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Release 4.7 drivers/spi/spi-dln2.c

Directory: drivers/spi
/*
 * Driver for the Diolan DLN-2 USB-SPI adapter
 *
 * Copyright (c) 2014 Intel Corporation
 *
 * 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, version 2.
 */

#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/platform_device.h>
#include <linux/mfd/dln2.h>
#include <linux/spi/spi.h>
#include <linux/pm_runtime.h>
#include <asm/unaligned.h>


#define DLN2_SPI_MODULE_ID		0x02

#define DLN2_SPI_CMD(cmd)		DLN2_CMD(cmd, DLN2_SPI_MODULE_ID)

/* SPI commands */

#define DLN2_SPI_GET_PORT_COUNT			DLN2_SPI_CMD(0x00)

#define DLN2_SPI_ENABLE				DLN2_SPI_CMD(0x11)

#define DLN2_SPI_DISABLE			DLN2_SPI_CMD(0x12)

#define DLN2_SPI_IS_ENABLED			DLN2_SPI_CMD(0x13)

#define DLN2_SPI_SET_MODE			DLN2_SPI_CMD(0x14)

#define DLN2_SPI_GET_MODE			DLN2_SPI_CMD(0x15)

#define DLN2_SPI_SET_FRAME_SIZE			DLN2_SPI_CMD(0x16)

#define DLN2_SPI_GET_FRAME_SIZE			DLN2_SPI_CMD(0x17)

#define DLN2_SPI_SET_FREQUENCY			DLN2_SPI_CMD(0x18)

#define DLN2_SPI_GET_FREQUENCY			DLN2_SPI_CMD(0x19)

#define DLN2_SPI_READ_WRITE			DLN2_SPI_CMD(0x1A)

#define DLN2_SPI_READ				DLN2_SPI_CMD(0x1B)

#define DLN2_SPI_WRITE				DLN2_SPI_CMD(0x1C)

#define DLN2_SPI_SET_DELAY_BETWEEN_SS		DLN2_SPI_CMD(0x20)

#define DLN2_SPI_GET_DELAY_BETWEEN_SS		DLN2_SPI_CMD(0x21)

#define DLN2_SPI_SET_DELAY_AFTER_SS		DLN2_SPI_CMD(0x22)

#define DLN2_SPI_GET_DELAY_AFTER_SS		DLN2_SPI_CMD(0x23)

#define DLN2_SPI_SET_DELAY_BETWEEN_FRAMES	DLN2_SPI_CMD(0x24)

#define DLN2_SPI_GET_DELAY_BETWEEN_FRAMES	DLN2_SPI_CMD(0x25)

#define DLN2_SPI_SET_SS				DLN2_SPI_CMD(0x26)

#define DLN2_SPI_GET_SS				DLN2_SPI_CMD(0x27)

#define DLN2_SPI_RELEASE_SS			DLN2_SPI_CMD(0x28)

#define DLN2_SPI_SS_VARIABLE_ENABLE		DLN2_SPI_CMD(0x2B)

#define DLN2_SPI_SS_VARIABLE_DISABLE		DLN2_SPI_CMD(0x2C)

#define DLN2_SPI_SS_VARIABLE_IS_ENABLED		DLN2_SPI_CMD(0x2D)

#define DLN2_SPI_SS_AAT_ENABLE			DLN2_SPI_CMD(0x2E)

#define DLN2_SPI_SS_AAT_DISABLE			DLN2_SPI_CMD(0x2F)

#define DLN2_SPI_SS_AAT_IS_ENABLED		DLN2_SPI_CMD(0x30)

#define DLN2_SPI_SS_BETWEEN_FRAMES_ENABLE	DLN2_SPI_CMD(0x31)

#define DLN2_SPI_SS_BETWEEN_FRAMES_DISABLE	DLN2_SPI_CMD(0x32)

#define DLN2_SPI_SS_BETWEEN_FRAMES_IS_ENABLED	DLN2_SPI_CMD(0x33)

#define DLN2_SPI_SET_CPHA			DLN2_SPI_CMD(0x34)

#define DLN2_SPI_GET_CPHA			DLN2_SPI_CMD(0x35)

