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virglrenderer/src/vkr_renderer.c

4145 lines
148 KiB

/*
* Copyright 2020 Google LLC
* SPDX-License-Identifier: MIT
*/
#include "vkr_renderer.h"
#include <assert.h>
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include "c11/threads.h"
#include "pipe/p_state.h"
#include "util/u_double_list.h"
#include "util/u_hash_table.h"
#include "util/u_math.h"
#include "util/u_memory.h"
#include "util/u_pointer.h"
#include "venus-protocol/vn_protocol_renderer.h"
#include "virgl_context.h"
#include "virgl_protocol.h" /* for transfer_mode */
#include "virgl_resource.h"
#include "virgl_util.h"
#include "virglrenderer.h"
#include "virglrenderer_hw.h"
#include "vkr_cs.h"
#include "vkr_object.h"
#include "vkr_ring.h"
#include "vrend_debug.h"
#include "vrend_iov.h"
/*
* TODO what extensions do we need from the host driver?
*
* We don't check vkGetPhysicalDeviceExternalBufferProperties, etc. yet. Even
* if we did, silently adding external memory info to vkCreateBuffer or
* vkCreateImage could change the results of vkGetBufferMemoryRequirements or
* vkGetImageMemoryRequirements and confuse the guest.
*/
#define FORCE_ENABLE_DMABUF
/*
* TODO Most of the functions are generated. Some of them are then
* hand-edited. Find a better/cleaner way to reduce manual works.
*/
#define CREATE_OBJECT(obj, vkr_type, vk_obj, vk_cmd, vk_arg) \
struct vkr_ ## vkr_type *obj = calloc(1, sizeof(*obj)); \
if (!obj) { \
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY; \
return; \
} \
obj->base.type = VK_OBJECT_TYPE_ ## vk_obj; \
obj->base.id = vkr_cs_handle_load_id( \
(const void **)args->vk_arg, obj->base.type); \
\
vn_replace_ ## vk_cmd ## _args_handle(args); \
args->ret = vk_cmd(args->device, args->pCreateInfo, NULL, \
&obj->base.handle.vkr_type); \
if (args->ret != VK_SUCCESS) { \
free(obj); \
return; \
} \
(void)obj
#define DESTROY_OBJECT(obj, vkr_type, vk_obj, vk_cmd, vk_arg) \
struct vkr_ ## vkr_type *obj = \
(struct vkr_ ## vkr_type *)(uintptr_t)args->vk_arg; \
if (!obj || obj->base.type != VK_OBJECT_TYPE_ ## vk_obj) { \
if (obj) \
vkr_cs_decoder_set_fatal(&ctx->decoder); \
return; \
} \
\
vn_replace_ ## vk_cmd ## _args_handle(args); \
vk_cmd(args->device, args->vk_arg, NULL)
struct vkr_physical_device;
struct vkr_instance {
struct vkr_object base;
uint32_t api_version;
PFN_vkGetMemoryFdKHR get_memory_fd;
PFN_vkGetFenceFdKHR get_fence_fd;
uint32_t physical_device_count;
VkPhysicalDevice *physical_device_handles;
struct vkr_physical_device **physical_devices;
};
struct vkr_physical_device {
struct vkr_object base;
VkPhysicalDeviceProperties properties;
uint32_t api_version;
VkExtensionProperties *extensions;
uint32_t extension_count;
VkPhysicalDeviceMemoryProperties memory_properties;
bool KHR_external_memory_fd;
bool EXT_external_memory_dma_buf;
bool KHR_external_fence_fd;
};
struct vkr_queue_sync {
VkFence fence;
uint32_t flags;
void *fence_cookie;
struct list_head head;
};
struct vkr_device {
struct vkr_object base;
struct vkr_physical_device *physical_device;
/* Vulkan 1.2 */
PFN_vkGetSemaphoreCounterValue GetSemaphoreCounterValue;
PFN_vkWaitSemaphores WaitSemaphores;
PFN_vkSignalSemaphore SignalSemaphore;
PFN_vkGetDeviceMemoryOpaqueCaptureAddress GetDeviceMemoryOpaqueCaptureAddress;
PFN_vkGetBufferOpaqueCaptureAddress GetBufferOpaqueCaptureAddress;
PFN_vkGetBufferDeviceAddress GetBufferDeviceAddress;
PFN_vkResetQueryPool ResetQueryPool;
PFN_vkCreateRenderPass2 CreateRenderPass2;
PFN_vkCmdBeginRenderPass2 CmdBeginRenderPass2;
PFN_vkCmdNextSubpass2 CmdNextSubpass2;
PFN_vkCmdEndRenderPass2 CmdEndRenderPass2;
PFN_vkCmdDrawIndirectCount CmdDrawIndirectCount;
PFN_vkCmdDrawIndexedIndirectCount CmdDrawIndexedIndirectCount;
PFN_vkCmdBindTransformFeedbackBuffersEXT cmd_bind_transform_feedback_buffers;
PFN_vkCmdBeginTransformFeedbackEXT cmd_begin_transform_feedback;
PFN_vkCmdEndTransformFeedbackEXT cmd_end_transform_feedback;
PFN_vkCmdBeginQueryIndexedEXT cmd_begin_query_indexed;
PFN_vkCmdEndQueryIndexedEXT cmd_end_query_indexed;
PFN_vkCmdDrawIndirectByteCountEXT cmd_draw_indirect_byte_count;
PFN_vkGetImageDrmFormatModifierPropertiesEXT get_image_drm_format_modifier_properties;
PFN_vkGetMemoryFdPropertiesKHR get_memory_fd_properties;
struct list_head queues;
struct list_head free_syncs;
};
struct vkr_queue {
struct vkr_object base;
struct vkr_device *device;
uint32_t family;
uint32_t index;
bool has_thread;
int eventfd;
thrd_t thread;
mtx_t mutex;
cnd_t cond;
bool join;
struct list_head pending_syncs;
struct list_head signaled_syncs;
struct list_head head;
struct list_head busy_head;
};
struct vkr_device_memory {
struct vkr_object base;
VkDevice device;
uint32_t property_flags;
uint32_t valid_fd_types;
bool exported;
uint32_t exported_res_id;
struct list_head head;
};
struct vkr_fence {
struct vkr_object base;
};
struct vkr_semaphore {
struct vkr_object base;
};
struct vkr_buffer {
struct vkr_object base;
};
struct vkr_buffer_view {
struct vkr_object base;
};
struct vkr_image {
struct vkr_object base;
};
struct vkr_image_view {
struct vkr_object base;
};
struct vkr_sampler {
struct vkr_object base;
};
struct vkr_sampler_ycbcr_conversion {
struct vkr_object base;
};
struct vkr_descriptor_set_layout {
struct vkr_object base;
};
struct vkr_descriptor_pool {
struct vkr_object base;
struct list_head descriptor_sets;
};
struct vkr_descriptor_set {
struct vkr_object base;
struct list_head head;
};
struct vkr_descriptor_update_template {
struct vkr_object base;
};
struct vkr_render_pass {
struct vkr_object base;
};
struct vkr_framebuffer {
struct vkr_object base;
};
struct vkr_event {
struct vkr_object base;
};
struct vkr_query_pool {
struct vkr_object base;
};
struct vkr_shader_module {
struct vkr_object base;
};
struct vkr_pipeline_layout {
struct vkr_object base;
};
struct vkr_pipeline_cache {
struct vkr_object base;
};
struct vkr_pipeline {
struct vkr_object base;
};
struct vkr_command_pool {
struct vkr_object base;
struct list_head command_buffers;
};
struct vkr_command_buffer {
struct vkr_object base;
struct vkr_device *device;
struct list_head head;
};
/*
* When a virgl_resource is attached in vkr_context_attach_resource, a
* vkr_resource_attachment is created. A vkr_resource_attachment is valid
* until the resource it tracks is detached.
*
* To support transfers to resources not backed by coherent dma-bufs, we
* associate a vkr_resource_attachment with a (list of) vkr_device_memory.
* This way, we can find a vkr_device_memory from a vkr_resource_attachment
* and do transfers using VkDeviceMemory.
*/
struct vkr_resource_attachment {
struct virgl_resource *resource;
struct list_head memories;
};
struct vkr_context {
struct virgl_context base;
char *debug_name;
mtx_t mutex;
struct list_head rings;
struct util_hash_table_u64 *object_table;
struct util_hash_table *resource_table;
struct list_head newly_exported_memories;
struct vkr_cs_encoder encoder;
struct vkr_cs_decoder decoder;
struct vn_dispatch_context dispatch;
int fence_eventfd;
struct list_head busy_queues;
struct vkr_instance *instance;
};
static uint32_t vkr_renderer_flags;
struct object_array {
uint32_t count;
void **objects;
void *handle_storage;
/* true if the ownership of the objects has been transferred (to
* vkr_context::object_table)
*/
bool objects_stolen;
};
static void
object_array_fini(struct object_array *arr)
{
if (!arr->objects_stolen) {
for (uint32_t i = 0; i < arr->count; i++)
free(arr->objects[i]);
}
free(arr->objects);
free(arr->handle_storage);
}
static bool
object_array_init(struct object_array *arr,
uint32_t count,
VkObjectType obj_type,
size_t obj_size,
size_t handle_size,
const void *handles)
{
arr->count = count;
arr->objects = malloc(sizeof(*arr->objects) * count);
if (!arr->objects)
return false;
arr->handle_storage = malloc(handle_size * count);
if (!arr->handle_storage) {
free(arr->objects);
return false;
}
arr->objects_stolen = false;
for (uint32_t i = 0; i < count; i++) {
struct vkr_object *obj = calloc(1, obj_size);
if (!obj) {
arr->count = i;
object_array_fini(arr);
return false;
}
obj->type = obj_type;
obj->id = vkr_cs_handle_load_id(
(const void **)((char *)handles + handle_size * i), obj->type);
arr->objects[i] = obj;
}
return arr;
}
static void
vkr_dispatch_vkSetReplyCommandStreamMESA(struct vn_dispatch_context *dispatch, struct vn_command_vkSetReplyCommandStreamMESA *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_resource_attachment *att;
att = util_hash_table_get(ctx->resource_table,
uintptr_to_pointer(args->pStream->resourceId));
if (!att)
return;
vkr_cs_encoder_set_stream(&ctx->encoder,
att->resource->iov,
att->resource->iov_count,
args->pStream->offset,
args->pStream->size);
}
static void
vkr_dispatch_vkSeekReplyCommandStreamMESA(struct vn_dispatch_context *dispatch, struct vn_command_vkSeekReplyCommandStreamMESA *args)
{
struct vkr_context *ctx = dispatch->data;
vkr_cs_encoder_seek_stream(&ctx->encoder, args->position);
}
static void *
copy_command_stream(struct vkr_context *ctx,
const VkCommandStreamDescriptionMESA *stream)
{
struct vkr_resource_attachment *att;
struct virgl_resource *res;
att = util_hash_table_get(ctx->resource_table,
uintptr_to_pointer(stream->resourceId));
if (!att)
return NULL;
res = att->resource;
/* seek to offset */
size_t iov_offset = stream->offset;
const struct iovec *iov = NULL;
for (int i = 0; i < res->iov_count; i++) {
if (iov_offset < res->iov[i].iov_len) {
iov = &res->iov[i];
break;
}
iov_offset -= res->iov[i].iov_len;
}
if (!iov)
return NULL;
/* XXX until the decoder supports scatter-gather and is robust enough,
* always make a copy in case the caller modifies the commands while we
* parse
*/
uint8_t *data = malloc(stream->size);
if (!data)
return NULL;
uint32_t copied = 0;
while (true) {
const size_t s = MIN2(stream->size - copied, iov->iov_len - iov_offset);
memcpy(data + copied, (const uint8_t *)iov->iov_base + iov_offset, s);
copied += s;
if (copied == stream->size) {
break;
} else if (iov == &res->iov[res->iov_count - 1]) {
free(data);
return NULL;
}
iov++;
iov_offset = 0;
}
return data;
}
static void
vkr_dispatch_vkExecuteCommandStreamsMESA(struct vn_dispatch_context *dispatch, struct vn_command_vkExecuteCommandStreamsMESA *args)
{
struct vkr_context *ctx = dispatch->data;
/* note that nested vkExecuteCommandStreamsMESA is not allowed */
if (!vkr_cs_decoder_push_state(&ctx->decoder)) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
for (uint32_t i = 0; i < args->streamCount; i++) {
const VkCommandStreamDescriptionMESA *stream = &args->pStreams[i];
if (args->pReplyPositions)
vkr_cs_encoder_seek_stream(&ctx->encoder, args->pReplyPositions[i]);
if (!stream->size)
continue;
void *data = copy_command_stream(ctx, stream);
if (!data) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
break;
}
vkr_cs_decoder_set_stream(&ctx->decoder, data, stream->size);
while (vkr_cs_decoder_has_command(&ctx->decoder)) {
vn_dispatch_command(&ctx->dispatch);
if (vkr_cs_decoder_get_fatal(&ctx->decoder))
break;
}
free(data);
if (vkr_cs_decoder_get_fatal(&ctx->decoder))
break;
}
vkr_cs_decoder_pop_state(&ctx->decoder);
}
static struct vkr_ring *
lookup_ring(struct vkr_context *ctx, uint64_t ring_id)
{
struct vkr_ring *ring;
LIST_FOR_EACH_ENTRY(ring, &ctx->rings, head) {
if (ring->id == ring_id)
return ring;
}
return NULL;
}
static void
vkr_dispatch_vkCreateRingMESA(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateRingMESA *args)
{
struct vkr_context *ctx = dispatch->data;
const VkRingCreateInfoMESA *info = args->pCreateInfo;
const struct vkr_resource_attachment *att;
uint8_t *shared;
size_t size;
struct vkr_ring *ring;
att = util_hash_table_get(ctx->resource_table,
uintptr_to_pointer(info->resourceId));
if (!att) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
/* TODO support scatter-gather or require logically contiguous resources */
if (att->resource->iov_count != 1) {
vrend_printf("vkr: no scatter-gather support for ring buffers (TODO)");
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
shared = att->resource->iov[0].iov_base;
size = att->resource->iov[0].iov_len;
if (info->offset > size || info->size > size - info->offset) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
shared += info->offset;
size = info->size;
if (info->headOffset > size ||
info->tailOffset > size ||
info->statusOffset > size ||
info->bufferOffset > size ||
info->extraOffset > size) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
if (sizeof(uint32_t) > size - info->headOffset ||
sizeof(uint32_t) > size - info->tailOffset ||
sizeof(uint32_t) > size - info->statusOffset ||
info->bufferSize > size - info->bufferOffset ||
info->extraSize > size - info->extraOffset) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
if (!info->bufferSize || !util_is_power_of_two(info->bufferSize)) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
const struct vkr_ring_layout layout = {
.head_offset = info->headOffset,
.tail_offset = info->tailOffset,
.status_offset = info->statusOffset,
.buffer_offset = info->bufferOffset,
.buffer_size = info->bufferSize,
.extra_offset = info->extraOffset,
.extra_size = info->extraSize,
};
ring = vkr_ring_create(&layout, shared, &ctx->base, info->idleTimeout);
if (!ring) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
ring->id = args->ring;
list_addtail(&ring->head, &ctx->rings);
vkr_ring_start(ring);
}
static void
vkr_dispatch_vkDestroyRingMESA(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyRingMESA *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_ring *ring = lookup_ring(ctx, args->ring);
if (!ring || !vkr_ring_stop(ring)) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
list_del(&ring->head);
vkr_ring_destroy(ring);
}
static void
vkr_dispatch_vkNotifyRingMESA(struct vn_dispatch_context *dispatch, struct vn_command_vkNotifyRingMESA *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_ring *ring = lookup_ring(ctx, args->ring);
if (!ring) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vkr_ring_notify(ring);
}
static void
vkr_dispatch_vkWriteRingExtraMESA(struct vn_dispatch_context *dispatch, struct vn_command_vkWriteRingExtraMESA *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_ring *ring = lookup_ring(ctx, args->ring);
if (!ring) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
if (!vkr_ring_write_extra(ring, args->offset, args->value))
vkr_cs_decoder_set_fatal(&ctx->decoder);
}
static void
vkr_dispatch_vkEnumerateInstanceVersion(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkEnumerateInstanceVersion *args)
{
vn_replace_vkEnumerateInstanceVersion_args_handle(args);
args->ret = vkEnumerateInstanceVersion(args->pApiVersion);
}
static void
vkr_dispatch_vkEnumerateInstanceExtensionProperties(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkEnumerateInstanceExtensionProperties *args)
{
VkExtensionProperties private_extensions[] = {
{
.extensionName = "VK_EXT_command_serialization",
},
{
.extensionName = "VK_MESA_venus_protocol",
},
};
if (!args->pProperties) {
*args->pPropertyCount = ARRAY_SIZE(private_extensions);
args->ret = VK_SUCCESS;
return;
}
for (uint32_t i = 0; i < ARRAY_SIZE(private_extensions); i++) {
VkExtensionProperties *props = &private_extensions[i];
props->specVersion = vn_info_extension_spec_version(props->extensionName);
}
const uint32_t count =
MIN2(*args->pPropertyCount, ARRAY_SIZE(private_extensions));
memcpy(args->pProperties, private_extensions, sizeof(*args->pProperties) * count);
*args->pPropertyCount = count;
args->ret = count == ARRAY_SIZE(private_extensions) ? VK_SUCCESS : VK_INCOMPLETE;
}
static void
vkr_dispatch_vkCreateInstance(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateInstance *args)
{
struct vkr_context *ctx = dispatch->data;
if (ctx->instance) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
if (args->pCreateInfo->enabledExtensionCount) {
args->ret = VK_ERROR_EXTENSION_NOT_PRESENT;
return;
}
struct vkr_instance *instance = calloc(1, sizeof(*instance));
if (!instance) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
return;
}
uint32_t instance_version;
args->ret = vkEnumerateInstanceVersion(&instance_version);
