drm/linux/mga_dma.c

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/* mga_dma.c -- DMA support for mga g200/g400 -*- linux-c -*-
* Created: Mon Dec 13 01:50:01 1999 by jhartmann@precisioninsight.com
*
* Copyright 1999 Precision Insight, Inc., Cedar Park, Texas.
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* Copyright 2000 VA Linux Systems, Inc., Sunnyvale, California.
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* All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* PRECISION INSIGHT AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*
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* Authors: Rickard E. (Rik) Faith <faith@valinux.com>
* Jeff Hartmann <jhartmann@valinux.com>
* Keith Whitwell <keithw@valinux.com>
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*
*/
#define __NO_VERSION__
#include "drmP.h"
#include "mga_drv.h"
#include <linux/interrupt.h> /* For task queue support */
#define MGA_REG(reg) 2
#define MGA_BASE(reg) ((unsigned long) \
((drm_device_t *)dev)->maplist[MGA_REG(reg)]->handle)
#define MGA_ADDR(reg) (MGA_BASE(reg) + reg)
#define MGA_DEREF(reg) *(__volatile__ int *)MGA_ADDR(reg)
#define MGA_READ(reg) MGA_DEREF(reg)
#define MGA_WRITE(reg,val) do { MGA_DEREF(reg) = val; } while (0)
#define PDEA_pagpxfer_enable 0x2
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static int mga_flush_queue(drm_device_t *dev);
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static unsigned long mga_alloc_page(drm_device_t *dev)
{
unsigned long address;
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address = __get_free_page(GFP_KERNEL);
if(address == 0UL) {
return 0;
}
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atomic_inc(&virt_to_page(address)->count);
set_bit(PG_reserved, &virt_to_page(address)->flags);
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return address;
}
static void mga_free_page(drm_device_t *dev, unsigned long page)
{
if(!page) return;
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atomic_dec(&virt_to_page(page)->count);
clear_bit(PG_reserved, &virt_to_page(page)->flags);
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free_page(page);
return;
}
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static void mga_delay(void)
{
return;
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}
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/* These are two age tags that will never be sent to
* the hardware */
#define MGA_BUF_USED 0xffffffff
#define MGA_BUF_FREE 0
static int mga_freelist_init(drm_device_t *dev)
{
drm_device_dma_t *dma = dev->dma;
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drm_buf_t *buf;
drm_mga_buf_priv_t *buf_priv;
drm_mga_private_t *dev_priv = (drm_mga_private_t *)dev->dev_private;
drm_mga_freelist_t *item;
int i;
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dev_priv->head = drm_alloc(sizeof(drm_mga_freelist_t), DRM_MEM_DRIVER);
if(dev_priv->head == NULL) return -ENOMEM;
memset(dev_priv->head, 0, sizeof(drm_mga_freelist_t));
dev_priv->head->age = MGA_BUF_USED;
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for (i = 0; i < dma->buf_count; i++) {
buf = dma->buflist[ i ];
buf_priv = buf->dev_private;
item = drm_alloc(sizeof(drm_mga_freelist_t),
DRM_MEM_DRIVER);
if(item == NULL) return -ENOMEM;
memset(item, 0, sizeof(drm_mga_freelist_t));
item->age = MGA_BUF_FREE;
item->prev = dev_priv->head;
item->next = dev_priv->head->next;
if(dev_priv->head->next != NULL)
dev_priv->head->next->prev = item;
if(item->next == NULL) dev_priv->tail = item;
item->buf = buf;
buf_priv->my_freelist = item;
buf_priv->discard = 0;
buf_priv->dispatched = 0;
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dev_priv->head->next = item;
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}
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return 0;
}
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static void mga_freelist_cleanup(drm_device_t *dev)
{
drm_mga_private_t *dev_priv = (drm_mga_private_t *)dev->dev_private;
drm_mga_freelist_t *item;
drm_mga_freelist_t *prev;
item = dev_priv->head;
while(item) {
prev = item;
item = item->next;
drm_free(prev, sizeof(drm_mga_freelist_t), DRM_MEM_DRIVER);
}
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dev_priv->head = dev_priv->tail = NULL;
}
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/* Frees dispatch lock */
static inline void mga_dma_quiescent(drm_device_t *dev)
{
drm_device_dma_t *dma = dev->dma;
drm_mga_private_t *dev_priv = (drm_mga_private_t *)dev->dev_private;
drm_mga_sarea_t *sarea_priv = dev_priv->sarea_priv;
unsigned long end;
int i;
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DRM_DEBUG("dispatch_status = 0x%02lx\n", dev_priv->dispatch_status);
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end = jiffies + (HZ*3);
while(1) {
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if(!test_and_set_bit(MGA_IN_DISPATCH,
&dev_priv->dispatch_status)) {
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break;
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}
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if((signed)(end - jiffies) <= 0) {
