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/*
Copyright (C) Intel Corp. 2006. All Rights Reserved.
Intel funded Tungsten Graphics to
develop this 3D driver.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice (including the
next paragraph) shall be included in all copies or substantial
portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE COPYRIGHT OWNER(S) AND/OR ITS SUPPLIERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
**********************************************************************/
/*
* Authors:
* Keith Whitwell <keithw@vmware.com>
*/
/** @file brw_state_cache.c
*
* This file implements a simple static state cache for 965. The
* consumers can query the hash table of state using a cache_id,
* opaque key data, and receive the corresponding state buffer object
* of state (plus associated auxiliary data) in return. Objects in
* the cache may not have relocations (pointers to other BOs) in them.
*
* The inner workings are a simple hash table based on a CRC of the
* key data.
*
* Replacement is not implemented. Instead, when the cache gets too
* big we throw out all of the cache data and let it get regenerated.
*/
#include "main/imports.h"
#include "intel_batchbuffer.h"
#include "brw_state.h"
#include "brw_vs.h"
#include "brw_wm.h"
#include "brw_gs.h"
#include "brw_cs.h"
#define FILE_DEBUG_FLAG DEBUG_STATE
static GLuint
hash_key(struct brw_cache_item *item)
{
GLuint *ikey = (GLuint *)item->key;
GLuint hash = item->cache_id, i;
assert(item->key_size % 4 == 0);
/* I'm sure this can be improved on:
*/
for (i = 0; i < item->key_size/4; i++) {
hash ^= ikey[i];
hash = (hash << 5) | (hash >> 27);
}
return hash;
}
static int
brw_cache_item_equals(const struct brw_cache_item *a,
const struct brw_cache_item *b)
{
return a->cache_id == b->cache_id &&
a->hash == b->hash &&
a->key_size == b->key_size &&
(memcmp(a->key, b->key, a->key_size) == 0);
}
static struct brw_cache_item *
search_cache(struct brw_cache *cache, GLuint hash,
struct brw_cache_item *lookup)
{
struct brw_cache_item *c;
#if 0
int bucketcount = 0;
for (c = cache->items[hash % cache->size]; c; c = c->next)
bucketcount++;
fprintf(stderr, "bucket %d/%d = %d/%d items\n", hash % cache->size,
cache->size, bucketcount, cache->n_items);
#endif
for (c = cache->items[hash % cache->size]; c; c = c->next) {
if (brw_cache_item_equals(lookup, c))
return c;
}
return NULL;
}
static void
rehash(struct brw_cache *cache)
{
struct brw_cache_item **items;
struct brw_cache_item *c, *next;
GLuint size, i;
size = cache->size * 3;
items = calloc(size, sizeof(*items));
for (i = 0; i < cache->size; i++)
for (c = cache->items[i]; c; c = next) {
next = c->next;
c->next = items[c->hash % size];
items[c->hash % size] = c;
}
free(cache->items);
cache->items = items;
cache->size = size;
}
/**
* Returns the buffer object matching cache_id and key, or NULL.
