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#include <linux/irqchip/arm-gic.h>
#include <asm/assembler.h>

#define VCPU_USR_REG(_reg_nr)	(VCPU_USR_REGS + (_reg_nr * 4))
#define VCPU_USR_SP		(VCPU_USR_REG(13))
#define VCPU_USR_LR		(VCPU_USR_REG(14))
#define CP15_OFFSET(_cp15_reg_idx) (VCPU_CP15 + (_cp15_reg_idx * 4))

/*
 * Many of these macros need to access the VCPU structure, which is always
 * held in r0. These macros should never clobber r1, as it is used to hold the
 * exception code on the return path (except of course the macro that switches
 * all the registers before the final jump to the VM).
 */
vcpu	.req	r0		@ vcpu pointer always in r0

/* Clobbers {r2-r6} */
.macro store_vfp_state vfp_base
	@ The VFPFMRX and VFPFMXR macros are the VMRS and VMSR instructions
	VFPFMRX	r2, FPEXC
	@ Make sure VFP is enabled so we can touch the registers.
	orr	r6, r2, #FPEXC_EN
	VFPFMXR	FPEXC, r6

	VFPFMRX	r3, FPSCR
	tst	r2, #FPEXC_EX		@ Check for VFP Subarchitecture
	beq	1f
	@ If FPEXC_EX is 0, then FPINST/FPINST2 reads are upredictable, so
	@ we only need to save them if FPEXC_EX is set.
	VFPFMRX r4, FPINST
	tst	r2, #FPEXC_FP2V
	VFPFMRX r5, FPINST2, ne		@ vmrsne
	bic	r6, r2, #FPEXC_EX	@ FPEXC_EX disable
	VFPFMXR	FPEXC, r6
1:
	VFPFSTMIA \vfp_base, r6		@ Save VFP registers
	stm	\vfp_base, {r2-r5}	@ Save FPEXC, FPSCR, FPINST, FPINST2
.endm

/* Assume FPEXC_EN is on and FPEXC_EX is off, clobbers {r2-r6} */
.macro restore_vfp_state vfp_base
	VFPFLDMIA \vfp_base, r6		@ Load VFP registers
	ldm	\vfp_base, {r2-r5}	@ Load FPEXC, FPSCR, FPINST, FPINST2

	VFPFMXR FPSCR, r3
	tst	r2, #FPEXC_EX		@ Check for VFP Subarchitecture
	beq	1f
	VFPFMXR FPINST, r4
	tst	r2, #FPEXC_FP2V
	VFPFMXR FPINST2, r5, ne
1:
	VFPFMXR FPEXC, r2	@ FPEXC	(last, in case !EN)
.endm

/* These are simply for the macros to work - value don't have meaning */
.equ usr, 0
.equ svc, 1
.equ abt, 2
.equ und, 3
.equ irq, 4
.equ fiq, 5

.macro push_host_regs_mode mode
	mrs	r2, SP_\mode
	mrs	r3, LR_\mode
	mrs	r4, SPSR_\mode
	push	{r2, r3, r4}
.endm

/*
 * Store all host persistent registers on the stack.
 * Clobbers all registers, in all modes, except r0 and r1.
 */
.macro save_host_regs
	/* Hyp regs. Only ELR_hyp (SPSR_hyp already saved) */
	mrs	r2, ELR_hyp
	push	{r2}

	/* usr regs */
	push	{r4-r12}	@ r0-r3 are always clobbered
	mrs	r2, SP_usr
	mov	r3, lr
	push	{r2, r3}

	push_host_regs_mode svc
	push_host_regs_mode abt
	push_host_regs_mode und
	push_host_regs_mode irq

	/* fiq regs */
	mrs	r2, r8_fiq
	mrs	r3, r9_fiq
	mrs	r4, r10_fiq
	mrs	r5, r11_fiq
	mrs	r6, r12_fiq
	mrs	r7, SP_fiq
	mrs	r8, LR_fiq
	mrs	r9, SPSR_fiq
	push	{r2-r9}
.endm

