mirror of
https://github.com/KolibriOS/kolibrios.git
synced 2024-12-19 05:12:45 +03:00
377 lines
11 KiB
C
377 lines
11 KiB
C
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#include "drmP.h"
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#include "drm.h"
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#include "i915_drm.h"
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#include "i915_drv.h"
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#include "intel_drv.h"
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//#include
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#undef mb
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#undef rmb
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#undef wmb
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#define mb() asm volatile("mfence")
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#define rmb() asm volatile ("lfence")
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#define wmb() asm volatile ("sfence")
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typedef struct
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{
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struct drm_i915_gem_object *batch;
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struct list_head objects;
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u32 exec_start;
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u32 exec_len;
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}batchbuffer_t;
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struct change_domains {
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uint32_t invalidate_domains;
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uint32_t flush_domains;
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uint32_t flush_rings;
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uint32_t flips;
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};
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/*
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* Set the next domain for the specified object. This
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* may not actually perform the necessary flushing/invaliding though,
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* as that may want to be batched with other set_domain operations
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*
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* This is (we hope) the only really tricky part of gem. The goal
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* is fairly simple -- track which caches hold bits of the object
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* and make sure they remain coherent. A few concrete examples may
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* help to explain how it works. For shorthand, we use the notation
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* (read_domains, write_domain), e.g. (CPU, CPU) to indicate the
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* a pair of read and write domain masks.
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*
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* Case 1: the batch buffer
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*
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* 1. Allocated
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* 2. Written by CPU
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* 3. Mapped to GTT
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* 4. Read by GPU
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* 5. Unmapped from GTT
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* 6. Freed
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*
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* Let's take these a step at a time
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*
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* 1. Allocated
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* Pages allocated from the kernel may still have
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* cache contents, so we set them to (CPU, CPU) always.
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* 2. Written by CPU (using pwrite)
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* The pwrite function calls set_domain (CPU, CPU) and
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* this function does nothing (as nothing changes)
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* 3. Mapped by GTT
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* This function asserts that the object is not
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* currently in any GPU-based read or write domains
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* 4. Read by GPU
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* i915_gem_execbuffer calls set_domain (COMMAND, 0).
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* As write_domain is zero, this function adds in the
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* current read domains (CPU+COMMAND, 0).
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* flush_domains is set to CPU.
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* invalidate_domains is set to COMMAND
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* clflush is run to get data out of the CPU caches
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* then i915_dev_set_domain calls i915_gem_flush to
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* emit an MI_FLUSH and drm_agp_chipset_flush
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* 5. Unmapped from GTT
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* i915_gem_object_unbind calls set_domain (CPU, CPU)
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* flush_domains and invalidate_domains end up both zero
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* so no flushing/invalidating happens
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* 6. Freed
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* yay, done
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*
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* Case 2: The shared render buffer
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*
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* 1. Allocated
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* 2. Mapped to GTT
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* 3. Read/written by GPU
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* 4. set_domain to (CPU,CPU)
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* 5. Read/written by CPU
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* 6. Read/written by GPU
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*
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* 1. Allocated
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* Same as last example, (CPU, CPU)
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* 2. Mapped to GTT
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* Nothing changes (assertions find that it is not in the GPU)
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* 3. Read/written by GPU
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* execbuffer calls set_domain (RENDER, RENDER)
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* flush_domains gets CPU
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* invalidate_domains gets GPU
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* clflush (obj)
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* MI_FLUSH and drm_agp_chipset_flush
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* 4. set_domain (CPU, CPU)
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* flush_domains gets GPU
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* invalidate_domains gets CPU
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* wait_rendering (obj) to make sure all drawing is complete.
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* This will include an MI_FLUSH to get the data from GPU
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* to memory
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* clflush (obj) to invalidate the CPU cache
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* Another MI_FLUSH in i915_gem_flush (eliminate this somehow?)
