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android / platform / external / virglrenderer / 4c646dc / . / src / venus / vkr_queue.c
blob: 734dbc486cf5822f296d6bf122ea590936c100c5 [file] [log] [blame]
/*
* Copyright 2020 Google LLC
* SPDX-License-Identifier: MIT
*/
#include "vkr_queue.h"
#include "venus-protocol/vn_protocol_renderer_device.h"
#include "venus-protocol/vn_protocol_renderer_event.h"
#include "venus-protocol/vn_protocol_renderer_fence.h"
#include "venus-protocol/vn_protocol_renderer_queue.h"
#include "venus-protocol/vn_protocol_renderer_semaphore.h"
#include "vkr_context.h"
#include "vkr_device.h"
#include "vkr_physical_device.h"
struct vkr_queue_sync *
vkr_device_alloc_queue_sync(struct vkr_device *dev,
uint32_t fence_flags,
void *fence_cookie)
{
struct vkr_queue_sync *sync;
if (vkr_renderer_flags & VKR_RENDERER_ASYNC_FENCE_CB)
mtx_lock(&dev->free_sync_mutex);
if (LIST_IS_EMPTY(&dev->free_syncs)) {
if (vkr_renderer_flags & VKR_RENDERER_ASYNC_FENCE_CB)
mtx_unlock(&dev->free_sync_mutex);
sync = malloc(sizeof(*sync));
if (!sync)
return NULL;
const VkExportFenceCreateInfo export_info = {
.sType = VK_STRUCTURE_TYPE_EXPORT_FENCE_CREATE_INFO,
.handleTypes = VK_EXTERNAL_FENCE_HANDLE_TYPE_SYNC_FD_BIT,
};
const struct VkFenceCreateInfo create_info = {
.sType = VK_STRUCTURE_TYPE_FENCE_CREATE_INFO,
.pNext = dev->physical_device->KHR_external_fence_fd ? &export_info : NULL,
};
VkResult result =
vkCreateFence(dev->base.handle.device, &create_info, NULL, &sync->fence);
if (result != VK_SUCCESS) {
free(sync);
return NULL;
}
} else {
sync = LIST_ENTRY(struct vkr_queue_sync, dev->free_syncs.next, head);
list_del(&sync->head);
if (vkr_renderer_flags & VKR_RENDERER_ASYNC_FENCE_CB)
mtx_unlock(&dev->free_sync_mutex);
vkResetFences(dev->base.handle.device, 1, &sync->fence);
}
sync->flags = fence_flags;
sync->fence_cookie = fence_cookie;
return sync;
}
void
vkr_device_free_queue_sync(struct vkr_device *dev, struct vkr_queue_sync *sync)
{
if (vkr_renderer_flags & VKR_RENDERER_ASYNC_FENCE_CB) {
mtx_lock(&dev->free_sync_mutex);
list_addtail(&sync->head, &dev->free_syncs);
mtx_unlock(&dev->free_sync_mutex);
} else {
list_addtail(&sync->head, &dev->free_syncs);
}
}
void
vkr_queue_retire_syncs(struct vkr_queue *queue,
struct list_head *retired_syncs,
bool *queue_empty)
{
struct vkr_device *dev = queue->device;
struct vkr_queue_sync *sync, *tmp;
assert(!(vkr_renderer_flags & VKR_RENDERER_ASYNC_FENCE_CB));
list_inithead(retired_syncs);
if (vkr_renderer_flags & VKR_RENDERER_THREAD_SYNC) {
mtx_lock(&queue->mutex);
LIST_FOR_EACH_ENTRY_SAFE (sync, tmp, &queue->signaled_syncs, head) {
if (sync->head.next == &queue->signaled_syncs ||
!(sync->flags & VIRGL_RENDERER_FENCE_FLAG_MERGEABLE))
list_addtail(&sync->head, retired_syncs);
else
vkr_device_free_queue_sync(dev, sync);
}
list_inithead(&queue->signaled_syncs);
*queue_empty = LIST_IS_EMPTY(&queue->pending_syncs);
mtx_unlock(&queue->mutex);
} else {
LIST_FOR_EACH_ENTRY_SAFE (sync, tmp, &queue->pending_syncs, head) {
VkResult result = vkGetFenceStatus(dev->base.handle.device, sync->fence);
if (result == VK_NOT_READY)
break;
list_del(&sync->head);
if (sync->head.next == &queue->pending_syncs ||
