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|
/* via_dma.c -- DMA support for the VIA Unichrome/Pro
*/
/**************************************************************************
*
* Copyright 2003 Tungsten Graphics, Inc., Cedar Park, Texas.
* All Rights Reserved.
*
* Copyright 2004 Digeo, Inc., Palo Alto, CA, U.S.A.
* All Rights Reserved.
*
* Copyright 2004 The Unichrome project.
* All Rights Reserved.
*
**************************************************************************/
#include "drmP.h"
#include "drm.h"
#include "via_drm.h"
#include "via_drv.h"
#include "via_3d_reg.h"
#define via_flush_write_combine() DRM_MEMORYBARRIER()
#define VIA_OUT_RING_QW(w1,w2) \
*vb++ = (w1); \
*vb++ = (w2); \
dev_priv->dma_low += 8;
#define PCI_BUF_SIZE 1024000
static char pci_buf[PCI_BUF_SIZE];
static unsigned long pci_bufsiz = PCI_BUF_SIZE;
static void via_cmdbuf_start(drm_via_private_t * dev_priv);
static void via_cmdbuf_pause(drm_via_private_t * dev_priv);
static void via_cmdbuf_reset(drm_via_private_t * dev_priv);
static void via_cmdbuf_rewind(drm_via_private_t * dev_priv);
static inline int
via_cmdbuf_wait(drm_via_private_t * dev_priv, unsigned int size)
{
uint32_t agp_base = dev_priv->dma_offset + (uint32_t) dev_priv->agpAddr;
uint32_t cur_addr, hw_addr, next_addr;
volatile uint32_t *hw_addr_ptr;
uint32_t count;
hw_addr_ptr = dev_priv->hw_addr_ptr;
cur_addr = dev_priv->dma_low;
next_addr = cur_addr + size + 512*1024;
count = 1000000; /* How long is this? */
do {
hw_addr = *hw_addr_ptr - agp_base;
if (count-- == 0) {
DRM_ERROR("via_cmdbuf_wait timed out hw %x cur_addr %x next_addr %x\n",
hw_addr, cur_addr, next_addr);
return -1;
}
} while ((cur_addr < hw_addr) && (next_addr >= hw_addr));
return 0;
}
/*
* Checks whether buffer head has reach the end. Rewind the ring buffer
* when necessary.
*
* Returns virtual pointer to ring buffer.
*/
static inline uint32_t *via_check_dma(drm_via_private_t * dev_priv,
unsigned int size)
{
if ((dev_priv->dma_low + size + 0x400) > dev_priv->dma_high) {
via_cmdbuf_rewind(dev_priv);
}
if (via_cmdbuf_wait(dev_priv, size) != 0) {
return NULL;
}
return (uint32_t *) (dev_priv->dma_ptr + dev_priv->dma_low);
}
int via_dma_cleanup(drm_device_t * dev)
{
if (dev->dev_private) {
drm_via_private_t *dev_priv =
(drm_via_private_t *) dev->dev_private;
if (dev_priv->ring.virtual_start) {
via_cmdbuf_reset(dev_priv);
drm_core_ioremapfree(&dev_priv->ring.map, dev);
dev_priv->ring.virtual_start = NULL;
}
}
return 0;
}
static int via_initialize(drm_device_t * dev,
drm_via_private_t * dev_priv,
drm_via_dma_init_t * init)
{
if (!dev_priv || !dev_priv->mmio) {
DRM_ERROR("via_dma_init called before via_map_init\n");
return DRM_ERR(EFAULT);
}
if (dev_priv->ring.virtual_start != NULL) {
DRM_ERROR("%s called again without calling cleanup\n",
__FUNCTION__);
return DRM_ERR(EFAULT);
}
dev_priv->ring.map.offset = dev->agp->base + init->offset;
dev_priv->ring.map.size = init->size;
