This commit is contained in:
goueslati 2023-06-08 16:26:47 +01:00
parent 87ad66f2b4
commit ce1d72c609
10 changed files with 485 additions and 346 deletions

View File

@ -1,35 +1,36 @@
use embassy_futures::block_on;
use super::cmd::CmdSerial;
use super::cmd::{CmdPacket, CmdSerial};
use super::consts::TlPacketType;
use super::evt::EvtBox;
use super::ipcc::Ipcc;
use super::unsafe_linked_list::LinkedListNode;
use super::{
channels, BleTable, BLE_CMD_BUFFER, CS_BUFFER, EVT_QUEUE, HCI_ACL_DATA_BUFFER, TL_BLE_TABLE, TL_CHANNEL,
channels, BleTable, BLE_CMD_BUFFER, CS_BUFFER, EVT_QUEUE, HCI_ACL_DATA_BUFFER, HEAPLESS_EVT_QUEUE, TL_BLE_TABLE,
TL_REF_TABLE,
};
use crate::tl_mbox::cmd::CmdPacket;
use crate::tl_mbox::ipcc::Ipcc;
pub struct Ble;
impl Ble {
pub fn enable() {
pub(super) fn new() -> Self {
unsafe {
LinkedListNode::init_head(EVT_QUEUE.as_mut_ptr());
TL_BLE_TABLE.as_mut_ptr().write_volatile(BleTable {
pcmd_buffer: BLE_CMD_BUFFER.as_mut_ptr().cast(),
pcs_buffer: CS_BUFFER.as_mut_ptr().cast(),
pcs_buffer: CS_BUFFER.as_ptr().cast(),
pevt_queue: EVT_QUEUE.as_ptr().cast(),
phci_acl_data_buffer: HCI_ACL_DATA_BUFFER.as_mut_ptr().cast(),
});
}
Ipcc::c1_set_rx_channel(channels::cpu2::IPCC_BLE_EVENT_CHANNEL, true);
Ble
}
pub fn evt_handler() {
pub(super) fn evt_handler() {
unsafe {
let mut node_ptr = core::ptr::null_mut();
let node_ptr_ptr: *mut _ = &mut node_ptr;
@ -40,25 +41,41 @@ impl Ble {
let event = node_ptr.cast();
let event = EvtBox::new(event);
block_on(TL_CHANNEL.send(event));
block_on(HEAPLESS_EVT_QUEUE.send(event));
}
}
Ipcc::c1_clear_flag_channel(channels::cpu2::IPCC_BLE_EVENT_CHANNEL);
}
pub(super) fn acl_data_handler(&self) {
Ipcc::c1_set_tx_channel(channels::cpu1::IPCC_HCI_ACL_DATA_CHANNEL, false);
// TODO: ACL data ack to the user
}
pub fn send_cmd(buf: &[u8]) {
unsafe {
let pcmd_buffer: *mut CmdPacket = (*TL_REF_TABLE.assume_init().ble_table).pcmd_buffer;
let pcmd_serial: *mut CmdSerial = &mut (*pcmd_buffer).cmd_serial;
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.cmd_serial.ty = TlPacketType::BleCmd as u8;
let mut 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 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);
}
}

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@ -1,7 +1,8 @@
use super::PacketHeader;
use crate::tl_mbox::evt::{EvtPacket, EvtSerial};
use crate::tl_mbox::{PacketHeader, TL_EVT_HEADER_SIZE};
#[repr(C, packed)]
#[derive(Copy, Clone)]
#[repr(C, packed)]
pub struct Cmd {
pub cmd_code: u16,
pub payload_len: u8,
@ -18,22 +19,49 @@ impl Default for Cmd {
}
}
#[repr(C, packed)]
#[derive(Copy, Clone, Default)]
#[repr(C, packed)]
pub struct CmdSerial {
pub ty: u8,
pub cmd: Cmd,
}
#[repr(C, packed)]
#[derive(Copy, Clone, Default)]
#[repr(C, packed)]
pub struct CmdPacket {
pub header: PacketHeader,
pub cmd_serial: CmdSerial,
pub cmdserial: CmdSerial,
}
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;
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();
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)
}
}
}
#[repr(C, packed)]
#[derive(Copy, Clone)]
#[repr(C, packed)]
pub struct AclDataSerial {
pub ty: u8,
pub handle: u16,
@ -41,8 +69,8 @@ pub struct AclDataSerial {
pub acl_data: [u8; 1],
}
#[repr(C, packed)]
#[derive(Copy, Clone)]
#[repr(C, packed)]
pub struct AclDataPacket {
pub header: PacketHeader,
pub acl_data_serial: AclDataSerial,

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@ -1,4 +1,6 @@
#[derive(PartialEq)]
use core::convert::TryFrom;
#[derive(Debug)]
#[repr(C)]
pub enum TlPacketType {
BleCmd = 0x01,

View File

@ -2,11 +2,13 @@ use core::mem::MaybeUninit;