if (args->ret != VK_SUCCESS) {
free(instance);
return;
}
/* require Vulkan 1.1 */
if (instance_version < VK_API_VERSION_1_1) {
args->ret = VK_ERROR_INITIALIZATION_FAILED;
return;
}
VkApplicationInfo app_info = {
.sType = VK_STRUCTURE_TYPE_APPLICATION_INFO,
.apiVersion = VK_API_VERSION_1_1,
};
if (args->pCreateInfo->pApplicationInfo) {
app_info = *args->pCreateInfo->pApplicationInfo;
if (app_info.apiVersion < VK_API_VERSION_1_1)
app_info.apiVersion = VK_API_VERSION_1_1;
}
((VkInstanceCreateInfo *)args->pCreateInfo)->pApplicationInfo = &app_info;
instance->base.type = VK_OBJECT_TYPE_INSTANCE;
instance->base.id = vkr_cs_handle_load_id((const void **)args->pInstance,
instance->base.type);
instance->api_version = app_info.apiVersion;
vn_replace_vkCreateInstance_args_handle(args);
args->ret = vkCreateInstance(args->pCreateInfo, NULL, &instance->base.handle.instance);
if (args->ret != VK_SUCCESS) {
free(instance);
return;
}
instance->get_memory_fd = (PFN_vkGetMemoryFdKHR)
vkGetInstanceProcAddr(instance->base.handle.instance, "vkGetMemoryFdKHR");
instance->get_fence_fd = (PFN_vkGetFenceFdKHR)
vkGetInstanceProcAddr(instance->base.handle.instance, "vkGetFenceFdKHR");
util_hash_table_set_u64(ctx->object_table, instance->base.id, instance);
ctx->instance = instance;
}
static void
vkr_dispatch_vkDestroyInstance(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyInstance *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_instance *instance = (struct vkr_instance *)args->instance;
if (ctx->instance != instance) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkDestroyInstance_args_handle(args);
vkDestroyInstance(args->instance, NULL);
/* TODO cleanup all objects instead? */
for (uint32_t i = 0; i < instance->physical_device_count; i++) {
struct vkr_physical_device *physical_dev = instance->physical_devices[i];
if (!physical_dev)
break;
free(physical_dev->extensions);
util_hash_table_remove_u64(ctx->object_table, physical_dev->base.id);
}
free(instance->physical_device_handles);
free(instance->physical_devices);
util_hash_table_remove_u64(ctx->object_table, instance->base.id);
ctx->instance = NULL;
}
static VkResult
vkr_instance_enumerate_physical_devices(struct vkr_instance *instance)
{
if (instance->physical_device_count)
return VK_SUCCESS;
uint32_t count;
VkResult result = vkEnumeratePhysicalDevices(instance->base.handle.instance, &count, NULL);
if (result != VK_SUCCESS)
return result;
VkPhysicalDevice *handles = calloc(count, sizeof(*handles));
struct vkr_physical_device **physical_devs = calloc(count, sizeof(*physical_devs));
if (!handles || !physical_devs) {
free(physical_devs);
free(handles);
return VK_ERROR_OUT_OF_HOST_MEMORY;
}
result = vkEnumeratePhysicalDevices(instance->base.handle.instance, &count, handles);
if (result != VK_SUCCESS) {
free(physical_devs);
free(handles);
return result;
}
instance->physical_device_count = count;
instance->physical_device_handles = handles;
instance->physical_devices = physical_devs;
return VK_SUCCESS;
}
static struct vkr_physical_device *
vkr_instance_lookup_physical_device(struct vkr_instance *instance, VkPhysicalDevice handle)
{
for (uint32_t i = 0; i < instance->physical_device_count; i++) {
/* XXX this assumes VkPhysicalDevice handles are unique */
if (instance->physical_device_handles[i] == handle)
return instance->physical_devices[i];
}
return NULL;
}
static void
vkr_physical_device_init_memory_properties(struct vkr_physical_device *physical_dev)
{
VkPhysicalDevice handle = physical_dev->base.handle.physical_device;
vkGetPhysicalDeviceMemoryProperties(handle, &physical_dev->memory_properties);
}
static void
vkr_physical_device_init_extensions(struct vkr_physical_device *physical_dev)
{
VkPhysicalDevice handle = physical_dev->base.handle.physical_device;
VkExtensionProperties *exts;
uint32_t count;
VkResult result = vkEnumerateDeviceExtensionProperties(handle, NULL, &count, NULL);
if (result != VK_SUCCESS)
return;
exts = malloc(sizeof(*exts) * count);
if (!exts)
return;
result = vkEnumerateDeviceExtensionProperties(handle, NULL, &count, exts);
if (result != VK_SUCCESS) {
free(exts);
return;
}
uint32_t advertised_count = 0;
for (uint32_t i = 0; i < count; i++) {
VkExtensionProperties *props = &exts[i];
if (!strcmp(props->extensionName, "VK_KHR_external_memory_fd"))
physical_dev->KHR_external_memory_fd = true;
else if (!strcmp(props->extensionName, "VK_EXT_external_memory_dma_buf"))
physical_dev->EXT_external_memory_dma_buf = true;
else if (!strcmp(props->extensionName, "VK_KHR_external_fence_fd"))
physical_dev->KHR_external_fence_fd = true;
const uint32_t spec_ver = vn_info_extension_spec_version(props->extensionName);
if (spec_ver) {
if (props->specVersion > spec_ver)
props->specVersion = spec_ver;
exts[advertised_count++] = exts[i];
}
}
physical_dev->extensions = exts;
physical_dev->extension_count = advertised_count;
}
static void
vkr_physical_device_init_properties(struct vkr_physical_device *physical_dev)
{
VkPhysicalDevice handle = physical_dev->base.handle.physical_device;
vkGetPhysicalDeviceProperties(handle, &physical_dev->properties);
VkPhysicalDeviceProperties *props = &physical_dev->properties;
props->driverVersion = 0;
props->vendorID = 0;
props->deviceID = 0;
props->deviceType = VK_PHYSICAL_DEVICE_TYPE_OTHER;
memset(props->deviceName, 0, sizeof(props->deviceName));
/* TODO lie about props->pipelineCacheUUID and patch cache header */
}
static void
vkr_dispatch_vkEnumeratePhysicalDevices(struct vn_dispatch_context *dispatch, struct vn_command_vkEnumeratePhysicalDevices *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_instance *instance = (struct vkr_instance *)args->instance;
if (instance != ctx->instance) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
args->ret = vkr_instance_enumerate_physical_devices(instance);
if (args->ret != VK_SUCCESS)
return;
uint32_t count = instance->physical_device_count;
if (!args->pPhysicalDevices) {
*args->pPhysicalDeviceCount = count;
args->ret = VK_SUCCESS;
return;
}
if (count > *args->pPhysicalDeviceCount) {
count = *args->pPhysicalDeviceCount;
args->ret = VK_INCOMPLETE;
} else {
*args->pPhysicalDeviceCount = count;
args->ret = VK_SUCCESS;
}
uint32_t i;
for (i = 0; i < count; i++) {
struct vkr_physical_device *physical_dev = instance->physical_devices[i];
const vkr_object_id id = vkr_cs_handle_load_id(
(const void **)&args->pPhysicalDevices[i],
VK_OBJECT_TYPE_PHYSICAL_DEVICE);
if (physical_dev) {
if (physical_dev->base.id != id) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
break;
}
continue;
}
physical_dev = calloc(1, sizeof(*physical_dev));
if (!physical_dev) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
break;
}
physical_dev->base.type = VK_OBJECT_TYPE_PHYSICAL_DEVICE;
physical_dev->base.id = id;
physical_dev->base.handle.physical_device = instance->physical_device_handles[i];
vkr_physical_device_init_properties(physical_dev);
physical_dev->api_version = MIN2(physical_dev->properties.apiVersion,
instance->api_version);
vkr_physical_device_init_extensions(physical_dev);
vkr_physical_device_init_memory_properties(physical_dev);
instance->physical_devices[i] = physical_dev;
util_hash_table_set_u64(ctx->object_table, physical_dev->base.id, physical_dev);
}
/* remove all physical devices on errors */
if (i < count) {
for (i = 0; i < instance->physical_device_count; i++) {
struct vkr_physical_device *physical_dev = instance->physical_devices[i];
if (!physical_dev)
break;
free(physical_dev->extensions);
util_hash_table_remove_u64(ctx->object_table, physical_dev->base.id);
instance->physical_devices[i] = NULL;
}
}
}
static void
vkr_dispatch_vkEnumeratePhysicalDeviceGroups(struct vn_dispatch_context *dispatch, struct vn_command_vkEnumeratePhysicalDeviceGroups *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_instance *instance = (struct vkr_instance *)args->instance;
if (instance != ctx->instance) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
args->ret = vkr_instance_enumerate_physical_devices(instance);
if (args->ret != VK_SUCCESS)
return;
VkPhysicalDeviceGroupProperties *orig_props = args->pPhysicalDeviceGroupProperties;
if (orig_props) {
args->pPhysicalDeviceGroupProperties =
malloc(sizeof(*orig_props) * *args->pPhysicalDeviceGroupCount);
if (!args->pPhysicalDeviceGroupProperties) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
return;
}
}
vn_replace_vkEnumeratePhysicalDeviceGroups_args_handle(args);
args->ret = vkEnumeratePhysicalDeviceGroups(args->instance, args->pPhysicalDeviceGroupCount, args->pPhysicalDeviceGroupProperties);
if (args->ret != VK_SUCCESS)
return;
if (!orig_props)
return;
/* XXX this assumes vkEnumeratePhysicalDevices is called first */
/* replace VkPhysicalDevice handles by object ids */
for (uint32_t i = 0; i < *args->pPhysicalDeviceGroupCount; i++) {
const VkPhysicalDeviceGroupProperties *props = &args->pPhysicalDeviceGroupProperties[i];
VkPhysicalDeviceGroupProperties *out = &orig_props[i];
out->physicalDeviceCount = props->physicalDeviceCount;
out->subsetAllocation = props->subsetAllocation;
for (uint32_t j = 0; j < props->physicalDeviceCount; j++) {
const struct vkr_physical_device *physical_dev =
vkr_instance_lookup_physical_device(instance, props->physicalDevices[j]);
vkr_cs_handle_store_id((void **)&out->physicalDevices[j], physical_dev->base.id,
VK_OBJECT_TYPE_PHYSICAL_DEVICE);
}
}
free(args->pPhysicalDeviceGroupProperties);
args->pPhysicalDeviceGroupProperties = orig_props;
}
static void
vkr_dispatch_vkEnumerateDeviceExtensionProperties(struct vn_dispatch_context *dispatch, struct vn_command_vkEnumerateDeviceExtensionProperties *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_physical_device *physical_dev = (struct vkr_physical_device *)args->physicalDevice;
if (!physical_dev || physical_dev->base.type != VK_OBJECT_TYPE_PHYSICAL_DEVICE) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
if (args->pLayerName) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
if (!args->pProperties) {
*args->pPropertyCount = physical_dev->extension_count;
args->ret = VK_SUCCESS;
return;
}
uint32_t count = physical_dev->extension_count;
if (count > *args->pPropertyCount) {
count = *args->pPropertyCount;
args->ret = VK_INCOMPLETE;
} else {
*args->pPropertyCount = count;
args->ret = VK_SUCCESS;
}
memcpy(args->pProperties, physical_dev->extensions, sizeof(*args->pProperties) * count);
}
static void
vkr_dispatch_vkGetPhysicalDeviceFeatures(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceFeatures *args)
{
vn_replace_vkGetPhysicalDeviceFeatures_args_handle(args);
vkGetPhysicalDeviceFeatures(args->physicalDevice, args->pFeatures);
}
static void
vkr_dispatch_vkGetPhysicalDeviceProperties(struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceProperties *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_physical_device *physical_dev = (struct vkr_physical_device *)args->physicalDevice;
if (!physical_dev || physical_dev->base.type != VK_OBJECT_TYPE_PHYSICAL_DEVICE) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
*args->pProperties = physical_dev->properties;
}
static void
vkr_dispatch_vkGetPhysicalDeviceQueueFamilyProperties(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceQueueFamilyProperties *args)
{
vn_replace_vkGetPhysicalDeviceQueueFamilyProperties_args_handle(args);
vkGetPhysicalDeviceQueueFamilyProperties(args->physicalDevice, args->pQueueFamilyPropertyCount, args->pQueueFamilyProperties);
}
static void
vkr_dispatch_vkGetPhysicalDeviceMemoryProperties(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceMemoryProperties *args)
{
/* TODO lie about this */
vn_replace_vkGetPhysicalDeviceMemoryProperties_args_handle(args);
vkGetPhysicalDeviceMemoryProperties(args->physicalDevice, args->pMemoryProperties);
}
static void
vkr_dispatch_vkGetPhysicalDeviceFormatProperties(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceFormatProperties *args)
{
vn_replace_vkGetPhysicalDeviceFormatProperties_args_handle(args);
vkGetPhysicalDeviceFormatProperties(args->physicalDevice, args->format, args->pFormatProperties);
}
static void
vkr_dispatch_vkGetPhysicalDeviceImageFormatProperties(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceImageFormatProperties *args)
{
vn_replace_vkGetPhysicalDeviceImageFormatProperties_args_handle(args);
args->ret = vkGetPhysicalDeviceImageFormatProperties(args->physicalDevice, args->format, args->type, args->tiling, args->usage, args->flags, args->pImageFormatProperties);
}
static void
vkr_dispatch_vkGetPhysicalDeviceSparseImageFormatProperties(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceSparseImageFormatProperties *args)
{
vn_replace_vkGetPhysicalDeviceSparseImageFormatProperties_args_handle(args);
vkGetPhysicalDeviceSparseImageFormatProperties(args->physicalDevice, args->format, args->type, args->samples, args->usage, args->tiling, args->pPropertyCount, args->pProperties);
}
static void
vkr_dispatch_vkGetPhysicalDeviceFeatures2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceFeatures2 *args)
{
vn_replace_vkGetPhysicalDeviceFeatures2_args_handle(args);
vkGetPhysicalDeviceFeatures2(args->physicalDevice, args->pFeatures);
}
static void
vkr_dispatch_vkGetPhysicalDeviceProperties2(struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceProperties2 *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_physical_device *physical_dev = (struct vkr_physical_device *)args->physicalDevice;
if (!physical_dev || physical_dev->base.type != VK_OBJECT_TYPE_PHYSICAL_DEVICE) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkGetPhysicalDeviceProperties2_args_handle(args);
vkGetPhysicalDeviceProperties2(args->physicalDevice, args->pProperties);
union {
VkBaseOutStructure *pnext;
VkPhysicalDeviceProperties2 *props;
VkPhysicalDeviceVulkan11Properties *vk11;
VkPhysicalDeviceVulkan12Properties *vk12;
VkPhysicalDeviceIDProperties *id;
VkPhysicalDeviceDriverProperties *driver;
} u;
u.pnext = (VkBaseOutStructure *)args->pProperties;
while (u.pnext) {
switch (u.pnext->sType) {
case VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROPERTIES_2:
u.props->properties = physical_dev->properties;
break;
case VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_1_1_PROPERTIES:
memset(u.vk11->deviceUUID, 0, sizeof(u.vk11->deviceUUID));
memset(u.vk11->driverUUID, 0, sizeof(u.vk11->driverUUID));
memset(u.vk11->deviceLUID, 0, sizeof(u.vk11->deviceLUID));
u.vk11->deviceNodeMask = 0;
u.vk11->deviceLUIDValid = false;
break;
case VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_1_2_PROPERTIES:
u.vk12->driverID = 0;
memset(u.vk12->driverName, 0, sizeof(u.vk12->driverName));
memset(u.vk12->driverInfo, 0, sizeof(u.vk12->driverInfo));
memset(&u.vk12->conformanceVersion, 0, sizeof(u.vk12->conformanceVersion));
break;
case VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ID_PROPERTIES:
memset(u.id->deviceUUID, 0, sizeof(u.id->deviceUUID));
memset(u.id->driverUUID, 0, sizeof(u.id->driverUUID));
memset(u.id->deviceLUID, 0, sizeof(u.id->deviceLUID));
u.id->deviceNodeMask = 0;
u.id->deviceLUIDValid = false;
break;
case VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DRIVER_PROPERTIES:
u.driver->driverID = 0;
memset(u.driver->driverName, 0, sizeof(u.driver->driverName));
memset(u.driver->driverInfo, 0, sizeof(u.driver->driverInfo));
memset(&u.driver->conformanceVersion, 0, sizeof(u.driver->conformanceVersion));
break;
default:
break;
}
u.pnext = u.pnext->pNext;
}
}
static void
vkr_dispatch_vkGetPhysicalDeviceQueueFamilyProperties2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceQueueFamilyProperties2 *args)
{
vn_replace_vkGetPhysicalDeviceQueueFamilyProperties2_args_handle(args);
vkGetPhysicalDeviceQueueFamilyProperties2(args->physicalDevice, args->pQueueFamilyPropertyCount, args->pQueueFamilyProperties);
}
static void
vkr_dispatch_vkGetPhysicalDeviceMemoryProperties2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceMemoryProperties2 *args)
{
/* TODO lie about this */
vn_replace_vkGetPhysicalDeviceMemoryProperties2_args_handle(args);
vkGetPhysicalDeviceMemoryProperties2(args->physicalDevice, args->pMemoryProperties);
}
static void
