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|
/*
* Copyright 2012 Red Hat Inc.
*
* 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 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 COPYRIGHT HOLDER(S) OR AUTHOR(S) 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: Ben Skeggs
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include <assert.h>
#include <errno.h>
#include <xf86drm.h>
#include <xf86atomic.h>
#include "libdrm_lists.h"
#include "nouveau_drm.h"
#include "nouveau.h"
#include "private.h"
struct nouveau_pushbuf_krec {
struct nouveau_pushbuf_krec *next;
struct drm_nouveau_gem_pushbuf_bo buffer[NOUVEAU_GEM_MAX_BUFFERS];
struct drm_nouveau_gem_pushbuf_reloc reloc[NOUVEAU_GEM_MAX_RELOCS];
struct drm_nouveau_gem_pushbuf_push push[NOUVEAU_GEM_MAX_PUSH];
int nr_buffer;
int nr_reloc;
int nr_push;
uint64_t vram_used;
uint64_t gart_used;
};
struct nouveau_pushbuf_priv {
struct nouveau_pushbuf base;
struct nouveau_pushbuf_krec *list;
struct nouveau_pushbuf_krec *krec;
struct nouveau_list bctx_list;
struct nouveau_bo *bo;
uint32_t type;
uint32_t suffix0;
uint32_t suffix1;
uint32_t *ptr;
uint32_t *bgn;
int bo_next;
int bo_nr;
struct nouveau_bo *bos[];
};
static inline struct nouveau_pushbuf_priv *
nouveau_pushbuf(struct nouveau_pushbuf *push)
{
return (struct nouveau_pushbuf_priv *)push;
}
static int pushbuf_validate(struct nouveau_pushbuf *, bool);
static int pushbuf_flush(struct nouveau_pushbuf *);
static bool
pushbuf_kref_fits(struct nouveau_pushbuf *push, struct nouveau_bo *bo,
uint32_t *domains)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->krec;
struct nouveau_device *dev = push->client->device;
struct nouveau_bo *kbo;
struct drm_nouveau_gem_pushbuf_bo *kref;
int i;
/* VRAM is the only valid domain. GART and VRAM|GART buffers
* are all accounted to GART, so if this doesn't fit in VRAM
* straight up, a flush is needed.
*/
if (*domains == NOUVEAU_GEM_DOMAIN_VRAM) {
if (krec->vram_used + bo->size > dev->vram_limit)
return false;
krec->vram_used += bo->size;
return true;
}
/* GART or VRAM|GART buffer. Account both of these buffer types
* to GART only for the moment, which simplifies things. If the
* buffer can fit already, we're done here.
*/
if (krec->gart_used + bo->size <= dev->gart_limit) {
krec->gart_used += bo->size;
return true;
}
/* Ran out of GART space, if it's a VRAM|GART buffer and it'll
* fit into available VRAM, turn it into a VRAM buffer
*/
if ((*domains & NOUVEAU_GEM_DOMAIN_VRAM) &&
krec->vram_used + bo->size <= dev->vram_limit) {
*domains &= NOUVEAU_GEM_DOMAIN_VRAM;
krec->vram_used += bo->size;
return true;
}
/* Still couldn't fit the buffer in anywhere, so as a last resort;
* scan the buffer list for VRAM|GART buffers and turn them into
* VRAM buffers until we have enough space in GART for this one
*/
kref = krec->buffer;
for (i = 0; i < krec->nr_buffer; i++, kref++) {
if (!(kref->valid_domains & NOUVEAU_GEM_DOMAIN_GART))
continue;
kbo = (void *)(unsigned long)kref->user_priv;
if (!(kref->valid_domains & NOUVEAU_GEM_DOMAIN_VRAM) ||
krec->vram_used + kbo->size > dev->vram_limit)
continue;
kref->valid_domains &= NOUVEAU_GEM_DOMAIN_VRAM;
krec->gart_used -= kbo->size;
krec->vram_used += kbo->size;
if (krec->gart_used + bo->size <= dev->gart_limit) {
krec->gart_used += bo->size;
return true;
}
}
/* Couldn't resolve a placement, need to force a flush */
return false;
}
static struct drm_nouveau_gem_pushbuf_bo *
pushbuf_kref(struct nouveau_pushbuf *push, struct nouveau_bo *bo,
uint32_t flags)
{
struct nouveau_device *dev = push->client->device;
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->krec;
struct nouveau_pushbuf *fpush;
struct drm_nouveau_gem_pushbuf_bo *kref;
uint32_t domains, domains_wr, domains_rd;
domains = 0;
if (flags & NOUVEAU_BO_VRAM)
domains |= NOUVEAU_GEM_DOMAIN_VRAM;
if (flags & NOUVEAU_BO_GART)
domains |= NOUVEAU_GEM_DOMAIN_GART;
domains_wr = domains * !!(flags & NOUVEAU_BO_WR);
domains_rd = domains * !!(flags & NOUVEAU_BO_RD);
/* if buffer is referenced on another pushbuf that is owned by the
* same client, we need to flush the other pushbuf first to ensure
* the correct ordering of commands
*/
fpush = cli_push_get(push->client, bo);
if (fpush && fpush != push)
pushbuf_flush(fpush);
kref = cli_kref_get(push->client, bo);
if (kref) {
/* possible conflict in memory types - flush and retry */
if (!(kref->valid_domains & domains))
return NULL;
/* VRAM|GART buffer turning into a VRAM buffer. Make sure
* it'll fit in VRAM and force a flush if not.
