2 * Copyright 2014, 2015 Red Hat.
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * on the rights to use, copy, modify, merge, publish, distribute, sub
8 * license, and/or sell copies of the Software, and to permit persons to whom
9 * the Software is furnished to do so, subject to the following conditions:
11 * The above copyright notice and this permission notice (including the next
12 * paragraph) shall be included in all copies or substantial portions of the
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
18 * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM,
19 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
20 * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
21 * USE OR OTHER DEALINGS IN THE SOFTWARE.
25 #include "pipe/p_shader_tokens.h"
27 #include "pipe/p_context.h"
28 #include "pipe/p_defines.h"
29 #include "pipe/p_screen.h"
30 #include "pipe/p_state.h"
31 #include "util/u_inlines.h"
32 #include "util/u_memory.h"
33 #include "util/u_format.h"
34 #include "util/u_prim.h"
35 #include "util/u_transfer.h"
36 #include "util/u_helpers.h"
37 #include "util/slab.h"
38 #include "util/u_upload_mgr.h"
39 #include "util/u_blitter.h"
40 #include "tgsi/tgsi_text.h"
41 #include "indices/u_primconvert.h"
43 #include "pipebuffer/pb_buffer.h"
45 #include "virgl_encode.h"
46 #include "virgl_context.h"
47 #include "virgl_protocol.h"
48 #include "virgl_resource.h"
49 #include "virgl_screen.h"
50 #include "virgl_staging_mgr.h"
52 struct virgl_vertex_elements_state
{
54 uint8_t binding_map
[PIPE_MAX_ATTRIBS
];
58 static uint32_t next_handle
;
59 uint32_t virgl_object_assign_handle(void)
65 virgl_can_rebind_resource(struct virgl_context
*vctx
,
66 struct pipe_resource
*res
)
68 /* We cannot rebind resources that are referenced by host objects, which
71 * - VIRGL_OBJECT_SURFACE
72 * - VIRGL_OBJECT_SAMPLER_VIEW
73 * - VIRGL_OBJECT_STREAMOUT_TARGET
75 * Because surfaces cannot be created from buffers, we require the resource
76 * to be a buffer instead (and avoid tracking VIRGL_OBJECT_SURFACE binds).
78 const unsigned unsupported_bind
= (PIPE_BIND_SAMPLER_VIEW
|
79 PIPE_BIND_STREAM_OUTPUT
);
80 const unsigned bind_history
= virgl_resource(res
)->bind_history
;
81 return res
->target
== PIPE_BUFFER
&& !(bind_history
& unsupported_bind
);
85 virgl_rebind_resource(struct virgl_context
*vctx
,
86 struct pipe_resource
*res
)
88 /* Queries use internally created buffers and do not go through transfers.
89 * Index buffers are not bindable. They are not tracked.
91 ASSERTED
const unsigned tracked_bind
= (PIPE_BIND_VERTEX_BUFFER
|
92 PIPE_BIND_CONSTANT_BUFFER
|
93 PIPE_BIND_SHADER_BUFFER
|
94 PIPE_BIND_SHADER_IMAGE
);
95 const unsigned bind_history
= virgl_resource(res
)->bind_history
;
98 assert(virgl_can_rebind_resource(vctx
, res
) &&
99 (bind_history
& tracked_bind
) == bind_history
);
101 if (bind_history
& PIPE_BIND_VERTEX_BUFFER
) {
102 for (i
= 0; i
< vctx
->num_vertex_buffers
; i
++) {
103 if (vctx
->vertex_buffer
[i
].buffer
.resource
== res
) {
104 vctx
->vertex_array_dirty
= true;
110 if (bind_history
& PIPE_BIND_SHADER_BUFFER
) {
111 uint32_t remaining_mask
= vctx
->atomic_buffer_enabled_mask
;
112 while (remaining_mask
) {
113 int i
= u_bit_scan(&remaining_mask
);
114 if (vctx
->atomic_buffers
[i
].buffer
== res
) {
115 const struct pipe_shader_buffer
*abo
= &vctx
->atomic_buffers
[i
];
116 virgl_encode_set_hw_atomic_buffers(vctx
, i
, 1, abo
);
121 /* check per-stage shader bindings */
122 if (bind_history
& (PIPE_BIND_CONSTANT_BUFFER
|
123 PIPE_BIND_SHADER_BUFFER
|
124 PIPE_BIND_SHADER_IMAGE
)) {
125 enum pipe_shader_type shader_type
;
126 for (shader_type
= 0; shader_type
< PIPE_SHADER_TYPES
; shader_type
++) {
127 const struct virgl_shader_binding_state
*binding
=
128 &vctx
->shader_bindings
[shader_type
];
130 if (bind_history
& PIPE_BIND_CONSTANT_BUFFER
) {
131 uint32_t remaining_mask
= binding
->ubo_enabled_mask
;
132 while (remaining_mask
) {
133 int i
= u_bit_scan(&remaining_mask
);
134 if (binding
->ubos
[i
].buffer
== res
) {
135 const struct pipe_constant_buffer
*ubo
= &binding
->ubos
[i
];
136 virgl_encoder_set_uniform_buffer(vctx
, shader_type
, i
,
139 virgl_resource(res
));
144 if (bind_history
& PIPE_BIND_SHADER_BUFFER
) {
145 uint32_t remaining_mask
= binding
->ssbo_enabled_mask
;
146 while (remaining_mask
) {
147 int i
= u_bit_scan(&remaining_mask
);
148 if (binding
->ssbos
[i
].buffer
== res
) {
149 const struct pipe_shader_buffer
*ssbo
= &binding
->ssbos
[i
];
150 virgl_encode_set_shader_buffers(vctx
, shader_type
, i
, 1,
156 if (bind_history
& PIPE_BIND_SHADER_IMAGE
) {
157 uint32_t remaining_mask
= binding
->image_enabled_mask
;
158 while (remaining_mask
) {
159 int i
= u_bit_scan(&remaining_mask
);
160 if (binding
->images
[i
].resource
== res
) {
161 const struct pipe_image_view
*image
= &binding
->images
[i
];
162 virgl_encode_set_shader_images(vctx
, shader_type
, i
, 1,
171 static void virgl_attach_res_framebuffer(struct virgl_context
*vctx
)
173 struct virgl_winsys
*vws
= virgl_screen(vctx
->base
.screen
)->vws
;
174 struct pipe_surface
*surf
;
175 struct virgl_resource
*res
;
178 surf
= vctx
->framebuffer
.zsbuf
;
180 res
= virgl_resource(surf
->texture
);
182 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
183 virgl_resource_dirty(res
, surf
->u
.tex
.level
);
186 for (i
= 0; i
< vctx
->framebuffer
.nr_cbufs
; i
++) {
187 surf
= vctx
->framebuffer
.cbufs
[i
];
189 res
= virgl_resource(surf
->texture
);
191 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
192 virgl_resource_dirty(res
, surf
->u
.tex
.level
);
198 static void virgl_attach_res_sampler_views(struct virgl_context
*vctx
,
199 enum pipe_shader_type shader_type
)
201 struct virgl_winsys
*vws
= virgl_screen(vctx
->base
.screen
)->vws
;
202 const struct virgl_shader_binding_state
*binding
=
203 &vctx
->shader_bindings
[shader_type
];
204 uint32_t remaining_mask
= binding
->view_enabled_mask
;
205 struct virgl_resource
*res
;
207 while (remaining_mask
) {
208 int i
= u_bit_scan(&remaining_mask
);
209 assert(binding
->views
[i
] && binding
->views
[i
]->texture
);
210 res
= virgl_resource(binding
->views
[i
]->texture
);
211 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
215 static void virgl_attach_res_vertex_buffers(struct virgl_context
*vctx
)
217 struct virgl_winsys
*vws
= virgl_screen(vctx
->base
.screen
)->vws
;
218 struct virgl_resource
*res
;
221 for (i
= 0; i
< vctx
->num_vertex_buffers
; i
++) {
222 res
= virgl_resource(vctx
->vertex_buffer
[i
].buffer
.resource
);
224 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
228 static void virgl_attach_res_index_buffer(struct virgl_context
*vctx
,
229 struct virgl_indexbuf
*ib
)
231 struct virgl_winsys
