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1 /*
2  * Copyright 2008 Corbin Simpson <MostAwesomeDude@gmail.com>
3  * Copyright 2010 Marek Olšák <maraeo@gmail.com>
4  * Copyright 2018 Advanced Micro Devices, Inc.
5  * All Rights Reserved.
6  *
7  * Permission is hereby granted, free of charge, to any person obtaining a
8  * copy of this software and associated documentation files (the "Software"),
9  * to deal in the Software without restriction, including without limitation
10  * on the rights to use, copy, modify, merge, publish, distribute, sub
11  * license, and/or sell copies of the Software, and to permit persons to whom
12  * the Software is furnished to do so, subject to the following conditions:
13  *
14  * The above copyright notice and this permission notice (including the next
15  * paragraph) shall be included in all copies or substantial portions of the
16  * Software.
17  *
18  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
19  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
20  * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
21  * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM,
22  * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
23  * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
24  * USE OR OTHER DEALINGS IN THE SOFTWARE. */
25 
26 #ifndef RADEON_WINSYS_H
27 #define RADEON_WINSYS_H
28 
29 /* The public winsys interface header for the radeon driver. */
30 
31 /* Skip command submission. Same as RADEON_NOOP=1. */
32 #define RADEON_FLUSH_NOOP                     (1u << 29)
33 
34 /* Toggle the secure submission boolean after the flush */
35 #define RADEON_FLUSH_TOGGLE_SECURE_SUBMISSION (1u << 30)
36 
37 /* Whether the next IB can start immediately and not wait for draws and
38  * dispatches from the current IB to finish. */
39 #define RADEON_FLUSH_START_NEXT_GFX_IB_NOW    (1u << 31)
40 
41 #define RADEON_FLUSH_ASYNC_START_NEXT_GFX_IB_NOW                                                   \
42    (PIPE_FLUSH_ASYNC | RADEON_FLUSH_START_NEXT_GFX_IB_NOW)
43 
44 #include "amd/common/ac_gpu_info.h"
45 #include "amd/common/ac_surface.h"
46 #include "pipebuffer/pb_buffer.h"
47 
48 /* Tiling flags. */
49 enum radeon_bo_layout
50 {
51    RADEON_LAYOUT_LINEAR = 0,
52    RADEON_LAYOUT_TILED,
53    RADEON_LAYOUT_SQUARETILED,
54 
55    RADEON_LAYOUT_UNKNOWN
56 };
57 
58 enum radeon_bo_domain
59 { /* bitfield */
60   RADEON_DOMAIN_GTT = 2,
61   RADEON_DOMAIN_VRAM = 4,
62   RADEON_DOMAIN_VRAM_GTT = RADEON_DOMAIN_VRAM | RADEON_DOMAIN_GTT,
63   RADEON_DOMAIN_GDS = 8,
64   RADEON_DOMAIN_OA = 16,
65 };
66 
67 enum radeon_bo_flag
68 { /* bitfield */
69   RADEON_FLAG_GTT_WC = (1 << 0),
70   RADEON_FLAG_NO_CPU_ACCESS = (1 << 1),
71   RADEON_FLAG_NO_SUBALLOC = (1 << 2),
72   RADEON_FLAG_SPARSE = (1 << 3),
73   RADEON_FLAG_NO_INTERPROCESS_SHARING = (1 << 4),
74   RADEON_FLAG_READ_ONLY = (1 << 5),
75   RADEON_FLAG_32BIT = (1 << 6),
76   RADEON_FLAG_ENCRYPTED = (1 << 7),
77   RADEON_FLAG_UNCACHED = (1 << 8), /* only gfx9 and newer */
78   RADEON_FLAG_DRIVER_INTERNAL = (1 << 9),
79 };
80 
81 enum radeon_dependency_flag
82 {
83    /* Add the dependency to the parallel compute IB only. */
84    RADEON_DEPENDENCY_PARALLEL_COMPUTE_ONLY = 1 << 0,
85 
86    /* Instead of waiting for a job to finish execution, the dependency will
87     * be signaled when the job starts execution.
88     */
89    RADEON_DEPENDENCY_START_FENCE = 1 << 1,
90 };
91 
92 enum radeon_bo_usage
93 { /* bitfield */
94   RADEON_USAGE_READ = 2,
95   RADEON_USAGE_WRITE = 4,
96   RADEON_USAGE_READWRITE = RADEON_USAGE_READ | RADEON_USAGE_WRITE,
97 
98   /* The winsys ensures that the CS submission will be scheduled after
99    * previously flushed CSs referencing this BO in a conflicting way.
100    */
101   RADEON_USAGE_SYNCHRONIZED = 8
102 };
103 
104 enum radeon_map_flags
105 {
106    /* Indicates that the caller will unmap the buffer.
107     *
108     * Not unmapping buffers is an important performance optimization for
109     * OpenGL (avoids kernel overhead for frequently mapped buffers).
