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/*
* This file is part of mpv.
*
* mpv is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* mpv is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with mpv. If not, see <http://www.gnu.org/licenses/>.
*/
#include <assert.h>
#include <libavutil/hwcontext.h>
#include <libavutil/hwcontext_vdpau.h>
#include "vdpau.h"
#include "osdep/threads.h"
#include "osdep/timer.h"
#include "video/out/x11_common.h"
#include "img_format.h"
#include "mp_image.h"
#include "mp_image_pool.h"
#include "vdpau_mixer.h"
static void mark_vdpau_objects_uninitialized(struct mp_vdpau_ctx *ctx)
{
for (int i = 0; i < MAX_VIDEO_SURFACES; i++) {
ctx->video_surfaces[i].surface = VDP_INVALID_HANDLE;
ctx->video_surfaces[i].osurface = VDP_INVALID_HANDLE;
ctx->video_surfaces[i].allocated = false;
}
ctx->vdp_device = VDP_INVALID_HANDLE;
ctx->preemption_obj = VDP_INVALID_HANDLE;
}
static void preemption_callback(VdpDevice device, void *context)
{
struct mp_vdpau_ctx *ctx = context;
mp_mutex_lock(&ctx->preempt_lock);
ctx->is_preempted = true;
mp_mutex_unlock(&ctx->preempt_lock);
}
static int win_x11_init_vdpau_procs(struct mp_vdpau_ctx *ctx, bool probing)
{
Display *x11 = ctx->x11;
VdpStatus vdp_st;
// Don't operate on ctx->vdp directly, so that even if init fails, ctx->vdp
// will have the function pointers from the previous successful init, and
// won't randomly make other code crash on calling NULL pointers.
struct vdp_functions vdp = {0};
if (!x11)
return -1;
struct vdp_function {
const int id;
int offset;
};
static const struct vdp_function vdp_func[] = {
#define VDP_FUNCTION(_, macro_name, mp_name) {macro_name, offsetof(struct vdp_functions, mp_name)},
#include "video/vdpau_functions.inc"
#undef VDP_FUNCTION
{0, -1}
};
VdpGetProcAddress *get_proc_address;
vdp_st = vdp_device_create_x11(x11, DefaultScreen(x11), &ctx->vdp_device,
&get_proc_address);
if (vdp_st != VDP_STATUS_OK) {
if (ctx->is_preempted) {
MP_DBG(ctx, "Error calling vdp_device_create_x11 while preempted: %d\n",
vdp_st);
} else {
int lev = probing ? MSGL_V : MSGL_ERR;
mp_msg(ctx->log, lev, "Error when calling vdp_device_create_x11: %d\n",
vdp_st);
}
return -1;
}
for (const struct vdp_function *dsc = vdp_func; dsc->offset >= 0; dsc++) {
vdp_st = get_proc_address(ctx->vdp_device, dsc->id,
(void **)((char *)&vdp + dsc->offset));
if (vdp_st != VDP_STATUS_OK) {
MP_ERR(ctx, "Error when calling vdp_get_proc_address(function "
"id %d): %s\n", dsc->id,
vdp.get_error_string ? vdp.get_error_string(vdp_st) : "?");
return -1;
}
}
ctx->vdp = vdp;
ctx->get_proc_address = get_proc_address;
if (ctx->av_device_ref) {
AVHWDeviceContext *hwctx = (void *)ctx->av_device_ref->data;
AVVDPAUDeviceContext *vdctx = hwctx->hwctx;
vdctx->device = ctx->vdp_device;
vdctx->get_proc_address = ctx->get_proc_address;
}
vdp_st = vdp.output_surface_create(ctx->vdp_device, VDP_RGBA_FORMAT_B8G8R8A8,
1, 1, &ctx->preemption_obj);
if (vdp_st != VDP_STATUS_OK) {
MP_ERR(ctx, "Could not create dummy object: %s",
vdp.get_error_string(vdp_st));
return -1;
}
vdp.preemption_callback_register(ctx->vdp_device, preemption_callback, ctx);
return 0;
}
static int handle_preemption(struct mp_vdpau_ctx *ctx)
{
if (!ctx->is_preempted)
return 0;
mark_vdpau_objects_uninitialized(ctx);
if (!ctx->preemption_user_notified) {
MP_ERR(ctx, "Got display preemption notice! Will attempt to recover.\n");
ctx->preemption_user_notified = true;
}
/* Trying to initialize seems to be quite slow, so only try once a
* second to avoid using 100% CPU. */
if (ctx->last_preemption_retry_fail &&
mp_time_sec() - ctx->last_preemption_retry_fail < 1.0)
return -1;
if (win_x11_init_vdpau_procs(ctx, false) < 0) {
ctx->last_preemption_retry_fail = mp_time_sec();
return -1;
}
ctx->preemption_user_notified = false;
ctx->last_preemption_retry_fail = 0;
ctx->is_preempted = false;
ctx->preemption_counter++;
MP_INFO(ctx, "Recovered from display preemption.\n");
return 1;
}
// Check whether vdpau display preemption happened. The caller provides a
// preemption counter, which contains the logical timestamp of the last
// preemption handled by the caller. The counter can be 0 for init.
