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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at https://mozilla.org/MPL/2.0/. */
#[macro_use]
extern crate log;
#[macro_use]
extern crate serde;
#[macro_use]
pub extern crate wgpu_core as wgpu;
use ipc_channel::ipc::{self, IpcReceiver, IpcSender};
use malloc_size_of::{MallocSizeOf, MallocSizeOfOps};
use servo_config::pref;
use smallvec::SmallVec;
#[derive(Debug, Deserialize, Serialize)]
pub enum WebGPUResponse {
RequestAdapter(String, WebGPUAdapter, WebGPU),
RequestDevice(WebGPUDevice, wgpu::instance::DeviceDescriptor),
}
pub type WebGPUResponseResult = Result<WebGPUResponse, String>;
#[derive(Debug, Deserialize, Serialize)]
pub enum WebGPURequest {
RequestAdapter(
IpcSender<WebGPUResponseResult>,
wgpu::instance::RequestAdapterOptions,
SmallVec<[wgpu::id::AdapterId; 4]>,
),
RequestDevice(
IpcSender<WebGPUResponseResult>,
WebGPUAdapter,
wgpu::instance::DeviceDescriptor,
wgpu::id::DeviceId,
),
Exit(IpcSender<()>),
CreateBuffer(
IpcSender<WebGPUBuffer>,
WebGPUDevice,
wgpu::id::BufferId,
wgpu::resource::BufferDescriptor,
),
CreateBufferMapped(
IpcSender<(WebGPUBuffer, Vec<u8>)>,
WebGPUDevice,
wgpu::id::BufferId,
wgpu::resource::BufferDescriptor,
),
CreateBindGroupLayout(
IpcSender<WebGPUBindGroupLayout>,
WebGPUDevice,
wgpu::id::BindGroupLayoutId,
Vec<wgpu::binding_model::BindGroupLayoutBinding>,
),
CreatePipelineLayout(
IpcSender<WebGPUPipelineLayout>,
WebGPUDevice,
wgpu::id::PipelineLayoutId,
Vec<wgpu::id::BindGroupLayoutId>,
),
UnmapBuffer(WebGPUBuffer),
DestroyBuffer(WebGPUBuffer),
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct WebGPU(pub IpcSender<WebGPURequest>);
impl WebGPU {
pub fn new() -> Option<Self> {
if !pref!(dom.webgpu.enabled) {
return None;
}
let (sender, receiver) = match ipc::channel() {
Ok(sender_and_receiver) => sender_and_receiver,
Err(e) => {
warn!(
"Failed to create sender and receiciver for WGPU thread ({})",
e
);
return None;
},
};
let sender_clone = sender.clone();
if let Err(e) = std::thread::Builder::new()
.name("WGPU".to_owned())
.spawn(move || {
WGPU::new(receiver, sender_clone).run();
})
{
warn!("Failed to spwan WGPU thread ({})", e);
return None;
}
Some(WebGPU(sender))
}
pub fn exit(&self, sender: IpcSender<()>) -> Result<(), &'static str> {
self.0
.send(WebGPURequest::Exit(sender))
.map_err(|_| "Failed to send Exit message")
}
}
struct WGPU {
receiver: IpcReceiver<WebGPURequest>,
sender: IpcSender<WebGPURequest>,
global: wgpu::hub::Global<()>,
adapters: Vec<WebGPUAdapter>,
devices: Vec<WebGPUDevice>,
// Track invalid adapters https://gpuweb.github.io/gpuweb/#invalid
_invalid_adapters: Vec<WebGPUAdapter>,
}
impl WGPU {
fn new(receiver: IpcReceiver<WebGPURequest>, sender: IpcSender<WebGPURequest>) -> Self {
WGPU {
receiver,
sender,
global: wgpu::hub::Global::new("wgpu-core"),
adapters: Vec::new(),
devices: Vec::new(),
_invalid_adapters: Vec::new(),
}
}
fn deinit(self) {
self.global.delete()
}
fn run(mut self) {
while let Ok(msg) = self.receiver.recv() {
match msg {
WebGPURequest::RequestAdapter(sender, options, ids) => {
let adapter_id = if let Some(pos) = self
.adapters
.iter()
.position(|adapter| ids.contains(&adapter.0))
{
self.adapters[pos].0
} else {
let adapter_id = match self.global.pick_adapter(
&options,
wgpu::instance::AdapterInputs::IdSet(&ids, |id| id.backend()),
) {
Some(id) => id,
None => {
if let Err(e) =
sender.send(Err("Failed to get webgpu adapter".to_string()))
{
warn!(
"Failed to send response to WebGPURequest::RequestAdapter ({})",
e
)
}
return;
},
};
adapter_id
};
let adapter = WebGPUAdapter(adapter_id);
self.adapters.push(adapter);
let global = &self.global;
