1 /* -*- mode: C; c-file-style: "k&r"; tab-width 4; indent-tabs-mode: t; -*- */
4 * Copyright (C) 2012 Rob Clark <robclark@freedesktop.org>
6 * Permission is hereby granted, free of charge, to any person obtaining a
7 * copy of this software and associated documentation files (the "Software"),
8 * to deal in the Software without restriction, including without limitation
9 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
10 * and/or sell copies of the Software, and to permit persons to whom the
11 * Software is furnished to do so, subject to the following conditions:
13 * The above copyright notice and this permission notice (including the next
14 * paragraph) shall be included in all copies or substantial portions of the
17 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
18 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
19 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
20 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
21 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
22 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
26 * Rob Clark <robclark@freedesktop.org>
29 #include "freedreno_context.h"
30 #include "freedreno_blitter.h"
31 #include "freedreno_draw.h"
32 #include "freedreno_fence.h"
33 #include "freedreno_program.h"
34 #include "freedreno_resource.h"
35 #include "freedreno_texture.h"
36 #include "freedreno_state.h"
37 #include "freedreno_gmem.h"
38 #include "freedreno_query.h"
39 #include "freedreno_query_hw.h"
40 #include "freedreno_util.h"
41 #include "util/u_upload_mgr.h"
44 fd_context_flush(struct pipe_context
*pctx
, struct pipe_fence_handle
**fencep
,
47 struct fd_context
*ctx
= fd_context(pctx
);
48 struct pipe_fence_handle
*fence
= NULL
;
50 DBG("%p: flush: flags=%x\n", ctx
->batch
, flags
);
52 /* Take a ref to the batch's fence (batch can be unref'd when flushed: */
53 fd_fence_ref(pctx
->screen
, &fence
, ctx
->batch
->fence
);
55 if (flags
& PIPE_FLUSH_FENCE_FD
)
56 ctx
->batch
->needs_out_fence_fd
= true;
58 if (!ctx
->screen
->reorder
) {
59 fd_batch_flush(ctx
->batch
, true, false);
60 } else if (flags
& PIPE_FLUSH_DEFERRED
) {
61 fd_bc_flush_deferred(&ctx
->screen
->batch_cache
, ctx
);
63 fd_bc_flush(&ctx
->screen
->batch_cache
, ctx
);
67 fd_fence_ref(pctx
->screen
, fencep
, fence
);
69 fd_fence_ref(pctx
->screen
, &fence
, NULL
);
73 fd_texture_barrier(struct pipe_context
*pctx
, unsigned flags
)
75 /* On devices that could sample from GMEM we could possibly do better.
76 * Or if we knew that we were doing GMEM bypass we could just emit a
77 * cache flush, perhaps? But we don't know if future draws would cause
78 * us to use GMEM, and a flush in bypass isn't the end of the world.
80 fd_context_flush(pctx
, NULL
, 0);
84 fd_memory_barrier(struct pipe_context
*pctx
, unsigned flags
)
86 fd_context_flush(pctx
, NULL
, 0);
87 /* TODO do we need to check for persistently mapped buffers and fd_bo_cpu_prep()?? */
91 * emit marker string as payload of a no-op packet, which can be
95 fd_emit_string_marker(struct pipe_context
*pctx
, const char *string
, int len
)
97 struct fd_context
*ctx
