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arm-trusted-firmware/include/common/aarch64/asm_macros.S
Jeenu Viswambharan 14c6016ad5 AArch64: Introduce RAS handling 
RAS extensions are mandatory for ARMv8.2 CPUs, but are also optional
extensions to base ARMv8.0 architecture.

This patch adds build system support to enable RAS features in ARM
Trusted Firmware. A boolean build option RAS_EXTENSION is introduced for
this.

With RAS_EXTENSION, an Exception Synchronization Barrier (ESB) is
inserted at all EL3 vector entry and exit. ESBs will synchronize pending
external aborts before entering EL3, and therefore will contain and
attribute errors to lower EL execution. Any errors thus synchronized are
detected via. DISR_EL1 register.

When RAS_EXTENSION is set to 1, HANDLE_EL3_EA_FIRST must also be set to 1.

Change-Id: I38a19d84014d4d8af688bd81d61ba582c039383a
Signed-off-by: Jeenu Viswambharan <jeenu.viswambharan@arm.com>
2018-05-04 08:33:17 +01:00

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/*
* Copyright (c) 2013-2018, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef __ASM_MACROS_S__
#define __ASM_MACROS_S__
#include <arch.h>
#include <asm_macros_common.S>
#include <spinlock.h>
.macro func_prologue
stp x29, x30, [sp, #-0x10]!
mov x29,sp
.endm
.macro func_epilogue
ldp x29, x30, [sp], #0x10
.endm
.macro dcache_line_size reg, tmp
mrs \tmp, ctr_el0
ubfx \tmp, \tmp, #16, #4
mov \reg, #4
lsl \reg, \reg, \tmp
.endm
.macro icache_line_size reg, tmp
mrs \tmp, ctr_el0
and \tmp, \tmp, #0xf
mov \reg, #4
lsl \reg, \reg, \tmp
.endm
.macro smc_check label
mrs x0, esr_el3
ubfx x0, x0, #ESR_EC_SHIFT, #ESR_EC_LENGTH
cmp x0, #EC_AARCH64_SMC
b.ne $label
.endm
/*
* Declare the exception vector table, enforcing it is aligned on a
* 2KB boundary, as required by the ARMv8 architecture.
* Use zero bytes as the fill value to be stored in the padding bytes
* so that it inserts illegal AArch64 instructions. This increases
* security, robustness and potentially facilitates debugging.
*/
.macro vector_base label, section_name=.vectors
.section \section_name, "ax"
.align 11, 0
\label:
.endm
/*
* Create an entry in the exception vector table, enforcing it is
* aligned on a 128-byte boundary, as required by the ARMv8 architecture.
* Use zero bytes as the fill value to be stored in the padding bytes
* so that it inserts illegal AArch64 instructions. This increases
* security, robustness and potentially facilitates debugging.
*/
.macro vector_entry label, section_name=.vectors
.cfi_sections .debug_frame
.section \section_name, "ax"
.align 7, 0
.type \label, %function
.func \label
.cfi_startproc
\label:
.endm
/*
* This macro verifies that the given vector doesn't exceed the
* architectural limit of 32 instructions. This is meant to be placed
* immediately after the last instruction in the vector. It takes the
* vector entry as the parameter
*/
.macro check_vector_size since
.endfunc
.cfi_endproc
.if (. - \since) > (32 * 4)
.error "Vector exceeds 32 instructions"
.endif
.endm
#if ENABLE_PLAT_COMPAT
/*
* This macro calculates the base address of an MP stack using the
* platform_get_core_pos() index, the name of the stack storage and
* the size of each stack
* In: X0 = MPIDR of CPU whose stack is wanted
* Out: X0 = physical address of stack base
* Clobber: X30, X1, X2
*/
.macro get_mp_stack _name, _size
bl platform_get_core_pos
ldr x2, =(\_name + \_size)
mov x1, #\_size
madd x0, x0, x1, x2
.endm
#endif
/*
* This macro calculates the base address of the current CPU's MP stack
* using the plat_my_core_pos() index, the name of the stack storage
* and the size of each stack
* Out: X0 = physical address of stack base
* Clobber: X30, X1, X2
*/
.macro get_my_mp_stack _name, _size
bl plat_my_core_pos
ldr x2, =(\_name + \_size)
mov x1, #\_size
madd x0, x0, x1, x2
.endm
/*
* This macro calculates the base address of a UP stack using the
* name of the stack storage and the size of the stack
* Out: X0 = physical address of stack base
*/
.macro get_up_stack _name, _size
ldr x0, =(\_name + \_size)
.endm
/*
* Helper macro to generate the best mov/movk combinations according
* the value to be moved. The 16 bits from '_shift' are tested and
* if not zero, they are moved into '_reg' without affecting
* other bits.
*/
.macro _mov_imm16 _reg, _val, _shift
.if (\_val >> \_shift) & 0xffff
.if (\_val & (1 << \_shift - 1))
movk \_reg, (\_val >> \_shift) & 0xffff, LSL \_shift
.else
mov \_reg, \_val & (0xffff << \_shift)
.endif
.endif
.endm
/*
* Helper macro to load arbitrary values into 32 or 64-bit registers
* which generates the best mov/movk combinations. Many base addresses
* are 64KB aligned the macro will eliminate updating bits 15:0 in
* that case
*/
.macro mov_imm _reg, _val
.if (\_val) == 0
mov \_reg, #0
.else
_mov_imm16 \_reg, (\_val), 0
_mov_imm16 \_reg, (\_val), 16
_mov_imm16 \_reg, (\_val), 32
_mov_imm16 \_reg, (\_val), 48
.endif
.endm
/*
* Macro to mark instances where we're jumping to a function and don't
* expect a return. To provide the function being jumped to with
* additional information, we use 'bl' instruction to jump rather than
* 'b'.
*
* Debuggers infer the location of a call from where LR points to, which
* is usually the instruction after 'bl'. If this macro expansion
* happens to be the last location in a function, that'll cause the LR
* to point a location beyond the function, thereby misleading debugger
* back trace. We therefore insert a 'nop' after the function call for
* debug builds, unless 'skip_nop' parameter is non-zero.
*/
.macro no_ret _func:req, skip_nop=0
bl \_func
#if DEBUG
.ifeq \skip_nop
nop
.endif
#endif
.endm
/*
* Reserve space for a spin lock in assembly file.
*/
.macro define_asm_spinlock _name:req
.align SPINLOCK_ASM_ALIGN
\_name:
.space SPINLOCK_ASM_SIZE
.endm
#if RAS_EXTENSION
.macro esb
.inst 0xd503221f
.endm
#endif
#endif /* __ASM_MACROS_S__ */
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