let info = gfx_select!(adapter_id => global.adapter_get_info(adapter_id));
if let Err(e) = sender.send(Ok(WebGPUResponse::RequestAdapter(
info.name,
adapter,
WebGPU(self.sender.clone()),
))) {
warn!(
"Failed to send response to WebGPURequest::RequestAdapter ({})",
e
)
}
},
WebGPURequest::RequestDevice(sender, adapter, descriptor, id) => {
let global = &self.global;
let id = gfx_select!(id => global.adapter_request_device(
adapter.0,
&descriptor,
id
));
let device = WebGPUDevice(id);
self.devices.push(device);
if let Err(e) =
sender.send(Ok(WebGPUResponse::RequestDevice(device, descriptor)))
{
warn!(
"Failed to send response to WebGPURequest::RequestDevice ({})",
e
)
}
},
WebGPURequest::CreateBuffer(sender, device, id, descriptor) => {
let global = &self.global;
let buffer_id =
gfx_select!(id => global.device_create_buffer(device.0, &descriptor, id));
let buffer = WebGPUBuffer(buffer_id);
if let Err(e) = sender.send(buffer) {
warn!(
"Failed to send response to WebGPURequest::CreateBuffer ({})",
e
)
}
},
WebGPURequest::CreateBufferMapped(sender, device, id, descriptor) => {
let global = &self.global;
let buffer_size = descriptor.size as usize;
let (buffer_id, arr_buff_ptr) = gfx_select!(id =>
global.device_create_buffer_mapped(device.0, &descriptor, id));
let buffer = WebGPUBuffer(buffer_id);
let mut array_buffer = Vec::with_capacity(buffer_size);
unsafe {
array_buffer.set_len(buffer_size);
std::ptr::copy(arr_buff_ptr, array_buffer.as_mut_ptr(), buffer_size);
};
if let Err(e) = sender.send((buffer, array_buffer)) {
warn!(
"Failed to send response to WebGPURequest::CreateBufferMapped ({})",
e
)
}
},
WebGPURequest::UnmapBuffer(buffer) => {
let global = &self.global;
gfx_select!(buffer.0 => global.buffer_unmap(buffer.0));
},
WebGPURequest::DestroyBuffer(buffer) => {
let global = &self.global;
gfx_select!(buffer.0 => global.buffer_destroy(buffer.0));
},
WebGPURequest::CreateBindGroupLayout(sender, device, id, bindings) => {
let global = &self.global;
let descriptor = wgpu_core::binding_model::BindGroupLayoutDescriptor {
bindings: bindings.as_ptr(),
bindings_length: bindings.len(),
};
let bgl_id = gfx_select!(id => global.device_create_bind_group_layout(device.0, &descriptor, id));
let bgl = WebGPUBindGroupLayout(bgl_id);
if let Err(e) = sender.send(bgl) {
warn!(
"Failed to send response to WebGPURequest::CreateBindGroupLayout ({})",
e
)
}
},
WebGPURequest::CreatePipelineLayout(sender, device, id, bind_group_layouts) => {
let global = &self.global;
let descriptor = wgpu_core::binding_model::PipelineLayoutDescriptor {
bind_group_layouts: bind_group_layouts.as_ptr(),
bind_group_layouts_length: bind_group_layouts.len(),
};
let pl_id = gfx_select!(id => global.device_create_pipeline_layout(device.0, &descriptor, id));
let pipeline_layout = WebGPUPipelineLayout(pl_id);
if let Err(e) = sender.send(pipeline_layout) {
warn!(
"Failed to send response to WebGPURequest::CreatePipelineLayout ({})",
e
)
}
},
WebGPURequest::Exit(sender) => {
self.deinit();
if let Err(e) = sender.send(()) {
warn!("Failed to send response to WebGPURequest::Exit ({})", e)
}
return;
},
}
}
}
}
macro_rules! webgpu_resource {
($name:ident, $id:ty) => {
#[derive(Clone, Copy, Debug, Deserialize, Hash, PartialEq, Serialize)]
pub struct $name(pub $id);
impl MallocSizeOf for $name {
fn size_of(&self, _ops: &mut MallocSizeOfOps) -> usize {
0
}
}
impl Eq for $name {}
};
}
webgpu_resource!(WebGPUAdapter, wgpu::id::AdapterId);
webgpu_resource!(WebGPUDevice, wgpu::id::DeviceId);
webgpu_resource!(WebGPUBuffer, wgpu::id::BufferId);
webgpu_resource!(WebGPUBindGroupLayout, wgpu::id::BindGroupLayoutId);
webgpu_resource!(WebGPUPipelineLayout, wgpu::id::PipelineLayoutId);
|
