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/*
* Copyright © 2015 Intel Corporation
*
* 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 AUTHORS OR COPYRIGHT HOLDERS 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.
*/
#include "util/mesa-sha1.h"
#include "util/debug.h"
#include "util/u_atomic.h"
#include "radv_debug.h"
#include "radv_private.h"
#include "radv_shader.h"
#include "ac_nir_to_llvm.h"
struct cache_entry {
union {
unsigned char sha1[20];
uint32_t sha1_dw[5];
};
uint32_t code_size;
struct ac_shader_variant_info variant_info;
struct ac_shader_config config;
uint32_t rsrc1, rsrc2;
struct radv_shader_variant *variant;
uint32_t code[0];
};
void
radv_pipeline_cache_init(struct radv_pipeline_cache *cache,
struct radv_device *device)
{
cache->device = device;
pthread_mutex_init(&cache->mutex, NULL);
cache->modified = false;
cache->kernel_count = 0;
cache->total_size = 0;
cache->table_size = 1024;
const size_t byte_size = cache->table_size * sizeof(cache->hash_table[0]);
cache->hash_table = malloc(byte_size);
/* We don't consider allocation failure fatal, we just start with a 0-sized
* cache. */
if (cache->hash_table == NULL ||
(device->debug_flags & RADV_DEBUG_NO_CACHE))
cache->table_size = 0;
else
memset(cache->hash_table, 0, byte_size);
}
void
radv_pipeline_cache_finish(struct radv_pipeline_cache *cache)
{
for (unsigned i = 0; i < cache->table_size; ++i)
if (cache->hash_table[i]) {
if (cache->hash_table[i]->variant)
radv_shader_variant_destroy(cache->device,
cache->hash_table[i]->variant);
vk_free(&cache->alloc, cache->hash_table[i]);
}
pthread_mutex_destroy(&cache->mutex);
free(cache->hash_table);
}
static uint32_t
entry_size(struct cache_entry *entry)
{
return sizeof(*entry) + entry->code_size;
}
void
radv_hash_shader(unsigned char *hash, struct radv_shader_module *module,
const char *entrypoint,
const VkSpecializationInfo *spec_info,
const struct radv_pipeline_layout *layout,
const struct ac_shader_variant_key *key,
uint32_t is_geom_copy_shader)
{
struct mesa_sha1 ctx;
_mesa_sha1_init(&ctx);
if (key)
_mesa_sha1_update(&ctx, key, sizeof(*key));
_mesa_sha1_update(&ctx, module->sha1, sizeof(module->sha1));
_mesa_sha1_update(&ctx, entrypoint, strlen(entrypoint));
if (layout)
_mesa_sha1_update(&ctx, layout->sha1, sizeof(layout->sha1));
if (spec_info) {
_mesa_sha1_update(&ctx, spec_info->pMapEntries,
spec_info->mapEntryCount * sizeof spec_info->pMapEntries[0]);
_mesa_sha1_update(&ctx, spec_info->pData, spec_info->dataSize);
}
_mesa_sha1_update(&ctx, &is_geom_copy_shader, 4);
_mesa_sha1_final(&ctx, hash);
}
static struct cache_entry *
radv_pipeline_cache_search_unlocked(struct radv_pipeline_cache *cache,
const unsigned char *sha1)
{
const uint32_t mask = cache->table_size - 1;
const uint32_t start = (*(uint32_t *) sha1);
if (cache->table_size == 0)
return NULL;
for (uint32_t i = 0; i < cache->table_size; i++) {
const uint32_t index = (start + i) & mask;
struct cache_entry *entry = cache->hash_table[index];
if (!entry)
return NULL;
if (memcmp(entry->sha1, sha1, sizeof(entry->sha1)) == 0) {
return entry;
}
}
unreachable("hash table should never be full");
}
static struct cache_entry *
radv_pipeline_cache_search(struct radv_pipeline_cache *cache,
const unsigned char *sha1)
{
struct cache_entry *entry;
pthread_mutex_lock(&cache->mutex);
entry = radv_pipeline_cache_search_unlocked(cache, sha1);
pthread_mutex_unlock(&cache->mutex);
return entry;
}
struct radv_shader_variant *
radv_create_shader_variant_from_pipeline_cache(struct radv_device *device,
struct radv_pipeline_cache *cache,
const unsigned char *sha1)
{
struct cache_entry *entry = NULL;
if (cache)
entry = radv_pipeline_cache_search(cache, sha1);
else
entry = radv_pipeline_cache_search(device->mem_cache, sha1);
if (!entry)
return NULL;
if (!entry->variant) {
struct radv_shader_variant *variant;
variant = calloc(1, sizeof(struct radv_shader_variant));
if (!variant)