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* 5. Read/written by CPU
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* cache lines are loaded and dirtied
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* 6. Read written by GPU
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* Same as last GPU access
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*
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* Case 3: The constant buffer
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*
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* 1. Allocated
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* 2. Written by CPU
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* 3. Read by GPU
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* 4. Updated (written) by CPU again
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* 5. Read by GPU
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*
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* 1. Allocated
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* (CPU, CPU)
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* 2. Written by CPU
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* (CPU, CPU)
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* 3. Read by GPU
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* (CPU+RENDER, 0)
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* flush_domains = CPU
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* invalidate_domains = RENDER
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* clflush (obj)
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* MI_FLUSH
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* drm_agp_chipset_flush
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* 4. Updated (written) by CPU again
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* (CPU, CPU)
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* flush_domains = 0 (no previous write domain)
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* invalidate_domains = 0 (no new read domains)
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* 5. Read by GPU
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* (CPU+RENDER, 0)
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* flush_domains = CPU
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* invalidate_domains = RENDER
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* clflush (obj)
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* MI_FLUSH
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* drm_agp_chipset_flush
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*/
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static void
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i915_gem_object_set_to_gpu_domain(struct drm_i915_gem_object *obj,
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struct intel_ring_buffer *ring,
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struct change_domains *cd)
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{
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uint32_t invalidate_domains = 0, flush_domains = 0;
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/*
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* If the object isn't moving to a new write domain,
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* let the object stay in multiple read domains
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*/
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if (obj->base.pending_write_domain == 0)
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obj->base.pending_read_domains |= obj->base.read_domains;
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/*
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* Flush the current write domain if
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* the new read domains don't match. Invalidate
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* any read domains which differ from the old
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* write domain
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*/
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if (obj->base.write_domain &&
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(((obj->base.write_domain != obj->base.pending_read_domains ||
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obj->ring != ring)) ||
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(obj->fenced_gpu_access && !obj->pending_fenced_gpu_access))) {
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flush_domains |= obj->base.write_domain;
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invalidate_domains |=
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obj->base.pending_read_domains & ~obj->base.write_domain;
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}
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/*
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* Invalidate any read caches which may have
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* stale data. That is, any new read domains.
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*/
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invalidate_domains |= obj->base.pending_read_domains & ~obj->base.read_domains;
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if ((flush_domains | invalidate_domains) & I915_GEM_DOMAIN_CPU)
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i915_gem_clflush_object(obj);
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if (obj->base.pending_write_domain)
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cd->flips |= atomic_read(&obj->pending_flip);
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/* The actual obj->write_domain will be updated with
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* pending_write_domain after we emit the accumulated flush for all
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* of our domain changes in execbuffers (which clears objects'
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* write_domains). So if we have a current write domain that we
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* aren't changing, set pending_write_domain to that.
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*/
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if (flush_domains == 0 && obj->base.pending_write_domain == 0)
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obj->base.pending_write_domain = obj->base.write_domain;
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cd->invalidate_domains |= invalidate_domains;
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cd->flush_domains |= flush_domains;
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if (flush_domains & I915_GEM_GPU_DOMAINS)
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cd->flush_rings |= obj->ring->id;
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if (invalidate_domains & I915_GEM_GPU_DOMAINS)
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cd->flush_rings |= ring->id;
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}
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static int
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i915_gem_execbuffer_flush(struct drm_device *dev,
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uint32_t invalidate_domains,
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uint32_t flush_domains,
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uint32_t flush_rings)
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{
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drm_i915_private_t *dev_priv = dev->dev_private;
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int i, ret;
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if (flush_domains & I915_GEM_DOMAIN_CPU)
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intel_gtt_chipset_flush();
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if (flush_domains & I915_GEM_DOMAIN_GTT)
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wmb();
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if ((flush_domains | invalidate_domains) & I915_GEM_GPU_DOMAINS) {
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for (i = 0; i < I915_NUM_RINGS; i++)
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if (flush_rings & (1 << i)) {
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ret = i915_gem_flush_ring(&dev_priv->ring[i],
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invalidate_domains,
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flush_domains);
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if (ret)
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return ret;
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}
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}
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return 0;
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}
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static int
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i915_gem_execbuffer_move_to_gpu(struct intel_ring_buffer *ring,
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struct list_head *objects)
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{
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struct drm_i915_gem_object *obj;
