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/*
* Copyright (C) The Weather Channel, Inc. 2002. All Rights Reserved.
* Copyright 2005 Stephane Marchesin
*
* The Weather Channel (TM) funded Tungsten Graphics to develop the
* initial release of the Radeon 8500 driver under the XFree86 license.
* This notice must be preserved.
*
* 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:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* 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
* THE AUTHORS AND/OR THEIR 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.
*
* Authors:
* Keith Whitwell <keith@tungstengraphics.com>
*/
#include "drmP.h"
#include "drm.h"
#include "drm_sarea.h"
#include "nouveau_drv.h"
static struct mem_block *split_block(struct mem_block *p, uint64_t start, uint64_t size,
DRMFILE filp)
{
/* Maybe cut off the start of an existing block */
if (start > p->start) {
struct mem_block *newblock =
drm_alloc(sizeof(*newblock), DRM_MEM_BUFS);
if (!newblock)
goto out;
newblock->start = start;
newblock->size = p->size - (start - p->start);
newblock->filp = NULL;
newblock->next = p->next;
newblock->prev = p;
p->next->prev = newblock;
p->next = newblock;
p->size -= newblock->size;
p = newblock;
}
/* Maybe cut off the end of an existing block */
if (size < p->size) {
struct mem_block *newblock =
drm_alloc(sizeof(*newblock), DRM_MEM_BUFS);
if (!newblock)
goto out;
newblock->start = start + size;
newblock->size = p->size - size;
newblock->filp = NULL;
newblock->next = p->next;
newblock->prev = p;
p->next->prev = newblock;
p->next = newblock;
p->size = size;
}
out:
/* Our block is in the middle */
p->filp = filp;
return p;
}
struct mem_block *nouveau_mem_alloc_block(struct mem_block *heap, uint64_t size,
int align2, DRMFILE filp)
{
struct mem_block *p;
uint64_t mask = (1 << align2) - 1;
if (!heap)
return NULL;
list_for_each(p, heap) {
uint64_t start = (p->start + mask) & ~mask;
if (p->filp == 0 && start + size <= p->start + p->size)
return split_block(p, start, size, filp);
}
return NULL;
}
static struct mem_block *find_block(struct mem_block *heap, uint64_t start)
{
struct mem_block *p;
list_for_each(p, heap)
if (p->start == start)
return p;
return NULL;
}
void nouveau_mem_free_block(struct mem_block *p)
{
p->filp = NULL;
/* Assumes a single contiguous range. Needs a special filp in
* 'heap' to stop it being subsumed.
*/
if (p->next->filp == 0) {
struct mem_block *q = p->next;
p->size += q->size;
p->next = q->next;
p->next->prev = p;
drm_free(q, sizeof(*q), DRM_MEM_BUFS);
}
if (p->prev->filp == 0) {
struct mem_block *q = p->prev;
q->size += p->size;
q->next = p->next;
q->next->prev = q;
drm_free(p, sizeof(*q), DRM_MEM_BUFS);
}
}
/* Initialize. How to check for an uninitialized heap?
*/
int nouveau_mem_init_heap(struct mem_block **heap, uint64_t start,
uint64_t size)
{
struct mem_block *blocks = drm_alloc(sizeof(*blocks), DRM_MEM_BUFS);
if (!blocks)
return DRM_ERR(ENOMEM);
*heap = drm_alloc(sizeof(**heap), DRM_MEM_BUFS);
if (!*heap) {
drm_free(blocks, sizeof(*blocks), DRM_MEM_BUFS);
return DRM_ERR(ENOMEM);
}
blocks->start = start;
blocks->size = size;
blocks->filp = NULL;
blocks->next = blocks->prev = *heap;
memset(*heap, 0, sizeof(**heap));
(*heap)->filp = (DRMFILE) - 1;
(*heap)->next = (*heap)->prev = blocks;
return 0;
}
/*
* Free all blocks associated with the releasing filp
*/
void nouveau_mem_release(DRMFILE filp, struct mem_block *heap)
{
struct mem_block *p;
if (!heap || !heap->next)
return;
list_for_each(p, heap) {
if (p->filp == filp)
p->filp = NULL;
}
/* Assumes a single contiguous range. Needs a special filp in
* 'heap' to stop it being subsumed.
