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/*
* Copyright 2021 Google LLC
* SPDX-License-Identifier: MIT
*/
#include "vn_ring.h"
#include "vn_cs.h"
#include "vn_renderer.h"
static uint32_t
vn_ring_load_head(const struct vn_ring *ring)
{
/* the renderer is expected to store the head with memory_order_release,
* forming a release-acquire ordering
*/
return atomic_load_explicit(ring->shared.head, memory_order_acquire);
}
static void
vn_ring_store_tail(struct vn_ring *ring)
{
/* the renderer is expected to load the tail with memory_order_acquire,
* forming a release-acquire ordering
*/
return atomic_store_explicit(ring->shared.tail, ring->cur,
memory_order_release);
}
uint32_t
vn_ring_load_status(const struct vn_ring *ring)
{
/* must be called and ordered after vn_ring_store_tail for idle status */
return atomic_load_explicit(ring->shared.status, memory_order_seq_cst);
}
void
vn_ring_unset_status_bits(struct vn_ring *ring, uint32_t mask)
{
atomic_fetch_and_explicit(ring->shared.status, ~mask,
memory_order_seq_cst);
}
static void
vn_ring_write_buffer(struct vn_ring *ring, const void *data, uint32_t size)
{
assert(ring->cur + size - vn_ring_load_head(ring) <= ring->buffer_size);
const uint32_t offset = ring->cur & ring->buffer_mask;
if (offset + size <= ring->buffer_size) {
memcpy(ring->shared.buffer + offset, data, size);
} else {
const uint32_t s = ring->buffer_size - offset;
memcpy(ring->shared.buffer + offset, data, s);
memcpy(ring->shared.buffer, data + s, size - s);
}
ring->cur += size;
}
static bool
vn_ring_ge_seqno(const struct vn_ring *ring, uint32_t a, uint32_t b)
{
/* this can return false negative when not called fast enough (e.g., when
* called once every couple hours), but following calls with larger a's
* will correct itself
*
* TODO use real seqnos?
*/
if (a >= b)
return ring->cur >= a || ring->cur < b;
else
return ring->cur >= a && ring->cur < b;
}
static void
vn_ring_retire_submits(struct vn_ring *ring, uint32_t seqno)
{
list_for_each_entry_safe(struct vn_ring_submit, submit, &ring->submits,
head) {
if (!vn_ring_ge_seqno(ring, seqno, submit->seqno))
break;
for (uint32_t i = 0; i < submit->shmem_count; i++)
vn_renderer_shmem_unref(ring->renderer, submit->shmems[i]);
list_del(&submit->head);
list_add(&submit->head, &ring->free_submits);
}
}
static uint32_t
vn_ring_wait_seqno(struct vn_ring *ring, uint32_t seqno)
{
/* A renderer wait incurs several hops and the renderer might poll
* repeatedly anyway. Let's just poll here.
*/
struct vn_relax_state relax_state = vn_relax_init(ring, "ring seqno");
do {
const uint32_t head = vn_ring_load_head(ring);
if (vn_ring_ge_seqno(ring, head, seqno)) {
vn_relax_fini(&relax_state);
return head;
}
vn_relax(&relax_state);
} while (true);
}
static bool
vn_ring_has_space(const struct vn_ring *ring,
uint32_t size,
uint32_t *out_head)
{
const uint32_t head = vn_ring_load_head(ring);
if (likely(ring->cur + size - head <= ring->buffer_size)) {
*out_head = head;
return true;
}
return false;
}
static uint32_t
vn_ring_wait_space(struct vn_ring *ring, uint32_t size)
{
assert(size <= ring->buffer_size);
uint32_t head;
if (likely(vn_ring_has_space(ring, size, &head)))
return head;
{
VN_TRACE_FUNC();
/* see the reasoning in vn_ring_wait_seqno */
struct vn_relax_state relax_state = vn_relax_init(ring, "ring space");
do {
vn_relax(&relax_state);
if (vn_ring_has_space(ring, size, &head)) {
vn_relax_fini(&relax_state);
return head;
}
