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/*
* Copyright (c) 2013-2024, Arm Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <asm_macros.S>
#include <assert_macros.S>
#include <context.h>
#include <el3_common_macros.S>
#include <platform_def.h>
#if CTX_INCLUDE_FPREGS
.global fpregs_context_save
.global fpregs_context_restore
#endif /* CTX_INCLUDE_FPREGS */
#if CTX_INCLUDE_SVE_REGS
.global sve_context_save
.global sve_context_restore
#endif /* CTX_INCLUDE_SVE_REGS */
#if ERRATA_SPECULATIVE_AT
.global save_and_update_ptw_el1_sys_regs
#endif /* ERRATA_SPECULATIVE_AT */
.global prepare_el3_entry
.global restore_gp_pmcr_pauth_regs
.global el3_exit
/* Following macros will be used if any of CTX_INCLUDE_FPREGS or CTX_INCLUDE_SVE_REGS is enabled */
#if CTX_INCLUDE_FPREGS || CTX_INCLUDE_SVE_REGS
.macro fpregs_state_save base:req hold:req
mrs \hold, fpsr
str \hold, [\base, #CTX_SIMD_FPSR]
mrs \hold, fpcr
str \hold, [\base, #CTX_SIMD_FPCR]
#if CTX_INCLUDE_AARCH32_REGS && CTX_INCLUDE_FPREGS
mrs \hold, fpexc32_el2
str \hold, [\base, #CTX_SIMD_FPEXC32]
#endif
.endm
.macro fpregs_state_restore base:req hold:req
ldr \hold, [\base, #CTX_SIMD_FPSR]
msr fpsr, \hold
ldr \hold, [\base, #CTX_SIMD_FPCR]
msr fpcr, \hold
#if CTX_INCLUDE_AARCH32_REGS && CTX_INCLUDE_FPREGS
ldr \hold, [\base, #CTX_SIMD_FPEXC32]
msr fpexc32_el2, \hold
#endif
.endm
#endif /* CTX_INCLUDE_FPREGS || CTX_INCLUDE_SVE_REGS */
/* ------------------------------------------------------------------
* The following function follows the aapcs_64 strictly to use
* x9-x17 (temporary caller-saved registers according to AArch64 PCS)
* to save floating point register context. It assumes that 'x0' is
* pointing to a 'fp_regs' structure where the register context will
* be saved.
*
* Access to VFP registers will trap if CPTR_EL3.TFP is set.
* However currently we don't use VFP registers nor set traps in
* Trusted Firmware, and assume it's cleared.
*
* TODO: Revisit when VFP is used in secure world
* ------------------------------------------------------------------
*/
#if CTX_INCLUDE_FPREGS
func fpregs_context_save
stp q0, q1, [x0], #32
stp q2, q3, [x0], #32
stp q4, q5, [x0], #32
stp q6, q7, [x0], #32
stp q8, q9, [x0], #32
stp q10, q11, [x0], #32
stp q12, q13, [x0], #32
stp q14, q15, [x0], #32
stp q16, q17, [x0], #32
stp q18, q19, [x0], #32
stp q20, q21, [x0], #32
stp q22, q23, [x0], #32
stp q24, q25, [x0], #32
stp q26, q27, [x0], #32
stp q28, q29, [x0], #32
stp q30, q31, [x0], #32
fpregs_state_save x0, x9
ret
endfunc fpregs_context_save
/* ------------------------------------------------------------------
* The following function follows the aapcs_64 strictly to use x9-x17
* (temporary caller-saved registers according to AArch64 PCS) to
* restore floating point register context. It assumes that 'x0' is
* pointing to a 'fp_regs' structure from where the register context
* will be restored.
*
* Access to VFP registers will trap if CPTR_EL3.TFP is set.
* However currently we don't use VFP registers nor set traps in
* Trusted Firmware, and assume it's cleared.
