You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 
virglrenderer/server/render_context.c

464 lines
14 KiB

/*
* Copyright 2021 Google LLC
* SPDX-License-Identifier: MIT
*/
#include "render_context.h"
#include <sys/mman.h>
#include "util/u_thread.h"
#include "virgl_util.h"
#include "virglrenderer.h"
#include "vrend_iov.h"
#include "render_virgl.h"
/* XXX we need a unique res_id to export a blob
*
* virglrenderer.h does not have the right APIs for us. We should use vkr
* (and vrend, if that makes sense) directly.
*/
#define BLOB_RES_ID (~0u)
static int
render_context_import_blob(uint32_t res_id,
enum virgl_resource_fd_type fd_type,
int res_fd,
uint64_t size)
{
uint32_t import_fd_type;
switch (fd_type) {
case VIRGL_RESOURCE_FD_DMABUF:
import_fd_type = VIRGL_RENDERER_BLOB_FD_TYPE_DMABUF;
break;
case VIRGL_RESOURCE_FD_OPAQUE:
import_fd_type = VIRGL_RENDERER_BLOB_FD_TYPE_OPAQUE;
break;
case VIRGL_RESOURCE_FD_SHM:
import_fd_type = VIRGL_RENDERER_BLOB_FD_TYPE_SHM;
break;
default:
import_fd_type = 0;
break;
}
const struct virgl_renderer_resource_import_blob_args import_args = {
.res_handle = res_id,
.blob_mem = VIRGL_RENDERER_BLOB_MEM_HOST3D,
.fd_type = import_fd_type,
.fd = res_fd,
.size = size,
};
return virgl_renderer_resource_import_blob(&import_args);
}
void
render_context_update_timeline(struct render_context *ctx,
uint32_t ring_idx,
uint32_t seqno)
{
/* this can be called by the context's main thread and sync threads */
atomic_store(&ctx->shmem_timelines[ring_idx], seqno);
if (ctx->fence_eventfd >= 0)
write_eventfd(ctx->fence_eventfd, 1);
}
static bool
render_context_init_virgl_context(struct render_context *ctx,
const struct render_context_op_init_request *req,
int shmem_fd,
int fence_eventfd)
{
const int timeline_count = req->shmem_size / sizeof(*ctx->shmem_timelines);
void *shmem_ptr = mmap(NULL, req->shmem_size, PROT_WRITE, MAP_SHARED, shmem_fd, 0);
if (shmem_ptr == MAP_FAILED)
return false;
int ret = virgl_renderer_context_create_with_flags(ctx->ctx_id, req->flags,
ctx->name_len, ctx->name);
if (ret) {
munmap(shmem_ptr, req->shmem_size);
return false;
}
ctx->shmem_fd = shmem_fd;
ctx->shmem_size = req->shmem_size;
ctx->shmem_ptr = shmem_ptr;
ctx->shmem_timelines = shmem_ptr;
for (int i = 0; i < timeline_count; i++)
atomic_store(&ctx->shmem_timelines[i], 0);
ctx->timeline_count = timeline_count;
ctx->fence_eventfd = fence_eventfd;
return true;
}
static bool
render_context_export_blob(struct render_context *ctx,
const struct render_context_op_get_blob_request *req,
enum virgl_resource_fd_type *out_fd_type,
uint32_t *out_map_info,
int *out_res_fd)
{
const uint32_t res_id = BLOB_RES_ID;
const struct virgl_renderer_resource_create_blob_args blob_args = {
.res_handle = res_id,
.ctx_id = ctx->ctx_id,
.blob_mem = VIRGL_RENDERER_BLOB_MEM_HOST3D,
.blob_flags = req->blob_flags,
.blob_id = req->blob_id,
.size = req->blob_size,
};
int ret = virgl_renderer_resource_create_blob(&blob_args);
if (ret) {
render_log("failed to create blob resource");
return false;
}
uint32_t map_info;
ret = virgl_renderer_resource_get_map_info(res_id, &map_info);
if (ret) {
/* properly set map_info when the resource has no map cache info */
map_info = VIRGL_RENDERER_MAP_CACHE_NONE;
}
uint32_t fd_type;
int res_fd;
ret = virgl_renderer_resource_export_blob(res_id, &fd_type, &res_fd);
virgl_renderer_resource_unref(res_id);
if (ret)
return false;
switch (fd_type) {
case VIRGL_RENDERER_BLOB_FD_TYPE_DMABUF:
*out_fd_type = VIRGL_RESOURCE_FD_DMABUF;
break;
case VIRGL_RENDERER_BLOB_FD_TYPE_OPAQUE:
*out_fd_type = VIRGL_RESOURCE_FD_OPAQUE;
break;
case VIRGL_RENDERER_BLOB_FD_TYPE_SHM:
*out_fd_type = VIRGL_RESOURCE_FD_SHM;
break;
default:
*out_fd_type = 0;
}
*out_map_info = map_info;
*out_res_fd = res_fd;
return true;
}
static bool
render_context_dispatch_submit_fence(struct render_context *ctx,
