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The Synopsis DesignWare DW_apb_ssi specifications version 3.23 onward define a 32-bits maximum transfer size synthesis parameter (SSI_MAX_XFER_SIZE=32) in addition to the legacy 16-bits configuration (SSI_MAX_XFER_SIZE=16) for SPI controllers. When SSI_MAX_XFER_SIZE=32, the layout of the ctrlr0 register changes, moving the data frame format field from bits [3..0] to bits [16..20], and the RX/TX FIFO word size can be up to 32-bits. To support this new format, introduce the DW SPI capability flag DW_SPI_CAP_DFS32 to indicate that a controller is configured with SSI_MAX_XFER_SIZE=32. Since SSI_MAX_XFER_SIZE is a controller synthesis parameter not accessible through a register, the detection of this parameter value is done in spi_hw_init() by writing and reading the ctrlr0 register and testing the value of bits [3..0]. These bits are ignored (unchanged) for SSI_MAX_XFER_SIZE=16, allowing the detection. If a DFS32 capable SPI controller is detected, the new field dfs_offset in struct dw_spi is set to SPI_DFS32_OFFSET (16). dw_spi_update_config() is modified to set the data frame size field at the correct position is the CTRLR0 register, as indicated by the dfs_offset field of the dw_spi structure. The DW_SPI_CAP_DFS32 flag is also unconditionally set for SPI slave controllers, e.g. controllers that have the DW_SPI_CAP_DWC_SSI capability flag set. However, for these ssi controllers, the dfs_offset field is set to 0 as before (as per specifications). Finally, for any controller with the DW_SPI_CAP_DFS32 capability flag set, dw_spi_add_host() extends the value of bits_per_word_mask from 16-bits to 32-bits. dw_reader() and dw_writer() are also modified to handle 32-bits iTX/RX FIFO words. Suggested-by: Sean Anderson <seanga2@gmail.com> Signed-off-by: Damien Le Moal <damien.lemoal@wdc.com> Acked-by: Serge Semin <fancer.lancer@gmail.com> Link: https://lore.kernel.org/r/20201206011817.11700-3-damien.lemoal@wdc.com Signed-off-by: Mark Brown <broonie@kernel.org>
303 lines
7.7 KiB
C
303 lines
7.7 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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#ifndef DW_SPI_HEADER_H
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#define DW_SPI_HEADER_H
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#include <linux/bits.h>
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#include <linux/completion.h>
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#include <linux/debugfs.h>
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#include <linux/irqreturn.h>
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#include <linux/io.h>
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#include <linux/scatterlist.h>
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#include <linux/spi/spi-mem.h>
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#include <linux/bitfield.h>
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/* Register offsets */
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#define DW_SPI_CTRLR0 0x00
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#define DW_SPI_CTRLR1 0x04
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#define DW_SPI_SSIENR 0x08
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#define DW_SPI_MWCR 0x0c
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#define DW_SPI_SER 0x10
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#define DW_SPI_BAUDR 0x14
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#define DW_SPI_TXFTLR 0x18
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#define DW_SPI_RXFTLR 0x1c
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#define DW_SPI_TXFLR 0x20
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#define DW_SPI_RXFLR 0x24
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#define DW_SPI_SR 0x28
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#define DW_SPI_IMR 0x2c
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#define DW_SPI_ISR 0x30
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#define DW_SPI_RISR 0x34
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#define DW_SPI_TXOICR 0x38
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#define DW_SPI_RXOICR 0x3c
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#define DW_SPI_RXUICR 0x40
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#define DW_SPI_MSTICR 0x44
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#define DW_SPI_ICR 0x48
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#define DW_SPI_DMACR 0x4c
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#define DW_SPI_DMATDLR 0x50
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#define DW_SPI_DMARDLR 0x54
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#define DW_SPI_IDR 0x58
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#define DW_SPI_VERSION 0x5c
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#define DW_SPI_DR 0x60
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#define DW_SPI_RX_SAMPLE_DLY 0xf0
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#define DW_SPI_CS_OVERRIDE 0xf4
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/* Bit fields in CTRLR0 */
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#define SPI_DFS_OFFSET 0
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#define SPI_DFS_MASK GENMASK(3, 0)
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#define SPI_DFS32_OFFSET 16
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#define SPI_FRF_OFFSET 4
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#define SPI_FRF_SPI 0x0
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#define SPI_FRF_SSP 0x1
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#define SPI_FRF_MICROWIRE 0x2
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#define SPI_FRF_RESV 0x3
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#define SPI_MODE_OFFSET 6
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#define SPI_SCPH_OFFSET 6
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#define SPI_SCOL_OFFSET 7
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#define SPI_TMOD_OFFSET 8
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#define SPI_TMOD_MASK (0x3 << SPI_TMOD_OFFSET)
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#define SPI_TMOD_TR 0x0 /* xmit & recv */
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#define SPI_TMOD_TO 0x1 /* xmit only */
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#define SPI_TMOD_RO 0x2 /* recv only */
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#define SPI_TMOD_EPROMREAD 0x3 /* eeprom read mode */
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#define SPI_SLVOE_OFFSET 10
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#define SPI_SRL_OFFSET 11
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#define SPI_CFS_OFFSET 12
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/* Bit fields in CTRLR0 based on DWC_ssi_databook.pdf v1.01a */
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#define DWC_SSI_CTRLR0_SRL_OFFSET 13
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#define DWC_SSI_CTRLR0_TMOD_OFFSET 10
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#define DWC_SSI_CTRLR0_TMOD_MASK GENMASK(11, 10)
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#define DWC_SSI_CTRLR0_SCPOL_OFFSET 9
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#define DWC_SSI_CTRLR0_SCPH_OFFSET 8
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#define DWC_SSI_CTRLR0_FRF_OFFSET 6
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#define DWC_SSI_CTRLR0_DFS_OFFSET 0
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/*
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* For Keem Bay, CTRLR0[31] is used to select controller mode.