*/
bool
brw_search_cache(struct brw_cache *cache,
enum brw_cache_id cache_id,
const void *key, GLuint key_size,
uint32_t *inout_offset, void *out_aux)
{
struct brw_context *brw = cache->brw;
struct brw_cache_item *item;
struct brw_cache_item lookup;
GLuint hash;
lookup.cache_id = cache_id;
lookup.key = key;
lookup.key_size = key_size;
hash = hash_key(&lookup);
lookup.hash = hash;
item = search_cache(cache, hash, &lookup);
if (item == NULL)
return false;
*(void **)out_aux = ((char *)item->key + item->key_size);
if (item->offset != *inout_offset) {
brw->ctx.NewDriverState |= (1 << cache_id);
*inout_offset = item->offset;
}
return true;
}
static void
brw_cache_new_bo(struct brw_cache *cache, uint32_t new_size)
{
struct brw_context *brw = cache->brw;
drm_intel_bo *new_bo;
new_bo = drm_intel_bo_alloc(brw->bufmgr, "program cache", new_size, 64);
if (brw->has_llc)
drm_intel_gem_bo_map_unsynchronized(new_bo);
/* Copy any existing data that needs to be saved. */
if (cache->next_offset != 0) {
if (brw->has_llc) {
memcpy(new_bo->virtual, cache->bo->virtual, cache->next_offset);
} else {
drm_intel_bo_map(cache->bo, false);
drm_intel_bo_subdata(new_bo, 0, cache->next_offset,
cache->bo->virtual);
drm_intel_bo_unmap(cache->bo);
}
}
if (brw->has_llc)
drm_intel_bo_unmap(cache->bo);
drm_intel_bo_unreference(cache->bo);
cache->bo = new_bo;
cache->bo_used_by_gpu = false;
/* Since we have a new BO in place, we need to signal the units
* that depend on it (state base address on gen5+, or unit state before).
*/
brw->ctx.NewDriverState |= BRW_NEW_PROGRAM_CACHE;
}
/**
* Attempts to find an item in the cache with identical data.
*/
static const struct brw_cache_item *
brw_lookup_prog(const struct brw_cache *cache,
enum brw_cache_id cache_id,
const void *data, unsigned data_size)
{
const struct brw_context *brw = cache->brw;
unsigned i;
const struct brw_cache_item *item;
for (i = 0; i < cache->size; i++) {
for (item = cache->items[i]; item; item = item->next) {
int ret;
if (item->cache_id != cache_id || item->size != data_size)
continue;
if (!brw->has_llc)
drm_intel_bo_map(cache->bo, false);
ret = memcmp(cache->bo->virtual + item->offset, data, item->size);
if (!brw->has_llc)
drm_intel_bo_unmap(cache->bo);
if (ret)
continue;
return item;
}
}
return NULL;
}
static uint32_t
brw_alloc_item_data(struct brw_cache *cache, uint32_t size)
{
uint32_t offset;
struct brw_context *brw = cache->brw;
/* Allocate space in the cache BO for our new program. */
if (cache->next_offset + size > cache->bo->size) {
uint32_t new_size = cache->bo->size * 2;
while (cache->next_offset + size > new_size)
new_size *= 2;
brw_cache_new_bo(cache, new_size);
}
/* If we would block on writing to an in-use program BO, just
* recreate it.
*/
if (!brw->has_llc && cache->bo_used_by_gpu) {
perf_debug("Copying busy program cache buffer.\n");
brw_cache_new_bo(cache, cache->bo->size);
}
offset = cache->next_offset;
/* Programs are always 64-byte aligned, so set up the next one now */
cache->next_offset = ALIGN(offset + size, 64);
return offset;
}
void
brw_upload_cache(struct brw_cache *cache,
enum brw_cache_id cache_id,
const void *key,
GLuint key_size,
const void *data,
GLuint data_size,
const void *aux,
GLuint aux_size,
uint32_t *out_offset,
void *out_aux)
{
struct brw_context *brw = cache->brw;
struct brw_cache_item *item = CALLOC_STRUCT(brw_cache_item);
const struct brw_cache_item *matching_data =
brw_lookup_prog(cache, cache_id, data, data_size);
GLuint hash;
void *tmp;
item->cache_id = cache_id;
item->size = data_size;
item->key = key;
item->key_size = key_size;
item->aux_size = aux_size;
hash = hash_key(item);
item->hash = hash;
/* If we can find a matching prog in the cache already, then reuse the
* existing stuff without creating new copy into the underlying buffer
* object. This is notably useful for programs generating shaders at
* runtime, where multiple shaders may compile to the same thing in our
* backend.