*vws
= virgl_screen(vctx
->base
.screen
)->vws
;
232 struct virgl_resource
*res
;
234 res
= virgl_resource(ib
->buffer
);
236 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
239 static void virgl_attach_res_so_targets(struct virgl_context
*vctx
)
241 struct virgl_winsys
*vws
= virgl_screen(vctx
->base
.screen
)->vws
;
242 struct virgl_resource
*res
;
245 for (i
= 0; i
< vctx
->num_so_targets
; i
++) {
246 res
= virgl_resource(vctx
->so_targets
[i
].base
.buffer
);
248 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
252 static void virgl_attach_res_uniform_buffers(struct virgl_context
*vctx
,
253 enum pipe_shader_type shader_type
)
255 struct virgl_winsys
*vws
= virgl_screen(vctx
->base
.screen
)->vws
;
256 const struct virgl_shader_binding_state
*binding
=
257 &vctx
->shader_bindings
[shader_type
];
258 uint32_t remaining_mask
= binding
->ubo_enabled_mask
;
259 struct virgl_resource
*res
;
261 while (remaining_mask
) {
262 int i
= u_bit_scan(&remaining_mask
);
263 res
= virgl_resource(binding
->ubos
[i
].buffer
);
265 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
269 static void virgl_attach_res_shader_buffers(struct virgl_context
*vctx
,
270 enum pipe_shader_type shader_type
)
272 struct virgl_winsys
*vws
= virgl_screen(vctx
->base
.screen
)->vws
;
273 const struct virgl_shader_binding_state
*binding
=
274 &vctx
->shader_bindings
[shader_type
];
275 uint32_t remaining_mask
= binding
->ssbo_enabled_mask
;
276 struct virgl_resource
*res
;
278 while (remaining_mask
) {
279 int i
= u_bit_scan(&remaining_mask
);
280 res
= virgl_resource(binding
->ssbos
[i
].buffer
);
282 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
286 static void virgl_attach_res_shader_images(struct virgl_context
*vctx
,
287 enum pipe_shader_type shader_type
)
289 struct virgl_winsys
*vws
= virgl_screen(vctx
->base
.screen
)->vws
;
290 const struct virgl_shader_binding_state
*binding
=
291 &vctx
->shader_bindings
[shader_type
];
292 uint32_t remaining_mask
= binding
->image_enabled_mask
;
293 struct virgl_resource
*res
;
295 while (remaining_mask
) {
296 int i
= u_bit_scan(&remaining_mask
);
297 res
= virgl_resource(binding
->images
[i
].resource
);
299 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
303 static void virgl_attach_res_atomic_buffers(struct virgl_context
*vctx
)
305 struct virgl_winsys
*vws
= virgl_screen(vctx
->base
.screen
)->vws
;
306 uint32_t remaining_mask
= vctx
->atomic_buffer_enabled_mask
;
307 struct virgl_resource
*res
;
309 while (remaining_mask
) {
310 int i
= u_bit_scan(&remaining_mask
);
311 res
= virgl_resource(vctx
->atomic_buffers
[i
].buffer
);
313 vws
->emit_res(vws
, vctx
->cbuf
, res
->hw_res
, FALSE
);
318 * after flushing, the hw context still has a bunch of
319 * resources bound, so we need to rebind those here.
321 static void virgl_reemit_draw_resources(struct virgl_context
*vctx
)
323 enum pipe_shader_type shader_type
;
325 /* reattach any flushed resources */
326 /* framebuffer, sampler views, vertex/index/uniform/stream buffers */
327 virgl_attach_res_framebuffer(vctx
);
329 for (shader_type
= 0; shader_type
< PIPE_SHADER_COMPUTE
; shader_type
++) {
330 virgl_attach_res_sampler_views(vctx
, shader_type
);
331 virgl_attach_res_uniform_buffers(vctx
, shader_type
);
332 virgl_attach_res_shader_buffers(vctx
, shader_type
);
333 virgl_attach_res_shader_images(vctx
, shader_type
);
335 virgl_attach_res_atomic_buffers(vctx
);
336 virgl_attach_res_vertex_buffers(vctx
);
337 virgl_attach_res_so_targets(vctx
);
340 static void virgl_reemit_compute_resources(struct virgl_context
*vctx
)
342 virgl_attach_res_sampler_views(vctx
, PIPE_SHADER_COMPUTE
);
343 virgl_attach_res_uniform_buffers(vctx
, PIPE_SHADER_COMPUTE
);
344 virgl_attach_res_shader_buffers(vctx
, PIPE_SHADER_COMPUTE
);
345 virgl_attach_res_shader_images(vctx
, PIPE_SHADER_COMPUTE
);
347 virgl_attach_res_atomic_buffers(vctx
);
350 static struct pipe_surface
*virgl_create_surface(struct pipe_context
*ctx
,
351 struct pipe_resource
*resource
,
352 const struct pipe_surface
*templ
)
354 struct virgl_context
*vctx
= virgl_context(ctx
);
355 struct virgl_surface
*surf
;
356 struct virgl_resource
*res
= virgl_resource(resource
);
359 /* no support for buffer surfaces */
360 if (resource
->target
== PIPE_BUFFER
)
363 surf
= CALLOC_STRUCT(virgl_surface
);
367 assert(ctx
->screen
->get_param(ctx
->screen
,
368 PIPE_CAP_DEST_SURFACE_SRGB_CONTROL
) ||
369 (util_format_is_srgb(templ
->format
) ==
370 util_format_is_srgb(resource
->format
)));
372 virgl_resource_dirty(res
, 0);
373 handle
= virgl_object_assign_handle();
374 pipe_reference_init(&surf
->base
.reference
, 1);
375 pipe_resource_reference(&surf
->base
.texture
, resource
);
376 surf
->base
.context
= ctx
;
377 surf
->base
.format
= templ
->format
;
379 surf
->base
.width
= u_minify(resource
->width0
, templ
->u
.tex
.level
);
380 surf
->base
.height
= u_minify(resource
->height0
, templ
->u
.tex
.level
);
381 surf
->base
.u
.tex
.level
= templ
->u
.tex
.level
;
382 surf
->base
.u
.tex
.first_layer
= templ
->u
.tex
.first_layer
;
383 surf
->base
.u
.tex
.last_layer
= templ
->u
.tex
.last_layer
;
385 virgl_encoder_create_surface(vctx
, handle
, res
, &surf
->base
);
386 surf
->handle
= handle
;
390 static void virgl_surface_destroy(struct pipe_context
*ctx
,
391 struct pipe_surface
*psurf
)
393 struct virgl_context
*vctx
= virgl_context(ctx
);
394 struct virgl_surface
*surf
= virgl_surface(psurf
);
396 pipe_resource_reference(&surf
->base
.texture
, NULL
);
397 virgl_encode_delete_object(vctx
, surf
->handle
, VIRGL_OBJECT_SURFACE
);
401 static void *virgl_create_blend_state(struct pipe_context
*ctx
,
402 const struct pipe_blend_state
*blend_state
)
404 struct virgl_context
*vctx
= virgl_context(ctx
);
406 handle
= virgl_object_assign_handle();
408 virgl_encode_blend_state(vctx
, handle
, blend_state
);
409 return (void *)(unsigned long)handle
;
413 static void virgl_bind_blend_state(struct pipe_context
*ctx
,
416 struct virgl_context
*vctx
= virgl_context(ctx
);
417 uint32_t handle
= (unsigned long)blend_state
;
418 virgl_encode_bind_object(vctx
, handle
, VIRGL_OBJECT_BLEND
);
421 static void virgl_delete_blend_state(struct pipe_context
*ctx
,
424 struct virgl_context
*vctx
= virgl_context(ctx
);
425 uint32_t handle
= (unsigned long)blend_state
;
426 virgl_encode_delete_object(vctx
, handle
, VIRGL_OBJECT_BLEND
);
429 static void *virgl_create_depth_stencil_alpha_state(struct pipe_context
*ctx
,
430 const struct pipe_depth_stencil_alpha_state
*blend_state
)
432 struct virgl_context
*vctx
= virgl_context(ctx
);
434 handle
= virgl_object_assign_handle();
436 virgl_encode_dsa_state(vctx
, handle
, blend_state
);
