// SPDX-License-Identifier: GPL-2.0+ /* * (C) Copyright 2015 Google, Inc * Written by Simon Glass * * (C) 2017 Theobroma Systems Design und Consulting GmbH * * Helper functions for Rockchip images */ #include "imagetool.h" #include #include #include #include "mkimage.h" #include "rkcommon.h" enum { RK_MAGIC = 0x0ff0aa55, RK_MAGIC_V2 = 0x534E4B52, }; enum { RK_HEADER_V1 = 1, RK_HEADER_V2 = 2, }; enum hash_type { HASH_NONE = 0, HASH_SHA256 = 1, HASH_SHA512 = 2, }; /** * struct image_entry * * @size_and_off: [31:16]image size;[15:0]image offset * @address: default as 0xFFFFFFFF * @flag: no use * @counter: no use * @hash: hash of image * */ struct image_entry { uint32_t size_and_off; uint32_t address; uint32_t flag; uint32_t counter; uint8_t reserved[8]; uint8_t hash[64]; }; /** * struct header0_info_v2 - v2 header block for rockchip BootRom * * This is stored at SD card block 64 (where each block is 512 bytes) * * @magic: Magic (must be RK_MAGIC_V2) * @size_and_nimage: [31:16]number of images;[15:0] * offset to hash field of header(unit as 4Byte) * @boot_flag: [3:0]hash type(0:none,1:sha256,2:sha512) * @signature: hash or signature for header info * */ struct header0_info_v2 { uint32_t magic; uint8_t reserved[4]; uint32_t size_and_nimage; uint32_t boot_flag; uint8_t reserved1[104]; struct image_entry images[4]; uint8_t reserved2[1064]; uint8_t hash[512]; }; /** * struct header0_info - header block for boot ROM * * This is stored at SD card block 64 (where each block is 512 bytes, or at * the start of SPI flash. It is encoded with RC4. * * @magic: Magic (must be RK_MAGIC) * @disable_rc4: 0 to use rc4 for boot image, 1 to use plain binary * @init_offset: Offset in blocks of the SPL code from this header * block. E.g. 4 means 2KB after the start of this header. * Other fields are not used by U-Boot */ struct header0_info { uint32_t magic; uint8_t reserved[4]; uint32_t disable_rc4; uint16_t init_offset; uint8_t reserved1[492]; uint16_t init_size; uint16_t init_boot_size; uint8_t reserved2[2]; }; /** * struct header1_info */ struct header1_info { uint32_t magic; }; /** * struct spl_info - spl info for each chip * * @imagename: Image name(passed by "mkimage -n") * @spl_hdr: Boot ROM requires a 4-bytes spl header * @spl_size: Spl size(include extra 4-bytes spl header) * @spl_rc4: RC4 encode the SPL binary (same key as header) * @header_ver: header block version */ struct spl_info { const char *imagename; const char *spl_hdr; const uint32_t spl_size; const bool spl_rc4; const uint32_t header_ver; }; static struct spl_info spl_infos[] = { { "px30", "RK33", 0x2800, false, RK_HEADER_V1 }, { "rk3036", "RK30", 0x1000, false, RK_HEADER_V1 }, { "rk3066", "RK30", 0x8000 - 0x800, true, RK_HEADER_V1 }, { "rk3128", "RK31", 0x1800, false, RK_HEADER_V1 }, { "rk3188", "RK31", 0x8000 - 0x800, true, RK_HEADER_V1 }, { "rk322x", "RK32", 0x8000 - 0x1000, false, RK_HEADER_V1 }, { "rk3288", "RK32", 0x8000, false, RK_HEADER_V1 }, { "rk3308", "RK33", 0x40000 - 0x1000, false, RK_HEADER_V1 }, { "rk3328", "RK32", 0x8000 - 0x1000, false, RK_HEADER_V1 }, { "rk3368", "RK33", 0x8000 - 0x1000, false, RK_HEADER_V1 }, { "rk3399", "RK33", 0x30000 - 0x2000, false, RK_HEADER_V1 }, { "rv1108", "RK11", 0x1800, false, RK_HEADER_V1 }, { "rk3568", "RK35", 0x14000 - 0x1000, false, RK_HEADER_V2 }, }; /** * struct spl_params - spl params parsed in check_params() * * @init_file: Init data file path * @init_size: Aligned size of init data in bytes * @boot_file: Boot data file path * @boot_size: Aligned size of boot data in bytes */ struct spl_params { char *init_file; uint32_t init_size; char *boot_file; uint32_t boot_size; }; static struct spl_params spl_params = { 0 }; static unsigned char rc4_key[16] = { 124, 78, 3, 4, 85, 5, 9, 7, 45, 44, 123, 56, 23, 13, 23, 17 }; static struct spl_info *rkcommon_get_spl_info(char *imagename) { int i; if (!imagename) return NULL; for (i = 0; i < ARRAY_SIZE(spl_infos); i++) if (!strncmp(imagename, spl_infos[i].imagename, 6)) return spl_infos + i; return NULL; } static int rkcommon_get_aligned_size(struct image_tool_params *params, const char *fname) { int size; size = imagetool_get_filesize(params, fname); if (size < 0) return -1; /* * Pad to a 2KB alignment, as required for init/boot size by the ROM * (see https://lists.denx.de/pipermail/u-boot/2017-May/293268.html) */ return ROUND(size, RK_SIZE_ALIGN); } int rkcommon_check_params(struct image_tool_params *params) { int i, size; /* * If this is a operation (list or extract), the don't require * imagename to be set. */ if (params->lflag || params->iflag) return EXIT_SUCCESS; if (!rkcommon_get_spl_info(params->imagename)) goto err_spl_info; spl_params.init_file = params->datafile; spl_params.boot_file = strchr(spl_params.init_file, ':'); if (spl_params.boot_file) { *spl_params.boot_file = '\0'; spl_params.boot_file += 1; } size = rkcommon_get_aligned_size(params, spl_params.init_file); if (size < 0) return EXIT_FAILURE; spl_params.init_size = size; /* Boot file is optional, and only for back-to-bootrom functionality. */ if (spl_params.boot_file) { size = rkcommon_get_aligned_size(params, spl_params.boot_file); if (size < 0) return EXIT_FAILURE; spl_params.boot_size = size; } if (spl_params.init_size > rkcommon_get_spl_size(params)) { fprintf(stderr, "Error: SPL image is too large (size %#x than %#x)\n", spl_params.init_size, rkcommon_get_spl_size(params)); return EXIT_FAILURE; } return EXIT_SUCCESS; err_spl_info: fprintf(stderr, "ERROR: imagename (%s) is not supported!\n", params->imagename ? params->imagename : "NULL"); fprintf(stderr, "Available imagename:"); for (i = 0; i < ARRAY_SIZE(spl_infos); i++) fprintf(stderr, "\t%s", spl_infos[i].imagename); fprintf(stderr, "\n"); return EXIT_FAILURE; } const char *rkcommon_get_spl_hdr(struct image_tool_params *params) { struct spl_info *info = rkcommon_get_spl_info(params->imagename); /* * info would not be NULL, because of we checked params before. */ return info->spl_hdr; } int rkcommon_get_spl_size(struct image_tool_params *params) { struct spl_info *info = rkcommon_get_spl_info(params->imagename); /* * info would not be NULL, because of we checked params before. */ return info->spl_size; } bool rkcommon_need_rc4_spl(struct image_tool_params *params) { struct spl_info *info = rkcommon_get_spl_info(params->imagename); /* * info would not be NULL, because of we checked params before. */ return info->spl_rc4; } bool rkcommon_is_header_v2(struct image_tool_params *params) { struct spl_info *info = rkcommon_get_spl_info(params->imagename); return (info->header_ver == RK_HEADER_V2); } static void do_sha256_hash(uint8_t *buf, uint32_t size, uint8_t *out) { sha256_context ctx; sha256_starts(&ctx); sha256_update(&ctx, buf, size); sha256_finish(&ctx, out); } static