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* 0: SSI is slave
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* 1: SSI is master
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*/
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#define DWC_SSI_CTRLR0_KEEMBAY_MST BIT(31)
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/* Bit fields in CTRLR1 */
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#define SPI_NDF_MASK GENMASK(15, 0)
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/* Bit fields in SR, 7 bits */
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#define SR_MASK 0x7f /* cover 7 bits */
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#define SR_BUSY (1 << 0)
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#define SR_TF_NOT_FULL (1 << 1)
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#define SR_TF_EMPT (1 << 2)
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#define SR_RF_NOT_EMPT (1 << 3)
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#define SR_RF_FULL (1 << 4)
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#define SR_TX_ERR (1 << 5)
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#define SR_DCOL (1 << 6)
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/* Bit fields in ISR, IMR, RISR, 7 bits */
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#define SPI_INT_TXEI (1 << 0)
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#define SPI_INT_TXOI (1 << 1)
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#define SPI_INT_RXUI (1 << 2)
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#define SPI_INT_RXOI (1 << 3)
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#define SPI_INT_RXFI (1 << 4)
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#define SPI_INT_MSTI (1 << 5)
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/* Bit fields in DMACR */
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#define SPI_DMA_RDMAE (1 << 0)
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#define SPI_DMA_TDMAE (1 << 1)
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#define SPI_WAIT_RETRIES 5
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#define SPI_BUF_SIZE \
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(sizeof_field(struct spi_mem_op, cmd.opcode) + \
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sizeof_field(struct spi_mem_op, addr.val) + 256)
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#define SPI_GET_BYTE(_val, _idx) \
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((_val) >> (BITS_PER_BYTE * (_idx)) & 0xff)
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enum dw_ssi_type {
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SSI_MOTO_SPI = 0,
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SSI_TI_SSP,
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SSI_NS_MICROWIRE,
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};
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/* DW SPI capabilities */
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#define DW_SPI_CAP_CS_OVERRIDE BIT(0)
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#define DW_SPI_CAP_KEEMBAY_MST BIT(1)
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#define DW_SPI_CAP_DWC_SSI BIT(2)
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#define DW_SPI_CAP_DFS32 BIT(3)
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/* Slave spi_transfer/spi_mem_op related */
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struct dw_spi_cfg {
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u8 tmode;
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u8 dfs;
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u32 ndf;
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u32 freq;
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};
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struct dw_spi;
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struct dw_spi_dma_ops {
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int (*dma_init)(struct device *dev, struct dw_spi *dws);
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void (*dma_exit)(struct dw_spi *dws);
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int (*dma_setup)(struct dw_spi *dws, struct spi_transfer *xfer);
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bool (*can_dma)(struct spi_controller *master, struct spi_device *spi,
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struct spi_transfer *xfer);
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int (*dma_transfer)(struct dw_spi *dws, struct spi_transfer *xfer);
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void (*dma_stop)(struct dw_spi *dws);
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};
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struct dw_spi {
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struct spi_controller *master;
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void __iomem *regs;
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unsigned long paddr;
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int irq;
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u32 fifo_len; /* depth of the FIFO buffer */
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unsigned int dfs_offset; /* CTRLR0 DFS field offset */
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u32 max_mem_freq; /* max mem-ops bus freq */
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u32 max_freq; /* max bus freq supported */
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u32 caps; /* DW SPI capabilities */
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u32 reg_io_width; /* DR I/O width in bytes */
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u16 bus_num;
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u16 num_cs; /* supported slave numbers */
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void (*set_cs)(struct spi_device *spi, bool enable);
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/* Current message transfer state info */
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void *tx;
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unsigned int tx_len;
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void *rx;
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unsigned int rx_len;
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u8 buf[SPI_BUF_SIZE];
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int dma_mapped;
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u8 n_bytes; /* current is a 1/2 bytes op */
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irqreturn_t (*transfer_handler)(struct dw_spi *dws);
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u32 current_freq; /* frequency in hz */
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u32 cur_rx_sample_dly;
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u32 def_rx_sample_dly_ns;
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/* Custom memory operations */
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struct spi_controller_mem_ops mem_ops;
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/* DMA info */
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struct dma_chan *txchan;
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u32 txburst;
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struct dma_chan *rxchan;
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u32 rxburst;
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u32 dma_sg_burst;
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unsigned long dma_chan_busy;
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dma_addr_t dma_addr; /* phy address of the Data register */
