FCR31 and clear it so that later ctc1's don't
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* trigger FPE for pending exceptions.
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*/
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.set at
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and v1, v0, ST0_CU1
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beqz v1, 1f
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nop
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.set push
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SET_HARDFLOAT
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cfc1 t0, fcr31
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sw t0, VCPU_FCR31(k1)
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ctc1 zero,fcr31
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.set pop
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.set noat
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1:
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#ifdef CONFIG_CPU_HAS_MSA
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/*
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* If MSA is enabled, save MSACSR and clear it so that later
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* instructions don't trigger MSAFPE for pending exceptions.
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*/
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mfc0 t0, CP0_CONFIG3
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ext t0, t0, 28, 1 /* MIPS_CONF3_MSAP */
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beqz t0, 1f
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nop
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mfc0 t0, CP0_CONFIG5
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ext t0, t0, 27, 1 /* MIPS_CONF5_MSAEN */
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beqz t0, 1f
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nop
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_cfcmsa t0, MSA_CSR
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sw t0, VCPU_MSA_CSR(k1)
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_ctcmsa MSA_CSR, zero
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1:
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#endif
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/* Now that the new EBASE has been loaded, unset BEV and KSU_USER */
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.set at
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and v0, v0, ~(ST0_EXL | KSU_USER | ST0_IE)
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or v0, v0, ST0_CU0
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.set noat
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mtc0 v0, CP0_STATUS
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ehb
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/* Load up host GP */
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LONG_L gp, VCPU_HOST_GP(k1)
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/* Need a stack before we can jump to "C" */
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LONG_L sp, VCPU_HOST_STACK(k1)
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/* Saved host state */
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INT_ADDIU sp, sp, -PT_SIZE
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/*
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* XXXKYMA do we need to load the host ASID, maybe not because the
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* kernel entries are marked GLOBAL, need to verify
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*/
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/* Restore host DDATA_LO */
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LONG_L k0, PT_HOST_USERLOCAL(sp)
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mtc0 k0, CP0_DDATA_LO
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/* Restore RDHWR access */
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PTR_LI k0, 0x2000000F
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mtc0 k0, CP0_HWRENA
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/* Jump to handler */
