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|
/*
* Freescale integrated PATA driver
*/
/*
* Copyright 2007-2010 Freescale Semiconductor, Inc. All Rights Reserved.
*/
/*
* The code contained herein is licensed under the GNU General Public
* License. You may obtain a copy of the GNU General Public License
* Version 2 or later at the following locations:
*
* http://www.opensource.org/licenses/gpl-license.html
* http://www.gnu.org/copyleft/gpl.html
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/init.h>
#include <linux/blkdev.h>
#include <scsi/scsi_host.h>
#include <linux/ata.h>
#include <linux/libata.h>
#include <linux/platform_device.h>
#include <linux/fsl_devices.h>
#include <linux/clk.h>
#include <linux/regulator/consumer.h>
#include <mach/dma.h>
#define DRV_NAME "pata_fsl"
struct pata_fsl_priv {
int ultra;
u8 *fsl_ata_regs;
struct clk *clk;
int dma_rchan;
int dma_wchan;
int dma_done;
int dma_dir;
unsigned int adma_des_paddr;
unsigned int *adma_des_tp;
};
struct adma_bd {
unsigned char *sg_buf;
unsigned char *work_buf;
unsigned int dma_address;
int length;
};
struct adma_bulk {
struct adma_bd adma_bd_table[64];
struct ata_queued_cmd *qc;
int sg_ents;
int reserved[2];
};
enum {
/* various constants */
FSL_ATA_MAX_SG_LEN = ATA_DMA_BOUNDARY << 1,
/* offsets to registers */
FSL_ATA_TIMING_REGS = 0x00,
FSL_ATA_FIFO_FILL = 0x20,
FSL_ATA_CONTROL = 0x24,
FSL_ATA_INT_PEND = 0x28,
FSL_ATA_INT_EN = 0x2C,
FSL_ATA_INT_CLEAR = 0x30,
FSL_ATA_FIFO_ALARM = 0x34,
FSL_ATA_ADMA_ERROR_STATUS = 0x38,
FSL_ATA_SYS_DMA_BADDR = 0x3C,
FSL_ATA_ADMA_SYS_ADDR = 0x40,
FSL_ATA_BLOCK_COUNT = 0x48,
FSL_ATA_BURST_LENGTH = 0x4C,
FSL_ATA_SECTOR_SIZE = 0x50,
FSL_ATA_DRIVE_DATA = 0xA0,
FSL_ATA_DRIVE_CONTROL = 0xD8,
/* bits within FSL_ATA_CONTROL */
FSL_ATA_CTRL_DMA_SRST = 0x1000,
FSL_ATA_CTRL_DMA_64ADMA = 0x800,
FSL_ATA_CTRL_DMA_32ADMA = 0x400,
FSL_ATA_CTRL_DMA_STAT_STOP = 0x200,
FSL_ATA_CTRL_DMA_ENABLE = 0x100,
FSL_ATA_CTRL_FIFO_RST_B = 0x80,
FSL_ATA_CTRL_ATA_RST_B = 0x40,
FSL_ATA_CTRL_FIFO_TX_EN = 0x20,
FSL_ATA_CTRL_FIFO_RCV_EN = 0x10,
FSL_ATA_CTRL_DMA_PENDING = 0x08,
FSL_ATA_CTRL_DMA_ULTRA = 0x04,
FSL_ATA_CTRL_DMA_WRITE = 0x02,
FSL_ATA_CTRL_IORDY_EN = 0x01,
/* bits within the interrupt control registers */
FSL_ATA_INTR_ATA_INTRQ1 = 0x80,
FSL_ATA_INTR_FIFO_UNDERFLOW = 0x40,
FSL_ATA_INTR_FIFO_OVERFLOW = 0x20,
FSL_ATA_INTR_CTRL_IDLE = 0x10,
FSL_ATA_INTR_ATA_INTRQ2 = 0x08,
FSL_ATA_INTR_DMA_ERR = 0x04,
FSL_ATA_INTR_DMA_TRANS_OVER = 0x02,
/* ADMA Addr Descriptor Attribute Filed */
FSL_ADMA_DES_ATTR_VALID = 0x01,
FSL_ADMA_DES_ATTR_END = 0x02,
FSL_ADMA_DES_ATTR_INT = 0x04,
FSL_ADMA_DES_ATTR_SET = 0x10,
FSL_ADMA_DES_ATTR_TRAN = 0x20,
FSL_ADMA_DES_ATTR_LINK = 0x30,
};
/*
* This structure contains the timing parameters for
* ATA bus timing in the 5 PIO modes. The timings
* are in nanoseconds, and are converted to clock
* cycles before being stored in the ATA controller
* timing registers.