!(sync->flags & VIRGL_RENDERER_FENCE_FLAG_MERGEABLE))
list_addtail(&sync->head, retired_syncs);
else
vkr_device_free_queue_sync(dev, sync);
}
*queue_empty = LIST_IS_EMPTY(&queue->pending_syncs);
}
}
void
vkr_queue_destroy(struct vkr_context *ctx, struct vkr_queue *queue)
{
struct vkr_queue_sync *sync, *tmp;
if (vkr_renderer_flags & VKR_RENDERER_THREAD_SYNC) {
mtx_lock(&queue->mutex);
queue->join = true;
mtx_unlock(&queue->mutex);
cnd_signal(&queue->cond);
thrd_join(queue->thread, NULL);
LIST_FOR_EACH_ENTRY_SAFE (sync, tmp, &queue->signaled_syncs, head)
vkr_device_free_queue_sync(queue->device, sync);
} else {
assert(LIST_IS_EMPTY(&queue->signaled_syncs));
}
LIST_FOR_EACH_ENTRY_SAFE (sync, tmp, &queue->pending_syncs, head)
vkr_device_free_queue_sync(queue->device, sync);
mtx_destroy(&queue->mutex);
cnd_destroy(&queue->cond);
list_del(&queue->busy_head);
list_del(&queue->base.track_head);
if (queue->base.id)
util_hash_table_remove_u64(ctx->object_table, queue->base.id);
else
free(queue);
}
static int
vkr_queue_thread(void *arg)
{
struct vkr_queue *queue = arg;
struct vkr_context *ctx = queue->context;
struct vkr_device *dev = queue->device;
const uint64_t ns_per_sec = 1000000000llu;
char thread_name[16];
snprintf(thread_name, ARRAY_SIZE(thread_name), "vkr-queue-%d", ctx->base.ctx_id);
pipe_thread_setname(thread_name);
mtx_lock(&queue->mutex);
while (true) {
while (LIST_IS_EMPTY(&queue->pending_syncs) && !queue->join)
cnd_wait(&queue->cond, &queue->mutex);
if (queue->join)
break;
struct vkr_queue_sync *sync =
LIST_ENTRY(struct vkr_queue_sync, queue->pending_syncs.next, head);
mtx_unlock(&queue->mutex);
VkResult result =
vkWaitForFences(dev->base.handle.device, 1, &sync->fence, false, ns_per_sec * 3);
mtx_lock(&queue->mutex);
if (result == VK_TIMEOUT)
continue;
list_del(&sync->head);
if (vkr_renderer_flags & VKR_RENDERER_ASYNC_FENCE_CB) {
ctx->base.fence_retire(&ctx->base, queue->base.id, sync->fence_cookie);
vkr_device_free_queue_sync(queue->device, sync);
} else {
list_addtail(&sync->head, &queue->signaled_syncs);
write_eventfd(queue->eventfd, 1);
}
}
mtx_unlock(&queue->mutex);
return 0;
}
struct vkr_queue *
vkr_queue_create(struct vkr_context *ctx,
struct vkr_device *dev,
VkDeviceQueueCreateFlags flags,
uint32_t family,
uint32_t index,
VkQueue handle)
{
struct vkr_queue *queue;
int ret;
queue = calloc(1, sizeof(*queue));
if (!queue)
return NULL;
queue->base.type = VK_OBJECT_TYPE_QUEUE;
/* queue->base.id is not assigned until vkr_queue_assign_object_id */
queue->base.handle.queue = handle;
queue->context = ctx;
queue->device = dev;
queue->flags = flags;
queue->family = family;
queue->index = index;
list_inithead(&queue->pending_syncs);
list_inithead(&queue->signaled_syncs);
ret = mtx_init(&queue->mutex, mtx_plain);
if (ret != thrd_success) {
free(queue);
return NULL;
}
ret = cnd_init(&queue->cond);
if (ret != thrd_success) {
mtx_destroy(&queue->mutex);
free(queue);
return NULL;
}
if (vkr_renderer_flags & VKR_RENDERER_THREAD_SYNC) {
ret = thrd_create(&queue->thread, vkr_queue_thread, queue);
if (ret != thrd_success) {
mtx_destroy(&queue->mutex);
cnd_destroy(&queue->cond);
free(queue);
return NULL;
}
queue->eventfd = ctx->fence_eventfd;
}