dev_priv->ring.map.type = 0;
dev_priv->ring.map.flags = 0;
dev_priv->ring.map.mtrr = 0;
drm_core_ioremap(&dev_priv->ring.map, dev);
if (dev_priv->ring.map.handle == NULL) {
via_dma_cleanup(dev);
DRM_ERROR("can not ioremap virtual address for"
" ring buffer\n");
return DRM_ERR(ENOMEM);
}
dev_priv->ring.virtual_start = dev_priv->ring.map.handle;
dev_priv->dma_ptr = dev_priv->ring.virtual_start;
dev_priv->dma_low = 0;
dev_priv->dma_high = init->size;
dev_priv->dma_offset = init->offset;
dev_priv->last_pause_ptr = NULL;
dev_priv->hw_addr_ptr = dev_priv->mmio->handle + init->reg_pause_addr;
via_cmdbuf_start(dev_priv);
return 0;
}
int via_dma_init(DRM_IOCTL_ARGS)
{
DRM_DEVICE;
drm_via_private_t *dev_priv = (drm_via_private_t *) dev->dev_private;
drm_via_dma_init_t init;
int retcode = 0;
DRM_COPY_FROM_USER_IOCTL(init, (drm_via_dma_init_t *) data,
sizeof(init));
switch (init.func) {
case VIA_INIT_DMA:
retcode = via_initialize(dev, dev_priv, &init);
break;
case VIA_CLEANUP_DMA:
retcode = via_dma_cleanup(dev);
break;
case VIA_DMA_INITIALIZED:
retcode = (dev_priv->ring.virtual_start != NULL) ? 0: DRM_ERR( EFAULT );
break;
default:
retcode = DRM_ERR(EINVAL);
break;
}
return retcode;
}
static int via_dispatch_cmdbuffer(drm_device_t * dev, drm_via_cmdbuffer_t * cmd)
{
drm_via_private_t *dev_priv;
uint32_t *vb;
int ret;
dev_priv = (drm_via_private_t *) dev->dev_private;
if (dev_priv->ring.virtual_start == NULL) {
DRM_ERROR("%s called without initializing AGP ring buffer.\n",
__FUNCTION__);
return DRM_ERR(EFAULT);
}
if (cmd->size > pci_bufsiz && pci_bufsiz > 0) {
return DRM_ERR(ENOMEM);
}
if (DRM_COPY_FROM_USER(pci_buf, cmd->buf, cmd->size))
return DRM_ERR(EFAULT);
/*
* Running this function on AGP memory is dead slow. Therefore
* we run it on a temporary cacheable system memory buffer and
* copy it to AGP memory when ready.
*/
if ((ret = via_verify_command_stream((uint32_t *)pci_buf, cmd->size, dev))) {
return ret;
}
vb = via_check_dma(dev_priv, cmd->size);
if (vb == NULL) {
return DRM_ERR(EAGAIN);
}
memcpy(vb, pci_buf, cmd->size);
dev_priv->dma_low += cmd->size;
via_cmdbuf_pause(dev_priv);
return 0;
}
static int via_quiescent(drm_device_t * dev)
{
drm_via_private_t *dev_priv = dev->dev_private;
if (!via_wait_idle(dev_priv)) {
return DRM_ERR(EAGAIN);
}
return 0;
}
int via_flush_ioctl(DRM_IOCTL_ARGS)
{
DRM_DEVICE;
LOCK_TEST_WITH_RETURN( dev, filp );
return via_quiescent(dev);
}
int via_cmdbuffer(DRM_IOCTL_ARGS)
{
DRM_DEVICE;
drm_via_cmdbuffer_t cmdbuf;
int ret;
LOCK_TEST_WITH_RETURN( dev, filp );
DRM_COPY_FROM_USER_IOCTL(cmdbuf, (drm_via_cmdbuffer_t *) data,
sizeof(cmdbuf));
DRM_DEBUG("via cmdbuffer, buf %p size %lu\n", cmdbuf.buf, cmdbuf.size);
ret = via_dispatch_cmdbuffer(dev, &cmdbuf);
if (ret) {
return ret;
}
return 0;
}
static int via_parse_pci_cmdbuffer(drm_device_t * dev, const char *buf,
unsigned int size)
{
drm_via_private_t *dev_priv = dev->dev_private;
const uint32_t *regbuf = (const uint32_t *) buf;
