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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 | /* * Blackfin On-Chip SPI Driver * * Copyright 2004-2010 Analog Devices Inc. * * Enter bugs at http://blackfin.uclinux.org/ * * Licensed under the GPL-2 or later. */ #include <linux/init.h> #include <linux/module.h> #include <linux/delay.h> #include <linux/device.h> #include <linux/slab.h> #include <linux/io.h> #include <linux/ioport.h> #include <linux/irq.h> #include <linux/errno.h> #include <linux/interrupt.h> #include <linux/platform_device.h> #include <linux/dma-mapping.h> #include <linux/spi/spi.h> #include <linux/workqueue.h> #include <asm/dma.h> #include <asm/portmux.h> #include <asm/bfin5xx_spi.h> #include <asm/cacheflush.h> #define DRV_NAME "bfin-spi" #define DRV_AUTHOR "Bryan Wu, Luke Yang" #define DRV_DESC "Blackfin on-chip SPI Controller Driver" #define DRV_VERSION "1.0" MODULE_AUTHOR(DRV_AUTHOR); MODULE_DESCRIPTION(DRV_DESC); MODULE_LICENSE("GPL"); #define START_STATE ((void *)0) #define RUNNING_STATE ((void *)1) #define DONE_STATE ((void *)2) #define ERROR_STATE ((void *)-1) struct bfin_spi_master_data; struct bfin_spi_transfer_ops { void (*write) (struct bfin_spi_master_data *); void (*read) (struct bfin_spi_master_data *); void (*duplex) (struct bfin_spi_master_data *); }; struct bfin_spi_master_data { /* Driver model hookup */ struct platform_device *pdev; /* SPI framework hookup */ struct spi_master *master; /* Regs base of SPI controller */ void __iomem *regs_base; /* Pin request list */ u16 *pin_req; /* BFIN hookup */ struct bfin5xx_spi_master *master_info; /* Driver message queue */ struct workqueue_struct *workqueue; struct work_struct pump_messages; spinlock_t lock; struct list_head queue; int busy; bool running; /* Message Transfer pump */ struct tasklet_struct pump_transfers; /* Current message transfer state info */ struct spi_message *cur_msg; struct spi_transfer *cur_transfer; struct bfin_spi_slave_data *cur_chip; size_t len_in_bytes; size_t len; void *tx; void *tx_end; void *rx; void *rx_end; /* DMA stuffs */ int dma_channel; int dma_mapped; int dma_requested; dma_addr_t rx_dma; dma_addr_t tx_dma; int irq_requested; int spi_irq; size_t rx_map_len; size_t tx_map_len; u8 n_bytes; u16 ctrl_reg; u16 flag_reg; int cs_change; const struct bfin_spi_transfer_ops *ops; }; struct bfin_spi_slave_data { u16 ctl_reg; u16 baud; u16 flag; u8 chip_select_num; u8 enable_dma; u16 cs_chg_udelay; /* Some devices require > 255usec delay */ u32 cs_gpio; u16 idle_tx_val; u8 pio_interrupt; /* use spi data irq */ const struct bfin_spi_transfer_ops *ops; }; #define DEFINE_SPI_REG(reg, off) \ static inline u16 read_##reg(struct bfin_spi_master_data *drv_data) \ { return bfin_read16(drv_data->regs_base + off); } \ static inline void write_##reg(struct bfin_spi_master_data *drv_data, u16 v) \ { bfin_write16(drv_data->regs_base + off, v); } DEFINE_SPI_REG(CTRL, 0x00) DEFINE_SPI_REG(FLAG, 0x04) DEFINE_SPI_REG(STAT, 0x08) DEFINE_SPI_REG(TDBR, 0x0C) DEFINE_SPI_REG(RDBR, 0x10) DEFINE_SPI_REG(BAUD, 0x14) DEFINE_SPI_REG(SHAW, 0x18) static void bfin_spi_enable(struct bfin_spi_master_data *drv_data) { u16 cr; cr = read_CTRL(drv_data); write_CTRL(drv_data, (cr | BIT_CTL_ENABLE)); } static void bfin_spi_disable(struct bfin_spi_master_data *drv_data) { u16 cr; cr = read_CTRL(drv_data); write_CTRL(drv_data, (cr & (~BIT_CTL_ENABLE))); } /* Caculate the SPI_BAUD register value based on input HZ */ static u16 hz_to_spi_baud(u32 speed_hz) { u_long sclk = get_sclk(); u16 spi_baud = (sclk / (2 * speed_hz)); if ((sclk % (2 * speed_hz)) > 0) spi_baud++; if (spi_baud < MIN_SPI_BAUD_VAL) spi_baud = MIN_SPI_BAUD_VAL; return spi_baud; } static int bfin_spi_flush(struct bfin_spi_master_data *drv_data) { unsigned long limit = loops_per_jiffy << 1; /* wait for stop and clear stat */ while (!(read_STAT(drv_data) & BIT_STAT_SPIF) && --limit) cpu_relax(); write_STAT(drv_data, BIT_STAT_CLR); return limit; } /* Chip select operation functions for cs_change flag */ static void bfin_spi_cs_active(struct bfin_spi_master_data *drv_data, struct bfin_spi_slave_data *chip) { if (likely(chip->chip_select_num < MAX_CTRL_CS)) { u16 flag = read_FLAG(drv_data); flag &= ~chip->flag; write_FLAG(drv_data, flag); } else { gpio_set_value(chip->cs_gpio, 0); } } static void bfin_spi_cs_deactive(struct bfin_spi_master_data *drv_data, struct bfin_spi_slave_data *chip) { if (likely(chip->chip_select_num < MAX_CTRL_CS)) { u16 flag = read_FLAG(drv_data); flag |= chip->flag; write_FLAG(drv_data, flag); } else { gpio_set_value(chip->cs_gpio, 1); } /* Move delay here for consistency */ if (chip->cs_chg_udelay) udelay(chip->cs_chg_udelay); } /* enable or disable the pin muxed by GPIO and SPI CS to work as SPI CS */ static inline void bfin_spi_cs_enable(struct bfin_spi_master_data *drv_data, struct bfin_spi_slave_data *chip) { if (chip->chip_select_num < MAX_CTRL_CS) { u16 flag = read_FLAG(drv_data); flag |= (chip->flag >> 8); write_FLAG(drv_data, flag); } } static inline void bfin_spi_cs_disable(struct bfin_spi_master_data *drv_data, struct bfin_spi_slave_data *chip) { if (chip->chip_select_num < MAX_CTRL_CS) { u16 flag = read_FLAG(drv_data); flag &= ~(chip->flag >> 8); write_FLAG(drv_data, flag); } } /* stop controller and re-config current chip*/ static void bfin_spi_restore_state(struct bfin_spi_master_data *drv_data) { struct bfin_spi_slave_data *chip = drv_data->cur_chip; /* Clear status and disable clock */ write_STAT(drv_data, BIT_STAT_CLR); bfin_spi_disable(drv_data); dev_dbg(&drv_data->pdev->dev, "restoring spi ctl state\n"); SSYNC(); /* Load the registers */ write_CTRL(drv_data, chip->ctl_reg); write_BAUD(drv_data, chip->baud); bfin_spi_enable(drv_data); bfin_spi_cs_active(drv_data, chip); } /* used to kick off transfer in rx mode and read unwanted RX data */ static inline void bfin_spi_dummy_read(struct bfin_spi_master_data *drv_data) { (void) read_RDBR(drv_data); } static void bfin_spi_u8_writer(struct bfin_spi_master_data *drv_data) { /* clear RXS (we check for RXS inside the loop) */ bfin_spi_dummy_read(drv_data); while (drv_data->tx < drv_data->tx_end) { write_TDBR(drv_data, (*(u8 *) (drv_data->tx++))); /* wait until transfer finished. checking SPIF or TXS may not guarantee transfer completion */ while (!(read_STAT(drv_data) & BIT_STAT_RXS)) cpu_relax(); /* discard RX data and clear RXS */ bfin_spi_dummy_read(drv_data); } } static void bfin_spi_u8_reader(struct bfin_spi_master_data *drv_data) { u16 tx_val = drv_data->cur_chip->idle_tx_val; /* discard old RX data and clear RXS */ bfin_spi_dummy_read(drv_data); while (drv_data->rx < drv_data->rx_end) { write_TDBR(drv_data, tx_val); while (!(read_STAT(drv_data) & BIT_STAT_RXS)) cpu_relax(); *(u8 *) (drv_data->rx++) = read_RDBR(drv_data); } } static void bfin_spi_u8_duplex(struct bfin_spi_master_data *drv_data) { /* discard old RX data and clear RXS */ bfin_spi_dummy_read(drv_data); while (drv_data->rx < drv_data->rx_end) { write_TDBR(drv_data, (*(u8 *) (drv_data->tx++))); while (!(read_STAT(drv_data) & BIT_STAT_RXS)) cpu_relax(); *(u8 *) (drv_data->rx++) = read_RDBR(drv_data); } } static const struct bfin_spi_transfer_ops bfin_bfin_spi_transfer_ops_u8 = { .write = bfin_spi_u8_writer, .read = bfin_spi_u8_reader, .duplex = bfin_spi_u8_duplex, }; static void bfin_spi_u16_writer(struct bfin_spi_master_data *drv_data) { /* clear RXS (we check for RXS inside the loop) */ bfin_spi_dummy_read(drv_data); while (drv_data->tx < drv_data->tx_end) { write_TDBR(drv_data, (*(u16 *) (drv_data->tx))); drv_data->tx += 2; /* wait until transfer finished. checking SPIF or TXS may not guarantee transfer completion */ while (!(read_STAT(drv_data) & BIT_STAT_RXS)) cpu_relax(); /* discard RX data and clear RXS */ bfin_spi_dummy_read(drv_data); } } static void bfin_spi_u16_reader(struct bfin_spi_master_data *drv_data) { u16 tx_val = drv_data->cur_chip->idle_tx_val; /* discard old RX data and clear RXS */ bfin_spi_dummy_read(drv_data); while (drv_data->rx < drv_data->rx_end) { write_TDBR(drv_data, tx_val); while (!(read_STAT(drv_data) & BIT_STAT_RXS)) cpu_relax(); *(u16 *) (drv_data->rx) = read_RDBR(drv_data); drv_data->rx += 2; } } static void bfin_spi_u16_duplex(struct bfin_spi_master_data *drv_data) { /* discard old RX data and clear RXS */ bfin_spi_dummy_read(drv_data); while (drv_data->rx < drv_data->rx_end) { write_TDBR(drv_data, (*(u16 *) (drv_data->tx))); drv_data->tx += 2; while (!(read_STAT(drv_data) & BIT_STAT_RXS)) cpu_relax(); *(u16 *) (drv_data->rx) = read_RDBR(drv_data); drv_data->rx += 2; } } static const struct bfin_spi_transfer_ops bfin_bfin_spi_transfer_ops_u16 = { .write = bfin_spi_u16_writer, .read = bfin_spi_u16_reader, .duplex = bfin_spi_u16_duplex, }; /* test if there is more transfer to be done */ static void *bfin_spi_next_transfer(struct bfin_spi_master_data *drv_data) { struct spi_message *msg = drv_data->cur_msg; struct spi_transfer *trans = drv_data->cur_transfer; /* Move to next transfer */ if (trans->transfer_list.next != &msg->transfers) { drv_data->cur_transfer = list_entry(trans->transfer_list.next, struct spi_transfer, transfer_list); return RUNNING_STATE; } else return DONE_STATE; } /* * caller already set message->status; * dma and pio irqs are blocked give finished message back */ static void bfin_spi_giveback(struct bfin_spi_master_data *drv_data) { struct bfin_spi_slave_data *chip = drv_data->cur_chip; struct spi_transfer *last_transfer; unsigned long flags; struct spi_message *msg; spin_lock_irqsave(&drv_data->lock, flags); msg = drv_data->cur_msg; drv_data->cur_msg = NULL; drv_data->cur_transfer = NULL; drv_data->cur_chip = NULL; queue_work(drv_data->workqueue, &drv_data->pump_messages); spin_unlock_irqrestore(&drv_data->lock, flags); last_transfer = list_entry(msg->transfers.prev, struct spi_transfer, transfer_list); msg->state = NULL; if (!drv_data->cs_change) bfin_spi_cs_deactive(drv_data, chip); /* Not stop spi in autobuffer mode */ if (drv_data->tx_dma != 0xFFFF) bfin_spi_disable(drv_data); if (msg->complete) msg->complete(msg->context); } /* spi data irq handler */ static irqreturn_t bfin_spi_pio_irq_handler(int irq, void *dev_id) { struct bfin_spi_master_data *drv_data = dev_id; struct bfin_spi_slave_data *chip = drv_data->cur_chip; struct spi_message *msg = drv_data->cur_msg; int n_bytes = drv_data->n_bytes; int loop = 0; /* wait until transfer finished. */ while (!