*/
if ((kref->valid_domains & NOUVEAU_GEM_DOMAIN_GART) &&
( domains == NOUVEAU_GEM_DOMAIN_VRAM)) {
if (krec->vram_used + bo->size > dev->vram_limit)
return NULL;
krec->vram_used += bo->size;
krec->gart_used -= bo->size;
}
kref->valid_domains &= domains;
kref->write_domains |= domains_wr;
kref->read_domains |= domains_rd;
} else {
if (krec->nr_buffer == NOUVEAU_GEM_MAX_BUFFERS ||
!pushbuf_kref_fits(push, bo, &domains))
return NULL;
kref = &krec->buffer[krec->nr_buffer++];
kref->user_priv = (unsigned long)bo;
kref->handle = bo->handle;
kref->valid_domains = domains;
kref->write_domains = domains_wr;
kref->read_domains = domains_rd;
kref->presumed.valid = 1;
kref->presumed.offset = bo->offset;
if (bo->flags & NOUVEAU_BO_VRAM)
kref->presumed.domain = NOUVEAU_GEM_DOMAIN_VRAM;
else
kref->presumed.domain = NOUVEAU_GEM_DOMAIN_GART;
cli_kref_set(push->client, bo, kref, push);
atomic_inc(&nouveau_bo(bo)->refcnt);
}
return kref;
}
static uint32_t
pushbuf_krel(struct nouveau_pushbuf *push, struct nouveau_bo *bo,
uint32_t data, uint32_t flags, uint32_t vor, uint32_t tor)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->krec;
struct drm_nouveau_gem_pushbuf_reloc *krel;
struct drm_nouveau_gem_pushbuf_bo *pkref;
struct drm_nouveau_gem_pushbuf_bo *bkref;
uint32_t reloc = data;
pkref = cli_kref_get(push->client, nvpb->bo);
bkref = cli_kref_get(push->client, bo);
krel = &krec->reloc[krec->nr_reloc++];
krel->reloc_bo_index = pkref - krec->buffer;
krel->reloc_bo_offset = (push->cur - nvpb->ptr) * 4;
krel->bo_index = bkref - krec->buffer;
krel->flags = 0;
krel->data = data;
krel->vor = vor;
krel->tor = tor;
if (flags & NOUVEAU_BO_LOW) {
reloc = (bkref->presumed.offset + data);
krel->flags |= NOUVEAU_GEM_RELOC_LOW;
} else
if (flags & NOUVEAU_BO_HIGH) {
reloc = (bkref->presumed.offset + data) >> 32;
krel->flags |= NOUVEAU_GEM_RELOC_HIGH;
}
if (flags & NOUVEAU_BO_OR) {
if (bkref->presumed.domain & NOUVEAU_GEM_DOMAIN_VRAM)
reloc |= vor;
else
reloc |= tor;
krel->flags |= NOUVEAU_GEM_RELOC_OR;
}
return reloc;
}
static void
pushbuf_dump(struct nouveau_pushbuf_krec *krec, int krec_id, int chid)
{
struct drm_nouveau_gem_pushbuf_reloc *krel;
struct drm_nouveau_gem_pushbuf_push *kpsh;
struct drm_nouveau_gem_pushbuf_bo *kref;
struct nouveau_bo *bo;
uint32_t *bgn, *end;
int i;
err("ch%d: krec %d pushes %d bufs %d relocs %d\n", chid,
krec_id, krec->nr_push, krec->nr_buffer, krec->nr_reloc);
kref = krec->buffer;
for (i = 0; i < krec->nr_buffer; i++, kref++) {
err("ch%d: buf %08x %08x %08x %08x %08x\n", chid, i,
kref->handle, kref->valid_domains,
kref->read_domains, kref->write_domains);
}
krel = krec->reloc;
for (i = 0; i < krec->nr_reloc; i++, krel++) {
err("ch%d: rel %08x %08x %08x %08x %08x %08x %08x\n",
chid, krel->reloc_bo_index, krel->reloc_bo_offset,
krel->bo_index, krel->flags, krel->data,
krel->vor, krel->tor);
