rFactor2_vk_hud/src/lib.rs

pub mod enums;
pub mod structs;

mod overlay;
mod vk_handles;

use std::{
    ffi::c_void,
    fs::{File, OpenOptions},
    io::Write,
    mem,
    os::raw::c_char,
    ptr, slice,
};

use enums::*;
use overlay::Overlay;
use structs::*;
use vk_handles::*;
use vulkan_rs::prelude::*;

const LOG_FILE: &'static str = "/home/michael/rf2_vk_hud.log";

static mut OVERLAY: Overlay = Overlay::new();
static mut QUEUE_SUBMIT: PFN_vkQueueSubmit =
    unsafe { mem::transmute(vkVoidFunction as *const c_void) };

#[no_mangle]
#[allow(non_snake_case)]
pub extern "C" fn vkNegotiateLoaderLayerInterfaceVersion(
    pVersionStruct: *mut VkNegotiateLayerInterface,
) -> VkResult {
    if let Err(_) = File::create(LOG_FILE) {}

    write_log(" ==================================================================");
    write_log(" ======================= New Negotiation ==========================");
    write_log(" ==================================================================");

    unsafe {
        *pVersionStruct = VkNegotiateLayerInterface {
            sType: enums::VkNegotiateLayerStructType::LAYER_NEGOTIATE_INTERFACE_STRUCT,
            pNext: ptr::null_mut(),
            loaderLayerInterfaceVersion: 2,
            pfnGetInstanceProcAddr: Some(get_instance_proc_addr),
            pfnGetDeviceProcAddr: Some(get_device_proc_addr),
            pfnGetPhysicalDeviceProcAddr: None,
        }
    };

    set_vk_handles(match VkTypedefHandles::new() {
        Ok(handles) => handles,
        Err(err) => {
            write_log(format!("failed to load typedef handles {:?}", err));
            return VK_ERROR_INITIALIZATION_FAILED;
        }
    });

    VK_SUCCESS
}

#[no_mangle]
extern "system" fn get_device_proc_addr(
    _device: VkDevice,
    function_name: *const c_char,
) -> PFN_vkVoidFunction {
    let func_string = match VkString::try_from(function_name) {
        Ok(func) => func,
        Err(_) => {
            write_log("Err: failed creating string");
            return Functions::Null.convert();
        }
    };

    let s = func_string.as_str();

    if let Some(func) = Functions::get_vk_func(s) {
        return func.convert();
    }

    if let Some(func) = vk_handles().handle(s) {
        return func;
    }

    Functions::Null.convert()
}

#[no_mangle]
extern "system" fn get_instance_proc_addr(
    _instance: VkInstance,
    function_name: *const c_char,
) -> PFN_vkVoidFunction {
    let func_string = match VkString::try_from(function_name) {
        Ok(func) => func,
        Err(_) => {
            write_log("Err: failed creating string");
            return Functions::Null.convert();
        }
    };

    let s = func_string.as_str();

    if let Some(func) = Functions::get_vk_func(s) {
        return func.convert();
    }

    if let Some(func) = vk_handles().handle(s) {
        return func;
    }

    Functions::Null.convert()
}

pub extern "system" fn create_instance(
    create_info: *const VkInstanceCreateInfo,
    allocator: *const VkAllocationCallbacks,
    instance: *mut VkInstance,
) -> VkResult {
    write_log(" ================== vulkan layer create instance ==================");

    let chain_info = match VkLayerInstanceCreateInfo::get_chain_info(
        unsafe { &*create_info },
        VK_LAYER_LINK_INFO,
    ) {
        Some(info) => info,
        None => {
            write_log("instance chain info not found.");
            return VK_ERROR_LAYER_NOT_PRESENT;
        }
    };

    let proc_addr = chain_info.layer_info().next_instance_proc_addr;
    let create_instance: PFN_vkCreateInstance = unsafe {
        mem::transmute(proc_addr(
            VkInstance::NULL_HANDLE,
            VkString::new("vkCreateInstance").as_ptr(),
        ))
    };

    chain_info.advance_layer_info();
    let result = create_instance(create_info, allocator, instance);
    if result != VK_SUCCESS {
        return result;
    };

    vk_handles_mut().load_instance_functions(unsafe { *instance }, proc_addr);

    write_log("-> successfully created instance.");

    let ext_names = unsafe { (*create_info).extension_names() };

    write_log(format!("{:?}", ext_names));