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DRM_ERROR("irqs: %d wanted %d\n",
atomic_read(&dev->total_irq),
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atomic_read(&dma->total_lost));
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DRM_ERROR("lockup: dispatch_status = 0x%02lx,"
" jiffies = %lu, end = %lu\n",
dev_priv->dispatch_status, jiffies, end);
return;
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}
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for (i = 0 ; i < 2000 ; i++) mga_delay();
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}
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end = jiffies + (HZ*3);
DRM_DEBUG("quiescent status : %x\n", MGA_READ(MGAREG_STATUS));
while((MGA_READ(MGAREG_STATUS) & 0x00030001) != 0x00020000) {
if((signed)(end - jiffies) <= 0) {
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DRM_ERROR("irqs: %d wanted %d\n",
atomic_read(&dev->total_irq),
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atomic_read(&dma->total_lost));
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DRM_ERROR("lockup\n");
clear_bit(MGA_IN_DISPATCH, &dev_priv->dispatch_status);
return;
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}
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for (i = 0 ; i < 2000 ; i++) mga_delay();
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}
sarea_priv->dirty |= MGA_DMA_FLUSH;
clear_bit(MGA_IN_DISPATCH, &dev_priv->dispatch_status);
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DRM_DEBUG("exit, dispatch_status = 0x%02lx\n",
dev_priv->dispatch_status);
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}
static void mga_reset_freelist(drm_device_t *dev)
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{
drm_device_dma_t *dma = dev->dma;
drm_buf_t *buf;
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drm_mga_buf_priv_t *buf_priv;
int i;
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for (i = 0; i < dma->buf_count; i++) {
buf = dma->buflist[ i ];
buf_priv = buf->dev_private;
buf_priv->my_freelist->age = MGA_BUF_FREE;
}
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}
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/* Least recently used :
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* These operations are not atomic b/c they are protected by the
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* hardware lock */
drm_buf_t *mga_freelist_get(drm_device_t *dev)
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{
DECLARE_WAITQUEUE(entry, current);
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drm_mga_private_t *dev_priv =
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(drm_mga_private_t *) dev->dev_private;
drm_mga_freelist_t *prev;
drm_mga_freelist_t *next;
static int failed = 0;
int return_null = 0;
if(failed >= 1000 && dev_priv->tail->age >= dev_priv->last_prim_age) {
DRM_DEBUG("Waiting on freelist,"
" tail->age = %d, last_prim_age= %d\n",
dev_priv->tail->age,
dev_priv->last_prim_age);
add_wait_queue(&dev_priv->buf_queue, &entry);
set_bit(MGA_IN_GETBUF, &dev_priv->dispatch_status);
for (;;) {
current->state = TASK_INTERRUPTIBLE;
mga_dma_schedule(dev, 0);
if(dev_priv->tail->age < dev_priv->last_prim_age)
break;
atomic_inc(&dev->total_sleeps);
schedule();
if (signal_pending(current)) {
++return_null;
break;
}
}
clear_bit(MGA_IN_GETBUF, &dev_priv->dispatch_status);
current->state = TASK_RUNNING;
remove_wait_queue(&dev_priv->buf_queue, &entry);
if (return_null) return NULL;
}
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if(dev_priv->tail->age < dev_priv->last_prim_age) {
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prev = dev_priv->tail->prev;
next = dev_priv->tail;
prev->next = NULL;
next->prev = next->next = NULL;
dev_priv->tail = prev;
next->age = MGA_BUF_USED;
failed = 0;
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return next->buf;
}
failed++;
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return NULL;
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}
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int mga_freelist_put(drm_device_t *dev, drm_buf_t *buf)
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{
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drm_mga_private_t *dev_priv =
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(drm_mga_private_t *) dev->dev_private;
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drm_mga_buf_priv_t *buf_priv = buf->dev_private;
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drm_mga_freelist_t *prev;
drm_mga_freelist_t *head;
drm_mga_freelist_t *next;
if(buf_priv->my_freelist->age == MGA_BUF_USED) {
/* Discarded buffer, put it on the tail */
next = buf_priv->my_freelist;
next->age = MGA_BUF_FREE;
prev = dev_priv->tail;
prev->next = next;
next->prev = prev;
next->next = NULL;
dev_priv->tail = next;
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} else {
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/* Normally aged buffer, put it on the head + 1,
* as the real head is a sentinal element
*/
next = buf_priv->my_freelist;
head = dev_priv->head;
prev = head->next;
head->next = next;
prev->prev = next;