*
* TODO: Revisit when VFP is used in secure world
* ------------------------------------------------------------------
*/
func fpregs_context_restore
ldp q0, q1, [x0], #32
ldp q2, q3, [x0], #32
ldp q4, q5, [x0], #32
ldp q6, q7, [x0], #32
ldp q8, q9, [x0], #32
ldp q10, q11, [x0], #32
ldp q12, q13, [x0], #32
ldp q14, q15, [x0], #32
ldp q16, q17, [x0], #32
ldp q18, q19, [x0], #32
ldp q20, q21, [x0], #32
ldp q22, q23, [x0], #32
ldp q24, q25, [x0], #32
ldp q26, q27, [x0], #32
ldp q28, q29, [x0], #32
ldp q30, q31, [x0], #32
fpregs_state_restore x0, x9
ret
endfunc fpregs_context_restore
#endif /* CTX_INCLUDE_FPREGS */
#if CTX_INCLUDE_SVE_REGS
/*
* Helper macros for SVE predicates save/restore operations.
*/
.macro sve_predicate_op op:req reg:req
\op p0, [\reg, #0, MUL VL]
\op p1, [\reg, #1, MUL VL]
\op p2, [\reg, #2, MUL VL]
\op p3, [\reg, #3, MUL VL]
\op p4, [\reg, #4, MUL VL]
\op p5, [\reg, #5, MUL VL]
\op p6, [\reg, #6, MUL VL]
\op p7, [\reg, #7, MUL VL]
\op p8, [\reg, #8, MUL VL]
\op p9, [\reg, #9, MUL VL]
\op p10, [\reg, #10, MUL VL]
\op p11, [\reg, #11, MUL VL]
\op p12, [\reg, #12, MUL VL]
\op p13, [\reg, #13, MUL VL]
\op p14, [\reg, #14, MUL VL]
\op p15, [\reg, #15, MUL VL]
.endm
.macro sve_vectors_op op:req reg:req
\op z0, [\reg, #0, MUL VL]
\op z1, [\reg, #1, MUL VL]
\op z2, [\reg, #2, MUL VL]
\op z3, [\reg, #3, MUL VL]
\op z4, [\reg, #4, MUL VL]
\op z5, [\reg, #5, MUL VL]
\op z6, [\reg, #6, MUL VL]
\op z7, [\reg, #7, MUL VL]
\op z8, [\reg, #8, MUL VL]
\op z9, [\reg, #9, MUL VL]
\op z10, [\reg, #10, MUL VL]
\op z11, [\reg, #11, MUL VL]
\op z12, [\reg, #12, MUL VL]
\op z13, [\reg, #13, MUL VL]
\op z14, [\reg, #14, MUL VL]
\op z15, [\reg, #15, MUL VL]
\op z16, [\reg, #16, MUL VL]
\op z17, [\reg, #17, MUL VL]
\op z18, [\reg, #18, MUL VL]
\op z19, [\reg, #19, MUL VL]
\op z20, [\reg, #20, MUL VL]
\op z21, [\reg, #21, MUL VL]
\op z22, [\reg, #22, MUL VL]
\op z23, [\reg, #23, MUL VL]
\op z24, [\reg, #24, MUL VL]
\op z25, [\reg, #25, MUL VL]
\op z26, [\reg, #26, MUL VL]
\op z27, [\reg, #27, MUL VL]
\op z28, [\reg, #28, MUL VL]
\op z29, [\reg, #29, MUL VL]
\op z30, [\reg, #30, MUL VL]
\op z31, [\reg, #31, MUL VL]
.endm
/* ------------------------------------------------------------------
* The following function follows the aapcs_64 strictly to use x9-x17
* (temporary caller-saved registers according to AArch64 PCS) to
* restore SVE register context. It assumes that 'x0' is
* pointing to a 'sve_regs_t' structure to which the register context
* will be saved.
