Merge pull request #1566 from xoviat/tl-mbox-2

tl-mbox: switch to new ipcc mechanism

embassy-futures/src/block_on.rs

@@ -31,3 +31,15 @@ pub fn block_on<F: Future>(mut fut: F) -> F::Output {
         }
     }
 }
+
+/// Poll a future once.
+pub fn poll_once<F: Future>(mut fut: F) -> Poll<F::Output> {
+    // safety: we don't move the future after this line.
+    let mut fut = unsafe { Pin::new_unchecked(&mut fut) };
+
+    let raw_waker = RawWaker::new(ptr::null(), &VTABLE);
+    let waker = unsafe { Waker::from_raw(raw_waker) };
+    let mut cx = Context::from_waker(&waker);
+
+    fut.as_mut().poll(&mut cx)
+}

embassy-stm32-wpan/src/ble.rs

@@ -1,18 +1,20 @@
+use core::marker::PhantomData;
+
 use embassy_stm32::ipcc::Ipcc;
 
-use crate::cmd::{CmdPacket, CmdSerial};
+use crate::cmd::CmdPacket;
 use crate::consts::TlPacketType;
 use crate::evt::EvtBox;
 use crate::tables::BleTable;
 use crate::unsafe_linked_list::LinkedListNode;
-use crate::{
-    channels, BLE_CMD_BUFFER, CS_BUFFER, EVT_CHANNEL, EVT_QUEUE, HCI_ACL_DATA_BUFFER, TL_BLE_TABLE, TL_REF_TABLE,
-};
+use crate::{channels, BLE_CMD_BUFFER, CS_BUFFER, EVT_QUEUE, HCI_ACL_DATA_BUFFER, TL_BLE_TABLE};
 
-pub struct Ble;
+pub struct Ble {
+    phantom: PhantomData<Ble>,
+}
 
 impl Ble {
-    pub(super) fn enable() {
+    pub(crate) fn new() -> Self {
         unsafe {
             LinkedListNode::init_head(EVT_QUEUE.as_mut_ptr());
 
@@ -24,54 +26,38 @@ impl Ble {
             });
         }
 
-        Ipcc::c1_set_rx_channel(channels::cpu2::IPCC_BLE_EVENT_CHANNEL, true);
+        Self { phantom: PhantomData }
+    }
+    /// `HW_IPCC_BLE_EvtNot`
+    pub async fn read(&self) -> EvtBox {
+        Ipcc::receive(channels::cpu2::IPCC_BLE_EVENT_CHANNEL, || unsafe {
+            if let Some(node_ptr) = LinkedListNode::remove_head(EVT_QUEUE.as_mut_ptr()) {
+                Some(EvtBox::new(node_ptr.cast()))
+            } else {
+                None
+            }
+        })
+        .await
     }
 
-    pub(super) fn evt_handler() {
-        unsafe {
-            while !LinkedListNode::is_empty(EVT_QUEUE.as_mut_ptr()) {
-                let node_ptr = LinkedListNode::remove_head(EVT_QUEUE.as_mut_ptr());
-
-                let event = node_ptr.cast();
-                let event = EvtBox::new(event);
-
-                EVT_CHANNEL.try_send(event).unwrap();
-            }
+    /// `TL_BLE_SendCmd`
+    pub async fn write(&self, opcode: u16, payload: &[u8]) {
+        Ipcc::send(channels::cpu1::IPCC_BLE_CMD_CHANNEL, || unsafe {
+            CmdPacket::write_into(BLE_CMD_BUFFER.as_mut_ptr(), TlPacketType::BleCmd, opcode, payload);
+        })
+        .await;
     }
 
-        Ipcc::c1_clear_flag_channel(channels::cpu2::IPCC_BLE_EVENT_CHANNEL);
-    }
-
-    pub(super) fn acl_data_handler() {
-        Ipcc::c1_set_tx_channel(channels::cpu1::IPCC_HCI_ACL_DATA_CHANNEL, false);
-
-        // TODO: ACL data ack to the user
-    }
-
-    pub fn ble_send_cmd(buf: &[u8]) {
-        debug!("writing ble cmd");
-
-        unsafe {
-            let pcmd_buffer: *mut CmdPacket = (*TL_REF_TABLE.assume_init().ble_table).pcmd_buffer;
-            let pcmd_serial: *mut CmdSerial = &mut (*pcmd_buffer).cmdserial;
-            let pcmd_serial_buf: *mut u8 = pcmd_serial.cast();
-
-            core::ptr::copy(buf.as_ptr(), pcmd_serial_buf, buf.len());
-
-            let cmd_packet = &mut *(*TL_REF_TABLE.assume_init().ble_table).pcmd_buffer;
-            cmd_packet.cmdserial.ty = TlPacketType::BleCmd as u8;
-        }
-
-        Ipcc::c1_set_flag_channel(channels::cpu1::IPCC_BLE_CMD_CHANNEL);
-    }
-
-    #[allow(dead_code)] // Not used currently but reserved
-    pub(super) fn ble_send_acl_data() {
-        let cmd_packet = unsafe { &mut *(*TL_REF_TABLE.assume_init().ble_table).phci_acl_data_buffer };
-
-        cmd_packet.acl_data_serial.ty = TlPacketType::AclData as u8;
-
-        Ipcc::c1_set_flag_channel(channels::cpu1::IPCC_HCI_ACL_DATA_CHANNEL);
-        Ipcc::c1_set_tx_channel(channels::cpu1::IPCC_HCI_ACL_DATA_CHANNEL, true);
+    /// `TL_BLE_SendAclData`
+    pub async fn acl_write(&self, handle: u16, payload: &[u8]) {
+        Ipcc::send(channels::cpu1::IPCC_HCI_ACL_DATA_CHANNEL, || unsafe {
+            CmdPacket::write_into(
+                HCI_ACL_DATA_BUFFER.as_mut_ptr() as *mut _,
+                TlPacketType::AclData,
+                handle,
+                payload,
+            );
+        })
+        .await;
     }
 }

embassy-stm32-wpan/src/cmd.rs

@@ -1,5 +1,7 @@
-use crate::evt::{EvtPacket, EvtSerial};
-use crate::{PacketHeader, TL_EVT_HEADER_SIZE};
+use core::ptr;
+
+use crate::consts::TlPacketType;
+use crate::PacketHeader;
 
 #[derive(Copy, Clone)]
 #[repr(C, packed)]
@@ -26,6 +28,14 @@ pub struct CmdSerial {
     pub cmd: Cmd,
 }
 
+#[derive(Copy, Clone, Default)]
+#[repr(C, packed)]
+pub struct CmdSerialStub {
+    pub ty: u8,
+    pub cmd_code: u16,
+    pub payload_len: u8,
+}
+
 #[derive(Copy, Clone, Default)]
 #[repr(C, packed)]
 pub struct CmdPacket {
@@ -34,29 +44,20 @@ pub struct CmdPacket {
 }
 
 impl CmdPacket {
-    /// Writes an underlying CmdPacket into the provided buffer.
-    /// Returns a number of bytes that were written.
-    /// Returns an error if event kind is unknown or if provided buffer size is not enough.
-    #[allow(clippy::result_unit_err)]
-    pub fn write(&self, buf: &mut [u8]) -> Result<usize, ()> {
-        unsafe {
-            let cmd_ptr: *const CmdPacket = self;
-            let self_as_evt_ptr: *const EvtPacket = cmd_ptr.cast();
-            let evt_serial: *const EvtSerial = &(*self_as_evt_ptr).evt_serial;
+    pub unsafe fn write_into(cmd_buf: *mut CmdPacket, packet_type: TlPacketType, cmd_code: u16, payload: &[u8]) {
+        let p_cmd_serial = &mut (*cmd_buf).cmdserial as *mut _ as *mut CmdSerialStub;
+        let p_payload = &mut (*cmd_buf).cmdserial.cmd.payload as *mut _;
 