next->prev = head;
next->next = prev;
}
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return 0;
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}
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static int mga_init_primary_bufs(drm_device_t *dev, drm_mga_init_t *init)
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{
drm_mga_private_t *dev_priv = dev->dev_private;
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drm_mga_prim_buf_t *prim_buffer;
int i, temp, size_of_buf;
int offset = init->reserved_map_agpstart;
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dev_priv->primary_size = ((init->primary_size + PAGE_SIZE - 1) /
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PAGE_SIZE) * PAGE_SIZE;
size_of_buf = dev_priv->primary_size / MGA_NUM_PRIM_BUFS;
dev_priv->warp_ucode_size = init->warp_ucode_size;
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dev_priv->prim_bufs = drm_alloc(sizeof(drm_mga_prim_buf_t *) *
(MGA_NUM_PRIM_BUFS + 1),
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DRM_MEM_DRIVER);
if(dev_priv->prim_bufs == NULL) {
DRM_ERROR("Unable to allocate memory for prim_buf\n");
return -ENOMEM;
}
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memset(dev_priv->prim_bufs,
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0, sizeof(drm_mga_prim_buf_t *) * (MGA_NUM_PRIM_BUFS + 1));
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temp = init->warp_ucode_size + dev_priv->primary_size;
temp = ((temp + PAGE_SIZE - 1) / PAGE_SIZE) * PAGE_SIZE;
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dev_priv->ioremap = drm_ioremap(dev->agp->base + offset,
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temp);
if(dev_priv->ioremap == NULL) {
DRM_ERROR("Ioremap failed\n");
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return -ENOMEM;
}
init_waitqueue_head(&dev_priv->wait_queue);
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for(i = 0; i < MGA_NUM_PRIM_BUFS; i++) {
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prim_buffer = drm_alloc(sizeof(drm_mga_prim_buf_t),
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DRM_MEM_DRIVER);
if(prim_buffer == NULL) return -ENOMEM;
memset(prim_buffer, 0, sizeof(drm_mga_prim_buf_t));
prim_buffer->phys_head = offset + dev->agp->base;
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prim_buffer->current_dma_ptr =
prim_buffer->head =
(u32 *) (dev_priv->ioremap +
offset -
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init->reserved_map_agpstart);
prim_buffer->num_dwords = 0;
prim_buffer->max_dwords = size_of_buf / sizeof(u32);
prim_buffer->max_dwords -= 5; /* Leave room for the softrap */
prim_buffer->sec_used = 0;
prim_buffer->idx = i;
prim_buffer->prim_age = i + 1;
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offset = offset + size_of_buf;
dev_priv->prim_bufs[i] = prim_buffer;
}
dev_priv->current_prim_idx = 0;
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dev_priv->next_prim =
dev_priv->last_prim =
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dev_priv->current_prim =
dev_priv->prim_bufs[0];
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dev_priv->next_prim_age = 2;
dev_priv->last_prim_age = 1;
set_bit(MGA_BUF_IN_USE, &dev_priv->current_prim->buffer_status);
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return 0;
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}
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void mga_fire_primary(drm_device_t *dev, drm_mga_prim_buf_t *prim)
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{
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drm_mga_private_t *dev_priv = dev->dev_private;
drm_device_dma_t *dma = dev->dma;
drm_mga_sarea_t *sarea_priv = dev_priv->sarea_priv;
int use_agp = PDEA_pagpxfer_enable;
unsigned long end;
int i;
int next_idx;
PRIMLOCALS;
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dev_priv->last_prim = prim;
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/* We never check for overflow, b/c there is always room */
PRIMPTR(prim);
if(num_dwords <= 0) {
DRM_ERROR("num_dwords == 0 when dispatched\n");
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goto out_prim_wait;
}
PRIMOUTREG( MGAREG_DMAPAD, 0);
PRIMOUTREG( MGAREG_DMAPAD, 0);
PRIMOUTREG( MGAREG_DMAPAD, 0);
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PRIMOUTREG( MGAREG_SOFTRAP, 0);
PRIMFINISH(prim);
end = jiffies + (HZ*3);
if(sarea_priv->dirty & MGA_DMA_FLUSH) {
while((MGA_READ(MGAREG_STATUS) & 0x00030001) != 0x00020000) {
if((signed)(end - jiffies) <= 0) {
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DRM_ERROR("irqs: %d wanted %d\n",
atomic_read(&dev->total_irq),
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atomic_read(&dma->total_lost));
DRM_ERROR("lockup (flush)\n");
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goto out_prim_wait;
}
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for (i = 0 ; i < 4096 ; i++) mga_delay();
}
sarea_priv->dirty &= ~(MGA_DMA_FLUSH);
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} else {
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while((MGA_READ(MGAREG_STATUS) & 0x00020001) != 0x00020000) {