* ------------------------------------------------------------------
*/
func sve_context_save
.arch_extension sve
/* Temporarily enable SVE */
mrs x10, cptr_el3
orr x11, x10, #CPTR_EZ_BIT
bic x11, x11, #TFP_BIT
msr cptr_el3, x11
isb
/* zcr_el3 */
mrs x12, S3_6_C1_C2_0
mov x13, #((SVE_VECTOR_LEN >> 7) - 1)
msr S3_6_C1_C2_0, x13
isb
/* Predicate registers */
mov x13, #CTX_SIMD_PREDICATES
add x9, x0, x13
sve_predicate_op str, x9
/* Save FFR after predicates */
mov x13, #CTX_SIMD_FFR
add x9, x0, x13
rdffr p0.b
str p0, [x9]
/* Save vector registers */
mov x13, #CTX_SIMD_VECTORS
add x9, x0, x13
sve_vectors_op str, x9
/* Restore SVE enablement */
msr S3_6_C1_C2_0, x12 /* zcr_el3 */
msr cptr_el3, x10
isb
.arch_extension nosve
/* Save FPSR, FPCR and FPEXC32 */
fpregs_state_save x0, x9
ret
endfunc sve_context_save
/* ------------------------------------------------------------------
* The following function follows the aapcs_64 strictly to use x9-x17
* (temporary caller-saved registers according to AArch64 PCS) to
* restore SVE register context. It assumes that 'x0' is pointing to
* a 'sve_regs_t' structure from where the register context will be
* restored.
* ------------------------------------------------------------------
*/
func sve_context_restore
.arch_extension sve
/* Temporarily enable SVE for EL3 */
mrs x10, cptr_el3
orr x11, x10, #CPTR_EZ_BIT
bic x11, x11, #TFP_BIT
msr cptr_el3, x11
isb
/* zcr_el3 */
mrs x12, S3_6_C1_C2_0
mov x13, #((SVE_VECTOR_LEN >> 7) - 1)
msr S3_6_C1_C2_0, x13
isb
/* Restore FFR register before predicates */
mov x13, #CTX_SIMD_FFR
add x9, x0, x13
ldr p0, [x9]
wrffr p0.b
/* Restore predicate registers */
mov x13, #CTX_SIMD_PREDICATES
add x9, x0, x13
sve_predicate_op ldr, x9
/* Restore vector registers */
mov x13, #CTX_SIMD_VECTORS
add x9, x0, x13
sve_vectors_op ldr, x9
/* Restore SVE enablement */
msr S3_6_C1_C2_0, x12 /* zcr_el3 */
msr cptr_el3, x10
isb
.arch_extension nosve
/* Restore FPSR, FPCR and FPEXC32 */
fpregs_state_restore x0, x9
ret
endfunc sve_context_restore
#endif /* CTX_INCLUDE_SVE_REGS */
/*
* Set SCR_EL3.EA bit to enable SErrors at EL3
*/
.macro enable_serror_at_el3
mrs x8, scr_el3
orr x8, x8, #SCR_EA_BIT
msr scr_el3, x8
.endm
/*
* Set the PSTATE bits not set when the exception was taken as
* described in the AArch64.TakeException() pseudocode function
* in ARM DDI 0487F.c page J1-7635 to a default value.
*/
.macro set_unset_pstate_bits
/*
* If Data Independent Timing (DIT) functionality is implemented,
* always enable DIT in EL3
*/
#if ENABLE_FEAT_DIT
#if ENABLE_FEAT_DIT >= 2
mrs x8, id_aa64pfr0_el1
and x8, x8, #(ID_AA64PFR0_DIT_MASK << ID_AA64PFR0_DIT_SHIFT)
cbz x8, 1f
#endif
mov x8, #DIT_BIT
msr DIT, x8
1:
#endif /* ENABLE_FEAT_DIT */
.endm /* set_unset_pstate_bits */
/*-------------------------------------------------------------------------
* This macro checks the ENABLE_FEAT_MPAM state, performs ID register
* check to see if the platform supports MPAM extension and restores MPAM3
* register value if it is FEAT_STATE_ENABLED/FEAT_STATE_CHECKED.
*
* This is particularly more complicated because we can't check
* if the platform supports MPAM by looking for status of a particular bit
* in the MDCR_EL3 or CPTR_EL3 register like other extensions.