110     */
111    RADEON_MAP_TEMPORARY = (PIPE_MAP_DRV_PRV << 0),
112 };
113 
114 #define RADEON_SPARSE_PAGE_SIZE (64 * 1024)
115 
116 enum radeon_value_id
117 {
118    RADEON_REQUESTED_VRAM_MEMORY,
119    RADEON_REQUESTED_GTT_MEMORY,
120    RADEON_MAPPED_VRAM,
121    RADEON_MAPPED_GTT,
122    RADEON_BUFFER_WAIT_TIME_NS,
123    RADEON_NUM_MAPPED_BUFFERS,
124    RADEON_TIMESTAMP,
125    RADEON_NUM_GFX_IBS,
126    RADEON_NUM_SDMA_IBS,
127    RADEON_GFX_BO_LIST_COUNTER, /* number of BOs submitted in gfx IBs */
128    RADEON_GFX_IB_SIZE_COUNTER,
129    RADEON_NUM_BYTES_MOVED,
130    RADEON_NUM_EVICTIONS,
131    RADEON_NUM_VRAM_CPU_PAGE_FAULTS,
132    RADEON_VRAM_USAGE,
133    RADEON_VRAM_VIS_USAGE,
134    RADEON_GTT_USAGE,
135    RADEON_GPU_TEMPERATURE, /* DRM 2.42.0 */
136    RADEON_CURRENT_SCLK,
137    RADEON_CURRENT_MCLK,
138    RADEON_CS_THREAD_TIME,
139 };
140 
141 enum radeon_bo_priority
142 {
143    /* Each group of two has the same priority. */
144    RADEON_PRIO_FENCE = 0,
145    RADEON_PRIO_TRACE,
146 
147    RADEON_PRIO_SO_FILLED_SIZE = 2,
148    RADEON_PRIO_QUERY,
149 
150    RADEON_PRIO_IB1 = 4, /* main IB submitted to the kernel */
151    RADEON_PRIO_IB2,     /* IB executed with INDIRECT_BUFFER */
152 
153    RADEON_PRIO_DRAW_INDIRECT = 6,
154    RADEON_PRIO_INDEX_BUFFER,
155 
156    RADEON_PRIO_CP_DMA = 8,
157    RADEON_PRIO_BORDER_COLORS,
158 
159    RADEON_PRIO_CONST_BUFFER = 10,
160    RADEON_PRIO_DESCRIPTORS,
161 
162    RADEON_PRIO_SAMPLER_BUFFER = 12,
163    RADEON_PRIO_VERTEX_BUFFER,
164 
165    RADEON_PRIO_SHADER_RW_BUFFER = 14,
166    RADEON_PRIO_COMPUTE_GLOBAL,
167 
168    RADEON_PRIO_SAMPLER_TEXTURE = 16,
169    RADEON_PRIO_SHADER_RW_IMAGE,
170 
171    RADEON_PRIO_SAMPLER_TEXTURE_MSAA = 18,
172    RADEON_PRIO_COLOR_BUFFER,
173 
174    RADEON_PRIO_DEPTH_BUFFER = 20,
175 
176    RADEON_PRIO_COLOR_BUFFER_MSAA = 22,
177 
178    RADEON_PRIO_DEPTH_BUFFER_MSAA = 24,
179 
180    RADEON_PRIO_SEPARATE_META = 26,
181    RADEON_PRIO_SHADER_BINARY, /* the hw can't hide instruction cache misses */
182 
183    RADEON_PRIO_SHADER_RINGS = 28,
184 
185    RADEON_PRIO_SCRATCH_BUFFER = 30,
186    /* 31 is the maximum value */
187 };
188 
189 struct winsys_handle;
190 struct radeon_winsys_ctx;
191 
192 struct radeon_cmdbuf_chunk {
193    unsigned cdw;    /* Number of used dwords. */
194    unsigned max_dw; /* Maximum number of dwords. */
195    uint32_t *buf;   /* The base pointer of the chunk. */
196 };
197 
198 struct radeon_cmdbuf {
199    struct radeon_cmdbuf_chunk current;
200    struct radeon_cmdbuf_chunk *prev;
201    unsigned num_prev; /* Number of previous chunks. */
202    unsigned max_prev; /* Space in array pointed to by prev. */
203    unsigned prev_dw;  /* Total number of dwords in previous chunks. */
204 
205    /* Memory usage of the buffer list. These are always 0 for preamble IBs. */
206    uint64_t used_vram;
207    uint64_t used_gart;
208    uint64_t gpu_address;
209 };
210 
211 /* Tiling info for display code, DRI sharing, and other data. */
212 struct radeon_bo_metadata {
213    /* Tiling flags describing the texture layout for display code
214     * and DRI sharing.