#define DLN2_SPI_SET_CPOL			DLN2_SPI_CMD(0x36)

#define DLN2_SPI_GET_CPOL			DLN2_SPI_CMD(0x37)

#define DLN2_SPI_SS_MULTI_ENABLE		DLN2_SPI_CMD(0x38)

#define DLN2_SPI_SS_MULTI_DISABLE		DLN2_SPI_CMD(0x39)

#define DLN2_SPI_SS_MULTI_IS_ENABLED		DLN2_SPI_CMD(0x3A)

#define DLN2_SPI_GET_SUPPORTED_MODES		DLN2_SPI_CMD(0x40)

#define DLN2_SPI_GET_SUPPORTED_CPHA_VALUES	DLN2_SPI_CMD(0x41)

#define DLN2_SPI_GET_SUPPORTED_CPOL_VALUES	DLN2_SPI_CMD(0x42)

#define DLN2_SPI_GET_SUPPORTED_FRAME_SIZES	DLN2_SPI_CMD(0x43)

#define DLN2_SPI_GET_SS_COUNT			DLN2_SPI_CMD(0x44)

#define DLN2_SPI_GET_MIN_FREQUENCY		DLN2_SPI_CMD(0x45)

#define DLN2_SPI_GET_MAX_FREQUENCY		DLN2_SPI_CMD(0x46)

#define DLN2_SPI_GET_MIN_DELAY_BETWEEN_SS	DLN2_SPI_CMD(0x47)

#define DLN2_SPI_GET_MAX_DELAY_BETWEEN_SS	DLN2_SPI_CMD(0x48)

#define DLN2_SPI_GET_MIN_DELAY_AFTER_SS		DLN2_SPI_CMD(0x49)

#define DLN2_SPI_GET_MAX_DELAY_AFTER_SS		DLN2_SPI_CMD(0x4A)

#define DLN2_SPI_GET_MIN_DELAY_BETWEEN_FRAMES	DLN2_SPI_CMD(0x4B)

#define DLN2_SPI_GET_MAX_DELAY_BETWEEN_FRAMES	DLN2_SPI_CMD(0x4C)


#define DLN2_SPI_MAX_XFER_SIZE			256

#define DLN2_SPI_BUF_SIZE			(DLN2_SPI_MAX_XFER_SIZE + 16)

#define DLN2_SPI_ATTR_LEAVE_SS_LOW		BIT(0)

#define DLN2_TRANSFERS_WAIT_COMPLETE		1

#define DLN2_TRANSFERS_CANCEL			0

#define DLN2_RPM_AUTOSUSPEND_TIMEOUT		2000


struct dln2_spi {
	
struct platform_device *pdev;
	
struct spi_master *master;
	
u8 port;

	/*
         * This buffer will be used mainly for read/write operations. Since
         * they're quite large, we cannot use the stack. Protection is not
         * needed because all SPI communication is serialized by the SPI core.
         */
	
void *buf;

	
u8 bpw;
	
u32 speed;
	
u16 mode;
	
u8 cs;
};

/*
 * Enable/Disable SPI module. The disable command will wait for transfers to
 * complete first.
 */

static int dln2_spi_enable(struct dln2_spi *dln2, bool enable) { u16 cmd; struct { u8 port; u8 wait_for_completion; } tx; unsigned len = sizeof(tx); tx.port = dln2->port; if (enable) { cmd = DLN2_SPI_ENABLE; len -= sizeof(tx.wait_for_completion); } else { tx.wait_for_completion = DLN2_TRANSFERS_WAIT_COMPLETE; cmd = DLN2_SPI_DISABLE; } return dln2_transfer_tx(dln2->pdev, cmd, &tx, len); }

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/* * Select/unselect multiple CS lines. The selected lines will be automatically * toggled LOW/HIGH by the board firmware during transfers, provided they're * enabled first. * * Ex: cs_mask = 0x03 -> CS0 & CS1 will be selected and the next WR/RD operation * will toggle the lines LOW/HIGH automatically. */
static int dln2_spi_cs_set(struct dln2_spi *dln2, u8 cs_mask) { struct { u8 port; u8 cs; } tx; tx.port = dln2->port; /* * According to Diolan docs, "a slave device can be selected by changing * the corresponding bit value to 0". The rest must be set to 1. Hence * the bitwise NOT in front. */ tx.cs = ~cs_mask; return dln2_transfer_tx(dln2->pdev, DLN2_SPI_SET_SS, &tx, sizeof(tx)); }