* ------------------------------------------------------------------------
*/
.macro restore_mpam3_el3
#if ENABLE_FEAT_MPAM
#if ENABLE_FEAT_MPAM >= 2
mrs x8, id_aa64pfr0_el1
lsr x8, x8, #(ID_AA64PFR0_MPAM_SHIFT)
and x8, x8, #(ID_AA64PFR0_MPAM_MASK)
mrs x7, id_aa64pfr1_el1
lsr x7, x7, #(ID_AA64PFR1_MPAM_FRAC_SHIFT)
and x7, x7, #(ID_AA64PFR1_MPAM_FRAC_MASK)
orr x7, x7, x8
cbz x7, no_mpam
#endif
/* -----------------------------------------------------------
* Restore MPAM3_EL3 register as per context state
* Currently we only enable MPAM for NS world and trap to EL3
* for MPAM access in lower ELs of Secure and Realm world
* x9 holds address of the per_world context
* -----------------------------------------------------------
*/
ldr x17, [x9, #CTX_MPAM3_EL3]
msr S3_6_C10_C5_0, x17 /* mpam3_el3 */
no_mpam:
#endif
.endm /* restore_mpam3_el3 */
/* ------------------------------------------------------------------
* The following macro is used to save and restore all the general
* purpose and ARMv8.3-PAuth (if enabled) registers.
* It also checks if the Secure Cycle Counter (PMCCNTR_EL0)
* is disabled in EL3/Secure (ARMv8.5-PMU), wherein PMCCNTR_EL0
* needs not to be saved/restored during world switch.
*
* Ideally we would only save and restore the callee saved registers
* when a world switch occurs but that type of implementation is more
* complex. So currently we will always save and restore these
* registers on entry and exit of EL3.
* clobbers: x18
* ------------------------------------------------------------------
*/
.macro save_gp_pmcr_pauth_regs
stp x0, x1, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X0]
stp x2, x3, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X2]
stp x4, x5, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X4]
stp x6, x7, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X6]
stp x8, x9, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X8]
stp x10, x11, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X10]
stp x12, x13, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X12]
stp x14, x15, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X14]
stp x16, x17, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X16]
stp x18, x19, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X18]
stp x20, x21, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X20]
stp x22, x23, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X22]
stp x24, x25, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X24]
stp x26, x27, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X26]
stp x28, x29, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X28]
mrs x18, sp_el0
str x18, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_SP_EL0]
/* PMUv3 is presumed to be always present */
mrs x9, pmcr_el0
str x9, [sp, #CTX_EL3STATE_OFFSET + CTX_PMCR_EL0]
isb
#if CTX_INCLUDE_PAUTH_REGS
/* ----------------------------------------------------------
* Save the ARMv8.3-PAuth keys as they are not banked
* by exception level
* ----------------------------------------------------------
*/
add x19, sp, #CTX_PAUTH_REGS_OFFSET
mrs x20, APIAKeyLo_EL1 /* x21:x20 = APIAKey */
mrs x21, APIAKeyHi_EL1
mrs x22, APIBKeyLo_EL1 /* x23:x22 = APIBKey */
mrs x23, APIBKeyHi_EL1
mrs x24, APDAKeyLo_EL1 /* x25:x24 = APDAKey */
mrs x25, APDAKeyHi_EL1
mrs x26, APDBKeyLo_EL1 /* x27:x26 = APDBKey */
mrs x27, APDBKeyHi_EL1
mrs x28, APGAKeyLo_EL1 /* x29:x28 = APGAKey */
mrs x29, APGAKeyHi_EL1
stp x20, x21, [x19, #CTX_PACIAKEY_LO]
stp x22, x23, [x19, #CTX_PACIBKEY_LO]
stp x24, x25, [x19, #CTX_PACDAKEY_LO]
stp x26, x27, [x19, #CTX_PACDBKEY_LO]
stp x28, x29, [x19, #CTX_PACGAKEY_LO]
#endif /* CTX_INCLUDE_PAUTH_REGS */
.endm /* save_gp_pmcr_pauth_regs */
/* -----------------------------------------------------------------
* This function saves the context and sets the PSTATE to a known
* state, preparing entry to el3.
* Save all the general purpose and ARMv8.3-PAuth (if enabled)
* registers.
* Then set any of the PSTATE bits that are not set by hardware
* according to the Aarch64.TakeException pseudocode in the Arm
* Architecture Reference Manual to a default value for EL3.
* clobbers: x17
* -----------------------------------------------------------------
*/
func prepare_el3_entry
save_gp_pmcr_pauth_regs
setup_el3_execution_context
ret
endfunc prepare_el3_entry
/* ------------------------------------------------------------------
* This function restores ARMv8.3-PAuth (if enabled) and all general
* purpose registers except x30 from the CPU context.