215     */
216    union {
217       struct {
218          enum radeon_bo_layout microtile;
219          enum radeon_bo_layout macrotile;
220          unsigned pipe_config;
221          unsigned bankw;
222          unsigned bankh;
223          unsigned tile_split;
224          unsigned mtilea;
225          unsigned num_banks;
226          unsigned stride;
227          bool scanout;
228       } legacy;
229    } u;
230 
231    enum radeon_surf_mode mode;   /* Output from buffer_get_metadata */
232 
233    /* Additional metadata associated with the buffer, in bytes.
234     * The maximum size is 64 * 4. This is opaque for the winsys & kernel.
235     * Supported by amdgpu only.
236     */
237    uint32_t size_metadata;
238    uint32_t metadata[64];
239 };
240 
241 enum radeon_feature_id
242 {
243    RADEON_FID_R300_HYPERZ_ACCESS, /* ZMask + HiZ */
244    RADEON_FID_R300_CMASK_ACCESS,
245 };
246 
247 struct radeon_bo_list_item {
248    uint64_t bo_size;
249    uint64_t vm_address;
250    uint32_t priority_usage; /* mask of (1 << RADEON_PRIO_*) */
251 };
252 
253 struct radeon_winsys {
254    /**
255     * The screen object this winsys was created for
256     */
257    struct pipe_screen *screen;
258    /**
259     * Has the application created at least one TMZ buffer.
260     */
261    const bool uses_secure_bos;
262 
263    /**
264     * Decrement the winsys reference count.
265     *
266     * \param ws  The winsys this function is called for.
267     * \return    True if the winsys and screen should be destroyed.
268     */
269    bool (*unref)(struct radeon_winsys *ws);
270 
271    /**
272     * Destroy this winsys.
273     *
274     * \param ws        The winsys this function is called from.
275     */
276    void (*destroy)(struct radeon_winsys *ws);
277 
278    /**
279     * Query an info structure from winsys.
280     *
281     * \param ws        The winsys this function is called from.
282     * \param info      Return structure
283     */
284    void (*query_info)(struct radeon_winsys *ws, struct radeon_info *info);
285 
286    /**
287     * A hint for the winsys that it should pin its execution threads to
288     * a group of cores sharing a specific L3 cache if the CPU has multiple
289     * L3 caches. This is needed for good multithreading performance on
290     * AMD Zen CPUs.
291     */
292    void (*pin_threads_to_L3_cache)(struct radeon_winsys *ws, unsigned cache);
293 
294    /**************************************************************************
295     * Buffer management. Buffer attributes are mostly fixed over its lifetime.
296     *
297     * Remember that gallium gets to choose the interface it needs, and the
298     * window systems must then implement that interface (rather than the
299     * other way around...).
300     *************************************************************************/
301 
302    /**
303     * Create a buffer object.
304     *
305     * \param ws        The winsys this function is called from.
306     * \param size      The size to allocate.
307     * \param alignment An alignment of the buffer in memory.
308     * \param use_reusable_pool Whether the cache buffer manager should be used.
309     * \param domain    A bitmask of the RADEON_DOMAIN_* flags.
310     * \return          The created buffer object.
311     */
312    struct pb_buffer *(*buffer_create)(struct radeon_winsys *ws, uint64_t size, unsigned alignment,
313                                       enum radeon_bo_domain domain, enum radeon_bo_flag flags);
314 
315    /**
316     * Map the entire data store of a buffer object into the client's address
317     * space.
318     *
319     * Callers are expected to unmap buffers again if and only if the
320     * RADEON_MAP_TEMPORARY flag is set in \p usage.
321     *
322     * \param buf       A winsys buffer object to map.
323     * \param cs        A command stream to flush if the buffer is referenced by it.
324     * \param usage     A bitmask of the PIPE_MAP_* and RADEON_MAP_* flags.
325     * \return          The pointer at the beginning of the buffer.
326     */
327    void *(*buffer_map)(struct pb_buffer *buf, struct radeon_cmdbuf *cs,
328                        enum pipe_map_flags usage);
329 
330    /**
331     * Unmap a buffer object from the client's address space.
332     *
333     * \param buf       A winsys buffer object to unmap.
334     */
335    void (*buffer_unmap)(struct pb_buffer *buf);
336 
337    /**
338     * Wait for the buffer and return true if the buffer is not used
339     * by the device.
340     *
341     * The timeout of 0 will only return the status.
342     * The timeout of PIPE_TIMEOUT_INFINITE will always wait until the buffer
343     * is idle.
344     */
345    bool (*buffer_wait)(struct pb_buffer *buf, uint64_t timeout, enum radeon_bo_usage usage);
346 
347    /**
348     * Return buffer metadata.
349     * (tiling info for display code, DRI sharing, and other data)
350     *
351     * \param buf       A winsys buffer object to get the flags from.
352     * \param md        Metadata
353     */
354    void (*buffer_get_metadata)(struct pb_buffer *buf, struct radeon_bo_metadata *md,
355                                struct radeon_surf *surf);
356 
357    /**
358     * Set buffer metadata.
