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https://github.com/CTCaer/switch-l4t-atf.git
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402b3cf876
NOTE: AARCH32/AARCH64 macros are now deprecated in favor of __aarch64__. All common C compilers pre-define the same macros to signal which architecture the code is being compiled for: __arm__ for AArch32 (or earlier versions) and __aarch64__ for AArch64. There's no need for TF-A to define its own custom macros for this. In order to unify code with the export headers (which use __aarch64__ to avoid another dependency), let's deprecate the AARCH32 and AARCH64 macros and switch the code base over to the pre-defined standard macro. (Since it is somewhat unintuitive that __arm__ only means AArch32, let's standardize on only using __aarch64__.) Change-Id: Ic77de4b052297d77f38fc95f95f65a8ee70cf200 Signed-off-by: Julius Werner <jwerner@chromium.org>
275 lines
7.6 KiB
C
275 lines
7.6 KiB
C
/*
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* Copyright (c) 2013-2019, ARM Limited and Contributors. All rights reserved.
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*
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* SPDX-License-Identifier: BSD-3-Clause
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*/
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#include <assert.h>
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#include <platform_def.h>
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#include <arch.h>
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#include <arch_helpers.h>
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#include <bl1/bl1.h>
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#include <common/bl_common.h>
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#include <common/debug.h>
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#include <drivers/auth/auth_mod.h>
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#include <drivers/console.h>
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#include <lib/cpus/errata_report.h>
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#include <lib/utils.h>
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#include <plat/common/platform.h>
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#include <smccc_helpers.h>
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#include <tools_share/uuid.h>
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#include "bl1_private.h"
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/* BL1 Service UUID */
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DEFINE_SVC_UUID2(bl1_svc_uid,
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0xd46739fd, 0xcb72, 0x9a4d, 0xb5, 0x75,
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0x67, 0x15, 0xd6, 0xf4, 0xbb, 0x4a);
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static void bl1_load_bl2(void);
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/*******************************************************************************
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* Helper utility to calculate the BL2 memory layout taking into consideration
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* the BL1 RW data assuming that it is at the top of the memory layout.
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******************************************************************************/
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void bl1_calc_bl2_mem_layout(const meminfo_t *bl1_mem_layout,
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meminfo_t *bl2_mem_layout)
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{
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assert(bl1_mem_layout != NULL);
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assert(bl2_mem_layout != NULL);
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/*
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* Remove BL1 RW data from the scope of memory visible to BL2.
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* This is assuming BL1 RW data is at the top of bl1_mem_layout.
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*/
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assert(BL1_RW_BASE > bl1_mem_layout->total_base);
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bl2_mem_layout->total_base = bl1_mem_layout->total_base;
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bl2_mem_layout->total_size = BL1_RW_BASE - bl1_mem_layout->total_base;
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flush_dcache_range((unsigned long)bl2_mem_layout, sizeof(meminfo_t));
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}
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/*******************************************************************************
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* Setup function for BL1.
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******************************************************************************/
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void bl1_setup(void)
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{
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/* Perform early platform-specific setup */
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bl1_early_platform_setup();
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#ifdef __aarch64__
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/*
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* Update pointer authentication key before the MMU is enabled. It is
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* saved in the rodata section, that can be writen before enabling the
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* MMU. This function must be called after the console is initialized
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* in the early platform setup.
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*/
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bl_handle_pauth();
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#endif /* __aarch64__ */
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/* Perform late platform-specific setup */
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bl1_plat_arch_setup();
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}
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/*******************************************************************************
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* Function to perform late architectural and platform specific initialization.
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* It also queries the platform to load and run next BL image. Only called
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* by the primary cpu after a cold boot.
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******************************************************************************/
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void bl1_main(void)
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{
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unsigned int image_id;
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/* Announce our arrival */
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NOTICE(FIRMWARE_WELCOME_STR);
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NOTICE("BL1: %s\n", version_string);
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NOTICE("BL1: %s\n", build_message);
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INFO("BL1: RAM %p - %p\n", (void *)BL1_RAM_BASE,
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(void *)BL1_RAM_LIMIT);
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print_errata_status();
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#if ENABLE_ASSERTIONS
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u_register_t val;
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/*
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* Ensure that MMU/Caches and coherency are turned on
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*/
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#ifdef __aarch64__
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val = read_sctlr_el3();
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#else
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val = read_sctlr();
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#endif
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assert(val & SCTLR_M_BIT);
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assert(val & SCTLR_C_BIT);
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assert(val & SCTLR_I_BIT);
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/*
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* Check that Cache Writeback Granule (CWG) in CTR_EL0 matches the
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* provided platform value
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*/
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val = (read_ctr_el0() >> CTR_CWG_SHIFT) & CTR_CWG_MASK;
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/*
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* If CWG is zero, then no CWG information is available but we can
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* at least check the platform value is less than the architectural
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* maximum.