list_inithead(&queue->busy_head);
list_inithead(&queue->base.track_head);
return queue;
}
static void
vkr_queue_assign_object_id(struct vkr_context *ctx,
struct vkr_queue *queue,
vkr_object_id id)
{
if (queue->base.id) {
if (queue->base.id != id)
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
queue->base.id = id;
util_hash_table_set_u64(ctx->object_table, queue->base.id, queue);
}
static struct vkr_queue *
vkr_device_lookup_queue(struct vkr_device *dev,
VkDeviceQueueCreateFlags flags,
uint32_t family,
uint32_t index)
{
struct vkr_queue *queue;
LIST_FOR_EACH_ENTRY (queue, &dev->queues, base.track_head) {
if (queue->flags == flags && queue->family == family && queue->index == index)
return queue;
}
return NULL;
}
static void
vkr_dispatch_vkGetDeviceQueue(struct vn_dispatch_context *dispatch,
struct vn_command_vkGetDeviceQueue *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_device *dev = (struct vkr_device *)args->device;
if (!dev || dev->base.type != VK_OBJECT_TYPE_DEVICE) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
struct vkr_queue *queue = vkr_device_lookup_queue(
dev, 0 /* flags */, args->queueFamilyIndex, args->queueIndex);
if (!queue) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
const vkr_object_id id =
vkr_cs_handle_load_id((const void **)args->pQueue, VK_OBJECT_TYPE_QUEUE);
vkr_queue_assign_object_id(ctx, queue, id);
}
static void
vkr_dispatch_vkGetDeviceQueue2(struct vn_dispatch_context *dispatch,
struct vn_command_vkGetDeviceQueue2 *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_device *dev = (struct vkr_device *)args->device;
if (!dev || dev->base.type != VK_OBJECT_TYPE_DEVICE) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
struct vkr_queue *queue = vkr_device_lookup_queue(dev, args->pQueueInfo->flags,
args->pQueueInfo->queueFamilyIndex,
args->pQueueInfo->queueIndex);
if (!queue) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
const vkr_object_id id =
vkr_cs_handle_load_id((const void **)args->pQueue, VK_OBJECT_TYPE_QUEUE);
vkr_queue_assign_object_id(ctx, queue, id);
}
static void
vkr_dispatch_vkQueueSubmit(UNUSED struct vn_dispatch_context *dispatch,
struct vn_command_vkQueueSubmit *args)
{
vn_replace_vkQueueSubmit_args_handle(args);
args->ret = vkQueueSubmit(args->queue, args->submitCount, args->pSubmits, args->fence);
}
static void
vkr_dispatch_vkQueueBindSparse(UNUSED struct vn_dispatch_context *dispatch,
struct vn_command_vkQueueBindSparse *args)
{
vn_replace_vkQueueBindSparse_args_handle(args);
args->ret =
vkQueueBindSparse(args->queue, args->bindInfoCount, args->pBindInfo, args->fence);
}
static void
vkr_dispatch_vkQueueWaitIdle(struct vn_dispatch_context *dispatch,
UNUSED struct vn_command_vkQueueWaitIdle *args)
{
struct vkr_context *ctx = dispatch->data;
/* no blocking call */
vkr_cs_decoder_set_fatal(&ctx->decoder);
}
static void
vkr_dispatch_vkCreateFence(struct vn_dispatch_context *dispatch,
struct vn_command_vkCreateFence *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(fence, fence, FENCE, vkCreateFence, pFence);
util_hash_table_set_u64(ctx->object_table, fence->base.id, fence);
}
static void
vkr_dispatch_vkDestroyFence(struct vn_dispatch_context *dispatch,