-            let acl_data: *const AclDataPacket = cmd_ptr.cast();
-            let acl_serial: *const AclDataSerial = &(*acl_data).acl_data_serial;
-            let acl_serial_buf: *const u8 = acl_serial.cast();
+        ptr::write_volatile(
+            p_cmd_serial,
+            CmdSerialStub {
+                ty: packet_type as u8,
+                cmd_code: cmd_code,
+                payload_len: payload.len() as u8,
+            },
+        );
 
-            let len = (*evt_serial).evt.payload_len as usize + TL_EVT_HEADER_SIZE;
-            if len > buf.len() {
-                return Err(());
-            }
-
-            core::ptr::copy(acl_serial_buf, buf.as_mut_ptr(), len);
-
-            Ok(len)
-        }
+        ptr::copy_nonoverlapping(payload as *const _ as *const u8, p_payload, payload.len());
     }
 }
 
@@ -69,9 +70,35 @@ pub struct AclDataSerial {
     pub acl_data: [u8; 1],
 }
 
+#[derive(Copy, Clone)]
+#[repr(C, packed)]
+pub struct AclDataSerialStub {
+    pub ty: u8,
+    pub handle: u16,
+    pub length: u16,
+}
+
 #[derive(Copy, Clone)]
 #[repr(C, packed)]
 pub struct AclDataPacket {
     pub header: PacketHeader,
     pub acl_data_serial: AclDataSerial,
 }
+
+impl AclDataPacket {
+    pub unsafe fn write_into(cmd_buf: *mut AclDataPacket, packet_type: TlPacketType, handle: u16, payload: &[u8]) {
+        let p_cmd_serial = &mut (*cmd_buf).acl_data_serial as *mut _ as *mut AclDataSerialStub;
+        let p_payload = &mut (*cmd_buf).acl_data_serial.acl_data as *mut _;
+
+        ptr::write_volatile(
+            p_cmd_serial,
+            AclDataSerialStub {
+                ty: packet_type as u8,
+                handle: handle,
+                length: payload.len() as u16,
+            },
+        );
+
+        ptr::copy_nonoverlapping(payload as *const _ as *const u8, p_payload, payload.len());
+    }
+}

embassy-stm32-wpan/src/evt.rs

@@ -1,8 +1,6 @@
-use core::mem::MaybeUninit;
+use core::{ptr, slice};
 
-use super::cmd::{AclDataPacket, AclDataSerial};
-use super::consts::TlPacketType;
-use super::{PacketHeader, TL_EVT_HEADER_SIZE};
+use super::PacketHeader;
 use crate::mm;
 
 /**
@@ -63,6 +61,12 @@ pub struct EvtSerial {
     pub evt: Evt,
 }
 
+#[derive(Copy, Clone, Default)]
+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`.
@@ -101,76 +105,91 @@ impl EvtBox {
         Self { ptr }
     }
 
-    /// copies event data from inner pointer and returns an event structure
-    pub fn evt(&self) -> EvtPacket {
-        let mut evt = MaybeUninit::uninit();
+    /// Returns information about the event
+    pub fn stub(&self) -> EvtStub {
         unsafe {
-            self.ptr.copy_to(evt.as_mut_ptr(), 1);
-            evt.assume_init()
+            let p_evt_stub = &(*self.ptr).evt_serial as *const _ as *const EvtStub;
+
+            ptr::read_volatile(p_evt_stub)
         }
     }
 
-    /// writes an underlying [`EvtPacket`] into the provided buffer.
-    /// Returns the number of bytes that were written.
-    /// Returns an error if event kind is unknown or if provided buffer size is not enough.
-    #[allow(clippy::result_unit_err)]
-    pub fn write(&self, buf: &mut [u8]) -> Result<usize, ()> {
+    pub fn payload<'a>(&self) -> &'a [u8] {
         unsafe {
-            let evt_kind = TlPacketType::try_from((*self.ptr).evt_serial.kind)?;
+            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 evt_data: *const EvtPacket = self.ptr.cast();
-            let evt_serial: *const EvtSerial = &(*evt_data).evt_serial;
-            let evt_serial_buf: *const u8 = evt_serial.cast();
+            let payload_len = ptr::read_volatile(p_payload_len);
 
-            let acl_data: *const AclDataPacket = self.ptr.cast();
-            let acl_serial: *const AclDataSerial = &(*acl_data).acl_data_serial;
-            let acl_serial_buf: *const u8 = acl_serial.cast();
-
-            if let TlPacketType::AclData = evt_kind {
-                let len = (*acl_serial).length as usize + 5;
-                if len > buf.len() {
-                    return Err(());
-                }
-
-                core::ptr::copy(evt_serial_buf, buf.as_mut_ptr(), len);
-
-                Ok(len)
-            } else {
-                let len = (*evt_serial).evt.payload_len as usize + TL_EVT_HEADER_SIZE;
-                if len > buf.len() {
-                    return Err(());
-                }
-
-                core::ptr::copy(acl_serial_buf, buf.as_mut_ptr(), len);
-
-                Ok(len)
-            }
+            slice::from_raw_parts(p_payload, payload_len as usize)
         }
     }
 
-    /// returns the size of a buffer required to hold this event
-    #[allow(clippy::result_unit_err)]
-    pub fn size(&self) -> Result<usize, ()> {
-        unsafe {
-            let evt_kind = TlPacketType::try_from((*self.ptr).evt_serial.kind)?;
+    // TODO: bring back acl
 
-            let evt_data: *const EvtPacket = self.ptr.cast();
-            let evt_serial: *const EvtSerial = &(*evt_data).evt_serial;
-
-            let acl_data: *const AclDataPacket = self.ptr.cast();
-            let acl_serial: *const AclDataSerial = &(*acl_data).acl_data_serial;
-
-            if let TlPacketType::AclData = evt_kind {
-                Ok((*acl_serial).length as usize + 5)
-            } else {
-                Ok((*evt_serial).evt.payload_len as usize + TL_EVT_HEADER_SIZE)
-            }
-        }
-    }
+    //     /// writes an underlying [`EvtPacket`] into the provided buffer.
+    //     /// Returns the number of bytes that were written.
+    //     /// Returns an error if event kind is unknown or if provided buffer size is not enough.
+    //     #[allow(clippy::result_unit_err)]
+    //     pub fn write(&self, buf: &mut [u8]) -> Result<usize, ()> {
+    //         unsafe {
+    //             let evt_kind = TlPacketType::try_from((*self.ptr).evt_serial.kind)?;
+    //
+    //             let evt_data: *const EvtPacket = self.ptr.cast();
+    //             let evt_serial: *const EvtSerial = &(*evt_data).evt_serial;
+    //             let evt_serial_buf: *const u8 = evt_serial.cast();
+    //
+    //             let acl_data: *const AclDataPacket = self.ptr.cast();
+    //             let acl_serial: *const AclDataSerial = &(*acl_data).acl_data_serial;
+    //             let acl_serial_buf: *const u8 = acl_serial.cast();
+    //
+    //             if let TlPacketType::AclData = evt_kind {
+    //                 let len = (*acl_serial).length as usize + 5;
+    //                 if len > buf.len() {
+    //                     return Err(());
+    //                 }
+    //
+    //                 core::ptr::copy(evt_serial_buf, buf.as_mut_ptr(), len);
+    //
+    //                 Ok(len)
+    //             } else {
+    //                 let len = (*evt_serial).evt.payload_len as usize + TL_EVT_HEADER_SIZE;
+    //                 if len > buf.len() {
+    //                     return Err(());
+    //                 }
+    //
+    //                 core::ptr::copy(acl_serial_buf, buf.as_mut_ptr(), len);
+    //
+    //                 Ok(len)
+    //             }
+    //         }
+    //     }
+    //
+    //     /// returns the size of a buffer required to hold this event
+    //     #[allow(clippy::result_unit_err)]
+    //     pub fn size(&self) -> Result<usize, ()> {
+    //         unsafe {
+    //             let evt_kind = TlPacketType::try_from((*self.ptr).evt_serial.kind)?;
+    //
+    //             let evt_data: *const EvtPacket = self.ptr.cast();
+    //             let evt_serial: *const EvtSerial = &(*evt_data).evt_serial;
+    //
+    //             let acl_data: *const AclDataPacket = self.ptr.cast();
+    //             let acl_serial: *const AclDataSerial = &(*acl_data).acl_data_serial;
+    //
+    //             if let TlPacketType::AclData = evt_kind {
+    //                 Ok((*acl_serial).length as usize + 5)
+    //             } else {
+    //                 Ok((*evt_serial).evt.payload_len as usize + TL_EVT_HEADER_SIZE)
+    //             }
+    //         }
+    //     }
 }
 