use super::cmd::{AclDataPacket, AclDataSerial};
use super::consts::TlPacketType;
use super::mm::MemoryManager;
use super::{PacketHeader, TL_EVT_HEADER_SIZE};
use crate::tl_mbox::mm::MemoryManager;
/// the payload of [`Evt`] for a command status event
#[derive(Copy, Clone)]
/**
* The payload of `Evt` for a command status event
*/
#[derive(Debug, Copy, Clone)]
#[repr(C, packed)]
pub struct CsEvt {
pub status: u8,
@ -14,16 +16,39 @@ pub struct CsEvt {
pub cmd_code: u16,
}
/// the payload of [`Evt`] for a command complete event
#[derive(Clone, Copy, Default)]
/**
* The payload of `Evt` for a command complete event
*/
#[derive(Debug, Copy, Clone, Default)]
#[repr(C, packed)]
pub struct CcEvt {
pub num_cmd: u8,
pub cmd_code: u8,
pub cmd_code: u16,
pub payload: [u8; 1],
}
#[derive(Clone, Copy, Default)]
impl CcEvt {
pub fn write(&self, buf: &mut [u8]) {
unsafe {
let len = core::mem::size_of::<CcEvt>();
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(Debug, Copy, Clone, Default)]
#[repr(C, packed)]
pub struct AsynchEvt {
sub_evt_code: u16,
payload: [u8; 1],
}
#[derive(Debug, Copy, Clone, Default)]
#[repr(C, packed)]
pub struct Evt {
pub evt_code: u8,
@ -31,7 +56,7 @@ pub struct Evt {
pub payload: [u8; 1],
}
#[derive(Clone, Copy, Default)]
#[derive(Debug, Copy, Clone, Default)]
#[repr(C, packed)]
pub struct EvtSerial {
pub kind: u8,
@ -46,14 +71,26 @@ pub struct EvtSerial {
/// 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(Clone, Copy, Default)]
#[derive(Copy, Clone, Default)]
#[repr(C, packed)]
pub struct EvtPacket {
pub header: PacketHeader,
pub evt_serial: EvtSerial,
}
/// Smart pointer to the [`EvtPacket`] that will dispose of it automatically on drop
impl EvtPacket {
pub fn kind(&self) -> u8 {
self.evt_serial.kind
}
pub fn evt(&self) -> &Evt {
&self.evt_serial.evt
}
}
/// smart pointer to the [`EvtPacket`] that will dispose of [`EvtPacket`] buffer automatically
/// on [`Drop`]
#[derive(Debug)]
pub struct EvtBox {
ptr: *mut EvtPacket,
}
@ -64,7 +101,7 @@ impl EvtBox {
Self { ptr }
}
/// Copies the event data from inner pointer and returns and event structure
/// copies event data from inner pointer and returns an event structure
pub fn evt(&self) -> EvtPacket {
let mut evt = MaybeUninit::uninit();
unsafe {
@ -73,28 +110,11 @@ impl EvtBox {
}
}
/// Returns the size of a buffer required to hold this event
pub fn size(&self) -> Result<usize, ()> {
unsafe {
let evt_kind = TlPacketType::try_from((*self.ptr).evt_serial.kind)?;
if evt_kind == TlPacketType::AclData {
let acl_data: *const AclDataPacket = self.ptr.cast();
let acl_serial: *const AclDataSerial = &(*acl_data).acl_data_serial;
Ok((*acl_serial).length as usize + 5)
} else {
let evt_data: *const EvtPacket = self.ptr.cast();
let evt_serial: *const EvtSerial = &(*evt_data).evt_serial;
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 unkown or if provided buffer size is not enough
pub fn copy_into_slice(&self, buf: &mut [u8]) -> Result<usize, ()> {
/// 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)?;
@ -127,6 +147,26 @@ impl EvtBox {
}
}
}
/// 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 {

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@ -0,0 +1,60 @@
use super::ble::Ble;
use super::consts::TlPacketType;
use super::evt::CcEvt;
use super::shci::{shci_ble_init, ShciBleInitCmdParam};
use super::{TlMbox, STATE};
pub struct RadioCoprocessor<'d> {
mbox: TlMbox<'d>,
config: ShciBleInitCmdParam,
rx_buffer: [u8; 500],
}
impl<'d> RadioCoprocessor<'d> {
pub fn new(mbox: TlMbox<'d>, config: ShciBleInitCmdParam) -> Self {
