/* * Copyright (c) 2016-2020, ARM Limited and Contributors. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include static bl_load_info_t bl_load_info; static bl_params_t next_bl_params; /******************************************************************************* * This function flushes the data structures so that they are visible * in memory for the next BL image. ******************************************************************************/ void flush_bl_params_desc(void) { flush_bl_params_desc_args(bl_mem_params_desc_ptr, bl_mem_params_desc_num, &next_bl_params); } /******************************************************************************* * This function flushes the data structures specified as arguments so that they * are visible in memory for the next BL image. ******************************************************************************/ void flush_bl_params_desc_args(bl_mem_params_node_t *mem_params_desc_ptr, unsigned int mem_params_desc_num, bl_params_t *next_bl_params_ptr) { assert(mem_params_desc_ptr != NULL); assert(mem_params_desc_num != 0U); assert(next_bl_params_ptr != NULL); flush_dcache_range((uintptr_t)mem_params_desc_ptr, sizeof(*mem_params_desc_ptr) * mem_params_desc_num); flush_dcache_range((uintptr_t)next_bl_params_ptr, sizeof(*next_bl_params_ptr)); } /******************************************************************************* * This function returns the index for given image_id, within the * image descriptor array provided by bl_image_info_descs_ptr, if the * image is found else it returns -1. ******************************************************************************/ int get_bl_params_node_index(unsigned int image_id) { unsigned int index; assert(image_id != INVALID_IMAGE_ID); for (index = 0U; index < bl_mem_params_desc_num; index++) { if (bl_mem_params_desc_ptr[index].image_id == image_id) return (int)index; } return -1; } /******************************************************************************* * This function returns the pointer to `bl_mem_params_node_t` object for * given image_id, within the image descriptor array provided by * bl_mem_params_desc_ptr, if the image is found else it returns NULL. ******************************************************************************/ bl_mem_params_node_t *get_bl_mem_params_node(unsigned int image_id) { int index; assert(image_id != INVALID_IMAGE_ID); index = get_bl_params_node_index(image_id); if (index >= 0) return &bl_mem_params_desc_ptr[index]; else return NULL; } /******************************************************************************* * This function creates the list of loadable images, by populating and * linking each `bl_load_info_node_t` type node, using the internal array * of image descriptor provided by bl_mem_params_desc_ptr. It also populates * and returns `bl_load_info_t` type structure that contains head of the list * of loadable images. ******************************************************************************/ bl_load_info_t *get_bl_load_info_from_mem_params_desc(void) { unsigned int index = 0; /* If there is no image to start with, return NULL */ if (bl_mem_params_desc_num == 0U) return NULL; /* Assign initial data structures */ bl_load_info_node_t *bl_node_info = &bl_mem_params_desc_ptr[index].load_node_mem; bl_load_info.head = bl_node_info; SET_PARAM_HEAD(&bl_load_info, PARAM_BL_LOAD_INFO, VERSION_2, 0U); /* Go through the image descriptor array and create the list */ for (; index < bl_mem_params_desc_num; index++) { /* Populate the image information */ bl_node_info->image_id = bl_mem_params_desc_ptr[index].image_id; bl_node_info->image_info = &bl_mem_params_desc_ptr[index].image_info; /* Link next image if present */ if ((index + 1U) < bl_mem_params_desc_num) { /* Get the memory and link the next node */ bl_node_info->next_load_info = &bl_mem_params_desc_ptr[index + 1U].load_node_mem; bl_node_info = bl_node_info->next_load_info; } } return &bl_load_info; } /******************************************************************************* * This function creates the list of executable images, by populating and * linking each `bl_params_node_t` type node, using the internal array of * image descriptor provided by bl_mem_params_desc_ptr. It also populates * and returns `bl_params_t` type structure that contains head of the list * of executable images. ******************************************************************************/ bl_params_t *get_next_bl_params_from_mem_params_desc(void) { unsigned int count; unsigned int img_id = 0U; unsigned int link_index = 0U; bl_params_node_t *bl_current_exec_node = NULL; bl_params_node_t *bl_last_exec_node = NULL; bl_mem_params_node_t *desc_ptr; /* If there is no image to start with, return NULL */ if (bl_mem_params_desc_num == 0U) return NULL; /* Get the list HEAD */ for (count = 0U; count < bl_mem_params_desc_num; count++) { desc_ptr = &bl_mem_params_desc_ptr[count]; if ((EP_GET_EXE(desc_ptr->ep_info.h.attr) == EXECUTABLE) && (EP_GET_FIRST_EXE(desc_ptr->ep_info.h.attr) == EP_FIRST_EXE)) { next_bl_params.head = &desc_ptr->params_node_mem; link_index = count; break; } } /* Make sure we have a HEAD node */ assert(next_bl_params.head != NULL); /* Populate the HEAD information */ SET_PARAM_HEAD(&next_bl_params, PARAM_BL_PARAMS, VERSION_2, 0U); /* * Go through the image descriptor array and create the list. * This bounded loop is to make sure that we are not looping forever. */ for (count = 0U; count < bl_mem_params_desc_num; count++) { desc_ptr = &bl_mem_params_desc_ptr[link_index]; /* Make sure the image is executable */ assert(EP_GET_EXE(desc_ptr->ep_info.h.attr) == EXECUTABLE); /* Get the memory for current node */ bl_current_exec_node = &desc_ptr->params_node_mem; /* Populate the image information */ bl_current_exec_node->image_id = desc_ptr->image_id; bl_current_exec_node->image_info = &desc_ptr->image_info; bl_current_exec_node->ep_info = &desc_ptr->ep_info; if (bl_last_exec_node != NULL) { /* Assert if loop detected */ assert(bl_last_exec_node->next_params_info == NULL); /* Link the previous node to the current one */ bl_last_exec_node->next_params_info = bl_current_exec_node; } /* Update the last node */ bl_last_exec_node = bl_current_exec_node; /* If no next hand-off image then break out */ img_id = desc_ptr->next_handoff_image_id; if (img_id == INVALID_IMAGE_ID) break; /* Get the index for the next hand-off image */ link_index = get_bl_params_node_index(img_id); assert((link_index > 0U) && (link_index < bl_mem_params_desc_num)); } /* Invalid image is expected to terminate the loop */ assert(img_id == INVALID_IMAGE_ID); return &next_bl_params; } /******************************************************************************* * This function populates the entry point information with the corresponding * config file for all executable BL images described in bl_params. ******************************************************************************/ void populate_next_bl_params_config(bl_params_t *bl2_to_next_bl_params) { bl_params_node_t *params_node; unsigned int fw_config_id; uintptr_t hw_config_base = 0, fw_config_base; bl_mem_params_node_t *mem_params; assert(bl2_to_next_bl_params != NULL); /* * Get the `bl_mem_params_node_t` corresponding to HW_CONFIG * if available. */ mem_params = get_bl_mem_params_node(HW_CONFIG_ID); if (mem_params != NULL) hw_config_base = mem_params->image_info.image_base; for (params_node = bl2_to_next_bl_params->head; params_node != NULL; params_node = params_node->next_params_info) { fw_config_base = 0; switch (params_node->image_id) { case BL31_IMAGE_ID: fw_config_id = SOC_FW_CONFIG_ID; break; case BL32_IMAGE_ID: fw_config_id = TOS_FW_CONFIG_ID; break; case BL33_IMAGE_ID: fw_config_id = NT_FW_CONFIG_ID; break; default: fw_config_id = INVALID_IMAGE_ID; break; } if (fw_config_id != INVALID_IMAGE_ID) { mem_params = get_bl_mem_params_node(fw_config_id); if (mem_params != NULL) fw_config_base = mem_params->image_info.image_base; } /* * Pass hw and tb_fw config addresses to next images. NOTE - for * EL3 runtime images (BL31 for AArch64 and BL32 for AArch32), * arg0 is already used by generic code. Take care of not * overwriting the previous initialisations. */ if (params_node == bl2_to_next_bl_params->head) { if (params_node->ep_info->args.arg1 == 0U) params_node->ep_info->args.arg1 = fw_config_base; if (params_node->ep_info->args.arg2 == 0U) params_node->ep_info->args.arg2 = hw_config_base; } else { if (params_node->ep_info->args.arg0 == 0U) params_node->ep_info->args.arg0 = fw_config_base; if (params_node->ep_info->args.arg1 == 0U) params_node->ep_info->args.arg1 = hw_config_base; } } } /******************************************************************************* * Helper to extract BL32/BL33 entry point info from arg0 passed to BL31, for * platforms that are only interested in those. Platforms that need to extract * more information can parse the structures themselves. ******************************************************************************/ void bl31_params_parse_helper(u_register_t param, entry_point_info_t *bl32_ep_info_out, entry_point_info_t *bl33_ep_info_out) { bl_params_node_t *node; bl_params_t *v2 = (void *)(uintptr_t)param; #if !ERROR_DEPRECATED if (v2->h.version == PARAM_VERSION_1) { struct { /* Deprecated version 1 parameter structure. */ param_header_t h; image_info_t *bl31_image_info; entry_point_info_t *bl32_ep_info; image_info_t *bl32_image_info; entry_point_info_t *bl33_ep_info; image_info_t *bl33_image_info; } *v1 = (void *)(uintptr_t)param; assert(v1->h.type == PARAM_BL31); if (bl32_ep_info_out != NULL) *bl32_ep_info_out = *v1->bl32_ep_info; if (bl33_ep_info_out != NULL) *bl33_ep_info_out = *v1->bl33_ep_info; return; } #endif /* !ERROR_DEPRECATED */ assert(v2->h.version == PARAM_VERSION_2); assert(v2->h.type == PARAM_BL_PARAMS); for (node = v2->head; node != NULL; node = node->next_params_info) { if (node->image_id == BL32_IMAGE_ID) if (bl32_ep_info_out != NULL) *bl32_ep_info_out = *node->ep_info; if (node->image_id == BL33_IMAGE_ID) if (bl33_ep_info_out != NULL) *bl33_ep_info_out = *node->ep_info; } }