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/* * Select one CS line. The other lines will be un-selected. */
static int dln2_spi_cs_set_one(struct dln2_spi *dln2, u8 cs) { return dln2_spi_cs_set(dln2, BIT(cs)); }

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/* * Enable/disable CS lines for usage. The module has to be disabled first. */
static int dln2_spi_cs_enable(struct dln2_spi *dln2, u8 cs_mask, bool enable) { struct { u8 port; u8 cs; } tx; u16 cmd; tx.port = dln2->port; tx.cs = cs_mask; cmd = enable ? DLN2_SPI_SS_MULTI_ENABLE : DLN2_SPI_SS_MULTI_DISABLE; return dln2_transfer_tx(dln2->pdev, cmd, &tx, sizeof(tx)); }

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static int dln2_spi_cs_enable_all(struct dln2_spi *dln2, bool enable) { u8 cs_mask = GENMASK(dln2->master->num_chipselect - 1, 0); return dln2_spi_cs_enable(dln2, cs_mask, enable); }

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static int dln2_spi_get_cs_num(struct dln2_spi *dln2, u16 *cs_num) { int ret; struct { u8 port; } tx; struct { __le16 cs_count; } rx; unsigned rx_len = sizeof(rx); tx.port = dln2->port; ret = dln2_transfer(dln2->pdev, DLN2_SPI_GET_SS_COUNT, &tx, sizeof(tx), &rx, &rx_len); if (ret < 0) return ret; if (rx_len < sizeof(rx)) return -EPROTO; *cs_num = le16_to_cpu(rx.cs_count); dev_dbg(&dln2->pdev->dev, "cs_num = %d\n", *cs_num); return 0; }

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static int dln2_spi_get_speed(struct dln2_spi *dln2, u16 cmd, u32 *freq) { int ret; struct { u8 port; } tx; struct { __le32 speed; } rx; unsigned rx_len = sizeof(rx); tx.port = dln2->port; ret = dln2_transfer(dln2->pdev, cmd, &tx, sizeof(tx), &rx, &rx_len); if (ret < 0) return ret; if (rx_len < sizeof(rx)) return -EPROTO; *freq = le32_to_cpu(rx.speed); return 0; }

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/* * Get bus min/max frequencies. */
static int dln2_spi_get_speed_range(struct dln2_spi *dln2, u32 *fmin, u32 *fmax) { int ret; ret = dln2_spi_get_speed(dln2, DLN2_SPI_GET_MIN_FREQUENCY, fmin); if (ret < 0) return ret; ret = dln2_spi_get_speed(dln2, DLN2_SPI_GET_MAX_FREQUENCY, fmax); if (ret < 0) return ret; dev_dbg(&dln2->pdev->dev, "freq_min = %d, freq_max = %d\n", *fmin, *fmax); return 0; }

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/* * Set the bus speed. The module will automatically round down to the closest * available frequency and returns it. The module has to be disabled first. */
static int dln2_spi_set_speed(struct dln2_spi *dln2, u32 speed) { int ret; struct { u8 port; __le32 speed; } __packed tx; struct { __le32 speed; } rx; int rx_len = sizeof(rx); tx.port = dln2->port; tx.speed = cpu_to_le32(speed); ret = dln2_transfer(dln2->pdev, DLN2_SPI_SET_FREQUENCY, &tx, sizeof(tx), &rx, &rx_len); if (ret < 0) return ret; if (rx_len < sizeof(rx)) return -EPROTO; return 0; }

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/* * Change CPOL & CPHA. The module has to be disabled first. */
static int dln2_spi_set_mode(struct dln2_spi *dln2, u8 mode) { struct { u8 port; u8 mode; } tx; tx.port = dln2->port; tx.mode = mode; return dln2_transfer_tx(dln2->pdev, DLN2_SPI_SET_MODE, &tx, sizeof(tx)); }