Self {
mbox,
config,
rx_buffer: [0u8; 500],
}
}
pub fn write(&mut self, params: &[u8]) -> Result<(), ()> {
let cmd_code = params[0];
let cmd = TlPacketType::try_from(cmd_code)?;
match cmd {
TlPacketType::BleCmd => Ble::send_cmd(params),
_ => todo!(),
}
Ok(())
}
pub async fn read(&mut self) -> &[u8] {
self.rx_buffer = [0u8; 500];
loop {
STATE.wait().await;
if let Some(evt) = self.mbox.dequeue_event() {
let event = evt.evt();
evt.write(&mut self.rx_buffer).unwrap();
if event.kind() == 18 {
shci_ble_init(self.config);
self.rx_buffer[0] = 0x04; // replace event code with one that is supported by HCI
}
if let Some(cc) = self.mbox.pop_last_cc_evt() {
continue;
}
let payload_len = self.rx_buffer[2];
return &self.rx_buffer[..3 + payload_len as usize];
}
}
}
}

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@ -1,56 +1,57 @@
//! Memory manager routines
use core::mem::MaybeUninit;
use super::evt::EvtPacket;
use super::ipcc::Ipcc;
use super::unsafe_linked_list::LinkedListNode;
use super::{
channels, MemManagerTable, BLE_SPARE_EVT_BUF, EVT_POOL, FREE_BUFF_QUEUE, LOCAL_FREE_BUF_QUEUE, POOL_SIZE,
channels, MemManagerTable, 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,
};
use crate::tl_mbox::ipcc::Ipcc;
pub struct MemoryManager;
pub(super) struct MemoryManager;
impl MemoryManager {
pub fn enable() {
pub fn new() -> Self {
unsafe {
LinkedListNode::init_head(FREE_BUFF_QUEUE.as_mut_ptr());
LinkedListNode::init_head(FREE_BUF_QUEUE.as_mut_ptr());
LinkedListNode::init_head(LOCAL_FREE_BUF_QUEUE.as_mut_ptr());
TL_MEM_MANAGER_TABLE.as_mut_ptr().write_volatile(MemManagerTable {
TL_MEM_MANAGER_TABLE = MaybeUninit::new(MemManagerTable {
spare_ble_buffer: BLE_SPARE_EVT_BUF.as_ptr().cast(),
spare_sys_buffer: SYS_SPARE_EVT_BUF.as_ptr().cast(),
ble_pool: EVT_POOL.as_ptr().cast(),
ble_pool_size: POOL_SIZE as u32,
pevt_free_buffer_queue: FREE_BUFF_QUEUE.as_mut_ptr(),
blepool: EVT_POOL.as_ptr().cast(),
blepoolsize: POOL_SIZE as u32,
pevt_free_buffer_queue: FREE_BUF_QUEUE.as_mut_ptr(),
traces_evt_pool: core::ptr::null(),
traces_pool_size: 0,
tracespoolsize: 0,
});
}
}
pub fn evt_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);
MemoryManager
}
pub fn evt_drop(evt: *mut EvtPacket) {
unsafe {
let list_node = evt.cast();
LinkedListNode::remove_tail(LOCAL_FREE_BUF_QUEUE.as_mut_ptr(), list_node);
}
LinkedListNode::insert_tail(LOCAL_FREE_BUF_QUEUE.as_mut_ptr(), list_node);
let channel_is_busy = Ipcc::c1_is_active_flag(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL);
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);
} else {
Self::send_free_buf();
Ipcc::c1_set_flag_channel(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);
} else {
Self::send_free_buf();
Ipcc::c1_set_flag_channel(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL);
}
}
}
fn send_free_buf() {
/// gives free event buffers back to CPU2 from local buffer queue
pub fn send_free_buf() {
unsafe {
let mut node_ptr = core::ptr::null_mut();
let node_ptr_ptr: *mut _ = &mut node_ptr;
@ -64,4 +65,11 @@ impl MemoryManager {
}
}
}
/// 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);
}
}

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@ -1,79 +1,50 @@
use core::mem::MaybeUninit;
use atomic_polyfill::{compiler_fence, Ordering};
use bit_field::BitField;
use embassy_cortex_m::interrupt::Interrupt;
use embassy_futures::block_on;
use embassy_hal_common::{into_ref, Peripheral, PeripheralRef};
use embassy_sync::blocking_mutex::raw::CriticalSectionRawMutex;
use embassy_sync::channel::Channel;
use embassy_sync::signal::Signal;
use self::ble::Ble;