.macro pop_host_regs_mode mode
	pop	{r2, r3, r4}
	msr	SP_\mode, r2
	msr	LR_\mode, r3
	msr	SPSR_\mode, r4
.endm

/*
 * Restore all host registers from the stack.
 * Clobbers all registers, in all modes, except r0 and r1.
 */
.macro restore_host_regs
	pop	{r2-r9}
	msr	r8_fiq, r2
	msr	r9_fiq, r3
	msr	r10_fiq, r4
	msr	r11_fiq, r5
	msr	r12_fiq, r6
	msr	SP_fiq, r7
	msr	LR_fiq, r8
	msr	SPSR_fiq, r9

	pop_host_regs_mode irq
	pop_host_regs_mode und
	pop_host_regs_mode abt
	pop_host_regs_mode svc

	pop	{r2, r3}
	msr	SP_usr, r2
	mov	lr, r3
	pop	{r4-r12}

	pop	{r2}
	msr	ELR_hyp, r2
.endm

/*
 * Restore SP, LR and SPSR for a given mode. offset is the offset of
 * this mode's registers from the VCPU base.
 *
 * Assumes vcpu pointer in vcpu reg
 *
 * Clobbers r1, r2, r3, r4.
 */
.macro restore_guest_regs_mode mode, offset
	add	r1, vcpu, \offset
	ldm	r1, {r2, r3, r4}
	msr	SP_\mode, r2
	msr	LR_\mode, r3
	msr	SPSR_\mode, r4
.endm

/*
 * Restore all guest registers from the vcpu struct.
 *
 * Assumes vcpu pointer in vcpu reg
 *
 * Clobbers *all* registers.
 */
.macro restore_guest_regs
	restore_guest_regs_mode svc, #VCPU_SVC_REGS
	restore_guest_regs_mode abt, #VCPU_ABT_REGS
	restore_guest_regs_mode und, #VCPU_UND_REGS
	restore_guest_regs_mode irq, #VCPU_IRQ_REGS

	add	r1, vcpu, #VCPU_FIQ_REGS
	ldm	r1, {r2-r9}
	msr	r8_fiq, r2
	msr	r9_fiq, r3
	msr	r10_fiq, r4
	msr	r11_fiq, r5
	msr	r12_fiq, r6
	msr	SP_fiq, r7
	msr	LR_fiq, r8
	msr	SPSR_fiq, r9

	@ Load return state
	ldr	r2, [vcpu, #VCPU_PC]
	ldr	r3, [vcpu, #VCPU_CPSR]
	msr	ELR_hyp, r2
	msr	SPSR_cxsf, r3

	@ Load user registers
	ldr	r2, [vcpu, #VCPU_USR_SP]
	ldr	r3, [vcpu, #VCPU_USR_LR]
	msr	SP_usr, r2
	mov	lr, r3
	add	vcpu, vcpu, #(VCPU_USR_REGS)
	ldm	vcpu, {r0-r12}
.endm

/*
 * Save SP, LR and SPSR for a given mode. offset is the offset of
 * this mode's registers from the VCPU base.
 *
 * Assumes vcpu pointer in vcpu reg
 *
 * Clobbers r2, r3, r4, r5.
 */
.macro save_guest_regs_mode mode, offset
	add	r2, vcpu, \offset
	mrs	r3, SP_\mode
	mrs	r4, LR_\mode
	mrs	r5, SPSR_\mode
	stm	r2, {r3, r4, r5}
.endm

/*
 * Save all guest registers to the vcpu struct
 * Expects guest's r0, r1, r2 on the stack.
 *
 * Assumes vcpu pointer in vcpu reg
 *
 * Clobbers r2, r3, r4, r5.
 */
.macro save_guest_regs
	@ Store usr registers
	add	r2, vcpu, #VCPU_USR_REG(3)
	stm	r2, {r3-r12}
	add	r2, vcpu, #VCPU_USR_REG(0)
	pop	{r3, r4, r5}		@ r0, r1, r2
	stm	r2, {r3, r4, r5}
	mrs	r2, SP_usr
	mov	r3, lr
	str	r2, [vcpu, #VCPU_USR_SP]
	str	r3, [vcpu, #VCPU_USR_LR]

