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linux-next/arch/arm/mach-rpc/dma.c
Russell King fa4e998999 [ARM] dma: RiscPC: don't modify DMA SG entries
We should not be modifying the scatterlist passed to us from the
driver code; doing so breaks assumptions made by the DMA API code,
and could cause problems if the driver retries a transfer using an
old scatterlist.

Signed-off-by: Russell King <rmk+kernel@arm.linux.org.uk>
2009-02-21 21:38:56 +00:00

391 lines
8.6 KiB
C

/*
* linux/arch/arm/mach-rpc/dma.c
*
* Copyright (C) 1998 Russell King
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* DMA functions specific to RiscPC architecture
*/
#include <linux/slab.h>
#include <linux/mman.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/dma-mapping.h>
#include <linux/io.h>
#include <asm/page.h>
#include <asm/dma.h>
#include <asm/fiq.h>
#include <asm/irq.h>
#include <mach/hardware.h>
#include <asm/uaccess.h>
#include <asm/mach/dma.h>
#include <asm/hardware/iomd.h>
struct iomd_dma {
struct dma_struct dma;
unsigned int state;
unsigned long base; /* Controller base address */
int irq; /* Controller IRQ */
struct scatterlist cur_sg; /* Current controller buffer */
dma_addr_t dma_addr;
unsigned int dma_len;
};
#if 0
typedef enum {
dma_size_8 = 1,
dma_size_16 = 2,
dma_size_32 = 4,
dma_size_128 = 16
} dma_size_t;
#endif
#define TRANSFER_SIZE 2
#define CURA (0)
#define ENDA (IOMD_IO0ENDA - IOMD_IO0CURA)
#define CURB (IOMD_IO0CURB - IOMD_IO0CURA)
#define ENDB (IOMD_IO0ENDB - IOMD_IO0CURA)
#define CR (IOMD_IO0CR - IOMD_IO0CURA)
#define ST (IOMD_IO0ST - IOMD_IO0CURA)
static void iomd_get_next_sg(struct scatterlist *sg, struct iomd_dma *idma)
{
unsigned long end, offset, flags = 0;
if (idma->dma.sg) {
sg->dma_address = idma->dma_addr;
offset = sg->dma_address & ~PAGE_MASK;
end = offset + idma->dma_len;
if (end > PAGE_SIZE)
end = PAGE_SIZE;
if (offset + TRANSFER_SIZE >= end)
flags |= DMA_END_L;
sg->length = end - TRANSFER_SIZE;
idma->dma_len -= end - offset;
idma->dma_addr += end - offset;
if (idma->dma_len == 0) {
if (idma->dma.sgcount > 1) {
idma->dma.sg = sg_next(idma->dma.sg);
idma->dma_addr = idma->dma.sg->dma_address;
idma->dma_len = idma->dma.sg->length;
idma->dma.sgcount--;
} else {
idma->dma.sg = NULL;
flags |= DMA_END_S;
}
}
} else {
flags = DMA_END_S | DMA_END_L;
sg->dma_address = 0;
sg->length = 0;
}
sg->length |= flags;
}
static irqreturn_t iomd_dma_handle(int irq, void *dev_id)
{
struct iomd_dma *idma = dev_id;
unsigned long base = idma->base;
do {
unsigned int status;
status = iomd_readb(base + ST);
if (!(status & DMA_ST_INT))
return IRQ_HANDLED;
if ((idma->state ^ status) & DMA_ST_AB)
iomd_get_next_sg(&idma->cur_sg, idma);
switch (status & (DMA_ST_OFL | DMA_ST_AB)) {
case DMA_ST_OFL: /* OIA */
case DMA_ST_AB: /* .IB */
iomd_writel(idma->cur_sg.dma_address, base + CURA);
iomd_writel(idma->cur_sg.length, base + ENDA);
idma->state = DMA_ST_AB;
break;
case DMA_ST_OFL | DMA_ST_AB: /* OIB */
case 0: /* .IA */
iomd_writel(idma->cur_sg.dma_address, base + CURB);
iomd_writel(idma->cur_sg.length, base + ENDB);
idma->state = 0;
break;
}
if (status & DMA_ST_OFL &&
idma->cur_sg.length == (DMA_END_S|DMA_END_L))
break;
} while (1);
idma->state = ~DMA_ST_AB;
disable_irq(irq);
return IRQ_HANDLED;
}
static int iomd_request_dma(unsigned int chan, dma_t *dma)
{
struct iomd_dma *idma = container_of(dma, struct iomd_dma, dma);
return request_irq(idma->irq, iomd_dma_handle,
IRQF_DISABLED, idma->dma.device_id, idma);
}
static void iomd_free_dma(unsigned int chan, dma_t *dma)
{
struct iomd_dma *idma = container_of(dma, struct iomd_dma, dma);
free_irq(idma->irq, idma);
}
static void iomd_enable_dma(unsigned int chan, dma_t *dma)
{
struct iomd_dma *idma = container_of(dma, struct iomd_dma, dma);
unsigned long dma_base = idma->base;
unsigned int ctrl = TRANSFER_SIZE | DMA_CR_E;
if (idma->dma.invalid) {
idma->dma.invalid = 0;
/*
* Cope with ISA-style drivers which expect cache
* coherence.