use self::cmd::{AclDataPacket, CmdPacket};
use self::evt::{CsEvt, EvtBox};
use self::mm::MemoryManager;
use self::shci::{shci_ble_init, ShciBleInitCmdParam};
use self::sys::Sys;
use self::evt::{CcEvt, EvtBox};
use self::ipcc::{Config, Ipcc};
use self::unsafe_linked_list::LinkedListNode;
use crate::interrupt;
use crate::peripherals::IPCC;
pub use crate::tl_mbox::ipcc::Config;
use crate::tl_mbox::ipcc::Ipcc;
mod ble;
mod channels;
mod cmd;
mod consts;
mod evt;
mod ipcc;
mod mm;
mod shci;
mod sys;
mod unsafe_linked_list;
pub type PacketHeader = LinkedListNode;
const TL_PACKET_HEADER_SIZE: usize = core::mem::size_of::<PacketHeader>();
const TL_EVT_HEADER_SIZE: usize = 3;
const TL_CS_EVT_SIZE: usize = core::mem::size_of::<CsEvt>();
const CFG_TL_BLE_EVT_QUEUE_LENGTH: usize = 5;
const CFG_TL_BLE_MOST_EVENT_PAYLOAD_SIZE: usize = 255;
const TL_BLE_EVENT_FRAME_SIZE: usize = TL_EVT_HEADER_SIZE + CFG_TL_BLE_MOST_EVENT_PAYLOAD_SIZE;
const POOL_SIZE: usize = CFG_TL_BLE_EVT_QUEUE_LENGTH * 4 * divc(TL_PACKET_HEADER_SIZE + TL_BLE_EVENT_FRAME_SIZE, 4);
const fn divc(x: usize, y: usize) -> usize {
(x + y - 1) / y
}
#[repr(C, packed)]
#[derive(Copy, Clone)]
pub struct SafeBootInfoTable {
version: u32,
}
#[repr(C, packed)]
#[derive(Copy, Clone)]
pub struct FusInfoTable {
version: u32,
memory_size: u32,
fus_info: u32,
}
pub mod ble;
pub mod channels;
pub mod cmd;
pub mod consts;
pub mod evt;
pub mod hci;
pub mod ipcc;
pub mod mm;
pub mod shci;
pub mod sys;
pub mod unsafe_linked_list;
/// Interrupt handler.
pub struct ReceiveInterruptHandler {}
impl interrupt::Handler<interrupt::IPCC_C1_RX> for ReceiveInterruptHandler {
unsafe fn on_interrupt() {
// info!("ipcc rx interrupt");
debug!("ipcc rx interrupt");
if Ipcc::is_rx_pending(channels::cpu2::IPCC_SYSTEM_EVENT_CHANNEL) {
debug!("sys evt");
sys::Sys::evt_handler();
} else if Ipcc::is_rx_pending(channels::cpu2::IPCC_BLE_EVENT_CHANNEL) {
debug!("ble evt");
ble::Ble::evt_handler();
} else {
todo!()
}
STATE.signal(());
}
}
@ -81,37 +52,62 @@ pub struct TransmitInterruptHandler {}
impl interrupt::Handler<interrupt::IPCC_C1_TX> for TransmitInterruptHandler {
unsafe fn on_interrupt() {
// info!("ipcc tx interrupt");
debug!("ipcc tx interrupt");
if Ipcc::is_tx_pending(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL) {
debug!("sys cmd rsp");
// TODO: handle this case
let _ = sys::Sys::cmd_evt_handler();
let cc = sys::Sys::cmd_evt_handler();
let a = unsafe { core::slice::from_raw_parts(&cc as *const _ as *const u8, core::mem::size_of::<CcEvt>()) };
debug!("{:#04x}", a);
LAST_CC_EVT.signal(cc);
} else if Ipcc::is_tx_pending(channels::cpu1::IPCC_MM_RELEASE_BUFFER_CHANNEL) {
mm::MemoryManager::evt_handler();
debug!("mm");
mm::MemoryManager::free_buf_handler();
} else {
todo!()
}
STATE.signal(());
}
}
/// # Version
/// - 0 -> 3 = Build - 0: Untracked - 15:Released - x: Tracked version
/// - 4 -> 7 = branch - 0: Mass Market - x: ...
/// - 8 -> 15 = Subversion
/// - 16 -> 23 = Version minor
/// - 24 -> 31 = Version major
/// # Memory Size
/// - 0 -> 7 = Flash ( Number of 4k sector)
/// - 8 -> 15 = Reserved ( Shall be set to 0 - may be used as flash extension )
/// - 16 -> 23 = SRAM2b ( Number of 1k sector)
/// - 24 -> 31 = SRAM2a ( Number of 1k sector)
#[derive(Debug, Copy, Clone)]
#[repr(C, packed)]
pub struct SafeBootInfoTable {
version: u32,
}
#[derive(Debug, Copy, Clone)]
#[repr(C, packed)]
pub struct RssInfoTable {
version: u32,
memory_size: u32,
rss_info: u32,
}
/**
* Version
* [0:3] = Build - 0: Untracked - 15:Released - x: Tracked version
* [4:7] = branch - 0: Mass Market - x: ...