    // DXVK workaround, it creates the instance twice with different properties
    if ext_names.contains(&VkString::new("VK_KHR_surface")) {
        unsafe {
            let ins = match Instance::preinitialized(
                *instance,
                proc_addr,
                &ext_names,
                (*(*create_info).pApplicationInfo).apiVersion,
            ) {
                Ok(ins) => ins,
                Err(err) => {
                    write_log(format!("-> local instance creation failed: {:?}", err));
                    return VK_ERROR_INITIALIZATION_FAILED;
                }
            };

            OVERLAY.set_instance(ins);
        }

        write_log("-> created local instance handle");
    }

    VK_SUCCESS
}

pub extern "system" fn destroy_instance(
    instance: VkInstance,
    allocator: *const VkAllocationCallbacks,
) {
    write_log(" ================== vulkan layer destroy instance ==================");

    unsafe {
        if let Some(vk_fn) = vk_handles().handle("vkDestroyInstance") {
            let destroy_instance: PFN_vkDestroyInstance = mem::transmute(vk_fn);

            destroy_instance(instance, allocator);
        }
    }
}

pub extern "system" fn create_device(
    physical_device: VkPhysicalDevice,
    create_info: *const VkDeviceCreateInfo<'_>,
    allocator: *const VkAllocationCallbacks,
    device: *mut VkDevice,
) -> VkResult {
    write_log(" ================== vulkan layer create device ==================");

    let chain_info =
        match VkLayerDeviceCreateInfo::get_chain_info(unsafe { &*create_info }, VK_LAYER_LINK_INFO)
        {
            Some(info) => info,
            None => {
                write_log("device chain info not found.");
                return VK_ERROR_LAYER_NOT_PRESENT;
            }
        };

    let proc_addr = chain_info.layer_info().next_device_proc_addr;

    chain_info.advance_layer_info();

    let result = unsafe {
        match vk_handles().handle("vkCreateDevice") {
            Some(vk_fn) => {
                let create_device: PFN_vkCreateDevice = mem::transmute(vk_fn);
                create_device(physical_device, create_info, allocator, device)
            }
            None => {
                write_log("failed creating device");
                return VK_ERROR_INITIALIZATION_FAILED;
            }
        }
    };

    if result != VK_SUCCESS {
        return result;
    }

    vk_handles_mut().load_device_functions(unsafe { *device }, proc_addr);
    unsafe {
        QUEUE_SUBMIT = match vk_handles().handle("vkQueueSubmit") {
            Some(submit) => mem::transmute(submit),
            None => {
                write_log("failed querying vkQueueSubmit");
                return VK_ERROR_INITIALIZATION_FAILED;
            }
        }
    };

    let pdev = match PhysicalDevice::from_raw(unsafe { OVERLAY.instance() }, physical_device) {
        Ok(pdev) => pdev,
        Err(err) => {
            write_log(format!("failed creating physical device: {:?}", err));
            return VK_ERROR_INITIALIZATION_FAILED;
        }
    };
    let ext_names = unsafe { (*create_info).extension_names() };

    write_log(format!("{:?}", ext_names));

    unsafe {
        OVERLAY.set_device(
            match Device::preinitialized(*device, proc_addr, pdev, &ext_names) {
                Ok(dev) => dev,
                Err(err) => {
                    write_log(format!("-> local device creation failed: {:?}", err));
                    return VK_ERROR_INITIALIZATION_FAILED;
                }
            },
        );
    }