359     * (tiling info for display code, DRI sharing, and other data)
360     *
361     * \param buf       A winsys buffer object to set the flags for.
362     * \param md        Metadata
363     */
364    void (*buffer_set_metadata)(struct pb_buffer *buf, struct radeon_bo_metadata *md,
365                                struct radeon_surf *surf);
366 
367    /**
368     * Get a winsys buffer from a winsys handle. The internal structure
369     * of the handle is platform-specific and only a winsys should access it.
370     *
371     * \param ws        The winsys this function is called from.
372     * \param whandle   A winsys handle pointer as was received from a state
373     *                  tracker.
374     */
375    struct pb_buffer *(*buffer_from_handle)(struct radeon_winsys *ws, struct winsys_handle *whandle,
376                                            unsigned vm_alignment);
377 
378    /**
379     * Get a winsys buffer from a user pointer. The resulting buffer can't
380     * be exported. Both pointer and size must be page aligned.
381     *
382     * \param ws        The winsys this function is called from.
383     * \param pointer   User pointer to turn into a buffer object.
384     * \param Size      Size in bytes for the new buffer.
385     */
386    struct pb_buffer *(*buffer_from_ptr)(struct radeon_winsys *ws, void *pointer, uint64_t size);
387 
388    /**
389     * Whether the buffer was created from a user pointer.
390     *
391     * \param buf       A winsys buffer object
392     * \return          whether \p buf was created via buffer_from_ptr
393     */
394    bool (*buffer_is_user_ptr)(struct pb_buffer *buf);
395 
396    /** Whether the buffer was suballocated. */
397    bool (*buffer_is_suballocated)(struct pb_buffer *buf);
398 
399    /**
400     * Get a winsys handle from a winsys buffer. The internal structure
401     * of the handle is platform-specific and only a winsys should access it.
402     *
403     * \param ws        The winsys instance for which the handle is to be valid
404     * \param buf       A winsys buffer object to get the handle from.
405     * \param whandle   A winsys handle pointer.
406     * \return          true on success.
407     */
408    bool (*buffer_get_handle)(struct radeon_winsys *ws, struct pb_buffer *buf,
409                              struct winsys_handle *whandle);
410 
411    /**
412     * Change the commitment of a (64KB-page aligned) region of the given
413     * sparse buffer.
414     *
415     * \warning There is no automatic synchronization with command submission.
416     *
417     * \note Only implemented by the amdgpu winsys.
418     *
419     * \return false on out of memory or other failure, true on success.
420     */
421    bool (*buffer_commit)(struct pb_buffer *buf, uint64_t offset, uint64_t size, bool commit);
422 
423    /**
424     * Return the virtual address of a buffer.
425     *
426     * When virtual memory is not in use, this is the offset relative to the
427     * relocation base (non-zero for sub-allocated buffers).
428     *
429     * \param buf       A winsys buffer object
430     * \return          virtual address
431     */
432    uint64_t (*buffer_get_virtual_address)(struct pb_buffer *buf);
433 
434    /**
435     * Return the offset of this buffer relative to the relocation base.
436     * This is only non-zero for sub-allocated buffers.
437     *
438     * This is only supported in the radeon winsys, since amdgpu uses virtual
439     * addresses in submissions even for the video engines.
440     *
441     * \param buf      A winsys buffer object
442     * \return         the offset for relocations
443     */
444    unsigned (*buffer_get_reloc_offset)(struct pb_buffer *buf);
445 
446    /**
447     * Query the initial placement of the buffer from the kernel driver.
448     */
449    enum radeon_bo_domain (*buffer_get_initial_domain)(struct pb_buffer *buf);
450 
451    /**
452     * Query the flags used for creation of this buffer.
453     *
454     * Note that for imported buffer this may be lossy since not all flags
455     * are passed 1:1.
456     */
457    enum radeon_bo_flag (*buffer_get_flags)(struct pb_buffer *buf);
458 
459    /**************************************************************************
460     * Command submission.
461     *
462     * Each pipe context should create its own command stream and submit
463     * commands independently of other contexts.
464     *************************************************************************/
465 
466    /**
467     * Create a command submission context.
468     * Various command streams can be submitted to the same context.
469     */
470    struct radeon_winsys_ctx *(*ctx_create)(struct radeon_winsys *ws);
471 
472    /**
473     * Destroy a context.
474     */
475    void (*ctx_destroy)(struct radeon_winsys_ctx *ctx);
476 
477    /**
478     * Query a GPU reset status.
479     */
480    enum pipe_reset_status (*ctx_query_reset_status)(struct radeon_winsys_ctx *ctx);
481 
482    /**
483     * Create a command stream.
484     *
485     * \param ctx       The submission context
486     * \param ring_type The ring type (GFX, DMA, UVD)
487     * \param flush     Flush callback function associated with the command stream.