*/
static struct {
short t0, t1, t2_8, t2_16, t2i, t4, t9, tA;
} pio_specs[] = {
[0] = {
.t0 = 600, .t1 = 70, .t2_8 = 290, .t2_16 = 165, .t2i = 0, .t4 =
30, .t9 = 20, .tA = 50,},
[1] = {
.t0 = 383, .t1 = 50, .t2_8 = 290, .t2_16 = 125, .t2i = 0, .t4 =
20, .t9 = 15, .tA = 50,},
[2] = {
.t0 = 240, .t1 = 30, .t2_8 = 290, .t2_16 = 100, .t2i = 0, .t4 =
15, .t9 = 10, .tA = 50,},
[3] = {
.t0 = 180, .t1 = 30, .t2_8 = 80, .t2_16 = 80, .t2i = 0, .t4 =
10, .t9 = 10, .tA = 50,},
[4] = {
.t0 = 120, .t1 = 25, .t2_8 = 70, .t2_16 = 70, .t2i = 0, .t4 =
10, .t9 = 10, .tA = 50,},
};
#define NR_PIO_SPECS (sizeof pio_specs / sizeof pio_specs[0])
/*
* This structure contains the timing parameters for
* ATA bus timing in the 3 MDMA modes. The timings
* are in nanoseconds, and are converted to clock
* cycles before being stored in the ATA controller
* timing registers.
*/
static struct {
short t0M, tD, tH, tJ, tKW, tM, tN, tJNH;
} mdma_specs[] = {
[0] = {
.t0M = 480, .tD = 215, .tH = 20, .tJ = 20, .tKW = 215, .tM = 50, .tN =
15, .tJNH = 20,},
[1] = {
.t0M = 150, .tD = 80, .tH = 15, .tJ = 5, .tKW = 50, .tM = 30, .tN =
10, .tJNH = 15,},
[2] = {
.t0M = 120, .tD = 70, .tH = 10, .tJ = 5, .tKW = 25, .tM = 25, .tN =
10, .tJNH = 10,},
};
#define NR_MDMA_SPECS (sizeof mdma_specs / sizeof mdma_specs[0])
/*
* This structure contains the timing parameters for
* ATA bus timing in the 6 UDMA modes. The timings
* are in nanoseconds, and are converted to clock
* cycles before being stored in the ATA controller
* timing registers.
*/
static struct {
short t2CYC, tCYC, tDS, tDH, tDVS, tDVH, tCVS, tCVH, tFS_min, tLI_max,
tMLI, tAZ, tZAH, tENV_min, tSR, tRFS, tRP, tACK, tSS, tDZFS;
} udma_specs[] = {
[0] = {
.t2CYC = 235, .tCYC = 114, .tDS = 15, .tDH = 5, .tDVS = 70, .tDVH =
6, .tCVS = 70, .tCVH = 6, .tFS_min = 0, .tLI_max =
100, .tMLI = 20, .tAZ = 10, .tZAH = 20, .tENV_min =
20, .tSR = 50, .tRFS = 75, .tRP = 160, .tACK = 20, .tSS =
50, .tDZFS = 80,},
[1] = {
.t2CYC = 156, .tCYC = 75, .tDS = 10, .tDH = 5, .tDVS = 48, .tDVH =
6, .tCVS = 48, .tCVH = 6, .tFS_min = 0, .tLI_max =
100, .tMLI = 20, .tAZ = 10, .tZAH = 20, .tENV_min =
20, .tSR = 30, .tRFS = 70, .tRP = 125, .tACK = 20, .tSS =
50, .tDZFS = 63,},
[2] = {
.t2CYC = 117, .tCYC = 55, .tDS = 7, .tDH = 5, .tDVS = 34, .tDVH =
6, .tCVS = 34, .tCVH = 6, .tFS_min = 0, .tLI_max =
100, .tMLI = 20, .tAZ = 10, .tZAH = 20, .tENV_min =
20, .tSR = 20, .tRFS = 60, .tRP = 100, .tACK = 20, .tSS =
50, .tDZFS = 47,},
[3] = {
.t2CYC = 86, .tCYC = 39, .tDS = 7, .tDH = 5, .tDVS = 20, .tDVH =
6, .tCVS = 20, .tCVH = 6, .tFS_min = 0, .tLI_max =
100, .tMLI = 20, .tAZ = 10, .tZAH = 20, .tENV_min =
20, .tSR = 20, .tRFS = 60, .tRP = 100, .tACK = 20, .tSS =
50, .tDZFS = 35,},
[4] = {
.t2CYC = 57, .tCYC = 25, .tDS = 5, .tDH = 5, .tDVS = 7, .tDVH =
6, .tCVS = 7, .tCVH = 6, .tFS_min = 0, .tLI_max =
100, .tMLI = 20, .tAZ = 10, .tZAH = 20, .tENV_min =
20, .tSR = 50, .tRFS = 60, .tRP = 100, .tACK = 20, .tSS =
50, .tDZFS = 25,},
[5] = {
.t2CYC = 38, .tCYC = 17, .tDS = 4, .tDH = 5, .tDVS = 5, .tDVH =
6, .tCVS = 10, .tCVH = 10, .tFS_min =
0, .tLI_max = 75, .tMLI = 20, .tAZ = 10, .tZAH =
20, .tENV_min = 20, .tSR = 20, .tRFS =
50, .tRP = 85, .tACK = 20, .tSS = 50, .tDZFS = 40,},
};
#define NR_UDMA_SPECS (sizeof udma_specs / sizeof udma_specs[0])
struct fsl_ata_time_regs {
u8 time_off, time_on, time_1, time_2w;
u8 time_2r, time_ax, time_pio_rdx, time_4;
u8 time_9, time_m, time_jn, time_d;
u8 time_k, time_ack, time_env, time_rpx;
u8 time_zah, time_mlix, time_dvh, time_dzfs;
u8 time_dvs, time_cvh, time_ss, time_cyc;
};
static struct regulator *io_reg;
static struct regulator *core_reg;
static struct adma_bulk adma_info;
static void
update_timing_config(struct fsl_ata_time_regs *tp, struct ata_host *host)
{
u32 *lp = (u32 *) tp;
struct pata_fsl_priv *priv = host->private_data;
u32 *ctlp = (u32 *) priv->fsl_ata_regs;
int i;
for (i = 0; i < 5; i++) {
__raw_writel(*lp, ctlp);
lp++;
ctlp++;
}
}
/*!