    VK_SUCCESS
}

pub extern "system" fn destroy_device(device: VkDevice, allocator: *const VkAllocationCallbacks) {
    write_log(" ================== vulkan layer destroy device ==================");

    unsafe {
        if let Some(vk_fn) = vk_handles().handle("vkDestroyDevice") {
            let destroy_device: PFN_vkDestroyDevice = mem::transmute(vk_fn);

            destroy_device(device, allocator);
        }
    }
}

pub extern "system" fn create_swapchain(
    _device: VkDevice,
    create_info: *const VkSwapchainCreateInfoKHR,
    _allocator: *const VkAllocationCallbacks,
    p_swapchain: *mut VkSwapchainKHR,
) -> VkResult {
    write_log(" ================== vulkan layer create swapchain ==================");

    let create_swapchain: PFN_vkCreateSwapchainKHR =
        match vk_handles().handle("vkCreateSwapchainKHR") {
            Some(create_swapchain) => unsafe { mem::transmute(create_swapchain) },
            None => {
                write_log("failed querying vkCreateSwapchainKHR");
                return VK_ERROR_INITIALIZATION_FAILED;
            }
        };

    create_swapchain(_device, create_info, _allocator, p_swapchain);

    write_log("-> created swapchain vk handle");

    // if unsafe { !OVERLAY.has_rendering() } {
    let swapchain =
        match unsafe { Swapchain::from_raw(OVERLAY.device(), &*create_info, *p_swapchain) } {
            Ok(swapchain) => swapchain,
            Err(err) => {
                write_log(format!("create swapchain failed: {:?}", err));
                return VK_ERROR_INITIALIZATION_FAILED;
            }
        };

    write_log("-> created Arc<Swapchain>");

    if let Err(err) = unsafe { OVERLAY.create_rendering(swapchain) } {
        write_log(format!("create overlay rendering struct failed: {:?}", err));
        return VK_ERROR_INITIALIZATION_FAILED;
    }

    write_log("-> created renderer");
    // }

    VK_SUCCESS
}

pub extern "system" fn submit_queue(
    queue: VkQueue,
    submit_count: u32,
    submits: *const VkSubmitInfo,
    fence: VkFence,
) -> VkResult {
    unsafe {
        let input_submit_info = slice::from_raw_parts(submits, submit_count as usize);
        let overlay_submit = match OVERLAY.render() {
            Ok(submit) => submit,
            Err(err) => {
                write_log(format!("overlay rendering failed: {:?}", err));
                return VK_ERROR_DEVICE_LOST;
            }
        };

        let complete_submits = [input_submit_info, &[overlay_submit]].concat();

        QUEUE_SUBMIT(
            queue,
            complete_submits.len() as u32,
            complete_submits.as_ptr(),
            fence,
        )
    }
}

pub extern "system" fn get_device_queue(
    device: VkDevice,
    queue_family_index: u32,
    queue_index: u32,
    p_queue: *mut VkQueue,
) {
    write_log(" ================== vulkan layer get device queue ==================");

    let get_device_queue: PFN_vkGetDeviceQueue = match vk_handles().handle("vkGetDeviceQueue") {
        Some(get_queue) => unsafe { mem::transmute(get_queue) },
        None => {
            write_log("failed querying vkGetDeviceQueue");
            panic!("failed querying vkGetDeviceQueue");
        }
    };

    get_device_queue(device, queue_family_index, queue_index, p_queue);

    unsafe {
        if !OVERLAY.has_queue() {
            let arc_device = OVERLAY.device();
            OVERLAY.add_queue(Queue::new(
                arc_device,
                *p_queue,
                queue_family_index,
                queue_index,
            ));
        }
    }
}

pub extern "system" fn acquire_next_image(
    device: VkDevice,
    swapchain: VkSwapchainKHR,
    timeout: u64,
    semaphore: VkSemaphore,
    fence: VkFence,
    pImageIndex: *mut u32,
) -> VkResult {
    VK_SUCCESS
}

pub fn write_log(msg: impl ToString) {
    if let Ok(mut file) = OpenOptions::new().append(true).create(true).open(LOG_FILE) {
        if let Err(_) = file.write_all(format!("{}\n", msg.to_string()).as_bytes()) {}
    }
}