 impl Drop for EvtBox {
     fn drop(&mut self) {
-        mm::MemoryManager::evt_drop(self.ptr);
+        trace!("evt box drop packet");
+
+        unsafe { mm::MemoryManager::drop_event_packet(self.ptr) };
     }
 }

embassy-stm32-wpan/src/lib.rs

@@ -6,20 +6,21 @@ pub mod fmt;
 use core::mem::MaybeUninit;
 use core::sync::atomic::{compiler_fence, Ordering};
 
+use ble::Ble;
 use cmd::CmdPacket;
-use embassy_futures::block_on;
 use embassy_hal_common::{into_ref, Peripheral, PeripheralRef};
 use embassy_stm32::interrupt;
 use embassy_stm32::interrupt::typelevel::Interrupt;
-use embassy_stm32::ipcc::{Config, Ipcc};
+use embassy_stm32::ipcc::{Config, Ipcc, ReceiveInterruptHandler, TransmitInterruptHandler};
 use embassy_stm32::peripherals::IPCC;
 use embassy_sync::blocking_mutex::raw::CriticalSectionRawMutex;
 use embassy_sync::channel::Channel;
 use embassy_sync::signal::Signal;
 use evt::{CcEvt, EvtBox};
+use mm::MemoryManager;
+use sys::Sys;
 use tables::{
     BleTable, DeviceInfoTable, Mac802_15_4Table, MemManagerTable, RefTable, SysTable, ThreadTable, TracesTable,
-    WirelessFwInfoTable,
 };
 use unsafe_linked_list::LinkedListNode;
 
@@ -29,50 +30,11 @@ pub mod cmd;
 pub mod consts;
 pub mod evt;
 pub mod mm;
-pub mod rc;
 pub mod shci;
 pub mod sys;
 pub mod tables;
 pub mod unsafe_linked_list;
 
-/// Interrupt handler.
-pub struct ReceiveInterruptHandler {}
-
-impl interrupt::typelevel::Handler<interrupt::typelevel::IPCC_C1_RX> for ReceiveInterruptHandler {
-    unsafe fn on_interrupt() {
-        if Ipcc::is_rx_pending(channels::cpu2::IPCC_SYSTEM_EVENT_CHANNEL) {
-            debug!("RX SYS evt");
-            sys::Sys::evt_handler();
-        } else if Ipcc::is_rx_pending(channels::cpu2::IPCC_BLE_EVENT_CHANNEL) {
-            debug!("RX BLE evt");
-            ble::Ble::evt_handler();
-        }
-
-        STATE.signal(());
-    }
-}
-
-pub struct TransmitInterruptHandler {}
-
-impl interrupt::typelevel::Handler<interrupt::typelevel::IPCC_C1_TX> for TransmitInterruptHandler {
-    unsafe fn on_interrupt() {
-        if Ipcc::is_tx_pending(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL) {
-            debug!("TX SYS cmd rsp");
-            let cc = sys::Sys::cmd_evt_handler();
-
-            LAST_CC_EVT.signal(cc);
-        } else if Ipcc::is_tx_pending(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL) {
-            debug!("TX MM release");
-            mm::MemoryManager::free_buf_handler();
-        } else if Ipcc::is_tx_pending(channels::cpu1::IPCC_HCI_ACL_DATA_CHANNEL) {
-            debug!("TX HCI acl");
-            ble::Ble::acl_data_handler();
-        }
-
-        STATE.signal(());
-    }
-}
-
 #[link_section = "TL_REF_TABLE"]
 pub static mut TL_REF_TABLE: MaybeUninit<RefTable> = MaybeUninit::uninit();
 
@@ -167,10 +129,14 @@ static mut BLE_CMD_BUFFER: MaybeUninit<CmdPacket> = MaybeUninit::uninit();
 //                                 fuck these "magic" numbers from ST ---v---v
 static mut HCI_ACL_DATA_BUFFER: MaybeUninit<[u8; TL_PACKET_HEADER_SIZE + 5 + 251]> = MaybeUninit::uninit();
 
+// TODO: remove these items
+
+#[allow(dead_code)]
 /// current event that is produced during IPCC IRQ handler execution
 /// on SYS channel
 static EVT_CHANNEL: Channel<CriticalSectionRawMutex, EvtBox, 32> = Channel::new();
 
+#[allow(dead_code)]
 /// last received Command Complete event
 static LAST_CC_EVT: Signal<CriticalSectionRawMutex, CcEvt> = Signal::new();
 
@@ -178,6 +144,10 @@ static STATE: Signal<CriticalSectionRawMutex, ()> = Signal::new();
 
 pub struct TlMbox<'d> {
     _ipcc: PeripheralRef<'d, IPCC>,
+
+    pub sys_subsystem: Sys,
+    pub mm_subsystem: MemoryManager,
+    pub ble_subsystem: Ble,
 }
 
 impl<'d> TlMbox<'d> {
@@ -262,9 +232,9 @@ impl<'d> TlMbox<'d> {
 
         Ipcc::enable(config);
 
-        sys::Sys::enable();
-        ble::Ble::enable();
-        mm::MemoryManager::enable();
+        let sys = sys::Sys::new();
+        let ble = ble::Ble::new();
+        let mm = mm::MemoryManager::new();
 
         // enable interrupts
         interrupt::typelevel::IPCC_C1_RX::unpend();
@@ -275,36 +245,11 @@ impl<'d> TlMbox<'d> {
 
         STATE.reset();
 