const uint32_t *regend = regbuf + (size >> 2);
int ret;
int check_2d_cmd = 1;
if ((ret = via_verify_command_stream(regbuf, size, dev)))
return ret;
while (regbuf != regend) {
if ( *regbuf == HALCYON_HEADER2 ) {
regbuf++;
check_2d_cmd = ( *regbuf != HALCYON_SUB_ADDR0 );
VIA_WRITE(HC_REG_TRANS_SET + HC_REG_BASE, *regbuf++);
} else if ( check_2d_cmd && ((*regbuf & HALCYON_HEADER1MASK) == HALCYON_HEADER1 )) {
register uint32_t addr = ( (*regbuf++ ) & ~HALCYON_HEADER1MASK) << 2;
VIA_WRITE( addr, *regbuf++ );
} else if ( ( *regbuf & HALCYON_FIREMASK ) == HALCYON_FIRECMD ) {
VIA_WRITE(HC_REG_TRANS_SPACE + HC_REG_BASE, *regbuf++);
if ( ( regbuf != regend ) &&
((*regbuf & HALCYON_FIREMASK) == HALCYON_FIRECMD))
regbuf++;
if (( *regbuf & HALCYON_CMDBMASK ) != HC_ACMD_HCmdB )
check_2d_cmd = 1;
} else {
VIA_WRITE(HC_REG_TRANS_SPACE + HC_REG_BASE , *regbuf++);
}
}
return 0;
}
static int via_dispatch_pci_cmdbuffer(drm_device_t * dev,
drm_via_cmdbuffer_t * cmd)
{
int ret;
if (cmd->size > pci_bufsiz && pci_bufsiz > 0) {
return DRM_ERR(ENOMEM);
}
if (DRM_COPY_FROM_USER(pci_buf, cmd->buf, cmd->size))
return DRM_ERR(EFAULT);
ret = via_parse_pci_cmdbuffer(dev, pci_buf, cmd->size);
return ret;
}
int via_pci_cmdbuffer(DRM_IOCTL_ARGS)
{
DRM_DEVICE;
drm_via_cmdbuffer_t cmdbuf;
int ret;
LOCK_TEST_WITH_RETURN( dev, filp );
DRM_COPY_FROM_USER_IOCTL(cmdbuf, (drm_via_cmdbuffer_t *) data,
sizeof(cmdbuf));
DRM_DEBUG("via_pci_cmdbuffer, buf %p size %lu\n", cmdbuf.buf,
cmdbuf.size);
ret = via_dispatch_pci_cmdbuffer(dev, &cmdbuf);
if (ret) {
return ret;
}
return 0;
}
/************************************************************************/
#define CMDBUF_ALIGNMENT_SIZE (0x100)
#define CMDBUF_ALIGNMENT_MASK (0xff)
/* defines for VIA 3D registers */
#define VIA_REG_STATUS 0x400
#define VIA_REG_TRANSET 0x43C
#define VIA_REG_TRANSPACE 0x440
/* VIA_REG_STATUS(0x400): Engine Status */
#define VIA_CMD_RGTR_BUSY 0x00000080 /* Command Regulator is busy */
#define VIA_2D_ENG_BUSY 0x00000001 /* 2D Engine is busy */
#define VIA_3D_ENG_BUSY 0x00000002 /* 3D Engine is busy */
#define VIA_VR_QUEUE_BUSY 0x00020000 /* Virtual Queue is busy */
#define SetReg2DAGP(nReg, nData) { \
*((uint32_t *)(vb)) = ((nReg) >> 2) | HALCYON_HEADER1; \
*((uint32_t *)(vb) + 1) = (nData); \
vb = ((uint32_t *)vb) + 2; \
dev_priv->dma_low +=8; \
}
static inline uint32_t *via_align_buffer(drm_via_private_t * dev_priv,
uint32_t * vb, int qw_count)
{
for (; qw_count > 0; --qw_count) {
VIA_OUT_RING_QW(HC_DUMMY, HC_DUMMY);
}
return vb;
}
/*
* This function is used internally by ring buffer mangement code.
*
* Returns virtual pointer to ring buffer.
*/
static inline uint32_t *via_get_dma(drm_via_private_t * dev_priv)
{
return (uint32_t *) (dev_priv->dma_ptr + dev_priv->dma_low);
}
/*
* Hooks a segment of data into the tail of the ring-buffer by
* modifying the pause address stored in the buffer itself. If
* the regulator has already paused, restart it.