* Calculate values for the ATA bus timing registers and store
* them into the hardware.
*
* @param xfer_mode specifies XFER xfer_mode
* @param pdev specifies platform_device
*
* @return EINVAL speed out of range, or illegal mode
*/
static int set_ata_bus_timing(u8 xfer_mode, struct platform_device *pdev)
{
struct ata_host *host = dev_get_drvdata(&pdev->dev);
struct pata_fsl_priv *priv = host->private_data;
/* get the bus clock cycle time, in ns */
int T = 1 * 1000 * 1000 * 1000 / clk_get_rate(priv->clk);
struct fsl_ata_time_regs tr = { 0 };
/*
* every mode gets the same t_off and t_on
*/
tr.time_off = 3;
tr.time_on = 3;
if (xfer_mode >= XFER_UDMA_0) {
int speed = xfer_mode - XFER_UDMA_0;
if (speed >= NR_UDMA_SPECS)
return -EINVAL;
tr.time_ack = (udma_specs[speed].tACK + T) / T;
tr.time_env = (udma_specs[speed].tENV_min + T) / T;
tr.time_rpx = (udma_specs[speed].tRP + T) / T + 2;
tr.time_zah = (udma_specs[speed].tZAH + T) / T;
tr.time_mlix = (udma_specs[speed].tMLI + T) / T;
tr.time_dvh = (udma_specs[speed].tDVH + T) / T + 1;
tr.time_dzfs = (udma_specs[speed].tDZFS + T) / T;
tr.time_dvs = (udma_specs[speed].tDVS + T) / T;
tr.time_cvh = (udma_specs[speed].tCVH + T) / T;
tr.time_ss = (udma_specs[speed].tSS + T) / T;
tr.time_cyc = (udma_specs[speed].tCYC + T) / T;
} else if (xfer_mode >= XFER_MW_DMA_0) {
int speed = xfer_mode - XFER_MW_DMA_0;
if (speed >= NR_MDMA_SPECS)
return -EINVAL;
tr.time_m = (mdma_specs[speed].tM + T) / T;
tr.time_jn = (mdma_specs[speed].tJNH + T) / T;
tr.time_d = (mdma_specs[speed].tD + T) / T;
tr.time_k = (mdma_specs[speed].tKW + T) / T;
} else {
int speed = xfer_mode - XFER_PIO_0;
if (speed >= NR_PIO_SPECS)
return -EINVAL;
tr.time_1 = (pio_specs[speed].t1 + T) / T;
tr.time_2w = (pio_specs[speed].t2_8 + T) / T;
tr.time_2r = (pio_specs[speed].t2_8 + T) / T;
tr.time_ax = (pio_specs[speed].tA + T) / T + 2;
tr.time_pio_rdx = 1;
tr.time_4 = (pio_specs[speed].t4 + T) / T;
tr.time_9 = (pio_specs[speed].t9 + T) / T;
}
update_timing_config(&tr, host);
return 0;
}
static void pata_fsl_set_piomode(struct ata_port *ap, struct ata_device *adev)
{
set_ata_bus_timing(adev->pio_mode, to_platform_device(ap->dev));
}
static void pata_fsl_set_dmamode(struct ata_port *ap, struct ata_device *adev)
{
struct pata_fsl_priv *priv = ap->host->private_data;
priv->ultra = adev->dma_mode >= XFER_UDMA_0;
set_ata_bus_timing(adev->dma_mode, to_platform_device(ap->dev));
}
static int pata_fsl_port_start(struct ata_port *ap)
{
return 0;
}
static void pata_adma_bulk_unmap(struct ata_queued_cmd *qc)
{
int i;
struct adma_bd *bdp = adma_info.adma_bd_table;
if (adma_info.qc == NULL)
return;
BUG_ON(adma_info.qc != qc);
adma_info.qc = NULL;
for (i = 0; i < adma_info.sg_ents; i++) {
if (bdp->work_buf != bdp->sg_buf) {
if (qc->dma_dir == DMA_FROM_DEVICE) {
memcpy(bdp->sg_buf, bdp->work_buf, bdp->length);
dma_cache_maint(bdp->sg_buf, bdp->length,
DMA_FROM_DEVICE);
}
dma_free_coherent(qc->ap->dev, bdp->length,
bdp->work_buf, bdp->dma_address);
}
bdp->work_buf = bdp->sg_buf = NULL;
bdp++;
}
}
static int pata_adma_bulk_map(struct ata_queued_cmd *qc)
{
unsigned int si;
struct scatterlist *sg;
struct adma_bd *bdp = adma_info.adma_bd_table;