-        Self { _ipcc: ipcc }
-    }
-
-    /// Returns CPU2 wireless firmware information (if present).
-    pub fn wireless_fw_info(&self) -> Option<WirelessFwInfoTable> {
-        let info = unsafe { &(*(*TL_REF_TABLE.as_ptr()).device_info_table).wireless_fw_info_table };
-
-        // Zero version indicates that CPU2 wasn't active and didn't fill the information table
-        if info.version != 0 {
-            Some(*info)
-        } else {
-            None
-        }
-    }
-
-    /// picks single [`EvtBox`] from internal event queue.
-    ///
-    /// Internal event queu is populated in IPCC_RX_IRQ handler
-    pub fn dequeue_event(&mut self) -> Option<EvtBox> {
-        EVT_CHANNEL.try_recv().ok()
-    }
-
-    /// retrieves last Command Complete event and removes it from mailbox
-    pub fn pop_last_cc_evt(&mut self) -> Option<CcEvt> {
-        if LAST_CC_EVT.signaled() {
-            let cc = block_on(LAST_CC_EVT.wait());
-            LAST_CC_EVT.reset();
-            Some(cc)
-        } else {
-            None
+        Self {
+            _ipcc: ipcc,
+            sys_subsystem: sys,
+            ble_subsystem: ble,
+            mm_subsystem: mm,
         }
     }
 }

embassy-stm32-wpan/src/mm.rs

@@ -1,19 +1,29 @@
 //! Memory manager routines
 
+use core::future::poll_fn;
+use core::marker::PhantomData;
+use core::task::Poll;
+
+use cortex_m::interrupt;
 use embassy_stm32::ipcc::Ipcc;
+use embassy_sync::waitqueue::AtomicWaker;
 
 use crate::evt::EvtPacket;
 use crate::tables::MemManagerTable;
 use crate::unsafe_linked_list::LinkedListNode;
 use crate::{
     channels, BLE_SPARE_EVT_BUF, EVT_POOL, FREE_BUF_QUEUE, LOCAL_FREE_BUF_QUEUE, POOL_SIZE, SYS_SPARE_EVT_BUF,
-    TL_MEM_MANAGER_TABLE, TL_REF_TABLE,
+    TL_MEM_MANAGER_TABLE,
 };
 
-pub(super) struct MemoryManager;
+static MM_WAKER: AtomicWaker = AtomicWaker::new();
+
+pub struct MemoryManager {
+    phantom: PhantomData<MemoryManager>,
+}
 
 impl MemoryManager {
-    pub fn enable() {
+    pub(crate) fn new() -> Self {
         unsafe {
             LinkedListNode::init_head(FREE_BUF_QUEUE.as_mut_ptr());
             LinkedListNode::init_head(LOCAL_FREE_BUF_QUEUE.as_mut_ptr());
@@ -28,44 +38,40 @@ impl MemoryManager {
                 tracespoolsize: 0,
             });
         }
+
+        Self { phantom: PhantomData }
     }
 
-    pub fn evt_drop(evt: *mut EvtPacket) {
-        unsafe {
-            let list_node = evt.cast();
+    /// SAFETY: passing a pointer to something other than an event packet is UB
+    pub(crate) unsafe fn drop_event_packet(evt: *mut EvtPacket) {
+        interrupt::free(|_| unsafe {
+            LinkedListNode::insert_head(LOCAL_FREE_BUF_QUEUE.as_mut_ptr(), evt as *mut _);
+        });
 
-            LinkedListNode::insert_tail(LOCAL_FREE_BUF_QUEUE.as_mut_ptr(), list_node);
+        MM_WAKER.wake();
+    }
 
-            let channel_is_busy = Ipcc::c1_is_active_flag(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL);
-
-            // postpone event buffer freeing to IPCC interrupt handler
-            if channel_is_busy {
-                Ipcc::c1_set_tx_channel(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL, true);
+    pub async fn run_queue(&self) {
+        loop {
+            poll_fn(|cx| unsafe {
+                MM_WAKER.register(cx.waker());
+                if LinkedListNode::is_empty(LOCAL_FREE_BUF_QUEUE.as_mut_ptr()) {
+                    Poll::Pending
                 } else {
-                Self::send_free_buf();
-                Ipcc::c1_set_flag_channel(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL);
-            }
-        }
+                    Poll::Ready(())
                 }
+            })
+            .await;
 
-    /// gives free event buffers back to CPU2 from local buffer queue
-    pub fn send_free_buf() {
-        unsafe {
-            while !LinkedListNode::is_empty(LOCAL_FREE_BUF_QUEUE.as_mut_ptr()) {
-                let node_ptr = LinkedListNode::remove_head(LOCAL_FREE_BUF_QUEUE.as_mut_ptr());
-
-                LinkedListNode::insert_tail(
-                    (*(*TL_REF_TABLE.as_ptr()).mem_manager_table).pevt_free_buffer_queue,
-                    node_ptr,
-                );
+            Ipcc::send(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL, || {
+                interrupt::free(|_| unsafe {
+                    // CS required while moving nodes
+                    while let Some(node_ptr) = LinkedListNode::remove_head(LOCAL_FREE_BUF_QUEUE.as_mut_ptr()) {
+                        LinkedListNode::insert_head(FREE_BUF_QUEUE.as_mut_ptr(), node_ptr);
+                    }
+                })
+            })
+            .await;
         }
     }
 }
-
-    /// free buffer channel interrupt handler
-    pub fn free_buf_handler() {
-        Ipcc::c1_set_tx_channel(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL, false);
-        Self::send_free_buf();
-        Ipcc::c1_set_flag_channel(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL);
-    }
-}

embassy-stm32-wpan/src/rc.rs

@@ -1,50 +0,0 @@
-use crate::ble::Ble;
-use crate::consts::TlPacketType;
-use crate::{shci, TlMbox, STATE};
-
-pub struct RadioCoprocessor<'d> {
-    mbox: TlMbox<'d>,
-    rx_buf: [u8; 500],
-}
-
-impl<'d> RadioCoprocessor<'d> {
-    pub fn new(mbox: TlMbox<'d>) -> Self {
-        Self {
-            mbox,
-            rx_buf: [0u8; 500],
-        }
-    }
-
-    pub fn write(&self, buf: &[u8]) {
-        let cmd_code = buf[0];
-        let cmd = TlPacketType::try_from(cmd_code).unwrap();
-
-        match &cmd {
-            TlPacketType::BleCmd => Ble::ble_send_cmd(buf),
-            _ => todo!(),
-        }
-    }
-
-    pub async fn read(&mut self) -> &[u8] {
-        loop {
-            STATE.wait().await;
-
-            while let Some(evt) = self.mbox.dequeue_event() {
-                let event = evt.evt();
-
-                evt.write(&mut self.rx_buf).unwrap();
-
-                if event.kind() == 18 {
-                    shci::shci_ble_init(Default::default());
-                    self.rx_buf[0] = 0x04;
-                }
-            }
-
-            if self.mbox.pop_last_cc_evt().is_some() {
-                continue;
-            }
-
-            return &self.rx_buf;
-        }
-    }
-}

embassy-stm32-wpan/src/shci.rs

@@ -1,8 +1,8 @@
-use super::cmd::CmdPacket;
-use super::consts::TlPacketType;
-use super::{sys, TL_CS_EVT_SIZE, TL_EVT_HEADER_SIZE, TL_PACKET_HEADER_SIZE, TL_SYS_TABLE};
+use core::{mem, slice};
 
-const SCHI_OPCODE_BLE_INIT: u16 = 0xfc66;
+use super::{TL_CS_EVT_SIZE, TL_EVT_HEADER_SIZE, TL_PACKET_HEADER_SIZE};
+
+pub const SCHI_OPCODE_BLE_INIT: u16 = 0xfc66;
 
 #[derive(Debug, Clone, Copy)]
 #[repr(C, packed)]
@@ -32,6 +32,12 @@ pub struct ShciBleInitCmdParam {
     pub hw_version: u8,
 }
 