*/
static int via_hook_segment(drm_via_private_t *dev_priv,
uint32_t pause_addr_hi, uint32_t pause_addr_lo,
int no_pci_fire)
{
int paused, count;
via_flush_write_combine();
while(! *(via_get_dma(dev_priv)-1));
*dev_priv->last_pause_ptr = pause_addr_lo;
via_flush_write_combine();
/*
* The below statement is inserted to really force the flush.
* Not sure it is needed.
*/
while(! *dev_priv->last_pause_ptr);
dev_priv->last_pause_ptr = via_get_dma(dev_priv) - 1;
paused = 0;
count = 3;
while (!(paused = (VIA_READ(0x41c) & 0x80000000)) && count--);
if ((count < 1) && (count >= 0)) {
uint32_t rgtr, ptr;
rgtr = *(dev_priv->hw_addr_ptr);
ptr = ((char *)dev_priv->last_pause_ptr - dev_priv->dma_ptr) +
dev_priv->dma_offset + (uint32_t) dev_priv->agpAddr + 4 - 0x100;
if (rgtr <= ptr) {
DRM_ERROR("Command regulator\npaused at count %d, address %x, "
"while current pause address is %x.\n"
"Please mail this message to "
"<unichrome-devel@lists.sourceforge.net>\n",
count, rgtr, ptr);
}
}
if (paused && !no_pci_fire) {
VIA_WRITE(VIA_REG_TRANSET, (HC_ParaType_PreCR << 16));
VIA_WRITE(VIA_REG_TRANSPACE, pause_addr_hi);
VIA_WRITE(VIA_REG_TRANSPACE, pause_addr_lo);
}
return paused;
}
int via_wait_idle(drm_via_private_t * dev_priv)
{
int count = 10000000;
while (count-- && (VIA_READ(VIA_REG_STATUS) &
(VIA_CMD_RGTR_BUSY | VIA_2D_ENG_BUSY |
VIA_3D_ENG_BUSY))) ;
return count;
}
static uint32_t *via_align_cmd(drm_via_private_t * dev_priv, uint32_t cmd_type,
uint32_t addr, uint32_t *cmd_addr_hi,
uint32_t *cmd_addr_lo,
int skip_wait)
{
uint32_t agp_base;
uint32_t cmd_addr, addr_lo, addr_hi;
uint32_t *vb;
uint32_t qw_pad_count;
if (!skip_wait)
via_cmdbuf_wait(dev_priv, 2*CMDBUF_ALIGNMENT_SIZE);
vb = via_get_dma(dev_priv);
VIA_OUT_RING_QW( HC_HEADER2 | ((VIA_REG_TRANSET >> 2) << 12) |
(VIA_REG_TRANSPACE >> 2), HC_ParaType_PreCR << 16);
agp_base = dev_priv->dma_offset + (uint32_t) dev_priv->agpAddr;
qw_pad_count = (CMDBUF_ALIGNMENT_SIZE >> 3) -
((dev_priv->dma_low & CMDBUF_ALIGNMENT_MASK) >> 3);
cmd_addr = (addr) ? addr :
agp_base + dev_priv->dma_low - 8 + (qw_pad_count << 3);
addr_lo = ((HC_SubA_HAGPBpL << 24) | cmd_type |
(cmd_addr & 0xffffff));
addr_hi = ((HC_SubA_HAGPBpH << 24) | (cmd_addr >> 24));
vb = via_align_buffer(dev_priv, vb, qw_pad_count - 1);
VIA_OUT_RING_QW(*cmd_addr_hi = addr_hi,
*cmd_addr_lo = addr_lo);
return vb;
}
static void via_cmdbuf_start(drm_via_private_t * dev_priv)
{
uint32_t pause_addr_lo, pause_addr_hi;
uint32_t start_addr, start_addr_lo;
uint32_t end_addr, end_addr_lo;
uint32_t command;
uint32_t agp_base;
dev_priv->dma_low = 0;
agp_base = dev_priv->dma_offset + (uint32_t) dev_priv->agpAddr;
start_addr = agp_base;
end_addr = agp_base + dev_priv->dma_high;
start_addr_lo = ((HC_SubA_HAGPBstL << 24) | (start_addr & 0xFFFFFF));
