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arm-trusted-firmware/lib/cpus/aarch64/cortex_a710.S
Boyan Karatotev b62673c645 refactor(cpus): register DSU errata with the errata framework's wrappers 
The existing DSU errata workarounds hijack the errata framework's inner
workings to register with it. However, that is undesirable as any change
to the framework may end up missing these workarounds. So convert the
checks and workarounds to macros and have them included with the
standard wrappers.

The only problem with this is the is_scu_present_in_dsu weak function.
Fortunately, it is only needed for 2 of the errata and only on 3 cores.
So drop it, assuming the default behaviour and have the callers handle
the exception.

Change-Id: Iefa36325804ea093e938f867b9a6f49a6984b8ae
Signed-off-by: Boyan Karatotev <boyan.karatotev@arm.com>
2025-02-20 17:28:17 +00:00

274 lines
9.3 KiB
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/*
* Copyright (c) 2021-2025, Arm Limited. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <asm_macros.S>
#include <common/bl_common.h>
#include <cortex_a710.h>
#include <cpu_macros.S>
#include <dsu_macros.S>
#include <plat_macros.S>
#include "wa_cve_2022_23960_bhb_vector.S"
/* Hardware handled coherency */
#if HW_ASSISTED_COHERENCY == 0
#error "Cortex A710 must be compiled with HW_ASSISTED_COHERENCY enabled"
#endif
/* 64-bit only core */
#if CTX_INCLUDE_AARCH32_REGS == 1
#error "Cortex A710 supports only AArch64. Compile with CTX_INCLUDE_AARCH32_REGS=0"
#endif
.global check_erratum_cortex_a710_3701772
#if WORKAROUND_CVE_2022_23960
wa_cve_2022_23960_bhb_vector_table CORTEX_A710_BHB_LOOP_COUNT, cortex_a710
#endif /* WORKAROUND_CVE_2022_23960 */
/* Disable hardware page aggregation. Enables mitigation for `CVE-2024-5660` */
workaround_reset_start cortex_a710, CVE(2024, 5660), WORKAROUND_CVE_2024_5660
sysreg_bit_set CORTEX_A710_CPUECTLR_EL1, BIT(46)
workaround_reset_end cortex_a710, CVE(2024, 5660)
check_erratum_ls cortex_a710, CVE(2024, 5660), CPU_REV(2, 1)
workaround_reset_start cortex_a710, ERRATUM(1987031), ERRATA_A710_1987031
ldr x0,=0x6
msr S3_6_c15_c8_0,x0
ldr x0,=0xF3A08002
msr S3_6_c15_c8_2,x0
ldr x0,=0xFFF0F7FE
msr S3_6_c15_c8_3,x0
ldr x0,=0x40000001003ff
msr S3_6_c15_c8_1,x0
ldr x0,=0x7
msr S3_6_c15_c8_0,x0
ldr x0,=0xBF200000
msr S3_6_c15_c8_2,x0
ldr x0,=0xFFEF0000
msr S3_6_c15_c8_3,x0
ldr x0,=0x40000001003f3
msr S3_6_c15_c8_1,x0
workaround_reset_end cortex_a710, ERRATUM(1987031)
check_erratum_ls cortex_a710, ERRATUM(1987031), CPU_REV(2, 0)
workaround_runtime_start cortex_a710, ERRATUM(2008768), ERRATA_A710_2008768
/* Stash ERRSELR_EL1 in x2 */
mrs x2, ERRSELR_EL1
/* Select error record 0 and clear ED bit */
msr ERRSELR_EL1, xzr
mrs x1, ERXCTLR_EL1
bfi x1, xzr, #ERXCTLR_ED_SHIFT, #1
msr ERXCTLR_EL1, x1
/* Select error record 1 and clear ED bit */
mov x0, #1
msr ERRSELR_EL1, x0
mrs x1, ERXCTLR_EL1
bfi x1, xzr, #ERXCTLR_ED_SHIFT, #1
msr ERXCTLR_EL1, x1
/* Restore ERRSELR_EL1 from x2 */
msr ERRSELR_EL1, x2
workaround_runtime_end cortex_a710, ERRATUM(2008768), NO_ISB
check_erratum_ls cortex_a710, ERRATUM(2008768), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2017096), ERRATA_A710_2017096
sysreg_bit_set CORTEX_A710_CPUECTLR_EL1, CORTEX_A710_CPUECTLR_EL1_PFSTIDIS_BIT
workaround_reset_end cortex_a710, ERRATUM(2017096)
check_erratum_ls cortex_a710, ERRATUM(2017096), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2055002), ERRATA_A710_2055002