}
kpsh = krec->push;
for (i = 0; i < krec->nr_push; i++, kpsh++) {
kref = krec->buffer + kpsh->bo_index;
bo = (void *)(unsigned long)kref->user_priv;
bgn = (uint32_t *)((char *)bo->map + kpsh->offset);
end = bgn + (kpsh->length /4);
err("ch%d: psh %08x %010llx %010llx\n", chid, kpsh->bo_index,
(unsigned long long)kpsh->offset,
(unsigned long long)(kpsh->offset + kpsh->length));
while (bgn < end)
err("\t0x%08x\n", *bgn++);
}
}
static int
pushbuf_submit(struct nouveau_pushbuf *push, struct nouveau_object *chan)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->list;
struct nouveau_device *dev = push->client->device;
struct drm_nouveau_gem_pushbuf_bo_presumed *info;
struct drm_nouveau_gem_pushbuf_bo *kref;
struct drm_nouveau_gem_pushbuf req;
struct nouveau_fifo *fifo = chan->data;
struct nouveau_bo *bo;
int krec_id = 0;
int ret = 0, i;
if (chan->oclass != NOUVEAU_FIFO_CHANNEL_CLASS)
return -EINVAL;
if (push->kick_notify)
push->kick_notify(push);
nouveau_pushbuf_data(push, NULL, 0, 0);
while (krec && krec->nr_push) {
req.channel = fifo->channel;
req.nr_buffers = krec->nr_buffer;
req.buffers = (uint64_t)(unsigned long)krec->buffer;
req.nr_relocs = krec->nr_reloc;
req.nr_push = krec->nr_push;
req.relocs = (uint64_t)(unsigned long)krec->reloc;
req.push = (uint64_t)(unsigned long)krec->push;
req.suffix0 = nvpb->suffix0;
req.suffix1 = nvpb->suffix1;
req.vram_available = 0; /* for valgrind */
req.gart_available = 0;
if (dbg_on(0))
pushbuf_dump(krec, krec_id++, fifo->channel);
#ifndef SIMULATE
ret = drmCommandWriteRead(dev->fd, DRM_NOUVEAU_GEM_PUSHBUF,
&req, sizeof(req));
nvpb->suffix0 = req.suffix0;
nvpb->suffix1 = req.suffix1;
dev->vram_limit = (req.vram_available * 80) / 100;
dev->gart_limit = (req.gart_available * 80) / 100;
#else
if (dbg_on(31))
ret = -EINVAL;
#endif
if (ret) {
err("kernel rejected pushbuf: %s\n", strerror(-ret));
pushbuf_dump(krec, krec_id++, fifo->channel);
break;
}
kref = krec->buffer;
for (i = 0; i < krec->nr_buffer; i++, kref++) {
bo = (void *)(unsigned long)kref->user_priv;
info = &kref->presumed;
if (!info->valid) {
bo->flags &= ~NOUVEAU_BO_APER;
if (info->domain == NOUVEAU_GEM_DOMAIN_VRAM)
bo->flags |= NOUVEAU_BO_VRAM;
else
bo->flags |= NOUVEAU_BO_GART;
bo->offset = info->offset;
}
if (kref->write_domains)
nouveau_bo(bo)->access |= NOUVEAU_BO_WR;
if (kref->read_domains)
nouveau_bo(bo)->access |= NOUVEAU_BO_RD;
}
krec = krec->next;
}
return ret;
}
static int
pushbuf_flush(struct nouveau_pushbuf *push)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->krec;
struct drm_nouveau_gem_pushbuf_bo *kref;
struct nouveau_bufctx *bctx, *btmp;
struct nouveau_bo *bo;
int ret = 0, i;
if (push->channel) {
ret = pushbuf_submit(push, push->channel);
} else {
nouveau_pushbuf_data(push, NULL, 0, 0);
krec->next = malloc(sizeof(*krec));
nvpb->krec = krec->next;
}