+impl ShciBleInitCmdParam {
+    pub fn payload<'a>(&self) -> &'a [u8] {
+        unsafe { slice::from_raw_parts(self as *const _ as *const u8, mem::size_of::<Self>()) }
+    }
+}
+
 impl Default for ShciBleInitCmdParam {
     fn default() -> Self {
         Self {
@@ -66,35 +72,10 @@ pub struct ShciHeader {
 #[derive(Debug, Clone, Copy)]
 #[repr(C, packed)]
 pub struct ShciBleInitCmdPacket {
-    header: ShciHeader,
-    param: ShciBleInitCmdParam,
+    pub header: ShciHeader,
+    pub param: ShciBleInitCmdParam,
 }
 
 pub const TL_BLE_EVT_CS_PACKET_SIZE: usize = TL_EVT_HEADER_SIZE + TL_CS_EVT_SIZE;
 #[allow(dead_code)] // Not used currently but reserved
 const TL_BLE_EVT_CS_BUFFER_SIZE: usize = TL_PACKET_HEADER_SIZE + TL_BLE_EVT_CS_PACKET_SIZE;
-
-pub fn shci_ble_init(param: ShciBleInitCmdParam) {
-    debug!("sending SHCI");
-
-    let mut packet = ShciBleInitCmdPacket {
-        header: ShciHeader::default(),
-        param,
-    };
-
-    let packet_ptr: *mut _ = &mut packet;
-
-    unsafe {
-        let cmd_ptr: *mut CmdPacket = packet_ptr.cast();
-
-        (*cmd_ptr).cmdserial.cmd.cmd_code = SCHI_OPCODE_BLE_INIT;
-        (*cmd_ptr).cmdserial.cmd.payload_len = core::mem::size_of::<ShciBleInitCmdParam>() as u8;
-
-        let p_cmd_buffer = &mut *(*TL_SYS_TABLE.as_mut_ptr()).pcmd_buffer;
-        core::ptr::write(p_cmd_buffer, *cmd_ptr);
-
-        p_cmd_buffer.cmdserial.ty = TlPacketType::SysCmd as u8;
-
-        sys::Sys::send_cmd();
-    }
-}

embassy-stm32-wpan/src/sys.rs

@@ -1,65 +1,70 @@
-use embassy_stm32::ipcc::Ipcc;
+use core::marker::PhantomData;
 
-use crate::cmd::{CmdPacket, CmdSerial};
-use crate::evt::{CcEvt, EvtBox, EvtSerial};
-use crate::tables::SysTable;
+use crate::cmd::CmdPacket;
+use crate::consts::TlPacketType;
+use crate::evt::EvtBox;
+use crate::shci::{ShciBleInitCmdParam, SCHI_OPCODE_BLE_INIT};
+use crate::tables::{SysTable, WirelessFwInfoTable};
 use crate::unsafe_linked_list::LinkedListNode;
-use crate::{channels, EVT_CHANNEL, SYSTEM_EVT_QUEUE, SYS_CMD_BUF, TL_SYS_TABLE};
+use crate::{channels, Ipcc, SYSTEM_EVT_QUEUE, SYS_CMD_BUF, TL_DEVICE_INFO_TABLE, TL_SYS_TABLE};
 
-pub struct Sys;
+pub struct Sys {
+    phantom: PhantomData<Sys>,
+}
 
 impl Sys {
-    pub fn enable() {
+    /// TL_Sys_Init
+    pub(crate) fn new() -> Self {
         unsafe {
             LinkedListNode::init_head(SYSTEM_EVT_QUEUE.as_mut_ptr());
 
             TL_SYS_TABLE.as_mut_ptr().write_volatile(SysTable {
                 pcmd_buffer: SYS_CMD_BUF.as_mut_ptr(),
                 sys_queue: SYSTEM_EVT_QUEUE.as_ptr(),
+            });
+        }
+
+        Self { phantom: PhantomData }
+    }
+
+    /// Returns CPU2 wireless firmware information (if present).
+    pub fn wireless_fw_info(&self) -> Option<WirelessFwInfoTable> {
+        let info = unsafe { TL_DEVICE_INFO_TABLE.as_mut_ptr().read_volatile().wireless_fw_info_table };
+
+        // Zero version indicates that CPU2 wasn't active and didn't fill the information table
+        if info.version != 0 {
+            Some(info)
+        } else {
+            None
+        }
+    }
+
+    pub fn write(&self, opcode: u16, payload: &[u8]) {
+        unsafe {
+            CmdPacket::write_into(SYS_CMD_BUF.as_mut_ptr(), TlPacketType::SysCmd, opcode, payload);
+        }
+    }
+
+    pub async fn shci_c2_ble_init(&self, param: ShciBleInitCmdParam) {
+        debug!("sending SHCI");
+
+        Ipcc::send(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL, || {
+            self.write(SCHI_OPCODE_BLE_INIT, param.payload());
         })
+        .await;
+
+        Ipcc::flush(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL).await;
     }
 
-        Ipcc::c1_set_rx_channel(channels::cpu2::IPCC_SYSTEM_EVENT_CHANNEL, true);
+    /// `HW_IPCC_SYS_EvtNot`
+    pub async fn read(&self) -> EvtBox {
+        Ipcc::receive(channels::cpu2::IPCC_SYSTEM_EVENT_CHANNEL, || unsafe {
+            if let Some(node_ptr) = LinkedListNode::remove_head(SYSTEM_EVT_QUEUE.as_mut_ptr()) {
+                Some(EvtBox::new(node_ptr.cast()))
+            } else {
+                None
             }
-
-    pub fn cmd_evt_handler() -> CcEvt {
-        Ipcc::c1_set_tx_channel(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL, false);
-
-        // ST's command response data structure is really convoluted.
-        //
-        // for command response events on SYS channel, the header is missing
-        // and one should:
-        // 1. interpret the content of CMD_BUFFER as CmdPacket
-        // 2. Access CmdPacket's cmdserial field and interpret its content as EvtSerial
-        // 3. Access EvtSerial's evt field (as Evt) and interpret its payload as CcEvt
-        // 4. CcEvt type is the actual SHCI response
-        // 5. profit
-        unsafe {
-            let pcmd: *const CmdPacket = (*TL_SYS_TABLE.as_ptr()).pcmd_buffer;
-            let cmd_serial: *const CmdSerial = &(*pcmd).cmdserial;
-            let evt_serial: *const EvtSerial = cmd_serial.cast();
-            let cc: *const CcEvt = (*evt_serial).evt.payload.as_ptr().cast();
-            *cc
-        }
-    }
-
-    pub fn evt_handler() {
-        unsafe {
-            while !LinkedListNode::is_empty(SYSTEM_EVT_QUEUE.as_mut_ptr()) {
-                let node_ptr = LinkedListNode::remove_head(SYSTEM_EVT_QUEUE.as_mut_ptr());
-
-                let event = node_ptr.cast();
-                let event = EvtBox::new(event);
-
-                EVT_CHANNEL.try_send(event).unwrap();
-            }
-        }
-
-        Ipcc::c1_clear_flag_channel(channels::cpu2::IPCC_SYSTEM_EVENT_CHANNEL);
-    }
-
-    pub fn send_cmd() {
-        Ipcc::c1_set_flag_channel(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL);
-        Ipcc::c1_set_tx_channel(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL, true);
+        })
+        .await
     }
 }

embassy-stm32-wpan/src/unsafe_linked_list.rs

@@ -117,7 +117,12 @@ impl LinkedListNode {
     /// Remove `node` from the linked list
     pub unsafe fn remove_node(mut p_node: *mut LinkedListNode) {
         interrupt::free(|_| {
-            let node = ptr::read_volatile(p_node);
+            // trace!("remove node: {:x}", p_node);
+            // apparently linked list nodes are not always aligned.
+            // if more hardfaults occur, more of these may need to be converted to unaligned.
+            let node = ptr::read_unaligned(p_node);
+            // trace!("remove node: prev/next {:x}/{:x}", node.prev, node.next);
+
             if node.next != node.prev {
                 let mut node_next = ptr::read_volatile(node.next);
                 let mut node_prev = ptr::read_volatile(node.prev);
@@ -139,28 +144,36 @@ impl LinkedListNode {
     }
 