437 return (void *)(unsigned long)handle
;
440 static void virgl_bind_depth_stencil_alpha_state(struct pipe_context
*ctx
,
443 struct virgl_context
*vctx
= virgl_context(ctx
);
444 uint32_t handle
= (unsigned long)blend_state
;
445 virgl_encode_bind_object(vctx
, handle
, VIRGL_OBJECT_DSA
);
448 static void virgl_delete_depth_stencil_alpha_state(struct pipe_context
*ctx
,
451 struct virgl_context
*vctx
= virgl_context(ctx
);
452 uint32_t handle
= (unsigned long)dsa_state
;
453 virgl_encode_delete_object(vctx
, handle
, VIRGL_OBJECT_DSA
);
456 static void *virgl_create_rasterizer_state(struct pipe_context
*ctx
,
457 const struct pipe_rasterizer_state
*rs_state
)
459 struct virgl_context
*vctx
= virgl_context(ctx
);
460 struct virgl_rasterizer_state
*vrs
= CALLOC_STRUCT(virgl_rasterizer_state
);
465 vrs
->handle
= virgl_object_assign_handle();
467 virgl_encode_rasterizer_state(vctx
, vrs
->handle
, rs_state
);
471 static void virgl_bind_rasterizer_state(struct pipe_context
*ctx
,
474 struct virgl_context
*vctx
= virgl_context(ctx
);
477 struct virgl_rasterizer_state
*vrs
= rs_state
;
478 vctx
->rs_state
= *vrs
;
479 handle
= vrs
->handle
;
481 virgl_encode_bind_object(vctx
, handle
, VIRGL_OBJECT_RASTERIZER
);
484 static void virgl_delete_rasterizer_state(struct pipe_context
*ctx
,
487 struct virgl_context
*vctx
= virgl_context(ctx
);
488 struct virgl_rasterizer_state
*vrs
= rs_state
;
489 virgl_encode_delete_object(vctx
, vrs
->handle
, VIRGL_OBJECT_RASTERIZER
);
493 static void virgl_set_framebuffer_state(struct pipe_context
*ctx
,
494 const struct pipe_framebuffer_state
*state
)
496 struct virgl_context
*vctx
= virgl_context(ctx
);
498 vctx
->framebuffer
= *state
;
499 virgl_encoder_set_framebuffer_state(vctx
, state
);
500 virgl_attach_res_framebuffer(vctx
);
503 static void virgl_set_viewport_states(struct pipe_context
*ctx
,
505 unsigned num_viewports
,
506 const struct pipe_viewport_state
*state
)
508 struct virgl_context
*vctx
= virgl_context(ctx
);
509 virgl_encoder_set_viewport_states(vctx
, start_slot
, num_viewports
, state
);
512 static void *virgl_create_vertex_elements_state(struct pipe_context
*ctx
,
513 unsigned num_elements
,
514 const struct pipe_vertex_element
*elements
)
516 struct pipe_vertex_element new_elements
[PIPE_MAX_ATTRIBS
];
517 struct virgl_context
*vctx
= virgl_context(ctx
);
518 struct virgl_vertex_elements_state
*state
=
519 CALLOC_STRUCT(virgl_vertex_elements_state
);
521 for (int i
= 0; i
< num_elements
; ++i
) {
522 if (elements
[i
].instance_divisor
) {
523 /* Virglrenderer doesn't deal with instance_divisor correctly if
524 * there isn't a 1:1 relationship between elements and bindings.
525 * So let's make sure there is, by duplicating bindings.
527 for (int j
= 0; j
< num_elements
; ++j
) {
528 new_elements
[j
] = elements
[j
];
529 new_elements
[j
].vertex_buffer_index
= j
;
530 state
->binding_map
[j
] = elements
[j
].vertex_buffer_index
;
532 elements
= new_elements
;
533 state
->num_bindings
= num_elements
;
538 state
->handle
= virgl_object_assign_handle();
539 virgl_encoder_create_vertex_elements(vctx
, state
->handle
,
540 num_elements
, elements
);
544 static void virgl_delete_vertex_elements_state(struct pipe_context
*ctx
,
547 struct virgl_context
*vctx
= virgl_context(ctx
);
548 struct virgl_vertex_elements_state
*state
=
549 (struct virgl_vertex_elements_state
*)ve
;
550 virgl_encode_delete_object(vctx
, state
->handle
, VIRGL_OBJECT_VERTEX_ELEMENTS
);
554 static void virgl_bind_vertex_elements_state(struct pipe_context
*ctx
,
557 struct virgl_context
*vctx
= virgl_context(ctx
);
558 struct virgl_vertex_elements_state
*state
=
559 (struct virgl_vertex_elements_state
*)ve
;
560 vctx
->vertex_elements
= state
;
561 virgl_encode_bind_object(vctx
, state
? state
->handle
: 0,
562 VIRGL_OBJECT_VERTEX_ELEMENTS
);
563 vctx
->vertex_array_dirty
= TRUE
;
566 static void virgl_set_vertex_buffers(struct pipe_context
*ctx
,
568 unsigned num_buffers
,
569 const struct pipe_vertex_buffer
*buffers
)
571 struct virgl_context
*vctx
= virgl_context(ctx
);
573 util_set_vertex_buffers_count(vctx
->vertex_buffer
,
574 &vctx
->num_vertex_buffers
,
575 buffers
, start_slot
, num_buffers
);
578 for (unsigned i
= 0; i
< num_buffers
; i
++) {
579 struct virgl_resource
*res
=
580 virgl_resource(buffers
[i
].buffer
.resource
);
581 if (res
&& !buffers
[i
].is_user_buffer
)
582 res
->bind_history
|= PIPE_BIND_VERTEX_BUFFER
;
586 vctx
->vertex_array_dirty
= TRUE
;
589 static void virgl_hw_set_vertex_buffers(struct virgl_context
*vctx
)
591 if (vctx
->vertex_array_dirty
) {
592 struct virgl_vertex_elements_state
*ve
= vctx
->vertex_elements
;
594 if (ve
->num_bindings
) {
595 struct pipe_vertex_buffer vertex_buffers
[PIPE_MAX_ATTRIBS
];
596 for (int i
= 0; i
< ve
->num_bindings
; ++i
)
597 vertex_buffers
[i
] = vctx
->vertex_buffer
[ve
->binding_map
[i
]];
599 virgl_encoder_set_vertex_buffers(vctx
, ve
->num_bindings
, vertex_buffers
);
601 virgl_encoder_set_vertex_buffers(vctx
, vctx
->num_vertex_buffers
, vctx
->vertex_buffer
);
603 virgl_attach_res_vertex_buffers(vctx
);
605 vctx
->vertex_array_dirty
= FALSE
;
609 static void virgl_set_stencil_ref(struct pipe_context
*ctx
,
610 const struct pipe_stencil_ref
*ref
)
612 struct virgl_context
*vctx
= virgl_context(ctx
);
613 virgl_encoder_set_stencil_ref(vctx
, ref
);
616 static void virgl_set_blend_color(struct pipe_context
*ctx
,
617 const struct pipe_blend_color
*color
)
619 struct virgl_context
*vctx
= virgl_context(ctx
);
620 virgl_encoder_set_blend_color(vctx
, color
);
623 static void virgl_hw_set_index_buffer(struct virgl_context
*vctx
,
624 struct virgl_indexbuf
*ib
)
626 virgl_encoder_set_index_buffer(vctx
, ib
);
627 virgl_attach_res_index_buffer(vctx
, ib
);
630 static void virgl_set_constant_buffer(struct pipe_context
*ctx
,
631 enum pipe_shader_type shader
, uint index
,
632 const struct pipe_constant_buffer
*buf
)
634 struct virgl_context
*vctx
= virgl_context(ctx
);
635 struct virgl_shader_binding_state
*binding
=
636 &vctx
->shader_bindings
[shader
];
638 if (buf
&& buf
->buffer
) {
639 struct virgl_resource
*res
= virgl_resource(buf
->buffer
);
640 res
->bind_history
|= PIPE_BIND_CONSTANT_BUFFER
;
642 virgl_encoder_set_uniform_buffer(vctx
, shader
, index
,
644 buf
->buffer_size
, res
);
646 pipe_resource_reference(&binding
->ubos
[index
].buffer
, buf
->buffer
);
647 binding
->ubos
[index
] = *buf
;
648 binding
->ubo_enabled_mask
|= 1 << index
;
650 static const struct pipe_constant_buffer dummy_ubo
;
653 virgl_encoder_write_constant_buffer(vctx
, shader
, index
,
654 buf
->buffer_size
/ 4,
657 pipe_resource_reference(&binding
->ubos
[index
].buffer
, NULL
);
658 binding
->ubo_enabled_mask