kref = krec->buffer;
for (i = 0; i < krec->nr_buffer; i++, kref++) {
bo = (void *)(unsigned long)kref->user_priv;
cli_kref_set(push->client, bo, NULL, NULL);
if (push->channel)
nouveau_bo_ref(NULL, &bo);
}
krec = nvpb->krec;
krec->vram_used = 0;
krec->gart_used = 0;
krec->nr_buffer = 0;
krec->nr_reloc = 0;
krec->nr_push = 0;
DRMLISTFOREACHENTRYSAFE(bctx, btmp, &nvpb->bctx_list, head) {
DRMLISTJOIN(&bctx->current, &bctx->pending);
DRMINITLISTHEAD(&bctx->current);
DRMLISTDELINIT(&bctx->head);
}
return ret;
}
static void
pushbuf_refn_fail(struct nouveau_pushbuf *push, int sref, int srel)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->krec;
struct drm_nouveau_gem_pushbuf_bo *kref;
kref = krec->buffer + sref;
while (krec->nr_buffer-- > sref) {
struct nouveau_bo *bo = (void *)(unsigned long)kref->user_priv;
cli_kref_set(push->client, bo, NULL, NULL);
nouveau_bo_ref(NULL, &bo);
kref++;
}
krec->nr_buffer = sref;
krec->nr_reloc = srel;
}
static int
pushbuf_refn(struct nouveau_pushbuf *push, bool retry,
struct nouveau_pushbuf_refn *refs, int nr)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->krec;
struct drm_nouveau_gem_pushbuf_bo *kref;
int sref = krec->nr_buffer;
int ret = 0, i;
for (i = 0; i < nr; i++) {
kref = pushbuf_kref(push, refs[i].bo, refs[i].flags);
if (!kref) {
ret = -ENOSPC;
break;
}
}
if (ret) {
pushbuf_refn_fail(push, sref, krec->nr_reloc);
if (retry) {
pushbuf_flush(push);
nouveau_pushbuf_space(push, 0, 0, 0);
return pushbuf_refn(push, false, refs, nr);
}
}
return ret;
}
static int
pushbuf_validate(struct nouveau_pushbuf *push, bool retry)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->krec;
struct drm_nouveau_gem_pushbuf_bo *kref;
struct nouveau_bufctx *bctx = push->bufctx;
struct nouveau_bufref *bref;
int relocs = bctx ? bctx->relocs * 2: 0;
int sref, srel, ret;
ret = nouveau_pushbuf_space(push, relocs, relocs, 0);
if (ret || bctx == NULL)
return ret;
sref = krec->nr_buffer;
srel = krec->nr_reloc;
DRMLISTDEL(&bctx->head);
DRMLISTADD(&bctx->head, &nvpb->bctx_list);
DRMLISTFOREACHENTRY(bref, &bctx->pending, thead) {
kref = pushbuf_kref(push, bref->bo, bref->flags);
if (!kref) {
ret = -ENOSPC;
break;
}
if (bref->packet) {
pushbuf_krel(push, bref->bo, bref->packet, 0, 0, 0);
*push->cur++ = 0;
pushbuf_krel(push, bref->bo, bref->data, bref->flags,
bref->vor, bref->tor);
*push->cur++ = 0;
}
}
DRMLISTJOIN(&bctx->pending, &bctx->current);
DRMINITLISTHEAD(&bctx->pending);
if (ret) {
pushbuf_refn_fail(push, sref, srel);
if (retry) {
pushbuf_flush(push);
return pushbuf_validate(push, false);
}
}
return 0;
}
int
nouveau_pushbuf_new(struct nouveau_client *client, struct nouveau_object *chan,
int nr, uint32_t size, bool immediate,
struct nouveau_pushbuf **ppush)
{
struct nouveau_device *dev = client->device;
struct nouveau_fifo *fifo = chan->data;
struct nouveau_pushbuf_priv *nvpb;