end_addr_lo = ((HC_SubA_HAGPBendL << 24) | (end_addr & 0xFFFFFF));
command = ((HC_SubA_HAGPCMNT << 24) | (start_addr >> 24) |
((end_addr & 0xff000000) >> 16));
dev_priv->last_pause_ptr =
via_align_cmd(dev_priv, HC_HAGPBpID_PAUSE, 0,
&pause_addr_hi, & pause_addr_lo, 1) - 1;
via_flush_write_combine();
while(! *dev_priv->last_pause_ptr);
VIA_WRITE(VIA_REG_TRANSET, (HC_ParaType_PreCR << 16));
VIA_WRITE(VIA_REG_TRANSPACE, command);
VIA_WRITE(VIA_REG_TRANSPACE, start_addr_lo);
VIA_WRITE(VIA_REG_TRANSPACE, end_addr_lo);
VIA_WRITE(VIA_REG_TRANSPACE, pause_addr_hi);
VIA_WRITE(VIA_REG_TRANSPACE, pause_addr_lo);
VIA_WRITE(VIA_REG_TRANSPACE, command | HC_HAGPCMNT_MASK);
}
static inline void via_dummy_bitblt(drm_via_private_t * dev_priv)
{
uint32_t *vb = via_get_dma(dev_priv);
SetReg2DAGP(0x0C, (0 | (0 << 16)));
SetReg2DAGP(0x10, 0 | (0 << 16));
SetReg2DAGP(0x0, 0x1 | 0x2000 | 0xAA000000);
}
static void via_cmdbuf_jump(drm_via_private_t * dev_priv)
{
uint32_t agp_base;
uint32_t pause_addr_lo, pause_addr_hi;
uint32_t jump_addr_lo, jump_addr_hi;
volatile uint32_t *last_pause_ptr;
agp_base = dev_priv->dma_offset + (uint32_t) dev_priv->agpAddr;
via_align_cmd(dev_priv, HC_HAGPBpID_JUMP, 0, &jump_addr_hi,
&jump_addr_lo, 0);
dev_priv->dma_low = 0;
if (via_cmdbuf_wait(dev_priv, CMDBUF_ALIGNMENT_SIZE) != 0) {
DRM_ERROR("via_cmdbuf_jump failed\n");
}
/*
* The command regulator needs to stall for a while since it probably
* had a concussion during the jump... It will stall at the second
* bitblt since the 2D engine is busy with the first.
*/
via_dummy_bitblt(dev_priv);
via_dummy_bitblt(dev_priv);
last_pause_ptr = via_align_cmd(dev_priv, HC_HAGPBpID_PAUSE, 0, &pause_addr_hi,
&pause_addr_lo, 0) -1;
/*
* The regulator may still be suffering from the shock of the jump.
* Add another pause command to make sure it really will get itself together
* and pause.
*/
via_align_cmd(dev_priv, HC_HAGPBpID_PAUSE, 0, &pause_addr_hi,
&pause_addr_lo, 0);
*last_pause_ptr = pause_addr_lo;
via_hook_segment( dev_priv, jump_addr_hi, jump_addr_lo, 0);
}
static void via_cmdbuf_rewind(drm_via_private_t * dev_priv)
{
via_cmdbuf_jump(dev_priv);
}
static void via_cmdbuf_flush(drm_via_private_t * dev_priv, uint32_t cmd_type)
{
uint32_t pause_addr_lo, pause_addr_hi;
via_align_cmd(dev_priv, cmd_type, 0, &pause_addr_hi, &pause_addr_lo, 0);
via_hook_segment( dev_priv, pause_addr_hi, pause_addr_lo, 0);
}
static void via_cmdbuf_pause(drm_via_private_t * dev_priv)
{
via_cmdbuf_flush(dev_priv, HC_HAGPBpID_PAUSE);
}
static void via_cmdbuf_reset(drm_via_private_t * dev_priv)
{
via_cmdbuf_flush(dev_priv, HC_HAGPBpID_STOP);
via_wait_idle(dev_priv);
}
/************************************************************************/
|