if((signed)(end - jiffies) <= 0) {
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DRM_ERROR("irqs: %d wanted %d\n",
atomic_read(&dev->total_irq),
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atomic_read(&dma->total_lost));
DRM_ERROR("lockup (wait)\n");
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goto out_prim_wait;
}
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for (i = 0 ; i < 4096 ; i++) mga_delay();
}
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}
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mga_flush_write_combine();
atomic_inc(&dev_priv->pending_bufs);
MGA_WRITE(MGAREG_PRIMADDRESS, phys_head | TT_GENERAL);
MGA_WRITE(MGAREG_PRIMEND, (phys_head + num_dwords * 4) | use_agp);
prim->num_dwords = 0;
sarea_priv->last_enqueue = prim->prim_age;
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next_idx = prim->idx + 1;
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if(next_idx >= MGA_NUM_PRIM_BUFS)
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next_idx = 0;
dev_priv->next_prim = dev_priv->prim_bufs[next_idx];
return;
out_prim_wait:
prim->num_dwords = 0;
prim->sec_used = 0;
clear_bit(MGA_BUF_IN_USE, &prim->buffer_status);
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wake_up_interruptible(&dev_priv->wait_queue);
clear_bit(MGA_BUF_SWAP_PENDING, &prim->buffer_status);
clear_bit(MGA_IN_DISPATCH, &dev_priv->dispatch_status);
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}
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int mga_advance_primary(drm_device_t *dev)
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{
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DECLARE_WAITQUEUE(entry, current);
drm_mga_private_t *dev_priv = dev->dev_private;
drm_mga_prim_buf_t *prim_buffer;
drm_device_dma_t *dma = dev->dma;
int next_prim_idx;
int ret = 0;
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/* This needs to reset the primary buffer if available,
* we should collect stats on how many times it bites
* it's tail */
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next_prim_idx = dev_priv->current_prim_idx + 1;
if(next_prim_idx >= MGA_NUM_PRIM_BUFS)
next_prim_idx = 0;
prim_buffer = dev_priv->prim_bufs[next_prim_idx];
set_bit(MGA_IN_WAIT, &dev_priv->dispatch_status);
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/* In use is cleared in interrupt handler */
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if(test_and_set_bit(MGA_BUF_IN_USE, &prim_buffer->buffer_status)) {
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add_wait_queue(&dev_priv->wait_queue, &entry);
for (;;) {
current->state = TASK_INTERRUPTIBLE;
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mga_dma_schedule(dev, 0);
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if(!test_and_set_bit(MGA_BUF_IN_USE,
&prim_buffer->buffer_status))
break;
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atomic_inc(&dev->total_sleeps);
atomic_inc(&dma->total_missed_sched);
schedule();
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if (signal_pending(current)) {
ret = -ERESTARTSYS;
break;
}
}
current->state = TASK_RUNNING;
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remove_wait_queue(&dev_priv->wait_queue, &entry);
if(ret) return ret;
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}
clear_bit(MGA_IN_WAIT, &dev_priv->dispatch_status);
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/* This primary buffer is now free to use */
prim_buffer->current_dma_ptr = prim_buffer->head;
prim_buffer->num_dwords = 0;
prim_buffer->sec_used = 0;
prim_buffer->prim_age = dev_priv->next_prim_age++;
if(prim_buffer->prim_age == 0 || prim_buffer->prim_age == 0xffffffff) {
mga_flush_queue(dev);
mga_dma_quiescent(dev);
mga_reset_freelist(dev);
prim_buffer->prim_age = (dev_priv->next_prim_age += 2);
}
/* Reset all buffer status stuff */
clear_bit(MGA_BUF_NEEDS_OVERFLOW, &prim_buffer->buffer_status);
clear_bit(MGA_BUF_FORCE_FIRE, &prim_buffer->buffer_status);
clear_bit(MGA_BUF_SWAP_PENDING, &prim_buffer->buffer_status);
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dev_priv->current_prim = prim_buffer;
dev_priv->current_prim_idx = next_prim_idx;
return 0;
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}
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/* More dynamic performance decisions */
static inline int mga_decide_to_fire(drm_device_t *dev)
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{
drm_mga_private_t *dev_priv = (drm_mga_private_t *)dev->dev_private;
if(test_bit(MGA_BUF_FORCE_FIRE, &dev_priv->next_prim->buffer_status)) {
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return 1;
}
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if (test_bit(MGA_IN_GETBUF, &dev_priv->dispatch_status) &&
dev_priv->next_prim->num_dwords) {
return 1;
}
if (test_bit(MGA_IN_FLUSH, &dev_priv->dispatch_status) &&
dev_priv->next_prim->num_dwords) {
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return 1;
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}
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if(atomic_read(&dev_priv->pending_bufs) <= MGA_NUM_PRIM_BUFS - 1) {