// If counter is NULL, only ever return -1 or 1.
// Return values:
// -1: the display is currently preempted, and vdpau can't be used
// 0: a preemption event happened, and the caller must recover
// (*counter is updated, and a second call will report status ok)
// 1: everything is fine, no preemption happened
int mp_vdpau_handle_preemption(struct mp_vdpau_ctx *ctx, uint64_t *counter)
{
int r = 1;
mp_mutex_lock(&ctx->preempt_lock);
const void *p[4] = {&(uint32_t){0}};
uint32_t stride[4] = {4};
VdpRect rc = {0};
ctx->vdp.output_surface_put_bits_native(ctx->preemption_obj, p, stride, &rc);
// First time init
if (counter && !*counter)
*counter = ctx->preemption_counter;
if (handle_preemption(ctx) < 0)
r = -1;
if (counter && r > 0 && *counter < ctx->preemption_counter) {
*counter = ctx->preemption_counter;
r = 0; // signal recovery after preemption
}
mp_mutex_unlock(&ctx->preempt_lock);
return r;
}
struct surface_ref {
struct mp_vdpau_ctx *ctx;
int index;
};
static void release_decoder_surface(void *ptr)
{
struct surface_ref *r = ptr;
struct mp_vdpau_ctx *ctx = r->ctx;
mp_mutex_lock(&ctx->pool_lock);
assert(ctx->video_surfaces[r->index].in_use);
ctx->video_surfaces[r->index].in_use = false;
mp_mutex_unlock(&ctx->pool_lock);
talloc_free(r);
}
static struct mp_image *create_ref(struct mp_vdpau_ctx *ctx, int index)
{
struct surface_entry *e = &ctx->video_surfaces[index];
assert(!e->in_use);
e->in_use = true;
e->age = ctx->age_counter++;
struct surface_ref *ref = talloc_ptrtype(NULL, ref);
*ref = (struct surface_ref){ctx, index};
struct mp_image *res =
mp_image_new_custom_ref(NULL, ref, release_decoder_surface);
if (res) {
mp_image_setfmt(res, e->rgb ? IMGFMT_VDPAU_OUTPUT : IMGFMT_VDPAU);
mp_image_set_size(res, e->w, e->h);
res->planes[0] = (void *)"dummy"; // must be non-NULL, otherwise arbitrary
res->planes[3] = (void *)(intptr_t)(e->rgb ? e->osurface : e->surface);
}
return res;
}
static struct mp_image *mp_vdpau_get_surface(struct mp_vdpau_ctx *ctx,
VdpChromaType chroma,
VdpRGBAFormat rgb_format,
bool rgb, int w, int h)
{
struct vdp_functions *vdp = &ctx->vdp;
int surface_index = -1;
VdpStatus vdp_st;
if (rgb) {
chroma = (VdpChromaType)-1;
} else {
rgb_format = (VdpChromaType)-1;
}
mp_mutex_lock(&ctx->pool_lock);
// Destroy all unused surfaces that don't have matching parameters
for (int n = 0; n < MAX_VIDEO_SURFACES; n++) {
struct surface_entry *e = &ctx->video_surfaces[n];
if (!e->in_use && e->allocated) {
if (e->w != w || e->h != h || e->rgb != rgb ||
e->chroma != chroma || e->rgb_format != rgb_format)
{
if (e->rgb) {
vdp_st = vdp->output_surface_destroy(e->osurface);