* [8:15] = Subversion
* [16:23] = Version minor
* [24:31] = Version major
*
* Memory Size
* [0:7] = Flash ( Number of 4k sector)
* [8:15] = Reserved ( Shall be set to 0 - may be used as flash extension )
* [16:23] = SRAM2b ( Number of 1k sector)
* [24:31] = SRAM2a ( Number of 1k sector)
*/
#[derive(Debug, Copy, Clone)]
#[repr(C, packed)]
#[derive(Copy, Clone)]
pub struct WirelessFwInfoTable {
version: u32,
memory_size: u32,
info_stack: u32,
reserved: u32,
thread_info: u32,
ble_info: u32,
}
impl WirelessFwInfoTable {
@ -122,42 +118,43 @@ impl WirelessFwInfoTable {
pub fn version_minor(&self) -> u8 {
let version = self.version;
(version.get_bits(16..23) & 0xff) as u8
(version.clone().get_bits(16..23) & 0xff) as u8
}
pub fn subversion(&self) -> u8 {
let version = self.version;
(version.get_bits(8..15) & 0xff) as u8
(version.clone().get_bits(8..15) & 0xff) as u8
}
/// size of FLASH, expressed in number of 4K sectors
/// Size of FLASH, expressed in number of 4K sectors.
pub fn flash_size(&self) -> u8 {
let memory_size = self.memory_size;
(memory_size.get_bits(0..7) & 0xff) as u8
(memory_size.clone().get_bits(0..7) & 0xff) as u8
}
/// size for SRAM2a, expressed in number of 1K sectors
/// Size of SRAM2a, expressed in number of 1K sectors.
pub fn sram2a_size(&self) -> u8 {
let memory_size = self.memory_size;
(memory_size.get_bits(24..31) & 0xff) as u8
(memory_size.clone().get_bits(24..31) & 0xff) as u8
}
/// size of SRAM2b, expressed in number of 1K sectors
/// Size of SRAM2b, expressed in number of 1K sectors.
pub fn sram2b_size(&self) -> u8 {
let memory_size = self.memory_size;
(memory_size.get_bits(16..23) & 0xff) as u8
(memory_size.clone().get_bits(16..23) & 0xff) as u8
}
}
#[repr(C, packed)]
#[derive(Copy, Clone)]
#[derive(Debug, Clone)]
#[repr(C, align(4))]
pub struct DeviceInfoTable {
pub safe_boot_info_table: SafeBootInfoTable,
pub fus_info_table: FusInfoTable,
pub rss_info_table: RssInfoTable,
pub wireless_fw_info_table: WirelessFwInfoTable,
}
#[repr(C, packed)]
#[derive(Debug)]
#[repr(C, align(4))]
struct BleTable {
pcmd_buffer: *mut CmdPacket,
pcs_buffer: *const u8,
@ -165,81 +162,86 @@ struct BleTable {
phci_acl_data_buffer: *mut AclDataPacket,
}
#[repr(C, packed)]
#[derive(Debug)]
#[repr(C, align(4))]
struct ThreadTable {
no_stack_buffer: *const u8,
cli_cmd_rsp_buffer: *const u8,
ot_cmd_rsp_buffer: *const u8,
nostack_buffer: *const u8,
clicmdrsp_buffer: *const u8,
otcmdrsp_buffer: *const u8,
}
#[repr(C, packed)]
// TODO: use later
#[derive(Debug)]
#[repr(C, align(4))]
pub struct LldTestsTable {
clicmdrsp_buffer: *const u8,
m0cmd_buffer: *const u8,
}
// TODO: use later
#[derive(Debug)]
#[repr(C, align(4))]
pub struct BleLldTable {
cmdrsp_buffer: *const u8,
m0cmd_buffer: *const u8,
}
// TODO: use later
#[derive(Debug)]
#[repr(C, align(4))]
pub struct ZigbeeTable {
notif_m0_to_m4_buffer: *const u8,
appli_cmd_m4_to_m0_bufer: *const u8,
request_m0_to_m4_buffer: *const u8,
}
#[derive(Debug)]
#[repr(C, align(4))]
struct SysTable {
pcmd_buffer: *mut CmdPacket,
sys_queue: *const LinkedListNode,
}
#[allow(dead_code)] // Not used currently but reserved
#[repr(C, packed)]
struct LldTestTable {
cli_cmd_rsp_buffer: *const u8,
m0_cmd_buffer: *const u8,
}
#[allow(dead_code)] // Not used currently but reserved
#[repr(C, packed)]
struct BleLldTable {
cmd_rsp_buffer: *const u8,
m0_cmd_buffer: *const u8,
}
#[allow(dead_code)] // Not used currently but reserved
#[repr(C, packed)]
struct ZigbeeTable {
notif_m0_to_m4_buffer: *const u8,
appli_cmd_m4_to_m0_buffer: *const u8,
request_m0_to_m4_buffer: *const u8,
}
#[repr(C, packed)]
#[derive(Debug)]
#[repr(C, align(4))]
struct MemManagerTable {
spare_ble_buffer: *const u8,
spare_sys_buffer: *const u8,
ble_pool: *const u8,