struct vn_command_vkDestroyFence *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(fence, fence, FENCE, vkDestroyFence, fence);
util_hash_table_remove_u64(ctx->object_table, fence->base.id);
}
static void
vkr_dispatch_vkResetFences(UNUSED struct vn_dispatch_context *dispatch,
struct vn_command_vkResetFences *args)
{
vn_replace_vkResetFences_args_handle(args);
args->ret = vkResetFences(args->device, args->fenceCount, args->pFences);
}
static void
vkr_dispatch_vkGetFenceStatus(UNUSED struct vn_dispatch_context *dispatch,
struct vn_command_vkGetFenceStatus *args)
{
vn_replace_vkGetFenceStatus_args_handle(args);
args->ret = vkGetFenceStatus(args->device, args->fence);
}
static void
vkr_dispatch_vkWaitForFences(struct vn_dispatch_context *dispatch,
struct vn_command_vkWaitForFences *args)
{
struct vkr_context *ctx = dispatch->data;
/* Being single-threaded, we cannot afford potential blocking calls. It
* also leads to GPU lost when the wait never returns and can only be
* unblocked by a following command (e.g., vkCmdWaitEvents that is
* unblocked by a following vkSetEvent).
*/
if (args->timeout) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkWaitForFences_args_handle(args);
args->ret = vkWaitForFences(args->device, args->fenceCount, args->pFences,
args->waitAll, args->timeout);
}
static void
vkr_dispatch_vkCreateSemaphore(struct vn_dispatch_context *dispatch,
struct vn_command_vkCreateSemaphore *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(sem, semaphore, SEMAPHORE, vkCreateSemaphore, pSemaphore);
util_hash_table_set_u64(ctx->object_table, sem->base.id, sem);
}
static void
vkr_dispatch_vkDestroySemaphore(struct vn_dispatch_context *dispatch,
struct vn_command_vkDestroySemaphore *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(sem, semaphore, SEMAPHORE, vkDestroySemaphore, semaphore);
util_hash_table_remove_u64(ctx->object_table, sem->base.id);
}
static void
vkr_dispatch_vkGetSemaphoreCounterValue(struct vn_dispatch_context *dispatch,
struct vn_command_vkGetSemaphoreCounterValue *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_device *dev = (struct vkr_device *)args->device;
if (!dev || dev->base.type != VK_OBJECT_TYPE_DEVICE) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkGetSemaphoreCounterValue_args_handle(args);
args->ret = dev->GetSemaphoreCounterValue(args->device, args->semaphore, args->pValue);
}
static void
vkr_dispatch_vkWaitSemaphores(struct vn_dispatch_context *dispatch,
struct vn_command_vkWaitSemaphores *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_device *dev = (struct vkr_device *)args->device;
if (!dev || dev->base.type != VK_OBJECT_TYPE_DEVICE) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
/* no blocking call */
if (args->timeout) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkWaitSemaphores_args_handle(args);
args->ret = dev->WaitSemaphores(args->device, args->pWaitInfo, args->timeout);
}
static void
vkr_dispatch_vkSignalSemaphore(struct vn_dispatch_context *dispatch,
struct vn_command_vkSignalSemaphore *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_device *dev = (struct vkr_device *)args->device;