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/* * Change frame size. The module has to be disabled first. */
static int dln2_spi_set_bpw(struct dln2_spi *dln2, u8 bpw) { struct { u8 port; u8 bpw; } tx; tx.port = dln2->port; tx.bpw = bpw; return dln2_transfer_tx(dln2->pdev, DLN2_SPI_SET_FRAME_SIZE, &tx, sizeof(tx)); }

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static int dln2_spi_get_supported_frame_sizes(struct dln2_spi *dln2, u32 *bpw_mask) { int ret; struct { u8 port; } tx; struct { u8 count; u8 frame_sizes[36]; } *rx = dln2->buf; unsigned rx_len = sizeof(*rx); int i; tx.port = dln2->port; ret = dln2_transfer(dln2->pdev, DLN2_SPI_GET_SUPPORTED_FRAME_SIZES, &tx, sizeof(tx), rx, &rx_len); if (ret < 0) return ret; if (rx_len < sizeof(*rx)) return -EPROTO; if (rx->count > ARRAY_SIZE(rx->frame_sizes)) return -EPROTO; *bpw_mask = 0; for (i = 0; i < rx->count; i++) *bpw_mask |= BIT(rx->frame_sizes[i] - 1); dev_dbg(&dln2->pdev->dev, "bpw_mask = 0x%X\n", *bpw_mask); return 0; }

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/* * Copy the data to DLN2 buffer and change the byte order to LE, requested by * DLN2 module. SPI core makes sure that the data length is a multiple of word * size. */
static int dln2_spi_copy_to_buf(u8 *dln2_buf, const u8 *src, u16 len, u8 bpw) { #ifdef __LITTLE_ENDIAN memcpy(dln2_buf, src, len); #else if (bpw <= 8) { memcpy(dln2_buf, src, len); } else if (bpw <= 16) { __le16 *d = (__le16 *)dln2_buf; u16 *s = (u16 *)src; len = len / 2; while (len--) *d++ = cpu_to_le16p(s++); } else { __le32 *d = (__le32 *)dln2_buf; u32 *s = (u32 *)src; len = len / 4; while (len--) *d++ = cpu_to_le32p(s++); } #endif return 0; }

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/* * Copy the data from DLN2 buffer and convert to CPU byte order since the DLN2 * buffer is LE ordered. SPI core makes sure that the data length is a multiple * of word size. The RX dln2_buf is 2 byte aligned so, for BE, we have to make * sure we avoid unaligned accesses for 32 bit case. */
static int dln2_spi_copy_from_buf(u8 *dest, const u8 *dln2_buf, u16 len, u8 bpw) { #ifdef __LITTLE_ENDIAN memcpy(dest, dln2_buf, len); #else if (bpw <= 8) { memcpy(dest, dln2_buf, len); } else if (bpw <= 16) { u16 *d = (u16 *)dest; __le16 *s = (__le16 *)dln2_buf; len = len / 2; while (len--) *d++ = le16_to_cpup(s++); } else { u32 *d = (u32 *)dest; __le32 *s = (__le32 *)dln2_buf; len = len / 4; while (len--) *d++ = get_unaligned_le32(s++); } #endif return 0; }

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/* * Perform one write operation. */
static int dln2_spi_write_one(struct dln2_spi *dln2, const u8 *data, u16 data_len, u8 attr) { struct { u8 port; __le16 size; u8 attr; u8 buf[DLN2_SPI_MAX_XFER_SIZE]; } __packed *tx = dln2->buf; unsigned tx_len; BUILD_BUG_ON(sizeof(*tx) > DLN2_SPI_BUF_SIZE); if (data_len > DLN2_SPI_MAX_XFER_SIZE) return -EINVAL; tx->port = dln2->port; tx->size = cpu_to_le16(data_len); tx->attr = attr; dln2_spi_copy_to_buf(tx->buf, data, data_len, dln2->bpw); tx_len = sizeof(*tx) + data_len - DLN2_SPI_MAX_XFER_SIZE; return dln2_transfer_tx(dln2->pdev, DLN2_SPI_WRITE, tx, tx_len); }

