// SPDX-License-Identifier: GPL-2.0+ /* * Copyright 2019 NXP */ #include #include #include #include #include #include #include #include #include #include #include #include #define MMC_DEV 0 #define QSPI_DEV 1 #define NAND_DEV 2 #define QSPI_NOR_DEV 3 #define ROM_API_DEV 4 /* The unit of second image offset number which provision by the fuse bits */ #define SND_IMG_OFF_UNIT (0x100000UL) /* * If num = 0, off = (2 ^ 2) * 1MB * else If num = 2, off = (2 ^ 0) * 1MB * else off = (2 ^ num) * 1MB */ #define SND_IMG_NUM_TO_OFF(num) \ ((1UL << ((0 == (num)) ? 2 : (2 == (num)) ? 0 : (num))) * SND_IMG_OFF_UNIT) #define GET_SND_IMG_NUM(fuse) (((fuse) >> 24) & 0x1F) #if defined(CONFIG_IMX8QM) #define FUSE_IMG_SET_OFF_WORD 464 #elif defined(CONFIG_IMX8QXP) #define FUSE_IMG_SET_OFF_WORD 720 #endif int get_container_size(ulong addr, u16 *header_length) { struct container_hdr *phdr; struct boot_img_t *img_entry; struct signature_block_hdr *sign_hdr; u8 i = 0; u32 max_offset = 0, img_end; phdr = (struct container_hdr *)addr; if (phdr->tag != 0x87 || phdr->version != 0x0) { debug("Wrong container header\n"); return -EFAULT; } max_offset = phdr->length_lsb + (phdr->length_msb << 8); if (header_length) *header_length = max_offset; img_entry = (struct boot_img_t *)(addr + sizeof(struct container_hdr)); for (i = 0; i < phdr->num_images; i++) { img_end = img_entry->offset + img_entry->size; if (img_end > max_offset) max_offset = img_end; debug("img[%u], end = 0x%x\n", i, img_end); img_entry++; } if (phdr->sig_blk_offset != 0) { sign_hdr = (struct signature_block_hdr *)(addr + phdr->sig_blk_offset); u16 len = sign_hdr->length_lsb + (sign_hdr->length_msb << 8); if (phdr->sig_blk_offset + len > max_offset) max_offset = phdr->sig_blk_offset + len; debug("sigblk, end = 0x%x\n", phdr->sig_blk_offset + len); } return max_offset; } static int get_dev_container_size(void *dev, int dev_type, unsigned long offset, u16 *header_length) { u8 *buf = malloc(CONTAINER_HDR_ALIGNMENT); int ret = 0; if (!buf) { printf("Malloc buffer failed\n"); return -ENOMEM; } #ifdef CONFIG_SPL_MMC if (dev_type == MMC_DEV) { unsigned long count = 0; struct mmc *mmc = (struct mmc *)dev; count = blk_dread(mmc_get_blk_desc(mmc), offset / mmc->read_bl_len, CONTAINER_HDR_ALIGNMENT / mmc->read_bl_len, buf); if (count == 0) { printf("Read container image from MMC/SD failed\n"); return -EIO; } } #endif #ifdef CONFIG_SPL_SPI_LOAD if (dev_type == QSPI_DEV) { struct spi_flash *flash = (struct spi_flash *)dev; ret = spi_flash_read(flash, offset, CONTAINER_HDR_ALIGNMENT, buf); if (ret != 0) { printf("Read container image from QSPI failed\n"); return -EIO; } } #endif #ifdef CONFIG_SPL_NAND_SUPPORT if (dev_type == NAND_DEV) { ret = nand_spl_load_image(offset, CONTAINER_HDR_ALIGNMENT, buf); if (ret != 0) { printf("Read container image from NAND failed\n"); return -EIO; } } #endif #ifdef CONFIG_SPL_NOR_SUPPORT if (dev_type == QSPI_NOR_DEV) memcpy(buf, (const void *)offset, CONTAINER_HDR_ALIGNMENT); #endif #ifdef CONFIG_SPL_BOOTROM_SUPPORT if (dev_type == ROM_API_DEV) { ret = spl_romapi_raw_seekable_read(offset, CONTAINER_HDR_ALIGNMENT, buf); if (!ret) { printf("Read container image from ROM API failed\n"); return -EIO; } } #endif ret = get_container_size((ulong)buf, header_length); free(buf); return ret; } static bool check_secondary_cnt_set(unsigned long *set_off) { #if IS_ENABLED(CONFIG_ARCH_IMX8) int ret; u8 set_id = 1; u32 fuse_val = 0; if (!