vkr_dispatch_vkGetPhysicalDeviceFormatProperties2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceFormatProperties2 *args)
{
vn_replace_vkGetPhysicalDeviceFormatProperties2_args_handle(args);
vkGetPhysicalDeviceFormatProperties2(args->physicalDevice, args->format, args->pFormatProperties);
}
static void
vkr_dispatch_vkGetPhysicalDeviceImageFormatProperties2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceImageFormatProperties2 *args)
{
vn_replace_vkGetPhysicalDeviceImageFormatProperties2_args_handle(args);
args->ret = vkGetPhysicalDeviceImageFormatProperties2(args->physicalDevice, args->pImageFormatInfo, args->pImageFormatProperties);
}
static void
vkr_dispatch_vkGetPhysicalDeviceSparseImageFormatProperties2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPhysicalDeviceSparseImageFormatProperties2 *args)
{
vn_replace_vkGetPhysicalDeviceSparseImageFormatProperties2_args_handle(args);
vkGetPhysicalDeviceSparseImageFormatProperties2(args->physicalDevice, args->pFormatInfo, args->pPropertyCount, args->pProperties);
}
static 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;
list_inithead(retired_syncs);
if (queue->has_thread) {
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
list_addtail(&sync->head, &dev->free_syncs);
}
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
list_addtail(&sync->head, &dev->free_syncs);
}
*queue_empty = LIST_IS_EMPTY(&queue->pending_syncs);
}
}
static int
vkr_queue_thread(void *arg)
{
struct vkr_queue *queue = arg;
struct vkr_device *dev = queue->device;
const uint64_t ns_per_sec = 1000000000llu;
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) {
list_del(&sync->head);
list_addtail(&sync->head, &queue->signaled_syncs);
write_eventfd(queue->eventfd, 1);
}
}
mtx_unlock(&queue->mutex);
return 0;
}
static void
vkr_queue_destroy(struct vkr_context *ctx,
struct vkr_queue *queue)
{
struct vkr_queue_sync *sync, *tmp;
if (queue->has_thread) {
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)
list_addtail(&sync->head, &queue->device->free_syncs);
} else {
assert(LIST_IS_EMPTY(&queue->signaled_syncs));
}
LIST_FOR_EACH_ENTRY_SAFE(sync, tmp, &queue->pending_syncs, head)
list_addtail(&sync->head, &queue->device->free_syncs);
mtx_destroy(&queue->mutex);
cnd_destroy(&queue->cond);
list_del(&queue->head);
list_del(&queue->busy_head);
util_hash_table_remove_u64(ctx->object_table, queue->base.id);
}
static struct vkr_queue *
vkr_queue_create(struct vkr_context *ctx,
struct vkr_device *dev,
vkr_object_id id,
VkQueue handle,
uint32_t family,
uint32_t index)
{
struct vkr_queue *queue;
int ret;
LIST_FOR_EACH_ENTRY(queue, &dev->queues, head) {
if (queue->family == family && queue->index == index)
return queue;
}
queue = calloc(1, sizeof(*queue));
if (!queue)
return NULL;
queue->base.type = VK_OBJECT_TYPE_QUEUE;
queue->base.id = id;
queue->base.handle.queue = handle;
queue->device = dev;
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 (ctx->fence_eventfd >= 0) {
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->has_thread = true;
queue->eventfd = ctx->fence_eventfd;
}
list_addtail(&queue->head, &dev->queues);
list_inithead(&queue->busy_head);
util_hash_table_set_u64(ctx->object_table, queue->base.id, queue);
return queue;
}
static void
vkr_dispatch_vkCreateDevice(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateDevice *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_physical_device *physical_dev = (struct vkr_physical_device *)args->physicalDevice;
if (!physical_dev || physical_dev->base.type != VK_OBJECT_TYPE_PHYSICAL_DEVICE) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
/* append extensions for our own use */
const char **exts = NULL;
uint32_t ext_count = args->pCreateInfo->enabledExtensionCount;
ext_count += physical_dev->KHR_external_memory_fd;
ext_count += physical_dev->EXT_external_memory_dma_buf;
ext_count += physical_dev->KHR_external_fence_fd;
if (ext_count > args->pCreateInfo->enabledExtensionCount) {
exts = malloc(sizeof(*exts) * ext_count);
if (!exts) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
return;
}
for (uint32_t i = 0; i < args->pCreateInfo->enabledExtensionCount; i++)
exts[i] = args->pCreateInfo->ppEnabledExtensionNames[i];
ext_count = args->pCreateInfo->enabledExtensionCount;
if (physical_dev->KHR_external_memory_fd)
exts[ext_count++] = "VK_KHR_external_memory_fd";
if (physical_dev->EXT_external_memory_dma_buf)
exts[ext_count++] = "VK_EXT_external_memory_dma_buf";
if (physical_dev->KHR_external_fence_fd)
exts[ext_count++] = "VK_KHR_external_fence_fd";
((VkDeviceCreateInfo *)args->pCreateInfo)->ppEnabledExtensionNames = exts;
((VkDeviceCreateInfo *)args->pCreateInfo)->enabledExtensionCount = ext_count;
}
struct vkr_device *dev = calloc(1, sizeof(*dev));
if (!dev) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
free(exts);
return;
}
dev->base.type = VK_OBJECT_TYPE_DEVICE;
dev->base.id = vkr_cs_handle_load_id((const void **)args->pDevice, dev->base.type);
vn_replace_vkCreateDevice_args_handle(args);
args->ret = vkCreateDevice(args->physicalDevice, args->pCreateInfo, NULL, &dev->base.handle.device);
if (args->ret != VK_SUCCESS) {
free(exts);
free(dev);
return;
}
free(exts);
dev->physical_device = physical_dev;
VkDevice handle = dev->base.handle.device;
if (physical_dev->api_version >= VK_API_VERSION_1_2) {
dev->GetSemaphoreCounterValue = (PFN_vkGetSemaphoreCounterValue)
vkGetDeviceProcAddr(handle, "vkGetSemaphoreCounterValue");
dev->WaitSemaphores = (PFN_vkWaitSemaphores)
vkGetDeviceProcAddr(handle, "vkWaitSemaphores");
dev->SignalSemaphore = (PFN_vkSignalSemaphore)
vkGetDeviceProcAddr(handle, "vkSignalSemaphore");
dev->GetDeviceMemoryOpaqueCaptureAddress = (PFN_vkGetDeviceMemoryOpaqueCaptureAddress)
vkGetDeviceProcAddr(handle, "vkGetDeviceMemoryOpaqueCaptureAddress");
dev->GetBufferOpaqueCaptureAddress = (PFN_vkGetBufferOpaqueCaptureAddress)
vkGetDeviceProcAddr(handle, "vkGetBufferOpaqueCaptureAddress");
dev->GetBufferDeviceAddress = (PFN_vkGetBufferDeviceAddress)
vkGetDeviceProcAddr(handle, "vkGetBufferDeviceAddress");
dev->ResetQueryPool = (PFN_vkResetQueryPool)
vkGetDeviceProcAddr(handle, "vkResetQueryPool");
dev->CreateRenderPass2 = (PFN_vkCreateRenderPass2)
vkGetDeviceProcAddr(handle, "vkCreateRenderPass2");
dev->CmdBeginRenderPass2 = (PFN_vkCmdBeginRenderPass2)
vkGetDeviceProcAddr(handle, "vkCmdBeginRenderPass2");
dev->CmdNextSubpass2 = (PFN_vkCmdNextSubpass2)
vkGetDeviceProcAddr(handle, "vkCmdNextSubpass2");
dev->CmdEndRenderPass2 = (PFN_vkCmdEndRenderPass2)
vkGetDeviceProcAddr(handle, "vkCmdEndRenderPass2");
dev->CmdDrawIndirectCount = (PFN_vkCmdDrawIndirectCount)
vkGetDeviceProcAddr(handle, "vkCmdDrawIndirectCount");
dev->CmdDrawIndexedIndirectCount = (PFN_vkCmdDrawIndexedIndirectCount)
vkGetDeviceProcAddr(handle, "vkCmdDrawIndexedIndirectCount");
} else {
dev->GetSemaphoreCounterValue = (PFN_vkGetSemaphoreCounterValue)
vkGetDeviceProcAddr(handle, "vkGetSemaphoreCounterValueKHR");
dev->WaitSemaphores = (PFN_vkWaitSemaphores)
vkGetDeviceProcAddr(handle, "vkWaitSemaphoresKHR");
dev->SignalSemaphore = (PFN_vkSignalSemaphore)
vkGetDeviceProcAddr(handle, "vkSignalSemaphoreKHR");
dev->GetDeviceMemoryOpaqueCaptureAddress = (PFN_vkGetDeviceMemoryOpaqueCaptureAddress)
vkGetDeviceProcAddr(handle, "vkGetDeviceMemoryOpaqueCaptureAddressKHR");
dev->GetBufferOpaqueCaptureAddress = (PFN_vkGetBufferOpaqueCaptureAddress)
vkGetDeviceProcAddr(handle, "vkGetBufferOpaqueCaptureAddressKHR");
dev->GetBufferDeviceAddress = (PFN_vkGetBufferDeviceAddress)
vkGetDeviceProcAddr(handle, "vkGetBufferDeviceAddressKHR");
dev->ResetQueryPool = (PFN_vkResetQueryPool)
vkGetDeviceProcAddr(handle, "vkResetQueryPoolEXT");
dev->CreateRenderPass2 = (PFN_vkCreateRenderPass2)
vkGetDeviceProcAddr(handle, "vkCreateRenderPass2KHR");
dev->CmdBeginRenderPass2 = (PFN_vkCmdBeginRenderPass2)
vkGetDeviceProcAddr(handle, "vkCmdBeginRenderPass2KHR");
dev->CmdNextSubpass2 = (PFN_vkCmdNextSubpass2)
vkGetDeviceProcAddr(handle, "vkCmdNextSubpass2KHR");
dev->CmdEndRenderPass2 = (PFN_vkCmdEndRenderPass2)
vkGetDeviceProcAddr(handle, "vkCmdEndRenderPass2KHR");
dev->CmdDrawIndirectCount = (PFN_vkCmdDrawIndirectCount)
vkGetDeviceProcAddr(handle, "vkCmdDrawIndirectCountKHR");
dev->CmdDrawIndexedIndirectCount = (PFN_vkCmdDrawIndexedIndirectCount)
vkGetDeviceProcAddr(handle, "vkCmdDrawIndexedIndirectCountKHR");
}
dev->cmd_bind_transform_feedback_buffers = (PFN_vkCmdBindTransformFeedbackBuffersEXT)
vkGetDeviceProcAddr(handle, "vkCmdBindTransformFeedbackBuffersEXT");
dev->cmd_begin_transform_feedback = (PFN_vkCmdBeginTransformFeedbackEXT)
vkGetDeviceProcAddr(handle, "vkCmdBeginTransformFeedbackEXT");
dev->cmd_end_transform_feedback = (PFN_vkCmdEndTransformFeedbackEXT)
vkGetDeviceProcAddr(handle, "vkCmdEndTransformFeedbackEXT");
dev->cmd_begin_query_indexed = (PFN_vkCmdBeginQueryIndexedEXT)
vkGetDeviceProcAddr(handle, "vkCmdBeginQueryIndexedEXT");
dev->cmd_end_query_indexed = (PFN_vkCmdEndQueryIndexedEXT)
vkGetDeviceProcAddr(handle, "vkCmdEndQueryIndexedEXT");
dev->cmd_draw_indirect_byte_count = (PFN_vkCmdDrawIndirectByteCountEXT)
vkGetDeviceProcAddr(handle, "vkCmdDrawIndirectByteCountEXT");
dev->get_image_drm_format_modifier_properties = (PFN_vkGetImageDrmFormatModifierPropertiesEXT)
vkGetDeviceProcAddr(handle, "vkGetImageDrmFormatModifierPropertiesEXT");
dev->get_memory_fd_properties = (PFN_vkGetMemoryFdPropertiesKHR)
vkGetDeviceProcAddr(handle, "vkGetMemoryFdPropertiesKHR");
list_inithead(&dev->queues);
list_inithead(&dev->free_syncs);
util_hash_table_set_u64(ctx->object_table, dev->base.id, dev);
}
static void
vkr_dispatch_vkDestroyDevice(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyDevice *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) {
if (dev)
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
/* TODO cleanup all objects here? */
struct vkr_queue *queue, *queue_tmp;
LIST_FOR_EACH_ENTRY_SAFE(queue, queue_tmp, &dev->queues, head)
vkr_queue_destroy(ctx, queue);
struct vkr_queue_sync *sync, *sync_tmp;
LIST_FOR_EACH_ENTRY_SAFE(sync, sync_tmp, &dev->free_syncs, head) {
vkDestroyFence(dev->base.handle.device, sync->fence, NULL);
free(sync);
}
vn_replace_vkDestroyDevice_args_handle(args);
vkDestroyDevice(args->device, NULL);
util_hash_table_remove_u64(ctx->object_table, dev->base.id);
}
static void
vkr_dispatch_vkGetDeviceGroupPeerMemoryFeatures(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetDeviceGroupPeerMemoryFeatures *args)
{
vn_replace_vkGetDeviceGroupPeerMemoryFeatures_args_handle(args);
vkGetDeviceGroupPeerMemoryFeatures(args->device, args->heapIndex, args->localDeviceIndex, args->remoteDeviceIndex, args->pPeerMemoryFeatures);
}
static void
vkr_dispatch_vkDeviceWaitIdle(struct vn_dispatch_context *dispatch, UNUSED struct vn_command_vkDeviceWaitIdle *args)
{
struct vkr_context *ctx = dispatch->data;
/* no blocking call */
vkr_cs_decoder_set_fatal(&ctx->decoder);
}
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;
}
const vkr_object_id id =
vkr_cs_handle_load_id((const void **)args->pQueue, VK_OBJECT_TYPE_QUEUE);
VkQueue handle;
vn_replace_vkGetDeviceQueue_args_handle(args);
vkGetDeviceQueue(args->device, args->queueFamilyIndex, args->queueIndex, &handle);
struct vkr_queue *queue = vkr_queue_create(ctx, dev, id, handle,
args->queueFamilyIndex, args->queueIndex);
/* TODO create queues with device and deal with failures there */
if (!queue)
vrend_printf("failed to create queue\n");
}
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;
}
const vkr_object_id id =
vkr_cs_handle_load_id((const void **)args->pQueue, VK_OBJECT_TYPE_QUEUE);
VkQueue handle;
vn_replace_vkGetDeviceQueue2_args_handle(args);
vkGetDeviceQueue2(args->device, args->pQueueInfo, &handle);
/* TODO deal with errors */
vkr_queue_create(ctx, dev, id, handle, args->pQueueInfo->queueFamilyIndex,
args->pQueueInfo->queueIndex);
}
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 bool
vkr_get_fd_handle_type_from_virgl_fd_type(struct vkr_physical_device *dev, enum virgl_resource_fd_type fd_type, VkExternalMemoryHandleTypeFlagBits *out_handle_type)
{
assert(dev);
assert(out_handle_type);
switch (fd_type) {
case VIRGL_RESOURCE_FD_DMABUF:
if (!dev->EXT_external_memory_dma_buf)
return false;
*out_handle_type = VK_EXTERNAL_MEMORY_HANDLE_TYPE_DMA_BUF_BIT_EXT;
break;
case VIRGL_RESOURCE_FD_OPAQUE:
if (!dev->KHR_external_memory_fd)
return false;
*out_handle_type = VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_FD_BIT;
break;
default:
return false;
}
return true;
}
static void
vkr_dispatch_vkAllocateMemory(struct vn_dispatch_context *dispatch, struct vn_command_vkAllocateMemory *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;
}
#ifdef FORCE_ENABLE_DMABUF
const VkExportMemoryAllocateInfo export_info = {
.sType = VK_STRUCTURE_TYPE_EXPORT_MEMORY_ALLOCATE_INFO,
.pNext = args->pAllocateInfo->pNext,
.handleTypes = VK_EXTERNAL_MEMORY_HANDLE_TYPE_DMA_BUF_BIT_EXT,
};
if (dev->physical_device->EXT_external_memory_dma_buf)
((VkMemoryAllocateInfo *)args->pAllocateInfo)->pNext = &export_info;
#endif
/* translate VkImportMemoryResourceInfoMESA into VkImportMemoryFdInfoKHR */
VkImportMemoryResourceInfoMESA *import_resource_info = NULL;
VkImportMemoryFdInfoKHR import_fd_info = {
.sType = VK_STRUCTURE_TYPE_IMPORT_MEMORY_FD_INFO_KHR,
.fd = -1,
};
VkBaseInStructure *pprev = (VkBaseInStructure *)args->pAllocateInfo;
while (pprev->pNext) {
if (pprev->pNext->sType == VK_STRUCTURE_TYPE_IMPORT_MEMORY_RESOURCE_INFO_MESA) {
import_resource_info = (VkImportMemoryResourceInfoMESA *)pprev->pNext;
import_fd_info.pNext = pprev->pNext->pNext;
pprev->pNext = (const struct VkBaseInStructure *)&import_fd_info;
break;
}
pprev = (VkBaseInStructure *)pprev->pNext;
}
if (import_resource_info) {
uint32_t res_id = import_resource_info->resourceId;
struct vkr_resource_attachment *att = util_hash_table_get(ctx->resource_table, uintptr_to_pointer(res_id));
if (!att || !att->resource) {
args->ret = VK_ERROR_INVALID_EXTERNAL_HANDLE;
return;
}
enum virgl_resource_fd_type fd_type = virgl_resource_export_fd(att->resource, &import_fd_info.fd);
if (!vkr_get_fd_handle_type_from_virgl_fd_type(dev->physical_device, fd_type, &import_fd_info.handleType)) {
close(import_fd_info.fd);
args->ret = VK_ERROR_INVALID_EXTERNAL_HANDLE;
return;
}
}
struct vkr_device_memory *mem = calloc(1, sizeof(*mem));
if (!mem) {
if (import_resource_info)
close(import_fd_info.fd);
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
return;
}
mem->base.type = VK_OBJECT_TYPE_DEVICE_MEMORY;
mem->base.id = vkr_cs_handle_load_id((const void **)args->pMemory, mem->base.type);
vn_replace_vkAllocateMemory_args_handle(args);
args->ret = vkAllocateMemory(args->device, args->pAllocateInfo, NULL, &mem->base.handle.device_memory);
if (args->ret != VK_SUCCESS) {
if (import_resource_info)
close(import_fd_info.fd);
free(mem);
return;
}
const VkPhysicalDeviceMemoryProperties *mem_props = &dev->physical_device->memory_properties;
const uint32_t mt_index = args->pAllocateInfo->memoryTypeIndex;
const uint32_t property_flags = mem_props->memoryTypes[mt_index].propertyFlags;
/* get valid fd types */
uint32_t valid_fd_types = 0;
const VkBaseInStructure *pnext = args->pAllocateInfo->pNext;
while (pnext) {
if (pnext->sType == VK_STRUCTURE_TYPE_EXPORT_MEMORY_ALLOCATE_INFO) {
const VkExportMemoryAllocateInfo *export = (const void *)pnext;
if (export->handleTypes & VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_FD_BIT)
valid_fd_types |= 1 << VIRGL_RESOURCE_FD_OPAQUE;
if (export->handleTypes & VK_EXTERNAL_MEMORY_HANDLE_TYPE_DMA_BUF_BIT_EXT)
valid_fd_types |= 1 << VIRGL_RESOURCE_FD_DMABUF;
break;
}
pnext = pnext->pNext;
}
mem->device = args->device;
mem->property_flags = property_flags;
mem->valid_fd_types = valid_fd_types;
list_inithead(&mem->head);
util_hash_table_set_u64(ctx->object_table, mem->base.id, mem);
}
static void
vkr_dispatch_vkFreeMemory(struct vn_dispatch_context *dispatch, struct vn_command_vkFreeMemory *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_device_memory *mem = (struct vkr_device_memory *)(uintptr_t)args->memory;
if (!mem || mem->base.type != VK_OBJECT_TYPE_DEVICE_MEMORY) {
if (mem)
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkFreeMemory_args_handle(args);