&= ~(1 << index
);
662 static void *virgl_shader_encoder(struct pipe_context
*ctx
,
663 const struct pipe_shader_state
*shader
,
666 struct virgl_context
*vctx
= virgl_context(ctx
);
668 struct tgsi_token
*new_tokens
;
671 new_tokens
= virgl_tgsi_transform(vctx
, shader
->tokens
);
675 handle
= virgl_object_assign_handle();
676 /* encode VS state */
677 ret
= virgl_encode_shader_state(vctx
, handle
, type
,
678 &shader
->stream_output
, 0,
685 return (void *)(unsigned long)handle
;
688 static void *virgl_create_vs_state(struct pipe_context
*ctx
,
689 const struct pipe_shader_state
*shader
)
691 return virgl_shader_encoder(ctx
, shader
, PIPE_SHADER_VERTEX
);
694 static void *virgl_create_tcs_state(struct pipe_context
*ctx
,
695 const struct pipe_shader_state
*shader
)
697 return virgl_shader_encoder(ctx
, shader
, PIPE_SHADER_TESS_CTRL
);
700 static void *virgl_create_tes_state(struct pipe_context
*ctx
,
701 const struct pipe_shader_state
*shader
)
703 return virgl_shader_encoder(ctx
, shader
, PIPE_SHADER_TESS_EVAL
);
706 static void *virgl_create_gs_state(struct pipe_context
*ctx
,
707 const struct pipe_shader_state
*shader
)
709 return virgl_shader_encoder(ctx
, shader
, PIPE_SHADER_GEOMETRY
);
712 static void *virgl_create_fs_state(struct pipe_context
*ctx
,
713 const struct pipe_shader_state
*shader
)
715 return virgl_shader_encoder(ctx
, shader
, PIPE_SHADER_FRAGMENT
);
719 virgl_delete_fs_state(struct pipe_context
*ctx
,
722 uint32_t handle
= (unsigned long)fs
;
723 struct virgl_context
*vctx
= virgl_context(ctx
);
725 virgl_encode_delete_object(vctx
, handle
, VIRGL_OBJECT_SHADER
);
729 virgl_delete_gs_state(struct pipe_context
*ctx
,
732 uint32_t handle
= (unsigned long)gs
;
733 struct virgl_context
*vctx
= virgl_context(ctx
);
735 virgl_encode_delete_object(vctx
, handle
, VIRGL_OBJECT_SHADER
);
739 virgl_delete_vs_state(struct pipe_context
*ctx
,
742 uint32_t handle
= (unsigned long)vs
;
743 struct virgl_context
*vctx
= virgl_context(ctx
);
745 virgl_encode_delete_object(vctx
, handle
, VIRGL_OBJECT_SHADER
);
749 virgl_delete_tcs_state(struct pipe_context
*ctx
,
752 uint32_t handle
= (unsigned long)tcs
;
753 struct virgl_context
*vctx
= virgl_context(ctx
);
755 virgl_encode_delete_object(vctx
, handle
, VIRGL_OBJECT_SHADER
);
759 virgl_delete_tes_state(struct pipe_context
*ctx
,
762 uint32_t handle
= (unsigned long)tes
;
763 struct virgl_context
*vctx
= virgl_context(ctx
);
765 virgl_encode_delete_object(vctx
, handle
, VIRGL_OBJECT_SHADER
);
768 static void virgl_bind_vs_state(struct pipe_context
*ctx
,
771 uint32_t handle
= (unsigned long)vss
;
772 struct virgl_context
*vctx
= virgl_context(ctx
);
774 virgl_encode_bind_shader(vctx
, handle
, PIPE_SHADER_VERTEX
);
777 static void virgl_bind_tcs_state(struct pipe_context
*ctx
,
780 uint32_t handle
= (unsigned long)vss
;
781 struct virgl_context
*vctx
= virgl_context(ctx
);
783 virgl_encode_bind_shader(vctx
, handle
, PIPE_SHADER_TESS_CTRL
);
786 static void virgl_bind_tes_state(struct pipe_context
*ctx
,
789 uint32_t handle
= (unsigned long)vss
;
790 struct virgl_context
*vctx
= virgl_context(ctx
);
792 virgl_encode_bind_shader(vctx
, handle
, PIPE_SHADER_TESS_EVAL
);
795 static void virgl_bind_gs_state(struct pipe_context
*ctx
,
798 uint32_t handle
= (unsigned long)vss
;
799 struct virgl_context
*vctx
= virgl_context(ctx
);
801 virgl_encode_bind_shader(vctx
, handle
, PIPE_SHADER_GEOMETRY
);
805 static void virgl_bind_fs_state(struct pipe_context
*ctx
,
808 uint32_t handle
= (unsigned long)vss
;
809 struct virgl_context
*vctx
= virgl_context(ctx
);
811 virgl_encode_bind_shader(vctx
, handle
, PIPE_SHADER_FRAGMENT
);
814 static void virgl_clear(struct pipe_context
*ctx
,
816 const union pipe_color_union
*color
,
817 double depth
, unsigned stencil
)
819 struct virgl_context
*vctx
= virgl_context(ctx
);
821 if (!vctx
->num_draws
)
822 virgl_reemit_draw_resources(vctx
);
825 virgl_encode_clear(vctx
, buffers
, color
, depth
, stencil
);
828 static void virgl_draw_vbo(struct pipe_context
*ctx
,
829 const struct pipe_draw_info
*dinfo
)
831 struct virgl_context
*vctx
= virgl_context(ctx
);
832 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
833 struct virgl_indexbuf ib
= {};
834 struct pipe_draw_info info
= *dinfo
;
836 if (!dinfo
->count_from_stream_output
&& !dinfo
->indirect
&&
837 !dinfo
->primitive_restart
&&
838 !u_trim_pipe_prim(dinfo
->mode
, (unsigned*)&dinfo
->count
))
841 if (!(rs
->caps
.caps
.v1
.prim_mask
& (1 << dinfo
->mode
))) {
842 util_primconvert_save_rasterizer_state(vctx
->primconvert
, &vctx
->rs_state
.rs
);
843 util_primconvert_draw_vbo(vctx
->primconvert
, dinfo
);
846 if (info
.index_size
) {
847 pipe_resource_reference(&ib
.buffer
, info
.has_user_indices
? NULL
: info
.index
.resource
);
848 ib
.user_buffer
= info
.has_user_indices
? info
.index
.user
: NULL
;
849 ib
.index_size
= dinfo
->index_size
;
850 ib
.offset
= info
.start
* ib
.index_size
;
852 if (ib
.user_buffer
) {
853 u_upload_data(vctx
->uploader
, 0, info
.count
* ib
.index_size
, 4,
854 ib
.user_buffer
, &ib
.offset
, &ib
.buffer
);
855 ib
.user_buffer
= NULL
;
859 if (!vctx
->num_draws
)
860 virgl_reemit_draw_resources(vctx
);
863 virgl_hw_set_vertex_buffers(vctx
);
865 virgl_hw_set_index_buffer(vctx
, &ib
);
867 virgl_encoder_draw_vbo(vctx
, &info
);
869 pipe_resource_reference(&ib
.buffer
, NULL
);
873 static void virgl_submit_cmd(struct virgl_winsys
*vws
,
874 struct virgl_cmd_buf
*cbuf
,
875 struct pipe_fence_handle
**fence
)
877 if (unlikely(virgl_debug
& VIRGL_DEBUG_SYNC
)) {
878 struct pipe_fence_handle
*sync_fence
= NULL
;
880 vws
->submit_cmd(vws
, cbuf
, &sync_fence
);
882 vws
->fence_wait(vws
, sync_fence
, PIPE_TIMEOUT_INFINITE
);
883 vws
->fence_reference(vws
, &sync_fence
, NULL
);
885 vws
->submit_cmd(vws
, cbuf
, fence
);
889 static void virgl_flush_eq(struct virgl_context
*ctx
, void *closure
,
890 struct pipe_fence_handle
**fence
)
892 struct virgl_screen
*rs
= virgl_screen(ctx
->base
.screen
);
894 /* skip empty cbuf */
895 if (ctx
->cbuf
->cdw
== ctx
->cbuf_initial_cdw
&&
896 ctx
->queue
.num_dwords
== 0 &&
901 u_upload_unmap(ctx
->uploader
);
903 /* send the buffer to the remote side for decoding */
904 ctx
->num_draws
= ctx
->num_compute
= 0;
906 virgl_transfer_queue_clear(&ctx
->queue
, ctx
->cbuf
);
908 virgl_submit_cmd(rs
->vws
, ctx
->cbuf
, fence
);
910 /* Reserve some space for transfers. */
911 if (ctx
->encoded_transfers
)
912 ctx
->cbuf
->cdw
= VIRGL_MAX_TBUF_DWORDS
;
914 virgl_encoder_set_sub_ctx(ctx
, ctx
->hw_sub_ctx_id
);
916 ctx
->cbuf_initial_cdw
= ctx
->cbuf
->cdw
;
918 /* We have flushed the command queue, including any pending copy transfers
919 * involving staging resources.