(read_STAT(drv_data) & BIT_STAT_RXS)) cpu_relax(); if ((drv_data->tx && drv_data->tx >= drv_data->tx_end) || (drv_data->rx && drv_data->rx >= (drv_data->rx_end - n_bytes))) { /* last read */ if (drv_data->rx) { dev_dbg(&drv_data->pdev->dev, "last read\n"); if (n_bytes % 2) { u16 *buf = (u16 *)drv_data->rx; for (loop = 0; loop < n_bytes / 2; loop++) *buf++ = read_RDBR(drv_data); } else { u8 *buf = (u8 *)drv_data->rx; for (loop = 0; loop < n_bytes; loop++) *buf++ = read_RDBR(drv_data); } drv_data->rx += n_bytes; } msg->actual_length += drv_data->len_in_bytes; if (drv_data->cs_change) bfin_spi_cs_deactive(drv_data, chip); /* Move to next transfer */ msg->state = bfin_spi_next_transfer(drv_data); disable_irq_nosync(drv_data->spi_irq); /* Schedule transfer tasklet */ tasklet_schedule(&drv_data->pump_transfers); return IRQ_HANDLED; } if (drv_data->rx && drv_data->tx) { /* duplex */ dev_dbg(&drv_data->pdev->dev, "duplex: write_TDBR\n"); if (n_bytes % 2) { u16 *buf = (u16 *)drv_data->rx; u16 *buf2 = (u16 *)drv_data->tx; for (loop = 0; loop < n_bytes / 2; loop++) { *buf++ = read_RDBR(drv_data); write_TDBR(drv_data, *buf2++); } } else { u8 *buf = (u8 *)drv_data->rx; u8 *buf2 = (u8 *)drv_data->tx; for (loop = 0; loop < n_bytes; loop++) { *buf++ = read_RDBR(drv_data); write_TDBR(drv_data, *buf2++); } } } else if (drv_data->rx) { /* read */ dev_dbg(&drv_data->pdev->dev, "read: write_TDBR\n"); if (n_bytes % 2) { u16 *buf = (u16 *)drv_data->rx; for (loop = 0; loop < n_bytes / 2; loop++) { *buf++ = read_RDBR(drv_data); write_TDBR(drv_data, chip->idle_tx_val); } } else { u8 *buf = (u8 *)drv_data->rx; for (loop = 0; loop < n_bytes; loop++) { *buf++ = read_RDBR(drv_data); write_TDBR(drv_data, chip->idle_tx_val); } } } else if (drv_data->tx) { /* write */ dev_dbg(&drv_data->pdev->dev, "write: write_TDBR\n"); if (n_bytes % 2) { u16 *buf = (u16 *)drv_data->tx; for (loop = 0; loop < n_bytes / 2; loop++) { read_RDBR(drv_data); write_TDBR(drv_data, *buf++); } } else { u8 *buf = (u8 *)drv_data->tx; for (loop = 0; loop < n_bytes; loop++) { read_RDBR(drv_data); write_TDBR(drv_data, *buf++); } } } if (drv_data->tx) drv_data->tx += n_bytes; if (drv_data->rx) drv_data->rx += n_bytes; return IRQ_HANDLED; } static irqreturn_t bfin_spi_dma_irq_handler(int irq, void *dev_id) { struct bfin_spi_master_data *drv_data = dev_id; struct bfin_spi_slave_data *chip = drv_data->cur_chip; struct spi_message *msg = drv_data->cur_msg; unsigned long timeout; unsigned short dmastat = get_dma_curr_irqstat(drv_data->dma_channel); u16 spistat = read_STAT(drv_data); dev_dbg(&drv_data->pdev->dev, "in dma_irq_handler dmastat:0x%x spistat:0x%x\n", dmastat, spistat); if (drv_data->rx != NULL) { u16 cr = read_CTRL(drv_data); /* discard old RX data and clear RXS */ bfin_spi_dummy_read(drv_data); write_CTRL(drv_data, cr & ~BIT_CTL_ENABLE); /* Disable SPI */ write_CTRL(drv_data, cr & ~BIT_CTL_TIMOD); /* Restore State */ write_STAT(drv_data, BIT_STAT_CLR); /* Clear Status */ } clear_dma_irqstat(drv_data->dma_channel); /* * wait for the last transaction shifted out. HRM states: * at this point there may still be data in the SPI DMA FIFO waiting * to be transmitted ... software needs to poll TXS in the SPI_STAT * register until it goes low for 2 successive reads */ if (drv_data->tx != NULL) { while ((read_STAT(drv_data) & BIT_STAT_TXS) || (read_STAT(drv_data) & BIT_STAT_TXS)) cpu_relax(); } dev_dbg(&drv_data->pdev->dev, "in dma_irq_handler dmastat:0x%x spistat:0x%x\n", dmastat, read_STAT(drv_data)); timeout = jiffies + HZ; while (!(read_STAT(drv_data) & BIT_STAT_SPIF)) if (!time_before(jiffies, timeout)) { dev_warn(&drv_data->pdev->dev, "timeout waiting for SPIF"); break; } else cpu_relax(); if ((dmastat & DMA_ERR) && (spistat & BIT_STAT_RBSY)) { msg->state = ERROR_STATE; dev_err(&drv_data->pdev->dev, "dma receive: fifo/buffer overflow\n"); } else { msg->actual_length += drv_data->len_in_bytes; if (drv_data->cs_change) bfin_spi_cs_deactive(drv_data, chip); /* Move to next transfer */ msg->state = bfin_spi_next_transfer(drv_data); } /* Schedule transfer tasklet */ tasklet_schedule(&drv_data->pump_transfers); /* free the irq handler before next transfer */ dev_dbg(&drv_data->pdev->dev, "disable dma channel irq%d\n", drv_data->dma_channel); dma_disable_irq_nosync(drv_data->dma_channel); return