488     * \param user      User pointer that will be passed to the flush callback.
489     */
490    struct radeon_cmdbuf *(*cs_create)(struct radeon_winsys_ctx *ctx, enum ring_type ring_type,
491                                       void (*flush)(void *ctx, unsigned flags,
492                                                     struct pipe_fence_handle **fence),
493                                       void *flush_ctx, bool stop_exec_on_failure);
494 
495    /**
496     * Add a parallel compute IB to a gfx IB. It will share the buffer list
497     * and fence dependencies with the gfx IB. The gfx flush call will submit
498     * both IBs at the same time.
499     *
500     * The compute IB doesn't have an output fence, so the primary IB has
501     * to use a wait packet for synchronization.
502     *
503     * The returned IB is only a stream for writing packets to the new
504     * IB. Calling other winsys functions with it is not allowed, not even
505     * "cs_destroy". Use the gfx IB instead.
506     *
507     * \param cs              Gfx IB
508     */
509    struct radeon_cmdbuf *(*cs_add_parallel_compute_ib)(struct radeon_cmdbuf *cs,
510                                                        bool uses_gds_ordered_append);
511 
512    /**
513     * Set up and enable mid command buffer preemption for the command stream.
514     *
515     * \param cs               Command stream
516     * \param preamble_ib      Non-preemptible preamble IB for the context.
517     * \param preamble_num_dw  Number of dwords in the preamble IB.
518     */
519    bool (*cs_setup_preemption)(struct radeon_cmdbuf *cs, const uint32_t *preamble_ib,
520                                unsigned preamble_num_dw);
521 
522    /**
523     * Destroy a command stream.
524     *
525     * \param cs        A command stream to destroy.
526     */
527    void (*cs_destroy)(struct radeon_cmdbuf *cs);
528 
529    /**
530     * Add a buffer. Each buffer used by a CS must be added using this function.
531     *
532     * \param cs      Command stream
533     * \param buf     Buffer
534     * \param usage   Whether the buffer is used for read and/or write.
535     * \param domain  Bitmask of the RADEON_DOMAIN_* flags.
536     * \param priority  A higher number means a greater chance of being
537     *                  placed in the requested domain. 15 is the maximum.
538     * \return Buffer index.
539     */
540    unsigned (*cs_add_buffer)(struct radeon_cmdbuf *cs, struct pb_buffer *buf,
541                              enum radeon_bo_usage usage, enum radeon_bo_domain domain,
542                              enum radeon_bo_priority priority);
543 
544    /**
545     * Return the index of an already-added buffer.
546     *
547     * Not supported on amdgpu. Drivers with GPUVM should not care about
548     * buffer indices.
549     *
550     * \param cs        Command stream
551     * \param buf       Buffer
552     * \return          The buffer index, or -1 if the buffer has not been added.
553     */
554    int (*cs_lookup_buffer)(struct radeon_cmdbuf *cs, struct pb_buffer *buf);
555 
556    /**
557     * Return true if there is enough memory in VRAM and GTT for the buffers
558     * added so far. If the validation fails, all buffers which have
559     * been added since the last call of cs_validate will be removed and
560     * the CS will be flushed (provided there are still any buffers).
561     *
562     * \param cs        A command stream to validate.
563     */
564    bool (*cs_validate)(struct radeon_cmdbuf *cs);
565 
566    /**
567     * Check whether the given number of dwords is available in the IB.
568     * Optionally chain a new chunk of the IB if necessary and supported.
569     *
570     * \param cs        A command stream.
571     * \param dw        Number of CS dwords requested by the caller.
572     * \param force_chaining  Chain the IB into a new buffer now to discard
573     *                        the CP prefetch cache (to emulate PKT3_REWIND)
574     * \return true if there is enough space
575     */
576    bool (*cs_check_space)(struct radeon_cmdbuf *cs, unsigned dw, bool force_chaining);
577 
578    /**
579     * Return the buffer list.
580     *
581     * This is the buffer list as passed to the kernel, i.e. it only contains
582     * the parent buffers of sub-allocated buffers.
583     *
584     * \param cs    Command stream
585     * \param list  Returned buffer list. Set to NULL to query the count only.
586     * \return      The buffer count.
587     */
588    unsigned (*cs_get_buffer_list)(struct radeon_cmdbuf *cs, struct radeon_bo_list_item *list);
589 
590    /**
591     * Flush a command stream.
592     *
593     * \param cs          A command stream to flush.
594     * \param flags,      PIPE_FLUSH_* flags.
595     * \param fence       Pointer to a fence. If non-NULL, a fence is inserted
596     *                    after the CS and is returned through this parameter.
597     * \return Negative POSIX error code or 0 for success.
598     *         Asynchronous submissions never return an error.
599     */
600    int (*cs_flush)(struct radeon_cmdbuf *cs, unsigned flags, struct pipe_fence_handle **fence);
601 
602    /**
603     * Create a fence before the CS is flushed.