921 ctx
->queued_staging_res_size
= 0;
924 static void virgl_flush_from_st(struct pipe_context
*ctx
,
925 struct pipe_fence_handle
**fence
,
926 enum pipe_flush_flags flags
)
928 struct virgl_context
*vctx
= virgl_context(ctx
);
930 virgl_flush_eq(vctx
, vctx
, fence
);
933 static struct pipe_sampler_view
*virgl_create_sampler_view(struct pipe_context
*ctx
,
934 struct pipe_resource
*texture
,
935 const struct pipe_sampler_view
*state
)
937 struct virgl_context
*vctx
= virgl_context(ctx
);
938 struct virgl_sampler_view
*grview
;
940 struct virgl_resource
*res
;
945 grview
= CALLOC_STRUCT(virgl_sampler_view
);
949 res
= virgl_resource(texture
);
950 handle
= virgl_object_assign_handle();
951 virgl_encode_sampler_view(vctx
, handle
, res
, state
);
953 grview
->base
= *state
;
954 grview
->base
.reference
.count
= 1;
956 grview
->base
.texture
= NULL
;
957 grview
->base
.context
= ctx
;
958 pipe_resource_reference(&grview
->base
.texture
, texture
);
959 grview
->handle
= handle
;
960 return &grview
->base
;
963 static void virgl_set_sampler_views(struct pipe_context
*ctx
,
964 enum pipe_shader_type shader_type
,
967 struct pipe_sampler_view
**views
)
969 struct virgl_context
*vctx
= virgl_context(ctx
);
970 struct virgl_shader_binding_state
*binding
=
971 &vctx
->shader_bindings
[shader_type
];
973 binding
->view_enabled_mask
&= ~u_bit_consecutive(start_slot
, num_views
);
974 for (unsigned i
= 0; i
< num_views
; i
++) {
975 unsigned idx
= start_slot
+ i
;
976 if (views
&& views
[i
]) {
977 struct virgl_resource
*res
= virgl_resource(views
[i
]->texture
);
978 res
->bind_history
|= PIPE_BIND_SAMPLER_VIEW
;
980 pipe_sampler_view_reference(&binding
->views
[idx
], views
[i
]);
981 binding
->view_enabled_mask
|= 1 << idx
;
983 pipe_sampler_view_reference(&binding
->views
[idx
], NULL
);
987 virgl_encode_set_sampler_views(vctx
, shader_type
,
988 start_slot
, num_views
, (struct virgl_sampler_view
**)binding
->views
);
989 virgl_attach_res_sampler_views(vctx
, shader_type
);
993 virgl_texture_barrier(struct pipe_context
*ctx
, unsigned flags
)
995 struct virgl_context
*vctx
= virgl_context(ctx
);
996 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
998 if (!(rs
->caps
.caps
.v2
.capability_bits
& VIRGL_CAP_TEXTURE_BARRIER
))
1000 virgl_encode_texture_barrier(vctx
, flags
);
1003 static void virgl_destroy_sampler_view(struct pipe_context
*ctx
,
1004 struct pipe_sampler_view
*view
)
1006 struct virgl_context
*vctx
= virgl_context(ctx
);
1007 struct virgl_sampler_view
*grview
= virgl_sampler_view(view
);
1009 virgl_encode_delete_object(vctx
, grview
->handle
, VIRGL_OBJECT_SAMPLER_VIEW
);
1010 pipe_resource_reference(&view
->texture
, NULL
);
1014 static void *virgl_create_sampler_state(struct pipe_context
*ctx
,
1015 const struct pipe_sampler_state
*state
)
1017 struct virgl_context
*vctx
= virgl_context(ctx
);
1020 handle
= virgl_object_assign_handle();
1022 virgl_encode_sampler_state(vctx
, handle
, state
);
1023 return (void *)(unsigned long)handle
;
1026 static void virgl_delete_sampler_state(struct pipe_context
*ctx
,
1029 struct virgl_context
*vctx
= virgl_context(ctx
);
1030 uint32_t handle
= (unsigned long)ss
;
1032 virgl_encode_delete_object(vctx
, handle
, VIRGL_OBJECT_SAMPLER_STATE
);
1035 static void virgl_bind_sampler_states(struct pipe_context
*ctx
,
1036 enum pipe_shader_type shader
,
1037 unsigned start_slot
,
1038 unsigned num_samplers
,
1041 struct virgl_context
*vctx
= virgl_context(ctx
);
1042 uint32_t handles
[32];
1044 for (i
= 0; i
< num_samplers
; i
++) {
1045 handles
[i
] = (unsigned long)(samplers
[i
]);
1047 virgl_encode_bind_sampler_states(vctx
, shader
, start_slot
, num_samplers
, handles
);
1050 static void virgl_set_polygon_stipple(struct pipe_context
*ctx
,
1051 const struct pipe_poly_stipple
*ps
)
1053 struct virgl_context
*vctx
= virgl_context(ctx
);
1054 virgl_encoder_set_polygon_stipple(vctx
, ps
);
1057 static void virgl_set_scissor_states(struct pipe_context
*ctx
,
1058 unsigned start_slot
,
1059 unsigned num_scissor
,
1060 const struct pipe_scissor_state
*ss
)
1062 struct virgl_context
*vctx
= virgl_context(ctx
);
1063 virgl_encoder_set_scissor_state(vctx
, start_slot
, num_scissor
, ss
);
1066 static void virgl_set_sample_mask(struct pipe_context
*ctx
,
1067 unsigned sample_mask
)
1069 struct virgl_context
*vctx
= virgl_context(ctx
);
1070 virgl_encoder_set_sample_mask(vctx
, sample_mask
);
1073 static void virgl_set_min_samples(struct pipe_context
*ctx
,
1074 unsigned min_samples
)
1076 struct virgl_context
*vctx
= virgl_context(ctx
);
1077 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
1079 if (!(rs
->caps
.caps
.v2
.capability_bits
& VIRGL_CAP_SET_MIN_SAMPLES
))
1081 virgl_encoder_set_min_samples(vctx
, min_samples
);
1084 static void virgl_set_clip_state(struct pipe_context
*ctx
,
1085 const struct pipe_clip_state
*clip
)
1087 struct virgl_context
*vctx
= virgl_context(ctx
);
1088 virgl_encoder_set_clip_state(vctx
, clip
);
1091 static void virgl_set_tess_state(struct pipe_context
*ctx
,
1092 const float default_outer_level
[4],
1093 const float default_inner_level
[2])
1095 struct virgl_context
*vctx
= virgl_context(ctx
);
1096 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
1098 if (!rs
->caps
.caps
.v1
.bset
.has_tessellation_shaders
)
1100 virgl_encode_set_tess_state(vctx
, default_outer_level
