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/*
* Copyright (c) 2013-2019, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <asm_macros.S>
#include <drivers/arm/gicv2.h>
#include <drivers/arm/gicv3.h>
#include <drivers/arm/fvp/fvp_pwrc.h>
#include <platform_def.h>
.globl plat_secondary_cold_boot_setup
.globl plat_get_my_entrypoint
.globl plat_is_my_cpu_primary
.globl plat_arm_calc_core_pos
/* -----------------------------------------------------
* void plat_secondary_cold_boot_setup (void);
*
* This function performs any platform specific actions
* needed for a secondary cpu after a cold reset e.g
* mark the cpu's presence, mechanism to place it in a
* holding pen etc.
* TODO: Should we read the PSYS register to make sure
* that the request has gone through.
* -----------------------------------------------------
*/
func plat_secondary_cold_boot_setup
#ifndef EL3_PAYLOAD_BASE
/* ---------------------------------------------
* Power down this cpu.
* TODO: Do we need to worry about powering the
* cluster down as well here. That will need
* locks which we won't have unless an elf-
* loader zeroes out the zi section.
* ---------------------------------------------
*/
mrs x0, mpidr_el1
mov_imm x1, PWRC_BASE
str w0, [x1, #PPOFFR_OFF]
/* ---------------------------------------------
* There is no sane reason to come out of this
* wfi so panic if we do. This cpu will be pow-
* ered on and reset by the cpu_on pm api
* ---------------------------------------------
*/
dsb sy
wfi
no_ret plat_panic_handler
#else
mov_imm x0, PLAT_ARM_TRUSTED_MAILBOX_BASE
/* Wait until the entrypoint gets populated */
poll_mailbox:
ldr x1, [x0]
cbz x1, 1f
br x1
1:
wfe
b poll_mailbox
#endif /* EL3_PAYLOAD_BASE */
endfunc plat_secondary_cold_boot_setup
/* ---------------------------------------------------------------------
* uintptr_t plat_get_my_entrypoint (void);
*
* Main job of this routine is to distinguish between a cold and warm
* boot. On FVP, this information can be queried from the power
* controller. The Power Control SYS Status Register (PSYSR) indicates
* the wake-up reason for the CPU.
*
* For a cold boot, return 0.
* For a warm boot, read the mailbox and return the address it contains.
*
* TODO: PSYSR is a common register and should be
* accessed using locks. Since it is not possible
* to use locks immediately after a cold reset
* we are relying on the fact that after a cold
* reset all cpus will read the same WK field
* ---------------------------------------------------------------------
*/
func plat_get_my_entrypoint
/* ---------------------------------------------------------------------
* When bit PSYSR.WK indicates either "Wake by PPONR" or "Wake by GIC
* WakeRequest signal" then it is a warm boot.
* ---------------------------------------------------------------------
*/
mrs x2, mpidr_el1
mov_imm x1, PWRC_BASE
str w2, [x1, #PSYSR_OFF]
ldr w2, [x1, #PSYSR_OFF]
ubfx w2, w2, #PSYSR_WK_SHIFT, #PSYSR_WK_WIDTH
cmp w2, #WKUP_PPONR
beq warm_reset
cmp w2, #WKUP_GICREQ
beq warm_reset
/* Cold reset */
mov x0, #0
ret
warm_reset:
/* ---------------------------------------------------------------------
* A mailbox is maintained in the trusted SRAM. It is flushed out of the
* caches after every update using normal memory so it is safe to read
* it here with SO attributes.
* ---------------------------------------------------------------------
*/
mov_imm x0, PLAT_ARM_TRUSTED_MAILBOX_BASE
ldr x0, [x0]
cbz x0, _panic_handler
ret
/* ---------------------------------------------------------------------
* The power controller indicates this is a warm reset but the mailbox
* is empty. This should never happen!
* ---------------------------------------------------------------------
*/
_panic_handler:
no_ret plat_panic_handler
endfunc plat_get_my_entrypoint
/* -----------------------------------------------------
* unsigned int plat_is_my_cpu_primary (void);
*
* Find out whether the current cpu is the primary
* cpu.
* -----------------------------------------------------
*/
func plat_is_my_cpu_primary
mrs x0, mpidr_el1
mov_imm x1, MPIDR_AFFINITY_MASK
and x0, x0, x1
cmp x0, #FVP_PRIMARY_CPU
cset w0, eq
ret
endfunc plat_is_my_cpu_primary
/* ---------------------------------------------------------------------
* unsigned int plat_arm_calc_core_pos(u_register_t mpidr)
*
* Function to calculate the core position on FVP.
*
* (ClusterId * FVP_MAX_CPUS_PER_CLUSTER * FVP_MAX_PE_PER_CPU) +
* (CPUId * FVP_MAX_PE_PER_CPU) +
* ThreadId
*
* which can be simplified as:
*
* ((ClusterId * FVP_MAX_CPUS_PER_CLUSTER + CPUId) * FVP_MAX_PE_PER_CPU)
* + ThreadId
* ---------------------------------------------------------------------
*/
func plat_arm_calc_core_pos
/*
* Check for MT bit in MPIDR. If not set, shift MPIDR to left to make it
* look as if in a multi-threaded implementation.
*/
tst x0, #MPIDR_MT_MASK
lsl x3, x0, #MPIDR_AFFINITY_BITS
csel x3, x3, x0, eq
/* Extract individual affinity fields from MPIDR */
ubfx x0, x3, #MPIDR_AFF0_SHIFT, #MPIDR_AFFINITY_BITS
ubfx x1, x3, #MPIDR_AFF1_SHIFT, #MPIDR_AFFINITY_BITS
ubfx x2, x3, #MPIDR_AFF2_SHIFT, #MPIDR_AFFINITY_BITS
/* Compute linear position */
mov x4, #FVP_MAX_CPUS_PER_CLUSTER
madd x1, x2, x4, x1
mov x5, #FVP_MAX_PE_PER_CPU
madd x0, x1, x5, x0
ret
endfunc plat_arm_calc_core_pos
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