= fd_context(pctx
);
98 struct fd_ringbuffer
*ring
;
99 const uint32_t *buf
= (const void *)string
;
104 ring
= ctx
->batch
->draw
;
106 /* max packet size is 0x3fff dwords: */
107 len
= MIN2(len
, 0x3fff * 4);
109 if (ctx
->screen
->gpu_id
>= 500)
110 OUT_PKT7(ring
, CP_NOP
, align(len
, 4) / 4);
112 OUT_PKT3(ring
, CP_NOP
, align(len
, 4) / 4);
114 OUT_RING(ring
, *buf
);
119 /* copy remainder bytes without reading past end of input string: */
122 memcpy(&w
, buf
, len
);
128 fd_context_destroy(struct pipe_context
*pctx
)
130 struct fd_context
*ctx
= fd_context(pctx
);
135 if (ctx
->screen
->reorder
&& util_queue_is_initialized(&ctx
->flush_queue
))
136 util_queue_destroy(&ctx
->flush_queue
);
138 fd_batch_reference(&ctx
->batch
, NULL
); /* unref current batch */
139 fd_bc_invalidate_context(ctx
);
144 util_blitter_destroy(ctx
->blitter
);
146 if (pctx
->stream_uploader
)
147 u_upload_destroy(pctx
->stream_uploader
);
149 if (ctx
->clear_rs_state
)
150 pctx
->delete_rasterizer_state(pctx
, ctx
->clear_rs_state
);
152 if (ctx
->primconvert
)
153 util_primconvert_destroy(ctx
->primconvert
);
155 slab_destroy_child(&ctx
->transfer_pool
);
157 for (i
= 0; i
< ARRAY_SIZE(ctx
->vsc_pipe
); i
++) {
158 struct fd_vsc_pipe
*pipe
= &ctx
->vsc_pipe
[i
];
164 fd_device_del(ctx
->dev
);
165 fd_pipe_del(ctx
->pipe
);
167 if (fd_mesa_debug
& (FD_DBG_BSTAT
| FD_DBG_MSGS
)) {
168 printf("batch_total=%u, batch_sysmem=%u, batch_gmem=%u, batch_nondraw=%u, batch_restore=%u\n",
169 (uint32_t)ctx
->stats
.batch_total
, (uint32_t)ctx
->stats
.batch_sysmem
,
170 (uint32_t)ctx
->stats
.batch_gmem
, (uint32_t)ctx
->stats
.batch_nondraw
,
171 (uint32_t)ctx
->stats
.batch_restore
);
178 fd_set_debug_callback(struct pipe_context
*pctx
,
179 const struct pipe_debug_callback
*cb
)
181 struct fd_context
*ctx
= fd_context(pctx
);
186 memset(&ctx
->debug
, 0, sizeof(ctx
->debug
));
189 /* TODO we could combine a few of these small buffers (solid_vbuf,
190 * blit_texcoord_vbuf, and vsc_size_mem, into a single buffer and
191 * save a tiny bit of memory
194 static struct pipe_resource
*
195 create_solid_vertexbuf(struct pipe_context
*pctx
)
197 static const float init_shader_const
[] = {
198 -1.000000, +1.000000, +1.000000,
199 +1.000000, -1.000000, +1.000000,
201 struct pipe_resource
*prsc
= pipe_buffer_create(pctx
->screen
,
202 PIPE_BIND_CUSTOM
, PIPE_USAGE_IMMUTABLE
, sizeof(init_shader_const
));
203 pipe_buffer_write(pctx
, prsc
, 0,
204 sizeof(init_shader_const
), init_shader_const
);
208 static struct pipe_resource
*
209 create_blit_texcoord_vertexbuf(struct pipe_context
*pctx
)
211 struct pipe_resource
*prsc
= pipe_buffer_create(pctx
->screen
,
212 PIPE_BIND_CUSTOM
, PIPE_USAGE_DYNAMIC
, 16);
217 fd_context_setup_common_vbos(struct fd_context
*ctx
)
219 struct pipe_context
*pctx
= &ctx
->base
;
221 ctx
->solid_vbuf
= create_solid_vertexbuf(pctx
);
222 ctx
->blit_texcoord_vbuf
= create_blit_texcoord_vertexbuf(pctx
);
224 /* setup solid_vbuf_state: */
225 ctx
->solid_vbuf_state
.vtx
= pctx
->create_vertex_elements_state(
226 pctx
, 1, (struct pipe_vertex_element
[]){{