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if(test_bit(MGA_BUF_SWAP_PENDING,
&dev_priv->next_prim->buffer_status)) {
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return 1;
}
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}
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if(atomic_read(&dev_priv->pending_bufs) <= MGA_NUM_PRIM_BUFS / 2) {
if(dev_priv->next_prim->sec_used >= MGA_DMA_BUF_NR / 8) {
return 1;
}
}
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if(atomic_read(&dev_priv->pending_bufs) >= MGA_NUM_PRIM_BUFS / 2) {
if(dev_priv->next_prim->sec_used >= MGA_DMA_BUF_NR / 4) {
return 1;
}
}
return 0;
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}
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int mga_dma_schedule(drm_device_t *dev, int locked)
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{
drm_mga_private_t *dev_priv = (drm_mga_private_t *)dev->dev_private;
int retval = 0;
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if (!dev_priv) return -EBUSY;
if (test_and_set_bit(0, &dev->dma_flag)) {
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retval = -EBUSY;
goto sch_out_wakeup;
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}
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if(test_bit(MGA_IN_FLUSH, &dev_priv->dispatch_status) ||
test_bit(MGA_IN_WAIT, &dev_priv->dispatch_status) ||
test_bit(MGA_IN_GETBUF, &dev_priv->dispatch_status)) {
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locked = 1;
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}
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if (!locked &&
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!drm_lock_take(&dev->lock.hw_lock->lock, DRM_KERNEL_CONTEXT)) {
clear_bit(0, &dev->dma_flag);
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retval = -EBUSY;
goto sch_out_wakeup;
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}
if(!test_and_set_bit(MGA_IN_DISPATCH, &dev_priv->dispatch_status)) {
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/* Fire dma buffer */
if(mga_decide_to_fire(dev)) {
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clear_bit(MGA_BUF_FORCE_FIRE,
&dev_priv->next_prim->buffer_status);
if(dev_priv->current_prim == dev_priv->next_prim) {
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/* Schedule overflow for a later time */
set_bit(MGA_BUF_NEEDS_OVERFLOW,
&dev_priv->next_prim->buffer_status);
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}
mga_fire_primary(dev, dev_priv->next_prim);
} else {
clear_bit(MGA_IN_DISPATCH, &dev_priv->dispatch_status);
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}
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}
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if (!locked) {
if (drm_lock_free(dev, &dev->lock.hw_lock->lock,
DRM_KERNEL_CONTEXT)) {
DRM_ERROR("\n");
}
}
clear_bit(0, &dev->dma_flag);
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sch_out_wakeup:
if(test_bit(MGA_IN_FLUSH, &dev_priv->dispatch_status) &&
atomic_read(&dev_priv->pending_bufs) == 0) {
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/* Everything has been processed by the hardware */
clear_bit(MGA_IN_FLUSH, &dev_priv->dispatch_status);
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wake_up_interruptible(&dev_priv->flush_queue);
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}
if(test_bit(MGA_IN_GETBUF, &dev_priv->dispatch_status)
&& dev_priv->tail->age < dev_priv->last_prim_age)
wake_up_interruptible(&dev_priv->buf_queue);
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return retval;
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}
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static void mga_dma_service(int irq, void *device, struct pt_regs *regs)
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{
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drm_device_t *dev = (drm_device_t *)device;
drm_mga_private_t *dev_priv = (drm_mga_private_t *)dev->dev_private;
drm_mga_prim_buf_t *last_prim_buffer;
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atomic_inc(&dev->total_irq);
if((MGA_READ(MGAREG_STATUS) & 0x00000001) != 0x00000001) return;
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MGA_WRITE(MGAREG_ICLEAR, 0x00000001);
last_prim_buffer = dev_priv->last_prim;
last_prim_buffer->num_dwords = 0;
last_prim_buffer->sec_used = 0;
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dev_priv->sarea_priv->last_dispatch =
dev_priv->last_prim_age = last_prim_buffer->prim_age;
clear_bit(MGA_BUF_IN_USE, &last_prim_buffer->buffer_status);
clear_bit(MGA_BUF_SWAP_PENDING, &last_prim_buffer->buffer_status);
clear_bit(MGA_IN_DISPATCH, &dev_priv->dispatch_status);
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atomic_dec(&dev_priv->pending_bufs);
queue_task(&dev->tq, &tq_immediate);
mark_bh(IMMEDIATE_BH);
wake_up_interruptible(&dev_priv->wait_queue);
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}
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static void mga_dma_task_queue(void *device)
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{
mga_dma_schedule((drm_device_t *)device, 0);