* x30 register must be explicitly restored by the caller.
* ------------------------------------------------------------------
*/
func restore_gp_pmcr_pauth_regs
#if CTX_INCLUDE_PAUTH_REGS
/* Restore the ARMv8.3 PAuth keys */
add x10, sp, #CTX_PAUTH_REGS_OFFSET
ldp x0, x1, [x10, #CTX_PACIAKEY_LO] /* x1:x0 = APIAKey */
ldp x2, x3, [x10, #CTX_PACIBKEY_LO] /* x3:x2 = APIBKey */
ldp x4, x5, [x10, #CTX_PACDAKEY_LO] /* x5:x4 = APDAKey */
ldp x6, x7, [x10, #CTX_PACDBKEY_LO] /* x7:x6 = APDBKey */
ldp x8, x9, [x10, #CTX_PACGAKEY_LO] /* x9:x8 = APGAKey */
msr APIAKeyLo_EL1, x0
msr APIAKeyHi_EL1, x1
msr APIBKeyLo_EL1, x2
msr APIBKeyHi_EL1, x3
msr APDAKeyLo_EL1, x4
msr APDAKeyHi_EL1, x5
msr APDBKeyLo_EL1, x6
msr APDBKeyHi_EL1, x7
msr APGAKeyLo_EL1, x8
msr APGAKeyHi_EL1, x9
#endif /* CTX_INCLUDE_PAUTH_REGS */
/* PMUv3 is presumed to be always present */
ldr x0, [sp, #CTX_EL3STATE_OFFSET + CTX_PMCR_EL0]
msr pmcr_el0, x0
ldp x0, x1, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X0]
ldp x2, x3, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X2]
ldp x4, x5, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X4]
ldp x6, x7, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X6]
ldp x8, x9, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X8]
ldp x10, x11, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X10]
ldp x12, x13, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X12]
ldp x14, x15, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X14]
ldp x16, x17, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X16]
ldp x18, x19, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X18]
ldp x20, x21, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X20]
ldp x22, x23, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X22]
ldp x24, x25, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X24]
ldp x26, x27, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X26]
ldr x28, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_SP_EL0]
msr sp_el0, x28
ldp x28, x29, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X28]
ret
endfunc restore_gp_pmcr_pauth_regs
#if ERRATA_SPECULATIVE_AT
/* --------------------------------------------------------------------
* In case of ERRATA_SPECULATIVE_AT, save SCTLR_EL1 and TCR_EL1
* registers and update EL1 registers to disable stage1 and stage2
* page table walk.
* --------------------------------------------------------------------
*/
func save_and_update_ptw_el1_sys_regs
/* ----------------------------------------------------------
* Save only sctlr_el1 and tcr_el1 registers
* ----------------------------------------------------------
*/
mrs x29, sctlr_el1
str x29, [sp, #(CTX_ERRATA_SPEC_AT_OFFSET + CTX_ERRATA_SPEC_AT_SCTLR_EL1)]
mrs x29, tcr_el1
str x29, [sp, #(CTX_ERRATA_SPEC_AT_OFFSET + CTX_ERRATA_SPEC_AT_TCR_EL1)]
/* ------------------------------------------------------------
* Must follow below order in order to disable page table
* walk for lower ELs (EL1 and EL0). First step ensures that
* page table walk is disabled for stage1 and second step
* ensures that page table walker should use TCR_EL1.EPDx
* bits to perform address translation. ISB ensures that CPU
* does these 2 steps in order.
*
* 1. Update TCR_EL1.EPDx bits to disable page table walk by
* stage1.
* 2. Enable MMU bit to avoid identity mapping via stage2
* and force TCR_EL1.EPDx to be used by the page table
* walker.
* ------------------------------------------------------------
*/
orr x29, x29, #(TCR_EPD0_BIT)
orr x29, x29, #(TCR_EPD1_BIT)
msr tcr_el1, x29
isb
mrs x29, sctlr_el1
orr x29, x29, #SCTLR_M_BIT
msr sctlr_el1, x29
isb
ret
endfunc save_and_update_ptw_el1_sys_regs
#endif /* ERRATA_SPECULATIVE_AT */
/* -----------------------------------------------------------------
* The below macro returns the address of the per_world context for
* the security state, retrieved through "get_security_state" macro.