     /// Remove `list_head` and return a pointer to the `node`.
-    pub unsafe fn remove_head(mut p_list_head: *mut LinkedListNode) -> *mut LinkedListNode {
+    pub unsafe fn remove_head(mut p_list_head: *mut LinkedListNode) -> Option<*mut LinkedListNode> {
         interrupt::free(|_| {
             let list_head = ptr::read_volatile(p_list_head);
 
+            if list_head.next == p_list_head {
+                None
+            } else {
                 // Allowed because a removed node is not seen by another core
                 let p_node = list_head.next;
                 Self::remove_node(p_node);
 
-            p_node
+                Some(p_node)
+            }
         })
     }
 
     /// Remove `list_tail` and return a pointer to the `node`.
-    pub unsafe fn remove_tail(mut p_list_tail: *mut LinkedListNode) -> *mut LinkedListNode {
+    pub unsafe fn remove_tail(mut p_list_tail: *mut LinkedListNode) -> Option<*mut LinkedListNode> {
         interrupt::free(|_| {
             let list_tail = ptr::read_volatile(p_list_tail);
 
+            if list_tail.prev == p_list_tail {
+                None
+            } else {
                 // Allowed because a removed node is not seen by another core
                 let p_node = list_tail.prev;
                 Self::remove_node(p_node);
 
-            p_node
+                Some(p_node)
+            }
         })
     }
 

embassy-stm32/src/ipcc.rs

@@ -1,7 +1,77 @@
+use core::future::poll_fn;
+use core::task::Poll;
+
+use atomic_polyfill::{compiler_fence, Ordering};
+
 use self::sealed::Instance;
+use crate::interrupt;
+use crate::interrupt::typelevel::Interrupt;
 use crate::peripherals::IPCC;
 use crate::rcc::sealed::RccPeripheral;
 
+/// Interrupt handler.
+pub struct ReceiveInterruptHandler {}
+
+impl interrupt::typelevel::Handler<interrupt::typelevel::IPCC_C1_RX> for ReceiveInterruptHandler {
+    unsafe fn on_interrupt() {
+        let regs = IPCC::regs();
+
+        let channels = [
+            IpccChannel::Channel1,
+            IpccChannel::Channel2,
+            IpccChannel::Channel3,
+            IpccChannel::Channel4,
+            IpccChannel::Channel5,
+            IpccChannel::Channel6,
+        ];
+
+        // Status register gives channel occupied status. For rx, use cpu1.
+        let sr = unsafe { regs.cpu(1).sr().read() };
+        regs.cpu(0).mr().modify(|w| {
+            for channel in channels {
+                if sr.chf(channel as usize) {
+                    // If bit is set to 1 then interrupt is disabled; we want to disable the interrupt
+                    w.set_chom(channel as usize, true);
+
+                    // There shouldn't be a race because the channel is masked only if the interrupt has fired
+                    IPCC::state().rx_waker_for(channel).wake();
+                }
+            }
+        })
+    }
+}
+
+pub struct TransmitInterruptHandler {}
+
+impl interrupt::typelevel::Handler<interrupt::typelevel::IPCC_C1_TX> for TransmitInterruptHandler {
+    unsafe fn on_interrupt() {
+        let regs = IPCC::regs();
+
+        let channels = [
+            IpccChannel::Channel1,
+            IpccChannel::Channel2,
+            IpccChannel::Channel3,
+            IpccChannel::Channel4,
+            IpccChannel::Channel5,
+            IpccChannel::Channel6,
+        ];
+
+        // Status register gives channel occupied status. For tx, use cpu0.
+        let sr = unsafe { regs.cpu(0).sr().read() };
+        regs.cpu(0).mr().modify(|w| {
+            for channel in channels {
+                if !sr.chf(channel as usize) {
+                    // If bit is set to 1 then interrupt is disabled; we want to disable the interrupt
+                    w.set_chfm(channel as usize, true);
+
+                    // There shouldn't be a race because the channel is masked only if the interrupt has fired
+                    IPCC::state().tx_waker_for(channel).wake();
+                }
+            }
+        });
+    }
+}
+
 #[non_exhaustive]
 #[derive(Clone, Copy, Default)]
 pub struct Config {
@@ -20,13 +90,6 @@ pub enum IpccChannel {
     Channel6 = 5,
 }
 
-pub mod sealed {
-    pub trait Instance: crate::rcc::RccPeripheral {
-        fn regs() -> crate::pac::ipcc::Ipcc;
-        fn set_cpu2(enabled: bool);
-    }
-}
-
 pub struct Ipcc;
 
 impl Ipcc {
@@ -45,114 +108,99 @@ impl Ipcc {
                 w.set_txfie(true);
             })
         }
+
+        // enable interrupts
+        crate::interrupt::typelevel::IPCC_C1_RX::unpend();
+        crate::interrupt::typelevel::IPCC_C1_TX::unpend();
+
+        unsafe { crate::interrupt::typelevel::IPCC_C1_RX::enable() };
+        unsafe { crate::interrupt::typelevel::IPCC_C1_TX::enable() };
     }
 
-    pub fn c1_set_rx_channel(channel: IpccChannel, enabled: bool) {
+    /// Send data to an IPCC channel. The closure is called to write the data when appropriate.
+    pub async fn send(channel: IpccChannel, f: impl FnOnce()) {
         let regs = IPCC::regs();
 
-        // If bit is set to 1 then interrupt is disabled
-        unsafe { regs.cpu(0).mr().modify(|w| w.set_chom(channel as usize, !enabled)) }
-    }
+        Self::flush(channel).await;
+        compiler_fence(Ordering::SeqCst);
 
-    pub fn c1_get_rx_channel(channel: IpccChannel) -> bool {
-        let regs = IPCC::regs();
+        f();
 