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/* * Perform one read operation. */
static int dln2_spi_read_one(struct dln2_spi *dln2, u8 *data, u16 data_len, u8 attr) { int ret; struct { u8 port; __le16 size; u8 attr; } __packed tx; struct { __le16 size; u8 buf[DLN2_SPI_MAX_XFER_SIZE]; } __packed *rx = dln2->buf; unsigned rx_len = sizeof(*rx); BUILD_BUG_ON(sizeof(*rx) > DLN2_SPI_BUF_SIZE); if (data_len > DLN2_SPI_MAX_XFER_SIZE) return -EINVAL; tx.port = dln2->port; tx.size = cpu_to_le16(data_len); tx.attr = attr; ret = dln2_transfer(dln2->pdev, DLN2_SPI_READ, &tx, sizeof(tx), rx, &rx_len); if (ret < 0) return ret; if (rx_len < sizeof(rx->size) + data_len) return -EPROTO; if (le16_to_cpu(rx->size) != data_len) return -EPROTO; dln2_spi_copy_from_buf(data, rx->buf, data_len, dln2->bpw); return 0; }

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/* * Perform one write & read operation. */
static int dln2_spi_read_write_one(struct dln2_spi *dln2, const u8 *tx_data, u8 *rx_data, u16 data_len, u8 attr) { int ret; struct { u8 port; __le16 size; u8 attr; u8 buf[DLN2_SPI_MAX_XFER_SIZE]; } __packed *tx; struct { __le16 size; u8 buf[DLN2_SPI_MAX_XFER_SIZE]; } __packed *rx; unsigned tx_len, rx_len; BUILD_BUG_ON(sizeof(*tx) > DLN2_SPI_BUF_SIZE || sizeof(*rx) > DLN2_SPI_BUF_SIZE); if (data_len > DLN2_SPI_MAX_XFER_SIZE) return -EINVAL; /* * Since this is a pseudo full-duplex communication, we're perfectly * safe to use the same buffer for both tx and rx. When DLN2 sends the * response back, with the rx data, we don't need the tx buffer anymore. */ tx = dln2->buf; rx = dln2->buf; tx->port = dln2->port; tx->size = cpu_to_le16(data_len); tx->attr = attr; dln2_spi_copy_to_buf(tx->buf, tx_data, data_len, dln2->bpw); tx_len = sizeof(*tx) + data_len - DLN2_SPI_MAX_XFER_SIZE; rx_len = sizeof(*rx); ret = dln2_transfer(dln2->pdev, DLN2_SPI_READ_WRITE, tx, tx_len, rx, &rx_len); if (ret < 0) return ret; if (rx_len < sizeof(rx->size) + data_len) return -EPROTO; if (le16_to_cpu(rx->size) != data_len) return -EPROTO; dln2_spi_copy_from_buf(rx_data, rx->buf, data_len, dln2->bpw); return 0; }

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/* * Read/Write wrapper. It will automatically split an operation into multiple * single ones due to device buffer constraints. */
static int dln2_spi_rdwr(struct dln2_spi *dln2, const u8 *tx_data, u8 *rx_data, u16 data_len, u8 attr) { int ret; u16 len; u8 temp_attr; u16 remaining = data_len; u16 offset; do { if (remaining > DLN2_SPI_MAX_XFER_SIZE) { len = DLN2_SPI_MAX_XFER_SIZE; temp_attr = DLN2_SPI_ATTR_LEAVE_SS_LOW; } else { len = remaining; temp_attr = attr; } offset = data_len - remaining; if (tx_data && rx_data) { ret = dln2_spi_read_write_one(dln2, tx_data + offset, rx_data + offset, len, temp_attr); } else if (tx_data) { ret = dln2_spi_write_one(dln2, tx_data + offset, len, temp_attr); } else if (rx_data) { ret = dln2_spi_read_one(dln2, rx_data + offset, len, temp_attr); } else { return -EINVAL; } if (ret < 0) return ret; remaining -= len; } while (remaining); return 0; }