ble_pool_size: u32,
blepool: *const u8,
blepoolsize: u32,
pevt_free_buffer_queue: *mut LinkedListNode,
traces_evt_pool: *const u8,
traces_pool_size: u32,
tracespoolsize: u32,
}
#[repr(C, packed)]
#[derive(Debug)]
#[repr(C, align(4))]
struct TracesTable {
traces_queue: *const u8,
}
#[repr(C, packed)]
#[derive(Debug)]
#[repr(C, align(4))]
struct Mac802_15_4Table {
pcmd_rsp_buffer: *const u8,
pnotack_buffer: *const u8,
p_cmdrsp_buffer: *const u8,
p_notack_buffer: *const u8,
evt_queue: *const u8,
}
/// reference table. Contains pointers to all other tables
#[repr(C, packed)]
#[derive(Copy, Clone)]
/// Reference table. Contains pointers to all other tables.
#[derive(Debug, Copy, Clone)]
#[repr(C)]
pub struct RefTable {
pub device_info_table: *const DeviceInfoTable,
device_info_table: *const DeviceInfoTable,
ble_table: *const BleTable,
thread_table: *const ThreadTable,
sys_table: *const SysTable,
mem_manager_table: *const MemManagerTable,
traces_table: *const TracesTable,
mac_802_15_4_table: *const Mac802_15_4Table,
zigbee_table: *const ZigbeeTable,
lld_tests_table: *const LldTestTable,
ble_lld_table: *const BleLldTable,
}
#[link_section = "TL_REF_TABLE"]
@ -254,12 +256,6 @@ static mut TL_BLE_TABLE: MaybeUninit<BleTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
static mut TL_THREAD_TABLE: MaybeUninit<ThreadTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
static mut TL_LLD_TESTS_TABLE: MaybeUninit<LldTestTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
static mut TL_BLE_LLD_TABLE: MaybeUninit<BleLldTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
static mut TL_SYS_TABLE: MaybeUninit<SysTable> = MaybeUninit::uninit();
@ -272,15 +268,21 @@ static mut TL_TRACES_TABLE: MaybeUninit<TracesTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
static mut TL_MAC_802_15_4_TABLE: MaybeUninit<Mac802_15_4Table> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
static mut TL_ZIGBEE_TABLE: MaybeUninit<ZigbeeTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
static mut FREE_BUF_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
// Not in shared RAM
static mut LOCAL_FREE_BUF_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
#[allow(dead_code)] // Not used currently but reserved
#[link_section = "MB_MEM1"]
static mut FREE_BUFF_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
static mut TRACES_EVT_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
// not in shared RAM
static mut LOCAL_FREE_BUF_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
type PacketHeader = LinkedListNode;
const TL_PACKET_HEADER_SIZE: usize = core::mem::size_of::<PacketHeader>();
const TL_EVT_HEADER_SIZE: usize = 3;
const TL_CS_EVT_SIZE: usize = core::mem::size_of::<evt::CsEvt>();
#[link_section = "MB_MEM2"]
static mut CS_BUFFER: MaybeUninit<[u8; TL_PACKET_HEADER_SIZE + TL_EVT_HEADER_SIZE + TL_CS_EVT_SIZE]> =
@ -293,7 +295,30 @@ static mut EVT_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
static mut SYSTEM_EVT_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
static mut SYS_CMD_BUF: MaybeUninit<CmdPacket> = MaybeUninit::uninit();
pub static mut SYS_CMD_BUF: MaybeUninit<CmdPacket> = MaybeUninit::uninit();
/**
* Queue length of BLE Event
* This parameter defines the number of asynchronous events that can be stored in the HCI layer before
* being reported to the application. When a command is sent to the BLE core coprocessor, the HCI layer
* is waiting for the event with the Num_HCI_Command_Packets set to 1. The receive queue shall be large
* enough to store all asynchronous events received in between.
* When CFG_TLBLE_MOST_EVENT_PAYLOAD_SIZE is set to 27, this allow to store three 255 bytes long asynchronous events
* between the HCI command and its event.