*/
if (matching_data) {
item->offset = matching_data->offset;
} else {
item->offset = brw_alloc_item_data(cache, data_size);
/* Copy data to the buffer */
if (brw->has_llc) {
memcpy((char *)cache->bo->virtual + item->offset, data, data_size);
} else {
drm_intel_bo_subdata(cache->bo, item->offset, data_size, data);
}
}
/* Set up the memory containing the key and aux_data */
tmp = malloc(key_size + aux_size);
memcpy(tmp, key, key_size);
memcpy(tmp + key_size, aux, aux_size);
item->key = tmp;
if (cache->n_items > cache->size * 1.5f)
rehash(cache);
hash %= cache->size;
item->next = cache->items[hash];
cache->items[hash] = item;
cache->n_items++;
*out_offset = item->offset;
*(void **)out_aux = (void *)((char *)item->key + item->key_size);
cache->brw->ctx.NewDriverState |= 1 << cache_id;
}
void
brw_init_caches(struct brw_context *brw)
{
struct brw_cache *cache = &brw->cache;
cache->brw = brw;
cache->size = 7;
cache->n_items = 0;
cache->items =
calloc(cache->size, sizeof(struct brw_cache_item *));
cache->bo = drm_intel_bo_alloc(brw->bufmgr,
"program cache",
4096, 64);
if (brw->has_llc)
drm_intel_gem_bo_map_unsynchronized(cache->bo);
cache->aux_compare[BRW_CACHE_VS_PROG] = brw_vs_prog_data_compare;
cache->aux_compare[BRW_CACHE_GS_PROG] = brw_gs_prog_data_compare;
cache->aux_compare[BRW_CACHE_FS_PROG] = brw_wm_prog_data_compare;
cache->aux_compare[BRW_CACHE_CS_PROG] = brw_cs_prog_data_compare;
cache->aux_free[BRW_CACHE_VS_PROG] = brw_stage_prog_data_free;
cache->aux_free[BRW_CACHE_GS_PROG] = brw_stage_prog_data_free;
cache->aux_free[BRW_CACHE_FS_PROG] = brw_stage_prog_data_free;
cache->aux_free[BRW_CACHE_CS_PROG] = brw_stage_prog_data_free;
}
static void
brw_clear_cache(struct brw_context *brw, struct brw_cache *cache)
{
struct brw_cache_item *c, *next;
GLuint i;
DBG("%s\n", __func__);
for (i = 0; i < cache->size; i++) {
for (c = cache->items[i]; c; c = next) {
next = c->next;
if (cache->aux_free[c->cache_id]) {
const void *item_aux = c->key + c->key_size;
cache->aux_free[c->cache_id](item_aux);
}
free((void *)c->key);
free(c);
}
cache->items[i] = NULL;
}
cache->n_items = 0;
/* Start putting programs into the start of the BO again, since
* we'll never find the old results.
*/
cache->next_offset = 0;
/* We need to make sure that the programs get regenerated, since
* any offsets leftover in brw_context will no longer be valid.
*/
brw->NewGLState |= ~0;
brw->ctx.NewDriverState |= ~0ull;
intel_batchbuffer_flush(brw);
}
void
brw_state_cache_check_size(struct brw_context *brw)
{
/* un-tuned guess. Each object is generally a page, so 2000 of them is 8 MB of
* state cache.
*/
if (brw->cache.n_items > 2000) {
perf_debug("Exceeded state cache size limit. Clearing the set "
"of compiled programs, which will trigger recompiles\n");
brw_clear_cache(brw, &brw->cache);
}
}
static void
brw_destroy_cache(struct brw_context *brw, struct brw_cache *cache)
{
DBG("%s\n", __func__);
if (brw->has_llc)
drm_intel_bo_unmap(cache->bo);
drm_intel_bo_unreference(cache->bo);
cache->bo = NULL;
brw_clear_cache(brw, cache);
free(cache->items);
cache->items = NULL;
cache->size = 0;
}
void
brw_destroy_caches(struct brw_context *brw)
{
brw_destroy_cache(brw, &brw->cache);
}
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