} else {
vdp_st = vdp->video_surface_destroy(e->surface);
}
CHECK_VDP_WARNING(ctx, "Error when destroying surface");
e->surface = e->osurface = VDP_INVALID_HANDLE;
e->allocated = false;
}
}
}
// Try to find an existing unused surface
for (int n = 0; n < MAX_VIDEO_SURFACES; n++) {
struct surface_entry *e = &ctx->video_surfaces[n];
if (!e->in_use && e->allocated) {
assert(e->w == w && e->h == h);
assert(e->chroma == chroma);
assert(e->rgb_format == rgb_format);
assert(e->rgb == rgb);
if (surface_index >= 0) {
struct surface_entry *other = &ctx->video_surfaces[surface_index];
if (other->age < e->age)
continue;
}
surface_index = n;
}
}
if (surface_index >= 0)
goto done;
// Allocate new surface
for (int n = 0; n < MAX_VIDEO_SURFACES; n++) {
struct surface_entry *e = &ctx->video_surfaces[n];
if (!e->in_use) {
assert(e->surface == VDP_INVALID_HANDLE);
assert(e->osurface == VDP_INVALID_HANDLE);
assert(!e->allocated);
e->chroma = chroma;
e->rgb_format = rgb_format;
e->rgb = rgb;
e->w = w;
e->h = h;
if (mp_vdpau_handle_preemption(ctx, NULL) >= 0) {
if (rgb) {
vdp_st = vdp->output_surface_create(ctx->vdp_device, rgb_format,
w, h, &e->osurface);
e->allocated = e->osurface != VDP_INVALID_HANDLE;
} else {
vdp_st = vdp->video_surface_create(ctx->vdp_device, chroma,
w, h, &e->surface);
e->allocated = e->surface != VDP_INVALID_HANDLE;
}
CHECK_VDP_WARNING(ctx, "Error when allocating surface");
} else {
e->allocated = false;
e->osurface = VDP_INVALID_HANDLE;
e->surface = VDP_INVALID_HANDLE;
}
surface_index = n;
goto done;
}
}
done: ;
struct mp_image *mpi = NULL;
if (surface_index >= 0)
mpi = create_ref(ctx, surface_index);
mp_mutex_unlock(&ctx->pool_lock);
if (!mpi)
MP_ERR(ctx, "no surfaces available in mp_vdpau_get_video_surface\n");
return mpi;
}
struct mp_image *mp_vdpau_get_video_surface(struct mp_vdpau_ctx *ctx,
VdpChromaType chroma, int w, int h)
{
return mp_vdpau_get_surface(ctx, chroma, 0, false, w, h);
}
static void free_device_ref(struct AVHWDeviceContext *hwctx)
{
struct mp_vdpau_ctx *ctx = hwctx->user_opaque;
struct vdp_functions *vdp = &ctx->vdp;
VdpStatus vdp_st;
for (int i = 0; i < MAX_VIDEO_SURFACES; i++) {
// can't hold references past context lifetime
assert(!ctx->video_surfaces[i].in_use);
if (ctx->video_surfaces[i].surface != VDP_INVALID_HANDLE) {
vdp_st = vdp->video_surface_destroy(ctx->video_surfaces[i].surface);
CHECK_VDP_WARNING(ctx, "Error when calling vdp_video_surface_destroy");
}
if (ctx->video_surfaces[i].osurface != VDP_INVALID_HANDLE) {
vdp_st = vdp->output_surface_destroy(ctx->video_surfaces[i].osurface);