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}
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int mga_dma_cleanup(drm_device_t *dev)
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{
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if(dev->dev_private) {
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drm_mga_private_t *dev_priv =
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(drm_mga_private_t *) dev->dev_private;
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if (dev->irq) mga_flush_queue(dev);
mga_dma_quiescent(dev);
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if(dev_priv->ioremap) {
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int temp = (dev_priv->warp_ucode_size +
dev_priv->primary_size +
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PAGE_SIZE - 1) / PAGE_SIZE * PAGE_SIZE;
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drm_ioremapfree((void *) dev_priv->ioremap, temp);
}
if(dev_priv->status_page != NULL) {
iounmap(dev_priv->status_page);
}
if(dev_priv->real_status_page != 0UL) {
mga_free_page(dev, dev_priv->real_status_page);
}
if(dev_priv->prim_bufs != NULL) {
int i;
for(i = 0; i < MGA_NUM_PRIM_BUFS; i++) {
if(dev_priv->prim_bufs[i] != NULL) {
drm_free(dev_priv->prim_bufs[i],
sizeof(drm_mga_prim_buf_t),
DRM_MEM_DRIVER);
}
}
drm_free(dev_priv->prim_bufs, sizeof(void *) *
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(MGA_NUM_PRIM_BUFS + 1),
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DRM_MEM_DRIVER);
}
if(dev_priv->head != NULL) {
mga_freelist_cleanup(dev);
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}
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drm_free(dev->dev_private, sizeof(drm_mga_private_t),
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DRM_MEM_DRIVER);
dev->dev_private = NULL;
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}
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return 0;
}
static int mga_dma_initialize(drm_device_t *dev, drm_mga_init_t *init) {
drm_mga_private_t *dev_priv;
drm_map_t *sarea_map = NULL;
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dev_priv = drm_alloc(sizeof(drm_mga_private_t), DRM_MEM_DRIVER);
if(dev_priv == NULL) return -ENOMEM;
dev->dev_private = (void *) dev_priv;
memset(dev_priv, 0, sizeof(drm_mga_private_t));
if((init->reserved_map_idx >= dev->map_count) ||
(init->buffer_map_idx >= dev->map_count)) {
mga_dma_cleanup(dev);
return -EINVAL;
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}
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dev_priv->reserved_map_idx = init->reserved_map_idx;
dev_priv->buffer_map_idx = init->buffer_map_idx;
sarea_map = dev->maplist[0];
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dev_priv->sarea_priv = (drm_mga_sarea_t *)
((u8 *)sarea_map->handle +
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init->sarea_priv_offset);
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/* Scale primary size to the next page */
dev_priv->chipset = init->chipset;
dev_priv->frontOffset = init->frontOffset;
dev_priv->backOffset = init->backOffset;
dev_priv->depthOffset = init->depthOffset;
dev_priv->textureOffset = init->textureOffset;
dev_priv->textureSize = init->textureSize;
dev_priv->cpp = init->cpp;
dev_priv->sgram = init->sgram;
dev_priv->stride = init->stride;
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dev_priv->mAccess = init->mAccess;
init_waitqueue_head(&dev_priv->flush_queue);
init_waitqueue_head(&dev_priv->buf_queue);
dev_priv->WarpPipe = 0xff000000;
dev_priv->vertexsize = 0;
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DRM_DEBUG("chipset=%d ucode_size=%d backOffset=%x depthOffset=%x\n",
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dev_priv->chipset, dev_priv->warp_ucode_size,
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dev_priv->backOffset, dev_priv->depthOffset);
DRM_DEBUG("cpp: %d sgram: %d stride: %d maccess: %x\n",
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dev_priv->cpp, dev_priv->sgram, dev_priv->stride,
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dev_priv->mAccess);
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memcpy(&dev_priv->WarpIndex, &init->WarpIndex,
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sizeof(drm_mga_warp_index_t) * MGA_MAX_WARP_PIPES);
if(mga_init_primary_bufs(dev, init) != 0) {
DRM_ERROR("Can not initialize primary buffers\n");
mga_dma_cleanup(dev);
return -ENOMEM;
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}
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dev_priv->real_status_page = mga_alloc_page(dev);
if(dev_priv->real_status_page == 0UL) {
mga_dma_cleanup(dev);
DRM_ERROR("Can not allocate status page\n");
return -ENOMEM;
}
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dev_priv->status_page =
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ioremap_nocache(virt_to_bus((void *)dev_priv->real_status_page),
PAGE_SIZE);
if(dev_priv->status_page == NULL) {
mga_dma_cleanup(dev);
DRM_ERROR("Can not remap status page\n");
return -ENOMEM;
}
/* Write status page when secend or softrap occurs */
