/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include #include static struct mtk_nor_regs *const mtk_nor = (void *)SFLASH_REG_BASE; #define GET_NTH_BYTE(d, n) ((d >> (8 * n)) & 0xff) static int polling_cmd(u32 val) { struct stopwatch sw; stopwatch_init_usecs_expire(&sw, SFLASH_POLLINGREG_US); while ((read32(&mtk_nor->cmd) & val) != 0) { if (stopwatch_expired(&sw)) return -1; } return 0; } static int mtk_nor_execute_cmd(u8 cmdval) { u8 val = cmdval & ~SFLASH_AUTOINC; write8(&mtk_nor->cmd, cmdval); return polling_cmd(val); } static int sflashhw_read_flash_status(u8 *value) { if (mtk_nor_execute_cmd(SFLASH_READSTATUS)) return -1; *value = read8(&mtk_nor->rdsr); return 0; } static int wait_for_write_done(void) { struct stopwatch sw; u8 reg; stopwatch_init_usecs_expire(&sw, SFLASH_POLLINGREG_US); while (sflashhw_read_flash_status(®) == 0) { if (!(reg & SFLASH_WRITE_IN_PROGRESS)) return 0; if (stopwatch_expired(&sw)) return -1; } return -1; } /* set serial flash program address */ static void set_sfpaddr(u32 addr) { write8(&mtk_nor->radr[2], GET_NTH_BYTE(addr, 2)); write8(&mtk_nor->radr[1], GET_NTH_BYTE(addr, 1)); write8(&mtk_nor->radr[0], GET_NTH_BYTE(addr, 0)); } static int sector_erase(int offset) { if (wait_for_write_done()) return -1; write8(&mtk_nor->prgdata[5], SFLASH_OP_WREN); write8(&mtk_nor->cnt, 8); mtk_nor_execute_cmd(SFLASH_PRG_CMD); write8(&mtk_nor->prgdata[5], SECTOR_ERASE_CMD); write8(&mtk_nor->prgdata[4], GET_NTH_BYTE(offset, 2)); write8(&mtk_nor->prgdata[3], GET_NTH_BYTE(offset, 1)); write8(&mtk_nor->prgdata[2], GET_NTH_BYTE(offset, 0)); write8(&mtk_nor->cnt, 32); mtk_nor_execute_cmd(SFLASH_PRG_CMD); if (wait_for_write_done()) return -1; return 0; } static int dma_read(u32 addr, uintptr_t dma_buf, u32 len) { struct stopwatch sw; assert(IS_ALIGNED((uintptr_t)addr, SFLASH_DMA_ALIGN) && IS_ALIGNED(len, SFLASH_DMA_ALIGN)); /* do dma reset */ write32(&mtk_nor->fdma_ctl, SFLASH_DMA_SW_RESET); write32(&mtk_nor->fdma_ctl, SFLASH_DMA_WDLE_EN); /* flash source address and dram dest address */ write32(&mtk_nor->fdma_fadr, addr); write32(&mtk_nor->fdma_dadr, dma_buf); write32(&mtk_nor->fdma_end_dadr, (dma_buf + len)); /* start dma */ write32(&mtk_nor->fdma_ctl, SFLASH_DMA_TRIGGER | SFLASH_DMA_WDLE_EN); stopwatch_init_usecs_expire(&sw, SFLASH_POLLINGREG_US); while ((read32(&mtk_nor->fdma_ctl) & SFLASH_DMA_TRIGGER) != 0) { if (stopwatch_expired(&sw)) { printk(BIOS_WARNING, "dma read timeout!\n"); return -1; } } return 0; } static int nor_read(const struct spi_flash *flash, u32 addr, size_t len, void *buf) { uintptr_t dma_buf = (uintptr_t)_dma_coherent; size_t dma_buf_len = REGION_SIZE(dma_coherent); u32 start = ALIGN_DOWN(addr, SFLASH_DMA_ALIGN); u32 skip = addr - start; u32 total = ALIGN_UP(skip + len, SFLASH_DMA_ALIGN); u32 drop = total - skip - len; u32 done, read_len, copy_len; uint8_t *dest = (uint8_t *)buf; /* Refer to CB:13989 for the hardware limitation on mt8173. */ if (CONFIG(SOC_MEDIATEK_MT8173)) { if (!ENV_BOOTBLOCK && !ENV_SEPARATE_VERSTAGE) { dma_buf = (uintptr_t)_dram_dma; dma_buf_len = REGION_SIZE(dram_dma); } } if (CONFIG(FLASH_DUAL_READ)) { setbits8(&mtk_nor->read_dual, SFLASH_READ_DUAL_EN); write8(&mtk_nor->prgdata[3], SFLASH_1_1_2_READ); } /* DMA: start [ skip | len | drop ] = total end */ for (done = 0; done < total; dest += copy_len) { read_len = MIN(dma_buf_len, total - done); if (dma_read(start + done, dma_buf, read_len)) return -1; done += read_len; /* decide the range to copy into buffer */ if (done == total) read_len -= drop; /* Only drop in last iteration */ copy_len = read_len - skip; memcpy(dest, (uint8_t *)dma_buf + skip, copy_len); if (skip) skip = 0; /* Only apply skip in first iteration. */ } return 0; } static int nor_write(const struct spi_flash *flash, u32 addr, size_t len, const void *buf) { const u8 *buffer = (const u8 *)buf; set_sfpaddr(addr); while (len) { write8(&mtk_nor->wdata, *buffer); if (mtk_nor_execute_cmd(SFLASH_WR_TRIGGER | SFLASH_AUTOINC)) return -1; if (wait_for_write_done()) return -1; buffer++; len--; } return 0; } static int nor_erase(const struct spi_flash *flash, u32 offset, size_t len) { int sector_start = offset; int sector_num = (u32)len / flash->sector_size; while (sector_num) { if (!sector_erase(sector_start)) { sector_start += flash->sector_size; sector_num--; } else { printk(BIOS_WARNING, "Erase failed at %#x!\n", sector_start); return -1; } } return 0; } const struct spi_flash_ops spi_flash_ops = { .read = nor_read, .write = nor_write, .erase = nor_erase, }; int mtk_spi_flash_probe(const struct spi_slave *spi, struct spi_flash *flash) { write32(&mtk_nor->wrprot, SFLASH_COMMAND_ENABLE); memcpy(&flash->spi, spi, sizeof(*spi)); flash->sector_size = 0x1000; flash->erase_cmd = SECTOR_ERASE_CMD; flash->size = CONFIG_ROM_SIZE; flash->ops = &spi_flash_ops; return 0; }