CHECK_VDP_WARNING(ctx, "Error when calling vdp_output_surface_destroy");
}
}
if (ctx->preemption_obj != VDP_INVALID_HANDLE) {
vdp_st = vdp->output_surface_destroy(ctx->preemption_obj);
CHECK_VDP_WARNING(ctx, "Error when calling vdp_output_surface_destroy");
}
if (vdp->device_destroy && ctx->vdp_device != VDP_INVALID_HANDLE) {
vdp_st = vdp->device_destroy(ctx->vdp_device);
CHECK_VDP_WARNING(ctx, "Error when calling vdp_device_destroy");
}
if (ctx->close_display)
XCloseDisplay(ctx->x11);
mp_mutex_destroy(&ctx->pool_lock);
mp_mutex_destroy(&ctx->preempt_lock);
talloc_free(ctx);
}
struct mp_vdpau_ctx *mp_vdpau_create_device_x11(struct mp_log *log, Display *x11,
bool probing)
{
AVBufferRef *avref = av_hwdevice_ctx_alloc(AV_HWDEVICE_TYPE_VDPAU);
if (!avref)
return NULL;
AVHWDeviceContext *hwctx = (void *)avref->data;
AVVDPAUDeviceContext *vdctx = hwctx->hwctx;
struct mp_vdpau_ctx *ctx = talloc_ptrtype(NULL, ctx);
*ctx = (struct mp_vdpau_ctx) {
.log = log,
.x11 = x11,
.preemption_counter = 1,
.av_device_ref = avref,
.hwctx = {
.av_device_ref = avref,
},
};
mp_mutex_init_type(&ctx->preempt_lock, MP_MUTEX_RECURSIVE);
mp_mutex_init(&ctx->pool_lock);
hwctx->free = free_device_ref;
hwctx->user_opaque = ctx;
mark_vdpau_objects_uninitialized(ctx);
if (win_x11_init_vdpau_procs(ctx, probing) < 0) {
mp_vdpau_destroy(ctx);
return NULL;
}
vdctx->device = ctx->vdp_device;
vdctx->get_proc_address = ctx->get_proc_address;
if (av_hwdevice_ctx_init(ctx->av_device_ref) < 0) {
mp_vdpau_destroy(ctx);
return NULL;
}
return ctx;
}
void mp_vdpau_destroy(struct mp_vdpau_ctx *ctx)
{
if (!ctx)
return;
AVBufferRef *ref = ctx->av_device_ref;
av_buffer_unref(&ref); // frees ctx as well
}
bool mp_vdpau_get_format(int imgfmt, VdpChromaType *out_chroma_type,
VdpYCbCrFormat *out_pixel_format)
{
VdpChromaType chroma = VDP_CHROMA_TYPE_420;
VdpYCbCrFormat ycbcr = (VdpYCbCrFormat)-1;
switch (imgfmt) {
case IMGFMT_420P:
ycbcr = VDP_YCBCR_FORMAT_YV12;
break;
case IMGFMT_NV12:
ycbcr = VDP_YCBCR_FORMAT_NV12;
break;
case IMGFMT_UYVY:
ycbcr = VDP_YCBCR_FORMAT_UYVY;
chroma = VDP_CHROMA_TYPE_422;
break;
case IMGFMT_VDPAU:
break;
default:
return false;
}
if (out_chroma_type)
*out_chroma_type = chroma;
if (out_pixel_format)
*out_pixel_format = ycbcr;
return true;
}
bool mp_vdpau_get_rgb_format(int imgfmt, VdpRGBAFormat *out_rgba_format)
{
VdpRGBAFormat format = (VdpRGBAFormat)-1;
switch (imgfmt) {
case IMGFMT_BGRA:
format = VDP_RGBA_FORMAT_B8G8R8A8; break;
default:
return false;
}
if (out_rgba_format)
*out_rgba_format = format;
return true;
}
// Use mp_vdpau_get_video_surface, and upload mpi to it. Return NULL on failure.