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MGA_WRITE(MGAREG_PRIMPTR,
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virt_to_bus((void *)dev_priv->real_status_page) | 0x00000003);
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/* Private is now filled in, initialize the hardware */
{
PRIMLOCALS;
PRIMGETPTR( dev_priv );
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PRIMOUTREG(MGAREG_DMAPAD, 0);
PRIMOUTREG(MGAREG_DMAPAD, 0);
PRIMOUTREG(MGAREG_DWGSYNC, 0x0100);
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PRIMOUTREG(MGAREG_SOFTRAP, 0);
/* Poll for the first buffer to insure that
* the status register will be correct
*/
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mga_flush_write_combine();
MGA_WRITE(MGAREG_PRIMADDRESS, phys_head | TT_GENERAL);
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MGA_WRITE(MGAREG_PRIMEND, ((phys_head + num_dwords * 4) |
2000-04-04 16:08:14 -06:00
PDEA_pagpxfer_enable));
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while(MGA_READ(MGAREG_DWGSYNC) != 0x0100) ;
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}
if(mga_freelist_init(dev) != 0) {
DRM_ERROR("Could not initialize freelist\n");
mga_dma_cleanup(dev);
return -ENOMEM;
}
return 0;
}
int mga_dma_init(struct inode *inode, struct file *filp,
unsigned int cmd, unsigned long arg)
{
drm_file_t *priv = filp->private_data;
drm_device_t *dev = priv->dev;
drm_mga_init_t init;
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if (copy_from_user(&init, (drm_mga_init_t *)arg, sizeof(init)))
return -EFAULT;
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switch(init.func) {
case MGA_INIT_DMA:
return mga_dma_initialize(dev, &init);
case MGA_CLEANUP_DMA:
return mga_dma_cleanup(dev);
}
return -EINVAL;
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}
int mga_irq_install(drm_device_t *dev, int irq)
{
int retcode;
if (!irq) return -EINVAL;
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down(&dev->struct_sem);
if (dev->irq) {
up(&dev->struct_sem);
return -EBUSY;
}
dev->irq = irq;
up(&dev->struct_sem);
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DRM_DEBUG("install irq handler %d\n", irq);
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dev->context_flag = 0;
dev->interrupt_flag = 0;
dev->dma_flag = 0;
dev->dma->next_buffer = NULL;
dev->dma->next_queue = NULL;
dev->dma->this_buffer = NULL;
2001-01-04 11:41:41 -07:00
INIT_LIST_HEAD(&dev->tq.list);
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dev->tq.sync = 0;
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dev->tq.routine = mga_dma_task_queue;
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dev->tq.data = dev;
/* Before installing handler */
MGA_WRITE(MGAREG_IEN, 0);
/* Install handler */
if ((retcode = request_irq(dev->irq,
mga_dma_service,
SA_SHIRQ,
2000-02-22 08:43:59 -07:00
dev->devname,
dev))) {
down(&dev->struct_sem);
dev->irq = 0;
up(&dev->struct_sem);
return retcode;
}
/* After installing handler */
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MGA_WRITE(MGAREG_ICLEAR, 0x00000001);
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MGA_WRITE(MGAREG_IEN, 0x00000001);
return 0;
}
int mga_irq_uninstall(drm_device_t *dev)
{
int irq;
down(&dev->struct_sem);
irq = dev->irq;
dev->irq = 0;
up(&dev->struct_sem);
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if (!irq) return -EINVAL;
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DRM_DEBUG("remove irq handler %d\n", irq);
MGA_WRITE(MGAREG_ICLEAR, 0x00000001);
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MGA_WRITE(MGAREG_IEN, 0);
free_irq(irq, dev);
return 0;
}
int mga_control(struct inode *inode, struct file *filp, unsigned int cmd,
unsigned long arg)
{
drm_file_t *priv = filp->private_data;
drm_device_t *dev = priv->dev;
drm_control_t ctl;
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if (copy_from_user(&ctl, (drm_control_t *)arg, sizeof(ctl)))
return -EFAULT;
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switch (ctl.func) {
case DRM_INST_HANDLER:
return mga_irq_install(dev, ctl.irq);
case DRM_UNINST_HANDLER:
return mga_irq_uninstall(dev);
default:
return -EINVAL;
}
}
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static int mga_flush_queue(drm_device_t *dev)
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{
DECLARE_WAITQUEUE(entry, current);
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drm_mga_private_t *dev_priv = (drm_mga_private_t *)dev->dev_private;
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int ret = 0;
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if(!dev_priv) return 0;
2000-09-06 14:56:34 -06:00
2000-04-04 16:08:14 -06:00
if(dev_priv->next_prim->num_dwords != 0) {
add_wait_queue(&dev_priv->flush_queue, &entry);
if (test_bit(MGA_IN_FLUSH, &dev_priv->dispatch_status))
DRM_ERROR("Incorrect mga_flush_queue logic\n");
2000-07-11 05:41:07 -06:00
set_bit(MGA_IN_FLUSH, &dev_priv->dispatch_status);
mga_dma_schedule(dev, 0);
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for (;;) {
current->state = TASK_INTERRUPTIBLE;
2000-09-06 14:56:34 -06:00
if (!test_bit(MGA_IN_FLUSH,
&dev_priv->dispatch_status))