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*/
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if (val != 0)
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assert(CACHE_WRITEBACK_GRANULE == SIZE_FROM_LOG2_WORDS(val));
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else
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assert(CACHE_WRITEBACK_GRANULE <= MAX_CACHE_LINE_SIZE);
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#endif /* ENABLE_ASSERTIONS */
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/* Perform remaining generic architectural setup from EL3 */
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bl1_arch_setup();
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#if TRUSTED_BOARD_BOOT
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/* Initialize authentication module */
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auth_mod_init();
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#endif /* TRUSTED_BOARD_BOOT */
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/* Perform platform setup in BL1. */
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bl1_platform_setup();
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/* Get the image id of next image to load and run. */
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image_id = bl1_plat_get_next_image_id();
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/*
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* We currently interpret any image id other than
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* BL2_IMAGE_ID as the start of firmware update.
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*/
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if (image_id == BL2_IMAGE_ID)
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bl1_load_bl2();
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else
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NOTICE("BL1-FWU: *******FWU Process Started*******\n");
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bl1_prepare_next_image(image_id);
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console_flush();
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}
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/*******************************************************************************
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* This function locates and loads the BL2 raw binary image in the trusted SRAM.
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* Called by the primary cpu after a cold boot.
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* TODO: Add support for alternative image load mechanism e.g using virtio/elf
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* loader etc.
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******************************************************************************/
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static void bl1_load_bl2(void)
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{
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image_desc_t *image_desc;
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image_info_t *image_info;
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int err;
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/* Get the image descriptor */
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image_desc = bl1_plat_get_image_desc(BL2_IMAGE_ID);
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assert(image_desc);
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/* Get the image info */
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image_info = &image_desc->image_info;
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INFO("BL1: Loading BL2\n");
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err = bl1_plat_handle_pre_image_load(BL2_IMAGE_ID);
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if (err) {
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ERROR("Failure in pre image load handling of BL2 (%d)\n", err);
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plat_error_handler(err);
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}
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err = load_auth_image(BL2_IMAGE_ID, image_info);
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if (err) {
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ERROR("Failed to load BL2 firmware.\n");
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plat_error_handler(err);
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}
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/* Allow platform to handle image information. */
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err = bl1_plat_handle_post_image_load(BL2_IMAGE_ID);
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if (err) {
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ERROR("Failure in post image load handling of BL2 (%d)\n", err);
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plat_error_handler(err);
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}
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NOTICE("BL1: Booting BL2\n");
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}
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/*******************************************************************************
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* Function called just before handing over to the next BL to inform the user
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* about the boot progress. In debug mode, also print details about the BL
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* image's execution context.
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******************************************************************************/
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void bl1_print_next_bl_ep_info(const entry_point_info_t *bl_ep_info)
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{
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#ifdef __aarch64__
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NOTICE("BL1: Booting BL31\n");
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#else
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NOTICE("BL1: Booting BL32\n");
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#endif /* __aarch64__ */
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print_entry_point_info(bl_ep_info);
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}
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#if SPIN_ON_BL1_EXIT
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void print_debug_loop_message(void)
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{
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NOTICE("BL1: Debug loop, spinning forever\n");
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NOTICE("BL1: Please connect the debugger to continue\n");
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}
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#endif
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/*******************************************************************************
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* Top level handler for servicing BL1 SMCs.
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******************************************************************************/
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register_t bl1_smc_handler(unsigned int smc_fid,
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register_t x1,
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register_t x2,
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register_t x3,
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register_t x4,
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void *cookie,
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void *handle,
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unsigned int flags)
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{
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#if TRUSTED_BOARD_BOOT
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/*
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* Dispatch FWU calls to FWU SMC handler and return its return
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* value
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*/
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if (is_fwu_fid(smc_fid)) {
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return bl1_fwu_smc_handler(smc_fid, x1, x2, x3, x4, cookie,
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handle, flags);
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}
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#endif
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switch (smc_fid) {
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case BL1_SMC_CALL_COUNT:
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SMC_RET1(handle, BL1_NUM_SMC_CALLS);
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case BL1_SMC_UID:
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SMC_UUID_RET(handle, bl1_svc_uid);
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case BL1_SMC_VERSION:
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SMC_RET1(handle, BL1_SMC_MAJOR_VER | BL1_SMC_MINOR_VER);
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default:
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break;
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}
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WARN("Unimplemented BL1 SMC Call: 0x%x \n", smc_fid);
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SMC_RET1(handle, SMC_UNK);
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}
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/*******************************************************************************
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* BL1 SMC wrapper. This function is only used in AArch32 mode to ensure ABI
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* compliance when invoking bl1_smc_handler.
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******************************************************************************/
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register_t bl1_smc_wrapper(uint32_t smc_fid,
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void *cookie,
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void *handle,
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unsigned int flags)
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{
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register_t x1, x2, x3, x4;
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assert(handle);
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get_smc_params_from_ctx(handle, x1, x2, x3, x4);
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return bl1_smc_handler(smc_fid, x1, x2, x3, x4, cookie, handle, flags);
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}
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