const union render_context_op_request *req,
UNUSED const int *fds,
UNUSED int fd_count)
{
/* always merge fences */
assert(!(req->submit_fence.flags & ~VIRGL_RENDERER_FENCE_FLAG_MERGEABLE));
const uint32_t flags = VIRGL_RENDERER_FENCE_FLAG_MERGEABLE;
const uint32_t ring_idx = req->submit_fence.ring_index;
const uint32_t seqno = req->submit_fence.seqno;
assert(ring_idx < (uint32_t)ctx->timeline_count);
int ret = virgl_renderer_context_create_fence(ctx->ctx_id, flags, ring_idx,
uintptr_to_pointer(seqno));
return !ret;
}
static bool
render_context_dispatch_submit_cmd(struct render_context *ctx,
const union render_context_op_request *req,
UNUSED const int *fds,
UNUSED int fd_count)
{
const int ndw = req->submit_cmd.size / sizeof(uint32_t);
void *cmd = (void *)req->submit_cmd.cmd;
if (req->submit_cmd.size > sizeof(req->submit_cmd.cmd)) {
cmd = malloc(req->submit_cmd.size);
if (!cmd)
return true;
const size_t inlined = sizeof(req->submit_cmd.cmd);
const size_t remain = req->submit_cmd.size - inlined;
memcpy(cmd, req->submit_cmd.cmd, inlined);
if (!render_socket_receive_data(&ctx->socket, (char *)cmd + inlined, remain)) {
free(cmd);
return false;
}
}
int ret = virgl_renderer_submit_cmd(cmd, ctx->ctx_id, ndw);
if (cmd != req->submit_cmd.cmd)
free(cmd);
const struct render_context_op_submit_cmd_reply reply = {
.ok = !ret,
};
if (!render_socket_send_reply(&ctx->socket, &reply, sizeof(reply)))
return false;
return true;
}
static bool
render_context_dispatch_get_blob(struct render_context *ctx,
const union render_context_op_request *req,
UNUSED const int *fds,
UNUSED int fd_count)
{
struct render_context_op_get_blob_reply reply = {
.fd_type = VIRGL_RESOURCE_FD_INVALID,
};
int res_fd;
bool ok = render_context_export_blob(ctx, &req->get_blob, &reply.fd_type,
&reply.map_info, &res_fd);
if (!ok)
return render_socket_send_reply(&ctx->socket, &reply, sizeof(reply));
ok =
render_socket_send_reply_with_fds(&ctx->socket, &reply, sizeof(reply), &res_fd, 1);
close(res_fd);
return ok;
}
static bool
render_context_dispatch_detach_resource(UNUSED struct render_context *ctx,
const union render_context_op_request *req,
UNUSED const int *fds,
UNUSED int fd_count)
{
virgl_renderer_resource_unref(req->detach_resource.res_id);
return true;
}
static bool
render_context_dispatch_attach_resource(struct render_context *ctx,
const union render_context_op_request *req,
const int *fds,
int fd_count)
{
const uint32_t res_id = req->attach_resource.res_id;
const enum virgl_resource_fd_type fd_type = req->attach_resource.fd_type;
const uint64_t size = req->attach_resource.size;
if (res_id == BLOB_RES_ID) {
render_log("XXX res_id is %u, which is reserved for blob export", res_id);
return false;
}
if (fd_type == VIRGL_RESOURCE_FD_INVALID || !size || fd_count != 1) {
render_log("failed to attach invalid resource %d", res_id);
return false;
}
/* classic 3d resource with valid size reuses the blob import path here */
int ret = render_context_import_blob(res_id, fd_type, fds[0], size);
if (ret) {
render_log("failed to import resource %d (%d)", res_id, ret);
return false;
}
virgl_renderer_ctx_attach_resource(ctx->ctx_id, res_id);
return true;
}
static bool
render_context_dispatch_init(struct render_context *ctx,
const union render_context_op_request *req,
const int *fds,
int fd_count)
{
if (fd_count != 1 && fd_count != 2)
return false;
const int shmem_fd = fds[0];
const int fence_eventfd = fd_count == 2 ? fds[1] : -1;
return render_context_init_virgl_context(ctx, &req->init, shmem_fd, fence_eventfd);
}
static bool
render_context_dispatch_nop(UNUSED struct render_context *ctx,
UNUSED const union render_context_op_request *req,
UNUSED const int *fds,
UNUSED int fd_count)
{
return true;
}
struct render_context_dispatch_entry {
size_t expect_size;
int max_fd_count;