604     * The user must flush manually to complete the initializaton of the fence.
605     *
606     * The fence must not be used for anything except \ref cs_add_fence_dependency
607     * before the flush.
608     */
609    struct pipe_fence_handle *(*cs_get_next_fence)(struct radeon_cmdbuf *cs);
610 
611    /**
612     * Return true if a buffer is referenced by a command stream.
613     *
614     * \param cs        A command stream.
615     * \param buf       A winsys buffer.
616     */
617    bool (*cs_is_buffer_referenced)(struct radeon_cmdbuf *cs, struct pb_buffer *buf,
618                                    enum radeon_bo_usage usage);
619 
620    /**
621     * Request access to a feature for a command stream.
622     *
623     * \param cs        A command stream.
624     * \param fid       Feature ID, one of RADEON_FID_*
625     * \param enable    Whether to enable or disable the feature.
626     */
627    bool (*cs_request_feature)(struct radeon_cmdbuf *cs, enum radeon_feature_id fid, bool enable);
628    /**
629     * Make sure all asynchronous flush of the cs have completed
630     *
631     * \param cs        A command stream.
632     */
633    void (*cs_sync_flush)(struct radeon_cmdbuf *cs);
634 
635    /**
636     * Add a fence dependency to the CS, so that the CS will wait for
637     * the fence before execution.
638     *
639     * \param dependency_flags  Bitmask of RADEON_DEPENDENCY_*
640     */
641    void (*cs_add_fence_dependency)(struct radeon_cmdbuf *cs, struct pipe_fence_handle *fence,
642                                    unsigned dependency_flags);
643 
644    /**
645     * Signal a syncobj when the CS finishes execution.
646     */
647    void (*cs_add_syncobj_signal)(struct radeon_cmdbuf *cs, struct pipe_fence_handle *fence);
648 
649    /**
650     * Wait for the fence and return true if the fence has been signalled.
651     * The timeout of 0 will only return the status.
652     * The timeout of PIPE_TIMEOUT_INFINITE will always wait until the fence
653     * is signalled.
654     */
655    bool (*fence_wait)(struct radeon_winsys *ws, struct pipe_fence_handle *fence, uint64_t timeout);
656 
657    /**
658     * Reference counting for fences.
659     */
660    void (*fence_reference)(struct pipe_fence_handle **dst, struct pipe_fence_handle *src);
661 
662    /**
663     * Create a new fence object corresponding to the given syncobj fd.
664     */
665    struct pipe_fence_handle *(*fence_import_syncobj)(struct radeon_winsys *ws, int fd);
666 
667    /**
668     * Create a new fence object corresponding to the given sync_file.
669     */
670    struct pipe_fence_handle *(*fence_import_sync_file)(struct radeon_winsys *ws, int fd);
671 
672    /**
673     * Return a sync_file FD corresponding to the given fence object.
674     */
675    int (*fence_export_sync_file)(struct radeon_winsys *ws, struct pipe_fence_handle *fence);
676 
677    /**
678     * Return a sync file FD that is already signalled.
679     */
680    int (*export_signalled_sync_file)(struct radeon_winsys *ws);
681 
682    /**
683     * Initialize surface
684     *
685     * \param ws        The winsys this function is called from.
686     * \param tex       Input texture description
687     * \param flags     Bitmask of RADEON_SURF_* flags
688     * \param bpe       Bytes per pixel, it can be different for Z buffers.
689     * \param mode      Preferred tile mode. (linear, 1D, or 2D)
690     * \param surf      Output structure
691     */
692    int (*surface_init)(struct radeon_winsys *ws, const struct pipe_resource *tex, unsigned flags,
693                        unsigned bpe, enum radeon_surf_mode mode, struct radeon_surf *surf);
694 
695    uint64_t (*query_value)(struct radeon_winsys *ws, enum radeon_value_id value);
696 
697    bool (*read_registers)(struct radeon_winsys *ws, unsigned reg_offset, unsigned num_registers,
698                           uint32_t *out);
699 
700    /**
701     * Secure context
702     */