*/
list_for_each(p, heap) {
while ((p->filp == 0) && (p->next->filp == 0) && (p->next!=heap)) {
struct mem_block *q = p->next;
p->size += q->size;
p->next = q->next;
p->next->prev = p;
drm_free(q, sizeof(*q), DRM_MEM_DRIVER);
}
}
}
/*
* Cleanup everything
*/
void nouveau_mem_takedown(struct mem_block **heap)
{
struct mem_block *p;
if (!*heap)
return;
for (p = (*heap)->next; p != *heap;) {
struct mem_block *q = p;
p = p->next;
drm_free(q, sizeof(*q), DRM_MEM_DRIVER);
}
drm_free(*heap, sizeof(**heap), DRM_MEM_DRIVER);
*heap = NULL;
}
void nouveau_mem_close(struct drm_device *dev)
{
struct drm_nouveau_private *dev_priv = dev->dev_private;
nouveau_mem_takedown(&dev_priv->agp_heap);
nouveau_mem_takedown(&dev_priv->fb_heap);
if ( dev_priv->pci_heap )
{
nouveau_mem_takedown(&dev_priv->pci_heap);
}
}
/* returns the amount of FB ram in bytes */
uint64_t nouveau_mem_fb_amount(struct drm_device *dev)
{
struct drm_nouveau_private *dev_priv=dev->dev_private;
switch(dev_priv->card_type)
{
case NV_03:
switch(NV_READ(NV03_BOOT_0)&NV03_BOOT_0_RAM_AMOUNT)
{
case NV03_BOOT_0_RAM_AMOUNT_8MB:
case NV03_BOOT_0_RAM_AMOUNT_8MB_SDRAM:
return 8*1024*1024;
case NV03_BOOT_0_RAM_AMOUNT_4MB:
return 4*1024*1024;
case NV03_BOOT_0_RAM_AMOUNT_2MB:
return 2*1024*1024;
}
break;
case NV_04:
case NV_05:
if (NV_READ(NV03_BOOT_0) & 0x00000100) {
return (((NV_READ(NV03_BOOT_0) >> 12) & 0xf)*2+2)*1024*1024;
} else
switch(NV_READ(NV03_BOOT_0)&NV03_BOOT_0_RAM_AMOUNT)
{
case NV04_BOOT_0_RAM_AMOUNT_32MB:
return 32*1024*1024;
case NV04_BOOT_0_RAM_AMOUNT_16MB:
return 16*1024*1024;
case NV04_BOOT_0_RAM_AMOUNT_8MB:
return 8*1024*1024;
case NV04_BOOT_0_RAM_AMOUNT_4MB:
return 4*1024*1024;
}
break;
case NV_10:
case NV_17:
case NV_20:
case NV_30:
case NV_40:
case NV_44:
case NV_50:
default:
// XXX won't work on BSD because of pci_read_config_dword
if (dev_priv->flags&NV_NFORCE) {
uint32_t mem;
pci_read_config_dword(dev->pdev, 0x7C, &mem);
return (uint64_t)(((mem >> 6) & 31) + 1)*1024*1024;
} else if(dev_priv->flags&NV_NFORCE2) {
uint32_t mem;
pci_read_config_dword(dev->pdev, 0x84, &mem);
return (uint64_t)(((mem >> 4) & 127) + 1)*1024*1024;
} else {
uint64_t mem;
mem=(NV_READ(NV04_FIFO_DATA)&NV10_FIFO_DATA_RAM_AMOUNT_MB_MASK) >> NV10_FIFO_DATA_RAM_AMOUNT_MB_SHIFT;
return mem*1024*1024;
}
break;
}
DRM_ERROR("Unable to detect video ram size. Please report your setup to " DRIVER_EMAIL "\n");
return 0;
}
int nouveau_mem_init(struct drm_device *dev)
{
struct drm_nouveau_private *dev_priv = dev->dev_private;
uint32_t fb_size;
drm_scatter_gather_t sgreq;
dev_priv->agp_phys=0;
dev_priv->fb_phys=0;
sgreq . size = 4 << 20; //4MB of PCI scatter-gather zone
/* init AGP */
dev_priv->agp_heap=NULL;
if (drm_device_is_agp(dev))