, default_inner_level
);
1103 static void virgl_resource_copy_region(struct pipe_context
*ctx
,
1104 struct pipe_resource
*dst
,
1106 unsigned dstx
, unsigned dsty
, unsigned dstz
,
1107 struct pipe_resource
*src
,
1109 const struct pipe_box
*src_box
)
1111 struct virgl_context
*vctx
= virgl_context(ctx
);
1112 struct virgl_resource
*dres
= virgl_resource(dst
);
1113 struct virgl_resource
*sres
= virgl_resource(src
);
1115 if (dres
->u
.b
.target
== PIPE_BUFFER
)
1116 util_range_add(&dres
->valid_buffer_range
, dstx
, dstx
+ src_box
->width
);
1117 virgl_resource_dirty(dres
, dst_level
);
1119 virgl_encode_resource_copy_region(vctx
, dres
,
1120 dst_level
, dstx
, dsty
, dstz
,
1126 virgl_flush_resource(struct pipe_context
*pipe
,
1127 struct pipe_resource
*resource
)
1131 static void virgl_blit(struct pipe_context
*ctx
,
1132 const struct pipe_blit_info
*blit
)
1134 struct virgl_context
*vctx
= virgl_context(ctx
);
1135 struct virgl_resource
*dres
= virgl_resource(blit
->dst
.resource
);
1136 struct virgl_resource
*sres
= virgl_resource(blit
->src
.resource
);
1138 assert(ctx
->screen
->get_param(ctx
->screen
,
1139 PIPE_CAP_DEST_SURFACE_SRGB_CONTROL
) ||
1140 (util_format_is_srgb(blit
->dst
.resource
->format
) ==
1141 util_format_is_srgb(blit
->dst
.format
)));
1143 virgl_resource_dirty(dres
, blit
->dst
.level
);
1144 virgl_encode_blit(vctx
, dres
, sres
,
1148 static void virgl_set_hw_atomic_buffers(struct pipe_context
*ctx
,
1149 unsigned start_slot
,
1151 const struct pipe_shader_buffer
*buffers
)
1153 struct virgl_context
*vctx
= virgl_context(ctx
);
1155 vctx
->atomic_buffer_enabled_mask
&= ~u_bit_consecutive(start_slot
, count
);
1156 for (unsigned i
= 0; i
< count
; i
++) {
1157 unsigned idx
= start_slot
+ i
;
1158 if (buffers
&& buffers
[i
].buffer
) {
1159 struct virgl_resource
*res
= virgl_resource(buffers
[i
].buffer
);
1160 res
->bind_history
|= PIPE_BIND_SHADER_BUFFER
;
1162 pipe_resource_reference(&vctx
->atomic_buffers
[idx
].buffer
,
1164 vctx
->atomic_buffers
[idx
] = buffers
[i
];
1165 vctx
->atomic_buffer_enabled_mask
|= 1 << idx
;
1167 pipe_resource_reference(&vctx
->atomic_buffers
[idx
].buffer
, NULL
);
1171 virgl_encode_set_hw_atomic_buffers(vctx
, start_slot
, count
, buffers
);
1174 static void virgl_set_shader_buffers(struct pipe_context
*ctx
,
1175 enum pipe_shader_type shader
,
1176 unsigned start_slot
, unsigned count
,
1177 const struct pipe_shader_buffer
*buffers
,
1178 unsigned writable_bitmask
)
1180 struct virgl_context
*vctx
= virgl_context(ctx
);
1181 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
1182 struct virgl_shader_binding_state
*binding
=
1183 &vctx
->shader_bindings
[shader
];
1185 binding
->ssbo_enabled_mask
&= ~u_bit_consecutive(start_slot
, count
);
1186 for (unsigned i
= 0; i
< count
; i
++) {
1187 unsigned idx
= start_slot
+ i
;
1188 if (buffers
&& buffers
[i
].buffer
) {
1189 struct virgl_resource
*res
= virgl_resource(buffers
[i
].buffer
);
1190 res
->bind_history
|= PIPE_BIND_SHADER_BUFFER
;
1192 pipe_resource_reference(&binding
->ssbos
[idx
].buffer
, buffers
[i
].buffer
);
1193 binding
->ssbos
[idx
] = buffers
[i
];
1194 binding
->ssbo_enabled_mask
|= 1 << idx
;
1196 pipe_resource_reference(&binding
->ssbos
[idx
].buffer
, NULL
);
1200 uint32_t max_shader_buffer
= (shader
== PIPE_SHADER_FRAGMENT
|| shader
== PIPE_SHADER_COMPUTE
) ?
1201 rs
->caps
.caps
.v2
.max_shader_buffer_frag_compute
:
1202 rs
->caps
.caps
.v2
.max_shader_buffer_other_stages
;
1203 if (!max_shader_buffer
)
1205 virgl_encode_set_shader_buffers(vctx
, shader
, start_slot
, count
, buffers
);
1208 static void virgl_create_fence_fd(struct pipe_context
*ctx
,
1209 struct pipe_fence_handle
**fence
,
1211 enum pipe_fd_type type
)
1213 assert(type
== PIPE_FD_TYPE_NATIVE_SYNC
);
1214 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
1216 if (rs
->vws
->cs_create_fence
)
1217 *fence
= rs
->vws
->cs_create_fence(rs
->vws
, fd
);
1220 static void virgl_fence_server_sync(struct pipe_context
*ctx
,
1221 struct pipe_fence_handle
*fence
)
1223 struct virgl_context
*vctx
= virgl_context(ctx
);
1224 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
1226 if (rs
->vws
->fence_server_sync
)
1227 rs
->vws
->fence_server_sync(rs
->vws
, vctx
->cbuf
, fence
);
1230 static void virgl_set_shader_images(struct pipe_context
*ctx
,
1231 enum pipe_shader_type shader
,
1232 unsigned start_slot
, unsigned count
,
1233 const struct pipe_image_view
*images
)
1235 struct virgl_context
*vctx
= virgl_context(ctx
);
1236 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
1237 struct virgl_shader_binding_state
*binding
=
1238 &vctx
->shader_bindings
[shader
];
1240 binding
->image_enabled_mask
&= ~u_bit_consecutive(start_slot
, count
);
1241 for (unsigned i
= 0; i
< count
; i
++) {
1242 unsigned idx
= start_slot
+ i
;
1243 if (images
&& images
[i
].resource
) {
1244 struct virgl_resource
*res
= virgl_resource(images
[i
].resource
);
1245 res
->bind_history
|= PIPE_BIND_SHADER_IMAGE
;
1247 pipe_resource_reference(&binding
->images
[idx
].resource
,
1248 images
[i
].resource
);
1249 binding
->images
[idx
] = images
[i
];
1250 binding
->image_enabled_mask
|= 1 << idx
;
1252 pipe_resource_reference(&binding
->images
[idx
].resource
, NULL
);
1256 uint32_t max_shader_images
= (shader
== PIPE_SHADER_FRAGMENT
|| shader
== PIPE_SHADER_COMPUTE
) ?
