/* * Copyright (c) 2019, STMicroelectronics - All Rights Reserved * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #define SZ_512 0x200U #define SZ_64M 0x4000000U #if STM32MP_RAW_NAND || STM32MP_SPI_NAND static int get_data_from_otp(struct nand_device *nand_dev, bool is_slc) { uint32_t nand_param; /* Check if NAND parameters are stored in OTP */ if (stm32_get_otp_value(NAND_OTP, &nand_param) != 0) { ERROR("BSEC: NAND_OTP Error\n"); return -EACCES; } if (nand_param == 0U) { return 0; } if ((nand_param & NAND_PARAM_STORED_IN_OTP) == 0U) { goto ecc; } /* NAND parameter shall be read from OTP */ if ((nand_param & NAND_WIDTH_MASK) != 0U) { nand_dev->buswidth = NAND_BUS_WIDTH_16; } else { nand_dev->buswidth = NAND_BUS_WIDTH_8; } switch ((nand_param & NAND_PAGE_SIZE_MASK) >> NAND_PAGE_SIZE_SHIFT) { case NAND_PAGE_SIZE_2K: nand_dev->page_size = 0x800U; break; case NAND_PAGE_SIZE_4K: nand_dev->page_size = 0x1000U; break; case NAND_PAGE_SIZE_8K: nand_dev->page_size = 0x2000U; break; default: ERROR("Cannot read NAND page size\n"); return -EINVAL; } switch ((nand_param & NAND_BLOCK_SIZE_MASK) >> NAND_BLOCK_SIZE_SHIFT) { case NAND_BLOCK_SIZE_64_PAGES: nand_dev->block_size = 64U * nand_dev->page_size; break; case NAND_BLOCK_SIZE_128_PAGES: nand_dev->block_size = 128U * nand_dev->page_size; break; case NAND_BLOCK_SIZE_256_PAGES: nand_dev->block_size = 256U * nand_dev->page_size; break; default: ERROR("Cannot read NAND block size\n"); return -EINVAL; } nand_dev->size = ((nand_param & NAND_BLOCK_NB_MASK) >> NAND_BLOCK_NB_SHIFT) * NAND_BLOCK_NB_UNIT * nand_dev->block_size; ecc: if (is_slc) { switch ((nand_param & NAND_ECC_BIT_NB_MASK) >> NAND_ECC_BIT_NB_SHIFT) { case NAND_ECC_BIT_NB_1_BITS: nand_dev->ecc.max_bit_corr = 1U; break; case NAND_ECC_BIT_NB_4_BITS: nand_dev->ecc.max_bit_corr = 4U; break; case NAND_ECC_BIT_NB_8_BITS: nand_dev->ecc.max_bit_corr = 8U; break; case NAND_ECC_ON_DIE: nand_dev->ecc.mode = NAND_ECC_ONDIE; break; default: if (nand_dev->ecc.max_bit_corr == 0U) { ERROR("No valid eccbit number\n"); return -EINVAL; } } } else { /* Selected multiple plane NAND */ if ((nand_param & NAND_PLANE_BIT_NB_MASK) != 0U) { nand_dev->nb_planes = 2U; } else { nand_dev->nb_planes = 1U; } } VERBOSE("OTP: Block %i Page %i Size %lli\n", nand_dev->block_size, nand_dev->page_size, nand_dev->size); return 0; } #endif /* STM32MP_RAW_NAND || STM32MP_SPI_NAND */ #if STM32MP_RAW_NAND int plat_get_raw_nand_data(struct rawnand_device *device) { device->nand_dev->ecc.mode = NAND_ECC_HW; device->nand_dev->ecc.size = SZ_512; return get_data_from_otp(device->nand_dev, true); } #endif #if STM32MP_SPI_NAND int plat_get_spi_nand_data(struct spinand_device *device) { zeromem(&device->spi_read_cache_op, sizeof(struct spi_mem_op)); device->spi_read_cache_op.cmd.opcode = SPI_NAND_OP_READ_FROM_CACHE_4X; device->spi_read_cache_op.cmd.buswidth = SPI_MEM_BUSWIDTH_1_LINE; device->spi_read_cache_op.addr.nbytes = 2U; device->spi_read_cache_op.addr.buswidth = SPI_MEM_BUSWIDTH_1_LINE; device->spi_read_cache_op.dummy.nbytes = 1U; device->spi_read_cache_op.dummy.buswidth = SPI_MEM_BUSWIDTH_1_LINE; device->spi_read_cache_op.data.buswidth = SPI_MEM_BUSWIDTH_4_LINE; device->spi_read_cache_op.data.dir = SPI_MEM_DATA_IN; return get_data_from_otp(device->nand_dev, false); } #endif #if STM32MP_SPI_NOR int plat_get_nor_data(struct nor_device *device) { device->size = SZ_64M; zeromem(&device->read_op, sizeof(struct spi_mem_op)); device->read_op.cmd.opcode = SPI_NOR_OP_READ_1_1_4; device->read_op.cmd.buswidth = SPI_MEM_BUSWIDTH_1_LINE; device->read_op.addr.nbytes = 3U; device->read_op.addr.buswidth = SPI_MEM_BUSWIDTH_1_LINE; device->read_op.dummy.nbytes = 1U; device->read_op.dummy.buswidth = SPI_MEM_BUSWIDTH_1_LINE; device->read_op.data.buswidth = SPI_MEM_BUSWIDTH_4_LINE; device->read_op.data.dir = SPI_MEM_DATA_IN; return 0; } #endif