/* * Copyright (c) 2017, ARM Limited and Contributors. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include <arch_helpers.h> #include <assert.h> #include <debug.h> #include <desc_image_load.h> #include <errno.h> #include <optee_utils.h> /* * load_addr_hi and load_addr_lo: image load address. * image_id: 0 - pager, 1 - paged * size: image size in bytes. */ typedef struct optee_image { uint32_t load_addr_hi; uint32_t load_addr_lo; uint32_t image_id; uint32_t size; } optee_image_t; #define OPTEE_PAGER_IMAGE_ID 0 #define OPTEE_PAGED_IMAGE_ID 1 #define OPTEE_MAX_IMAGE_NUM 2 #define TEE_MAGIC_NUM_OPTEE 0x4554504f /* * magic: header magic number. * version: OPTEE header version: * 1 - not supported * 2 - supported * arch: OPTEE os architecture type: 0 - AARCH32, 1 - AARCH64. * flags: unused currently. * nb_images: number of images. */ typedef struct optee_header { uint32_t magic; uint8_t version; uint8_t arch; uint16_t flags; uint32_t nb_images; optee_image_t optee_image[]; } optee_header_t; /******************************************************************************* * Check if it is a valid tee header * Return 1 if valid * Return 0 if invalid ******************************************************************************/ static inline int tee_validate_header(optee_header_t *optee_header) { if ((optee_header->magic == TEE_MAGIC_NUM_OPTEE) && (optee_header->version == 2) && (optee_header->nb_images <= OPTEE_MAX_IMAGE_NUM)) { return 1; } WARN("Not a known TEE, use default loading options.\n"); return 0; } /******************************************************************************* * Parse the OPTEE image * Return 0 on success or a negative error code otherwise. ******************************************************************************/ static int parse_optee_image(image_info_t *image_info, optee_image_t *optee_image) { uintptr_t init_load_addr, free_end, requested_end; size_t init_size; init_load_addr = ((uint64_t)optee_image->load_addr_hi << 32) | optee_image->load_addr_lo; init_size = optee_image->size; /* * -1 indicates loader decided address; take our pre-mapped area * for current image since arm-tf could not allocate memory dynamically */ if (init_load_addr == -1) init_load_addr = image_info->image_base; /* Check that the default end address doesn't overflow */ if (check_uptr_overflow(image_info->image_base, image_info->image_max_size - 1)) return -1; free_end = image_info->image_base + (image_info->image_max_size - 1); /* Check that the image end address doesn't overflow */ if (check_uptr_overflow(init_load_addr, init_size - 1)) return -1; requested_end = init_load_addr + (init_size - 1); /* * Check that the requested RAM location is within reserved * space for OPTEE. */ if (!((init_load_addr >= image_info->image_base) && (requested_end <= free_end))) { WARN("The load address in optee header %p - %p is not in reserved area: %p - %p.\n", (void *)init_load_addr, (void *)(init_load_addr + init_size), (void *)image_info->image_base, (void *)(image_info->image_base + image_info->image_max_size)); return -1; } /* * Remove the skip attr from image_info, the image will be loaded. * The default attr in image_info is "IMAGE_ATTRIB_SKIP_LOADING", which * mean the image will not be loaded. Here, we parse the header image to * know that the extra image need to be loaded, so remove the skip attr. */ image_info->h.attr &= ~IMAGE_ATTRIB_SKIP_LOADING; /* Update image base and size of image_info */ image_info->image_base = init_load_addr; image_info->image_size = init_size; return 0; } /******************************************************************************* * Parse the OPTEE header * Return 0 on success or a negative error code otherwise. ******************************************************************************/ int parse_optee_header(entry_point_info_t *header_ep, image_info_t *pager_image_info, image_info_t *paged_image_info) { optee_header_t *optee_header; int num, ret; assert(header_ep); optee_header = (optee_header_t *)header_ep->pc; assert(optee_header); /* * OPTEE image has 3 types: * * 1. Plain OPTEE bin without header. * Original bin without header, return directly, * BL32_EXTRA1_IMAGE_ID and BL32_EXTRA2_IMAGE_ID will be skipped. * * 2. OPTEE bin with header bin, but no paging. * Header available and nb_images = 1, remove skip attr for * BL32_EXTRA1_IMAGE_ID. BL32_EXTRA1_IMAGE_ID will be loaded, * and BL32_EXTRA2_IMAGE_ID be skipped. * * 3. OPTEE image with paging support. * Header available and nb_images = 2, there are 3 bins: header, * pager and pageable. Remove skip attr for BL32_EXTRA1_IMAGE_ID * and BL32_EXTRA2_IMAGE_ID to load pager and paged bin. */ if (!tee_validate_header(optee_header)) { INFO("Invalid OPTEE header, legacy mode.\n"); /* Set legacy OPTEE runtime arch - aarch64 */ header_ep->args.arg0 = MODE_RW_64; return 0; } /* Print the OPTEE header information */ INFO("OPTEE ep=0x%x\n", (unsigned int)header_ep->pc); INFO("OPTEE header info:\n"); INFO(" magic=0x%x\n", optee_header->magic); INFO(" version=0x%x\n", optee_header->version); INFO(" arch=0x%x\n", optee_header->arch); INFO(" flags=0x%x\n", optee_header->flags); INFO(" nb_images=0x%x\n", optee_header->nb_images); /* Parse OPTEE image */ for (num = 0; num < optee_header->nb_images; num++) { if (optee_header->optee_image[num].image_id == OPTEE_PAGER_IMAGE_ID) { ret = parse_optee_image(pager_image_info, &optee_header->optee_image[num]); } else if (optee_header->optee_image[num].image_id == OPTEE_PAGED_IMAGE_ID) { ret = parse_optee_image(paged_image_info, &optee_header->optee_image[num]); } else { ERROR("Parse optee image failed.\n"); return -1; } if (ret != 0) return -1; } /* * Update "pc" value which should comes from pager image. After the * header image is parsed, it will be unuseful, and the actual * execution image after BL31 is pager image. */ header_ep->pc = pager_image_info->image_base; /* * The paged load address and size are populated in * header image arguments so that can be read by the * BL32 SPD. */ header_ep->args.arg1 = paged_image_info->image_base; header_ep->args.arg2 = paged_image_info->image_size; /* Set OPTEE runtime arch - aarch32/aarch64 */ if (optee_header->arch == 0) header_ep->args.arg0 = MODE_RW_32; else header_ep->args.arg0 = MODE_RW_64; return 0; }