-        // If bit is set to 1 then interrupt is disabled
-        unsafe { !regs.cpu(0).mr().read().chom(channel as usize) }
-    }
-
-    #[allow(dead_code)]
-    pub fn c2_set_rx_channel(channel: IpccChannel, enabled: bool) {
-        let regs = IPCC::regs();
-
-        // If bit is set to 1 then interrupt is disabled
-        unsafe { regs.cpu(1).mr().modify(|w| w.set_chom(channel as usize, !enabled)) }
-    }
-
-    #[allow(dead_code)]
-    pub fn c2_get_rx_channel(channel: IpccChannel) -> bool {
-        let regs = IPCC::regs();
-
-        // If bit is set to 1 then interrupt is disabled
-        unsafe { !regs.cpu(1).mr().read().chom(channel as usize) }
-    }
-
-    pub fn c1_set_tx_channel(channel: IpccChannel, enabled: bool) {
-        let regs = IPCC::regs();
-
-        // If bit is set to 1 then interrupt is disabled
-        unsafe { regs.cpu(0).mr().modify(|w| w.set_chfm(channel as usize, !enabled)) }
-    }
-
-    pub fn c1_get_tx_channel(channel: IpccChannel) -> bool {
-        let regs = IPCC::regs();
-
-        // If bit is set to 1 then interrupt is disabled
-        unsafe { !regs.cpu(0).mr().read().chfm(channel as usize) }
-    }
-
-    #[allow(dead_code)]
-    pub fn c2_set_tx_channel(channel: IpccChannel, enabled: bool) {
-        let regs = IPCC::regs();
-
-        // If bit is set to 1 then interrupt is disabled
-        unsafe { regs.cpu(1).mr().modify(|w| w.set_chfm(channel as usize, !enabled)) }
-    }
-
-    #[allow(dead_code)]
-    pub fn c2_get_tx_channel(channel: IpccChannel) -> bool {
-        let regs = IPCC::regs();
-
-        // If bit is set to 1 then interrupt is disabled
-        unsafe { !regs.cpu(1).mr().read().chfm(channel as usize) }
-    }
-
-    /// clears IPCC receive channel status for CPU1
-    pub fn c1_clear_flag_channel(channel: IpccChannel) {
-        let regs = IPCC::regs();
-
-        unsafe { regs.cpu(0).scr().write(|w| w.set_chc(channel as usize, true)) }
-    }
-
-    #[allow(dead_code)]
-    /// clears IPCC receive channel status for CPU2
-    pub fn c2_clear_flag_channel(channel: IpccChannel) {
-        let regs = IPCC::regs();
-
-        unsafe { regs.cpu(1).scr().write(|w| w.set_chc(channel as usize, true)) }
-    }
-
-    pub fn c1_set_flag_channel(channel: IpccChannel) {
-        let regs = IPCC::regs();
+        compiler_fence(Ordering::SeqCst);
 
+        trace!("ipcc: ch {}: send data", channel as u8);
         unsafe { regs.cpu(0).scr().write(|w| w.set_chs(channel as usize, true)) }
     }
 
-    #[allow(dead_code)]
-    pub fn c2_set_flag_channel(channel: IpccChannel) {
+    /// Wait for the tx channel to become clear
+    pub async fn flush(channel: IpccChannel) {
         let regs = IPCC::regs();
 
-        unsafe { regs.cpu(1).scr().write(|w| w.set_chs(channel as usize, true)) }
+        // This is a race, but is nice for debugging
+        if unsafe { regs.cpu(0).sr().read() }.chf(channel as usize) {
+            trace!("ipcc: ch {}:  wait for tx free", channel as u8);
         }
 
-    pub fn c1_is_active_flag(channel: IpccChannel) -> bool {
+        poll_fn(|cx| {
+            IPCC::state().tx_waker_for(channel).register(cx.waker());
+            // If bit is set to 1 then interrupt is disabled; we want to enable the interrupt
+            unsafe { regs.cpu(0).mr().modify(|w| w.set_chfm(channel as usize, false)) }
+
+            compiler_fence(Ordering::SeqCst);
+
+            if !unsafe { regs.cpu(0).sr().read() }.chf(channel as usize) {
+                // If bit is set to 1 then interrupt is disabled; we want to disable the interrupt
+                unsafe { regs.cpu(0).mr().modify(|w| w.set_chfm(channel as usize, true)) }
+
+                Poll::Ready(())
+            } else {
+                Poll::Pending
+            }
+        })
+        .await;
+    }
+
+    /// Receive data from an IPCC channel. The closure is called to read the data when appropriate.
+    pub async fn receive<R>(channel: IpccChannel, mut f: impl FnMut() -> Option<R>) -> R {
         let regs = IPCC::regs();
 
-        unsafe { regs.cpu(0).sr().read().chf(channel as usize) }
+        loop {
+            // This is a race, but is nice for debugging
+            if !unsafe { regs.cpu(1).sr().read() }.chf(channel as usize) {
+                trace!("ipcc: ch {}:  wait for rx occupied", channel as u8);
             }
 
-    pub fn c2_is_active_flag(channel: IpccChannel) -> bool {
-        let regs = IPCC::regs();
+            poll_fn(|cx| {
+                IPCC::state().rx_waker_for(channel).register(cx.waker());
+                // If bit is set to 1 then interrupt is disabled; we want to enable the interrupt
+                unsafe { regs.cpu(0).mr().modify(|w| w.set_chom(channel as usize, false)) }
 
-        unsafe { regs.cpu(1).sr().read().chf(channel as usize) }
+                compiler_fence(Ordering::SeqCst);
+
+                if unsafe { regs.cpu(1).sr().read() }.chf(channel as usize) {
+                    // If bit is set to 1 then interrupt is disabled; we want to disable the interrupt
+                    unsafe { regs.cpu(0).mr().modify(|w| w.set_chfm(channel as usize, true)) }
+
+                    Poll::Ready(())
+                } else {
+                    Poll::Pending
+                }
+            })
+            .await;
+
+            trace!("ipcc: ch {}:  read data", channel as u8);
+            compiler_fence(Ordering::SeqCst);
+
+            match f() {
+                Some(ret) => return ret,
+                None => {}
             }
 
-    pub fn is_tx_pending(channel: IpccChannel) -> bool {
-        !Self::c1_is_active_flag(channel) && Self::c1_get_tx_channel(channel)
+            trace!("ipcc: ch {}: clear rx", channel as u8);
+            compiler_fence(Ordering::SeqCst);
+            // If the channel is clear and the read function returns none, fetch more data
+            unsafe { regs.cpu(0).scr().write(|w| w.set_chc(channel as usize, true)) }
         }
-
-    pub fn is_rx_pending(channel: IpccChannel) -> bool {
-        Self::c2_is_active_flag(channel) && Self::c1_get_rx_channel(channel)
     }
 }
 
@@ -164,9 +212,66 @@ impl sealed::Instance for crate::peripherals::IPCC {
     fn set_cpu2(enabled: bool) {
         unsafe { crate::pac::PWR.cr4().modify(|w| w.set_c2boot(enabled)) }
     }
+
+    fn state() -> &'static self::sealed::State {
+        static STATE: self::sealed::State = self::sealed::State::new();
+        &STATE
+    }
+}
+
+pub(crate) mod sealed {
+    use embassy_sync::waitqueue::AtomicWaker;
+
+    use super::*;
+
+    pub struct State {
+        rx_wakers: [AtomicWaker; 6],
+        tx_wakers: [AtomicWaker; 6],
+    }
+
+    impl State {
+        pub const fn new() -> Self {
+            const WAKER: AtomicWaker = AtomicWaker::new();
+
+            Self {
+                rx_wakers: [WAKER; 6],
+                tx_wakers: [WAKER; 6],
+            }
+        }
+
+        pub fn rx_waker_for(&self, channel: IpccChannel) -> &AtomicWaker {
+            match channel {
+                IpccChannel::Channel1 => &self.rx_wakers[0],
+                IpccChannel::Channel2 => &self.rx_wakers[1],
+                IpccChannel::Channel3 => &self.rx_wakers[2],
+                IpccChannel::Channel4 => &self.rx_wakers[3],
+                IpccChannel::Channel5 => &self.rx_wakers[4],
+                IpccChannel::Channel6 => &self.rx_wakers[5],
+            }
+        }
+
+        pub fn tx_waker_for(&self, channel: IpccChannel) -> &AtomicWaker {
+            match channel {
+                IpccChannel::Channel1 => &self.tx_wakers[0],
+                IpccChannel::Channel2 => &self.tx_wakers[1],
+                IpccChannel::Channel3 => &self.tx_wakers[2],
+                IpccChannel::Channel4 => &self.tx_wakers[3],
+                IpccChannel::Channel5 => &self.tx_wakers[4],
+                IpccChannel::Channel6 => &self.tx_wakers[5],
+            }
+        }
+    }
+
+    pub trait Instance: crate::rcc::RccPeripheral {
+        fn regs() -> crate::pac::ipcc::Ipcc;
+        fn set_cpu2(enabled: bool);
+        fn state() -> &'static State;
+    }
 }
 