} while (true);
}
}
void
vn_ring_get_layout(size_t buf_size,
size_t extra_size,
struct vn_ring_layout *layout)
{
/* this can be changed/extended quite freely */
struct layout {
uint32_t head __attribute__((aligned(64)));
uint32_t tail __attribute__((aligned(64)));
uint32_t status __attribute__((aligned(64)));
uint8_t buffer[] __attribute__((aligned(64)));
};
assert(buf_size && util_is_power_of_two_or_zero(buf_size));
layout->head_offset = offsetof(struct layout, head);
layout->tail_offset = offsetof(struct layout, tail);
layout->status_offset = offsetof(struct layout, status);
layout->buffer_offset = offsetof(struct layout, buffer);
layout->buffer_size = buf_size;
layout->extra_offset = layout->buffer_offset + layout->buffer_size;
layout->extra_size = extra_size;
layout->shmem_size = layout->extra_offset + layout->extra_size;
}
void
vn_ring_init(struct vn_ring *ring,
struct vn_renderer *renderer,
const struct vn_ring_layout *layout,
void *shared)
{
memset(ring, 0, sizeof(*ring));
memset(shared, 0, layout->shmem_size);
ring->renderer = renderer;
assert(layout->buffer_size &&
util_is_power_of_two_or_zero(layout->buffer_size));
ring->buffer_size = layout->buffer_size;
ring->buffer_mask = ring->buffer_size - 1;
ring->shared.head = shared + layout->head_offset;
ring->shared.tail = shared + layout->tail_offset;
ring->shared.status = shared + layout->status_offset;
ring->shared.buffer = shared + layout->buffer_offset;
ring->shared.extra = shared + layout->extra_offset;
list_inithead(&ring->submits);
list_inithead(&ring->free_submits);
}
void
vn_ring_fini(struct vn_ring *ring)
{
vn_ring_retire_submits(ring, ring->cur);
assert(list_is_empty(&ring->submits));
list_for_each_entry_safe(struct vn_ring_submit, submit,
&ring->free_submits, head)
free(submit);
if (ring->monitor.report_period_us)
mtx_destroy(&ring->monitor.mutex);
}
struct vn_ring_submit *
vn_ring_get_submit(struct vn_ring *ring, uint32_t shmem_count)
{
const uint32_t min_shmem_count = 2;
struct vn_ring_submit *submit;
/* TODO this could be simplified if we could omit shmem_count */
if (shmem_count <= min_shmem_count &&
!list_is_empty(&ring->free_submits)) {
submit =
list_first_entry(&ring->free_submits, struct vn_ring_submit, head);
list_del(&submit->head);
} else {
shmem_count = MAX2(shmem_count, min_shmem_count);
submit =
malloc(sizeof(*submit) + sizeof(submit->shmems[0]) * shmem_count);
}
return submit;
}
bool
vn_ring_submit(struct vn_ring *ring,
struct vn_ring_submit *submit,
const struct vn_cs_encoder *cs,
uint32_t *seqno)
{
/* write cs to the ring */
assert(!vn_cs_encoder_is_empty(cs));
uint32_t cur_seqno;
for (uint32_t i = 0; i < cs->buffer_count; i++) {
const struct vn_cs_encoder_buffer *buf = &cs->buffers[i];
cur_seqno = vn_ring_wait_space(ring, buf->committed_size);
vn_ring_write_buffer(ring, buf->base, buf->committed_size);
}
vn_ring_store_tail(ring);
const VkRingStatusFlagsMESA status = vn_ring_load_status(ring);
if (status & VK_RING_STATUS_FATAL_BIT_MESA) {
vn_log(NULL, "vn_ring_submit abort on fatal");
abort();
}
vn_ring_retire_submits(ring, cur_seqno);
submit->seqno = ring->cur;
list_addtail(&submit->head, &ring->submits);
*seqno = submit->seqno;
/* notify renderer to wake up ring if idle */
return status & VK_RING_STATUS_IDLE_BIT_MESA;
}
/**
* This is thread-safe.
*/
void
vn_ring_wait(struct vn_ring *ring, uint32_t seqno)
{
vn_ring_wait_seqno(ring, seqno);
}
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