1257 rs
->caps
.caps
.v2
.max_shader_image_frag_compute
:
1258 rs
->caps
.caps
.v2
.max_shader_image_other_stages
;
1259 if (!max_shader_images
)
1261 virgl_encode_set_shader_images(vctx
, shader
, start_slot
, count
, images
);
1264 static void virgl_memory_barrier(struct pipe_context
*ctx
,
1267 struct virgl_context
*vctx
= virgl_context(ctx
);
1268 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
1270 if (!(rs
->caps
.caps
.v2
.capability_bits
& VIRGL_CAP_MEMORY_BARRIER
))
1272 virgl_encode_memory_barrier(vctx
, flags
);
1275 static void *virgl_create_compute_state(struct pipe_context
*ctx
,
1276 const struct pipe_compute_state
*state
)
1278 struct virgl_context
*vctx
= virgl_context(ctx
);
1280 const struct tgsi_token
*new_tokens
= state
->prog
;
1281 struct pipe_stream_output_info so_info
= {};
1284 handle
= virgl_object_assign_handle();
1285 ret
= virgl_encode_shader_state(vctx
, handle
, PIPE_SHADER_COMPUTE
,
1287 state
->req_local_mem
,
1293 return (void *)(unsigned long)handle
;
1296 static void virgl_bind_compute_state(struct pipe_context
*ctx
, void *state
)
1298 uint32_t handle
= (unsigned long)state
;
1299 struct virgl_context
*vctx
= virgl_context(ctx
);
1301 virgl_encode_bind_shader(vctx
, handle
, PIPE_SHADER_COMPUTE
);
1304 static void virgl_delete_compute_state(struct pipe_context
*ctx
, void *state
)
1306 uint32_t handle
= (unsigned long)state
;
1307 struct virgl_context
*vctx
= virgl_context(ctx
);
1309 virgl_encode_delete_object(vctx
, handle
, VIRGL_OBJECT_SHADER
);
1312 static void virgl_launch_grid(struct pipe_context
*ctx
,
1313 const struct pipe_grid_info
*info
)
1315 struct virgl_context
*vctx
= virgl_context(ctx
);
1317 if (!vctx
->num_compute
)
1318 virgl_reemit_compute_resources(vctx
);
1319 vctx
->num_compute
++;
1321 virgl_encode_launch_grid(vctx
, info
);
1325 virgl_release_shader_binding(struct virgl_context
*vctx
,
1326 enum pipe_shader_type shader_type
)
1328 struct virgl_shader_binding_state
*binding
=
1329 &vctx
->shader_bindings
[shader_type
];
1331 while (binding
->view_enabled_mask
) {
1332 int i
= u_bit_scan(&binding
->view_enabled_mask
);
1333 pipe_sampler_view_reference(
1334 (struct pipe_sampler_view
**)&binding
->views
[i
], NULL
);
1337 while (binding
->ubo_enabled_mask
) {
1338 int i
= u_bit_scan(&binding
->ubo_enabled_mask
);
1339 pipe_resource_reference(&binding
->ubos
[i
].buffer
, NULL
);
1342 while (binding
->ssbo_enabled_mask
) {
1343 int i
= u_bit_scan(&binding
->ssbo_enabled_mask
);
1344 pipe_resource_reference(&binding
->ssbos
[i
].buffer
, NULL
);
1347 while (binding
->image_enabled_mask
) {
1348 int i
= u_bit_scan(&binding
->image_enabled_mask
);
1349 pipe_resource_reference(&binding
->images
[i
].resource
, NULL
);
1354 virgl_context_destroy( struct pipe_context
*ctx
)
1356 struct virgl_context
*vctx
= virgl_context(ctx
);
1357 struct virgl_screen
*rs
= virgl_screen(ctx
->screen
);
1358 enum pipe_shader_type shader_type
;
1360 vctx
->framebuffer
.zsbuf
= NULL
;
1361 vctx
->framebuffer
.nr_cbufs
= 0;
1362 virgl_encoder_destroy_sub_ctx(vctx
, vctx
->hw_sub_ctx_id
);
1363 virgl_flush_eq(vctx
, vctx
, NULL
);
1365 for (shader_type
= 0; shader_type
< PIPE_SHADER_TYPES
; shader_type
++)
1366 virgl_release_shader_binding(vctx
, shader_type
);
1368 while (vctx
->atomic_buffer_enabled_mask
) {
1369 int i
= u_bit_scan(&vctx
->atomic_buffer_enabled_mask
);
1370 pipe_resource_reference(&vctx
->atomic_buffers
[i
].buffer
, NULL
);
1373 rs
->vws
->cmd_buf_destroy(vctx
->cbuf
);
1375 u_upload_destroy(vctx
->uploader
);
1376 if (vctx
->supports_staging
)
1377 virgl_staging_destroy(&vctx
->staging
);
1378 util_primconvert_destroy(vctx
->primconvert
);
1379 virgl_transfer_queue_fini(&vctx
->queue
);
1381 slab_destroy_child(&vctx
->transfer_pool
);
1385 static void virgl_get_sample_position(struct pipe_context
*ctx
,
1386 unsigned sample_count
,
1390 struct virgl_context
*vctx
= virgl_context(ctx
);
1391 struct virgl_screen
*vs
= virgl_screen(vctx
->base
.screen
);
1393 if (sample_count
> vs
->caps
.caps
.v1
.max_samples
) {
1394 debug_printf("VIRGL: requested %d MSAA samples, but only %d supported\n",
1395 sample_count
, vs
->caps
.caps
.v1
.max_samples
);
1399 /* The following is basically copied from dri/i965gen6_get_sample_position
1400 * The only addition is that we hold the msaa positions for all sample
1401 * counts in a flat array. */
1403 if (sample_count
== 1) {
1404 out_value
[0] = out_value
[1] = 0.5f
;
1406 } else if (sample_count
== 2) {
1407 bits
= vs
->caps
.caps
.v2
.sample_locations
[0] >> (8 * index
);
1408 } else if (sample_count
<= 4) {
1409 bits
= vs
->caps
.caps
.v2
.sample_locations
[1] >> (8 * index
);
1410 } else if (sample_count
<= 8) {
1411 bits
= vs
->caps
.caps
.v2
.sample_locations
[2 + (index
>> 2)] >> (8 * (index
& 3));
1412 } else if (sample_count
<= 16) {
1413 bits
= vs
->caps
.caps
.v2
.sample_locations
[4 + (index
>> 2)] >> (8 * (index
& 3));
1415 out_value
[0] = ((bits
>> 4) & 0xf) / 16.0f
;
1416 out_value
[1] = (bits
& 0xf) / 16.0f
;
1418 if (virgl_debug
& VIRGL_DEBUG_VERBOSE
)
1419 debug_printf("VIRGL: sample postion [%2d/%2d] = (%f, %f)\n",
1420 index
, sample_count
, out_value
[0], out_value
[1]);
1423 static void virgl_send_tweaks(struct virgl_context
*vctx
, struct virgl_screen
*rs
)
1425 if (rs
->tweak_gles_emulate_bgra
)
1426 virgl_encode_tweak(vctx
, virgl_tweak_gles_brga_emulate
, 1);
1428 if (rs
->tweak_gles_apply_bgra_dest_swizzle
)
1429 virgl_encode_tweak(vctx
, virgl_tweak_gles_brga_apply_dest_swizzle
, 1);
1431 if (rs
->tweak_gles_tf3_value
> 0)
1432 virgl_encode_tweak(vctx
, virgl_tweak_gles_tf3_samples_passes_multiplier
,
1433 rs
->tweak_gles_tf3_value
);
1436 struct pipe_context
*virgl_context_create(struct pipe_screen
*pscreen
,
1440 struct virgl_context
*vctx
;
1441 struct virgl_screen
*rs
= virgl_screen(pscreen
);
1442 vctx
= CALLOC_STRUCT(virgl_context
);
1443 const char *host_debug_flagstring
;
1445 vctx
->cbuf
= rs
->vws
->cmd_buf_create(rs
->vws
, VIRGL_MAX_CMDBUF_DWORDS
);
1451 vctx
->base
.destroy
