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3b48ca17f3
The `arm_bl2_dyn_cfg_init` function is intended exclusively for BL2 - it should not be compiled for any other bootloader image. This change hides it for all but BL2. Change-Id: I9fa95094dcc30f9fa4cc7bc5b3119ceae82df1ea Signed-off-by: Chris Kay <chris.kay@arm.com>
233 lines
6.6 KiB
C
233 lines
6.6 KiB
C
/*
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* Copyright (c) 2018-2024, 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 <string.h>
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#include <libfdt.h>
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#if CRYPTO_SUPPORT
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#include <mbedtls/version.h>
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#endif /* CRYPTO_SUPPORT */
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#include <common/debug.h>
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#include <common/desc_image_load.h>
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#include <common/tbbr/tbbr_img_def.h>
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#include <lib/fconf/fconf.h>
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#include <lib/fconf/fconf_dyn_cfg_getter.h>
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#include <lib/fconf/fconf_tbbr_getter.h>
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#include <plat/arm/common/arm_dyn_cfg_helpers.h>
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#include <plat/arm/common/plat_arm.h>
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#include <platform_def.h>
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#if CRYPTO_SUPPORT
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static void *mbedtls_heap_addr;
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static size_t mbedtls_heap_size;
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/*
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* This function is the implementation of the shared Mbed TLS heap between
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* BL1 and BL2 for Arm platforms. The shared heap address is passed from BL1
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* to BL2 with a pointer. This pointer resides inside the TB_FW_CONFIG file
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* which is a DTB.
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*
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* This function is placed inside an #if directive for the below reasons:
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* - To allocate space for the Mbed TLS heap --only if-- Trusted Board Boot
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* is enabled.
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* - This implementation requires the DTB to be present so that BL1 has a
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* mechanism to pass the pointer to BL2.
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*/
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int arm_get_mbedtls_heap(void **heap_addr, size_t *heap_size)
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{
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assert(heap_addr != NULL);
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assert(heap_size != NULL);
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#if defined(IMAGE_BL1) || RESET_TO_BL2 || defined(IMAGE_BL31)
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/* If in BL1 or RESET_TO_BL2 define a heap */
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static unsigned char heap[TF_MBEDTLS_HEAP_SIZE];
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*heap_addr = heap;
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*heap_size = sizeof(heap);
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mbedtls_heap_addr = heap;
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mbedtls_heap_size = sizeof(heap);
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#elif defined(IMAGE_BL2)
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/* If in BL2, retrieve the already allocated heap's info from DTB */
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*heap_addr = FCONF_GET_PROPERTY(tbbr, dyn_config, mbedtls_heap_addr);
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*heap_size = FCONF_GET_PROPERTY(tbbr, dyn_config, mbedtls_heap_size);
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#endif
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return 0;
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}
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/*
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* Puts the shared Mbed TLS heap information to the DTB.
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* Executed only from BL1.
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*/
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void arm_bl1_set_mbedtls_heap(void)
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{
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int err;
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uintptr_t tb_fw_cfg_dtb;
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const struct dyn_cfg_dtb_info_t *tb_fw_config_info;
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/*
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* If tb_fw_cfg_dtb==NULL then DTB is not present for the current
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* platform. As such, we don't attempt to write to the DTB at all.
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*
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* If mbedtls_heap_addr==NULL, then it means we are using the default
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* heap implementation. As such, BL2 will have its own heap for sure
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* and hence there is no need to pass any information to the DTB.
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*
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* In the latter case, if we still wanted to write in the DTB the heap
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* information, we would need to call plat_get_mbedtls_heap to retrieve
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* the default heap's address and size.
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*/
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tb_fw_config_info = FCONF_GET_PROPERTY(dyn_cfg, dtb, TB_FW_CONFIG_ID);
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assert(tb_fw_config_info != NULL);
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tb_fw_cfg_dtb = tb_fw_config_info->config_addr;
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if ((tb_fw_cfg_dtb != 0UL) && (mbedtls_heap_addr != NULL)) {
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/* As libfdt uses void *, we can't avoid this cast */
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void *dtb = (void *)tb_fw_cfg_dtb;
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err = arm_set_dtb_mbedtls_heap_info(dtb,
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mbedtls_heap_addr, mbedtls_heap_size);
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if (err < 0) {
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ERROR("%swrite shared Mbed TLS heap information%s",
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"BL1: unable to ", " to DTB\n");
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panic();
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}
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#if !MEASURED_BOOT
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/*
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* Ensure that the info written to the DTB is visible to other
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* images. It's critical because BL2 won't be able to proceed
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* without the heap info.