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FEXPORT(__kvm_mips_jump_to_handler)
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/*
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* XXXKYMA: not sure if this is safe, how large is the stack??
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* Now jump to the kvm_mips_handle_exit() to see if we can deal
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* with this in the kernel
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*/
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PTR_LA t9, kvm_mips_handle_exit
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jalr.hb t9
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INT_ADDIU sp, sp, -CALLFRAME_SIZ /* BD Slot */
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/* Return from handler Make sure interrupts are disabled */
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di
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ehb
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/*
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* XXXKYMA: k0/k1 could have been blown away if we processed
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* an exception while we were handling the exception from the
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* guest, reload k1
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*/
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move k1, s1
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INT_ADDIU k1, k1, VCPU_HOST_ARCH
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/*
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* Check return value, should tell us if we are returning to the
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* host (handle I/O etc)or resuming the guest
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*/
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andi t0, v0, RESUME_HOST
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bnez t0, __kvm_mips_return_to_host
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nop
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__kvm_mips_return_to_guest:
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/* Put the saved pointer to vcpu (s1) back into the DDATA_LO Register */
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mtc0 s1, CP0_DDATA_LO
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/* Load up the Guest EBASE to minimize the window where BEV is set */
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LONG_L t0, VCPU_GUEST_EBASE(k1)
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/* Switch EBASE back to the one used by KVM */
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mfc0 v1, CP0_STATUS
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.set at
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or k0, v1, ST0_BEV
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.set noat
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mtc0 k0, CP0_STATUS
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|
ehb
|
|
mtc0 t0, CP0_EBASE
|
|
|
|
/* Setup status register for running guest in UM */
|
|
.set at
|
|
or v1, v1, (ST0_EXL | KSU_USER | ST0_IE)
|
|
and v1, v1, ~(ST0_CU0 | ST0_MX)
|
|
.set noat
|
|
mtc0 v1, CP0_STATUS
|
|
ehb
|
|
|
|
/* Set Guest EPC */
|
|
LONG_L t0, VCPU_PC(k1)
|
|
mtc0 t0, CP0_EPC
|
|
|
|
/* Set the ASID for the Guest Kernel */
|
|
PTR_L t0, VCPU_COP0(k1)
|
|
LONG_L t0, COP0_STATUS(t0)
|
|
andi t0, KSU_USER | ST0_ERL | ST0_EXL
|
|
xori t0, KSU_USER
|
|
bnez t0, 1f /* If kernel */
|
|
INT_ADDIU t1, k1, VCPU_GUEST_KERNEL_ASID /* (BD) */
|
|
INT_ADDIU t1, k1, VCPU_GUEST_USER_ASID /* else user */
|
|
1:
|
|
/* t1: contains the base of the ASID array, need to get the cpu id */
|
|
LONG_L t2, TI_CPU($28) /* smp_processor_id */
|
|
INT_SLL t2, t2, 2 /* x4 */
|
|
REG_ADDU t3, t1, t2
|
|
LONG_L k0, (t3)
|
|
andi k0, k0, 0xff
|
|
mtc0 k0,CP0_ENTRYHI
|
|
ehb
|
|
|
|
/* Disable RDHWR access */
|
|
mtc0 zero, CP0_HWRENA
|
|
|
|
/* load the guest context from VCPU and return */
|
|
LONG_L $0, VCPU_R0(k1)
|
|
LONG_L $1, VCPU_R1(k1)
|
|
LONG_L $2, VCPU_R2(k1)
|
|
LONG_L $3, VCPU_R3(k1)
|
|
LONG_L $4, VCPU_R4(k1)