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static int dln2_spi_prepare_message(struct spi_master *master, struct spi_message *message) { int ret; struct dln2_spi *dln2 = spi_master_get_devdata(master); struct spi_device *spi = message->spi; if (dln2->cs != spi->chip_select) { ret = dln2_spi_cs_set_one(dln2, spi->chip_select); if (ret < 0) return ret; dln2->cs = spi->chip_select; } return 0; }

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static int dln2_spi_transfer_setup(struct dln2_spi *dln2, u32 speed, u8 bpw, u8 mode) { int ret; bool bus_setup_change; bus_setup_change = dln2->speed != speed || dln2->mode != mode || dln2->bpw != bpw; if (!bus_setup_change) return 0; ret = dln2_spi_enable(dln2, false); if (ret < 0) return ret; if (dln2->speed != speed) { ret = dln2_spi_set_speed(dln2, speed); if (ret < 0) return ret; dln2->speed = speed; } if (dln2->mode != mode) { ret = dln2_spi_set_mode(dln2, mode & 0x3); if (ret < 0) return ret; dln2->mode = mode; } if (dln2->bpw != bpw) { ret = dln2_spi_set_bpw(dln2, bpw); if (ret < 0) return ret; dln2->bpw = bpw; } return dln2_spi_enable(dln2, true); }

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static int dln2_spi_transfer_one(struct spi_master *master, struct spi_device *spi, struct spi_transfer *xfer) { struct dln2_spi *dln2 = spi_master_get_devdata(master); int status; u8 attr = 0; status = dln2_spi_transfer_setup(dln2, xfer->speed_hz, xfer->bits_per_word, spi->mode); if (status < 0) { dev_err(&dln2->pdev->dev, "Cannot setup transfer\n"); return status; } if (!xfer->cs_change && !spi_transfer_is_last(master, xfer)) attr = DLN2_SPI_ATTR_LEAVE_SS_LOW; status = dln2_spi_rdwr(dln2, xfer->tx_buf, xfer->rx_buf, xfer->len, attr); if (status < 0) dev_err(&dln2->pdev->dev, "write/read failed!\n"); return status; }

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static int dln2_spi_probe(struct platform_device *pdev) { struct spi_master *master; struct dln2_spi *dln2; struct dln2_platform_data *pdata = dev_get_platdata(&pdev->dev); struct device *dev = &pdev->dev; int ret; master = spi_alloc_master(&pdev->dev, sizeof(*dln2)); if (!master) return -ENOMEM; platform_set_drvdata(pdev, master); dln2 = spi_master_get_devdata(master); dln2->buf = devm_kmalloc(&pdev->dev, DLN2_SPI_BUF_SIZE, GFP_KERNEL); if (!dln2->buf) { ret = -ENOMEM; goto exit_free_master; } dln2->master = master; dln2->master->dev.of_node = dev->of_node; dln2->pdev = pdev; dln2->port = pdata->port; /* cs/mode can never be 0xff, so the first transfer will set them */ dln2->cs = 0xff; dln2->mode = 0xff; /* disable SPI module before continuing with the setup */ ret = dln2_spi_enable(dln2, false); if (ret < 0) { dev_err(&pdev->dev, "Failed to disable SPI module\n"); goto exit_free_master; } ret = dln2_spi_get_cs_num(dln2, &master->num_chipselect); if (ret < 0) { dev_err(&pdev->dev, "Failed to get number of CS pins\n"); goto exit_free_master; } ret = dln2_spi_get_speed_range(dln2, &master->min_speed_hz, &master->max_speed_hz); if (ret < 0) { dev_err(&pdev->dev, "Failed to read bus min/max freqs\n"); goto exit_free_master; } ret = dln2_spi_get_supported_frame_sizes(dln2, &master->bits_per_word_mask); if (ret < 0) { dev_err(&pdev->dev, "Failed to read supported frame sizes\n"); goto exit_free_master; } ret = dln2_spi_cs_enable_all(dln2, true); if (ret < 0) { dev_err(&pdev->dev, "Failed to enable CS pins\n"); goto exit_free_master; } master->bus_num = -1; master->mode_bits = SPI_CPOL | SPI_CPHA; master->prepare_message = dln2_spi_prepare_message; master->transfer_one = dln2_spi_transfer_one; master->auto_runtime_pm = true; /* enable SPI module, we're good to go */ ret = dln2_spi_enable(dln2, true); if (ret < 0) { dev_err(&pdev->dev, "Failed to enable SPI module\n"); goto exit_free_master; } pm_runtime_set_autosuspend_delay(&pdev->dev, DLN2_RPM_AUTOSUSPEND_TIMEOUT); pm_runtime_use_autosuspend(&pdev->dev); pm_runtime_set_active(&pdev->dev); pm_runtime_enable(&pdev->dev); ret = devm_spi_register_master(&pdev->dev, master); if (ret < 0) { dev_err(&pdev->dev, "Failed to register master\n"); goto exit_register; } return ret; exit_register: pm_runtime_disable(&pdev->dev); pm_runtime_set_suspended(&pdev->dev); if (dln2_spi_enable(dln2, false) < 0) dev_err(&pdev->dev, "Failed to disable SPI module\n"); exit_free_master: spi_master_put(master); return ret; }