227 .vertex_buffer_index
= 0,
229 .src_format
= PIPE_FORMAT_R32G32B32_FLOAT
,
231 ctx
->solid_vbuf_state
.vertexbuf
.count
= 1;
232 ctx
->solid_vbuf_state
.vertexbuf
.vb
[0].stride
= 12;
233 ctx
->solid_vbuf_state
.vertexbuf
.vb
[0].buffer
.resource
= ctx
->solid_vbuf
;
235 /* setup blit_vbuf_state: */
236 ctx
->blit_vbuf_state
.vtx
= pctx
->create_vertex_elements_state(
237 pctx
, 2, (struct pipe_vertex_element
[]){{
238 .vertex_buffer_index
= 0,
240 .src_format
= PIPE_FORMAT_R32G32_FLOAT
,
242 .vertex_buffer_index
= 1,
244 .src_format
= PIPE_FORMAT_R32G32B32_FLOAT
,
246 ctx
->blit_vbuf_state
.vertexbuf
.count
= 2;
247 ctx
->blit_vbuf_state
.vertexbuf
.vb
[0].stride
= 8;
248 ctx
->blit_vbuf_state
.vertexbuf
.vb
[0].buffer
.resource
= ctx
->blit_texcoord_vbuf
;
249 ctx
->blit_vbuf_state
.vertexbuf
.vb
[1].stride
= 12;
250 ctx
->blit_vbuf_state
.vertexbuf
.vb
[1].buffer
.resource
= ctx
->solid_vbuf
;
254 fd_context_cleanup_common_vbos(struct fd_context
*ctx
)
256 struct pipe_context
*pctx
= &ctx
->base
;
258 pctx
->delete_vertex_elements_state(pctx
, ctx
->solid_vbuf_state
.vtx
);
259 pctx
->delete_vertex_elements_state(pctx
, ctx
->blit_vbuf_state
.vtx
);
261 pipe_resource_reference(&ctx
->solid_vbuf
, NULL
);
262 pipe_resource_reference(&ctx
->blit_texcoord_vbuf
, NULL
);
265 struct pipe_context
*
266 fd_context_init(struct fd_context
*ctx
, struct pipe_screen
*pscreen
,
267 const uint8_t *primtypes
, void *priv
, unsigned flags
)
269 struct fd_screen
*screen
= fd_screen(pscreen
);
270 struct pipe_context
*pctx
;
274 /* lower numerical value == higher priority: */
275 if (fd_mesa_debug
& FD_DBG_HIPRIO
)
277 else if (flags
& PIPE_CONTEXT_HIGH_PRIORITY
)
279 else if (flags
& PIPE_CONTEXT_LOW_PRIORITY
)
282 ctx
->screen
= screen
;
283 ctx
->pipe
= fd_pipe_new2(screen
->dev
, FD_PIPE_3D
, prio
);
285 ctx
->primtypes
= primtypes
;
286 ctx
->primtype_mask
= 0;
287 for (i
= 0; i
< PIPE_PRIM_MAX
; i
++)
289 ctx
->primtype_mask
|= (1 << i
);
291 /* need some sane default in case state tracker doesn't
294 ctx
->sample_mask
= 0xffff;
297 pctx
->screen
= pscreen
;
299 pctx
->flush
= fd_context_flush
;
300 pctx
->emit_string_marker
= fd_emit_string_marker
;
301 pctx
->set_debug_callback
= fd_set_debug_callback
;
302 pctx
->create_fence_fd
= fd_create_fence_fd
;
303 pctx
->fence_server_sync
= fd_fence_server_sync
;
304 pctx
->texture_barrier
= fd_texture_barrier
;
305 pctx
->memory_barrier
= fd_memory_barrier
;
307 pctx
->stream_uploader
= u_upload_create_default(pctx
);
308 if (!pctx
->stream_uploader
)
310 pctx
->const_uploader
= pctx
->stream_uploader
;
312 ctx
->batch
= fd_bc_alloc_batch(&screen
->batch_cache
, ctx
);
314 slab_create_child(&ctx
->transfer_pool
, &screen
->transfer_pool
);
317 ctx
->blit
= fd_blitter_blit
;
320 fd_resource_context_init(pctx
);
321 fd_query_context_init(pctx
);
322 fd_texture_init(pctx
);
325 ctx
->blitter
= util_blitter_create(pctx
);
329 ctx
->primconvert
= util_primconvert_create(pctx
, ctx
->primtype_mask
);
330 if (!ctx
->primconvert
)
333 list_inithead(&ctx
->hw_active_queries
);
334 list_inithead(&ctx
->acc_active_queries
);