struct nouveau_pushbuf *push;
struct drm_nouveau_gem_pushbuf req = {};
int ret;
if (chan->oclass != NOUVEAU_FIFO_CHANNEL_CLASS)
return -EINVAL;
/* nop pushbuf call, to get the current "return to main" sequence
* we need to append to the pushbuf on early chipsets
*/
req.channel = fifo->channel;
req.nr_push = 0;
ret = drmCommandWriteRead(dev->fd, DRM_NOUVEAU_GEM_PUSHBUF,
&req, sizeof(req));
if (ret)
return ret;
nvpb = calloc(1, sizeof(*nvpb) + nr * sizeof(*nvpb->bos));
if (!nvpb)
return -ENOMEM;
#ifndef SIMULATE
nvpb->suffix0 = req.suffix0;
nvpb->suffix1 = req.suffix1;
#else
nvpb->suffix0 = 0xffffffff;
nvpb->suffix1 = 0xffffffff;
#endif
nvpb->krec = calloc(1, sizeof(*nvpb->krec));
nvpb->list = nvpb->krec;
if (!nvpb->krec) {
free(nvpb);
return -ENOMEM;
}
push = &nvpb->base;
push->client = client;
push->channel = immediate ? chan : NULL;
push->flags = NOUVEAU_BO_RD;
if (fifo->pushbuf & NOUVEAU_GEM_DOMAIN_VRAM) {
push->flags |= NOUVEAU_BO_VRAM;
nvpb->type = NOUVEAU_BO_VRAM;
}
if (fifo->pushbuf & NOUVEAU_GEM_DOMAIN_GART) {
push->flags |= NOUVEAU_BO_GART;
nvpb->type = NOUVEAU_BO_GART;
}
nvpb->type |= NOUVEAU_BO_MAP;
for (nvpb->bo_nr = 0; nvpb->bo_nr < nr; nvpb->bo_nr++) {
ret = nouveau_bo_new(client->device, nvpb->type, 0, size,
NULL, &nvpb->bos[nvpb->bo_nr]);
if (ret) {
nouveau_pushbuf_del(&push);
return ret;
}
}
DRMINITLISTHEAD(&nvpb->bctx_list);
*ppush = push;
return 0;
}
void
nouveau_pushbuf_del(struct nouveau_pushbuf **ppush)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(*ppush);
if (nvpb) {
struct drm_nouveau_gem_pushbuf_bo *kref;
struct nouveau_pushbuf_krec *krec;
while ((krec = nvpb->list)) {
kref = krec->buffer;
while (krec->nr_buffer--) {
unsigned long priv = kref++->user_priv;
struct nouveau_bo *bo = (void *)priv;
cli_kref_set(nvpb->base.client, bo, NULL, NULL);
nouveau_bo_ref(NULL, &bo);
}
nvpb->list = krec->next;
free(krec);
}
while (nvpb->bo_nr--)
nouveau_bo_ref(NULL, &nvpb->bos[nvpb->bo_nr]);
nouveau_bo_ref(NULL, &nvpb->bo);
free(nvpb);
}
*ppush = NULL;
}
struct nouveau_bufctx *
nouveau_pushbuf_bufctx(struct nouveau_pushbuf *push, struct nouveau_bufctx *ctx)
{
struct nouveau_bufctx *prev = push->bufctx;
push->bufctx = ctx;
return prev;
}
int
nouveau_pushbuf_space(struct nouveau_pushbuf *push,
uint32_t dwords, uint32_t relocs, uint32_t pushes)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->krec;
struct nouveau_client *client = push->client;
struct nouveau_bo *bo = NULL;
bool flushed = false;
int ret = 0;
/* switch to next buffer if insufficient space in the current one */
if (push->cur + dwords >= push->end) {
if (nvpb->bo_next < nvpb->bo_nr) {
nouveau_bo_ref(nvpb->bos[nvpb->bo_next++], &bo);
if (nvpb->bo_next == nvpb->bo_nr && push->channel)
nvpb->bo_next = 0;
} else {
ret = nouveau_bo_new(client->device, nvpb->type, 0,
nvpb->bos[0]->size, NULL, &bo);