vkFreeMemory(args->device, args->memory, NULL);
list_del(&mem->head);
util_hash_table_remove_u64(ctx->object_table, mem->base.id);
}
static void
vkr_dispatch_vkGetDeviceMemoryCommitment(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetDeviceMemoryCommitment *args)
{
vn_replace_vkGetDeviceMemoryCommitment_args_handle(args);
vkGetDeviceMemoryCommitment(args->device, args->memory, args->pCommittedMemoryInBytes);
}
static void
vkr_dispatch_vkGetDeviceMemoryOpaqueCaptureAddress(struct vn_dispatch_context *dispatch, struct vn_command_vkGetDeviceMemoryOpaqueCaptureAddress *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_vkGetDeviceMemoryOpaqueCaptureAddress_args_handle(args);
args->ret = dev->GetDeviceMemoryOpaqueCaptureAddress(args->device, args->pInfo);
}
static void
vkr_dispatch_vkGetBufferMemoryRequirements(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetBufferMemoryRequirements *args)
{
vn_replace_vkGetBufferMemoryRequirements_args_handle(args);
vkGetBufferMemoryRequirements(args->device, args->buffer, args->pMemoryRequirements);
}
static void
vkr_dispatch_vkGetBufferMemoryRequirements2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetBufferMemoryRequirements2 *args)
{
vn_replace_vkGetBufferMemoryRequirements2_args_handle(args);
vkGetBufferMemoryRequirements2(args->device, args->pInfo, args->pMemoryRequirements);
}
static void
vkr_dispatch_vkBindBufferMemory(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkBindBufferMemory *args)
{
vn_replace_vkBindBufferMemory_args_handle(args);
args->ret = vkBindBufferMemory(args->device, args->buffer, args->memory, args->memoryOffset);
}
static void
vkr_dispatch_vkBindBufferMemory2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkBindBufferMemory2 *args)
{
vn_replace_vkBindBufferMemory2_args_handle(args);
args->ret = vkBindBufferMemory2(args->device, args->bindInfoCount, args->pBindInfos);
}
static void
vkr_dispatch_vkGetBufferOpaqueCaptureAddress(struct vn_dispatch_context *dispatch, struct vn_command_vkGetBufferOpaqueCaptureAddress *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_vkGetBufferOpaqueCaptureAddress_args_handle(args);
args->ret = dev->GetBufferOpaqueCaptureAddress(args->device, args->pInfo);
}
static void
vkr_dispatch_vkGetBufferDeviceAddress(struct vn_dispatch_context *dispatch, struct vn_command_vkGetBufferDeviceAddress *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_vkGetBufferDeviceAddress_args_handle(args);
args->ret = dev->GetBufferDeviceAddress(args->device, args->pInfo);
}
static void
vkr_dispatch_vkGetImageMemoryRequirements(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetImageMemoryRequirements *args)
{
vn_replace_vkGetImageMemoryRequirements_args_handle(args);
vkGetImageMemoryRequirements(args->device, args->image, args->pMemoryRequirements);
}
static void
vkr_dispatch_vkGetImageMemoryRequirements2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetImageMemoryRequirements2 *args)
{
vn_replace_vkGetImageMemoryRequirements2_args_handle(args);
vkGetImageMemoryRequirements2(args->device, args->pInfo, args->pMemoryRequirements);
}
static void
vkr_dispatch_vkGetImageSparseMemoryRequirements(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetImageSparseMemoryRequirements *args)
{
vn_replace_vkGetImageSparseMemoryRequirements_args_handle(args);
vkGetImageSparseMemoryRequirements(args->device, args->image, args->pSparseMemoryRequirementCount, args->pSparseMemoryRequirements);
}
static void
vkr_dispatch_vkGetImageSparseMemoryRequirements2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetImageSparseMemoryRequirements2 *args)
{
vn_replace_vkGetImageSparseMemoryRequirements2_args_handle(args);
vkGetImageSparseMemoryRequirements2(args->device, args->pInfo, args->pSparseMemoryRequirementCount, args->pSparseMemoryRequirements);
}
static void
vkr_dispatch_vkBindImageMemory(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkBindImageMemory *args)
{
vn_replace_vkBindImageMemory_args_handle(args);
args->ret = vkBindImageMemory(args->device, args->image, args->memory, args->memoryOffset);
}
static void
vkr_dispatch_vkBindImageMemory2(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkBindImageMemory2 *args)
{
vn_replace_vkBindImageMemory2_args_handle(args);
args->ret = vkBindImageMemory2(args->device, args->bindInfoCount, args->pBindInfos);
}
static void
vkr_dispatch_vkGetImageSubresourceLayout(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetImageSubresourceLayout *args)
{
vn_replace_vkGetImageSubresourceLayout_args_handle(args);
vkGetImageSubresourceLayout(args->device, args->image, args->pSubresource, args->pLayout);
}
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_vkCreateBuffer(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateBuffer *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;
}
#ifdef FORCE_ENABLE_DMABUF
const VkExternalMemoryBufferCreateInfo external_info = {
.sType = VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_BUFFER_CREATE_INFO,
.pNext = args->pCreateInfo->pNext,
.handleTypes = VK_EXTERNAL_MEMORY_HANDLE_TYPE_DMA_BUF_BIT_EXT,
};
if (dev->physical_device->EXT_external_memory_dma_buf)
((VkBufferCreateInfo *)args->pCreateInfo)->pNext = &external_info;
#endif
CREATE_OBJECT(buf, buffer, BUFFER, vkCreateBuffer, pBuffer);
util_hash_table_set_u64(ctx->object_table, buf->base.id, buf);
}
static void
vkr_dispatch_vkDestroyBuffer(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyBuffer *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(buf, buffer, BUFFER, vkDestroyBuffer, buffer);
util_hash_table_remove_u64(ctx->object_table, buf->base.id);
}
static void
vkr_dispatch_vkCreateBufferView(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateBufferView *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(view, buffer_view, BUFFER_VIEW, vkCreateBufferView, pView);
util_hash_table_set_u64(ctx->object_table, view->base.id, view);
}
static void
vkr_dispatch_vkDestroyBufferView(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyBufferView *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(view, buffer_view, BUFFER_VIEW, vkDestroyBufferView, bufferView);
util_hash_table_remove_u64(ctx->object_table, view->base.id);
}
static void
vkr_dispatch_vkCreateImage(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateImage *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;
}
#ifdef FORCE_ENABLE_DMABUF
const VkExternalMemoryImageCreateInfo external_info = {
.sType = VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_IMAGE_CREATE_INFO,
.pNext = args->pCreateInfo->pNext,
.handleTypes = VK_EXTERNAL_MEMORY_HANDLE_TYPE_DMA_BUF_BIT_EXT,
};
if (dev->physical_device->EXT_external_memory_dma_buf)
((VkImageCreateInfo *)args->pCreateInfo)->pNext = &external_info;
#endif
CREATE_OBJECT(img, image, IMAGE, vkCreateImage, pImage);
util_hash_table_set_u64(ctx->object_table, img->base.id, img);
}
static void
vkr_dispatch_vkDestroyImage(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyImage *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(img, image, IMAGE, vkDestroyImage, image);
util_hash_table_remove_u64(ctx->object_table, img->base.id);
}
static void
vkr_dispatch_vkCreateImageView(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateImageView *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(view, image_view, IMAGE_VIEW, vkCreateImageView, pView);
util_hash_table_set_u64(ctx->object_table, view->base.id, view);
}
static void
vkr_dispatch_vkDestroyImageView(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyImageView *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(view, image_view, IMAGE_VIEW, vkDestroyImageView, imageView);
util_hash_table_remove_u64(ctx->object_table, view->base.id);
}
static void
vkr_dispatch_vkCreateSampler(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateSampler *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(sampler, sampler, SAMPLER, vkCreateSampler, pSampler);
util_hash_table_set_u64(ctx->object_table, sampler->base.id, sampler);
}
static void
vkr_dispatch_vkDestroySampler(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroySampler *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(sampler, sampler, SAMPLER, vkDestroySampler, sampler);
util_hash_table_remove_u64(ctx->object_table, sampler->base.id);
}
static void
vkr_dispatch_vkCreateSamplerYcbcrConversion(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateSamplerYcbcrConversion *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(conv, sampler_ycbcr_conversion, SAMPLER_YCBCR_CONVERSION, vkCreateSamplerYcbcrConversion, pYcbcrConversion);
util_hash_table_set_u64(ctx->object_table, conv->base.id, conv);
}
static void
vkr_dispatch_vkDestroySamplerYcbcrConversion(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroySamplerYcbcrConversion *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(conv, sampler_ycbcr_conversion, SAMPLER_YCBCR_CONVERSION, vkDestroySamplerYcbcrConversion, ycbcrConversion);
util_hash_table_remove_u64(ctx->object_table, conv->base.id);
}
static void
vkr_dispatch_vkGetDescriptorSetLayoutSupport(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetDescriptorSetLayoutSupport *args)
{
vn_replace_vkGetDescriptorSetLayoutSupport_args_handle(args);
vkGetDescriptorSetLayoutSupport(args->device, args->pCreateInfo, args->pSupport);
}
static void
vkr_dispatch_vkCreateDescriptorSetLayout(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateDescriptorSetLayout *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(layout, descriptor_set_layout, DESCRIPTOR_SET_LAYOUT, vkCreateDescriptorSetLayout, pSetLayout);
util_hash_table_set_u64(ctx->object_table, layout->base.id, layout);
}
static void
vkr_dispatch_vkDestroyDescriptorSetLayout(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyDescriptorSetLayout *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(layout, descriptor_set_layout, DESCRIPTOR_SET_LAYOUT, vkDestroyDescriptorSetLayout, descriptorSetLayout);
util_hash_table_remove_u64(ctx->object_table, layout->base.id);
}
static void
vkr_dispatch_vkCreateDescriptorPool(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateDescriptorPool *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(pool, descriptor_pool, DESCRIPTOR_POOL, vkCreateDescriptorPool, pDescriptorPool);
list_inithead(&pool->descriptor_sets);
util_hash_table_set_u64(ctx->object_table, pool->base.id, pool);
}
static void
vkr_dispatch_vkDestroyDescriptorPool(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyDescriptorPool *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(pool, descriptor_pool, DESCRIPTOR_POOL, vkDestroyDescriptorPool, descriptorPool);
struct vkr_descriptor_set *set, *tmp;
LIST_FOR_EACH_ENTRY_SAFE(set, tmp, &pool->descriptor_sets, head)
util_hash_table_remove_u64(ctx->object_table, set->base.id);
util_hash_table_remove_u64(ctx->object_table, pool->base.id);
}
static void
vkr_dispatch_vkResetDescriptorPool(struct vn_dispatch_context *dispatch, struct vn_command_vkResetDescriptorPool *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_descriptor_pool *pool = (struct vkr_descriptor_pool *)(uintptr_t)args->descriptorPool;
if (!pool || pool->base.type != VK_OBJECT_TYPE_DESCRIPTOR_POOL) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkResetDescriptorPool_args_handle(args);
args->ret = vkResetDescriptorPool(args->device, args->descriptorPool, args->flags);
struct vkr_descriptor_set *set, *tmp;
LIST_FOR_EACH_ENTRY_SAFE(set, tmp, &pool->descriptor_sets, head)
util_hash_table_remove_u64(ctx->object_table, set->base.id);
list_inithead(&pool->descriptor_sets);
}
static void
vkr_dispatch_vkAllocateDescriptorSets(struct vn_dispatch_context *dispatch, struct vn_command_vkAllocateDescriptorSets *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_descriptor_pool *pool = (struct vkr_descriptor_pool *)(uintptr_t)args->pAllocateInfo->descriptorPool;
if (!pool || pool->base.type != VK_OBJECT_TYPE_DESCRIPTOR_POOL) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
struct object_array arr;
if (!object_array_init(&arr,
args->pAllocateInfo->descriptorSetCount,
VK_OBJECT_TYPE_DESCRIPTOR_SET,
sizeof(struct vkr_descriptor_set),
sizeof(VkDescriptorSet),
args->pDescriptorSets)) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
return;
}
vn_replace_vkAllocateDescriptorSets_args_handle(args);
args->ret = vkAllocateDescriptorSets(args->device, args->pAllocateInfo, arr.handle_storage);
if (args->ret != VK_SUCCESS) {
object_array_fini(&arr);
return;
}
for (uint32_t i = 0; i < arr.count; i++) {
struct vkr_descriptor_set *set = arr.objects[i];
set->base.handle.descriptor_set = ((VkDescriptorSet *)arr.handle_storage)[i];
list_add(&set->head, &pool->descriptor_sets);
util_hash_table_set_u64(ctx->object_table, set->base.id, set);
}
arr.objects_stolen = true;
object_array_fini(&arr);
}
static void
vkr_dispatch_vkFreeDescriptorSets(struct vn_dispatch_context *dispatch, struct vn_command_vkFreeDescriptorSets *args)
{
struct vkr_context *ctx = dispatch->data;
struct list_head free_sets;
list_inithead(&free_sets);
for (uint32_t i = 0; i < args->descriptorSetCount; i++) {
struct vkr_descriptor_set *set = (struct vkr_descriptor_set *)(uintptr_t)args->pDescriptorSets[i];
if (!set)
continue;
if (set->base.type != VK_OBJECT_TYPE_DESCRIPTOR_SET) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
list_del(&set->head);
list_addtail(&set->head, &free_sets);
}
vn_replace_vkFreeDescriptorSets_args_handle(args);
args->ret = vkFreeDescriptorSets(args->device, args->descriptorPool, args->descriptorSetCount, args->pDescriptorSets);
struct vkr_descriptor_set *set, *tmp;
LIST_FOR_EACH_ENTRY_SAFE(set, tmp, &free_sets, head)
util_hash_table_remove_u64(ctx->object_table, set->base.id);
}
static void
vkr_dispatch_vkUpdateDescriptorSets(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkUpdateDescriptorSets *args)
{
vn_replace_vkUpdateDescriptorSets_args_handle(args);
vkUpdateDescriptorSets(args->device, args->descriptorWriteCount, args->pDescriptorWrites, args->descriptorCopyCount, args->pDescriptorCopies);
}
static void
vkr_dispatch_vkCreateDescriptorUpdateTemplate(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateDescriptorUpdateTemplate *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(templ, descriptor_update_template, DESCRIPTOR_UPDATE_TEMPLATE, vkCreateDescriptorUpdateTemplate, pDescriptorUpdateTemplate);
util_hash_table_set_u64(ctx->object_table, templ->base.id, templ);
}
static void
vkr_dispatch_vkDestroyDescriptorUpdateTemplate(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyDescriptorUpdateTemplate *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(templ, descriptor_update_template, DESCRIPTOR_UPDATE_TEMPLATE, vkDestroyDescriptorUpdateTemplate, descriptorUpdateTemplate);
util_hash_table_remove_u64(ctx->object_table, templ->base.id);
}
static void
vkr_dispatch_vkCreateRenderPass(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateRenderPass *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(pass, render_pass, RENDER_PASS, vkCreateRenderPass, pRenderPass);
util_hash_table_set_u64(ctx->object_table, pass->base.id, pass);
}
static void
vkr_dispatch_vkCreateRenderPass2(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateRenderPass2 *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_render_pass *pass = calloc(1, sizeof(*pass));
if (!pass) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
return;
}
pass->base.type = VK_OBJECT_TYPE_RENDER_PASS;
pass->base.id = vkr_cs_handle_load_id((const void **)args->pRenderPass, pass->base.type);
vn_replace_vkCreateRenderPass2_args_handle(args);
args->ret = dev->CreateRenderPass2(args->device, args->pCreateInfo,
NULL, &pass->base.handle.render_pass);
if (args->ret != VK_SUCCESS) {
free(pass);
return;
}
util_hash_table_set_u64(ctx->object_table, pass->base.id, pass);
}
static void
vkr_dispatch_vkDestroyRenderPass(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyRenderPass *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(pass, render_pass, RENDER_PASS, vkDestroyRenderPass, renderPass);
util_hash_table_remove_u64(ctx->object_table, pass->base.id);