IRQ_HANDLED; } static void bfin_spi_pump_transfers(unsigned long data) { struct bfin_spi_master_data *drv_data = (struct bfin_spi_master_data *)data; struct spi_message *message = NULL; struct spi_transfer *transfer = NULL; struct spi_transfer *previous = NULL; struct bfin_spi_slave_data *chip = NULL; unsigned int bits_per_word; u16 cr, cr_width, dma_width, dma_config; u32 tranf_success = 1; u8 full_duplex = 0; /* Get current state information */ message = drv_data->cur_msg; transfer = drv_data->cur_transfer; chip = drv_data->cur_chip; /* * if msg is error or done, report it back using complete() callback */ /* Handle for abort */ if (message->state == ERROR_STATE) { dev_dbg(&drv_data->pdev->dev, "transfer: we've hit an error\n"); message->status = -EIO; bfin_spi_giveback(drv_data); return; } /* Handle end of message */ if (message->state == DONE_STATE) { dev_dbg(&drv_data->pdev->dev, "transfer: all done!\n"); message->status = 0; bfin_spi_giveback(drv_data); return; } /* Delay if requested at end of transfer */ if (message->state == RUNNING_STATE) { dev_dbg(&drv_data->pdev->dev, "transfer: still running ...\n"); previous = list_entry(transfer->transfer_list.prev, struct spi_transfer, transfer_list); if (previous->delay_usecs) udelay(previous->delay_usecs); } /* Flush any existing transfers that may be sitting in the hardware */ if (bfin_spi_flush(drv_data) == 0) { dev_err(&drv_data->pdev->dev, "pump_transfers: flush failed\n"); message->status = -EIO; bfin_spi_giveback(drv_data); return; } if (transfer->len == 0) { /* Move to next transfer of this msg */ message->state = bfin_spi_next_transfer(drv_data); /* Schedule next transfer tasklet */ tasklet_schedule(&drv_data->pump_transfers); return; } if (transfer->tx_buf != NULL) { drv_data->tx = (void *)transfer->tx_buf; drv_data->tx_end = drv_data->tx + transfer->len; dev_dbg(&drv_data->pdev->dev, "tx_buf is %p, tx_end is %p\n", transfer->tx_buf, drv_data->tx_end); } else { drv_data->tx = NULL; } if (transfer->rx_buf != NULL) { full_duplex = transfer->tx_buf != NULL; drv_data->rx = transfer->rx_buf; drv_data->rx_end = drv_data->rx + transfer->len; dev_dbg(&drv_data->pdev->dev, "rx_buf is %p, rx_end is %p\n", transfer->rx_buf, drv_data->rx_end); } else { drv_data->rx = NULL; } drv_data->rx_dma = transfer->rx_dma; drv_data->tx_dma = transfer->tx_dma; drv_data->len_in_bytes = transfer->len; drv_data->cs_change = transfer->cs_change; /* Bits per word setup */ bits_per_word = transfer->bits_per_word ? : message->spi->bits_per_word ? : 8; if (bits_per_word % 16 == 0) { drv_data->n_bytes = bits_per_word/8; drv_data->len = (transfer->len) >> 1; cr_width = BIT_CTL_WORDSIZE; drv_data->ops = &bfin_bfin_spi_transfer_ops_u16; } else if (bits_per_word % 8 == 0) { drv_data->n_bytes = bits_per_word/8; drv_data->len = transfer->len; cr_width = 0; drv_data->ops = &bfin_bfin_spi_transfer_ops_u8; } else { dev_err(&drv_data->pdev->dev, "transfer: unsupported bits_per_word\n"); message->status = -EINVAL; bfin_spi_giveback(drv_data); return; } cr = read_CTRL(drv_data) & ~(BIT_CTL_TIMOD | BIT_CTL_WORDSIZE); cr |= cr_width; write_CTRL(drv_data, cr); dev_dbg(&drv_data->pdev->dev, "transfer: drv_data->ops is %p, chip->ops is %p, u8_ops is %p\n", drv_data->ops, chip->ops, &bfin_bfin_spi_transfer_ops_u8); message->state = RUNNING_STATE; dma_config = 0; /* Speed setup (surely valid because already checked) */ if (transfer->speed_hz) write_BAUD(drv_data, hz_to_spi_baud(transfer->speed_hz)); else write_BAUD(drv_data, chip->baud); write_STAT(drv_data, BIT_STAT_CLR); bfin_spi_cs_active(drv_data, chip); dev_dbg(&drv_data->pdev->dev, "now pumping a transfer: width is %d, len is %d\n", cr_width, transfer->len); /* * Try to map dma buffer and do a dma transfer. If successful use, * different way to r/w according to the enable_dma settings and if * we are not doing a full duplex transfer (since the hardware does * not support full duplex DMA transfers). */ if (!full_duplex && drv_data->cur_chip->enable_dma && drv_data->len > 6) { unsigned long dma_start_addr, flags; disable_dma(drv_data->dma_channel); clear_dma_irqstat(drv_data->dma_channel); /* config dma channel */ dev_dbg(&drv_data->pdev->dev, "doing dma transfer\n"); set_dma_x_count(drv_data->dma_channel, drv_data->len); if (cr_width == BIT_CTL_WORDSIZE) { set_dma_x_modify(drv_data->dma_channel, 2); dma_width = WDSIZE_16; } else { set_dma_x_modify(drv_data->dma_channel, 1); dma_width = WDSIZE_8; } /* poll for SPI completion before start */ while (!(read_STAT(drv_data) & BIT_STAT_SPIF)) cpu_relax(); /* dirty hack for autobuffer DMA mode */ if (drv_data->tx_dma == 0xFFFF) { dev_dbg(&drv_data->pdev->dev, "doing autobuffer DMA out.