{
int err;
drm_agp_info_t info;
drm_agp_mode_t mode;
drm_agp_buffer_t agp_req;
drm_agp_binding_t bind_req;
err = drm_agp_acquire(dev);
if (err) {
DRM_ERROR("Unable to acquire AGP: %d\n", err);
goto no_agp;
}
err = drm_agp_info(dev, &info);
if (err) {
DRM_ERROR("Unable to get AGP info: %d\n", err);
goto no_agp;
}
/* see agp.h for the AGPSTAT_* modes available */
mode.mode = info.mode;
err = drm_agp_enable(dev, mode);
if (err) {
DRM_ERROR("Unable to enable AGP: %d\n", err);
goto no_agp;
}
agp_req.size = info.aperture_size;
agp_req.type = 0;
err = drm_agp_alloc(dev, &agp_req);
if (err) {
DRM_ERROR("Unable to alloc AGP: %d\n", err);
goto no_agp;
}
bind_req.handle = agp_req.handle;
bind_req.offset = 0;
err = drm_agp_bind(dev, &bind_req);
if (err) {
DRM_ERROR("Unable to bind AGP: %d\n", err);
goto no_agp;
}
if (nouveau_mem_init_heap(&dev_priv->agp_heap,
0, info.aperture_size))
goto no_agp;
dev_priv->agp_phys = info.aperture_base;
dev_priv->agp_available_size = info.aperture_size;
goto have_agp;
}
no_agp:
if ( dev_priv->card_type >= NV_50 ) goto no_pci;
dev_priv->pci_heap = NULL;
DRM_DEBUG("Allocating sg memory for PCI DMA\n");
if ( drm_sg_alloc(dev, &sgreq) )
{
DRM_ERROR("Unable to allocate 4MB of scatter-gather pages for PCI DMA!");
goto no_pci;
}
if ( nouveau_mem_init_heap(&dev_priv->pci_heap, 0,
dev->sg->pages * PAGE_SIZE))
{
DRM_ERROR("Unable to initialize pci_heap!");
goto no_pci;
}
no_pci:
have_agp:
/* setup a mtrr over the FB */
dev_priv->fb_mtrr = drm_mtrr_add(drm_get_resource_start(dev, 1),
nouveau_mem_fb_amount(dev),
DRM_MTRR_WC);
/* Init FB */
dev_priv->fb_phys=drm_get_resource_start(dev,1);
fb_size = nouveau_mem_fb_amount(dev);
/* On at least NV40, RAMIN is actually at the end of vram.
* We don't want to allocate this... */
if (dev_priv->card_type >= NV_40)
fb_size -= dev_priv->ramin_rsvd_vram;
dev_priv->fb_available_size = fb_size;
DRM_DEBUG("Available VRAM: %dKiB\n", fb_size>>10);
if (fb_size>256*1024*1024) {
/* On cards with > 256Mb, you can't map everything.
* So we create a second FB heap for that type of memory */
if (nouveau_mem_init_heap(&dev_priv->fb_heap,
0, 256*1024*1024))
return DRM_ERR(ENOMEM);
if (nouveau_mem_init_heap(&dev_priv->fb_nomap_heap,
256*1024*1024, fb_size-256*1024*1024))
return DRM_ERR(ENOMEM);
} else {
if (nouveau_mem_init_heap(&dev_priv->fb_heap, 0, fb_size))
return DRM_ERR(ENOMEM);
dev_priv->fb_nomap_heap=NULL;
}
return 0;
}
struct mem_block* nouveau_mem_alloc(struct drm_device *dev, int alignment, uint64_t size, int flags, DRMFILE filp)
{
struct mem_block *block;
int type;
struct drm_nouveau_private *dev_priv = dev->dev_private;
/*
* Make things easier on ourselves: all allocations are page-aligned.