	@ Store return state
	mrs	r2, ELR_hyp
	mrs	r3, spsr
	str	r2, [vcpu, #VCPU_PC]
	str	r3, [vcpu, #VCPU_CPSR]

	@ Store other guest registers
	save_guest_regs_mode svc, #VCPU_SVC_REGS
	save_guest_regs_mode abt, #VCPU_ABT_REGS
	save_guest_regs_mode und, #VCPU_UND_REGS
	save_guest_regs_mode irq, #VCPU_IRQ_REGS
.endm

/* Reads cp15 registers from hardware and stores them in memory
 * @store_to_vcpu: If 0, registers are written in-order to the stack,
 * 		   otherwise to the VCPU struct pointed to by vcpup
 *
 * Assumes vcpu pointer in vcpu reg
 *
 * Clobbers r2 - r12
 */
.macro read_cp15_state store_to_vcpu
	mrc	p15, 0, r2, c1, c0, 0	@ SCTLR
	mrc	p15, 0, r3, c1, c0, 2	@ CPACR
	mrc	p15, 0, r4, c2, c0, 2	@ TTBCR
	mrc	p15, 0, r5, c3, c0, 0	@ DACR
	mrrc	p15, 0, r6, r7, c2	@ TTBR 0
	mrrc	p15, 1, r8, r9, c2	@ TTBR 1
	mrc	p15, 0, r10, c10, c2, 0	@ PRRR
	mrc	p15, 0, r11, c10, c2, 1	@ NMRR
	mrc	p15, 2, r12, c0, c0, 0	@ CSSELR

	.if \store_to_vcpu == 0
	push	{r2-r12}		@ Push CP15 registers
	.else
	str	r2, [vcpu, #CP15_OFFSET(c1_SCTLR)]
	str	r3, [vcpu, #CP15_OFFSET(c1_CPACR)]
	str	r4, [vcpu, #CP15_OFFSET(c2_TTBCR)]
	str	r5, [vcpu, #CP15_OFFSET(c3_DACR)]
	add	r2, vcpu, #CP15_OFFSET(c2_TTBR0)
	strd	r6, r7, [r2]
	add	r2, vcpu, #CP15_OFFSET(c2_TTBR1)
	strd	r8, r9, [r2]
	str	r10, [vcpu, #CP15_OFFSET(c10_PRRR)]
	str	r11, [vcpu, #CP15_OFFSET(c10_NMRR)]
	str	r12, [vcpu, #CP15_OFFSET(c0_CSSELR)]
	.endif

	mrc	p15, 0, r2, c13, c0, 1	@ CID
	mrc	p15, 0, r3, c13, c0, 2	@ TID_URW
	mrc	p15, 0, r4, c13, c0, 3	@ TID_URO
	mrc	p15, 0, r5, c13, c0, 4	@ TID_PRIV
	mrc	p15, 0, r6, c5, c0, 0	@ DFSR
	mrc	p15, 0, r7, c5, c0, 1	@ IFSR
	mrc	p15, 0, r8, c5, c1, 0	@ ADFSR
	mrc	p15, 0, r9, c5, c1, 1	@ AIFSR
	mrc	p15, 0, r10, c6, c0, 0	@ DFAR
	mrc	p15, 0, r11, c6, c0, 2	@ IFAR
	mrc	p15, 0, r12, c12, c0, 0	@ VBAR

