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https://github.com/AsahiLinux/u-boot
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77b0e2239a
In case the MX23/MX28 is switched into JTAG mode via the BootMode select switches, the BootROM bypasses the CPU core registers initialization. This in turn means that the Stack Pointer (SP) register is not set as it is in every other mode of operation, but instead is only zeroed out. To prevent U-Boot SPL from crashing in this obscure JTAG mode, configure the SP to point at the CONFIG_SYS_INIT_SP_ADDR if the SP is zeroed out. Note that in case the SP is already configured, we must preserve that exact SP value and must not modify it. This is important since in every other mode but the JTAG mode, the SPL returns into the BootROM and BootROM in turn loads U-Boot itself. If the SP were to be corrupted, the BootROM won't be able to continue it's operation after returned from SPL and the system would crash. Finally, add the JTAG mode switch identifier, so it's not recognised as Unknown mode. Signed-off-by: Marek Vasut <marex@denx.de> Cc: Stefano Babic <sbabic@denx.de> Cc: Fabio Estevam <fabio.estevam@freescale.com> Cc: Otavio Salvador <otavio@ossystems.com.br>
212 lines
5 KiB
ArmAsm
212 lines
5 KiB
ArmAsm
/*
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* armboot - Startup Code for ARM926EJS CPU-core
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*
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* Copyright (c) 2003 Texas Instruments
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*
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* ----- Adapted for OMAP1610 OMAP730 from ARM925t code ------
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*
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* Copyright (c) 2001 Marius Groger <mag@sysgo.de>
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* Copyright (c) 2002 Alex Zupke <azu@sysgo.de>
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* Copyright (c) 2002 Gary Jennejohn <garyj@denx.de>
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* Copyright (c) 2003 Richard Woodruff <r-woodruff2@ti.com>
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* Copyright (c) 2003 Kshitij <kshitij@ti.com>
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* Copyright (c) 2010 Albert Aribaud <albert.u.boot@aribaud.net>
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*
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* Change to support call back into iMX28 bootrom
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* Copyright (c) 2011 Marek Vasut <marek.vasut@gmail.com>
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* on behalf of DENX Software Engineering GmbH
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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#include <asm-offsets.h>
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#include <config.h>
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#include <common.h>
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#include <version.h>
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/*
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*************************************************************************
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*
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* Jump vector table as in table 3.1 in [1]
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*
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*************************************************************************
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*/
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.globl _start
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_start:
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b reset
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b undefined_instruction
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b software_interrupt
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b prefetch_abort
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b data_abort
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b not_used
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b irq
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b fiq
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/*
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* Vector table, located at address 0x20.
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* This table allows the code running AFTER SPL, the U-Boot, to install it's
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* interrupt handlers here. The problem is that the U-Boot is loaded into RAM,
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* including it's interrupt vectoring table and the table at 0x0 is still the
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* SPLs. So if interrupt happens in U-Boot, the SPLs interrupt vectoring table
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* is still used.
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*/
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_vt_reset:
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.word _reset
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_vt_undefined_instruction:
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.word _hang
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_vt_software_interrupt:
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.word _hang
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_vt_prefetch_abort:
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.word _hang
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_vt_data_abort:
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.word _hang
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_vt_not_used:
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.word _reset
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_vt_irq:
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.word _hang
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_vt_fiq:
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.word _hang
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reset:
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ldr pc, _vt_reset
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undefined_instruction:
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ldr pc, _vt_undefined_instruction
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software_interrupt:
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ldr pc, _vt_software_interrupt
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prefetch_abort:
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ldr pc, _vt_prefetch_abort
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data_abort:
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ldr pc, _vt_data_abort
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not_used:
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ldr pc, _vt_not_used
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irq:
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ldr pc, _vt_irq
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fiq:
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ldr pc, _vt_fiq
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.balignl 16,0xdeadbeef
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/*
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*************************************************************************
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*
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* Startup Code (reset vector)
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*
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* do important init only if we don't start from memory!
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* setup Memory and board specific bits prior to relocation.
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* relocate armboot to ram
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* setup stack
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*
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*************************************************************************
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*/
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.globl _TEXT_BASE
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_TEXT_BASE:
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#ifdef CONFIG_SPL_TEXT_BASE
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.word CONFIG_SPL_TEXT_BASE
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#else
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.word CONFIG_SYS_TEXT_BASE
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#endif
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/*
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* These are defined in the board-specific linker script.
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* Subtracting _start from them lets the linker put their
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* relative position in the executable instead of leaving
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* them null.
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*/
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.globl _bss_start_ofs
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_bss_start_ofs:
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.word __bss_start - _start
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.globl _bss_end_ofs
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_bss_end_ofs:
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.word __bss_end - _start
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.globl _end_ofs
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_end_ofs:
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.word _end - _start
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#ifdef CONFIG_USE_IRQ
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/* IRQ stack memory (calculated at run-time) */
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.globl IRQ_STACK_START
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IRQ_STACK_START:
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.word 0x0badc0de
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/* IRQ stack memory (calculated at run-time) */
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.globl FIQ_STACK_START
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FIQ_STACK_START:
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.word 0x0badc0de
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#endif
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/* IRQ stack memory (calculated at run-time) + 8 bytes */
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.globl IRQ_STACK_START_IN
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IRQ_STACK_START_IN:
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.word 0x0badc0de
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/*
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* the actual reset code
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*/
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_reset:
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/*
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* If the CPU is configured in "Wait JTAG connection mode", the stack
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* pointer is not configured and is zero. This will cause crash when
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* trying to push data onto stack right below here. Load the SP and make
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* it point to the end of OCRAM if the SP is zero.
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*/
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cmp sp, #0x00000000
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ldreq sp, =CONFIG_SYS_INIT_SP_ADDR
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/*
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* Store all registers on old stack pointer, this will allow us later to
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* return to the BootROM and let the BootROM load U-Boot into RAM.
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*
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* WARNING: Register r0 and r1 are used by the BootROM to pass data
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* to the called code. Register r0 will contain arbitrary
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* data that are set in the BootStream. In case this code
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* was started with CALL instruction, register r1 will contain
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* pointer to the return value this function can then set.
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* The code below MUST NOT CHANGE register r0 and r1 !
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*/
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push {r0-r12,r14}
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/* Save control register c1 */
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mrc p15, 0, r2, c1, c0, 0
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push {r2}
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/* Set the cpu to SVC32 mode and store old CPSR register content. */
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mrs r2, cpsr
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push {r2}
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bic r2, r2, #0x1f
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orr r2, r2, #0xd3
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msr cpsr, r2
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bl board_init_ll
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/* Restore BootROM's CPU mode (especially FIQ). */
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pop {r2}
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msr cpsr,r2
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/*
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* Restore c1 register. Especially set exception vector location
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* back to BootROM space which is required by bootrom for USB boot.
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*/
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pop {r2}
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mcr p15, 0, r2, c1, c0, 0
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pop {r0-r12,r14}
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/*
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* In case this code was started by the CALL instruction, the register
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* r0 is examined by the BootROM after this code returns. The value in
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* r0 must be set to 0 to indicate successful return.
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*/
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mov r0, #0
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bx lr
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_hang:
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ldr sp, _TEXT_BASE /* switch to abort stack */
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1:
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bl 1b /* hang and never return */
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