BUG_ON(adma_info.qc);
adma_info.qc = qc;
adma_info.sg_ents = 0;
for_each_sg(qc->sg, sg, qc->n_elem, si) {
/*
* The ADMA mode is used setup the ADMA descriptor table
*/
bdp->sg_buf = sg_virt(sg);
bdp->length = sg->length;
if (sg->dma_address & 0xFFF) {
bdp->work_buf =
dma_alloc_coherent(qc->ap->dev, bdp->length,
&bdp->dma_address, GFP_KERNEL);
if (!bdp->work_buf) {
printk(KERN_WARNING
"can not allocate aligned buffer\n");
goto fail;
}
if (qc->dma_dir == DMA_TO_DEVICE)
memcpy(bdp->work_buf, bdp->sg_buf, bdp->length);
} else {
bdp->work_buf = bdp->sg_buf;
bdp->dma_address = sg->dma_address;
}
adma_info.sg_ents++;
bdp++;
}
return 0;
fail:
pata_adma_bulk_unmap(qc);
return -1;
}
static void dma_callback(void *arg, int error_status, unsigned int count)
{
struct ata_port *ap = arg;
struct pata_fsl_priv *priv = ap->host->private_data;
u8 *ata_regs = priv->fsl_ata_regs;
priv->dma_done = 1;
/*
* DMA is finished, so unmask INTRQ from the drive to allow the
* normal ISR to fire.
*/
__raw_writel(FSL_ATA_INTR_ATA_INTRQ2, ata_regs + FSL_ATA_INT_EN);
}
static irqreturn_t pata_fsl_adma_intr(int irq, void *dev_instance)
{
struct ata_host *host = dev_instance;
struct pata_fsl_priv *priv = host->private_data;
u8 *ata_regs = priv->fsl_ata_regs;
unsigned int handled = 0;
unsigned int i;
unsigned long flags;
unsigned int pending = __raw_readl(ata_regs + FSL_ATA_INT_PEND);
if (FSL_ATA_INTR_DMA_TRANS_OVER & pending) {
priv->dma_done = 1;
__raw_writel(pending, ata_regs + FSL_ATA_INT_CLEAR);
handled = 1;
} else if (FSL_ATA_INTR_DMA_ERR & pending) {
printk(KERN_ERR "dma err status 0x%x ...\n",
__raw_readl(ata_regs + FSL_ATA_ADMA_ERROR_STATUS));
__raw_writel(pending, ata_regs + FSL_ATA_INT_CLEAR);
handled = 1;
i = __raw_readl(ata_regs + FSL_ATA_CONTROL) && 0xFF;
i |= FSL_ATA_CTRL_DMA_SRST | FSL_ATA_CTRL_DMA_32ADMA |
FSL_ATA_CTRL_DMA_ENABLE;
__raw_writel(i, ata_regs + FSL_ATA_CONTROL);
}
spin_lock_irqsave(&host->lock, flags);
for (i = 0; i < host->n_ports; i++) {
struct ata_port *ap;
ap = host->ports[i];
if (ap && !(ap->flags & ATA_FLAG_DISABLED)) {
struct ata_queued_cmd *qc;
qc = ata_qc_from_tag(ap, ap->link.active_tag);
raw_local_irq_restore(flags);
pata_adma_bulk_unmap(qc);
raw_local_irq_save(flags);
if (qc && (!(qc->tf.flags & ATA_TFLAG_POLLING)) &&
(qc->flags & ATA_QCFLAG_ACTIVE))
handled |= ata_sff_host_intr(ap, qc);
}
}
spin_unlock_irqrestore(&host->lock, flags);
return IRQ_RETVAL(handled);
}
static int pata_fsl_check_atapi_dma(struct ata_queued_cmd *qc)
{
return 1; /* ATAPI DMA not yet supported */
}
unsigned long pata_fsl_bmdma_mode_filter(struct ata_device *adev,
unsigned long xfer_mask)
{
/* Capability of the controller has been specified in the
* platform data. Do not filter any modes, just return
* the xfer_mask */
return xfer_mask;
}
static void pata_fsl_bmdma_setup(struct ata_queued_cmd *qc)
{
int chan, i;
int dma_mode = 0, dma_ultra;
u32 ata_control;
struct ata_port *ap = qc->ap;
struct pata_fsl_priv *priv = ap->host->private_data;
u8 *ata_regs = priv->fsl_ata_regs;
struct fsl_ata_platform_data *plat = ap->dev->platform_data;
int err;
unsigned int si;
priv->dma_dir = qc->dma_dir;
/*
* Configure the on-chip ATA interface hardware.