|
|
LONG_L $5, VCPU_R5(k1)
|
|
LONG_L $6, VCPU_R6(k1)
|
|
LONG_L $7, VCPU_R7(k1)
|
|
LONG_L $8, VCPU_R8(k1)
|
|
LONG_L $9, VCPU_R9(k1)
|
|
LONG_L $10, VCPU_R10(k1)
|
|
LONG_L $11, VCPU_R11(k1)
|
|
LONG_L $12, VCPU_R12(k1)
|
|
LONG_L $13, VCPU_R13(k1)
|
|
LONG_L $14, VCPU_R14(k1)
|
|
LONG_L $15, VCPU_R15(k1)
|
|
LONG_L $16, VCPU_R16(k1)
|
|
LONG_L $17, VCPU_R17(k1)
|
|
LONG_L $18, VCPU_R18(k1)
|
|
LONG_L $19, VCPU_R19(k1)
|
|
LONG_L $20, VCPU_R20(k1)
|
|
LONG_L $21, VCPU_R21(k1)
|
|
LONG_L $22, VCPU_R22(k1)
|
|
LONG_L $23, VCPU_R23(k1)
|
|
LONG_L $24, VCPU_R24(k1)
|
|
LONG_L $25, VCPU_R25(k1)
|
|
|
|
/* $/k1 loaded later */
|
|
LONG_L $28, VCPU_R28(k1)
|
|
LONG_L $29, VCPU_R29(k1)
|
|
LONG_L $30, VCPU_R30(k1)
|
|
LONG_L $31, VCPU_R31(k1)
|
|
|
|
FEXPORT(__kvm_mips_skip_guest_restore)
|
|
LONG_L k0, VCPU_HI(k1)
|
|
mthi k0
|
|
|
|
LONG_L k0, VCPU_LO(k1)
|
|
mtlo k0
|
|
|
|
LONG_L k0, VCPU_R26(k1)
|
|
LONG_L k1, VCPU_R27(k1)
|
|
|
|
eret
|
|
|
|
__kvm_mips_return_to_host:
|
|
/* EBASE is already pointing to Linux */
|
|
LONG_L k1, VCPU_HOST_STACK(k1)
|
|
INT_ADDIU k1,k1, -PT_SIZE
|
|
|
|
/* Restore host DDATA_LO */
|
|
LONG_L k0, PT_HOST_USERLOCAL(k1)
|
|
mtc0 k0, CP0_DDATA_LO
|
|
|
|
/* Restore host ASID */
|
|
LONG_L k0, PT_HOST_ASID(sp)
|
|
andi k0, 0xff
|
|
mtc0 k0,CP0_ENTRYHI
|
|
ehb
|
|
|
|
/* Load context saved on the host stack */
|
|
LONG_L $0, PT_R0(k1)
|
|
LONG_L $1, PT_R1(k1)
|
|
|
|
/*
|
|
* r2/v0 is the return code, shift it down by 2 (arithmetic)
|
|
* to recover the err code
|
|
*/
|
|
INT_SRA k0, v0, 2
|
|
move $2, k0
|
|
|
|
LONG_L $3, PT_R3(k1)
|
|
LONG_L $4, PT_R4(k1)
|
|
LONG_L $5, PT_R5(k1)
|
|
LONG_L $6, PT_R6(k1)
|
|
LONG_L $7, PT_R7(k1)
|
|
LONG_L $8, PT_R8(k1)
|
|
LONG_L $9, PT_R9(k1)
|
|
LONG_L $10, PT_R10(k1)
|
|
LONG_L $11, PT_R11(k1)
|
|
LONG_L $12, PT_R12(k1)
|
|
LONG_L $13, PT_R13(k1)
|
|
LONG_L $14, PT_R14(k1)
|
|
LONG_L $15, PT_R15(k1)
|
|
LONG_L $16, PT_R16(k1)
|
|
LONG_L $17, PT_R17(k1)
|
|
LONG_L $18, PT_R18(k1)
|
|
LONG_L $19, PT_R19(k1)
|
|
LONG_L $20, PT_R20(k1)
|
|
LONG_L $21, PT_R21(k1)
|
|
LONG_L $22, PT_R22(k1)
|
|
LONG_L $23, PT_R23(k1)
|
|
LONG_L $24, PT_R24(k1)
|
|
LONG_L $25, PT_R25(k1)
|
|
|
|
/* Host k0/k1 were not saved */
|
|
|
|
LONG_L $28, PT_R28(k1)
|
|
LONG_L $29, PT_R29(k1)
|
|
LONG_L $30, PT_R30(k1)
|
|
|
|
LONG_L k0, PT_HI(k1)
|
|
mthi k0
|
|
|
|
LONG_L k0, PT_LO(k1)
|
|
mtlo k0
|
|
|
|
/* Restore RDHWR access */
|
|
PTR_LI k0, 0x2000000F
|
|
mtc0 k0, CP0_HWRENA
|
|
|
|
/* Restore RA, which is the address we will return to */
|
|
LONG_L ra, PT_R31(k1)
|
|
j ra
|
|
nop
|
|
|
|
VECTOR_END(MIPSX(GuestExceptionEnd))
|
|
.end MIPSX(GuestException)
|
|
|
|
MIPSX(exceptions):
|
|
####
|
|
##### The exception handlers.
|
|
#####
|
|
.word _C_LABEL(MIPSX(GuestException)) # 0
|
|
.word _C_LABEL(MIPSX(GuestException)) # 1
|
|
.word _C_LABEL(MIPSX(GuestException)) # 2
|
|
.word _C_LABEL(MIPSX(GuestException)) # 3
|
|
.word _C_LABEL(MIPSX(GuestException)) # 4
|
|
.word _C_LABEL(MIPSX(GuestException)) # 5
|
|
.word _C_LABEL(MIPSX(GuestException)) # 6
|
|
.word _C_LABEL(MIPSX(GuestException)) # 7
|
|
.word _C_LABEL(MIPSX(GuestException)) # 8
|
|
.word _C_LABEL(MIPSX(GuestException)) # 9
|
|
.word _C_LABEL(MIPSX(GuestException)) # 10
|
|
.word _C_LABEL(MIPSX(GuestException)) # 11
|
|
.word _C_LABEL(MIPSX(GuestException)) # 12
|
|
.word _C_LABEL(MIPSX(GuestException)) # 13
|
|
.word _C_LABEL(MIPSX(GuestException)) # 14
|
|
.word _C_LABEL(MIPSX(GuestException)) # 15
|
|
.word _C_LABEL(MIPSX(GuestException)) # 16
|
|
.word _C_LABEL(MIPSX(GuestException)) # 17
|
|
.word _C_LABEL(MIPSX(GuestException)) # 18
|
|
.word _C_LABEL(MIPSX(GuestException)) # 19
|
|
.word _C_LABEL(MIPSX(GuestException)) # 20
|
|
.word _C_LABEL(MIPSX(GuestException)) # 21
|
|
.word _C_LABEL(MIPSX(GuestException)) # 22
|
|
.word _C_LABEL(MIPSX(GuestException)) # 23
|
|
.word _C_LABEL(MIPSX(GuestException)) # 24
|
|
.word _C_LABEL(MIPSX(GuestException)) # 25
|
|
.word _C_LABEL(MIPSX(GuestException)) # 26
|
|
.word _C_LABEL(MIPSX(GuestException)) # 27
|
|
.word _C_LABEL(MIPSX(GuestException)) # 28
|
|
.word _C_LABEL(MIPSX(GuestException)) # 29
|
|
.word _C_LABEL(MIPSX(GuestException)) # 30
|
|
.word _C_LABEL(MIPSX(GuestException)) # 31
|