}
static void
vkr_dispatch_vkGetRenderAreaGranularity(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetRenderAreaGranularity *args)
{
vn_replace_vkGetRenderAreaGranularity_args_handle(args);
vkGetRenderAreaGranularity(args->device, args->renderPass, args->pGranularity);
}
static void
vkr_dispatch_vkCreateFramebuffer(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateFramebuffer *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(fb, framebuffer, FRAMEBUFFER, vkCreateFramebuffer, pFramebuffer);
util_hash_table_set_u64(ctx->object_table, fb->base.id, fb);
}
static void
vkr_dispatch_vkDestroyFramebuffer(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyFramebuffer *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(fb, framebuffer, FRAMEBUFFER, vkDestroyFramebuffer, framebuffer);
util_hash_table_remove_u64(ctx->object_table, fb->base.id);
}
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);
}
static void
vkr_dispatch_vkCreateQueryPool(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateQueryPool *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(pool, query_pool, QUERY_POOL, vkCreateQueryPool, pQueryPool);
util_hash_table_set_u64(ctx->object_table, pool->base.id, pool);
}
static void
vkr_dispatch_vkDestroyQueryPool(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyQueryPool *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(pool, query_pool, QUERY_POOL, vkDestroyQueryPool, queryPool);
util_hash_table_remove_u64(ctx->object_table, pool->base.id);
}
static void
vkr_dispatch_vkGetQueryPoolResults(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetQueryPoolResults *args)
{
vn_replace_vkGetQueryPoolResults_args_handle(args);
args->ret = vkGetQueryPoolResults(args->device, args->queryPool, args->firstQuery, args->queryCount, args->dataSize, args->pData, args->stride, args->flags);
}
static void
vkr_dispatch_vkResetQueryPool(struct vn_dispatch_context *dispatch, struct vn_command_vkResetQueryPool *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_vkResetQueryPool_args_handle(args);
dev->ResetQueryPool(args->device, args->queryPool, args->firstQuery, args->queryCount);
}
static void
vkr_dispatch_vkCreateShaderModule(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateShaderModule *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(mod, shader_module, SHADER_MODULE, vkCreateShaderModule, pShaderModule);
util_hash_table_set_u64(ctx->object_table, mod->base.id, mod);
}
static void
vkr_dispatch_vkDestroyShaderModule(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyShaderModule *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(mod, shader_module, SHADER_MODULE, vkDestroyShaderModule, shaderModule);
util_hash_table_remove_u64(ctx->object_table, mod->base.id);
}
static void
vkr_dispatch_vkCreatePipelineLayout(struct vn_dispatch_context *dispatch, struct vn_command_vkCreatePipelineLayout *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(layout, pipeline_layout, PIPELINE_LAYOUT, vkCreatePipelineLayout, pPipelineLayout);
util_hash_table_set_u64(ctx->object_table, layout->base.id, layout);
}
static void
vkr_dispatch_vkDestroyPipelineLayout(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyPipelineLayout *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(layout, pipeline_layout, PIPELINE_LAYOUT, vkDestroyPipelineLayout, pipelineLayout);
util_hash_table_remove_u64(ctx->object_table, layout->base.id);
}
static void
vkr_dispatch_vkCreatePipelineCache(struct vn_dispatch_context *dispatch, struct vn_command_vkCreatePipelineCache *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(cache, pipeline_cache, PIPELINE_CACHE, vkCreatePipelineCache, pPipelineCache);
util_hash_table_set_u64(ctx->object_table, cache->base.id, cache);
}
static void
vkr_dispatch_vkDestroyPipelineCache(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyPipelineCache *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(cache, pipeline_cache, PIPELINE_CACHE, vkDestroyPipelineCache, pipelineCache);
util_hash_table_remove_u64(ctx->object_table, cache->base.id);
}
static void
vkr_dispatch_vkGetPipelineCacheData(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkGetPipelineCacheData *args)
{
vn_replace_vkGetPipelineCacheData_args_handle(args);
args->ret = vkGetPipelineCacheData(args->device, args->pipelineCache, args->pDataSize, args->pData);
}
static void
vkr_dispatch_vkMergePipelineCaches(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkMergePipelineCaches *args)
{
vn_replace_vkMergePipelineCaches_args_handle(args);
args->ret = vkMergePipelineCaches(args->device, args->dstCache, args->srcCacheCount, args->pSrcCaches);
}
static void
vkr_dispatch_vkCreateGraphicsPipelines(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateGraphicsPipelines *args)
{
struct vkr_context *ctx = dispatch->data;
struct object_array arr;
if (!object_array_init(&arr,
args->createInfoCount,
VK_OBJECT_TYPE_PIPELINE,
sizeof(struct vkr_pipeline),
sizeof(VkPipeline),
args->pPipelines)) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
return;
}
vn_replace_vkCreateGraphicsPipelines_args_handle(args);
args->ret = vkCreateGraphicsPipelines(args->device, args->pipelineCache, args->createInfoCount, args->pCreateInfos, NULL, arr.handle_storage);
if (args->ret != VK_SUCCESS) {
object_array_fini(&arr);
return;
}
for (uint32_t i = 0; i < arr.count; i++) {
struct vkr_pipeline *pipeline = arr.objects[i];
pipeline->base.handle.pipeline = ((VkPipeline *)arr.handle_storage)[i];
util_hash_table_set_u64(ctx->object_table, pipeline->base.id, pipeline);
}
arr.objects_stolen = true;
object_array_fini(&arr);
}
static void
vkr_dispatch_vkCreateComputePipelines(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateComputePipelines *args)
{
struct vkr_context *ctx = dispatch->data;
struct object_array arr;
if (!object_array_init(&arr,
args->createInfoCount,
VK_OBJECT_TYPE_PIPELINE,
sizeof(struct vkr_pipeline),
sizeof(VkPipeline),
args->pPipelines)) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
return;
}
vn_replace_vkCreateComputePipelines_args_handle(args);
args->ret = vkCreateComputePipelines(args->device, args->pipelineCache, args->createInfoCount, args->pCreateInfos, NULL, arr.handle_storage);
if (args->ret != VK_SUCCESS) {
object_array_fini(&arr);
return;
}
for (uint32_t i = 0; i < arr.count; i++) {
struct vkr_pipeline *pipeline = arr.objects[i];
pipeline->base.handle.pipeline = ((VkPipeline *)arr.handle_storage)[i];
util_hash_table_set_u64(ctx->object_table, pipeline->base.id, pipeline);
}
arr.objects_stolen = true;
object_array_fini(&arr);
}
static void
vkr_dispatch_vkDestroyPipeline(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyPipeline *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(pipeline, pipeline, PIPELINE, vkDestroyPipeline, pipeline);
util_hash_table_remove_u64(ctx->object_table, pipeline->base.id);
}
static void
vkr_dispatch_vkCreateCommandPool(struct vn_dispatch_context *dispatch, struct vn_command_vkCreateCommandPool *args)
{
struct vkr_context *ctx = dispatch->data;
CREATE_OBJECT(pool, command_pool, COMMAND_POOL, vkCreateCommandPool, pCommandPool);
list_inithead(&pool->command_buffers);
util_hash_table_set_u64(ctx->object_table, pool->base.id, pool);
}
static void
vkr_dispatch_vkDestroyCommandPool(struct vn_dispatch_context *dispatch, struct vn_command_vkDestroyCommandPool *args)
{
struct vkr_context *ctx = dispatch->data;
DESTROY_OBJECT(pool, command_pool, COMMAND_POOL, vkDestroyCommandPool, commandPool);
struct vkr_command_buffer *cmd, *tmp;
LIST_FOR_EACH_ENTRY_SAFE(cmd, tmp, &pool->command_buffers, head)
util_hash_table_remove_u64(ctx->object_table, cmd->base.id);
util_hash_table_remove_u64(ctx->object_table, pool->base.id);
}
static void
vkr_dispatch_vkResetCommandPool(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkResetCommandPool *args)
{
vn_replace_vkResetCommandPool_args_handle(args);
args->ret = vkResetCommandPool(args->device, args->commandPool, args->flags);
}
static void
vkr_dispatch_vkTrimCommandPool(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkTrimCommandPool *args)
{
vn_replace_vkTrimCommandPool_args_handle(args);
vkTrimCommandPool(args->device, args->commandPool, args->flags);
}
static void
vkr_dispatch_vkAllocateCommandBuffers(struct vn_dispatch_context *dispatch, struct vn_command_vkAllocateCommandBuffers *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_command_pool *pool = (struct vkr_command_pool *)(uintptr_t)args->pAllocateInfo->commandPool;
if (!pool || pool->base.type != VK_OBJECT_TYPE_COMMAND_POOL) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
struct object_array arr;
if (!object_array_init(&arr,
args->pAllocateInfo->commandBufferCount,
VK_OBJECT_TYPE_COMMAND_BUFFER,
sizeof(struct vkr_command_buffer),
sizeof(VkCommandBuffer),
args->pCommandBuffers)) {
args->ret = VK_ERROR_OUT_OF_HOST_MEMORY;
return;
}
vn_replace_vkAllocateCommandBuffers_args_handle(args);
args->ret = vkAllocateCommandBuffers(args->device, args->pAllocateInfo, arr.handle_storage);
if (args->ret != VK_SUCCESS) {
object_array_fini(&arr);
return;
}
for (uint32_t i = 0; i < arr.count; i++) {
struct vkr_command_buffer *cmd = arr.objects[i];
cmd->base.handle.command_buffer = ((VkCommandBuffer *)arr.handle_storage)[i];
cmd->device = dev;
list_add(&cmd->head, &pool->command_buffers);
util_hash_table_set_u64(ctx->object_table, cmd->base.id, cmd);
}
arr.objects_stolen = true;
object_array_fini(&arr);
}
static void
vkr_dispatch_vkFreeCommandBuffers(struct vn_dispatch_context *dispatch, struct vn_command_vkFreeCommandBuffers *args)
{
struct vkr_context *ctx = dispatch->data;
struct list_head free_cmds;
list_inithead(&free_cmds);
for (uint32_t i = 0; i < args->commandBufferCount; i++) {
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->pCommandBuffers[i];
if (!cmd)
continue;
if (cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
list_del(&cmd->head);
list_addtail(&cmd->head, &free_cmds);
}
vn_replace_vkFreeCommandBuffers_args_handle(args);
vkFreeCommandBuffers(args->device, args->commandPool, args->commandBufferCount, args->pCommandBuffers);
struct vkr_command_buffer *cmd, *tmp;
LIST_FOR_EACH_ENTRY_SAFE(cmd, tmp, &free_cmds, head)
util_hash_table_remove_u64(ctx->object_table, cmd->base.id);
}
static void
vkr_dispatch_vkResetCommandBuffer(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkResetCommandBuffer *args)
{
vn_replace_vkResetCommandBuffer_args_handle(args);
args->ret = vkResetCommandBuffer(args->commandBuffer, args->flags);
}
static void
vkr_dispatch_vkBeginCommandBuffer(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkBeginCommandBuffer *args)
{
vn_replace_vkBeginCommandBuffer_args_handle(args);
args->ret = vkBeginCommandBuffer(args->commandBuffer, args->pBeginInfo);
}
static void
vkr_dispatch_vkEndCommandBuffer(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkEndCommandBuffer *args)
{
vn_replace_vkEndCommandBuffer_args_handle(args);
args->ret = vkEndCommandBuffer(args->commandBuffer);
}
static void
vkr_dispatch_vkCmdBindPipeline(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBindPipeline *args)
{
vn_replace_vkCmdBindPipeline_args_handle(args);
vkCmdBindPipeline(args->commandBuffer, args->pipelineBindPoint, args->pipeline);
}
static void
vkr_dispatch_vkCmdSetViewport(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetViewport *args)
{
vn_replace_vkCmdSetViewport_args_handle(args);
vkCmdSetViewport(args->commandBuffer, args->firstViewport, args->viewportCount, args->pViewports);
}
static void
vkr_dispatch_vkCmdSetScissor(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetScissor *args)
{
vn_replace_vkCmdSetScissor_args_handle(args);
vkCmdSetScissor(args->commandBuffer, args->firstScissor, args->scissorCount, args->pScissors);
}
static void
vkr_dispatch_vkCmdSetLineWidth(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetLineWidth *args)
{
vn_replace_vkCmdSetLineWidth_args_handle(args);
vkCmdSetLineWidth(args->commandBuffer, args->lineWidth);
}
static void
vkr_dispatch_vkCmdSetDepthBias(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetDepthBias *args)
{
vn_replace_vkCmdSetDepthBias_args_handle(args);
vkCmdSetDepthBias(args->commandBuffer, args->depthBiasConstantFactor, args->depthBiasClamp, args->depthBiasSlopeFactor);
}
static void
vkr_dispatch_vkCmdSetBlendConstants(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetBlendConstants *args)
{
vn_replace_vkCmdSetBlendConstants_args_handle(args);
vkCmdSetBlendConstants(args->commandBuffer, args->blendConstants);
}
static void
vkr_dispatch_vkCmdSetDepthBounds(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetDepthBounds *args)
{
vn_replace_vkCmdSetDepthBounds_args_handle(args);
vkCmdSetDepthBounds(args->commandBuffer, args->minDepthBounds, args->maxDepthBounds);
}
static void
vkr_dispatch_vkCmdSetStencilCompareMask(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetStencilCompareMask *args)
{
vn_replace_vkCmdSetStencilCompareMask_args_handle(args);
vkCmdSetStencilCompareMask(args->commandBuffer, args->faceMask, args->compareMask);
}
static void
vkr_dispatch_vkCmdSetStencilWriteMask(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetStencilWriteMask *args)
{
vn_replace_vkCmdSetStencilWriteMask_args_handle(args);
vkCmdSetStencilWriteMask(args->commandBuffer, args->faceMask, args->writeMask);
}
static void
vkr_dispatch_vkCmdSetStencilReference(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetStencilReference *args)
{
vn_replace_vkCmdSetStencilReference_args_handle(args);
vkCmdSetStencilReference(args->commandBuffer, args->faceMask, args->reference);
}
static void
vkr_dispatch_vkCmdBindDescriptorSets(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBindDescriptorSets *args)
{
vn_replace_vkCmdBindDescriptorSets_args_handle(args);
vkCmdBindDescriptorSets(args->commandBuffer, args->pipelineBindPoint, args->layout, args->firstSet, args->descriptorSetCount, args->pDescriptorSets, args->dynamicOffsetCount, args->pDynamicOffsets);
}
static void
vkr_dispatch_vkCmdBindIndexBuffer(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBindIndexBuffer *args)
{
vn_replace_vkCmdBindIndexBuffer_args_handle(args);
vkCmdBindIndexBuffer(args->commandBuffer, args->buffer, args->offset, args->indexType);
}
static void
vkr_dispatch_vkCmdBindVertexBuffers(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBindVertexBuffers *args)
{
vn_replace_vkCmdBindVertexBuffers_args_handle(args);
vkCmdBindVertexBuffers(args->commandBuffer, args->firstBinding, args->bindingCount, args->pBuffers, args->pOffsets);
}
static void
vkr_dispatch_vkCmdDraw(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDraw *args)
{
vn_replace_vkCmdDraw_args_handle(args);
vkCmdDraw(args->commandBuffer, args->vertexCount, args->instanceCount, args->firstVertex, args->firstInstance);
}
static void
vkr_dispatch_vkCmdDrawIndexed(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDrawIndexed *args)
{
vn_replace_vkCmdDrawIndexed_args_handle(args);
vkCmdDrawIndexed(args->commandBuffer, args->indexCount, args->instanceCount, args->firstIndex, args->vertexOffset, args->firstInstance);
}
static void
vkr_dispatch_vkCmdDrawIndirect(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDrawIndirect *args)
{
vn_replace_vkCmdDrawIndirect_args_handle(args);
vkCmdDrawIndirect(args->commandBuffer, args->buffer, args->offset, args->drawCount, args->stride);
}
static void
vkr_dispatch_vkCmdDrawIndexedIndirect(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDrawIndexedIndirect *args)
{
vn_replace_vkCmdDrawIndexedIndirect_args_handle(args);
vkCmdDrawIndexedIndirect(args->commandBuffer, args->buffer, args->offset, args->drawCount, args->stride);
}
static void
vkr_dispatch_vkCmdDispatch(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDispatch *args)
{
vn_replace_vkCmdDispatch_args_handle(args);
vkCmdDispatch(args->commandBuffer, args->groupCountX, args->groupCountY, args->groupCountZ);
}
static void
vkr_dispatch_vkCmdDispatchIndirect(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDispatchIndirect *args)
{
vn_replace_vkCmdDispatchIndirect_args_handle(args);