*/
dma_ultra = priv->ultra ? FSL_ATA_CTRL_DMA_ULTRA : 0;
ata_control = FSL_ATA_CTRL_FIFO_RST_B |
FSL_ATA_CTRL_ATA_RST_B | FSL_ATA_CTRL_DMA_PENDING | dma_ultra;
if (plat->adma_flag)
ata_control |= FSL_ATA_CTRL_DMA_32ADMA |
FSL_ATA_CTRL_DMA_ENABLE;
if (qc->dma_dir == DMA_TO_DEVICE) {
chan = priv->dma_wchan;
ata_control |= FSL_ATA_CTRL_FIFO_TX_EN | FSL_ATA_CTRL_DMA_WRITE;
dma_mode = MXC_DMA_MODE_WRITE;
} else {
chan = priv->dma_rchan;
ata_control |= FSL_ATA_CTRL_FIFO_RCV_EN;
dma_mode = MXC_DMA_MODE_READ;
}
__raw_writel(ata_control, ata_regs + FSL_ATA_CONTROL);
__raw_writel(plat->fifo_alarm, ata_regs + FSL_ATA_FIFO_ALARM);
if (plat->adma_flag) {
i = FSL_ATA_INTR_DMA_TRANS_OVER | FSL_ATA_INTR_DMA_ERR;
__raw_writel(FSL_ATA_INTR_ATA_INTRQ2 | i,
ata_regs + FSL_ATA_INT_EN);
} else {
__raw_writel(FSL_ATA_INTR_ATA_INTRQ1,
ata_regs + FSL_ATA_INT_EN);
/*
* Set up the DMA completion callback.
*/
mxc_dma_callback_set(chan, dma_callback, (void *)ap);
}
/*
* Copy the sg list to an array.
*/
if (plat->adma_flag) {
struct adma_bd *bdp = adma_info.adma_bd_table;
pata_adma_bulk_map(qc);
for (i = 0; i < adma_info.sg_ents; i++) {
priv->adma_des_tp[i << 1] = bdp->length << 12;
priv->adma_des_tp[i << 1] |= FSL_ADMA_DES_ATTR_SET;
priv->adma_des_tp[i << 1] |= FSL_ADMA_DES_ATTR_VALID;
priv->adma_des_tp[(i << 1) + 1] = bdp->dma_address;
priv->adma_des_tp[(i << 1) + 1] |=
FSL_ADMA_DES_ATTR_TRAN;
priv->adma_des_tp[(i << 1) + 1] |=
FSL_ADMA_DES_ATTR_VALID;
if (adma_info.sg_ents == (i + 1))
priv->adma_des_tp[(i << 1) + 1] |=
FSL_ADMA_DES_ATTR_END;
bdp++;
}
__raw_writel((qc->nbytes / qc->sect_size), ata_regs +
FSL_ATA_BLOCK_COUNT);
__raw_writel(plat->fifo_alarm, ata_regs + FSL_ATA_BURST_LENGTH);
__raw_writel(priv->adma_des_paddr,
ata_regs + FSL_ATA_ADMA_SYS_ADDR);
} else {
int nr_sg = 0;
struct scatterlist tmp[64], *tsg, *sg;
tsg = tmp;
for_each_sg(qc->sg, sg, qc->n_elem, si) {
memcpy(tsg, sg, sizeof(*sg));
tsg++;
nr_sg++;
}
err = mxc_dma_sg_config(chan, tmp, nr_sg, 0, dma_mode);
if (err)
printk(KERN_ERR "pata_fsl_bmdma_setup: error %d\n",
err);
}
}
static void pata_fsl_bmdma_start(struct ata_queued_cmd *qc)
{
struct ata_port *ap = qc->ap;
struct pata_fsl_priv *priv = ap->host->private_data;
u8 *ata_regs = priv->fsl_ata_regs;
struct fsl_ata_platform_data *plat = ap->dev->platform_data;
int chan;
int err;
unsigned i;
if (1 == plat->adma_flag) {
i = FSL_ATA_CTRL_DMA_32ADMA | FSL_ATA_CTRL_DMA_ENABLE;
/* The adma mode is used, set dma_start_stop to 1 */
__raw_writel(i | __raw_readl(ata_regs + FSL_ATA_CONTROL) |
FSL_ATA_CTRL_DMA_STAT_STOP,
ata_regs + FSL_ATA_CONTROL);
} else {
/*
* Start the channel.