(is_imx8qxp() && is_soc_rev(CHIP_REV_B))) { ret = sc_misc_get_boot_container(-1, &set_id); if (ret) return false; /* Secondary boot */ if (set_id == 2) { ret = sc_misc_otp_fuse_read(-1, FUSE_IMG_SET_OFF_WORD, &fuse_val); if (!ret) { if (set_off) *set_off = SND_IMG_NUM_TO_OFF(GET_SND_IMG_NUM(fuse_val)); return true; } } } #endif return false; } static unsigned long get_boot_device_offset(void *dev, int dev_type) { unsigned long offset = 0, sec_set_off = 0; bool sec_boot = false; if (dev_type == ROM_API_DEV) { offset = (unsigned long)dev; return offset; } sec_boot = check_secondary_cnt_set(&sec_set_off); if (sec_boot) printf("Secondary set selected\n"); else printf("Primary set selected\n"); if (dev_type == MMC_DEV) { struct mmc *mmc = (struct mmc *)dev; if (IS_SD(mmc) || mmc->part_config == MMCPART_NOAVAILABLE) { offset = sec_boot ? sec_set_off : CONTAINER_HDR_MMCSD_OFFSET; } else { u8 part = EXT_CSD_EXTRACT_BOOT_PART(mmc->part_config); if (part == 1 || part == 2) { if (is_imx8qxp() && is_soc_rev(CHIP_REV_B)) offset = CONTAINER_HDR_MMCSD_OFFSET; else offset = CONTAINER_HDR_EMMC_OFFSET; } else { offset = sec_boot ? sec_set_off : CONTAINER_HDR_MMCSD_OFFSET; } } } else if (dev_type == QSPI_DEV) { offset = sec_boot ? (sec_set_off + CONTAINER_HDR_QSPI_OFFSET) : CONTAINER_HDR_QSPI_OFFSET; } else if (dev_type == NAND_DEV) { offset = sec_boot ? (sec_set_off + CONTAINER_HDR_NAND_OFFSET) : CONTAINER_HDR_NAND_OFFSET; } else if (dev_type == QSPI_NOR_DEV) { offset = CONTAINER_HDR_QSPI_OFFSET + 0x08000000; } else { printf("Not supported dev_type: %d\n", dev_type); } debug("container set offset 0x%lx\n", offset); return offset; } static int get_imageset_end(void *dev, int dev_type) { unsigned long offset1 = 0, offset2 = 0; int value_container[2]; u16 hdr_length; offset1 = get_boot_device_offset(dev, dev_type); offset2 = CONTAINER_HDR_ALIGNMENT + offset1; value_container[0] = get_dev_container_size(dev, dev_type, offset1, &hdr_length); if (value_container[0] < 0) { printf("Parse seco container failed %d\n", value_container[0]); return value_container[0]; } debug("seco container size 0x%x\n", value_container[0]); value_container[1] = get_dev_container_size(dev, dev_type, offset2, &hdr_length); if (value_container[1] < 0) { debug("Parse scu container failed %d, only seco container\n", value_container[1]); /* return seco container total size */ return value_container[0] + offset1; } debug("scu container size 0x%x\n", value_container[1]); return value_container[1] + offset2; } #ifdef CONFIG_SPL_SPI_LOAD unsigned long spl_spi_get_uboot_offs(struct spi_flash *flash) { int end; end = get_imageset_end(flash, QSPI_DEV); end = ROUND(end, SZ_1K); printf("Load image from QSPI 0x%x\n", end); return end; } #endif #ifdef CONFIG_SPL_MMC unsigned long spl_mmc_get_uboot_raw_sector(struct mmc *mmc, unsigned long raw_sect) { int end; end = get_imageset_end(mmc, MMC_DEV); end = ROUND(end, SZ_1K); printf("Load image from MMC/SD 0x%x\n", end); return end / mmc->read_bl_len; } int spl_mmc_emmc_boot_partition(struct mmc *mmc) { int part; part = EXT_CSD_EXTRACT_BOOT_PART(mmc->part_config); if (part == 1 || part == 2) { unsigned long sec_set_off = 0; bool sec_boot = false; sec_boot = check_secondary_cnt_set(&sec_set_off); if (sec_boot) part = (part == 1) ? 2 : 1; } else if (part == 7) { part = 0; } return part; } #endif #ifdef CONFIG_SPL_NAND_SUPPORT uint32_t spl_nand_get_uboot_raw_page(void) { int end; end = get_imageset_end((void *)NULL, NAND_DEV); end = ROUND(end, SZ_16K); printf("Load image from NAND 0x%x\n", end); return end; } #endif #ifdef CONFIG_SPL_NOR_SUPPORT unsigned long spl_nor_get_uboot_base(void) { int end; /* Calculate the image set end, * if it is less than CFG_SYS_UBOOT_BASE(0x8281000), * we use CFG_SYS_UBOOT_BASE * Otherwise, use the calculated address */ end = get_imageset_end((void *)NULL, QSPI_NOR_DEV); if (end <= CFG_SYS_UBOOT_BASE) end = CFG_SYS_UBOOT_BASE; else end = ROUND(end, SZ_1K); printf("Load image from NOR 0x%x\n", end); return end; } #endif #ifdef CONFIG_SPL_BOOTROM_SUPPORT u32 __weak spl_arch_boot_image_offset(u32 image_offset, u32 rom_bt_dev) { return image_offset; } ulong spl_romapi_get_uboot_base(u32 image_offset, u32 rom_bt_dev) { ulong end; image_offset = spl_arch_boot_image_offset(image_offset, rom_bt_dev); end = get_imageset_end((void *)(ulong)image_offset, ROM_API_DEV); end = ROUND(end, SZ_1K); printf("Load image from 0x%lx by ROM_API\n", end); return end; } #endif