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*
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* In MEASURED_BOOT case flushing is done in a function which
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* is called after heap information is written in the DTB.
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*/
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flush_dcache_range(tb_fw_cfg_dtb, fdt_totalsize(dtb));
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#endif /* !MEASURED_BOOT */
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}
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}
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#endif /* CRYPTO_SUPPORT */
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#if IMAGE_BL2
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/*
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* BL2 utility function to initialize dynamic configuration specified by
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* FW_CONFIG. Populate the bl_mem_params_node_t of other FW_CONFIGs if
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* specified in FW_CONFIG.
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*/
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void arm_bl2_dyn_cfg_init(void)
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{
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unsigned int i;
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bl_mem_params_node_t *cfg_mem_params = NULL;
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uintptr_t image_base;
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uint32_t image_size;
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unsigned int error_config_id = MAX_IMAGE_IDS;
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const unsigned int config_ids[] = {
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HW_CONFIG_ID,
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SOC_FW_CONFIG_ID,
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NT_FW_CONFIG_ID,
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TOS_FW_CONFIG_ID
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};
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const struct dyn_cfg_dtb_info_t *dtb_info;
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/* Iterate through all the fw config IDs */
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for (i = 0; i < ARRAY_SIZE(config_ids); i++) {
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/* Get the config load address and size */
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cfg_mem_params = get_bl_mem_params_node(config_ids[i]);
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if (cfg_mem_params == NULL) {
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VERBOSE("%sconfig_id = %d in bl_mem_params_node\n",
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"Couldn't find ", config_ids[i]);
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continue;
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}
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dtb_info = FCONF_GET_PROPERTY(dyn_cfg, dtb, config_ids[i]);
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if (dtb_info == NULL) {
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VERBOSE("%sconfig_id %d load info in FW_CONFIG\n",
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"Couldn't find ", config_ids[i]);
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continue;
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}
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image_base = dtb_info->config_addr;
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image_size = dtb_info->config_max_size;
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/*
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* Do some runtime checks on the load addresses of soc_fw_config,
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* tos_fw_config, nt_fw_config. This is not a comprehensive check
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* of all invalid addresses but to prevent trivial porting errors.
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*/
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if (config_ids[i] != HW_CONFIG_ID) {
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if (check_uptr_overflow(image_base, image_size)) {
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VERBOSE("%s=%d as its %s is overflowing uptr\n",
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"skip loading of firmware config",
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config_ids[i],
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"load-address");
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error_config_id = config_ids[i];
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continue;
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}
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#ifdef BL31_BASE
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/* Ensure the configs don't overlap with BL31 */
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if ((image_base >= BL31_BASE) &&
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(image_base <= BL31_LIMIT)) {
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VERBOSE("%s=%d as its %s is overlapping BL31\n",
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"skip loading of firmware config",
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config_ids[i],
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"load-address");
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error_config_id = config_ids[i];
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continue;
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}
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#endif
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/* Ensure the configs are loaded in a valid address */
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if (image_base < ARM_BL_RAM_BASE) {
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VERBOSE("%s=%d as its %s is invalid\n",
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"skip loading of firmware config",
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config_ids[i],
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"load-address");
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error_config_id = config_ids[i];
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continue;
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}
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#ifdef BL32_BASE
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/*
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* If BL32 is present, ensure that the configs don't
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* overlap with it.
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*/
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if ((image_base >= BL32_BASE) &&
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(image_base <= BL32_LIMIT)) {
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VERBOSE("%s=%d as its %s is overlapping BL32\n",
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"skip loading of firmware config",
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config_ids[i],
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"load-address");
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error_config_id = config_ids[i];
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continue;
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}
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#endif
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}
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cfg_mem_params->image_info.image_base = image_base;
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cfg_mem_params->image_info.image_max_size = (uint32_t)image_size;
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/*
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* Remove the IMAGE_ATTRIB_SKIP_LOADING attribute from
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* HW_CONFIG or FW_CONFIG nodes
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*/
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cfg_mem_params->image_info.h.attr &= ~IMAGE_ATTRIB_SKIP_LOADING;
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}
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if (error_config_id != MAX_IMAGE_IDS) {
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ERROR("Invalid config file %u\n", error_config_id);
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panic();
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}
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}
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#endif /* IMAGE_BL2 */
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