if (ret)
return ret;
}
}
/* make sure there's always enough space to queue up the pending
* data in the pushbuf proper
*/
pushes++;
/* need to flush if we've run out of space on an immediate pushbuf,
* if the new buffer won't fit, or if the kernel push/reloc limits
* have been hit
*/
if ((bo && ( push->channel ||
!pushbuf_kref(push, bo, push->flags))) ||
krec->nr_reloc + relocs >= NOUVEAU_GEM_MAX_RELOCS ||
krec->nr_push + pushes >= NOUVEAU_GEM_MAX_PUSH) {
if (nvpb->bo && krec->nr_buffer)
pushbuf_flush(push);
flushed = true;
}
/* if necessary, switch to new buffer */
if (bo) {
ret = nouveau_bo_map(bo, NOUVEAU_BO_WR, push->client);
if (ret)
return ret;
nouveau_pushbuf_data(push, NULL, 0, 0);
nouveau_bo_ref(bo, &nvpb->bo);
nouveau_bo_ref(NULL, &bo);
nvpb->bgn = nvpb->bo->map;
nvpb->ptr = nvpb->bgn;
push->cur = nvpb->bgn;
push->end = push->cur + (nvpb->bo->size / 4);
push->end -= 2 + push->rsvd_kick; /* space for suffix */
}
pushbuf_kref(push, nvpb->bo, push->flags);
return flushed ? pushbuf_validate(push, false) : 0;
}
void
nouveau_pushbuf_data(struct nouveau_pushbuf *push, struct nouveau_bo *bo,
uint64_t offset, uint64_t length)
{
struct nouveau_pushbuf_priv *nvpb = nouveau_pushbuf(push);
struct nouveau_pushbuf_krec *krec = nvpb->krec;
struct drm_nouveau_gem_pushbuf_push *kpsh;
struct drm_nouveau_gem_pushbuf_bo *kref;
if (bo != nvpb->bo && nvpb->bgn != push->cur) {
if (nvpb->suffix0 || nvpb->suffix1) {
*push->cur++ = nvpb->suffix0;
*push->cur++ = nvpb->suffix1;
}
nouveau_pushbuf_data(push, nvpb->bo,
(nvpb->bgn - nvpb->ptr) * 4,
(push->cur - nvpb->bgn) * 4);
nvpb->bgn = push->cur;
}
if (bo) {
kref = cli_kref_get(push->client, bo);
kpsh = &krec->push[krec->nr_push++];
kpsh->bo_index = kref - krec->buffer;
kpsh->offset = offset;
kpsh->length = length;
}
}
int
nouveau_pushbuf_refn(struct nouveau_pushbuf *push,
struct nouveau_pushbuf_refn *refs, int nr)
{
return pushbuf_refn(push, true, refs, nr);
}
void
nouveau_pushbuf_reloc(struct nouveau_pushbuf *push, struct nouveau_bo *bo,
uint32_t data, uint32_t flags, uint32_t vor, uint32_t tor)
{
*push->cur++ = pushbuf_krel(push, bo, data, flags, vor, tor);
}
int
nouveau_pushbuf_validate(struct nouveau_pushbuf *push)
{
return pushbuf_validate(push, true);
}
uint32_t
nouveau_pushbuf_refd(struct nouveau_pushbuf *push, struct nouveau_bo *bo)
{
struct drm_nouveau_gem_pushbuf_bo *kref;
uint32_t flags = 0;
if (cli_push_get(push->client, bo) == push) {
kref = cli_kref_get(push->client, bo);
if (kref->read_domains)
flags |= NOUVEAU_BO_RD;
if (kref->write_domains)
flags |= NOUVEAU_BO_WR;
}
return flags;
}
int
nouveau_pushbuf_kick(struct nouveau_pushbuf *push, struct nouveau_object *chan)
{
if (!push->channel)
return pushbuf_submit(push, chan);
pushbuf_flush(push);
return pushbuf_validate(push, false);
}
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