use crate::driver::base::device::device_number::DeviceNumber; use crate::filesystem::devfs::DevFS; use crate::filesystem::vfs::{ core::generate_inode_id, file::{File, FileMode}, FilePrivateData, FileSystem, FileType, IndexNode, Metadata, }; use crate::mm::VirtAddr; use crate::process::ProcessManager; use crate::syscall::user_access::copy_from_user; use crate::virt::kvm::host_mem::KvmUserspaceMemoryRegion; use crate::virt::kvm::update_vm; use crate::virt::kvm::vcpu_dev::LockedVcpuInode; use crate::virt::kvm::vm; use crate::{arch::KVMArch, libs::spinlock::SpinLock, time::TimeSpec}; use crate::{filesystem, kdebug}; use alloc::{ string::String, sync::{Arc, Weak}, vec::Vec, }; use system_error::SystemError; // pub const KVM_API_VERSION:u32 = 12; // pub const GUEST_STACK_SIZE:usize = 1024; // pub const HOST_STACK_SIZE:usize = 0x1000 * 6; /* * ioctls for /dev/vm fds: */ pub const KVM_CREATE_VCPU: u32 = 0x00; pub const KVM_SET_USER_MEMORY_REGION: u32 = 0x01; pub const KVM_GET_DIRTY_LOG: u32 = 0x02; pub const KVM_IRQFD: u32 = 0x03; pub const KVM_IOEVENTFD: u32 = 0x04; pub const KVM_IRQ_LINE_STATUS: u32 = 0x05; // #[derive(Debug)] // pub struct InodeInfo { // kvm: Arc, // } #[derive(Debug)] pub struct VmInode { /// uuid 暂时不知道有什么用(x // uuid: Uuid, /// 指向自身的弱引用 self_ref: Weak, /// 指向inode所在的文件系统对象的指针 fs: Weak, /// INode 元数据 metadata: Metadata, // fdata: InodeInfo, } #[derive(Debug)] pub struct LockedVmInode(SpinLock); impl LockedVmInode { pub fn new() -> Arc { let inode = VmInode { self_ref: Weak::default(), fs: Weak::default(), metadata: Metadata { dev_id: 1, inode_id: generate_inode_id(), size: 0, blk_size: 0, blocks: 0, atime: TimeSpec::default(), mtime: TimeSpec::default(), ctime: TimeSpec::default(), file_type: FileType::KvmDevice, // 文件夹,block设备,char设备 mode: filesystem::vfs::syscall::ModeType::S_IALLUGO, nlinks: 1, uid: 0, gid: 0, raw_dev: DeviceNumber::default(), // 这里用来作为device number }, // fdata: InodeInfo { // kvm: kvm, // }, }; let result = Arc::new(LockedVmInode(SpinLock::new(inode))); result.0.lock().self_ref = Arc::downgrade(&result); return result; } } impl IndexNode for LockedVmInode { fn as_any_ref(&self) -> &dyn core::any::Any { self } fn open(&self, _data: &mut FilePrivateData, _mode: &FileMode) -> Result<(), SystemError> { kdebug!("file private data:{:?}", _data); return Ok(()); } fn close(&self, _data: &mut FilePrivateData) -> Result<(), SystemError> { return Ok(()); } fn metadata(&self) -> Result { return Ok(self.0.lock().metadata.clone()); } fn fs(&self) -> Arc { return self.0.lock().fs.upgrade().unwrap(); } fn list(&self) -> Result, SystemError> { Err(SystemError::EOPNOTSUPP_OR_ENOTSUP) } fn set_metadata(&self, metadata: &Metadata) -> Result<(), SystemError> { let mut inode = self.0.lock(); inode.metadata.atime = metadata.atime; inode.metadata.mtime = metadata.mtime; inode.metadata.ctime = metadata.ctime; inode.metadata.mode = metadata.mode; inode.metadata.uid = metadata.uid; inode.metadata.gid = metadata.gid; return Ok(()); } /// @brief io control接口 /// /// @param cmd 命令 /// @param data 数据 /// /// @return 成功:Ok() /// 失败:Err(错误码) fn ioctl( &self, cmd: u32, data: usize, _private_data: &FilePrivateData, ) -> Result { match cmd { 0xdeadbeef => { kdebug!("kvm_vm ioctl"); Ok(0) } KVM_CREATE_VCPU => { kdebug!("kvm_vcpu ioctl KVM_CREATE_VCPU"); kvm_vm_ioctl_create_vcpu(data as u32) } KVM_SET_USER_MEMORY_REGION => { kdebug!("kvm_vcpu ioctl KVM_SET_USER_MEMORY_REGION data={:x}", data); let mut kvm_userspace_mem = KvmUserspaceMemoryRegion::default(); // = unsafe { (data as *const KvmUserspaceMemoryRegion).as_ref().unwrap() }; unsafe { copy_from_user( core::slice::from_raw_parts_mut( (&mut kvm_userspace_mem as *mut _) as *mut u8, core::mem::size_of::(), ), VirtAddr::new(data), )?; } kdebug!( "slot={}, flag={}, memory_size={:x}, guest_phys_addr={}, userspace_addr={}", kvm_userspace_mem.slot, kvm_userspace_mem.flags, kvm_userspace_mem.memory_size, kvm_userspace_mem.guest_phys_addr, // starting at physical address guest_phys_addr (from the guest’s perspective) kvm_userspace_mem.userspace_addr // using memory at linear address userspace_addr (from the host’s perspective) ); let mut current_vm = vm(0).unwrap(); current_vm.set_user_memory_region(&kvm_userspace_mem)?; update_vm(0, current_vm); Ok(0) } KVM_GET_DIRTY_LOG | KVM_IRQFD | KVM_IOEVENTFD | KVM_IRQ_LINE_STATUS => { Err(SystemError::EOPNOTSUPP_OR_ENOTSUP) } _ => { kdebug!("kvm_vm ioctl"); Ok(usize::MAX) } } } /// 读设备 - 应该调用设备的函数读写,而不是通过文件系统读写 fn read_at( &self, _offset: usize, _len: usize, _buf: &mut [u8], _data: &mut FilePrivateData, ) -> Result { Err(SystemError::EOPNOTSUPP_OR_ENOTSUP) } /// 写设备 - 应该调用设备的函数读写,而不是通过文件系统读写 fn write_at( &self, _offset: usize, _len: usize, _buf: &[u8], _data: &mut FilePrivateData, ) -> Result { Err(SystemError::EOPNOTSUPP_OR_ENOTSUP) } } fn kvm_vm_ioctl_create_vcpu(id: u32) -> Result { let vcpu = KVMArch::kvm_arch_vcpu_create(id).unwrap(); KVMArch::kvm_arch_vcpu_setup(vcpu.as_ref())?; let mut current_vm = vm(0).unwrap(); current_vm.vcpu.push(vcpu); current_vm.nr_vcpus += 1; update_vm(0, current_vm); let vcpu_inode = LockedVcpuInode::new(); let file: File = File::new(vcpu_inode, FileMode::O_RDWR)?; let r = ProcessManager::current_pcb() .fd_table() .write() .alloc_fd(file, None) .map(|fd| fd as usize); return r; }