	.if \store_to_vcpu == 0
	push	{r2-r12}		@ Push CP15 registers
	.else
	str	r2, [vcpu, #CP15_OFFSET(c13_CID)]
	str	r3, [vcpu, #CP15_OFFSET(c13_TID_URW)]
	str	r4, [vcpu, #CP15_OFFSET(c13_TID_URO)]
	str	r5, [vcpu, #CP15_OFFSET(c13_TID_PRIV)]
	str	r6, [vcpu, #CP15_OFFSET(c5_DFSR)]
	str	r7, [vcpu, #CP15_OFFSET(c5_IFSR)]
	str	r8, [vcpu, #CP15_OFFSET(c5_ADFSR)]
	str	r9, [vcpu, #CP15_OFFSET(c5_AIFSR)]
	str	r10, [vcpu, #CP15_OFFSET(c6_DFAR)]
	str	r11, [vcpu, #CP15_OFFSET(c6_IFAR)]
	str	r12, [vcpu, #CP15_OFFSET(c12_VBAR)]
	.endif

	mrc	p15, 0, r2, c14, c1, 0	@ CNTKCTL
	mrrc	p15, 0, r4, r5, c7	@ PAR
	mrc	p15, 0, r6, c10, c3, 0	@ AMAIR0
	mrc	p15, 0, r7, c10, c3, 1	@ AMAIR1

	.if \store_to_vcpu == 0
	push	{r2,r4-r7}
	.else
	str	r2, [vcpu, #CP15_OFFSET(c14_CNTKCTL)]
	add	r12, vcpu, #CP15_OFFSET(c7_PAR)
	strd	r4, r5, [r12]
	str	r6, [vcpu, #CP15_OFFSET(c10_AMAIR0)]
	str	r7, [vcpu, #CP15_OFFSET(c10_AMAIR1)]
	.endif
.endm

/*
 * Reads cp15 registers from memory and writes them to hardware
 * @read_from_vcpu: If 0, registers are read in-order from the stack,
 *		    otherwise from the VCPU struct pointed to by vcpup
 *
 * Assumes vcpu pointer in vcpu reg
 */
.macro write_cp15_state read_from_vcpu
	.if \read_from_vcpu == 0
	pop	{r2,r4-r7}
	.else
	ldr	r2, [vcpu, #CP15_OFFSET(c14_CNTKCTL)]
	add	r12, vcpu, #CP15_OFFSET(c7_PAR)
	ldrd	r4, r5, [r12]
	ldr	r6, [vcpu, #CP15_OFFSET(c10_AMAIR0)]
	ldr	r7, [vcpu, #CP15_OFFSET(c10_AMAIR1)]
	.endif

	mcr	p15, 0, r2, c14, c1, 0	@ CNTKCTL
	mcrr	p15, 0, r4, r5, c7	@ PAR
	mcr	p15, 0, r6, c10, c3, 0	@ AMAIR0
	mcr	p15, 0, r7, c10, c3, 1	@ AMAIR1

	.if \read_from_vcpu == 0
	pop	{r2-r12}
	.else
	ldr	r2, [vcpu, #CP15_OFFSET(c13_CID)]
	ldr	r3, [vcpu, #CP15_OFFSET(c13_TID_URW)]
	ldr	r4, [vcpu, #CP15_OFFSET(c13_TID_URO)]
	ldr	r5, [vcpu, #CP15_OFFSET(c13_TID_PRIV)]
	ldr	r6, [vcpu, #CP15_OFFSET(c5_DFSR)]
	ldr	r7, [vcpu, #CP15_OFFSET(c5_IFSR)]
	ldr	r8, [vcpu, #CP15_OFFSET(c5_ADFSR)]
	ldr	r9, [vcpu, #CP15_OFFSET(c5_AIFSR)]
	ldr	r10, [vcpu, #CP15_OFFSET(c6_DFAR)]
	ldr	r11, [vcpu, #CP15_OFFSET(c6_IFAR)]
	ldr	r12, [vcpu, #CP15_OFFSET(c12_VBAR)]
	.endif

	mcr	p15, 0, r2, c13, c0, 1	@ CID
	mcr	p15, 0, r3, c13, c0, 2	@ TID_URW
	mcr	p15, 0, r4, c13, c0, 3	@ TID_URO
	mcr	p15, 0, r5, c13, c0, 4	@ TID_PRIV
	mcr	p15, 0, r6, c5, c0, 0	@ DFSR
	mcr	p15, 0, r7, c5, c0, 1	@ IFSR
	mcr	p15, 0, r8, c5, c1, 0	@ ADFSR
	mcr	p15, 0, r9, c5, c1, 1	@ AIFSR
	mcr	p15, 0, r10, c6, c0, 0	@ DFAR
	mcr	p15, 0, r11, c6, c0, 2	@ IFAR
	mcr	p15, 0, r12, c12, c0, 0	@ VBAR