void rkcommon_set_header0(void *buf, struct image_tool_params *params) { struct header0_info *hdr = buf; uint32_t init_boot_size; memset(buf, '\0', RK_INIT_OFFSET * RK_BLK_SIZE); hdr->magic = cpu_to_le32(RK_MAGIC); hdr->disable_rc4 = cpu_to_le32(!rkcommon_need_rc4_spl(params)); hdr->init_offset = cpu_to_le16(RK_INIT_OFFSET); hdr->init_size = cpu_to_le16(spl_params.init_size / RK_BLK_SIZE); /* * init_boot_size needs to be set, as it is read by the BootROM * to determine the size of the next-stage bootloader (e.g. U-Boot * proper), when used with the back-to-bootrom functionality. * * see https://lists.denx.de/pipermail/u-boot/2017-May/293267.html * for a more detailed explanation by Andy Yan */ if (spl_params.boot_file) init_boot_size = spl_params.init_size + spl_params.boot_size; else init_boot_size = spl_params.init_size + RK_MAX_BOOT_SIZE; hdr->init_boot_size = cpu_to_le16(init_boot_size / RK_BLK_SIZE); rc4_encode(buf, RK_BLK_SIZE, rc4_key); } static void rkcommon_set_header0_v2(void *buf, struct image_tool_params *params) { struct header0_info_v2 *hdr = buf; uint32_t sector_offset, image_sector_count; uint32_t image_size_array[2]; uint8_t *image_ptr = NULL; int i; printf("Image Type: Rockchip %s boot image\n", rkcommon_get_spl_hdr(params)); memset(buf, '\0', RK_INIT_OFFSET * RK_BLK_SIZE); hdr->magic = cpu_to_le32(RK_MAGIC_V2); hdr->size_and_nimage = cpu_to_le32((2 << 16) + 384); hdr->boot_flag = cpu_to_le32(HASH_SHA256); sector_offset = 4; image_size_array[0] = spl_params.init_size; image_size_array[1] = spl_params.boot_size; for (i = 0; i < 2; i++) { image_sector_count = image_size_array[i] / RK_BLK_SIZE; hdr->images[i].size_and_off = cpu_to_le32((image_sector_count << 16) + sector_offset); hdr->images[i].address = 0xFFFFFFFF; hdr->images[i].counter = cpu_to_le32(i + 1); image_ptr = buf + sector_offset * RK_BLK_SIZE; do_sha256_hash(image_ptr, image_size_array[i], hdr->images[i].hash); sector_offset = sector_offset + image_sector_count; } do_sha256_hash(buf, (void *)hdr->hash - buf, hdr->hash); } void rkcommon_set_header(void *buf, struct stat *sbuf, int ifd, struct image_tool_params *params) { struct header1_info *hdr = buf + RK_SPL_HDR_START; if (rkcommon_is_header_v2(params)) { rkcommon_set_header0_v2(buf, params); } else { rkcommon_set_header0(buf, params); /* Set up the SPL name (i.e. copy spl_hdr over) */ if (memcmp(&hdr->magic, "RSAK", 4)) memcpy(&hdr->magic, rkcommon_get_spl_hdr(params), RK_SPL_HDR_SIZE); if (rkcommon_need_rc4_spl(params)) rkcommon_rc4_encode_spl(buf, RK_SPL_HDR_START, spl_params.init_size); if (spl_params.boot_file) { if (rkcommon_need_rc4_spl(params)) rkcommon_rc4_encode_spl(buf + RK_SPL_HDR_START, spl_params.init_size, spl_params.boot_size); } } } static inline unsigned int rkcommon_offset_to_spi(unsigned int offset) { /* * While SD/MMC images use a flat addressing, SPI images are padded * to use the first 2K of every 4K sector only. */ return ((offset & ~0x7ff) << 1) + (offset & 0x7ff); } static int rkcommon_parse_header(const void *buf, struct header0_info *header0, struct spl_info **spl_info) { unsigned int hdr1_offset; struct header1_info *hdr1_sdmmc, *hdr1_spi; int i; if (spl_info) *spl_info = NULL; /* * The first header (hdr0) is always RC4 encoded, so try to decrypt * with the well-known key. */ memcpy((void *)header0, buf, sizeof(struct header0_info)); rc4_encode((void *)header0, sizeof(struct header0_info), rc4_key); if (le32_to_cpu(header0->magic) != RK_MAGIC) return -EPROTO; /* We don't support RC4 encoded image payloads here, yet... */ if (le32_to_cpu(header0->disable_rc4) == 0) return -ENOSYS; hdr1_offset = le16_to_cpu(header0->init_offset) * RK_BLK_SIZE; hdr1_sdmmc = (struct header1_info *)(buf + hdr1_offset); hdr1_spi = (struct header1_info *)(buf + rkcommon_offset_to_spi(hdr1_offset)); for (i = 0; i < ARRAY_SIZE(spl_infos); i++) { if (!memcmp(&hdr1_sdmmc->magic, spl_infos[i].spl_hdr, RK_SPL_HDR_SIZE)) { if (spl_info) *spl_info = &spl_infos[i]; return IH_TYPE_RKSD; } else if (!memcmp(&hdr1_spi->magic, spl_infos[i].spl_hdr, RK_SPL_HDR_SIZE)) { if (spl_info) *spl_info = &spl_infos[i]; return IH_TYPE_RKSPI; } } return -1; } static int rkcommon_parse_header_v2(const void *buf, struct header0_info_v2 *header) { memcpy((void *)header, buf, sizeof(struct header0_info_v2)); if (le32_to_cpu(header->magic) != RK_MAGIC_V2) return -EPROTO; return 0; } int rkcommon_verify_header(unsigned char *buf, int size, struct image_tool_params *params) { struct header0_info header0; struct spl_info *img_spl_info, *spl_info; int ret; /* spl_hdr is abandon on header_v2 */ if ((*(uint32_t *)buf) == RK_MAGIC_V2) return 0; ret = rkcommon_parse_header(buf, &header0, &img_spl_info); /* If this is the (unimplemented) RC4 case, then rewrite the result */ if (ret == -ENOSYS) return 0; if (ret < 0) return ret; /* * If no 'imagename' is specified via the commandline (e.g. if this is * 'dumpimage -l' w/o any further constraints), we accept any spl_info. */ if (params->imagename == NULL) return 0; /* Match the 'imagename' against the 'spl_hdr' found */ spl_info = rkcommon_get_spl_info(params->imagename); if (spl_info && img_spl_info) return strcmp(spl_info->spl_hdr, img_spl_info->spl_hdr); return -ENOENT; } void rkcommon_print_header(const void *buf) { struct header0_info header0; struct header0_info_v2 header0_v2; struct spl_info *spl_info; uint8_t image_type; int ret, boot_size, init_size; if ((*(uint32_t *)buf) == RK_MAGIC_V2) { ret = rkcommon_parse_header_v2(buf, &header0_v2); if (ret < 0) { fprintf(stderr, "Error: image verification failed\n"); return; } init_size = header0_v2.images[0].size_and_off >> 16; init_size = init_size * RK_BLK_SIZE; boot_size = header0_v2.images[1].size_and_off >> 16; boot_size = boot_size * RK_BLK_SIZE; } else { ret = rkcommon_parse_header(buf, &header0, &spl_info); /* If this is the (unimplemented) RC4 case, then fail silently */ if (ret == -ENOSYS) return; if (ret < 0) { fprintf(stderr, "Error: image verification failed\n"); return; } image_type = ret; init_size = header0.init_size * RK_BLK_SIZE; boot_size = header0.init_boot_size * RK_BLK_SIZE - init_size; printf("Image Type: Rockchip %s (%s) boot image\n", spl_info->spl_hdr, (image_type == IH_TYPE_RKSD) ? "SD/MMC" : "SPI"); } printf("Init Data Size: %d bytes\n", init_size); if (boot_size != RK_MAX_BOOT_SIZE) printf("Boot Data Size: %d bytes\n", boot_size); } void rkcommon_rc4_encode_spl(void *buf, unsigned int offset, unsigned int size) { unsigned int remaining = size; while (remaining > 0) { int step = (remaining > RK_BLK_SIZE) ? RK_BLK_SIZE : remaining; rc4_encode(buf + offset, step, rc4_key); offset += RK_BLK_SIZE; remaining -= step; } } int rkcommon_vrec_header(struct image_tool_params *params, struct image_type_params *tparams) { /* * The SPL image looks as follows: * * 0x0 header0 (see rkcommon.c) * 0x800 spl_name ('RK30', ..., 'RK33') * (start of the payload for AArch64 payloads: we expect the * first 4 bytes to be available for overwriting with our * spl_name) * 0x804 first instruction to be executed * (start of the image/payload for 32bit payloads) * * For AArch64 (ARMv8) payloads, natural alignment (8-bytes) is * required for its sections (so the image we receive needs to * have the first 4 bytes reserved for the spl_name). Reserving * these 4 bytes is done using the BOOT0_HOOK infrastructure. * * The header is always at 0x800 (as we now use a payload * prepadded using the boot0 hook for all targets): the first * 4 bytes of these images can safely be overwritten using the * boot magic. */ tparams->header_size = RK_SPL_HDR_START; /* Allocate, clear and install the header */ tparams->hdr = malloc(tparams->header_size); if (!tparams->hdr) { fprintf(stderr, "%s: Can't alloc header: %s\n", params->cmdname, strerror(errno)); exit(EXIT_FAILURE); } memset(tparams->hdr, 0, tparams->header_size); /* * We need to store the original file-size (i.e. before padding), as * imagetool does not set this during its adjustment of file_size. */ params->orig_file_size = tparams->header_size + spl_params.init_size + spl_params.boot_size; params->file_size = ROUND(params->orig_file_size, RK_SIZE_ALIGN); /* Ignoring pad len, since we are using our own copy_image() */ return 0; } static int pad_file(struct image_tool_params *params, int ifd, int pad) { uint8_t zeros[4096]; memset(zeros, 0, sizeof(zeros)); while (pad > 0) { int todo = sizeof(zeros); if (todo > pad) todo = pad; if (write(ifd, (char *)&zeros, todo) != todo) { fprintf(stderr, "%s: Write error on %s: %s\n", params->cmdname, params->imagefile, strerror(errno)); return -1; } pad -= todo; } return 0; } static int copy_file(struct image_tool_params *params, int ifd, const char *file, int padded_size) { int dfd; struct stat sbuf; unsigned char *ptr; int size; if (params->vflag) fprintf(stderr, "Adding Image %s\n", file); dfd = open(file, O_RDONLY | O_BINARY); if (dfd < 0) { fprintf(stderr, "%s: Can't open %s: %s\n", params->cmdname, file, strerror(errno)); return -1; } if (fstat(dfd, &sbuf) < 0) { fprintf(stderr, "%s: Can't stat %s: %s\n", params->cmdname, file, strerror(errno)); goto err_close; } if (params->vflag) fprintf(stderr, "Size %u(pad to %u)\n", (int)sbuf.st_size, padded_size); ptr = mmap(0, sbuf.st_size, PROT_READ, MAP_SHARED, dfd, 0); if (ptr == MAP_FAILED) { fprintf(stderr, "%s: Can't read %s: %s\n", params->cmdname, file, strerror(errno)); goto err_munmap; } size = sbuf.st_size; if (write(ifd, ptr, size) != size) { fprintf(stderr, "%s: Write error on %s: %s\n", params->cmdname, params->imagefile, strerror(errno)); goto err_munmap; } munmap((void *)ptr, sbuf.st_size); close(dfd); return pad_file(params, ifd, padded_size - size); err_munmap: munmap((void *)ptr, sbuf.st_size); err_close: close(dfd); return -1; } int rockchip_copy_image(int ifd, struct image_tool_params *params) { int ret; ret = copy_file(params, ifd, spl_params.init_file, spl_params.init_size); if (ret) return ret; if (spl_params.boot_file) { ret = copy_file(params, ifd, spl_params.boot_file, spl_params.boot_size); if (ret) return ret; } return pad_file(params, ifd, params->file_size - params->orig_file_size); }