sysreg_bit_set CORTEX_A710_CPUACTLR_EL1, CORTEX_A710_CPUACTLR_EL1_BIT_46
workaround_reset_end cortex_a710, ERRATUM(2055002)
check_erratum_range cortex_a710, ERRATUM(2055002), CPU_REV(1, 0), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2058056), ERRATA_A710_2058056
sysreg_bitfield_insert CORTEX_A710_CPUECTLR2_EL1, CORTEX_A710_CPUECTLR2_EL1_PF_MODE_CNSRV, \
CPUECTLR2_EL1_PF_MODE_LSB, CPUECTLR2_EL1_PF_MODE_WIDTH
workaround_reset_end cortex_a710, ERRATUM(2058056)
check_erratum_ls cortex_a710, ERRATUM(2058056), CPU_REV(2, 1)
workaround_reset_start cortex_a710, ERRATUM(2081180), ERRATA_A710_2081180
ldr x0,=0x3
msr S3_6_c15_c8_0,x0
ldr x0,=0xF3A08002
msr S3_6_c15_c8_2,x0
ldr x0,=0xFFF0F7FE
msr S3_6_c15_c8_3,x0
ldr x0,=0x10002001003FF
msr S3_6_c15_c8_1,x0
ldr x0,=0x4
msr S3_6_c15_c8_0,x0
ldr x0,=0xBF200000
msr S3_6_c15_c8_2,x0
ldr x0,=0xFFEF0000
msr S3_6_c15_c8_3,x0
ldr x0,=0x10002001003F3
msr S3_6_c15_c8_1,x0
workaround_reset_end cortex_a710, ERRATUM(2081180)
check_erratum_ls cortex_a710, ERRATUM(2081180), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2083908), ERRATA_A710_2083908
sysreg_bit_set CORTEX_A710_CPUACTLR5_EL1, CORTEX_A710_CPUACTLR5_EL1_BIT_13
workaround_reset_end cortex_a710, ERRATUM(2083908)
check_erratum_range cortex_a710, ERRATUM(2083908), CPU_REV(2, 0), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2136059), ERRATA_A710_2136059
sysreg_bit_set CORTEX_A710_CPUACTLR5_EL1, CORTEX_A710_CPUACTLR5_EL1_BIT_44
workaround_reset_end cortex_a710, ERRATUM(2136059)
check_erratum_ls cortex_a710, ERRATUM(2136059), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2147715), ERRATA_A710_2147715
sysreg_bit_set CORTEX_A710_CPUACTLR_EL1, CORTEX_A710_CPUACTLR_EL1_BIT_22
workaround_reset_end cortex_a710, ERRATUM(2147715)
check_erratum_range cortex_a710, ERRATUM(2147715), CPU_REV(2, 0), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2216384), ERRATA_A710_2216384
sysreg_bit_set CORTEX_A710_CPUACTLR5_EL1, CORTEX_A710_CPUACTLR5_EL1_BIT_17
ldr x0,=0x5
msr CORTEX_A710_CPUPSELR_EL3, x0
ldr x0,=0x10F600E000
msr CORTEX_A710_CPUPOR_EL3, x0
ldr x0,=0x10FF80E000
msr CORTEX_A710_CPUPMR_EL3, x0
ldr x0,=0x80000000003FF
msr CORTEX_A710_CPUPCR_EL3, x0
workaround_reset_end cortex_a710, ERRATUM(2216384)
check_erratum_ls cortex_a710, ERRATUM(2216384), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2267065), ERRATA_A710_2267065
sysreg_bit_set CORTEX_A710_CPUACTLR_EL1, CORTEX_A710_CPUACTLR_EL1_BIT_22
workaround_reset_end cortex_a710, ERRATUM(2267065)
check_erratum_ls cortex_a710, ERRATUM(2267065), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2282622), ERRATA_A710_2282622
sysreg_bit_set CORTEX_A710_CPUACTLR2_EL1, BIT(0)
workaround_reset_end cortex_a710, ERRATUM(2282622)
check_erratum_ls cortex_a710, ERRATUM(2282622), CPU_REV(2, 1)
.global erratum_cortex_a710_2291219_wa
workaround_runtime_start cortex_a710, ERRATUM(2291219), ERRATA_A710_2291219
/* Set/unset bit 36 in ACTLR2_EL1. The first call will set it, applying
* the workaround. Second call clears it to undo it. */
sysreg_bit_toggle CORTEX_A710_CPUACTLR2_EL1, CORTEX_A710_CPUACTLR2_EL1_BIT_36
workaround_runtime_end cortex_a710, ERRATUM(2291219), NO_ISB
check_erratum_ls cortex_a710, ERRATUM(2291219), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2313941), ERRATA_DSU_2313941
errata_dsu_2313941_wa_impl
workaround_reset_end cortex_a710, ERRATUM(2313941)