vkCmdDispatchIndirect(args->commandBuffer, args->buffer, args->offset);
}
static void
vkr_dispatch_vkCmdCopyBuffer(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdCopyBuffer *args)
{
vn_replace_vkCmdCopyBuffer_args_handle(args);
vkCmdCopyBuffer(args->commandBuffer, args->srcBuffer, args->dstBuffer, args->regionCount, args->pRegions);
}
static void
vkr_dispatch_vkCmdCopyImage(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdCopyImage *args)
{
vn_replace_vkCmdCopyImage_args_handle(args);
vkCmdCopyImage(args->commandBuffer, args->srcImage, args->srcImageLayout, args->dstImage, args->dstImageLayout, args->regionCount, args->pRegions);
}
static void
vkr_dispatch_vkCmdBlitImage(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBlitImage *args)
{
vn_replace_vkCmdBlitImage_args_handle(args);
vkCmdBlitImage(args->commandBuffer, args->srcImage, args->srcImageLayout, args->dstImage, args->dstImageLayout, args->regionCount, args->pRegions, args->filter);
}
static void
vkr_dispatch_vkCmdCopyBufferToImage(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdCopyBufferToImage *args)
{
vn_replace_vkCmdCopyBufferToImage_args_handle(args);
vkCmdCopyBufferToImage(args->commandBuffer, args->srcBuffer, args->dstImage, args->dstImageLayout, args->regionCount, args->pRegions);
}
static void
vkr_dispatch_vkCmdCopyImageToBuffer(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdCopyImageToBuffer *args)
{
vn_replace_vkCmdCopyImageToBuffer_args_handle(args);
vkCmdCopyImageToBuffer(args->commandBuffer, args->srcImage, args->srcImageLayout, args->dstBuffer, args->regionCount, args->pRegions);
}
static void
vkr_dispatch_vkCmdUpdateBuffer(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdUpdateBuffer *args)
{
vn_replace_vkCmdUpdateBuffer_args_handle(args);
vkCmdUpdateBuffer(args->commandBuffer, args->dstBuffer, args->dstOffset, args->dataSize, args->pData);
}
static void
vkr_dispatch_vkCmdFillBuffer(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdFillBuffer *args)
{
vn_replace_vkCmdFillBuffer_args_handle(args);
vkCmdFillBuffer(args->commandBuffer, args->dstBuffer, args->dstOffset, args->size, args->data);
}
static void
vkr_dispatch_vkCmdClearColorImage(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdClearColorImage *args)
{
vn_replace_vkCmdClearColorImage_args_handle(args);
vkCmdClearColorImage(args->commandBuffer, args->image, args->imageLayout, args->pColor, args->rangeCount, args->pRanges);
}
static void
vkr_dispatch_vkCmdClearDepthStencilImage(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdClearDepthStencilImage *args)
{
vn_replace_vkCmdClearDepthStencilImage_args_handle(args);
vkCmdClearDepthStencilImage(args->commandBuffer, args->image, args->imageLayout, args->pDepthStencil, args->rangeCount, args->pRanges);
}
static void
vkr_dispatch_vkCmdClearAttachments(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdClearAttachments *args)
{
vn_replace_vkCmdClearAttachments_args_handle(args);
vkCmdClearAttachments(args->commandBuffer, args->attachmentCount, args->pAttachments, args->rectCount, args->pRects);
}
static void
vkr_dispatch_vkCmdResolveImage(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdResolveImage *args)
{
vn_replace_vkCmdResolveImage_args_handle(args);
vkCmdResolveImage(args->commandBuffer, args->srcImage, args->srcImageLayout, args->dstImage, args->dstImageLayout, args->regionCount, args->pRegions);
}
static void
vkr_dispatch_vkCmdSetEvent(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetEvent *args)
{
vn_replace_vkCmdSetEvent_args_handle(args);
vkCmdSetEvent(args->commandBuffer, args->event, args->stageMask);
}
static void
vkr_dispatch_vkCmdResetEvent(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdResetEvent *args)
{
vn_replace_vkCmdResetEvent_args_handle(args);
vkCmdResetEvent(args->commandBuffer, args->event, args->stageMask);
}
static void
vkr_dispatch_vkCmdWaitEvents(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdWaitEvents *args)
{
vn_replace_vkCmdWaitEvents_args_handle(args);
vkCmdWaitEvents(args->commandBuffer, args->eventCount, args->pEvents, args->srcStageMask, args->dstStageMask, args->memoryBarrierCount, args->pMemoryBarriers, args->bufferMemoryBarrierCount, args->pBufferMemoryBarriers, args->imageMemoryBarrierCount, args->pImageMemoryBarriers);
}
static void
vkr_dispatch_vkCmdPipelineBarrier(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdPipelineBarrier *args)
{
vn_replace_vkCmdPipelineBarrier_args_handle(args);
vkCmdPipelineBarrier(args->commandBuffer, args->srcStageMask, args->dstStageMask, args->dependencyFlags, args->memoryBarrierCount, args->pMemoryBarriers, args->bufferMemoryBarrierCount, args->pBufferMemoryBarriers, args->imageMemoryBarrierCount, args->pImageMemoryBarriers);
}
static void
vkr_dispatch_vkCmdBeginQuery(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBeginQuery *args)
{
vn_replace_vkCmdBeginQuery_args_handle(args);
vkCmdBeginQuery(args->commandBuffer, args->queryPool, args->query, args->flags);
}
static void
vkr_dispatch_vkCmdEndQuery(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdEndQuery *args)
{
vn_replace_vkCmdEndQuery_args_handle(args);
vkCmdEndQuery(args->commandBuffer, args->queryPool, args->query);
}
static void
vkr_dispatch_vkCmdResetQueryPool(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdResetQueryPool *args)
{
vn_replace_vkCmdResetQueryPool_args_handle(args);
vkCmdResetQueryPool(args->commandBuffer, args->queryPool, args->firstQuery, args->queryCount);
}
static void
vkr_dispatch_vkCmdWriteTimestamp(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdWriteTimestamp *args)
{
vn_replace_vkCmdWriteTimestamp_args_handle(args);
vkCmdWriteTimestamp(args->commandBuffer, args->pipelineStage, args->queryPool, args->query);
}
static void
vkr_dispatch_vkCmdCopyQueryPoolResults(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdCopyQueryPoolResults *args)
{
vn_replace_vkCmdCopyQueryPoolResults_args_handle(args);
vkCmdCopyQueryPoolResults(args->commandBuffer, args->queryPool, args->firstQuery, args->queryCount, args->dstBuffer, args->dstOffset, args->stride, args->flags);
}
static void
vkr_dispatch_vkCmdPushConstants(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdPushConstants *args)
{
vn_replace_vkCmdPushConstants_args_handle(args);
vkCmdPushConstants(args->commandBuffer, args->layout, args->stageFlags, args->offset, args->size, args->pValues);
}
static void
vkr_dispatch_vkCmdBeginRenderPass(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBeginRenderPass *args)
{
vn_replace_vkCmdBeginRenderPass_args_handle(args);
vkCmdBeginRenderPass(args->commandBuffer, args->pRenderPassBegin, args->contents);
}
static void
vkr_dispatch_vkCmdNextSubpass(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdNextSubpass *args)
{
vn_replace_vkCmdNextSubpass_args_handle(args);
vkCmdNextSubpass(args->commandBuffer, args->contents);
}
static void
vkr_dispatch_vkCmdEndRenderPass(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdEndRenderPass *args)
{
vn_replace_vkCmdEndRenderPass_args_handle(args);
vkCmdEndRenderPass(args->commandBuffer);
}
static void
vkr_dispatch_vkCmdExecuteCommands(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdExecuteCommands *args)
{
vn_replace_vkCmdExecuteCommands_args_handle(args);
vkCmdExecuteCommands(args->commandBuffer, args->commandBufferCount, args->pCommandBuffers);
}
static void
vkr_dispatch_vkCmdSetDeviceMask(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdSetDeviceMask *args)
{
vn_replace_vkCmdSetDeviceMask_args_handle(args);
vkCmdSetDeviceMask(args->commandBuffer, args->deviceMask);
}
static void
vkr_dispatch_vkCmdDispatchBase(UNUSED struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDispatchBase *args)
{
vn_replace_vkCmdDispatchBase_args_handle(args);
vkCmdDispatchBase(args->commandBuffer, args->baseGroupX, args->baseGroupY, args->baseGroupZ, args->groupCountX, args->groupCountY, args->groupCountZ);
}
static void
vkr_dispatch_vkCmdBeginRenderPass2(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBeginRenderPass2 *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdBeginRenderPass2_args_handle(args);
cmd->device->CmdBeginRenderPass2(args->commandBuffer, args->pRenderPassBegin, args->pSubpassBeginInfo);
}
static void
vkr_dispatch_vkCmdNextSubpass2(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdNextSubpass2 *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdNextSubpass2_args_handle(args);
cmd->device->CmdNextSubpass2(args->commandBuffer, args->pSubpassBeginInfo, args->pSubpassEndInfo);
}
static void
vkr_dispatch_vkCmdEndRenderPass2(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdEndRenderPass2 *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdEndRenderPass2_args_handle(args);
cmd->device->CmdEndRenderPass2(args->commandBuffer, args->pSubpassEndInfo);
}
static void
vkr_dispatch_vkCmdDrawIndirectCount(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDrawIndirectCount *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdDrawIndirectCount_args_handle(args);
cmd->device->CmdDrawIndirectCount(args->commandBuffer, args->buffer, args->offset, args->countBuffer, args->countBufferOffset, args->maxDrawCount, args->stride);
}
static void
vkr_dispatch_vkCmdDrawIndexedIndirectCount(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDrawIndexedIndirectCount *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdDrawIndexedIndirectCount_args_handle(args);
cmd->device->CmdDrawIndexedIndirectCount(args->commandBuffer, args->buffer, args->offset, args->countBuffer, args->countBufferOffset, args->maxDrawCount, args->stride);
}
static void
vkr_dispatch_vkCmdBindTransformFeedbackBuffersEXT(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBindTransformFeedbackBuffersEXT *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdBindTransformFeedbackBuffersEXT_args_handle(args);
cmd->device->cmd_bind_transform_feedback_buffers(args->commandBuffer, args->firstBinding, args->bindingCount, args->pBuffers, args->pOffsets, args->pSizes);
}
static void
vkr_dispatch_vkCmdBeginTransformFeedbackEXT(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBeginTransformFeedbackEXT *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdBeginTransformFeedbackEXT_args_handle(args);
cmd->device->cmd_begin_transform_feedback(args->commandBuffer, args->firstCounterBuffer, args->counterBufferCount, args->pCounterBuffers, args->pCounterBufferOffsets);
}
static void
vkr_dispatch_vkCmdEndTransformFeedbackEXT(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdEndTransformFeedbackEXT *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdEndTransformFeedbackEXT_args_handle(args);
cmd->device->cmd_end_transform_feedback(args->commandBuffer, args->firstCounterBuffer, args->counterBufferCount, args->pCounterBuffers, args->pCounterBufferOffsets);
}
static void
vkr_dispatch_vkCmdBeginQueryIndexedEXT(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdBeginQueryIndexedEXT *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdBeginQueryIndexedEXT_args_handle(args);
cmd->device->cmd_begin_query_indexed(args->commandBuffer, args->queryPool, args->query, args->flags, args->index);
}
static void
vkr_dispatch_vkCmdEndQueryIndexedEXT(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdEndQueryIndexedEXT *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdEndQueryIndexedEXT_args_handle(args);
cmd->device->cmd_end_query_indexed(args->commandBuffer, args->queryPool, args->query, args->index);
}
static void
vkr_dispatch_vkCmdDrawIndirectByteCountEXT(struct vn_dispatch_context *dispatch, struct vn_command_vkCmdDrawIndirectByteCountEXT *args)
{
struct vkr_context *ctx = dispatch->data;
struct vkr_command_buffer *cmd = (struct vkr_command_buffer *)args->commandBuffer;
if (!cmd || cmd->base.type != VK_OBJECT_TYPE_COMMAND_BUFFER) {
vkr_cs_decoder_set_fatal(&ctx->decoder);
return;
}
vn_replace_vkCmdDrawIndirectByteCountEXT_args_handle(args);
cmd->device->cmd_draw_indirect_byte_count(args->commandBuffer, args->instanceCount, args->firstInstance, args->counterBuffer, args->counterBufferOffset, args->counterOffset, args->vertexStride);
}
static void
vkr_dispatch_vkGetImageDrmFormatModifierPropertiesEXT(struct vn_dispatch_context *dispatch, struct vn_command_vkGetImageDrmFormatModifierPropertiesEXT *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_vkGetImageDrmFormatModifierPropertiesEXT_args_handle(args);
args->ret = dev->get_image_drm_format_modifier_properties(args->device, args->image, args->pProperties);
}
static void
vkr_dispatch_vkGetMemoryResourcePropertiesMESA(struct vn_dispatch_context *dispatch, struct vn_command_vkGetMemoryResourcePropertiesMESA *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_resource_attachment *att = util_hash_table_get(ctx->resource_table, uintptr_to_pointer(args->resourceId));
if (!att || !att->resource) {
args->ret = VK_ERROR_INVALID_EXTERNAL_HANDLE;
return;
}
VkExternalMemoryHandleTypeFlagBits handle_type;
if (!vkr_get_fd_handle_type_from_virgl_fd_type(dev->physical_device, att->resource->fd_type, &handle_type)) {
args->ret = VK_ERROR_INVALID_EXTERNAL_HANDLE;
return;
}
VkMemoryFdPropertiesKHR memory_fd_properties = {
.sType = VK_STRUCTURE_TYPE_MEMORY_FD_PROPERTIES_KHR,
.pNext = NULL,
.memoryTypeBits = 0,
};
vn_replace_vkGetMemoryResourcePropertiesMESA_args_handle(args);
args->ret = dev->get_memory_fd_properties(args->device, handle_type, att->resource->fd, &memory_fd_properties);
args->pMemoryResourceProperties->memoryTypeBits = memory_fd_properties.memoryTypeBits;
}
static void
vkr_dispatch_debug_log(UNUSED struct vn_dispatch_context *dispatch, const char *msg)
{
vrend_printf("vkr: %s\n", msg);
}
static void
vkr_context_init_dispatch(struct vkr_context *ctx)
{
struct vn_dispatch_context *dispatch = &ctx->dispatch;
dispatch->data = ctx;
dispatch->debug_log = vkr_dispatch_debug_log;
dispatch->encoder = (struct vn_cs_encoder *)&ctx->encoder;
dispatch->decoder = (struct vn_cs_decoder *)&ctx->decoder;
dispatch->dispatch_vkSetReplyCommandStreamMESA = vkr_dispatch_vkSetReplyCommandStreamMESA;
dispatch->dispatch_vkSeekReplyCommandStreamMESA = vkr_dispatch_vkSeekReplyCommandStreamMESA;
dispatch->dispatch_vkExecuteCommandStreamsMESA = vkr_dispatch_vkExecuteCommandStreamsMESA;
dispatch->dispatch_vkCreateRingMESA = vkr_dispatch_vkCreateRingMESA;
dispatch->dispatch_vkDestroyRingMESA = vkr_dispatch_vkDestroyRingMESA;
dispatch->dispatch_vkNotifyRingMESA = vkr_dispatch_vkNotifyRingMESA;
dispatch->dispatch_vkWriteRingExtraMESA = vkr_dispatch_vkWriteRingExtraMESA;
dispatch->dispatch_vkEnumerateInstanceVersion = vkr_dispatch_vkEnumerateInstanceVersion;
dispatch->dispatch_vkEnumerateInstanceExtensionProperties = vkr_dispatch_vkEnumerateInstanceExtensionProperties;
/* we don't advertise layers (and should never) */
dispatch->dispatch_vkEnumerateInstanceLayerProperties = NULL;
dispatch->dispatch_vkCreateInstance = vkr_dispatch_vkCreateInstance;
dispatch->dispatch_vkDestroyInstance = vkr_dispatch_vkDestroyInstance;
dispatch->dispatch_vkGetInstanceProcAddr = NULL;
dispatch->dispatch_vkEnumeratePhysicalDevices = vkr_dispatch_vkEnumeratePhysicalDevices;
dispatch->dispatch_vkEnumeratePhysicalDeviceGroups = vkr_dispatch_vkEnumeratePhysicalDeviceGroups;
dispatch->dispatch_vkGetPhysicalDeviceFeatures = vkr_dispatch_vkGetPhysicalDeviceFeatures;
dispatch->dispatch_vkGetPhysicalDeviceProperties = vkr_dispatch_vkGetPhysicalDeviceProperties;
dispatch->dispatch_vkGetPhysicalDeviceQueueFamilyProperties = vkr_dispatch_vkGetPhysicalDeviceQueueFamilyProperties;
dispatch->dispatch_vkGetPhysicalDeviceMemoryProperties = vkr_dispatch_vkGetPhysicalDeviceMemoryProperties;
dispatch->dispatch_vkGetPhysicalDeviceFormatProperties = vkr_dispatch_vkGetPhysicalDeviceFormatProperties;
dispatch->dispatch_vkGetPhysicalDeviceImageFormatProperties = vkr_dispatch_vkGetPhysicalDeviceImageFormatProperties;
dispatch->dispatch_vkGetPhysicalDeviceSparseImageFormatProperties = vkr_dispatch_vkGetPhysicalDeviceSparseImageFormatProperties;
dispatch->dispatch_vkGetPhysicalDeviceFeatures2 = vkr_dispatch_vkGetPhysicalDeviceFeatures2;