	.if \read_from_vcpu == 0
	pop	{r2-r12}
	.else
	ldr	r2, [vcpu, #CP15_OFFSET(c1_SCTLR)]
	ldr	r3, [vcpu, #CP15_OFFSET(c1_CPACR)]
	ldr	r4, [vcpu, #CP15_OFFSET(c2_TTBCR)]
	ldr	r5, [vcpu, #CP15_OFFSET(c3_DACR)]
	add	r12, vcpu, #CP15_OFFSET(c2_TTBR0)
	ldrd	r6, r7, [r12]
	add	r12, vcpu, #CP15_OFFSET(c2_TTBR1)
	ldrd	r8, r9, [r12]
	ldr	r10, [vcpu, #CP15_OFFSET(c10_PRRR)]
	ldr	r11, [vcpu, #CP15_OFFSET(c10_NMRR)]
	ldr	r12, [vcpu, #CP15_OFFSET(c0_CSSELR)]
	.endif

	mcr	p15, 0, r2, c1, c0, 0	@ SCTLR
	mcr	p15, 0, r3, c1, c0, 2	@ CPACR
	mcr	p15, 0, r4, c2, c0, 2	@ TTBCR
	mcr	p15, 0, r5, c3, c0, 0	@ DACR
	mcrr	p15, 0, r6, r7, c2	@ TTBR 0
	mcrr	p15, 1, r8, r9, c2	@ TTBR 1
	mcr	p15, 0, r10, c10, c2, 0	@ PRRR
	mcr	p15, 0, r11, c10, c2, 1	@ NMRR
	mcr	p15, 2, r12, c0, c0, 0	@ CSSELR
.endm

/*
 * Save the VGIC CPU state into memory
 *
 * Assumes vcpu pointer in vcpu reg
 */
.macro save_vgic_state
	/* Get VGIC VCTRL base into r2 */
	ldr	r2, [vcpu, #VCPU_KVM]
	ldr	r2, [r2, #KVM_VGIC_VCTRL]
	cmp	r2, #0
	beq	2f

	/* Compute the address of struct vgic_cpu */
	add	r11, vcpu, #VCPU_VGIC_CPU

	/* Save all interesting registers */
	ldr	r4, [r2, #GICH_VMCR]
	ldr	r5, [r2, #GICH_MISR]
	ldr	r6, [r2, #GICH_EISR0]
	ldr	r7, [r2, #GICH_EISR1]
	ldr	r8, [r2, #GICH_ELRSR0]
	ldr	r9, [r2, #GICH_ELRSR1]
	ldr	r10, [r2, #GICH_APR]
ARM_BE8(rev	r4, r4	)
ARM_BE8(rev	r5, r5	)
ARM_BE8(rev	r6, r6	)
ARM_BE8(rev	r7, r7	)
ARM_BE8(rev	r8, r8	)
ARM_BE8(rev	r9, r9	)
ARM_BE8(rev	r10, r10	)

	str	r4, [r11, #VGIC_V2_CPU_VMCR]
	str	r5, [r11, #VGIC_V2_CPU_MISR]
#ifdef CONFIG_CPU_ENDIAN_BE8
	str	r6, [r11, #(VGIC_V2_CPU_EISR + 4)]
	str	r7, [r11, #VGIC_V2_CPU_EISR]
	str	r8, [r11, #(VGIC_V2_CPU_ELRSR + 4)]
	str	r9, [r11, #VGIC_V2_CPU_ELRSR]
#else
	str	r6, [r11, #VGIC_V2_CPU_EISR]
	str	r7, [r11, #(VGIC_V2_CPU_EISR + 4)]
	str	r8, [r11, #VGIC_V2_CPU_ELRSR]
	str	r9, [r11, #(VGIC_V2_CPU_ELRSR + 4)]
#endif
	str	r10, [r11, #VGIC_V2_CPU_APR]