\n"); /* no irq in autobuffer mode */ dma_config = (DMAFLOW_AUTO | RESTART | dma_width | DI_EN); set_dma_config(drv_data->dma_channel, dma_config); set_dma_start_addr(drv_data->dma_channel, (unsigned long)drv_data->tx); enable_dma(drv_data->dma_channel); /* start SPI transfer */ write_CTRL(drv_data, cr | BIT_CTL_TIMOD_DMA_TX); /* just return here, there can only be one transfer * in this mode */ message->status = 0; bfin_spi_giveback(drv_data); return; } /* In dma mode, rx or tx must be NULL in one transfer */ dma_config = (RESTART | dma_width | DI_EN); if (drv_data->rx != NULL) { /* set transfer mode, and enable SPI */ dev_dbg(&drv_data->pdev->dev, "doing DMA in to %p (size %zx)\n", drv_data->rx, drv_data->len_in_bytes); /* invalidate caches, if needed */ if (bfin_addr_dcacheable((unsigned long) drv_data->rx)) invalidate_dcache_range((unsigned long) drv_data->rx, (unsigned long) (drv_data->rx + drv_data->len_in_bytes)); dma_config |= WNR; dma_start_addr = (unsigned long)drv_data->rx; cr |= BIT_CTL_TIMOD_DMA_RX | BIT_CTL_SENDOPT; } else if (drv_data->tx != NULL) { dev_dbg(&drv_data->pdev->dev, "doing DMA out.\n"); /* flush caches, if needed */ if (bfin_addr_dcacheable((unsigned long) drv_data->tx)) flush_dcache_range((unsigned long) drv_data->tx, (unsigned long) (drv_data->tx + drv_data->len_in_bytes)); dma_start_addr = (unsigned long)drv_data->tx; cr |= BIT_CTL_TIMOD_DMA_TX; } else BUG(); /* oh man, here there be monsters ... and i dont mean the * fluffy cute ones from pixar, i mean the kind that'll eat * your data, kick your dog, and love it all. do *not* try * and change these lines unless you (1) heavily test DMA * with SPI flashes on a loaded system (e.g. ping floods), * (2) know just how broken the DMA engine interaction with * the SPI peripheral is, and (3) have someone else to blame * when you screw it all up anyways. */ set_dma_start_addr(drv_data->dma_channel, dma_start_addr); set_dma_config(drv_data->dma_channel, dma_config); local_irq_save(flags); SSYNC(); write_CTRL(drv_data, cr); enable_dma(drv_data->dma_channel); dma_enable_irq(drv_data->dma_channel); local_irq_restore(flags); return; } /* * We always use SPI_WRITE mode (transfer starts with TDBR write). * SPI_READ mode (transfer starts with RDBR read) seems to have * problems with setting up the output value in TDBR prior to the * start of the transfer. */ write_CTRL(drv_data, cr | BIT_CTL_TXMOD); if (chip->pio_interrupt) { /* SPI irq should have been disabled by now */ /* discard old RX data and clear RXS */ bfin_spi_dummy_read(drv_data); /* start transfer */ if (drv_data->tx == NULL) write_TDBR(drv_data, chip->idle_tx_val); else { int loop; if (bits_per_word % 16 == 0) { u16 *buf = (u16 *)drv_data->tx; for (loop = 0; loop < bits_per_word / 16; loop++) { write_TDBR(drv_data, *buf++); } } else if (bits_per_word % 8 == 0) { u8 *buf = (u8 *)drv_data->tx; for (loop = 0; loop < bits_per_word / 8; loop++) write_TDBR(drv_data, *buf++); } drv_data->tx += drv_data->n_bytes; } /* once TDBR is empty, interrupt is triggered */ enable_irq(drv_data->spi_irq); return; } /* IO mode */ dev_dbg(&drv_data->pdev->dev, "doing IO transfer\n"); if (full_duplex) { /* full duplex mode */ BUG_ON((drv_data->tx_end - drv_data->tx) != (drv_data->rx_end - drv_data->rx)); dev_dbg(&drv_data->pdev->dev, "IO duplex: cr is 0x%x\n", cr); drv_data->ops->duplex(drv_data); if (drv_data->tx != drv_data->tx_end) tranf_success = 0; } else if (drv_data->tx != NULL) { /* write only half duplex */ dev_dbg(&drv_data->pdev->dev, "IO write: cr is 0x%x\n", cr); drv_data->ops->write(drv_data); if (drv_data->tx != drv_data->tx_end) tranf_success = 0; } else if (drv_data->rx != NULL) { /* read only half duplex */ dev_dbg(&drv_data->pdev->dev, "IO read: cr is 0x%x\n", cr); drv_data->ops->read(drv_data); if (drv_data->rx != drv_data->rx_end) tranf_success = 0; } if (!tranf_success) { dev_dbg(&drv_data->pdev->dev, "IO write error!\n"); message->state = ERROR_STATE; } else { /* Update total byte transferred */ message->actual_length += drv_data->len_in_bytes; /* Move to next transfer of this msg */ message->state = bfin_spi_next_transfer(drv_data); if (drv_data->cs_change) bfin_spi_cs_deactive(drv_data, chip); } /* Schedule next transfer tasklet */ tasklet_schedule(&drv_data->pump_transfers); } /* pop a msg from queue and kick off real transfer */ static void bfin_spi_pump_messages(struct work_struct *work) { struct bfin_spi_master_data *drv_data; unsigned long flags; drv_data = container_of(work, struct bfin_spi_master_data, pump_messages); /* Lock queue and check for queue work */ spin_lock_irqsave(&drv_data->lock, flags); if (list_empty(&drv_data->queue) || !drv_data->running) { /* pumper kicked off but no work to do */ drv_data->busy = 0; spin_unlock_irqrestore(&drv_data->lock, flags); return; } /* Make sure we are not already running a message */ if (drv_data->cur_msg) { spin_unlock_irqrestore(&drv_data->lock, flags); return; } /* Extract head of queue */ drv_data->cur_msg = list_entry(drv_data->queue.next, struct spi_message, queue); /* Setup the SSP