*/
chan = qc->dma_dir == DMA_TO_DEVICE ? priv->dma_wchan :
priv->dma_rchan;
err = mxc_dma_enable(chan);
if (err)
printk(KERN_ERR "%s: : error %d\n", __func__, err);
}
priv->dma_done = 0;
ata_sff_exec_command(ap, &qc->tf);
}
static void pata_fsl_bmdma_stop(struct ata_queued_cmd *qc)
{
struct ata_port *ap = qc->ap;
struct pata_fsl_priv *priv = ap->host->private_data;
u8 *ata_regs = priv->fsl_ata_regs;
struct fsl_ata_platform_data *plat = ap->dev->platform_data;
unsigned i;
if (plat->adma_flag) {
/* The adma mode is used, set dma_start_stop to 0 */
i = FSL_ATA_CTRL_DMA_32ADMA | FSL_ATA_CTRL_DMA_ENABLE;
__raw_writel((i | __raw_readl(ata_regs + FSL_ATA_CONTROL)) &
(~FSL_ATA_CTRL_DMA_STAT_STOP),
ata_regs + FSL_ATA_CONTROL);
}
/* do a dummy read as in ata_bmdma_stop */
#if 0
ata_sff_dma_pause(ap);
#endif
}
static u8 pata_fsl_bmdma_status(struct ata_port *ap)
{
struct pata_fsl_priv *priv = ap->host->private_data;
return priv->dma_done ? ATA_DMA_INTR : 0;
}
static void pata_fsl_dma_init(struct ata_port *ap)
{
struct pata_fsl_priv *priv = ap->host->private_data;
priv->dma_rchan = -1;
priv->dma_wchan = -1;
priv->dma_rchan = mxc_dma_request(MXC_DMA_ATA_RX, "MXC ATA RX");
if (priv->dma_rchan < 0) {
dev_printk(KERN_ERR, ap->dev, "couldn't get RX DMA channel\n");
goto err_out;
}
priv->dma_wchan = mxc_dma_request(MXC_DMA_ATA_TX, "MXC ATA TX");
if (priv->dma_wchan < 0) {
dev_printk(KERN_ERR, ap->dev, "couldn't get TX DMA channel\n");
goto err_out;
}
dev_printk(KERN_ERR, ap->dev, "rchan=%d wchan=%d\n", priv->dma_rchan,
priv->dma_wchan);
return;
err_out:
ap->mwdma_mask = 0;
ap->udma_mask = 0;
mxc_dma_free(priv->dma_rchan);
mxc_dma_free(priv->dma_wchan);
kfree(priv);
}
#if 0
static u8 pata_fsl_irq_ack(struct ata_port *ap, unsigned int chk_drq)
{
unsigned int bits = chk_drq ? ATA_BUSY | ATA_DRQ : ATA_BUSY;
u8 status;
status = ata_sff_busy_wait(ap, bits, 1000);
if (status & bits)
if (ata_msg_err(ap))
printk(KERN_ERR "abnormal status 0x%X\n", status);
return status;
}
#endif
static void ata_dummy_noret(struct ata_port *ap)
{
return;
}
static struct scsi_host_template pata_fsl_sht = {
.module = THIS_MODULE,
.name = DRV_NAME,
.ioctl = ata_scsi_ioctl,
.queuecommand = ata_scsi_queuecmd,
.can_queue = ATA_DEF_QUEUE,
.this_id = ATA_SHT_THIS_ID,
.sg_tablesize = LIBATA_MAX_PRD,
.cmd_per_lun = ATA_SHT_CMD_PER_LUN,
.emulated = ATA_SHT_EMULATED,
.use_clustering = ATA_SHT_USE_CLUSTERING,
.proc_name = DRV_NAME,
.dma_boundary = FSL_ATA_MAX_SG_LEN,
.slave_configure = ata_scsi_slave_config,
.slave_destroy = ata_scsi_slave_destroy,
.bios_param = ata_std_bios_param,
};
static struct ata_port_operations pata_fsl_port_ops = {
.inherits = &ata_bmdma_port_ops,
.set_piomode = pata_fsl_set_piomode,
.set_dmamode = pata_fsl_set_dmamode,
.check_atapi_dma = pata_fsl_check_atapi_dma,
.cable_detect = ata_cable_unknown,
.mode_filter = pata_fsl_bmdma_mode_filter,
.bmdma_setup = pata_fsl_bmdma_setup,
.bmdma_start = pata_fsl_bmdma_start,
.bmdma_stop = pata_fsl_bmdma_stop,
.bmdma_status = pata_fsl_bmdma_status,
.qc_prep = ata_noop_qc_prep,
.sff_data_xfer = ata_sff_data_xfer_noirq,
.sff_irq_clear = ata_dummy_noret,
.sff_irq_on = ata_sff_irq_on,
.port_start = pata_fsl_port_start,
};
static void fsl_setup_port(struct ata_ioports *ioaddr)
{
unsigned int shift = 2;
ioaddr->data_addr = ioaddr->cmd_addr + (ATA_REG_DATA << shift);
ioaddr->error_addr = ioaddr->cmd_addr + (ATA_REG_ERR << shift);
ioaddr->feature_addr = ioaddr->cmd_addr + (ATA_REG_FEATURE << shift);
ioaddr->nsect_addr = ioaddr->cmd_addr + (ATA_REG_NSECT << shift);