703    bool (*cs_is_secure)(struct radeon_cmdbuf *cs);
704 };
705 
radeon_emitted(struct radeon_cmdbuf * cs,unsigned num_dw)706 static inline bool radeon_emitted(struct radeon_cmdbuf *cs, unsigned num_dw)
707 {
708    return cs && (cs->prev_dw + cs->current.cdw > num_dw);
709 }
710 
radeon_emit(struct radeon_cmdbuf * cs,uint32_t value)711 static inline void radeon_emit(struct radeon_cmdbuf *cs, uint32_t value)
712 {
713    cs->current.buf[cs->current.cdw++] = value;
714 }
715 
radeon_emit_array(struct radeon_cmdbuf * cs,const uint32_t * values,unsigned count)716 static inline void radeon_emit_array(struct radeon_cmdbuf *cs, const uint32_t *values,
717                                      unsigned count)
718 {
719    memcpy(cs->current.buf + cs->current.cdw, values, count * 4);
720    cs->current.cdw += count;
721 }
722 
radeon_uses_secure_bos(struct radeon_winsys * ws)723 static inline bool radeon_uses_secure_bos(struct radeon_winsys* ws)
724 {
725   return ws->uses_secure_bos;
726 }
727 
728 enum radeon_heap
729 {
730    RADEON_HEAP_VRAM_NO_CPU_ACCESS,
731    RADEON_HEAP_VRAM_READ_ONLY,
732    RADEON_HEAP_VRAM_READ_ONLY_32BIT,
733    RADEON_HEAP_VRAM_32BIT,
734    RADEON_HEAP_VRAM,
735    RADEON_HEAP_GTT_WC,
736    RADEON_HEAP_GTT_WC_READ_ONLY,
737    RADEON_HEAP_GTT_WC_READ_ONLY_32BIT,
738    RADEON_HEAP_GTT_WC_32BIT,
739    RADEON_HEAP_GTT,
740    RADEON_HEAP_GTT_UNCACHED_WC,
741    RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY,
742    RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY_32BIT,
743    RADEON_HEAP_GTT_UNCACHED_WC_32BIT,
744    RADEON_HEAP_GTT_UNCACHED,
745    RADEON_MAX_SLAB_HEAPS,
746    RADEON_MAX_CACHED_HEAPS = RADEON_MAX_SLAB_HEAPS,
747 };
748 
radeon_domain_from_heap(enum radeon_heap heap)749 static inline enum radeon_bo_domain radeon_domain_from_heap(enum radeon_heap heap)
750 {
751    switch (heap) {
752    case RADEON_HEAP_VRAM_NO_CPU_ACCESS:
753    case RADEON_HEAP_VRAM_READ_ONLY:
754    case RADEON_HEAP_VRAM_READ_ONLY_32BIT:
755    case RADEON_HEAP_VRAM_32BIT:
756    case RADEON_HEAP_VRAM:
757       return RADEON_DOMAIN_VRAM;
758    case RADEON_HEAP_GTT_WC:
759    case RADEON_HEAP_GTT_WC_READ_ONLY:
760    case RADEON_HEAP_GTT_WC_READ_ONLY_32BIT:
761    case RADEON_HEAP_GTT_WC_32BIT:
762    case RADEON_HEAP_GTT:
763    case RADEON_HEAP_GTT_UNCACHED_WC:
764    case RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY:
765    case RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY_32BIT:
766    case RADEON_HEAP_GTT_UNCACHED_WC_32BIT:
767    case RADEON_HEAP_GTT_UNCACHED:
768       return RADEON_DOMAIN_GTT;
769    default:
770       assert(0);
771       return (enum radeon_bo_domain)0;
772    }
773 }
774 
radeon_flags_from_heap(enum radeon_heap heap)775 static inline unsigned radeon_flags_from_heap(enum radeon_heap heap)
776 {
777    unsigned flags = RADEON_FLAG_NO_INTERPROCESS_SHARING;
778 
779    switch (heap) {
780    case RADEON_HEAP_GTT:
781    case RADEON_HEAP_GTT_UNCACHED:
782       break;
783    default:
784       flags |= RADEON_FLAG_GTT_WC;
785    }
786 
787    switch (heap) {
788    case RADEON_HEAP_GTT_UNCACHED_WC:
789    case RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY:
790    case RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY_32BIT:
791    case RADEON_HEAP_GTT_UNCACHED_WC_32BIT:
792    case RADEON_HEAP_GTT_UNCACHED:
793       flags |= RADEON_FLAG_UNCACHED;
794       break;
795    default:
796       break;
797    }
798 
799    switch (heap) {
800    case RADEON_HEAP_VRAM_READ_ONLY:
801    case RADEON_HEAP_VRAM_READ_ONLY_32BIT:
802    case RADEON_HEAP_GTT_WC_READ_ONLY:
803    case RADEON_HEAP_GTT_WC_READ_ONLY_32BIT:
804    case RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY:
805    case RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY_32BIT:
806       flags |= RADEON_FLAG_READ_ONLY;
807       break;
808    default:
809       break;
810    }
811 
812    switch (heap) {
813    case RADEON_HEAP_VRAM_READ_ONLY_32BIT:
814    case RADEON_HEAP_VRAM_32BIT:
815    case RADEON_HEAP_GTT_WC_READ_ONLY_32BIT:
816    case RADEON_HEAP_GTT_WC_32BIT:
817    case RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY_32BIT:
818    case RADEON_HEAP_GTT_UNCACHED_WC_32BIT:
819       flags |= RADEON_FLAG_32BIT;
820    default:
821       break;
822    }
823 
824    switch (heap) {
825    case RADEON_HEAP_VRAM_NO_CPU_ACCESS:
826       flags |= RADEON_FLAG_NO_CPU_ACCESS;
827       break;
828    default:
829       break;
830    }
831 
832    return flags;
833 }
834 
835 /* Return the heap index for winsys allocators, or -1 on failure. */
radeon_get_heap_index(enum radeon_bo_domain domain,enum radeon_bo_flag flags)836 static inline int radeon_get_heap_index(enum radeon_bo_domain domain, enum radeon_bo_flag flags)
837 {
838    bool uncached;
839 
840    /* VRAM implies WC (write combining) */
841    assert(!(domain & RADEON_DOMAIN_VRAM) || flags & RADEON_FLAG_GTT_WC);
842    /* NO_CPU_ACCESS implies VRAM only. */
843    assert(!(flags & RADEON_FLAG_NO_CPU_ACCESS) || domain == RADEON_DOMAIN_VRAM);
844 
845    /* Resources with interprocess sharing don't use any winsys allocators. */
846    if (!(flags & RADEON_FLAG_NO_INTERPROCESS_SHARING))
847       return -1;
848 
849    /* Unsupported flags: NO_SUBALLOC, SPARSE. */
850    if (flags & ~(RADEON_FLAG_GTT_WC | RADEON_FLAG_NO_CPU_ACCESS | RADEON_FLAG_UNCACHED |
851                  RADEON_FLAG_NO_INTERPROCESS_SHARING | RADEON_FLAG_READ_ONLY | RADEON_FLAG_32BIT |
852                  RADEON_FLAG_DRIVER_INTERNAL))
853       return -1;
854 
855    switch (domain) {
856    case RADEON_DOMAIN_VRAM:
857       switch (flags & (RADEON_FLAG_NO_CPU_ACCESS | RADEON_FLAG_READ_ONLY | RADEON_FLAG_32BIT)) {
858       case RADEON_FLAG_NO_CPU_ACCESS | RADEON_FLAG_READ_ONLY | RADEON_FLAG_32BIT:
859       case RADEON_FLAG_NO_CPU_ACCESS | RADEON_FLAG_READ_ONLY:
860          assert(!"NO_CPU_ACCESS | READ_ONLY doesn't make sense");
861          return -1;
862       case RADEON_FLAG_NO_CPU_ACCESS | RADEON_FLAG_32BIT:
863          assert(!"NO_CPU_ACCESS with 32BIT is disallowed");
864          return -1;
865       case RADEON_FLAG_NO_CPU_ACCESS:
866          return RADEON_HEAP_VRAM_NO_CPU_ACCESS;
867       case RADEON_FLAG_READ_ONLY | RADEON_FLAG_32BIT:
868          return RADEON_HEAP_VRAM_READ_ONLY_32BIT;
869       case RADEON_FLAG_READ_ONLY:
870          return RADEON_HEAP_VRAM_READ_ONLY;
871       case RADEON_FLAG_32BIT:
872          return RADEON_HEAP_VRAM_32BIT;
873       case 0:
874          return RADEON_HEAP_VRAM;
875       }
876       break;
877    case RADEON_DOMAIN_GTT:
878       uncached = flags & RADEON_FLAG_UNCACHED;
879 
880       switch (flags & (RADEON_FLAG_GTT_WC | RADEON_FLAG_READ_ONLY | RADEON_FLAG_32BIT)) {
881       case RADEON_FLAG_GTT_WC | RADEON_FLAG_READ_ONLY | RADEON_FLAG_32BIT:
882          return uncached ? RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY_32BIT
883                          : RADEON_HEAP_GTT_WC_READ_ONLY_32BIT;
884       case RADEON_FLAG_GTT_WC | RADEON_FLAG_READ_ONLY:
885          return uncached ? RADEON_HEAP_GTT_UNCACHED_WC_READ_ONLY
886                          : RADEON_HEAP_GTT_WC_READ_ONLY;
887       case RADEON_FLAG_GTT_WC | RADEON_FLAG_32BIT:
888          return uncached ? RADEON_HEAP_GTT_UNCACHED_WC_32BIT
889                          : RADEON_HEAP_GTT_WC_32BIT;
890       case RADEON_FLAG_GTT_WC:
891          return uncached ? RADEON_HEAP_GTT_UNCACHED_WC : RADEON_HEAP_GTT_WC;
892       case RADEON_FLAG_READ_ONLY | RADEON_FLAG_32BIT:
893       case RADEON_FLAG_READ_ONLY:
894          assert(!"READ_ONLY without WC is disallowed");
895          return -1;
896       case RADEON_FLAG_32BIT:
897          assert(!"32BIT without WC is disallowed");
898          return -1;
899       case 0:
900          return uncached ? RADEON_HEAP_GTT_UNCACHED : RADEON_HEAP_GTT;
901       }
902       break;
903    default:
904       break;
905    }
906    return -1;
907 }
908 
909 #endif
910