if (!dev || dev->base.type != VK_OBJECT_TYPE_DEVICE) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkSignalSemaphore_args_handle(args);
args->ret = dev->SignalSemaphore(args->device, args->pSignalInfo);
}
static void
vkr_dispatch_vkCreateEvent(struct vn_dispatch_context *dispatch,
struct vn_command_vkCreateEvent *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(ev, event, EVENT, vkCreateEvent, pEvent);
util_hash_table_set_u64(ctx->object_table, ev->base.id, ev);
}
static void
vkr_dispatch_vkDestroyEvent(struct vn_dispatch_context *dispatch,
struct vn_command_vkDestroyEvent *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(ev, event, EVENT, vkDestroyEvent, event);
util_hash_table_remove_u64(ctx->object_table, ev->base.id);
}
static void
vkr_dispatch_vkGetEventStatus(UNUSED struct vn_dispatch_context *dispatch,
struct vn_command_vkGetEventStatus *args)
{
vn_replace_vkGetEventStatus_args_handle(args);
args->ret = vkGetEventStatus(args->device, args->event);
}
static void
vkr_dispatch_vkSetEvent(UNUSED struct vn_dispatch_context *dispatch,
struct vn_command_vkSetEvent *args)
{
vn_replace_vkSetEvent_args_handle(args);
args->ret = vkSetEvent(args->device, args->event);
}
static void
vkr_dispatch_vkResetEvent(UNUSED struct vn_dispatch_context *dispatch,
struct vn_command_vkResetEvent *args)
{
vn_replace_vkResetEvent_args_handle(args);
args->ret = vkResetEvent(args->device, args->event);
}
void
vkr_context_init_queue_dispatch(struct vkr_context *ctx)
{
struct vn_dispatch_context *dispatch = &ctx->dispatch;
dispatch->dispatch_vkGetDeviceQueue = vkr_dispatch_vkGetDeviceQueue;
dispatch->dispatch_vkGetDeviceQueue2 = vkr_dispatch_vkGetDeviceQueue2;
dispatch->dispatch_vkQueueSubmit = vkr_dispatch_vkQueueSubmit;
dispatch->dispatch_vkQueueBindSparse = vkr_dispatch_vkQueueBindSparse;
dispatch->dispatch_vkQueueWaitIdle = vkr_dispatch_vkQueueWaitIdle;
}
void
vkr_context_init_fence_dispatch(struct vkr_context *ctx)
{
struct vn_dispatch_context *dispatch = &ctx->dispatch;
dispatch->dispatch_vkCreateFence = vkr_dispatch_vkCreateFence;
dispatch->dispatch_vkDestroyFence = vkr_dispatch_vkDestroyFence;
dispatch->dispatch_vkResetFences = vkr_dispatch_vkResetFences;
dispatch->dispatch_vkGetFenceStatus = vkr_dispatch_vkGetFenceStatus;
dispatch->dispatch_vkWaitForFences = vkr_dispatch_vkWaitForFences;
}
void
vkr_context_init_semaphore_dispatch(struct vkr_context *ctx)
{
struct vn_dispatch_context *dispatch = &ctx->dispatch;
dispatch->dispatch_vkCreateSemaphore = vkr_dispatch_vkCreateSemaphore;
dispatch->dispatch_vkDestroySemaphore = vkr_dispatch_vkDestroySemaphore;
dispatch->dispatch_vkGetSemaphoreCounterValue =
vkr_dispatch_vkGetSemaphoreCounterValue;
dispatch->dispatch_vkWaitSemaphores = vkr_dispatch_vkWaitSemaphores;
dispatch->dispatch_vkSignalSemaphore = vkr_dispatch_vkSignalSemaphore;
}
void
vkr_context_init_event_dispatch(struct vkr_context *ctx)
{
struct vn_dispatch_context *dispatch = &ctx->dispatch;
dispatch->dispatch_vkCreateEvent = vkr_dispatch_vkCreateEvent;
dispatch->dispatch_vkDestroyEvent = vkr_dispatch_vkDestroyEvent;
dispatch->dispatch_vkGetEventStatus = vkr_dispatch_vkGetEventStatus;
dispatch->dispatch_vkSetEvent = vkr_dispatch_vkSetEvent;
dispatch->dispatch_vkResetEvent = vkr_dispatch_vkResetEvent;
}