// If the image is already a vdpau video surface, just return a reference.
struct mp_image *mp_vdpau_upload_video_surface(struct mp_vdpau_ctx *ctx,
struct mp_image *mpi)
{
struct vdp_functions *vdp = &ctx->vdp;
VdpStatus vdp_st;
if (mpi->imgfmt == IMGFMT_VDPAU || mpi->imgfmt == IMGFMT_VDPAU_OUTPUT)
return mp_image_new_ref(mpi);
VdpChromaType chroma = (VdpChromaType)-1;
VdpYCbCrFormat ycbcr = (VdpYCbCrFormat)-1;
VdpRGBAFormat rgbafmt = (VdpRGBAFormat)-1;
bool rgb = !mp_vdpau_get_format(mpi->imgfmt, &chroma, &ycbcr);
if (rgb && !mp_vdpau_get_rgb_format(mpi->imgfmt, &rgbafmt))
return NULL;
struct mp_image *hwmpi =
mp_vdpau_get_surface(ctx, chroma, rgbafmt, rgb, mpi->w, mpi->h);
if (!hwmpi)
return NULL;
struct mp_image *src = mpi;
if (mpi->stride[0] < 0)
src = mp_image_new_copy(mpi); // unflips it when copying
if (hwmpi->imgfmt == IMGFMT_VDPAU) {
VdpVideoSurface surface = (intptr_t)hwmpi->planes[3];
const void *destdata[3] = {src->planes[0], src->planes[2], src->planes[1]};
if (src->imgfmt == IMGFMT_NV12)
destdata[1] = destdata[2];
vdp_st = vdp->video_surface_put_bits_y_cb_cr(surface,
ycbcr, destdata, src->stride);
} else {
VdpOutputSurface rgb_surface = (intptr_t)hwmpi->planes[3];
vdp_st = vdp->output_surface_put_bits_native(rgb_surface,
&(const void *){src->planes[0]},
&(uint32_t){src->stride[0]},
NULL);
}
CHECK_VDP_WARNING(ctx, "Error when uploading surface");
if (src != mpi)
talloc_free(src);
mp_image_copy_attributes(hwmpi, mpi);
return hwmpi;
}
bool mp_vdpau_guess_if_emulated(struct mp_vdpau_ctx *ctx)
{
struct vdp_functions *vdp = &ctx->vdp;
VdpStatus vdp_st;
char const* info = NULL;
vdp_st = vdp->get_information_string(&info);
CHECK_VDP_WARNING(ctx, "Error when calling vdp_get_information_string");
return vdp_st == VDP_STATUS_OK && info && strstr(info, "VAAPI");
}
// (This clearly works only for contexts wrapped by our code.)
struct mp_vdpau_ctx *mp_vdpau_get_ctx_from_av(AVBufferRef *hw_device_ctx)
{
AVHWDeviceContext *hwctx = (void *)hw_device_ctx->data;
if (hwctx->free != free_device_ref)
return NULL; // not ours
return hwctx->user_opaque;
}
static bool is_emulated(struct AVBufferRef *hw_device_ctx)
{
struct mp_vdpau_ctx *ctx = mp_vdpau_get_ctx_from_av(hw_device_ctx);
if (!ctx)
return false;
return mp_vdpau_guess_if_emulated(ctx);
}
static struct AVBufferRef *vdpau_create_standalone(struct mpv_global *global,
struct mp_log *log, struct hwcontext_create_dev_params *params)
{
XInitThreads();
Display *display = XOpenDisplay(NULL);
if (!display)
return NULL;
struct mp_vdpau_ctx *vdp =
mp_vdpau_create_device_x11(log, display, params->probing);
if (!vdp) {
XCloseDisplay(display);
return NULL;
}
vdp->close_display = true;
return vdp->hwctx.av_device_ref;
}
const struct hwcontext_fns hwcontext_fns_vdpau = {
.av_hwdevice_type = AV_HWDEVICE_TYPE_VDPAU,
.create_dev = vdpau_create_standalone,
.is_emulated = is_emulated,
};
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