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struct change_domains cd;
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int ret;
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memset(&cd, 0, sizeof(cd));
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list_for_each_entry(obj, objects, exec_list)
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i915_gem_object_set_to_gpu_domain(obj, ring, &cd);
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if (cd.invalidate_domains | cd.flush_domains) {
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ret = i915_gem_execbuffer_flush(ring->dev,
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cd.invalidate_domains,
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cd.flush_domains,
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cd.flush_rings);
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if (ret)
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return ret;
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}
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// if (cd.flips) {
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// ret = i915_gem_execbuffer_wait_for_flips(ring, cd.flips);
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// if (ret)
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// return ret;
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// }
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// list_for_each_entry(obj, objects, exec_list) {
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// ret = i915_gem_execbuffer_sync_rings(obj, ring);
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// if (ret)
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// return ret;
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// }
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return 0;
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}
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static void
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i915_gem_execbuffer_move_to_active(struct list_head *objects,
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struct intel_ring_buffer *ring,
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u32 seqno)
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{
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struct drm_i915_gem_object *obj;
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list_for_each_entry(obj, objects, exec_list) {
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u32 old_read = obj->base.read_domains;
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u32 old_write = obj->base.write_domain;
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obj->base.read_domains = obj->base.pending_read_domains;
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obj->base.write_domain = obj->base.pending_write_domain;
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obj->fenced_gpu_access = obj->pending_fenced_gpu_access;
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i915_gem_object_move_to_active(obj, ring, seqno);
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if (obj->base.write_domain) {
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obj->dirty = 1;
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obj->pending_gpu_write = true;
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list_move_tail(&obj->gpu_write_list,
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&ring->gpu_write_list);
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// intel_mark_busy(ring->dev, obj);
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}
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// trace_i915_gem_object_change_domain(obj, old_read, old_write);
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}
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}
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static void
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i915_gem_execbuffer_retire_commands(struct drm_device *dev,
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struct intel_ring_buffer *ring)
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{
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struct drm_i915_gem_request *request;
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u32 invalidate;
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/*
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* Ensure that the commands in the batch buffer are
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* finished before the interrupt fires.
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*
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* The sampler always gets flushed on i965 (sigh).
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*/
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invalidate = I915_GEM_DOMAIN_COMMAND;
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if (INTEL_INFO(dev)->gen >= 4)
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invalidate |= I915_GEM_DOMAIN_SAMPLER;
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if (ring->flush(ring, invalidate, 0)) {
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i915_gem_next_request_seqno(ring);
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return;
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}
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/* Add a breadcrumb for the completion of the batch buffer */
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request = kzalloc(sizeof(*request), GFP_KERNEL);
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if (request == NULL || i915_add_request(ring, NULL, request)) {
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i915_gem_next_request_seqno(ring);
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kfree(request);
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}
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}
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int exec_batch(struct drm_device *dev, struct intel_ring_buffer *ring,
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batchbuffer_t *exec)
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{
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drm_i915_private_t *dev_priv = dev->dev_private;
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struct drm_i915_gem_object *obj;
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u32 seqno;
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int i;
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int ret;
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ring = &dev_priv->ring[RCS];
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mutex_lock(&dev->struct_mutex);
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list_for_each_entry(obj, &exec->objects, exec_list)
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{
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obj->base.pending_read_domains = 0;
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obj->base.pending_write_domain = 0;
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};
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exec->batch->base.pending_read_domains |= I915_GEM_DOMAIN_COMMAND;
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ret = i915_gem_execbuffer_move_to_gpu(ring, &exec->objects);
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if (ret)
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goto err;
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seqno = i915_gem_next_request_seqno(ring);
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// for (i = 0; i < ARRAY_SIZE(ring->sync_seqno); i++) {
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// if (seqno < ring->sync_seqno[i]) {
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/* The GPU can not handle its semaphore value wrapping,
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* so every billion or so execbuffers, we need to stall
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* the GPU in order to reset the counters.
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*/
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// ret = i915_gpu_idle(dev);
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// if (ret)
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// goto err;
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// BUG_ON(ring->sync_seqno[i]);
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// }
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// };
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ret = ring->dispatch_execbuffer(ring, exec->exec_start, exec->exec_len);
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if (ret)
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goto err;
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i915_gem_execbuffer_move_to_active(&exec->objects, ring, seqno);
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i915_gem_execbuffer_retire_commands(dev, ring);
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err:
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mutex_unlock(&dev->struct_mutex);
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return ret;
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};
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