* This parameter depends on the value given to CFG_TLBLE_MOST_EVENT_PAYLOAD_SIZE. When the queue size is to small,
* the system may hang if the queue is full with asynchronous events and the HCI layer is still waiting
* for a CC/CS event, In that case, the notification TL_BLE_HCI_ToNot() is called to indicate
* to the application a HCI command did not receive its command event within 30s (Default HCI Timeout).
*/
const CFG_TLBLE_EVT_QUEUE_LENGTH: usize = 5;
const CFG_TLBLE_MOST_EVENT_PAYLOAD_SIZE: usize = 255;
const TL_BLE_EVENT_FRAME_SIZE: usize = TL_EVT_HEADER_SIZE + CFG_TLBLE_MOST_EVENT_PAYLOAD_SIZE;
const fn divc(x: usize, y: usize) -> usize {
((x) + (y) - 1) / (y)
}
const POOL_SIZE: usize = CFG_TLBLE_EVT_QUEUE_LENGTH * 4 * divc(TL_PACKET_HEADER_SIZE + TL_BLE_EVENT_FRAME_SIZE, 4);
#[link_section = "MB_MEM2"]
static mut EVT_POOL: MaybeUninit<[u8; POOL_SIZE]> = MaybeUninit::uninit();
@ -310,18 +335,27 @@ static mut BLE_SPARE_EVT_BUF: MaybeUninit<[u8; TL_PACKET_HEADER_SIZE + TL_EVT_HE
static mut BLE_CMD_BUFFER: MaybeUninit<CmdPacket> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
// "magic" numbers from ST ---v---v
// 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: get a better size, this is a placeholder
pub(crate) static TL_CHANNEL: Channel<CriticalSectionRawMutex, EvtBox, 5> = Channel::new();
static HEAPLESS_EVT_QUEUE: Channel<CriticalSectionRawMutex, EvtBox, 32> = Channel::new();
static STATE: Signal<CriticalSectionRawMutex, ()> = Signal::new();
/// current event that is produced during IPCC IRQ handler execution
/// on SYS channel
/// last received Command Complete event
static LAST_CC_EVT: Signal<CriticalSectionRawMutex, CcEvt> = Signal::new();
pub struct TlMbox<'d> {
sys: sys::Sys,
ble: ble::Ble,
_mm: mm::MemoryManager,
_ipcc: PeripheralRef<'d, IPCC>,
}
impl<'d> TlMbox<'d> {
/// initializes low-level transport between CPU1 and BLE stack on CPU2
pub fn new(
ipcc: impl Peripheral<P = IPCC> + 'd,
_irqs: impl interrupt::Binding<interrupt::IPCC_C1_RX, ReceiveInterruptHandler>
@ -331,25 +365,16 @@ impl<'d> TlMbox<'d> {
into_ref!(ipcc);
unsafe {
compiler_fence(Ordering::AcqRel);
TL_REF_TABLE.as_mut_ptr().write_volatile(RefTable {
device_info_table: TL_DEVICE_INFO_TABLE.as_ptr(),
device_info_table: TL_DEVICE_INFO_TABLE.as_mut_ptr(),
ble_table: TL_BLE_TABLE.as_ptr(),
thread_table: TL_THREAD_TABLE.as_ptr(),
sys_table: TL_SYS_TABLE.as_ptr(),
mem_manager_table: TL_MEM_MANAGER_TABLE.as_ptr(),
traces_table: TL_TRACES_TABLE.as_ptr(),
mac_802_15_4_table: TL_MAC_802_15_4_TABLE.as_ptr(),
zigbee_table: TL_ZIGBEE_TABLE.as_ptr(),
lld_tests_table: TL_LLD_TESTS_TABLE.as_ptr(),
ble_lld_table: TL_BLE_LLD_TABLE.as_ptr(),
});
// info!("TL_REF_TABLE addr: {:x}", TL_REF_TABLE.as_ptr() as usize);
compiler_fence(Ordering::AcqRel);
TL_SYS_TABLE = MaybeUninit::zeroed();
TL_DEVICE_INFO_TABLE = MaybeUninit::zeroed();
TL_BLE_TABLE = MaybeUninit::zeroed();
@ -357,9 +382,6 @@ impl<'d> TlMbox<'d> {
TL_MEM_MANAGER_TABLE = MaybeUninit::zeroed();
TL_TRACES_TABLE = MaybeUninit::zeroed();
TL_MAC_802_15_4_TABLE = MaybeUninit::zeroed();
TL_ZIGBEE_TABLE = MaybeUninit::zeroed();
TL_LLD_TESTS_TABLE = MaybeUninit::zeroed();
TL_BLE_LLD_TABLE = MaybeUninit::zeroed();
EVT_POOL = MaybeUninit::zeroed();
SYS_SPARE_EVT_BUF = MaybeUninit::zeroed();