return NULL;
variant->code_size = entry->code_size;
variant->config = entry->config;
variant->info = entry->variant_info;
variant->rsrc1 = entry->rsrc1;
variant->rsrc2 = entry->rsrc2;
variant->code_size = entry->code_size;
variant->ref_count = 1;
void *ptr = radv_alloc_shader_memory(device, variant);
memcpy(ptr, entry->code, entry->code_size);
entry->variant = variant;
}
p_atomic_inc(&entry->variant->ref_count);
return entry->variant;
}
static void
radv_pipeline_cache_set_entry(struct radv_pipeline_cache *cache,
struct cache_entry *entry)
{
const uint32_t mask = cache->table_size - 1;
const uint32_t start = entry->sha1_dw[0];
/* We'll always be able to insert when we get here. */
assert(cache->kernel_count < cache->table_size / 2);
for (uint32_t i = 0; i < cache->table_size; i++) {
const uint32_t index = (start + i) & mask;
if (!cache->hash_table[index]) {
cache->hash_table[index] = entry;
break;
}
}
cache->total_size += entry_size(entry);
cache->kernel_count++;
}
static VkResult
radv_pipeline_cache_grow(struct radv_pipeline_cache *cache)
{
const uint32_t table_size = cache->table_size * 2;
const uint32_t old_table_size = cache->table_size;
const size_t byte_size = table_size * sizeof(cache->hash_table[0]);
struct cache_entry **table;
struct cache_entry **old_table = cache->hash_table;
table = malloc(byte_size);
if (table == NULL)
return VK_ERROR_OUT_OF_HOST_MEMORY;
cache->hash_table = table;
cache->table_size = table_size;
cache->kernel_count = 0;
cache->total_size = 0;
memset(cache->hash_table, 0, byte_size);
for (uint32_t i = 0; i < old_table_size; i++) {
struct cache_entry *entry = old_table[i];
if (!entry)
continue;
radv_pipeline_cache_set_entry(cache, entry);
}
free(old_table);
return VK_SUCCESS;
}
static void
radv_pipeline_cache_add_entry(struct radv_pipeline_cache *cache,
struct cache_entry *entry)
{
if (cache->kernel_count == cache->table_size / 2)
radv_pipeline_cache_grow(cache);
/* Failing to grow that hash table isn't fatal, but may mean we don't
* have enough space to add this new kernel. Only add it if there's room.
*/
if (cache->kernel_count < cache->table_size / 2)
radv_pipeline_cache_set_entry(cache, entry);
}
struct radv_shader_variant *
radv_pipeline_cache_insert_shader(struct radv_device *device,
struct radv_pipeline_cache *cache,
const unsigned char *sha1,
struct radv_shader_variant *variant,
const void *code, unsigned code_size)
{
if (!cache)
cache = device->mem_cache;
pthread_mutex_lock(&cache->mutex);
struct cache_entry *entry = radv_pipeline_cache_search_unlocked(cache, sha1);
if (entry) {
if (entry->variant) {
radv_shader_variant_destroy(cache->device, variant);
variant = entry->variant;
} else {
entry->variant = variant;
}
p_atomic_inc(&variant->ref_count);
pthread_mutex_unlock(&cache->mutex);
return variant;
}
entry = vk_alloc(&cache->alloc, sizeof(*entry) + code_size, 8,
VK_SYSTEM_ALLOCATION_SCOPE_CACHE);
if (!entry) {
pthread_mutex_unlock(&cache->mutex);
return variant;
}
memcpy(entry->sha1, sha1, 20);
memcpy(entry->code, code, code_size);
entry->config = variant->config;
entry->variant_info = variant->info;
entry->rsrc1 = variant->rsrc1;
entry->rsrc2 = variant->rsrc2;
entry->code_size = code_size;
entry->variant = variant;
p_atomic_inc(&variant->ref_count);
radv_pipeline_cache_add_entry(cache, entry);
cache->modified = true;
pthread_mutex_unlock(&cache->mutex);
return variant;
}
struct cache_header {
uint32_t header_size;
uint32_t header_version;
uint32_t vendor_id;
uint32_t device_id;
uint8_t uuid[VK_UUID_SIZE];
};
void
radv_pipeline_cache_load(struct radv_pipeline_cache *cache,
const void *data, size_t size)
{
struct radv_device *device = cache->device;
struct cache_header header;
if (size < sizeof(header))
return;
memcpy(&header, data, sizeof(header));
if (header.header_size < sizeof(header))
return;
if (header.header_version != VK_PIPELINE_CACHE_HEADER_VERSION_ONE)
return;