bool (*dispatch)(struct render_context *ctx,
const union render_context_op_request *req,
const int *fds,
int fd_count);
};
static const struct render_context_dispatch_entry
render_context_dispatch_table[RENDER_CONTEXT_OP_COUNT] = {
#define RENDER_CONTEXT_DISPATCH(NAME, name, max_fd) \
[RENDER_CONTEXT_OP_## \
NAME] = { .expect_size = sizeof(struct render_context_op_##name##_request), \
.max_fd_count = (max_fd), \
.dispatch = render_context_dispatch_##name }
RENDER_CONTEXT_DISPATCH(NOP, nop, 0),
RENDER_CONTEXT_DISPATCH(INIT, init, 2),
RENDER_CONTEXT_DISPATCH(ATTACH_RESOURCE, attach_resource, 1),
RENDER_CONTEXT_DISPATCH(DETACH_RESOURCE, detach_resource, 0),
RENDER_CONTEXT_DISPATCH(GET_BLOB, get_blob, 0),
RENDER_CONTEXT_DISPATCH(SUBMIT_CMD, submit_cmd, 0),
RENDER_CONTEXT_DISPATCH(SUBMIT_FENCE, submit_fence, 0),
#undef RENDER_CONTEXT_DISPATCH
};
static bool
render_context_dispatch(struct render_context *ctx)
{
union render_context_op_request req;
size_t req_size;
int req_fds[8];
int req_fd_count;
if (!render_socket_receive_request_with_fds(&ctx->socket, &req, sizeof(req), &req_size,
req_fds, ARRAY_SIZE(req_fds),
&req_fd_count))
return false;
assert((unsigned int)req_fd_count <= ARRAY_SIZE(req_fds));
if (req.header.op >= RENDER_CONTEXT_OP_COUNT) {
render_log("invalid context op %d", req.header.op);
goto fail;
}
const struct render_context_dispatch_entry *entry =
&render_context_dispatch_table[req.header.op];
if (entry->expect_size != req_size || entry->max_fd_count < req_fd_count) {
render_log("invalid request size (%zu) or fd count (%d) for context op %d",
req_size, req_fd_count, req.header.op);
goto fail;
}
render_virgl_lock_dispatch();
const bool ok = entry->dispatch(ctx, &req, req_fds, req_fd_count);
render_virgl_unlock_dispatch();
if (!ok) {
render_log("failed to dispatch context op %d", req.header.op);
goto fail;
}
return true;
fail:
for (int i = 0; i < req_fd_count; i++)
close(req_fds[i]);
return false;
}
static bool
render_context_run(struct render_context *ctx)
{
while (true) {
if (!render_context_dispatch(ctx))
return false;
}
return true;
}
static void
render_context_fini(struct render_context *ctx)
{
render_virgl_lock_dispatch();
/* destroy the context first to join its sync threads and ring threads */
virgl_renderer_context_destroy(ctx->ctx_id);
render_virgl_unlock_dispatch();
render_virgl_remove_context(ctx);
if (ctx->shmem_ptr)
munmap(ctx->shmem_ptr, ctx->shmem_size);
if (ctx->shmem_fd >= 0)
close(ctx->shmem_fd);
if (ctx->fence_eventfd >= 0)
close(ctx->fence_eventfd);
if (ctx->name)
free(ctx->name);
render_socket_fini(&ctx->socket);
}
static bool
render_context_init_name(struct render_context *ctx,
uint32_t ctx_id,
const char *ctx_name)
{
const size_t name_size = strlen(ctx_name) + 16;
ctx->name = malloc(name_size);
if (!ctx->name)
return false;
ctx->name_len = snprintf(ctx->name, name_size, "virgl-%d-%s", ctx_id, ctx_name);
if (ctx->name_len >= name_size)
ctx->name_len = name_size - 1;
u_thread_setname(ctx->name);
return true;
}
static bool
render_context_init(struct render_context *ctx, const struct render_context_args *args)
{
memset(ctx, 0, sizeof(*ctx));
ctx->ctx_id = args->ctx_id;
render_socket_init(&ctx->socket, args->ctx_fd);
ctx->shmem_fd = -1;
ctx->fence_eventfd = -1;
if (!render_context_init_name(ctx, args->ctx_id, args->ctx_name))
return false;
render_virgl_add_context(ctx);
return true;
}
bool
render_context_main(const struct render_context_args *args)
{
struct render_context ctx;
assert(args->valid && args->ctx_id && args->ctx_fd >= 0);
if (!render_virgl_init(args->init_flags)) {
close(args->ctx_fd);
return false;
}
if (!render_context_init(&ctx, args)) {
render_virgl_fini();
close(args->ctx_fd);
return false;
}
const bool ok = render_context_run(&ctx);
render_context_fini(&ctx);
render_virgl_fini();
return ok;
}