using the per chip configuration */ drv_data->cur_chip = spi_get_ctldata(drv_data->cur_msg->spi); bfin_spi_restore_state(drv_data); list_del_init(&drv_data->cur_msg->queue); /* Initial message state */ drv_data->cur_msg->state = START_STATE; drv_data->cur_transfer = list_entry(drv_data->cur_msg->transfers.next, struct spi_transfer, transfer_list); dev_dbg(&drv_data->pdev->dev, "got a message to pump, " "state is set to: baud %d, flag 0x%x, ctl 0x%x\n", drv_data->cur_chip->baud, drv_data->cur_chip->flag, drv_data->cur_chip->ctl_reg); dev_dbg(&drv_data->pdev->dev, "the first transfer len is %d\n", drv_data->cur_transfer->len); /* Mark as busy and launch transfers */ tasklet_schedule(&drv_data->pump_transfers); drv_data->busy = 1; spin_unlock_irqrestore(&drv_data->lock, flags); } /* * got a msg to transfer, queue it in drv_data->queue. * And kick off message pumper */ static int bfin_spi_transfer(struct spi_device *spi, struct spi_message *msg) { struct bfin_spi_master_data *drv_data = spi_master_get_devdata(spi->master); unsigned long flags; spin_lock_irqsave(&drv_data->lock, flags); if (!drv_data->running) { spin_unlock_irqrestore(&drv_data->lock, flags); return -ESHUTDOWN; } msg->actual_length = 0; msg->status = -EINPROGRESS; msg->state = START_STATE; dev_dbg(&spi->dev, "adding an msg in transfer() \n"); list_add_tail(&msg->queue, &drv_data->queue); if (drv_data->running && !drv_data->busy) queue_work(drv_data->workqueue, &drv_data->pump_messages); spin_unlock_irqrestore(&drv_data->lock, flags); return 0; } #define MAX_SPI_SSEL 7 static u16 ssel[][MAX_SPI_SSEL] = { {P_SPI0_SSEL1, P_SPI0_SSEL2, P_SPI0_SSEL3, P_SPI0_SSEL4, P_SPI0_SSEL5, P_SPI0_SSEL6, P_SPI0_SSEL7}, {P_SPI1_SSEL1, P_SPI1_SSEL2, P_SPI1_SSEL3, P_SPI1_SSEL4, P_SPI1_SSEL5, P_SPI1_SSEL6, P_SPI1_SSEL7}, {P_SPI2_SSEL1, P_SPI2_SSEL2, P_SPI2_SSEL3, P_SPI2_SSEL4, P_SPI2_SSEL5, P_SPI2_SSEL6, P_SPI2_SSEL7}, }; /* setup for devices (may be called multiple times -- not just first setup) */ static int bfin_spi_setup(struct spi_device *spi) { struct bfin5xx_spi_chip *chip_info; struct bfin_spi_slave_data *chip = NULL; struct bfin_spi_master_data *drv_data = spi_master_get_devdata(spi->master); u16 bfin_ctl_reg; int ret = -EINVAL; /* Only alloc (or use chip_info) on first setup */ chip_info = NULL; chip = spi_get_ctldata(spi); if (chip == NULL) { chip = kzalloc(sizeof(*chip), GFP_KERNEL); if (!chip) { dev_err(&spi->dev, "cannot allocate chip data\n"); ret = -ENOMEM; goto error; } chip->enable_dma = 0; chip_info = spi->controller_data; } /* Let people set non-standard bits directly */ bfin_ctl_reg = BIT_CTL_OPENDRAIN | BIT_CTL_EMISO | BIT_CTL_PSSE | BIT_CTL_GM | BIT_CTL_SZ; /* chip_info isn't always needed */ if (chip_info) { /* Make sure people stop trying to set fields via ctl_reg * when they should actually be using common SPI framework. * Currently we let through: WOM EMISO PSSE GM SZ. * Not sure if a user actually needs/uses any of these, * but let's assume (for now) they do. */ if (chip_info->ctl_reg & ~bfin_ctl_reg) { dev_err(&spi->dev, "do not set bits in ctl_reg " "that the SPI framework manages\n"); goto error; } chip->enable_dma = chip_info->enable_dma != 0 && drv_data->master_info->enable_dma; chip->ctl_reg = chip_info->ctl_reg; chip->cs_chg_udelay = chip_info->cs_chg_udelay; chip->idle_tx_val = chip_info->idle_tx_val; chip->pio_interrupt = chip_info->pio_interrupt; spi->bits_per_word = chip_info->bits_per_word; } else { /* force a default base state */ chip->ctl_reg &= bfin_ctl_reg; } if (spi->bits_per_word % 8) { dev_err(&spi->dev, "%d bits_per_word is not supported\n", spi->bits_per_word); goto error; } /* translate common spi framework into our register */ if (spi->mode & ~(SPI_CPOL | SPI_CPHA | SPI_LSB_FIRST)) { dev_err(&spi->dev, "unsupported spi modes detected\n"); goto error; } if (spi->mode & SPI_CPOL) chip->ctl_reg |= BIT_CTL_CPOL; if (spi->mode & SPI_CPHA) chip->ctl_reg |= BIT_CTL_CPHA; if (spi->mode & SPI_LSB_FIRST) chip->ctl_reg |= BIT_CTL_LSBF; /* we dont support running in slave mode (yet?) */ chip->ctl_reg |= BIT_CTL_MASTER; /* * Notice: for blackfin, the speed_hz is the value of register * SPI_BAUD, not the real baudrate */ chip->baud = hz_to_spi_baud(spi->max_speed_hz); chip->chip_select_num = spi->chip_select; if (chip->chip_select_num < MAX_CTRL_CS) { if (!(spi->mode & SPI_CPHA)) dev_warn(&spi->dev, "Warning: SPI CPHA not set:" " Slave Select not under software control!