use core::marker::PhantomData; use core::{ptr, slice}; use super::PacketHeader; use crate::consts::TL_EVT_HEADER_SIZE; /** * The payload of `Evt` for a command status event */ #[derive(Copy, Clone)] #[repr(C, packed)] pub struct CsEvt { pub status: u8, pub num_cmd: u8, pub cmd_code: u16, } /** * The payload of `Evt` for a command complete event */ #[derive(Copy, Clone, Default)] #[repr(C, packed)] pub struct CcEvt { pub num_cmd: u8, pub cmd_code: u16, pub payload: [u8; 1], } impl CcEvt { pub fn write(&self, buf: &mut [u8]) { unsafe { let len = core::mem::size_of::(); assert!(buf.len() >= len); let self_ptr: *const CcEvt = self; let self_buf_ptr: *const u8 = self_ptr.cast(); core::ptr::copy(self_buf_ptr, buf.as_mut_ptr(), len); } } } #[derive(Copy, Clone, Default)] #[repr(C, packed)] pub struct AsynchEvt { sub_evt_code: u16, payload: [u8; 1], } #[derive(Copy, Clone)] #[repr(C, packed)] pub struct Evt { pub evt_code: u8, pub payload_len: u8, pub payload: [u8; 255], } #[derive(Copy, Clone)] #[repr(C, packed)] pub struct EvtSerial { pub kind: u8, pub evt: Evt, } #[derive(Copy, Clone, Default)] #[repr(C, packed)] pub struct EvtStub { pub kind: u8, pub evt_code: u8, } /// This format shall be used for all events (asynchronous and command response) reported /// by the CPU2 except for the command response of a system command where the header is not there /// and the format to be used shall be `EvtSerial`. /// /// ### Note: /// Be careful that the asynchronous events reported by the CPU2 on the system channel do /// include the header and shall use `EvtPacket` format. Only the command response format on the /// system channel is different. #[derive(Copy, Clone)] #[repr(C, packed)] pub struct EvtPacket { pub header: PacketHeader, pub evt_serial: EvtSerial, } impl EvtPacket { pub fn kind(&self) -> u8 { self.evt_serial.kind } pub fn evt(&self) -> &Evt { &self.evt_serial.evt } } pub trait MemoryManager { unsafe fn drop_event_packet(evt: *mut EvtPacket); } /// smart pointer to the [`EvtPacket`] that will dispose of [`EvtPacket`] buffer automatically /// on [`Drop`] #[derive(Debug)] pub struct EvtBox { ptr: *mut EvtPacket, mm: PhantomData, } unsafe impl Send for EvtBox {} impl EvtBox { pub(super) fn new(ptr: *mut EvtPacket) -> Self { Self { ptr, mm: PhantomData } } /// Returns information about the event pub fn stub(&self) -> EvtStub { unsafe { let p_evt_stub = &(*self.ptr).evt_serial as *const _ as *const EvtStub; ptr::read_volatile(p_evt_stub) } } pub fn payload<'a>(&'a self) -> &'a [u8] { unsafe { let p_payload_len = &(*self.ptr).evt_serial.evt.payload_len as *const u8; let p_payload = &(*self.ptr).evt_serial.evt.payload as *const u8; let payload_len = ptr::read_volatile(p_payload_len); slice::from_raw_parts(p_payload, payload_len as usize) } } pub fn serial<'a>(&'a self) -> &'a [u8] { unsafe { let evt_serial: *const EvtSerial = &(*self.ptr).evt_serial; let evt_serial_buf: *const u8 = evt_serial.cast(); let len = (*evt_serial).evt.payload_len as usize + TL_EVT_HEADER_SIZE; slice::from_raw_parts(evt_serial_buf, len) } } } impl Drop for EvtBox { fn drop(&mut self) { unsafe { T::drop_event_packet(self.ptr) }; } }