dispatch->dispatch_vkGetPhysicalDeviceProperties2 = vkr_dispatch_vkGetPhysicalDeviceProperties2;
dispatch->dispatch_vkGetPhysicalDeviceQueueFamilyProperties2 = vkr_dispatch_vkGetPhysicalDeviceQueueFamilyProperties2;
dispatch->dispatch_vkGetPhysicalDeviceMemoryProperties2 = vkr_dispatch_vkGetPhysicalDeviceMemoryProperties2;
dispatch->dispatch_vkGetPhysicalDeviceFormatProperties2 = vkr_dispatch_vkGetPhysicalDeviceFormatProperties2;
dispatch->dispatch_vkGetPhysicalDeviceImageFormatProperties2 = vkr_dispatch_vkGetPhysicalDeviceImageFormatProperties2;
dispatch->dispatch_vkGetPhysicalDeviceSparseImageFormatProperties2 = vkr_dispatch_vkGetPhysicalDeviceSparseImageFormatProperties2;
dispatch->dispatch_vkGetPhysicalDeviceExternalBufferProperties = NULL;
dispatch->dispatch_vkGetPhysicalDeviceExternalSemaphoreProperties = NULL;
dispatch->dispatch_vkGetPhysicalDeviceExternalFenceProperties = NULL;
dispatch->dispatch_vkEnumerateDeviceExtensionProperties = vkr_dispatch_vkEnumerateDeviceExtensionProperties;
dispatch->dispatch_vkEnumerateDeviceLayerProperties = NULL;
dispatch->dispatch_vkCreateDevice = vkr_dispatch_vkCreateDevice;
dispatch->dispatch_vkDestroyDevice = vkr_dispatch_vkDestroyDevice;
dispatch->dispatch_vkGetDeviceProcAddr = NULL;
dispatch->dispatch_vkGetDeviceGroupPeerMemoryFeatures = vkr_dispatch_vkGetDeviceGroupPeerMemoryFeatures;
dispatch->dispatch_vkDeviceWaitIdle = vkr_dispatch_vkDeviceWaitIdle;
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;
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;
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;
dispatch->dispatch_vkAllocateMemory = vkr_dispatch_vkAllocateMemory;
dispatch->dispatch_vkFreeMemory = vkr_dispatch_vkFreeMemory;
dispatch->dispatch_vkMapMemory = NULL;
dispatch->dispatch_vkUnmapMemory = NULL;
dispatch->dispatch_vkFlushMappedMemoryRanges = NULL;
dispatch->dispatch_vkInvalidateMappedMemoryRanges = NULL;
dispatch->dispatch_vkGetDeviceMemoryCommitment = vkr_dispatch_vkGetDeviceMemoryCommitment;
dispatch->dispatch_vkGetDeviceMemoryOpaqueCaptureAddress = vkr_dispatch_vkGetDeviceMemoryOpaqueCaptureAddress;
dispatch->dispatch_vkCreateBuffer = vkr_dispatch_vkCreateBuffer;
dispatch->dispatch_vkDestroyBuffer = vkr_dispatch_vkDestroyBuffer;
dispatch->dispatch_vkGetBufferMemoryRequirements = vkr_dispatch_vkGetBufferMemoryRequirements;
dispatch->dispatch_vkGetBufferMemoryRequirements2 = vkr_dispatch_vkGetBufferMemoryRequirements2;
dispatch->dispatch_vkBindBufferMemory = vkr_dispatch_vkBindBufferMemory;
dispatch->dispatch_vkBindBufferMemory2 = vkr_dispatch_vkBindBufferMemory2;
dispatch->dispatch_vkGetBufferOpaqueCaptureAddress = vkr_dispatch_vkGetBufferOpaqueCaptureAddress;
dispatch->dispatch_vkGetBufferDeviceAddress = vkr_dispatch_vkGetBufferDeviceAddress;
dispatch->dispatch_vkCreateBufferView = vkr_dispatch_vkCreateBufferView;
dispatch->dispatch_vkDestroyBufferView = vkr_dispatch_vkDestroyBufferView;
dispatch->dispatch_vkCreateImage = vkr_dispatch_vkCreateImage;
dispatch->dispatch_vkDestroyImage = vkr_dispatch_vkDestroyImage;
dispatch->dispatch_vkGetImageMemoryRequirements = vkr_dispatch_vkGetImageMemoryRequirements;
dispatch->dispatch_vkGetImageMemoryRequirements2 = vkr_dispatch_vkGetImageMemoryRequirements2;
dispatch->dispatch_vkGetImageSparseMemoryRequirements = vkr_dispatch_vkGetImageSparseMemoryRequirements;
dispatch->dispatch_vkGetImageSparseMemoryRequirements2 = vkr_dispatch_vkGetImageSparseMemoryRequirements2;
dispatch->dispatch_vkBindImageMemory = vkr_dispatch_vkBindImageMemory;
dispatch->dispatch_vkBindImageMemory2 = vkr_dispatch_vkBindImageMemory2;
dispatch->dispatch_vkGetImageSubresourceLayout = vkr_dispatch_vkGetImageSubresourceLayout;
dispatch->dispatch_vkCreateImageView = vkr_dispatch_vkCreateImageView;
dispatch->dispatch_vkDestroyImageView = vkr_dispatch_vkDestroyImageView;
dispatch->dispatch_vkCreateSampler = vkr_dispatch_vkCreateSampler;
dispatch->dispatch_vkDestroySampler = vkr_dispatch_vkDestroySampler;
dispatch->dispatch_vkCreateSamplerYcbcrConversion = vkr_dispatch_vkCreateSamplerYcbcrConversion;
dispatch->dispatch_vkDestroySamplerYcbcrConversion = vkr_dispatch_vkDestroySamplerYcbcrConversion;
dispatch->dispatch_vkGetDescriptorSetLayoutSupport = vkr_dispatch_vkGetDescriptorSetLayoutSupport;
dispatch->dispatch_vkCreateDescriptorSetLayout = vkr_dispatch_vkCreateDescriptorSetLayout;
dispatch->dispatch_vkDestroyDescriptorSetLayout = vkr_dispatch_vkDestroyDescriptorSetLayout;
dispatch->dispatch_vkCreateDescriptorPool = vkr_dispatch_vkCreateDescriptorPool;
dispatch->dispatch_vkDestroyDescriptorPool = vkr_dispatch_vkDestroyDescriptorPool;
dispatch->dispatch_vkResetDescriptorPool = vkr_dispatch_vkResetDescriptorPool;
dispatch->dispatch_vkAllocateDescriptorSets = vkr_dispatch_vkAllocateDescriptorSets;
dispatch->dispatch_vkFreeDescriptorSets = vkr_dispatch_vkFreeDescriptorSets;
dispatch->dispatch_vkUpdateDescriptorSets = vkr_dispatch_vkUpdateDescriptorSets;
dispatch->dispatch_vkCreateDescriptorUpdateTemplate = vkr_dispatch_vkCreateDescriptorUpdateTemplate;
dispatch->dispatch_vkDestroyDescriptorUpdateTemplate = vkr_dispatch_vkDestroyDescriptorUpdateTemplate;
dispatch->dispatch_vkUpdateDescriptorSetWithTemplate = NULL;
dispatch->dispatch_vkCreateRenderPass = vkr_dispatch_vkCreateRenderPass;
dispatch->dispatch_vkCreateRenderPass2 = vkr_dispatch_vkCreateRenderPass2;
dispatch->dispatch_vkDestroyRenderPass = vkr_dispatch_vkDestroyRenderPass;
dispatch->dispatch_vkGetRenderAreaGranularity = vkr_dispatch_vkGetRenderAreaGranularity;
dispatch->dispatch_vkCreateFramebuffer = vkr_dispatch_vkCreateFramebuffer;
dispatch->dispatch_vkDestroyFramebuffer = vkr_dispatch_vkDestroyFramebuffer;
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;
dispatch->dispatch_vkCreateQueryPool = vkr_dispatch_vkCreateQueryPool;
dispatch->dispatch_vkDestroyQueryPool = vkr_dispatch_vkDestroyQueryPool;
dispatch->dispatch_vkGetQueryPoolResults = vkr_dispatch_vkGetQueryPoolResults;
dispatch->dispatch_vkResetQueryPool = vkr_dispatch_vkResetQueryPool;
dispatch->dispatch_vkCreateShaderModule = vkr_dispatch_vkCreateShaderModule;
dispatch->dispatch_vkDestroyShaderModule = vkr_dispatch_vkDestroyShaderModule;
dispatch->dispatch_vkCreatePipelineLayout = vkr_dispatch_vkCreatePipelineLayout;
dispatch->dispatch_vkDestroyPipelineLayout = vkr_dispatch_vkDestroyPipelineLayout;
dispatch->dispatch_vkCreatePipelineCache = vkr_dispatch_vkCreatePipelineCache;
dispatch->dispatch_vkDestroyPipelineCache = vkr_dispatch_vkDestroyPipelineCache;
dispatch->dispatch_vkGetPipelineCacheData = vkr_dispatch_vkGetPipelineCacheData;
dispatch->dispatch_vkMergePipelineCaches = vkr_dispatch_vkMergePipelineCaches;
dispatch->dispatch_vkCreateGraphicsPipelines = vkr_dispatch_vkCreateGraphicsPipelines;
dispatch->dispatch_vkCreateComputePipelines = vkr_dispatch_vkCreateComputePipelines;
dispatch->dispatch_vkDestroyPipeline = vkr_dispatch_vkDestroyPipeline;
dispatch->dispatch_vkCreateCommandPool = vkr_dispatch_vkCreateCommandPool;
dispatch->dispatch_vkDestroyCommandPool = vkr_dispatch_vkDestroyCommandPool;
dispatch->dispatch_vkResetCommandPool = vkr_dispatch_vkResetCommandPool;
dispatch->dispatch_vkTrimCommandPool = vkr_dispatch_vkTrimCommandPool;
dispatch->dispatch_vkAllocateCommandBuffers = vkr_dispatch_vkAllocateCommandBuffers;
dispatch->dispatch_vkFreeCommandBuffers = vkr_dispatch_vkFreeCommandBuffers;
dispatch->dispatch_vkResetCommandBuffer = vkr_dispatch_vkResetCommandBuffer;
dispatch->dispatch_vkBeginCommandBuffer = vkr_dispatch_vkBeginCommandBuffer;
dispatch->dispatch_vkEndCommandBuffer = vkr_dispatch_vkEndCommandBuffer;
dispatch->dispatch_vkCmdBindPipeline = vkr_dispatch_vkCmdBindPipeline;
dispatch->dispatch_vkCmdSetViewport = vkr_dispatch_vkCmdSetViewport;
dispatch->dispatch_vkCmdSetScissor = vkr_dispatch_vkCmdSetScissor;
dispatch->dispatch_vkCmdSetLineWidth = vkr_dispatch_vkCmdSetLineWidth;
dispatch->dispatch_vkCmdSetDepthBias = vkr_dispatch_vkCmdSetDepthBias;
dispatch->dispatch_vkCmdSetBlendConstants = vkr_dispatch_vkCmdSetBlendConstants;
dispatch->dispatch_vkCmdSetDepthBounds = vkr_dispatch_vkCmdSetDepthBounds;
dispatch->dispatch_vkCmdSetStencilCompareMask = vkr_dispatch_vkCmdSetStencilCompareMask;
dispatch->dispatch_vkCmdSetStencilWriteMask = vkr_dispatch_vkCmdSetStencilWriteMask;
dispatch->dispatch_vkCmdSetStencilReference = vkr_dispatch_vkCmdSetStencilReference;
dispatch->dispatch_vkCmdBindDescriptorSets = vkr_dispatch_vkCmdBindDescriptorSets;
dispatch->dispatch_vkCmdBindIndexBuffer = vkr_dispatch_vkCmdBindIndexBuffer;
dispatch->dispatch_vkCmdBindVertexBuffers = vkr_dispatch_vkCmdBindVertexBuffers;
dispatch->dispatch_vkCmdDraw = vkr_dispatch_vkCmdDraw;
dispatch->dispatch_vkCmdDrawIndexed = vkr_dispatch_vkCmdDrawIndexed;
dispatch->dispatch_vkCmdDrawIndirect = vkr_dispatch_vkCmdDrawIndirect;
dispatch->dispatch_vkCmdDrawIndexedIndirect = vkr_dispatch_vkCmdDrawIndexedIndirect;
dispatch->dispatch_vkCmdDispatch = vkr_dispatch_vkCmdDispatch;
dispatch->dispatch_vkCmdDispatchIndirect = vkr_dispatch_vkCmdDispatchIndirect;
dispatch->dispatch_vkCmdCopyBuffer = vkr_dispatch_vkCmdCopyBuffer;
dispatch->dispatch_vkCmdCopyImage = vkr_dispatch_vkCmdCopyImage;
dispatch->dispatch_vkCmdBlitImage = vkr_dispatch_vkCmdBlitImage;
dispatch->dispatch_vkCmdCopyBufferToImage = vkr_dispatch_vkCmdCopyBufferToImage;
dispatch->dispatch_vkCmdCopyImageToBuffer = vkr_dispatch_vkCmdCopyImageToBuffer;
dispatch->dispatch_vkCmdUpdateBuffer = vkr_dispatch_vkCmdUpdateBuffer;
dispatch->dispatch_vkCmdFillBuffer = vkr_dispatch_vkCmdFillBuffer;
dispatch->dispatch_vkCmdClearColorImage = vkr_dispatch_vkCmdClearColorImage;
dispatch->dispatch_vkCmdClearDepthStencilImage = vkr_dispatch_vkCmdClearDepthStencilImage;
dispatch->dispatch_vkCmdClearAttachments = vkr_dispatch_vkCmdClearAttachments;
dispatch->dispatch_vkCmdResolveImage = vkr_dispatch_vkCmdResolveImage;
dispatch->dispatch_vkCmdSetEvent = vkr_dispatch_vkCmdSetEvent;
dispatch->dispatch_vkCmdResetEvent = vkr_dispatch_vkCmdResetEvent;
dispatch->dispatch_vkCmdWaitEvents = vkr_dispatch_vkCmdWaitEvents;
dispatch->dispatch_vkCmdPipelineBarrier = vkr_dispatch_vkCmdPipelineBarrier;
dispatch->dispatch_vkCmdBeginQuery = vkr_dispatch_vkCmdBeginQuery;
dispatch->dispatch_vkCmdEndQuery = vkr_dispatch_vkCmdEndQuery;
dispatch->dispatch_vkCmdResetQueryPool = vkr_dispatch_vkCmdResetQueryPool;
dispatch->dispatch_vkCmdWriteTimestamp = vkr_dispatch_vkCmdWriteTimestamp;
dispatch->dispatch_vkCmdCopyQueryPoolResults = vkr_dispatch_vkCmdCopyQueryPoolResults;
dispatch->dispatch_vkCmdPushConstants = vkr_dispatch_vkCmdPushConstants;
dispatch->dispatch_vkCmdBeginRenderPass = vkr_dispatch_vkCmdBeginRenderPass;
dispatch->dispatch_vkCmdNextSubpass = vkr_dispatch_vkCmdNextSubpass;
dispatch->dispatch_vkCmdEndRenderPass = vkr_dispatch_vkCmdEndRenderPass;
dispatch->dispatch_vkCmdExecuteCommands = vkr_dispatch_vkCmdExecuteCommands;
dispatch->dispatch_vkCmdSetDeviceMask = vkr_dispatch_vkCmdSetDeviceMask;
dispatch->dispatch_vkCmdDispatchBase = vkr_dispatch_vkCmdDispatchBase;
dispatch->dispatch_vkCmdBeginRenderPass2 = vkr_dispatch_vkCmdBeginRenderPass2;
dispatch->dispatch_vkCmdNextSubpass2 = vkr_dispatch_vkCmdNextSubpass2;
dispatch->dispatch_vkCmdEndRenderPass2 = vkr_dispatch_vkCmdEndRenderPass2;
dispatch->dispatch_vkCmdDrawIndirectCount = vkr_dispatch_vkCmdDrawIndirectCount;
dispatch->dispatch_vkCmdDrawIndexedIndirectCount = vkr_dispatch_vkCmdDrawIndexedIndirectCount;
dispatch->dispatch_vkCmdBindTransformFeedbackBuffersEXT = vkr_dispatch_vkCmdBindTransformFeedbackBuffersEXT;
dispatch->dispatch_vkCmdBeginTransformFeedbackEXT = vkr_dispatch_vkCmdBeginTransformFeedbackEXT;
dispatch->dispatch_vkCmdEndTransformFeedbackEXT = vkr_dispatch_vkCmdEndTransformFeedbackEXT;
dispatch->dispatch_vkCmdBeginQueryIndexedEXT = vkr_dispatch_vkCmdBeginQueryIndexedEXT;
dispatch->dispatch_vkCmdEndQueryIndexedEXT = vkr_dispatch_vkCmdEndQueryIndexedEXT;
dispatch->dispatch_vkCmdDrawIndirectByteCountEXT = vkr_dispatch_vkCmdDrawIndirectByteCountEXT;
dispatch->dispatch_vkGetImageDrmFormatModifierPropertiesEXT = vkr_dispatch_vkGetImageDrmFormatModifierPropertiesEXT;
dispatch->dispatch_vkGetMemoryResourcePropertiesMESA = vkr_dispatch_vkGetMemoryResourcePropertiesMESA;
}
static int
vkr_context_submit_fence_locked(struct virgl_context *base,
uint32_t flags,
uint64_t queue_id,
void *fence_cookie)
{
struct vkr_context *ctx = (struct vkr_context *)base;
struct vkr_queue *queue;
VkResult result;
queue = util_hash_table_get_u64(ctx->object_table, queue_id);
if (!queue)
return -EINVAL;
struct vkr_device *dev = queue->device;
struct vkr_queue_sync *sync;
if (LIST_IS_EMPTY(&dev->free_syncs)) {
sync = malloc(sizeof(*sync));
if (!sync)
return -ENOMEM;
const struct VkFenceCreateInfo create_info = {
.sType = VK_STRUCTURE_TYPE_FENCE_CREATE_INFO,
};
result = vkCreateFence(dev->base.handle.device, &create_info, NULL, &sync->fence);
if (result != VK_SUCCESS) {
free(sync);
return -ENOMEM;
}
} else {
sync = LIST_ENTRY(struct vkr_queue_sync, dev->free_syncs.next, head);
list_del(&sync->head);
vkResetFences(dev->base.handle.device, 1, &sync->fence);
}
result = vkQueueSubmit(queue->base.handle.queue, 0, NULL, sync->fence);
if (result != VK_SUCCESS) {
list_add(&sync->head, &dev->free_syncs);
return -1;
}
sync->flags = flags;
sync->fence_cookie = fence_cookie;
if (queue->has_thread) {
mtx_lock(&queue->mutex);
list_addtail(&sync->head, &queue->pending_syncs);
mtx_unlock(&queue->mutex);
cnd_signal(&queue->cond);
} else {
list_addtail(&sync->head, &queue->pending_syncs);
}
if (LIST_IS_EMPTY(&queue->busy_head))
list_addtail(&queue->busy_head, &ctx->busy_queues);
return 0;
}
static int
vkr_context_submit_fence(struct virgl_context *base,
uint32_t flags,
uint64_t queue_id,
void *fence_cookie)
{
struct vkr_context *ctx = (struct vkr_context *)base;
int ret;
mtx_lock(&ctx->mutex);
ret = vkr_context_submit_fence_locked(base, flags, queue_id, fence_cookie);
mtx_unlock(&ctx->mutex);
return ret;
}
static void
vkr_context_retire_fences_locked(UNUSED struct virgl_context *base)
{
struct vkr_context *ctx = (struct vkr_context *)base;
struct vkr_queue_sync *sync, *sync_tmp;
struct vkr_queue *queue, *queue_tmp;
/* flush first and once because the per-queue sync threads might write to
* it any time
*/
if (ctx->fence_eventfd >= 0)
flush_eventfd(ctx->fence_eventfd);
LIST_FOR_EACH_ENTRY_SAFE(queue, queue_tmp, &ctx->busy_queues, busy_head) {
struct vkr_device *dev = queue->device;
struct list_head retired_syncs;
bool queue_empty;
vkr_queue_retire_syncs(queue, &retired_syncs, &queue_empty);
LIST_FOR_EACH_ENTRY_SAFE(sync, sync_tmp, &retired_syncs, head) {
ctx->base.fence_retire(&ctx->base,
queue->base.id,
sync->fence_cookie);
list_addtail(&sync->head, &dev->free_syncs);
}
if (queue_empty)
list_delinit(&queue->busy_head);
}
}
static void
vkr_context_retire_fences(struct virgl_context *base)
{
struct vkr_context *ctx = (struct vkr_context *)base;
mtx_lock(&ctx->mutex);
vkr_context_retire_fences_locked(base);
mtx_unlock(&ctx->mutex);
}
static int vkr_context_get_fencing_fd(struct virgl_context *base)
{
struct vkr_context *ctx = (struct vkr_context *)base;
return ctx->fence_eventfd;
}
static int vkr_context_submit_cmd(struct virgl_context *base,
const void *buffer,
size_t size)
{
struct vkr_context *ctx = (struct vkr_context *)base;
int ret = 0;
mtx_lock(&ctx->mutex);
vkr_cs_decoder_set_stream(&ctx->decoder, buffer, size);
while (vkr_cs_decoder_has_command(&ctx->decoder)) {
vn_dispatch_command(&ctx->dispatch);
/* TODO consider the client malicious and disconnect it */
if (vkr_cs_decoder_get_fatal(&ctx->decoder)) {
ret = EINVAL;
break;
}
}
vkr_cs_decoder_reset(&ctx->decoder);
mtx_unlock(&ctx->mutex);
return ret;
}
static int vkr_context_get_blob_locked(struct virgl_context *base,
uint64_t blob_id,
uint32_t flags,
struct virgl_context_blob *blob)
{
struct vkr_context *ctx = (struct vkr_context *)base;
struct vkr_device_memory *mem;
enum virgl_resource_fd_type fd_type = VIRGL_RESOURCE_FD_INVALID;
mem = util_hash_table_get_u64(ctx->object_table, blob_id);
if (!mem || mem->base.type != VK_OBJECT_TYPE_DEVICE_MEMORY)
return EINVAL;
/* a memory can only be exported once; we don't want two resources to point
* to the same storage.