*/
if (!idma->dma.sg) {
idma->dma.sg = &idma->dma.buf;
idma->dma.sgcount = 1;
idma->dma.buf.length = idma->dma.count;
idma->dma.buf.dma_address = dma_map_single(NULL,
idma->dma.addr, idma->dma.count,
idma->dma.dma_mode == DMA_MODE_READ ?
DMA_FROM_DEVICE : DMA_TO_DEVICE);
}
iomd_writeb(DMA_CR_C, dma_base + CR);
idma->state = DMA_ST_AB;
}
if (idma->dma.dma_mode == DMA_MODE_READ)
ctrl |= DMA_CR_D;
iomd_writeb(ctrl, dma_base + CR);
enable_irq(idma->irq);
}
static void iomd_disable_dma(unsigned int chan, dma_t *dma)
{
struct iomd_dma *idma = container_of(dma, struct iomd_dma, dma);
unsigned long dma_base = idma->base;
unsigned long flags;
local_irq_save(flags);
if (idma->state != ~DMA_ST_AB)
disable_irq(idma->irq);
iomd_writeb(0, dma_base + CR);
local_irq_restore(flags);
}
static int iomd_set_dma_speed(unsigned int chan, dma_t *dma, int cycle)
{
int tcr, speed;
if (cycle < 188)
speed = 3;
else if (cycle <= 250)
speed = 2;
else if (cycle < 438)
speed = 1;
else
speed = 0;
tcr = iomd_readb(IOMD_DMATCR);
speed &= 3;
switch (chan) {
case DMA_0:
tcr = (tcr & ~0x03) | speed;
break;
case DMA_1:
tcr = (tcr & ~0x0c) | (speed << 2);
break;
case DMA_2:
tcr = (tcr & ~0x30) | (speed << 4);
break;
case DMA_3:
tcr = (tcr & ~0xc0) | (speed << 6);
break;
default:
break;
}
iomd_writeb(tcr, IOMD_DMATCR);
return speed;
}
static struct dma_ops iomd_dma_ops = {
.type = "IOMD",
.request = iomd_request_dma,
.free = iomd_free_dma,
.enable = iomd_enable_dma,
.disable = iomd_disable_dma,
.setspeed = iomd_set_dma_speed,
};
static struct fiq_handler fh = {
.name = "floppydma"
};
struct floppy_dma {
struct dma_struct dma;
unsigned int fiq;
};
static void floppy_enable_dma(unsigned int chan, dma_t *dma)
{
struct floppy_dma *fdma = container_of(dma, struct floppy_dma, dma);
void *fiqhandler_start;
unsigned int fiqhandler_length;
struct pt_regs regs;
if (fdma->dma.sg)
BUG();
if (fdma->dma.dma_mode == DMA_MODE_READ) {
extern unsigned char floppy_fiqin_start, floppy_fiqin_end;
fiqhandler_start = &floppy_fiqin_start;
fiqhandler_length = &floppy_fiqin_end - &floppy_fiqin_start;
} else {
extern unsigned char floppy_fiqout_start, floppy_fiqout_end;
fiqhandler_start = &floppy_fiqout_start;
fiqhandler_length = &floppy_fiqout_end - &floppy_fiqout_start;
}
regs.ARM_r9 = fdma->dma.count;
regs.ARM_r10 = (unsigned long)fdma->dma.addr;