ioaddr->lbal_addr = ioaddr->cmd_addr + (ATA_REG_LBAL << shift);
ioaddr->lbam_addr = ioaddr->cmd_addr + (ATA_REG_LBAM << shift);
ioaddr->lbah_addr = ioaddr->cmd_addr + (ATA_REG_LBAH << shift);
ioaddr->device_addr = ioaddr->cmd_addr + (ATA_REG_DEVICE << shift);
ioaddr->status_addr = ioaddr->cmd_addr + (ATA_REG_STATUS << shift);
ioaddr->command_addr = ioaddr->cmd_addr + (ATA_REG_CMD << shift);
}
/**
* pata_fsl_probe - attach a platform interface
* @pdev: platform device
*
* Register a platform bus integrated ATA host controller
*
* The 3 platform device resources are used as follows:
*
* - I/O Base (IORESOURCE_MEM) virt. addr. of ATA controller regs
* - CTL Base (IORESOURCE_MEM) unused
* - IRQ (IORESOURCE_IRQ) platform IRQ assigned to ATA
*
*/
static int __devinit pata_fsl_probe(struct platform_device *pdev)
{
int ret = 0;
struct resource *io_res;
struct ata_host *host;
struct ata_port *ap;
struct fsl_ata_platform_data *plat = (struct fsl_ata_platform_data *)
pdev->dev.platform_data;
struct pata_fsl_priv *priv;
u8 *ata_regs;
unsigned int int_enable;
/*
* Set up resources
*/
if (unlikely(pdev->num_resources != 2)) {
dev_err(&pdev->dev, "invalid number of resources\n");
return -EINVAL;
}
/*
* Get an ata_host structure for this device
*/
host = ata_host_alloc(&pdev->dev, 1);
if (!host)
return -ENOMEM;
ap = host->ports[0];
/*
* Allocate private data
*/
priv = kzalloc(sizeof(struct pata_fsl_priv), GFP_KERNEL);
if (priv == NULL) {
ret = -ENOMEM;
goto err0;
}
host->private_data = priv;
/*
* Set up resources
*/
io_res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
ata_regs =
(u8 *) ioremap(io_res->start, io_res->end - io_res->start + 1);
priv->fsl_ata_regs = ata_regs;
ap->ioaddr.cmd_addr = (void *)(ata_regs + FSL_ATA_DRIVE_DATA);
ap->ioaddr.ctl_addr = (void *)(ata_regs + FSL_ATA_DRIVE_CONTROL);
ap->ioaddr.altstatus_addr = ap->ioaddr.ctl_addr;
ap->ops = &pata_fsl_port_ops;
ap->pio_mask = plat->pio_mask; /* support pio 0~4 */
ap->mwdma_mask = plat->mwdma_mask; /* support mdma 0~2 */
ap->udma_mask = plat->udma_mask;
pata_fsl_sht.sg_tablesize = plat->max_sg;
fsl_setup_port(&ap->ioaddr);
if (plat->adma_flag) {
priv->adma_des_tp =
dma_alloc_coherent(&(pdev->dev),
(2 * plat->max_sg) *
sizeof(unsigned int),
&(priv->adma_des_paddr), GFP_DMA);
if (priv->adma_des_tp == NULL) {
ret = -ENOMEM;
goto err1;
}
}
/*
* Do platform-specific initialization (e.g. allocate pins,
* turn on clock). After this call it is assumed that
* plat->get_clk_rate() can be called to calculate
* timing.
*/
if (plat->init && plat->init(pdev)) {
ret = -ENODEV;
goto err2;
}
priv->clk = clk_get(&pdev->dev, "ata_clk");
clk_enable(priv->clk);
/* Deassert the reset bit to enable the interface */
__raw_writel(FSL_ATA_CTRL_ATA_RST_B, ata_regs + FSL_ATA_CONTROL);
/* Enable Core regulator & IO Regulator */
if (plat->core_reg != NULL) {
core_reg = regulator_get(&pdev->dev, plat->core_reg);
if (regulator_enable(core_reg))
printk(KERN_INFO "enable core regulator error.\n");
msleep(100);
} else
core_reg = NULL;
if (plat->io_reg != NULL) {
io_reg = regulator_get(&pdev->dev, plat->io_reg);
if (regulator_enable(io_reg))
printk(KERN_INFO "enable io regulator error.\n");
msleep(100);
} else
io_reg = NULL;
/* Set initial timing and mode */
set_ata_bus_timing(XFER_PIO_4, pdev);
/* get DMA ready */
if (plat->adma_flag == 0)
pata_fsl_dma_init(ap);
/*
* Enable the ATA INTRQ interrupt from the bus, but
* only allow the CPU to see it (INTRQ2) at this point.
* INTRQ1, which goes to the DMA, will be enabled later.