* The per_world context address is returned in the register argument.
* Clobbers: x9, x10
* ------------------------------------------------------------------
*/
.macro get_per_world_context _reg:req
ldr x10, [sp, #CTX_EL3STATE_OFFSET + CTX_SCR_EL3]
get_security_state x9, x10
mov_imm x10, (CTX_PERWORLD_EL3STATE_END - CTX_CPTR_EL3)
mul x9, x9, x10
adrp x10, per_world_context
add x10, x10, :lo12:per_world_context
add x9, x9, x10
mov \_reg, x9
.endm
/* ------------------------------------------------------------------
* This routine assumes that the SP_EL3 is pointing to a valid
* context structure from where the gp regs and other special
* registers can be retrieved.
* ------------------------------------------------------------------
*/
func el3_exit
#if ENABLE_ASSERTIONS
/* el3_exit assumes SP_EL0 on entry */
mrs x17, spsel
cmp x17, #MODE_SP_EL0
ASM_ASSERT(eq)
#endif /* ENABLE_ASSERTIONS */
/* ----------------------------------------------------------
* Save the current SP_EL0 i.e. the EL3 runtime stack which
* will be used for handling the next SMC.
* Then switch to SP_EL3.
* ----------------------------------------------------------
*/
mov x17, sp
msr spsel, #MODE_SP_ELX
str x17, [sp, #CTX_EL3STATE_OFFSET + CTX_RUNTIME_SP]
/* ----------------------------------------------------------
* Restore CPTR_EL3.
* ZCR is only restored if SVE is supported and enabled.
* Synchronization is required before zcr_el3 is addressed.
* ----------------------------------------------------------
*/
/* The address of the per_world context is stored in x9 */
get_per_world_context x9
ldp x19, x20, [x9, #CTX_CPTR_EL3]
msr cptr_el3, x19
#if IMAGE_BL31
ands x19, x19, #CPTR_EZ_BIT
beq sve_not_enabled
isb
msr S3_6_C1_C2_0, x20 /* zcr_el3 */
sve_not_enabled:
restore_mpam3_el3
#endif /* IMAGE_BL31 */
#if IMAGE_BL31 && DYNAMIC_WORKAROUND_CVE_2018_3639
/* ----------------------------------------------------------
* Restore mitigation state as it was on entry to EL3
* ----------------------------------------------------------
*/
ldr x17, [sp, #CTX_CVE_2018_3639_OFFSET + CTX_CVE_2018_3639_DISABLE]
cbz x17, 1f
blr x17
1:
#endif /* IMAGE_BL31 && DYNAMIC_WORKAROUND_CVE_2018_3639 */
#if IMAGE_BL31
synchronize_errors
#endif /* IMAGE_BL31 */
/* --------------------------------------------------------------
* Restore MDCR_EL3, SPSR_EL3, ELR_EL3 and SCR_EL3 prior to ERET
* --------------------------------------------------------------
*/
ldp x16, x17, [sp, #CTX_EL3STATE_OFFSET + CTX_SPSR_EL3]
ldr x18, [sp, #CTX_EL3STATE_OFFSET + CTX_SCR_EL3]
ldr x19, [sp, #CTX_EL3STATE_OFFSET + CTX_MDCR_EL3]
msr spsr_el3, x16
msr elr_el3, x17
msr scr_el3, x18
msr mdcr_el3, x19
restore_ptw_el1_sys_regs
/* ----------------------------------------------------------
* Restore general purpose (including x30), PMCR_EL0 and
* ARMv8.3-PAuth registers.
* Exit EL3 via ERET to a lower exception level.
* ----------------------------------------------------------
*/
bl restore_gp_pmcr_pauth_regs
ldr x30, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_LR]
#ifdef IMAGE_BL31
/* Clear the EL3 flag as we are exiting el3 */
str xzr, [sp, #CTX_EL3STATE_OFFSET + CTX_NESTED_EA_FLAG]
#endif /* IMAGE_BL31 */
exception_return
endfunc el3_exit