check_erratum_custom_start cortex_a710, ERRATUM(2313941)
check_errata_dsu_2313941_impl
ret
check_erratum_custom_end cortex_a710, ERRATUM(2313941)
workaround_reset_start cortex_a710, ERRATUM(2371105), ERRATA_A710_2371105
/* Set bit 40 in CPUACTLR2_EL1 */
sysreg_bit_set CORTEX_A710_CPUACTLR2_EL1, CORTEX_A710_CPUACTLR2_EL1_BIT_40
workaround_reset_end cortex_a710, ERRATUM(2371105)
check_erratum_ls cortex_a710, ERRATUM(2371105), CPU_REV(2, 0)
workaround_reset_start cortex_a710, ERRATUM(2742423), ERRATA_A710_2742423
/* Set CPUACTLR5_EL1[56:55] to 2'b01 */
sysreg_bit_set CORTEX_A710_CPUACTLR5_EL1, BIT(55)
sysreg_bit_clear CORTEX_A710_CPUACTLR5_EL1, BIT(56)
workaround_reset_end cortex_a710, ERRATUM(2742423)
check_erratum_ls cortex_a710, ERRATUM(2742423), CPU_REV(2, 1)
workaround_runtime_start cortex_a710, ERRATUM(2768515), ERRATA_A710_2768515
/* dsb before isb of power down sequence */
dsb sy
workaround_runtime_end cortex_a710, ERRATUM(2768515), NO_ISB
check_erratum_ls cortex_a710, ERRATUM(2768515), CPU_REV(2, 1)
workaround_reset_start cortex_a710, ERRATUM(2778471), ERRATA_A710_2778471
sysreg_bit_set CORTEX_A710_CPUACTLR3_EL1, BIT(47)
workaround_reset_end cortex_a710, ERRATUM(2778471)
check_erratum_ls cortex_a710, ERRATUM(2778471), CPU_REV(2, 1)
workaround_reset_start cortex_a710, CVE(2022, 23960), WORKAROUND_CVE_2022_23960
#if IMAGE_BL31
/*
* The Cortex-A710 generic vectors are overridden to apply errata
* mitigation on exception entry from lower ELs.
*/
override_vector_table wa_cve_vbar_cortex_a710
#endif /* IMAGE_BL31 */
workaround_reset_end cortex_a710, CVE(2022, 23960)
check_erratum_chosen cortex_a710, CVE(2022, 23960), WORKAROUND_CVE_2022_23960
add_erratum_entry cortex_a710, ERRATUM(3701772), ERRATA_A710_3701772, NO_APPLY_AT_RESET
check_erratum_ls cortex_a710, ERRATUM(3701772), CPU_REV(2, 1)
/* ----------------------------------------------------
* HW will do the cache maintenance while powering down
* ----------------------------------------------------
*/
func cortex_a710_core_pwr_dwn
apply_erratum cortex_a710, ERRATUM(2008768), ERRATA_A710_2008768, NO_GET_CPU_REV
apply_erratum cortex_a710, ERRATUM(2291219), ERRATA_A710_2291219, NO_GET_CPU_REV
/* ---------------------------------------------------
* Enable CPU power down bit in power control register
* ---------------------------------------------------
*/
sysreg_bit_set CORTEX_A710_CPUPWRCTLR_EL1, CORTEX_A710_CPUPWRCTLR_EL1_CORE_PWRDN_BIT
apply_erratum cortex_a710, ERRATUM(2768515), ERRATA_A710_2768515, NO_GET_CPU_REV
isb
ret
endfunc cortex_a710_core_pwr_dwn
cpu_reset_func_start cortex_a710
/* Disable speculative loads */
msr SSBS, xzr
cpu_reset_func_end cortex_a710
/* ---------------------------------------------
* This function provides Cortex-A710 specific
* register information for crash reporting.
* It needs to return with x6 pointing to
* a list of register names in ascii and
* x8 - x15 having values of registers to be
* reported.
* ---------------------------------------------
*/
.section .rodata.cortex_a710_regs, "aS"
cortex_a710_regs: /* The ascii list of register names to be reported */
.asciz "cpuectlr_el1", ""
func cortex_a710_cpu_reg_dump
adr x6, cortex_a710_regs
mrs x8, CORTEX_A710_CPUECTLR_EL1
ret
endfunc cortex_a710_cpu_reg_dump
declare_cpu_ops cortex_a710, CORTEX_A710_MIDR, \
cortex_a710_reset_func, \
cortex_a710_core_pwr_dwn
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