*/
int_enable = FSL_ATA_INTR_DMA_TRANS_OVER | FSL_ATA_INTR_DMA_ERR |
FSL_ATA_INTR_ATA_INTRQ2;
if (plat->adma_flag)
__raw_writel(int_enable, ata_regs + FSL_ATA_INT_EN);
else
__raw_writel(FSL_ATA_INTR_ATA_INTRQ2,
ata_regs + FSL_ATA_INT_EN);
/* activate */
if (plat->adma_flag)
ret = ata_host_activate(host, platform_get_irq(pdev, 0),
pata_fsl_adma_intr, 0, &pata_fsl_sht);
else
ret = ata_host_activate(host, platform_get_irq(pdev, 0),
ata_sff_interrupt, 0, &pata_fsl_sht);
if (!ret)
return ret;
clk_disable(priv->clk);
regulator_disable(core_reg);
regulator_disable(io_reg);
err2:
if (plat->adma_flag && priv->adma_des_tp)
dma_free_coherent(&(pdev->dev),
(2 * plat->max_sg +
1) * sizeof(unsigned int), priv->adma_des_tp,
priv->adma_des_paddr);
err1:
iounmap(ata_regs);
kfree(priv);
err0:
ata_host_detach(host);
return ret;
}
/**
* pata_fsl_remove - unplug a platform interface
* @pdev: platform device
*
* A platform bus ATA device has been unplugged. Perform the needed
* cleanup. Also called on module unload for any active devices.
*/
static int __devexit pata_fsl_remove(struct platform_device *pdev)
{
struct device *dev = &pdev->dev;
struct ata_host *host = dev_get_drvdata(dev);
struct pata_fsl_priv *priv = host->private_data;
struct fsl_ata_platform_data *plat = (struct fsl_ata_platform_data *)
pdev->dev.platform_data;
u8 *ata_regs = priv->fsl_ata_regs;
__raw_writel(0, ata_regs + FSL_ATA_INT_EN); /* Disable interrupts */
ata_host_detach(host);
clk_disable(priv->clk);
clk_put(priv->clk);
priv->clk = NULL;
/* Disable Core regulator & IO Regulator */
if (plat->core_reg != NULL) {
regulator_disable(core_reg);
regulator_put(core_reg);
}
if (plat->io_reg != NULL) {
regulator_disable(io_reg);
regulator_put(io_reg);
}
if (plat->exit)
plat->exit();
if (plat->adma_flag && priv->adma_des_tp)
dma_free_coherent(&(pdev->dev),
(2 * plat->max_sg) *
sizeof(unsigned int), priv->adma_des_tp,
priv->adma_des_paddr);
iounmap(ata_regs);
kfree(priv);
return 0;
}
#ifdef CONFIG_PM
static int pata_fsl_suspend(struct platform_device *pdev, pm_message_t state)
{
struct ata_host *host = dev_get_drvdata(&pdev->dev);
struct pata_fsl_priv *priv = host->private_data;
struct fsl_ata_platform_data *plat = (struct fsl_ata_platform_data *)
pdev->dev.platform_data;
u8 *ata_regs = priv->fsl_ata_regs;
ata_host_suspend(host, state);
/* Disable interrupts. */
__raw_writel(0, ata_regs + FSL_ATA_INT_EN);
clk_disable(priv->clk);
if (plat->exit)
plat->exit();
return 0;
}
static int pata_fsl_resume(struct platform_device *pdev)
{
struct ata_host *host = dev_get_drvdata(&pdev->dev);
struct pata_fsl_priv *priv = host->private_data;
struct fsl_ata_platform_data *plat = (struct fsl_ata_platform_data *)
pdev->dev.platform_data;
u8 *ata_regs = priv->fsl_ata_regs;
unsigned char int_enable;
if (plat->init && plat->init(pdev))
return -ENODEV;
clk_enable(priv->clk);
/* Deassert the reset bit to enable the interface */
__raw_writel(FSL_ATA_CTRL_ATA_RST_B, ata_regs + FSL_ATA_CONTROL);
/* Set initial timing and mode */
set_ata_bus_timing(XFER_PIO_4, pdev);
/*
* Enable hardware interrupts.
*/
int_enable = FSL_ATA_INTR_DMA_TRANS_OVER | FSL_ATA_INTR_DMA_ERR |
FSL_ATA_INTR_ATA_INTRQ2;
if (1 == plat->adma_flag)
__raw_writel(int_enable, ata_regs + FSL_ATA_INT_EN);
else
__raw_writel(FSL_ATA_INTR_ATA_INTRQ2,
ata_regs + FSL_ATA_INT_EN);
ata_host_resume(host);
return 0;
}
#endif
static struct platform_driver pata_fsl_driver = {
.probe = pata_fsl_probe,
.remove = __devexit_p(pata_fsl_remove),
#ifdef CONFIG_PM
.suspend = pata_fsl_suspend,
.resume = pata_fsl_resume,
#endif
.driver = {
.name = DRV_NAME,
.owner = THIS_MODULE,
},
};
static int __init pata_fsl_init(void)
{
return platform_driver_register(&pata_fsl_driver);
return 0;
}
static void __exit pata_fsl_exit(void)
{
platform_driver_unregister(&pata_fsl_driver);
}
module_init(pata_fsl_init);
module_exit(pata_fsl_exit);
MODULE_AUTHOR("Freescale Semiconductor, Inc.");
MODULE_DESCRIPTION("low-level driver for Freescale ATA");
MODULE_LICENSE("GPL");
|