= virgl_context_destroy
;
1452 vctx
->base
.create_surface
= virgl_create_surface
;
1453 vctx
->base
.surface_destroy
= virgl_surface_destroy
;
1454 vctx
->base
.set_framebuffer_state
= virgl_set_framebuffer_state
;
1455 vctx
->base
.create_blend_state
= virgl_create_blend_state
;
1456 vctx
->base
.bind_blend_state
= virgl_bind_blend_state
;
1457 vctx
->base
.delete_blend_state
= virgl_delete_blend_state
;
1458 vctx
->base
.create_depth_stencil_alpha_state
= virgl_create_depth_stencil_alpha_state
;
1459 vctx
->base
.bind_depth_stencil_alpha_state
= virgl_bind_depth_stencil_alpha_state
;
1460 vctx
->base
.delete_depth_stencil_alpha_state
= virgl_delete_depth_stencil_alpha_state
;
1461 vctx
->base
.create_rasterizer_state
= virgl_create_rasterizer_state
;
1462 vctx
->base
.bind_rasterizer_state
= virgl_bind_rasterizer_state
;
1463 vctx
->base
.delete_rasterizer_state
= virgl_delete_rasterizer_state
;
1465 vctx
->base
.set_viewport_states
= virgl_set_viewport_states
;
1466 vctx
->base
.create_vertex_elements_state
= virgl_create_vertex_elements_state
;
1467 vctx
->base
.bind_vertex_elements_state
= virgl_bind_vertex_elements_state
;
1468 vctx
->base
.delete_vertex_elements_state
= virgl_delete_vertex_elements_state
;
1469 vctx
->base
.set_vertex_buffers
= virgl_set_vertex_buffers
;
1470 vctx
->base
.set_constant_buffer
= virgl_set_constant_buffer
;
1472 vctx
->base
.set_tess_state
= virgl_set_tess_state
;
1473 vctx
->base
.create_vs_state
= virgl_create_vs_state
;
1474 vctx
->base
.create_tcs_state
= virgl_create_tcs_state
;
1475 vctx
->base
.create_tes_state
= virgl_create_tes_state
;
1476 vctx
->base
.create_gs_state
= virgl_create_gs_state
;
1477 vctx
->base
.create_fs_state
= virgl_create_fs_state
;
1479 vctx
->base
.bind_vs_state
= virgl_bind_vs_state
;
1480 vctx
->base
.bind_tcs_state
= virgl_bind_tcs_state
;
1481 vctx
->base
.bind_tes_state
= virgl_bind_tes_state
;
1482 vctx
->base
.bind_gs_state
= virgl_bind_gs_state
;
1483 vctx
->base
.bind_fs_state
= virgl_bind_fs_state
;
1485 vctx
->base
.delete_vs_state
= virgl_delete_vs_state
;
1486 vctx
->base
.delete_tcs_state
= virgl_delete_tcs_state
;
1487 vctx
->base
.delete_tes_state
= virgl_delete_tes_state
;
1488 vctx
->base
.delete_gs_state
= virgl_delete_gs_state
;
1489 vctx
->base
.delete_fs_state
= virgl_delete_fs_state
;
1491 vctx
->base
.create_compute_state
= virgl_create_compute_state
;
1492 vctx
->base
.bind_compute_state
= virgl_bind_compute_state
;
1493 vctx
->base
.delete_compute_state
= virgl_delete_compute_state
;
1494 vctx
->base
.launch_grid
= virgl_launch_grid
;
1496 vctx
->base
.clear
= virgl_clear
;
1497 vctx
->base
.draw_vbo
= virgl_draw_vbo
;
1498 vctx
->base
.flush
= virgl_flush_from_st
;
1499 vctx
->base
.screen
= pscreen
;
1500 vctx
->base
.create_sampler_view
= virgl_create_sampler_view
;
1501 vctx
->base
.sampler_view_destroy
= virgl_destroy_sampler_view
;
1502 vctx
->base
.set_sampler_views
= virgl_set_sampler_views
;
1503 vctx
->base
.texture_barrier
= virgl_texture_barrier
;
1505 vctx
->base
.create_sampler_state
= virgl_create_sampler_state
;
1506 vctx
->base
.delete_sampler_state
= virgl_delete_sampler_state
;
1507 vctx
->base
.bind_sampler_states
= virgl_bind_sampler_states
;
1509 vctx
->base
.set_polygon_stipple
= virgl_set_polygon_stipple
;
1510 vctx
->base
.set_scissor_states
= virgl_set_scissor_states
;
1511 vctx
->base
.set_sample_mask
= virgl_set_sample_mask
;
1512 vctx
->base
.set_min_samples
= virgl_set_min_samples
;
1513 vctx
->base
.set_stencil_ref
= virgl_set_stencil_ref
;
1514 vctx
->base
.set_clip_state
= virgl_set_clip_state
;
1516 vctx
->base
.set_blend_color
= virgl_set_blend_color
;
1518 vctx
->base
.get_sample_position
= virgl_get_sample_position
;
1520 vctx
->base
.resource_copy_region
= virgl_resource_copy_region
;
1521 vctx
->base
.flush_resource
= virgl_flush_resource
;
1522 vctx
->base
.blit
= virgl_blit
;
1523 vctx
->base
.create_fence_fd
= virgl_create_fence_fd
;
1524 vctx
->base
.fence_server_sync
= virgl_fence_server_sync
;
1526 vctx
->base
.set_shader_buffers
= virgl_set_shader_buffers
;
1527 vctx
->base
.set_hw_atomic_buffers
= virgl_set_hw_atomic_buffers
;
1528 vctx
->base
.set_shader_images
= virgl_set_shader_images
;
1529 vctx
->base
.memory_barrier
= virgl_memory_barrier
;
1531 virgl_init_context_resource_functions(&vctx
->base
);
1532 virgl_init_query_functions(vctx
);
1533 virgl_init_so_functions(vctx
);
1535 slab_create_child(&vctx
->transfer_pool
, &rs
->transfer_pool
);
1536 virgl_transfer_queue_init(&vctx
->queue
, vctx
);
1537 vctx
->encoded_transfers
= (rs
->vws
->supports_encoded_transfers
&&
1538 (rs
->caps
.caps
.v2
.capability_bits
& VIRGL_CAP_TRANSFER
));
1540 /* Reserve some space for transfers. */
1541 if (vctx
->encoded_transfers
)
1542 vctx
->cbuf
->cdw
= VIRGL_MAX_TBUF_DWORDS
;
1544 vctx
->primconvert
= util_primconvert_create(&vctx
->base
, rs
->caps
.caps
.v1
.prim_mask
);
1545 vctx
->uploader
= u_upload_create(&vctx
->base
, 1024 * 1024,
1546 PIPE_BIND_INDEX_BUFFER
, PIPE_USAGE_STREAM
, 0);
1547 if (!vctx
->uploader
)
1549 vctx
->base
.stream_uploader
= vctx
->uploader
;
1550 vctx
->base
.const_uploader
= vctx
->uploader
;
1552 /* We use a special staging buffer as the source of copy transfers. */
1553 if ((rs
->caps
.caps
.v2
.capability_bits
& VIRGL_CAP_COPY_TRANSFER
) &&
1554 vctx
->encoded_transfers
) {
1555 virgl_staging_init(&vctx
->staging
, &vctx
->base
, 1024 * 1024);
1556 vctx
->supports_staging
= true;
1559 vctx
->hw_sub_ctx_id
= rs
->sub_ctx_id
++;
1560 virgl_encoder_create_sub_ctx(vctx
, vctx
->hw_sub_ctx_id
);
1562 virgl_encoder_set_sub_ctx(vctx
, vctx
->hw_sub_ctx_id
);
1564 if (rs
->caps
.caps
.v2
.capability_bits
& VIRGL_CAP_GUEST_MAY_INIT_LOG
) {
1565 host_debug_flagstring
= getenv("VIRGL_HOST_DEBUG");
1566 if (host_debug_flagstring
)
1567 virgl_encode_host_debug_flagstring(vctx
, host_debug_flagstring
);
1570 if (rs
->caps
.caps
.v2
.capability_bits
& VIRGL_CAP_APP_TWEAK_SUPPORT
)
1571 virgl_send_tweaks(vctx
, rs
);
1575 virgl_context_destroy(&vctx
->base
);