if (header.vendor_id != ATI_VENDOR_ID)
return;
if (header.device_id != device->physical_device->rad_info.pci_id)
return;
if (memcmp(header.uuid, device->physical_device->cache_uuid, VK_UUID_SIZE) != 0)
return;
char *end = (void *) data + size;
char *p = (void *) data + header.header_size;
while (end - p >= sizeof(struct cache_entry)) {
struct cache_entry *entry = (struct cache_entry*)p;
struct cache_entry *dest_entry;
if(end - p < sizeof(*entry) + entry->code_size)
break;
dest_entry = vk_alloc(&cache->alloc, sizeof(*entry) + entry->code_size,
8, VK_SYSTEM_ALLOCATION_SCOPE_CACHE);
if (dest_entry) {
memcpy(dest_entry, entry, sizeof(*entry) + entry->code_size);
dest_entry->variant = NULL;
radv_pipeline_cache_add_entry(cache, dest_entry);
}
p += sizeof (*entry) + entry->code_size;
}
}
VkResult radv_CreatePipelineCache(
VkDevice _device,
const VkPipelineCacheCreateInfo* pCreateInfo,
const VkAllocationCallbacks* pAllocator,
VkPipelineCache* pPipelineCache)
{
RADV_FROM_HANDLE(radv_device, device, _device);
struct radv_pipeline_cache *cache;
assert(pCreateInfo->sType == VK_STRUCTURE_TYPE_PIPELINE_CACHE_CREATE_INFO);
assert(pCreateInfo->flags == 0);
cache = vk_alloc2(&device->alloc, pAllocator,
sizeof(*cache), 8,
VK_SYSTEM_ALLOCATION_SCOPE_OBJECT);
if (cache == NULL)
return vk_error(VK_ERROR_OUT_OF_HOST_MEMORY);
if (pAllocator)
cache->alloc = *pAllocator;
else
cache->alloc = device->alloc;
radv_pipeline_cache_init(cache, device);
if (pCreateInfo->initialDataSize > 0) {
radv_pipeline_cache_load(cache,
pCreateInfo->pInitialData,
pCreateInfo->initialDataSize);
}
*pPipelineCache = radv_pipeline_cache_to_handle(cache);
return VK_SUCCESS;
}
void radv_DestroyPipelineCache(
VkDevice _device,
VkPipelineCache _cache,
const VkAllocationCallbacks* pAllocator)
{
RADV_FROM_HANDLE(radv_device, device, _device);
RADV_FROM_HANDLE(radv_pipeline_cache, cache, _cache);
if (!cache)
return;
radv_pipeline_cache_finish(cache);
vk_free2(&device->alloc, pAllocator, cache);
}
VkResult radv_GetPipelineCacheData(
VkDevice _device,
VkPipelineCache _cache,
size_t* pDataSize,
void* pData)
{
RADV_FROM_HANDLE(radv_device, device, _device);
RADV_FROM_HANDLE(radv_pipeline_cache, cache, _cache);
struct cache_header *header;
VkResult result = VK_SUCCESS;
const size_t size = sizeof(*header) + cache->total_size;
if (pData == NULL) {
*pDataSize = size;
return VK_SUCCESS;
}
if (*pDataSize < sizeof(*header)) {
*pDataSize = 0;
return VK_INCOMPLETE;
}
void *p = pData, *end = pData + *pDataSize;
header = p;
header->header_size = sizeof(*header);
header->header_version = VK_PIPELINE_CACHE_HEADER_VERSION_ONE;
header->vendor_id = ATI_VENDOR_ID;
header->device_id = device->physical_device->rad_info.pci_id;
memcpy(header->uuid, device->physical_device->cache_uuid, VK_UUID_SIZE);
p += header->header_size;
struct cache_entry *entry;
for (uint32_t i = 0; i < cache->table_size; i++) {
if (!cache->hash_table[i])
continue;
entry = cache->hash_table[i];
const uint32_t size = entry_size(entry);
if (end < p + size) {
result = VK_INCOMPLETE;
break;
}
memcpy(p, entry, size);
((struct cache_entry*)p)->variant = NULL;
p += size;
}
*pDataSize = p - pData;
return result;
}
static void
radv_pipeline_cache_merge(struct radv_pipeline_cache *dst,
struct radv_pipeline_cache *src)
{
for (uint32_t i = 0; i < src->table_size; i++) {
struct cache_entry *entry = src->hash_table[i];
if (!entry || radv_pipeline_cache_search(dst, entry->sha1))
continue;
radv_pipeline_cache_add_entry(dst, entry);
src->hash_table[i] = NULL;
}
}
VkResult radv_MergePipelineCaches(
VkDevice _device,
VkPipelineCache destCache,
uint32_t srcCacheCount,
const VkPipelineCache* pSrcCaches)
{
RADV_FROM_HANDLE(radv_pipeline_cache, dst, destCache);
for (uint32_t i = 0; i < srcCacheCount; i++) {
RADV_FROM_HANDLE(radv_pipeline_cache, src, pSrcCaches[i]);
radv_pipeline_cache_merge(dst, src);
}
return VK_SUCCESS;
}
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