* We need that to map allocated regions into the user space
*/
if (alignment < PAGE_SHIFT)
alignment = PAGE_SHIFT;
/*
* Warn about 0 sized allocations, but let it go through. It'll return 1 page
*/
if (size == 0)
DRM_INFO("warning : 0 byte allocation\n");
/*
* Keep alloc size a multiple of the page size to keep drm_addmap() happy
*/
if (size & (~PAGE_MASK))
size = ((size/PAGE_SIZE) + 1) * PAGE_SIZE;
#define NOUVEAU_MEM_ALLOC_AGP {\
type=NOUVEAU_MEM_AGP;\
block = nouveau_mem_alloc_block(dev_priv->agp_heap, size,\
alignment, filp);\
if (block) goto alloc_ok;\
}
#define NOUVEAU_MEM_ALLOC_PCI {\
type = NOUVEAU_MEM_PCI;\
block = nouveau_mem_alloc_block(dev_priv->pci_heap, size, alignment, filp);\
if ( block ) goto alloc_ok;\
}
#define NOUVEAU_MEM_ALLOC_FB {\
type=NOUVEAU_MEM_FB;\
if (!(flags&NOUVEAU_MEM_MAPPED)) {\
block = nouveau_mem_alloc_block(dev_priv->fb_nomap_heap,\
size, alignment, filp); \
if (block) goto alloc_ok;\
}\
block = nouveau_mem_alloc_block(dev_priv->fb_heap, size,\
alignment, filp);\
if (block) goto alloc_ok;\
}
if (flags&NOUVEAU_MEM_FB) NOUVEAU_MEM_ALLOC_FB
if (flags&NOUVEAU_MEM_AGP) NOUVEAU_MEM_ALLOC_AGP
if (flags&NOUVEAU_MEM_PCI) NOUVEAU_MEM_ALLOC_PCI
if (flags&NOUVEAU_MEM_FB_ACCEPTABLE) NOUVEAU_MEM_ALLOC_FB
if (flags&NOUVEAU_MEM_AGP_ACCEPTABLE) NOUVEAU_MEM_ALLOC_AGP
if (flags&NOUVEAU_MEM_PCI_ACCEPTABLE) NOUVEAU_MEM_ALLOC_PCI
return NULL;
alloc_ok:
block->flags=type;
if (flags&NOUVEAU_MEM_MAPPED)
{
drm_map_list_t *entry;
int ret = 0;
block->flags|=NOUVEAU_MEM_MAPPED;
if (type == NOUVEAU_MEM_AGP)
ret = drm_addmap(dev, block->start, block->size,
_DRM_AGP, 0, &block->map);
else if (type == NOUVEAU_MEM_FB)
ret = drm_addmap(dev, block->start + dev_priv->fb_phys,
block->size, _DRM_FRAME_BUFFER,
0, &block->map);
else if (type == NOUVEAU_MEM_PCI)
ret = drm_addmap(dev, block->start, block->size,
_DRM_SCATTER_GATHER, 0, &block->map);
if (ret) {
nouveau_mem_free_block(block);
return NULL;
}
entry = drm_find_matching_map(dev, block->map);
if (!entry) {
nouveau_mem_free_block(block);
return NULL;
}
block->map_handle = entry->user_token;
}
DRM_INFO("allocated 0x%llx\n", block->start);
return block;
}
void nouveau_mem_free(struct drm_device* dev, struct mem_block* block)
{
DRM_INFO("freeing 0x%llx\n", block->start);
if (block->flags&NOUVEAU_MEM_MAPPED)
drm_rmmap(dev, block->map);
nouveau_mem_free_block(block);
}
/*
* Ioctls
*/
int nouveau_ioctl_mem_alloc(DRM_IOCTL_ARGS)
{
DRM_DEVICE;
struct drm_nouveau_private *dev_priv = dev->dev_private;
struct drm_nouveau_mem_alloc alloc;
struct mem_block *block;
if (!dev_priv) {
DRM_ERROR("%s called with no initialization\n", __FUNCTION__);
return DRM_ERR(EINVAL);
}
DRM_COPY_FROM_USER_IOCTL(alloc,
(struct drm_nouveau_mem_alloc_t __user *) data,
sizeof(alloc));
block=nouveau_mem_alloc(dev, alloc.alignment, alloc.size, alloc.flags, filp);
if (!block)
return DRM_ERR(ENOMEM);
alloc.map_handle=block->map_handle;
alloc.offset=block->start;
alloc.flags=block->flags;
DRM_COPY_TO_USER_IOCTL((struct drm_nouveau_mem_alloc __user *)data,
alloc, sizeof(alloc));
return 0;
}
int nouveau_ioctl_mem_free(DRM_IOCTL_ARGS)
{
DRM_DEVICE;
struct drm_nouveau_private *dev_priv = dev->dev_private;
struct drm_nouveau_mem_free memfree;
struct mem_block *block;
DRM_COPY_FROM_USER_IOCTL(memfree,
(struct drm_nouveau_mem_free_t __user *)data,
sizeof(memfree));
block=NULL;
if (memfree.flags&NOUVEAU_MEM_FB)
block = find_block(dev_priv->fb_heap, memfree.offset);
else if (memfree.flags&NOUVEAU_MEM_AGP)
block = find_block(dev_priv->agp_heap, memfree.offset);
else if (memfree.flags&NOUVEAU_MEM_PCI)
block = find_block(dev_priv->pci_heap, memfree.offset);
if (!block)
return DRM_ERR(EFAULT);
if (block->filp != filp)
return DRM_ERR(EPERM);
nouveau_mem_free(dev, block);
return 0;
}
|