	/* Clear GICH_HCR */
	mov	r5, #0
	str	r5, [r2, #GICH_HCR]

	/* Save list registers */
	add	r2, r2, #GICH_LR0
	add	r3, r11, #VGIC_V2_CPU_LR
	ldr	r4, [r11, #VGIC_CPU_NR_LR]
1:	ldr	r6, [r2], #4
ARM_BE8(rev	r6, r6	)
	str	r6, [r3], #4
	subs	r4, r4, #1
	bne	1b
2:
.endm

/*
 * Restore the VGIC CPU state from memory
 *
 * Assumes vcpu pointer in vcpu reg
 */
.macro restore_vgic_state
	/* Get VGIC VCTRL base into r2 */
	ldr	r2, [vcpu, #VCPU_KVM]
	ldr	r2, [r2, #KVM_VGIC_VCTRL]
	cmp	r2, #0
	beq	2f

	/* Compute the address of struct vgic_cpu */
	add	r11, vcpu, #VCPU_VGIC_CPU

	/* We only restore a minimal set of registers */
	ldr	r3, [r11, #VGIC_V2_CPU_HCR]
	ldr	r4, [r11, #VGIC_V2_CPU_VMCR]
	ldr	r8, [r11, #VGIC_V2_CPU_APR]
ARM_BE8(rev	r3, r3	)
ARM_BE8(rev	r4, r4	)
ARM_BE8(rev	r8, r8	)

	str	r3, [r2, #GICH_HCR]
	str	r4, [r2, #GICH_VMCR]
	str	r8, [r2, #GICH_APR]

	/* Restore list registers */
	add	r2, r2, #GICH_LR0
	add	r3, r11, #VGIC_V2_CPU_LR
	ldr	r4, [r11, #VGIC_CPU_NR_LR]
1:	ldr	r6, [r3], #4
ARM_BE8(rev	r6, r6  )
	str	r6, [r2], #4
	subs	r4, r4, #1
	bne	1b
2:
.endm

#define CNTHCTL_PL1PCTEN	(1 << 0)
#define CNTHCTL_PL1PCEN		(1 << 1)

/*
 * Save the timer state onto the VCPU and allow physical timer/counter access
 * for the host.
 *
 * Assumes vcpu pointer in vcpu reg
 * Clobbers r2-r5
 */
.macro save_timer_state
	ldr	r4, [vcpu, #VCPU_KVM]
	ldr	r2, [r4, #KVM_TIMER_ENABLED]
	cmp	r2, #0
	beq	1f

	mrc	p15, 0, r2, c14, c3, 1	@ CNTV_CTL
	str	r2, [vcpu, #VCPU_TIMER_CNTV_CTL]

	isb

	mrrc	p15, 3, rr_lo_hi(r2, r3), c14	@ CNTV_CVAL
	ldr	r4, =VCPU_TIMER_CNTV_CVAL
	add	r5, vcpu, r4
	strd	r2, r3, [r5]

	@ Ensure host CNTVCT == CNTPCT
	mov	r2, #0
	mcrr	p15, 4, r2, r2, c14	@ CNTVOFF

1:
	mov	r2, #0			@ Clear ENABLE
	mcr	p15, 0, r2, c14, c3, 1	@ CNTV_CTL

	@ Allow physical timer/counter access for the host
	mrc	p15, 4, r2, c14, c1, 0	@ CNTHCTL
	orr	r2, r2, #(CNTHCTL_PL1PCEN | CNTHCTL_PL1PCTEN)
	mcr	p15, 4, r2, c14, c1, 0	@ CNTHCTL
.endm