\n" " See Documentation/blackfin/bfin-spi-notes.txt"); chip->flag = (1 << spi->chip_select) << 8; } else chip->cs_gpio = chip->chip_select_num - MAX_CTRL_CS; if (chip->enable_dma && chip->pio_interrupt) { dev_err(&spi->dev, "enable_dma is set, " "do not set pio_interrupt\n"); goto error; } /* * if any one SPI chip is registered and wants DMA, request the * DMA channel for it */ if (chip->enable_dma && !drv_data->dma_requested) { /* register dma irq handler */ ret = request_dma(drv_data->dma_channel, "BFIN_SPI_DMA"); if (ret) { dev_err(&spi->dev, "Unable to request BlackFin SPI DMA channel\n"); goto error; } drv_data->dma_requested = 1; ret = set_dma_callback(drv_data->dma_channel, bfin_spi_dma_irq_handler, drv_data); if (ret) { dev_err(&spi->dev, "Unable to set dma callback\n"); goto error; } dma_disable_irq(drv_data->dma_channel); } if (chip->pio_interrupt && !drv_data->irq_requested) { ret = request_irq(drv_data->spi_irq, bfin_spi_pio_irq_handler, IRQF_DISABLED, "BFIN_SPI", drv_data); if (ret) { dev_err(&spi->dev, "Unable to register spi IRQ\n"); goto error; } drv_data->irq_requested = 1; /* we use write mode, spi irq has to be disabled here */ disable_irq(drv_data->spi_irq); } if (chip->chip_select_num >= MAX_CTRL_CS) { /* Only request on first setup */ if (spi_get_ctldata(spi) == NULL) { ret = gpio_request(chip->cs_gpio, spi->modalias); if (ret) { dev_err(&spi->dev, "gpio_request() error\n"); goto pin_error; } gpio_direction_output(chip->cs_gpio, 1); } } dev_dbg(&spi->dev, "setup spi chip %s, width is %d, dma is %d\n", spi->modalias, spi->bits_per_word, chip->enable_dma); dev_dbg(&spi->dev, "ctl_reg is 0x%x, flag_reg is 0x%x\n", chip->ctl_reg, chip->flag); spi_set_ctldata(spi, chip); dev_dbg(&spi->dev, "chip select number is %d\n", chip->chip_select_num); if (chip->chip_select_num < MAX_CTRL_CS) { ret = peripheral_request(ssel[spi->master->bus_num] [chip->chip_select_num-1], spi->modalias); if (ret) { dev_err(&spi->dev, "peripheral_request() error\n"); goto pin_error; } } bfin_spi_cs_enable(drv_data, chip); bfin_spi_cs_deactive(drv_data, chip); return 0; pin_error: if (chip->chip_select_num >= MAX_CTRL_CS) gpio_free(chip->cs_gpio); else peripheral_free(ssel[spi->master->bus_num] [chip->chip_select_num - 1]); error: if (chip) { if (drv_data->dma_requested) free_dma(drv_data->dma_channel); drv_data->dma_requested = 0; kfree(chip); /* prevent free 'chip' twice */ spi_set_ctldata(spi, NULL); } return ret; } /* * callback for spi framework. * clean driver specific data */ static void bfin_spi_cleanup(struct spi_device *spi) { struct bfin_spi_slave_data *chip = spi_get_ctldata(spi); struct bfin_spi_master_data *drv_data = spi_master_get_devdata(spi->master); if (!chip) return; if (chip->chip_select_num < MAX_CTRL_CS) { peripheral_free(ssel[spi->master->bus_num] [chip->chip_select_num-1]); bfin_spi_cs_disable(drv_data, chip); } else gpio_free(chip->cs_gpio); kfree(chip); /* prevent free 'chip' twice */ spi_set_ctldata(spi, NULL); } static inline int bfin_spi_init_queue(struct bfin_spi_master_data *drv_data) { INIT_LIST_HEAD(&drv_data->queue); spin_lock_init(&drv_data->lock); drv_data->running = false; drv_data->busy = 0; /* init transfer tasklet */ tasklet_init(&drv_data->pump_transfers, bfin_spi_pump_transfers, (unsigned long)drv_data); /* init messages workqueue */ INIT_WORK(&drv_data->pump_messages, bfin_spi_pump_messages); drv_data->workqueue = create_singlethread_workqueue( dev_name(drv_data->master->dev.parent)); if (drv_data->workqueue == NULL) return -EBUSY; return 0; } static inline int bfin_spi_start_queue(struct bfin_spi_master_data *drv_data) { unsigned long flags; spin_lock_irqsave(&drv_data->lock, flags); if (drv_data->running || drv_data->busy) { spin_unlock_irqrestore(&drv_data->lock, flags); return -EBUSY; } drv_data->running = true; drv_data->cur_msg = NULL; drv_data->cur_transfer = NULL; drv_data->cur_chip = NULL; spin_unlock_irqrestore(&drv_data->lock, flags); queue_work(drv_data->workqueue, &drv_data->pump_messages); return 0; } static inline int bfin_spi_stop_queue(struct bfin_spi_master_data *drv_data) { unsigned long flags; unsigned limit = 500; int status = 0; spin_lock_irqsave(&drv_data->lock, flags); /* * This is a bit lame, but is optimized for the common execution path. * A wait_queue on the drv_data->busy could be used, but then the common * execution path (pump_messages) would be required to call wake_up or * friends on every SPI message. Do this instead */ drv_data->running = false; while ((!list_empty(&drv_data->queue) || drv_data->busy) && limit--) { spin_unlock_irqrestore(&drv_data->lock, flags); msleep(10); spin_lock_irqsave(&drv_data->lock, flags); } if (!list_empty(&drv_data->queue) || drv_data->busy) status = -EBUSY; spin_unlock_irqrestore(&drv_data->lock, flags); return status; } static inline int bfin_spi_destroy_queue(struct bfin_spi_master_data *drv_data) { int status; status = bfin_spi_stop_queue(drv_data); if (status != 0) return status; destroy_workqueue(drv_data->workqueue); return 0; } static int __init bfin_spi_probe(struct platform_device *pdev) { struct device *dev = &pdev->dev; struct bfin5xx_spi_master *platform_info; struct spi_master *master; struct bfin_spi_master_data *drv_data; struct resource *res; int status = 0; platform_info = dev->platform_data; /* Allocate master with space for drv_data */ master = spi_alloc_master(dev, sizeof(*drv_data)); if (!master) { dev_err(&pdev->dev, "can not alloc spi_master\n"); return -ENOMEM; } drv_data = spi_master_get_devdata(master); drv_data->master = master; drv_data->master_info = platform_info; drv_data->pdev = pdev; drv_data->pin_req = platform_info->pin_req; /* the spi->mode bits supported by this driver: */ master->mode_bits = SPI_CPOL | SPI_CPHA | SPI_LSB_FIRST; master->bus_num = pdev->id; master->num_chipselect = platform_info->num_chipselect; master->cleanup = bfin_spi_cleanup; master->setup = bfin_spi_setup; master->transfer = bfin_spi_transfer; /* Find and map our resources */ res = platform_get_resource(pdev, IORESOURCE_MEM, 0); if (res == NULL) { dev_err(dev, "Cannot get IORESOURCE_MEM\n"); status = -ENOENT; goto out_error_get_res; } drv_data->regs_base = ioremap(res->start, resource_size(res)); if (drv_data->regs_base == NULL) { dev_err(dev, "Cannot map IO\n"); status = -ENXIO; goto out_error_ioremap; } res = platform_get_resource(pdev, IORESOURCE_DMA, 0); if (res == NULL) { dev_err(dev, "No DMA channel specified\n"); status = -ENOENT; goto out_error_free_io; } drv_data->dma_channel = res->start; drv_data->spi_irq = platform_get_irq(pdev, 0); if (drv_data->spi_irq < 0) { dev_err(dev, "No spi pio irq specified\n"); status = -ENOENT; goto out_error_free_io; } /* Initial and start queue */ status = bfin_spi_init_queue(drv_data); if (status != 0) { dev_err(dev, "problem initializing queue\n"); goto out_error_queue_alloc; } status = bfin_spi_start_queue(drv_data); if (status != 0) { dev_err(dev, "problem starting queue\n"); goto out_error_queue_alloc; } status = peripheral_request_list(drv_data->pin_req, DRV_NAME); if (status != 0) { dev_err(&pdev->dev, ": Requesting Peripherals failed\n"); goto out_error_queue_alloc; } /* Reset SPI registers. If these registers were used by the boot loader, * the sky may fall on your head if you enable the dma controller. */ write_CTRL(drv_data, BIT_CTL_CPHA | BIT_CTL_MASTER); write_FLAG(drv_data, 0xFF00); /* Register with the SPI framework */ platform_set_drvdata(pdev, drv_data); status = spi_register_master(master); if (status != 0) { dev_err(dev, "problem registering spi master\n"); goto out_error_queue_alloc; } dev_info(dev, "%s, Version %s, regs_base@%p, dma channel@%d\n", DRV_DESC, DRV_VERSION, drv_data->regs_base, drv_data->dma_channel); return status; out_error_queue_alloc: bfin_spi_destroy_queue(drv_data); out_error_free_io: iounmap((void *) drv_data->regs_base); out_error_ioremap: out_error_get_res: spi_master_put(master); return status; } /* stop hardware and remove the driver */ static int __devexit bfin_spi_remove(struct platform_device *pdev) { struct bfin_spi_master_data *drv_data = platform_get_drvdata(pdev); int status = 0; if (!drv_data) return 0; /* Remove the queue */ status = bfin_spi_destroy_queue(drv_data); if (status != 0) return status; /* Disable the SSP at the peripheral and SOC level */ bfin_spi_disable(drv_data); /* Release DMA */ if (drv_data->master_info->enable_dma) { if (dma_channel_active(drv_data->dma_channel)) free_dma(drv_data->dma_channel); } if (drv_data->irq_requested) { free_irq(drv_data->spi_irq, drv_data); drv_data->irq_requested = 0; } /* Disconnect from the SPI framework */ spi_unregister_master(drv_data->master); peripheral_free_list(drv_data->pin_req); /* Prevent double remove */ platform_set_drvdata(pdev, NULL); return 0; } #ifdef CONFIG_PM static int bfin_spi_suspend(struct platform_device *pdev, pm_message_t state) { struct bfin_spi_master_data *drv_data = platform_get_drvdata(pdev); int status = 0; status = bfin_spi_stop_queue(drv_data); if (status != 0) return status; drv_data->ctrl_reg = read_CTRL(drv_data); drv_data->flag_reg = read_FLAG(drv_data); /* * reset SPI_CTL and SPI_FLG registers */ write_CTRL(drv_data, BIT_CTL_CPHA | BIT_CTL_MASTER); write_FLAG(drv_data, 0xFF00); return 0; } static int bfin_spi_resume(struct platform_device *pdev) { struct bfin_spi_master_data *drv_data = platform_get_drvdata(pdev); int status = 0; write_CTRL(drv_data, drv_data->ctrl_reg); write_FLAG(drv_data, drv_data->flag_reg); /* Start the queue running */ status = bfin_spi_start_queue(drv_data); if (status != 0) { dev_err(&pdev->dev, "problem starting queue (%d)\n", status); return status; } return 0; } #else #define bfin_spi_suspend NULL #define bfin_spi_resume NULL #endif /* CONFIG_PM */ MODULE_ALIAS("platform:bfin-spi"); static struct platform_driver bfin_spi_driver = { .driver = { .name = DRV_NAME, .owner = THIS_MODULE, }, .suspend = bfin_spi_suspend, .resume = bfin_spi_resume, .remove = __devexit_p(bfin_spi_remove), }; static int __init bfin_spi_init(void) { return platform_driver_probe(&bfin_spi_driver, bfin_spi_probe); } subsys_initcall(bfin_spi_init); static void __exit bfin_spi_exit(void) { platform_driver_unregister(&bfin_spi_driver); } module_exit(bfin_spi_exit); |