regs.ARM_fp = (unsigned long)FLOPPYDMA_BASE;
if (claim_fiq(&fh)) {
printk("floppydma: couldn't claim FIQ.\n");
return;
}
set_fiq_handler(fiqhandler_start, fiqhandler_length);
set_fiq_regs(&regs);
enable_fiq(fdma->fiq);
}
static void floppy_disable_dma(unsigned int chan, dma_t *dma)
{
struct floppy_dma *fdma = container_of(dma, struct floppy_dma, dma);
disable_fiq(fdma->fiq);
release_fiq(&fh);
}
static int floppy_get_residue(unsigned int chan, dma_t *dma)
{
struct pt_regs regs;
get_fiq_regs(&regs);
return regs.ARM_r9;
}
static struct dma_ops floppy_dma_ops = {
.type = "FIQDMA",
.enable = floppy_enable_dma,
.disable = floppy_disable_dma,
.residue = floppy_get_residue,
};
/*
* This is virtual DMA - we don't need anything here.
*/
static void sound_enable_disable_dma(unsigned int chan, dma_t *dma)
{
}
static struct dma_ops sound_dma_ops = {
.type = "VIRTUAL",
.enable = sound_enable_disable_dma,
.disable = sound_enable_disable_dma,
};
static struct iomd_dma iomd_dma[6];
static struct floppy_dma floppy_dma = {
.dma = {
.d_ops = &floppy_dma_ops,
},
.fiq = FIQ_FLOPPYDATA,
};
static dma_t sound_dma = {
.d_ops = &sound_dma_ops,
};
static int __init rpc_dma_init(void)
{
unsigned int i;
int ret;
iomd_writeb(0, IOMD_IO0CR);
iomd_writeb(0, IOMD_IO1CR);
iomd_writeb(0, IOMD_IO2CR);
iomd_writeb(0, IOMD_IO3CR);
iomd_writeb(0xa0, IOMD_DMATCR);
/*
* Setup DMA channels 2,3 to be for podules
* and channels 0,1 for internal devices
*/
iomd_writeb(DMA_EXT_IO3|DMA_EXT_IO2, IOMD_DMAEXT);
iomd_dma[DMA_0].base = IOMD_IO0CURA;
iomd_dma[DMA_0].irq = IRQ_DMA0;
iomd_dma[DMA_1].base = IOMD_IO1CURA;
iomd_dma[DMA_1].irq = IRQ_DMA1;
iomd_dma[DMA_2].base = IOMD_IO2CURA;
iomd_dma[DMA_2].irq = IRQ_DMA2;
iomd_dma[DMA_3].base = IOMD_IO3CURA;
iomd_dma[DMA_3].irq = IRQ_DMA3;
iomd_dma[DMA_S0].base = IOMD_SD0CURA;
iomd_dma[DMA_S0].irq = IRQ_DMAS0;
iomd_dma[DMA_S1].base = IOMD_SD1CURA;
iomd_dma[DMA_S1].irq = IRQ_DMAS1;
for (i = DMA_0; i <= DMA_S1; i++) {
iomd_dma[i].dma.d_ops = &iomd_dma_ops;
ret = isa_dma_add(i, &iomd_dma[i].dma);
if (ret)
printk("IOMDDMA%u: unable to register: %d\n", i, ret);
}
ret = isa_dma_add(DMA_VIRTUAL_FLOPPY, &floppy_dma.dma);
if (ret)
printk("IOMDFLOPPY: unable to register: %d\n", ret);
ret = isa_dma_add(DMA_VIRTUAL_SOUND, &sound_dma);
if (ret)
printk("IOMDSOUND: unable to register: %d\n", ret);
return 0;
}
core_initcall(rpc_dma_init);