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static int dln2_spi_remove(struct platform_device *pdev) { struct spi_master *master = spi_master_get(platform_get_drvdata(pdev)); struct dln2_spi *dln2 = spi_master_get_devdata(master); pm_runtime_disable(&pdev->dev); if (dln2_spi_enable(dln2, false) < 0) dev_err(&pdev->dev, "Failed to disable SPI module\n"); return 0; }

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#ifdef CONFIG_PM_SLEEP
static int dln2_spi_suspend(struct device *dev) { int ret; struct spi_master *master = dev_get_drvdata(dev); struct dln2_spi *dln2 = spi_master_get_devdata(master); ret = spi_master_suspend(master); if (ret < 0) return ret; if (!pm_runtime_suspended(dev)) { ret = dln2_spi_enable(dln2, false); if (ret < 0) return ret; } /* * USB power may be cut off during sleep. Resetting the following * parameters will force the board to be set up before first transfer. */ dln2->cs = 0xff; dln2->speed = 0; dln2->bpw = 0; dln2->mode = 0xff; return 0; }

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static int dln2_spi_resume(struct device *dev) { int ret; struct spi_master *master = dev_get_drvdata(dev); struct dln2_spi *dln2 = spi_master_get_devdata(master); if (!pm_runtime_suspended(dev)) { ret = dln2_spi_cs_enable_all(dln2, true); if (ret < 0) return ret; ret = dln2_spi_enable(dln2, true); if (ret < 0) return ret; } return spi_master_resume(master); }

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#endif /* CONFIG_PM_SLEEP */ #ifdef CONFIG_PM
static int dln2_spi_runtime_suspend(struct device *dev) { struct spi_master *master = dev_get_drvdata(dev); struct dln2_spi *dln2 = spi_master_get_devdata(master); return dln2_spi_enable(dln2, false); }

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static int dln2_spi_runtime_resume(struct device *dev) { struct spi_master *master = dev_get_drvdata(dev); struct dln2_spi *dln2 = spi_master_get_devdata(master); return dln2_spi_enable(dln2, true); }

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#endif /* CONFIG_PM */ static const struct dev_pm_ops dln2_spi_pm = { SET_SYSTEM_SLEEP_PM_OPS(dln2_spi_suspend, dln2_spi_resume) SET_RUNTIME_PM_OPS(dln2_spi_runtime_suspend, dln2_spi_runtime_resume, NULL) }; static struct platform_driver spi_dln2_driver = { .driver = { .name = "dln2-spi", .pm = &dln2_spi_pm, }, .probe = dln2_spi_probe, .remove = dln2_spi_remove, }; module_platform_driver(spi_dln2_driver); MODULE_DESCRIPTION("Driver for the Diolan DLN2 SPI master interface"); MODULE_AUTHOR("Laurentiu Palcu <laurentiu.palcu@intel.com>"); MODULE_LICENSE("GPL v2"); MODULE_ALIAS("platform:dln2-spi");

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Directory: drivers/spi
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