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const struct dw_spi_dma_ops *dma_ops;
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struct completion dma_completion;
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#ifdef CONFIG_DEBUG_FS
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struct dentry *debugfs;
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struct debugfs_regset32 regset;
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#endif
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};
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static inline u32 dw_readl(struct dw_spi *dws, u32 offset)
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{
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return __raw_readl(dws->regs + offset);
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}
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static inline void dw_writel(struct dw_spi *dws, u32 offset, u32 val)
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{
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__raw_writel(val, dws->regs + offset);
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}
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static inline u32 dw_read_io_reg(struct dw_spi *dws, u32 offset)
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{
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switch (dws->reg_io_width) {
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case 2:
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return readw_relaxed(dws->regs + offset);
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case 4:
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default:
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return readl_relaxed(dws->regs + offset);
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}
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}
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static inline void dw_write_io_reg(struct dw_spi *dws, u32 offset, u32 val)
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{
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switch (dws->reg_io_width) {
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case 2:
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writew_relaxed(val, dws->regs + offset);
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break;
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case 4:
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default:
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writel_relaxed(val, dws->regs + offset);
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break;
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}
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}
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static inline void spi_enable_chip(struct dw_spi *dws, int enable)
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{
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dw_writel(dws, DW_SPI_SSIENR, (enable ? 1 : 0));
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}
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static inline void spi_set_clk(struct dw_spi *dws, u16 div)
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{
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dw_writel(dws, DW_SPI_BAUDR, div);
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}
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/* Disable IRQ bits */
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static inline void spi_mask_intr(struct dw_spi *dws, u32 mask)
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{
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u32 new_mask;
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new_mask = dw_readl(dws, DW_SPI_IMR) & ~mask;
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dw_writel(dws, DW_SPI_IMR, new_mask);
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}
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/* Enable IRQ bits */
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static inline void spi_umask_intr(struct dw_spi *dws, u32 mask)
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{
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u32 new_mask;
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new_mask = dw_readl(dws, DW_SPI_IMR) | mask;
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dw_writel(dws, DW_SPI_IMR, new_mask);
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}
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/*
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* This disables the SPI controller, interrupts, clears the interrupts status
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* and CS, then re-enables the controller back. Transmit and receive FIFO
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* buffers are cleared when the device is disabled.
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*/
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static inline void spi_reset_chip(struct dw_spi *dws)
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{
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spi_enable_chip(dws, 0);
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spi_mask_intr(dws, 0xff);
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dw_readl(dws, DW_SPI_ICR);
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dw_writel(dws, DW_SPI_SER, 0);
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spi_enable_chip(dws, 1);
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}
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static inline void spi_shutdown_chip(struct dw_spi *dws)
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{
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spi_enable_chip(dws, 0);
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spi_set_clk(dws, 0);
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}
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extern void dw_spi_set_cs(struct spi_device *spi, bool enable);
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extern void dw_spi_update_config(struct dw_spi *dws, struct spi_device *spi,
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struct dw_spi_cfg *cfg);
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extern int dw_spi_check_status(struct dw_spi *dws, bool raw);
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extern int dw_spi_add_host(struct device *dev, struct dw_spi *dws);
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extern void dw_spi_remove_host(struct dw_spi *dws);
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extern int dw_spi_suspend_host(struct dw_spi *dws);
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extern int dw_spi_resume_host(struct dw_spi *dws);
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#ifdef CONFIG_SPI_DW_DMA
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extern void dw_spi_dma_setup_mfld(struct dw_spi *dws);
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extern void dw_spi_dma_setup_generic(struct dw_spi *dws);
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#else
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static inline void dw_spi_dma_setup_mfld(struct dw_spi *dws) {}
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static inline void dw_spi_dma_setup_generic(struct dw_spi *dws) {}
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#endif /* !CONFIG_SPI_DW_DMA */
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#endif /* DW_SPI_HEADER_H */
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