/*
 * Load the timer state from the VCPU and deny physical timer/counter access
 * for the host.
 *
 * Assumes vcpu pointer in vcpu reg
 * Clobbers r2-r5
 */
.macro restore_timer_state
	@ Disallow physical timer access for the guest
	@ Physical counter access is allowed
	mrc	p15, 4, r2, c14, c1, 0	@ CNTHCTL
	orr	r2, r2, #CNTHCTL_PL1PCTEN
	bic	r2, r2, #CNTHCTL_PL1PCEN
	mcr	p15, 4, r2, c14, c1, 0	@ CNTHCTL

	ldr	r4, [vcpu, #VCPU_KVM]
	ldr	r2, [r4, #KVM_TIMER_ENABLED]
	cmp	r2, #0
	beq	1f

	ldr	r2, [r4, #KVM_TIMER_CNTVOFF]
	ldr	r3, [r4, #(KVM_TIMER_CNTVOFF + 4)]
	mcrr	p15, 4, rr_lo_hi(r2, r3), c14	@ CNTVOFF

	ldr	r4, =VCPU_TIMER_CNTV_CVAL
	add	r5, vcpu, r4
	ldrd	r2, r3, [r5]
	mcrr	p15, 3, rr_lo_hi(r2, r3), c14	@ CNTV_CVAL
	isb

	ldr	r2, [vcpu, #VCPU_TIMER_CNTV_CTL]
	and	r2, r2, #3
	mcr	p15, 0, r2, c14, c3, 1	@ CNTV_CTL
1:
.endm

.equ vmentry,	0
.equ vmexit,	1

/* Configures the HSTR (Hyp System Trap Register) on entry/return
 * (hardware reset value is 0) */
.macro set_hstr operation
	mrc	p15, 4, r2, c1, c1, 3
	ldr	r3, =HSTR_T(15)
	.if \operation == vmentry
	orr	r2, r2, r3		@ Trap CR{15}
	.else
	bic	r2, r2, r3		@ Don't trap any CRx accesses
	.endif
	mcr	p15, 4, r2, c1, c1, 3
.endm

/* Configures the HCPTR (Hyp Coprocessor Trap Register) on entry/return
 * (hardware reset value is 0). Keep previous value in r2.
 * An ISB is emited on vmexit/vmtrap, but executed on vmexit only if
 * VFP wasn't already enabled (always executed on vmtrap).
 * If a label is specified with vmexit, it is branched to if VFP wasn't
 * enabled.
 */
.macro set_hcptr operation, mask, label = none
	mrc	p15, 4, r2, c1, c1, 2
	ldr	r3, =\mask
	.if \operation == vmentry
	orr	r3, r2, r3		@ Trap coproc-accesses defined in mask
	.else
	bic	r3, r2, r3		@ Don't trap defined coproc-accesses
	.endif
	mcr	p15, 4, r3, c1, c1, 2
	.if \operation != vmentry
	.if \operation == vmexit
	tst	r2, #(HCPTR_TCP(10) | HCPTR_TCP(11))
	beq	1f
	.endif
	isb
	.if \label != none
	b	\label
	.endif
1:
	.endif
.endm

/* Configures the HDCR (Hyp Debug Configuration Register) on entry/return
 * (hardware reset value is 0) */
.macro set_hdcr operation
	mrc	p15, 4, r2, c1, c1, 1
	ldr	r3, =(HDCR_TPM|HDCR_TPMCR)
	.if \operation == vmentry
	orr	r2, r2, r3		@ Trap some perfmon accesses
	.else
	bic	r2, r2, r3		@ Don't trap any perfmon accesses
	.endif
	mcr	p15, 4, r2, c1, c1, 1
.endm

/* Enable/Disable: stage-2 trans., trap interrupts, trap wfi, trap smc */
.macro configure_hyp_role operation
	.if \operation == vmentry
	ldr	r2, [vcpu, #VCPU_HCR]
	ldr	r3, [vcpu, #VCPU_IRQ_LINES]
	orr	r2, r2, r3
	.else
	mov	r2, #0
	.endif
	mcr	p15, 4, r2, c1, c1, 0	@ HCR
.endm

.macro load_vcpu
	mrc	p15, 4, vcpu, c13, c0, 2	@ HTPIDR
.endm