/* SPDX-License-Identifier: GPL-2.0 * * Copyright (C) 2018 Marvell International Ltd. */ #ifndef __OCTEONTX_BCH_H__ #define __OCTEONTX_BCH_H__ #include "octeontx_bch_regs.h" /* flags to indicate the features supported */ #define BCH_FLAG_SRIOV_ENABLED BIT(1) /* * BCH Registers map for 81xx */ /* PF registers */ #define BCH_CTL 0x0ull #define BCH_ERR_CFG 0x10ull #define BCH_BIST_RESULT 0x80ull #define BCH_ERR_INT 0x88ull #define BCH_ERR_INT_W1S 0x90ull #define BCH_ERR_INT_ENA_W1C 0xA0ull #define BCH_ERR_INT_ENA_W1S 0xA8ull /* VF registers */ #define BCH_VQX_CTL(z) 0x0ull #define BCH_VQX_CMD_BUF(z) 0x8ull #define BCH_VQX_CMD_PTR(z) 0x20ull #define BCH_VQX_DOORBELL(z) 0x800ull #define BCHPF_DRIVER_NAME "octeontx-bchpf" #define BCHVF_DRIVER_NAME "octeontx-bchvf" struct bch_device { struct list_head list; u8 max_vfs; u8 vfs_enabled; u8 vfs_in_use; u32 flags; void __iomem *reg_base; struct udevice *dev; }; struct bch_vf { u16 flags; u8 vfid; u8 node; u8 priority; struct udevice *dev; void __iomem *reg_base; }; struct buf_ptr { u8 *vptr; dma_addr_t dma_addr; u16 size; }; void *octeontx_bch_getv(void); void octeontx_bch_putv(void *token); void *octeontx_bch_getp(void); void octeontx_bch_putp(void *token); int octeontx_bch_wait(struct bch_vf *vf, union bch_resp *resp, dma_addr_t handle); /** * Given a data block calculate the ecc data and fill in the response * * @param[in] block 8-byte aligned pointer to data block to calculate ECC * @param block_size Size of block in bytes, must be a multiple of two. * @param bch_level Number of errors that must be corrected. The number of * parity bytes is equal to ((15 * bch_level) + 7) / 8. * Must be 4, 8, 16, 24, 32, 40, 48, 56, 60 or 64. * @param[out] ecc 8-byte aligned pointer to where ecc data should go * @param[in] resp pointer to where responses will be written. * * @return Zero on success, negative on failure. */ int octeontx_bch_encode(struct bch_vf *vf, dma_addr_t block, u16 block_size, u8 bch_level, dma_addr_t ecc, dma_addr_t resp); /** * Given a data block and ecc data correct the data block * * @param[in] block_ecc_in 8-byte aligned pointer to data block with ECC * data concatenated to the end to correct * @param block_size Size of block in bytes, must be a multiple of * two. * @param bch_level Number of errors that must be corrected. The * number of parity bytes is equal to * ((15 * bch_level) + 7) / 8. * Must be 4, 8, 16, 24, 32, 40, 48, 56, 60 or 64. * @param[out] block_out 8-byte aligned pointer to corrected data buffer. * This should not be the same as block_ecc_in. * @param[in] resp pointer to where responses will be written. * * @return Zero on success, negative on failure. */ int octeontx_bch_decode(struct bch_vf *vf, dma_addr_t block_ecc_in, u16 block_size, u8 bch_level, dma_addr_t block_out, dma_addr_t resp); /** * Ring the BCH doorbell telling it that new commands are * available. * * @param num_commands Number of new commands * @param vf virtual function handle */ static inline void octeontx_bch_write_doorbell(u64 num_commands, struct bch_vf *vf) { u64 num_words = num_commands * sizeof(union bch_cmd) / sizeof(uint64_t); writeq(num_words, vf->reg_base + BCH_VQX_DOORBELL(0)); } /** * Since it's possible (and even likely) that the NAND device will be probed * before the BCH device has been probed, we may need to defer the probing. * * In this case, the initial probe returns success but the actual probing * is deferred until the BCH VF has been probed. * * @return 0 for success, otherwise error */ int octeontx_pci_nand_deferred_probe(void); #endif /* __OCTEONTX_BCH_H__ */