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break;
atomic_inc(&dev->total_sleeps);
schedule();
2000-04-04 16:08:14 -06:00
if (signal_pending(current)) {
ret = -EINTR; /* Can't restart */
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clear_bit(MGA_IN_FLUSH,
&dev_priv->dispatch_status);
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break;
}
}
current->state = TASK_RUNNING;
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remove_wait_queue(&dev_priv->flush_queue, &entry);
}
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return ret;
}
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/* Must be called with the lock held */
void mga_reclaim_buffers(drm_device_t *dev, pid_t pid)
{
drm_device_dma_t *dma = dev->dma;
int i;
if (!dma) return;
if(dev->dev_private == NULL) return;
2000-04-05 12:48:23 -06:00
if(dma->buflist == NULL) return;
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DRM_DEBUG("buf_count=%d\n", dma->buf_count);
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mga_flush_queue(dev);
for (i = 0; i < dma->buf_count; i++) {
drm_buf_t *buf = dma->buflist[ i ];
drm_mga_buf_priv_t *buf_priv = buf->dev_private;
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/* Only buffers that need to get reclaimed ever
* get set to free
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*/
if (buf->pid == pid && buf_priv) {
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if(buf_priv->my_freelist->age == MGA_BUF_USED)
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buf_priv->my_freelist->age = MGA_BUF_FREE;
}
}
}
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int mga_lock(struct inode *inode, struct file *filp, unsigned int cmd,
unsigned long arg)
{
drm_file_t *priv = filp->private_data;
drm_device_t *dev = priv->dev;
DECLARE_WAITQUEUE(entry, current);
int ret = 0;
drm_lock_t lock;
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if (copy_from_user(&lock, (drm_lock_t *)arg, sizeof(lock)))
return -EFAULT;
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if (lock.context == DRM_KERNEL_CONTEXT) {
DRM_ERROR("Process %d using kernel context %d\n",
current->pid, lock.context);
return -EINVAL;
}
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if (lock.context < 0) return -EINVAL;
2000-09-06 14:56:34 -06:00
2000-02-22 08:43:59 -07:00
/* Only one queue:
*/
if (!ret) {
add_wait_queue(&dev->lock.lock_queue, &entry);
for (;;) {
current->state = TASK_INTERRUPTIBLE;
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if (!dev->lock.hw_lock) {
/* Device has been unregistered */
ret = -EINTR;
break;
}
if (drm_lock_take(&dev->lock.hw_lock->lock,
lock.context)) {
dev->lock.pid = current->pid;
dev->lock.lock_time = jiffies;
atomic_inc(&dev->total_locks);
break; /* Got lock */
}
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/* Contention */
atomic_inc(&dev->total_sleeps);
schedule();
if (signal_pending(current)) {
ret = -ERESTARTSYS;
break;
}
}
current->state = TASK_RUNNING;
remove_wait_queue(&dev->lock.lock_queue, &entry);
}
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if (!ret) {
sigemptyset(&dev->sigmask);
sigaddset(&dev->sigmask, SIGSTOP);
sigaddset(&dev->sigmask, SIGTSTP);
sigaddset(&dev->sigmask, SIGTTIN);
sigaddset(&dev->sigmask, SIGTTOU);
dev->sigdata.context = lock.context;
dev->sigdata.lock = dev->lock.hw_lock;
block_all_signals(drm_notifier, &dev->sigdata, &dev->sigmask);
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if (lock.flags & _DRM_LOCK_QUIESCENT) {
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DRM_DEBUG("_DRM_LOCK_QUIESCENT\n");
mga_flush_queue(dev);
mga_dma_quiescent(dev);
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}
}
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if (ret) DRM_DEBUG("%d %s\n", lock.context,
ret ? "interrupted" : "has lock");
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return ret;
}
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int mga_flush_ioctl(struct inode *inode, struct file *filp,
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unsigned int cmd, unsigned long arg)
{
drm_file_t *priv = filp->private_data;
drm_device_t *dev = priv->dev;
drm_lock_t lock;
drm_mga_private_t *dev_priv = (drm_mga_private_t *)dev->dev_private;
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if (copy_from_user(&lock, (drm_lock_t *)arg, sizeof(lock)))
return -EFAULT;
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if(!_DRM_LOCK_IS_HELD(dev->lock.hw_lock->lock)) {
DRM_ERROR("lock not held\n");
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return -EINVAL;
}
if(lock.flags & _DRM_LOCK_FLUSH || lock.flags & _DRM_LOCK_FLUSH_ALL) {
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drm_mga_prim_buf_t *temp_buf;
temp_buf = dev_priv->current_prim;
if(temp_buf && temp_buf->num_dwords) {
set_bit(MGA_BUF_FORCE_FIRE, &temp_buf->buffer_status);
mga_advance_primary(dev);
}
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mga_dma_schedule(dev, 1);
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}
if(lock.flags & _DRM_LOCK_QUIESCENT) {
mga_flush_queue(dev);
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mga_dma_quiescent(dev);
}
return 0;
}