/* * Freescale GPMI NAND Flash Driver * * Copyright (C) 2010-2011 Freescale Semiconductor, Inc. * Copyright (C) 2008 Embedded Alley Solutions, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #ifndef __DRIVERS_MTD_NAND_GPMI_NAND_H #define __DRIVERS_MTD_NAND_GPMI_NAND_H #include #include #include #include #define GPMI_CLK_MAX 5 /* MX6Q needs five clocks */ struct resources { void __iomem *gpmi_regs; void __iomem *bch_regs; unsigned int bch_low_interrupt; unsigned int bch_high_interrupt; unsigned int dma_low_channel; unsigned int dma_high_channel; struct clk *clock[GPMI_CLK_MAX]; }; /** * struct bch_geometry - BCH geometry description. * @gf_len: The length of Galois Field. (e.g., 13 or 14) * @ecc_strength: A number that describes the strength of the ECC * algorithm. * @page_size: The size, in bytes, of a physical page, including * both data and OOB. * @metadata_size: The size, in bytes, of the metadata. * @ecc_chunk_size: The size, in bytes, of a single ECC chunk. Note * the first chunk in the page includes both data and * metadata, so it's a bit larger than this value. * @ecc_chunk_count: The number of ECC chunks in the page, * @payload_size: The size, in bytes, of the payload buffer. * @auxiliary_size: The size, in bytes, of the auxiliary buffer. * @auxiliary_status_offset: The offset into the auxiliary buffer at which * the ECC status appears. * @block_mark_byte_offset: The byte offset in the ECC-based page view at * which the underlying physical block mark appears. * @block_mark_bit_offset: The bit offset into the ECC-based page view at * which the underlying physical block mark appears. */ struct bch_geometry { unsigned int gf_len; unsigned int ecc_strength; unsigned int page_size; unsigned int metadata_size; unsigned int ecc_chunk_size; unsigned int ecc_chunk_count; unsigned int payload_size; unsigned int auxiliary_size; unsigned int auxiliary_status_offset; unsigned int block_mark_byte_offset; unsigned int block_mark_bit_offset; }; /** * struct boot_rom_geometry - Boot ROM geometry description. * @stride_size_in_pages: The size of a boot block stride, in pages. * @search_area_stride_exponent: The logarithm to base 2 of the size of a * search area in boot block strides. */ struct boot_rom_geometry { unsigned int stride_size_in_pages; unsigned int search_area_stride_exponent; }; /* DMA operations types */ enum dma_ops_type { DMA_FOR_COMMAND = 1, DMA_FOR_READ_DATA, DMA_FOR_WRITE_DATA, DMA_FOR_READ_ECC_PAGE, DMA_FOR_WRITE_ECC_PAGE }; /** * struct nand_timing - Fundamental timing attributes for NAND. * @data_setup_in_ns: The data setup time, in nanoseconds. Usually the * maximum of tDS and tWP. A negative value * indicates this characteristic isn't known. * @data_hold_in_ns: The data hold time, in nanoseconds. Usually the * maximum of tDH, tWH and tREH. A negative value * indicates this characteristic isn't known. * @address_setup_in_ns: The address setup time, in nanoseconds. Usually * the maximum of tCLS, tCS and tALS. A negative * value indicates this characteristic isn't known. * @gpmi_sample_delay_in_ns: A GPMI-specific timing parameter. A negative value * indicates this characteristic isn't known. * @tREA_in_ns: tREA, in nanoseconds, from the data sheet. A * negative value indicates this characteristic isn't * known. * @tRLOH_in_ns: tRLOH, in nanoseconds, from the data sheet. A * negative value indicates this characteristic isn't * known. * @tRHOH_in_ns: tRHOH, in nanoseconds, from the data sheet. A * negative value indicates this characteristic isn't * known. */ struct nand_timing { int8_t data_setup_in_ns; int8_t data_hold_in_ns; int8_t address_setup_in_ns; int8_t gpmi_sample_delay_in_ns; int8_t tREA_in_ns; int8_t tRLOH_in_ns; int8_t tRHOH_in_ns; }; struct gpmi_nand_data { /* flags */ #define GPMI_ASYNC_EDO_ENABLED (1 << 0) #define GPMI_TIMING_INIT_OK (1 << 1) int flags; /* System Interface */ struct device *dev; struct platform_device *pdev; /* Resources */ struct resources resources; /* Flash Hardware */ struct nand_timing timing; int timing_mode; /* BCH */ struct bch_geometry bch_geometry; struct completion bch_done; /* NAND Boot issue */ bool swap_block_mark; struct boot_rom_geometry rom_geometry; /* MTD / NAND */ struct nand_chip nand; struct mtd_info mtd; /* General-use Variables */ int current_chip; unsigned int command_length; /* passed from upper layer */ uint8_t *upper_buf; int upper_len; /* for DMA operations */ bool direct_dma_map_ok; struct scatterlist cmd_sgl; char *cmd_buffer; struct scatterlist data_sgl; char *data_buffer_dma; void *page_buffer_virt; dma_addr_t page_buffer_phys; unsigned int page_buffer_size; void *payload_virt; dma_addr_t payload_phys; void *auxiliary_virt; dma_addr_t auxiliary_phys; /* DMA channels */ #define DMA_CHANS 8 struct dma_chan *dma_chans[DMA_CHANS]; struct mxs_dma_data dma_data; enum dma_ops_type last_dma_type; enum dma_ops_type dma_type; struct completion dma_done; /* private */ void *private; }; /** * struct gpmi_nfc_hardware_timing - GPMI hardware timing parameters. * @data_setup_in_cycles: The data setup time, in cycles. * @data_hold_in_cycles: The data hold time, in cycles. * @address_setup_in_cycles: The address setup time, in cycles. * @device_busy_timeout: The timeout waiting for NAND Ready/Busy, * this value is the number of cycles multiplied * by 4096. * @use_half_periods: Indicates the clock is running slowly, so the * NFC DLL should use half-periods. * @sample_delay_factor: The sample delay factor. * @wrn_dly_sel: The delay on the GPMI write strobe. */ struct gpmi_nfc_hardware_timing { /* for HW_GPMI_TIMING0 */ uint8_t data_setup_in_cycles; uint8_t data_hold_in_cycles; uint8_t address_setup_in_cycles; /* for HW_GPMI_TIMING1 */ uint16_t device_busy_timeout; #define GPMI_DEFAULT_BUSY_TIMEOUT 0x500 /* default busy timeout value.*/ /* for HW_GPMI_CTRL1 */ bool use_half_periods; uint8_t sample_delay_factor; uint8_t wrn_dly_sel; }; /** * struct timing_threshod - Timing threshold * @max_data_setup_cycles: The maximum number of data setup cycles that * can be expressed in the hardware. * @internal_data_setup_in_ns: The time, in ns, that the NFC hardware requires * for data read internal setup. In the Reference * Manual, see the chapter "High-Speed NAND * Timing" for more details. * @max_sample_delay_factor: The maximum sample delay factor that can be * expressed in the hardware. * @max_dll_clock_period_in_ns: The maximum period of the GPMI clock that the * sample delay DLL hardware can possibly work * with (the DLL is unusable with longer periods). * If the full-cycle period is greater than HALF * this value, the DLL must be configured to use * half-periods. * @max_dll_delay_in_ns: The maximum amount of delay, in ns, that the * DLL can implement. * @clock_frequency_in_hz: The clock frequency, in Hz, during the current * I/O transaction. If no I/O transaction is in * progress, this is the clock frequency during * the most recent I/O transaction. */ struct timing_threshod { const unsigned int max_chip_count; const unsigned int max_data_setup_cycles; const unsigned int internal_data_setup_in_ns; const unsigned int max_sample_delay_factor; const unsigned int max_dll_clock_period_in_ns; const unsigned int max_dll_delay_in_ns; unsigned long clock_frequency_in_hz; }; /* Common Services */ extern int common_nfc_set_geometry(struct gpmi_nand_data *); extern struct dma_chan *get_dma_chan(struct gpmi_nand_data *); extern void prepare_data_dma(struct gpmi_nand_data *, enum dma_data_direction dr); extern int start_dma_without_bch_irq(struct gpmi_nand_data *, struct dma_async_tx_descriptor *); extern int start_dma_with_bch_irq(struct gpmi_nand_data *, struct dma_async_tx_descriptor *); /* GPMI-NAND helper function library */ extern int gpmi_init(struct gpmi_nand_data *); extern int gpmi_extra_init(struct gpmi_nand_data *); extern void gpmi_clear_bch(struct gpmi_nand_data *); extern void gpmi_dump_info(struct gpmi_nand_data *); extern int bch_set_geometry(struct gpmi_nand_data *); extern int gpmi_is_ready(struct gpmi_nand_data *, unsigned chip); extern int gpmi_send_command(struct gpmi_nand_data *); extern void gpmi_begin(struct gpmi_nand_data *); extern void gpmi_end(struct gpmi_nand_data *); extern int gpmi_read_data(struct gpmi_nand_data *); extern int gpmi_send_data(struct gpmi_nand_data *); extern int gpmi_send_page(struct gpmi_nand_data *, dma_addr_t payload, dma_addr_t auxiliary); extern int gpmi_read_page(struct gpmi_nand_data *, dma_addr_t payload, dma_addr_t auxiliary); /* BCH : Status Block Completion Codes */ #define STATUS_GOOD 0x00 #define STATUS_ERASED 0xff #define STATUS_UNCORRECTABLE 0xfe /* Use the platform_id to distinguish different Archs. */ #define IS_MX23 0x0 #define IS_MX28 0x1 #define IS_MX6Q 0x2 #define GPMI_IS_MX23(x) ((x)->pdev->id_entry->driver_data == IS_MX23) #define GPMI_IS_MX28(x) ((x)->pdev->id_entry->driver_data == IS_MX28) #define GPMI_IS_MX6Q(x) ((x)->pdev->id_entry->driver_data == IS_MX6Q) #endif