 unsafe fn _configure_pwr() {
+    // TODO: move this to RCC
+
     let pwr = crate::pac::PWR;
     let rcc = crate::pac::RCC;
 

examples/stm32wb/src/bin/tl_mbox.rs

@@ -5,14 +5,14 @@
 use defmt::*;
 use embassy_executor::Spawner;
 use embassy_stm32::bind_interrupts;
-use embassy_stm32::ipcc::Config;
+use embassy_stm32::ipcc::{Config, ReceiveInterruptHandler, TransmitInterruptHandler};
 use embassy_stm32_wpan::TlMbox;
 use embassy_time::{Duration, Timer};
 use {defmt_rtt as _, panic_probe as _};
 
 bind_interrupts!(struct Irqs{
-    IPCC_C1_RX => embassy_stm32_wpan::ReceiveInterruptHandler;
-    IPCC_C1_TX => embassy_stm32_wpan::TransmitInterruptHandler;
+    IPCC_C1_RX => ReceiveInterruptHandler;
+    IPCC_C1_TX => TransmitInterruptHandler;
 });
 
 #[embassy_executor::main]
@@ -48,7 +48,7 @@ async fn main(_spawner: Spawner) {
     let mbox = TlMbox::init(p.IPCC, Irqs, config);
 
     loop {
-        let wireless_fw_info = mbox.wireless_fw_info();
+        let wireless_fw_info = mbox.sys_subsystem.wireless_fw_info();
         match wireless_fw_info {
             None => info!("not yet initialized"),
             Some(fw_info) => {

examples/stm32wb/src/bin/tl_mbox_tx_rx.rs

@@ -5,14 +5,13 @@
 use defmt::*;
 use embassy_executor::Spawner;
 use embassy_stm32::bind_interrupts;
-use embassy_stm32::ipcc::Config;
-use embassy_stm32_wpan::rc::RadioCoprocessor;
+use embassy_stm32::ipcc::{Config, ReceiveInterruptHandler, TransmitInterruptHandler};
 use embassy_stm32_wpan::TlMbox;
 use {defmt_rtt as _, panic_probe as _};
 
 bind_interrupts!(struct Irqs{
-    IPCC_C1_RX => embassy_stm32_wpan::ReceiveInterruptHandler;
-    IPCC_C1_TX => embassy_stm32_wpan::TransmitInterruptHandler;
+    IPCC_C1_RX => ReceiveInterruptHandler;
+    IPCC_C1_TX => TransmitInterruptHandler;
 });
 
 #[embassy_executor::main]
@@ -47,14 +46,18 @@ async fn main(_spawner: Spawner) {
     let config = Config::default();
     let mbox = TlMbox::init(p.IPCC, Irqs, config);
 
-    let mut rc = RadioCoprocessor::new(mbox);
+    let sys_event = mbox.sys_subsystem.read().await;
+    info!("sys event: {}", sys_event.payload());
 
-    let response = rc.read().await;
-    info!("coprocessor ready {}", response);
+    mbox.sys_subsystem.shci_c2_ble_init(Default::default()).await;
 
-    rc.write(&[0x01, 0x03, 0x0c, 0x00, 0x00]);
-    let response = rc.read().await;
-    info!("ble reset rsp {}", response);
+    info!("starting ble...");
+    mbox.ble_subsystem.write(0x0c, &[]).await;
+
+    info!("waiting for ble...");
+    let ble_event = mbox.ble_subsystem.read().await;
+
+    info!("ble event: {}", ble_event.payload());
 
     info!("Test OK");
     cortex_m::asm::bkpt();

tests/stm32/src/bin/tl_mbox.rs

@@ -6,32 +6,45 @@
 #[path = "../common.rs"]
 mod common;
 
+use core::mem;
+
 use common::*;
 use embassy_executor::Spawner;
+use embassy_futures::poll_once;
 use embassy_stm32::bind_interrupts;
-use embassy_stm32::ipcc::Config;
-use embassy_stm32_wpan::rc::RadioCoprocessor;
-use embassy_stm32_wpan::TlMbox;
+use embassy_stm32::ipcc::{Config, ReceiveInterruptHandler, TransmitInterruptHandler};
+use embassy_stm32_wpan::{mm, TlMbox};
 use embassy_time::{Duration, Timer};
 
 bind_interrupts!(struct Irqs{
-    IPCC_C1_RX => embassy_stm32_wpan::ReceiveInterruptHandler;
-    IPCC_C1_TX => embassy_stm32_wpan::TransmitInterruptHandler;
+    IPCC_C1_RX => ReceiveInterruptHandler;
+    IPCC_C1_TX => TransmitInterruptHandler;
 });
 
+#[embassy_executor::task]
+async fn run_mm_queue(memory_manager: mm::MemoryManager) {
+    memory_manager.run_queue().await;
+}
+
 #[embassy_executor::main]
-async fn main(_spawner: Spawner) {
+async fn main(spawner: Spawner) {
     let p = embassy_stm32::init(config());
     info!("Hello World!");
 
     let config = Config::default();
     let mbox = TlMbox::init(p.IPCC, Irqs, config);
 
-    loop {
-        let wireless_fw_info = mbox.wireless_fw_info();
-        match wireless_fw_info {
-            None => {}
-            Some(fw_info) => {
+    spawner.spawn(run_mm_queue(mbox.mm_subsystem)).unwrap();
+
+    let ready_event = mbox.sys_subsystem.read().await;
+    let _ = poll_once(mbox.sys_subsystem.read()); // clear rx not
+
+    info!("coprocessor ready {}", ready_event.payload());
+
+    // test memory manager
+    mem::drop(ready_event);
+
+    let fw_info = mbox.sys_subsystem.wireless_fw_info().unwrap();
     let version_major = fw_info.version_major();
     let version_minor = fw_info.version_minor();
     let subversion = fw_info.subversion();
@@ -44,22 +57,19 @@ async fn main(_spawner: Spawner) {
         version_major, version_minor, subversion, sram2a_size, sram2b_size
     );
 
-                break;
-            }
-        }
-
     Timer::after(Duration::from_millis(50)).await;
-    }
 
-    let mut rc = RadioCoprocessor::new(mbox);
+    mbox.sys_subsystem.shci_c2_ble_init(Default::default()).await;
 
-    let response = rc.read().await;
-    info!("coprocessor ready {}", response);
+    info!("starting ble...");
+    mbox.ble_subsystem.write(0x0c, &[]).await;
 
-    rc.write(&[0x01, 0x03, 0x0c, 0x00, 0x00]);
-    let response = rc.read().await;
-    info!("ble reset rsp {}", response);
+    info!("waiting for ble...");
+    let ble_event = mbox.ble_subsystem.read().await;
 
+    info!("ble event: {}", ble_event.payload());
+
+    Timer::after(Duration::from_millis(150)).await;
     info!("Test OK");
     cortex_m::asm::bkpt();
 }