*/
if (mem->exported)
return EINVAL;
if (!mem->valid_fd_types)
return EINVAL;
if (flags & VIRGL_RENDERER_BLOB_FLAG_USE_MAPPABLE) {
const bool host_visible =
mem->property_flags & VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT;
if (!host_visible)
return EINVAL;
}
if (flags & VIRGL_RENDERER_BLOB_FLAG_USE_CROSS_DEVICE) {
if (!(mem->valid_fd_types & (1 << VIRGL_RESOURCE_FD_DMABUF)))
return EINVAL;
fd_type = VIRGL_RESOURCE_FD_DMABUF;
}
if (fd_type == VIRGL_RESOURCE_FD_INVALID) {
/* prefer dmabuf for easier mapping? prefer opaque for performance? */
if (mem->valid_fd_types & (1 << VIRGL_RESOURCE_FD_DMABUF))
fd_type = VIRGL_RESOURCE_FD_DMABUF;
else if (mem->valid_fd_types & (1 << VIRGL_RESOURCE_FD_OPAQUE))
fd_type = VIRGL_RESOURCE_FD_OPAQUE;
}
int fd = -1;
if (fd_type != VIRGL_RESOURCE_FD_INVALID) {
VkExternalMemoryHandleTypeFlagBits handle_type;
switch (fd_type) {
case VIRGL_RESOURCE_FD_DMABUF:
handle_type = VK_EXTERNAL_MEMORY_HANDLE_TYPE_DMA_BUF_BIT_EXT;
break;
case VIRGL_RESOURCE_FD_OPAQUE:
handle_type = VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_FD_BIT;
break;
default:
return EINVAL;
}
VkResult result = ctx->instance->get_memory_fd(mem->device,
&(VkMemoryGetFdInfoKHR){
.sType = VK_STRUCTURE_TYPE_MEMORY_GET_FD_INFO_KHR,
.memory = mem->base.handle.device_memory,
.handleType = handle_type,
}, &fd);
if (result != VK_SUCCESS)
return EINVAL;
}
blob->type = fd_type;
blob->u.fd = fd;
if (flags & VIRGL_RENDERER_BLOB_FLAG_USE_MAPPABLE) {
const bool host_coherent =
mem->property_flags & VK_MEMORY_PROPERTY_HOST_COHERENT_BIT;
const bool host_cached =
mem->property_flags & VK_MEMORY_PROPERTY_HOST_CACHED_BIT;
/* XXX guessed */
if (host_coherent) {
blob->map_info = host_cached ?
VIRGL_RENDERER_MAP_CACHE_CACHED : VIRGL_RENDERER_MAP_CACHE_WC;
} else {
blob->map_info = VIRGL_RENDERER_MAP_CACHE_WC;
}
} else {
blob->map_info = VIRGL_RENDERER_MAP_CACHE_NONE;
}
blob->renderer_data = mem;
return 0;
}
static int vkr_context_get_blob(struct virgl_context *base,
uint64_t blob_id,
uint32_t flags,
struct virgl_context_blob *blob)
{
struct vkr_context *ctx = (struct vkr_context *)base;
int ret;
mtx_lock(&ctx->mutex);
ret = vkr_context_get_blob_locked(base, blob_id, flags, blob);
/* XXX unlock in vkr_context_get_blob_done on success */
if (ret)
mtx_unlock(&ctx->mutex);
return ret;
}
static void vkr_context_get_blob_done(struct virgl_context *base,
uint32_t res_id,
struct virgl_context_blob *blob)
{
struct vkr_context *ctx = (struct vkr_context *)base;
struct vkr_device_memory *mem = blob->renderer_data;
mem->exported = true;
mem->exported_res_id = res_id;
list_add(&mem->head, &ctx->newly_exported_memories);
/* XXX locked in vkr_context_get_blob */
mtx_unlock(&ctx->mutex);
}
static int vkr_context_transfer_3d_locked(struct virgl_context *base,
struct virgl_resource *res,
const struct vrend_transfer_info *info,
int transfer_mode)
{
struct vkr_context *ctx = (struct vkr_context *)base;
struct vkr_resource_attachment *att;
const struct iovec *iov;
int iov_count;
if (info->level || info->stride || info->layer_stride)
return EINVAL;
if (info->iovec) {
iov = info->iovec;
iov_count = info->iovec_cnt;
} else {
iov = res->iov;
iov_count = res->iov_count;
}
if (!iov || !iov_count)
return 0;
att = util_hash_table_get(ctx->resource_table,
uintptr_to_pointer(res->res_id));
if (!att)
return EINVAL;
assert(att->resource == res);
/* TODO transfer via dmabuf (and find a solution to coherency issues) */
if (LIST_IS_EMPTY(&att->memories)) {
vrend_printf("unable to transfer without VkDeviceMemory (TODO)");
return EINVAL;
}
struct vkr_device_memory *mem =
LIST_ENTRY(struct vkr_device_memory, att->memories.next, head);
const VkMappedMemoryRange range = {
.sType = VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE,
.memory = mem->base.handle.device_memory,
.offset = info->box->x,
.size = info->box->width,
};
void *ptr;
VkResult result = vkMapMemory(mem->device, range.memory,
range.offset, range.size, 0, &ptr);
if (result != VK_SUCCESS)
return EINVAL;
if (transfer_mode == VIRGL_TRANSFER_TO_HOST) {
vrend_read_from_iovec(iov, iov_count, range.offset, ptr, range.size);
vkFlushMappedMemoryRanges(mem->device, 1, &range);
} else {
vkInvalidateMappedMemoryRanges(mem->device, 1, &range);
vrend_write_to_iovec(iov, iov_count, range.offset, ptr, range.size);
}
vkUnmapMemory(mem->device, range.memory);
return 0;
}
static int vkr_context_transfer_3d(struct virgl_context *base,
struct virgl_resource *res,
const struct vrend_transfer_info *info,
int transfer_mode)
{
struct vkr_context *ctx = (struct vkr_context *)base;
int ret;
mtx_lock(&ctx->mutex);
ret = vkr_context_transfer_3d_locked(base, res, info, transfer_mode);
mtx_unlock(&ctx->mutex);
return ret;
}
static void vkr_context_attach_resource_locked(struct virgl_context *base,
struct virgl_resource *res)
{
struct vkr_context *ctx = (struct vkr_context *)base;
struct vkr_resource_attachment *att;
att = util_hash_table_get(ctx->resource_table,
uintptr_to_pointer(res->res_id));
if (att) {
assert(att->resource == res);
return;
}
att = calloc(1, sizeof(*att));
if (!att)
return;
/* TODO When in multi-process mode, we cannot share a virgl_resource as-is
* to another process. The resource must have a valid fd, and only the fd
* and the iov can be sent the other process.
*
* For vrend-to-vkr sharing, we can get the fd from pipe_resource.
*/
att->resource = res;
list_inithead(&att->memories);
/* associate a memory with the resource, if any */
struct vkr_device_memory *mem;
LIST_FOR_EACH_ENTRY(mem, &ctx->newly_exported_memories, head) {
if (mem->exported_res_id == res->res_id) {
list_del(&mem->head);
list_addtail(&mem->head, &att->memories);
break;
}
}
util_hash_table_set(ctx->resource_table,
uintptr_to_pointer(res->res_id),
att);
}
static void vkr_context_attach_resource(struct virgl_context *base,
struct virgl_resource *res)
{
struct vkr_context *ctx = (struct vkr_context *)base;
mtx_lock(&ctx->mutex);
vkr_context_attach_resource_locked(base, res);
mtx_unlock(&ctx->mutex);
}
static void vkr_context_detach_resource(struct virgl_context *base,
struct virgl_resource *res)
{
struct vkr_context *ctx = (struct vkr_context *)base;
mtx_lock(&ctx->mutex);
util_hash_table_remove(ctx->resource_table,
uintptr_to_pointer(res->res_id));
mtx_unlock(&ctx->mutex);
}
static void vkr_context_destroy(struct virgl_context *base)
{
struct vkr_context *ctx = (struct vkr_context *)base;
struct vkr_ring *ring, *ring_tmp;
LIST_FOR_EACH_ENTRY_SAFE(ring, ring_tmp, &ctx->rings, head) {
vkr_ring_stop(ring);
vkr_ring_destroy(ring);
}
/* TODO properly destroy all Vulkan objects */
util_hash_table_destroy(ctx->resource_table);
util_hash_table_destroy_u64(ctx->object_table);
if (ctx->fence_eventfd >= 0)
close(ctx->fence_eventfd);
vkr_cs_decoder_fini(&ctx->decoder);
mtx_destroy(&ctx->mutex);
free(ctx->debug_name);
free(ctx);
}
static void
vkr_context_init_base(struct vkr_context *ctx)
{
ctx->base.destroy = vkr_context_destroy;
ctx->base.attach_resource = vkr_context_attach_resource;
ctx->base.detach_resource = vkr_context_detach_resource;
ctx->base.transfer_3d = vkr_context_transfer_3d;
ctx->base.get_blob = vkr_context_get_blob;
ctx->base.get_blob_done = vkr_context_get_blob_done;
ctx->base.submit_cmd = vkr_context_submit_cmd;
ctx->base.get_fencing_fd = vkr_context_get_fencing_fd;
ctx->base.retire_fences =vkr_context_retire_fences;
ctx->base.submit_fence = vkr_context_submit_fence;
}
static void
destroy_func_object(void *val)
{
struct vkr_object *obj = val;
free(obj);
}
static void
destroy_func_resource(void *val)
{
struct vkr_resource_attachment *att = val;
struct vkr_device_memory *mem, *tmp;
LIST_FOR_EACH_ENTRY_SAFE(mem, tmp, &att->memories, head)
list_delinit(&mem->head);
free(att);
}
struct virgl_context *
vkr_context_create(size_t debug_len, const char *debug_name)
{
struct vkr_context *ctx;
/* TODO inject a proxy context when multi-process */
ctx = calloc(1, sizeof(*ctx));
if (!ctx)
return NULL;
ctx->debug_name = malloc(debug_len + 1);
if (!ctx->debug_name) {
free(ctx);
return NULL;
}
memcpy(ctx->debug_name, debug_name, debug_len);
ctx->debug_name[debug_len] = '\0';
if (mtx_init(&ctx->mutex, mtx_plain) != thrd_success) {
free(ctx->debug_name);
free(ctx);
return NULL;
}
list_inithead(&ctx->rings);
ctx->object_table =
util_hash_table_create_u64(destroy_func_object);
ctx->resource_table =
util_hash_table_create(hash_func_u32,
compare_func,
destroy_func_resource);
if (!ctx->object_table || !ctx->resource_table)
goto fail;
list_inithead(&ctx->newly_exported_memories);
vkr_cs_decoder_init(&ctx->decoder, ctx->object_table);
vkr_cs_encoder_init(&ctx->encoder, &ctx->decoder.fatal_error);
vkr_context_init_base(ctx);
vkr_context_init_dispatch(ctx);
if (vkr_renderer_flags & VKR_RENDERER_THREAD_SYNC) {
ctx->fence_eventfd = create_eventfd(0);
if (ctx->fence_eventfd < 0)
goto fail;
} else {
ctx->fence_eventfd = -1;
}
list_inithead(&ctx->busy_queues);
return &ctx->base;
fail:
if (ctx->object_table)
util_hash_table_destroy_u64(ctx->object_table);
if (ctx->resource_table)
util_hash_table_destroy(ctx->resource_table);
mtx_destroy(&ctx->mutex);
free(ctx->debug_name);
free(ctx);
return NULL;
}
size_t
vkr_get_capset(void *capset)
{
struct virgl_renderer_capset_venus *c = capset;
if (c) {
memset(c, 0, sizeof(*c));
c->wire_format_version = vn_info_wire_format_version();
c->vk_xml_version = vn_info_vk_xml_version();
c->vk_ext_command_serialization_spec_version = vn_info_extension_spec_version("VK_EXT_command_serialization");
c->vk_mesa_venus_protocol_spec_version = vn_info_extension_spec_version("VK_MESA_venus_protocol");
}
return sizeof(*c);
}
int
vkr_renderer_init(uint32_t flags)
{
/* TODO VKR_RENDERER_MULTI_PROCESS hint */
vkr_renderer_flags = flags;
return 0;
}
void
vkr_renderer_fini(void)
{
vkr_renderer_flags = 0;
}
void
vkr_renderer_reset(void)
{
}