@ -368,15 +390,13 @@ impl<'d> TlMbox<'d> {
CS_BUFFER = MaybeUninit::zeroed();
BLE_CMD_BUFFER = MaybeUninit::zeroed();
HCI_ACL_DATA_BUFFER = MaybeUninit::zeroed();
compiler_fence(Ordering::AcqRel);
}
Ipcc::enable(config);
Sys::enable();
Ble::enable();
MemoryManager::enable();
let sys = sys::Sys::new();
let ble = ble::Ble::new();
let mm = mm::MemoryManager::new();
// enable interrupts
crate::interrupt::IPCC_C1_RX::unpend();
@ -385,13 +405,19 @@ impl<'d> TlMbox<'d> {
unsafe { crate::interrupt::IPCC_C1_RX::enable() };
unsafe { crate::interrupt::IPCC_C1_TX::enable() };
Self { _ipcc: ipcc }
Self {
sys,
ble,
_mm: mm,
_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
// Zero version indicates that CPU2 wasn't active and didn't fill the information table
if info.version != 0 {
Some(*info)
} else {
@ -399,19 +425,22 @@ impl<'d> TlMbox<'d> {
}
}
pub fn shci_ble_init(&self, param: ShciBleInitCmdParam) {
shci_ble_init(param);
/// 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> {
HEAPLESS_EVT_QUEUE.try_recv().ok()
}
pub fn send_ble_cmd(&self, buf: &[u8]) {
ble::Ble::send_cmd(buf);
}
/// 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 = Some(block_on(LAST_CC_EVT.wait()));
LAST_CC_EVT.reset();
// pub fn send_sys_cmd(&self, buf: &[u8]) {
// sys::Sys::send_cmd(buf);
// }
pub async fn read(&self) -> EvtBox {
TL_CHANNEL.recv().await
cc
} else {
None
}
}
}

View File

@ -1,16 +1,10 @@
//! HCI commands for system channel
use super::cmd::CmdPacket;
use super::consts::TlPacketType;
use super::{channels, TL_CS_EVT_SIZE, TL_EVT_HEADER_SIZE, TL_PACKET_HEADER_SIZE, TL_SYS_TABLE};
use crate::tl_mbox::ipcc::Ipcc;
use super::{sys, TL_CS_EVT_SIZE, TL_EVT_HEADER_SIZE, TL_PACKET_HEADER_SIZE, TL_SYS_TABLE};
const SCHI_OPCODE_BLE_INIT: u16 = 0xfc66;
pub const TL_BLE_EVT_CS_PACKET_SIZE: usize = TL_EVT_HEADER_SIZE + TL_CS_EVT_SIZE;
#[allow(dead_code)]
const TL_BLE_EVT_CS_BUFFER_SIZE: usize = TL_PACKET_HEADER_SIZE + TL_BLE_EVT_CS_PACKET_SIZE;
#[derive(Clone, Copy)]
#[derive(Debug, Clone, Copy)]
#[repr(C, packed)]
pub struct ShciBleInitCmdParam {
/// NOT USED CURRENTLY
@ -63,39 +57,44 @@ impl Default for ShciBleInitCmdParam {
}
}
#[derive(Clone, Copy, Default)]
#[derive(Debug, Clone, Copy, Default)]
#[repr(C, packed)]
pub struct ShciHeader {
metadata: [u32; 3],
}
#[derive(Clone, Copy)]
#[derive(Debug, Clone, Copy)]
#[repr(C, packed)]
pub struct ShciBleInitCmdPacket {
header: ShciHeader,
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!("shci init");
let mut packet = ShciBleInitCmdPacket {
header: ShciHeader::default(),
param,
};
let packet_ptr: *mut ShciBleInitCmdPacket = &mut packet;
let packet_ptr: *mut _ = &mut packet;
unsafe {
let cmd_ptr: *mut CmdPacket = packet_ptr.cast();
(*cmd_ptr).cmd_serial.cmd.cmd_code = SCHI_OPCODE_BLE_INIT;
(*cmd_ptr).cmd_serial.cmd.payload_len = core::mem::size_of::<ShciBleInitCmdParam>() as u8;
(*cmd_ptr).cmdserial.cmd.cmd_code = SCHI_OPCODE_BLE_INIT;
(*cmd_ptr).cmdserial.cmd.payload_len = core::mem::size_of::<ShciBleInitCmdParam>() as u8;
let cmd_buf = &mut *(*TL_SYS_TABLE.as_mut_ptr()).pcmd_buffer;
core::ptr::write(cmd_buf, *cmd_ptr);
let mut p_cmd_buffer = &mut *(*TL_SYS_TABLE.as_mut_ptr()).pcmd_buffer;
core::ptr::write(p_cmd_buffer, *cmd_ptr);
cmd_buf.cmd_serial.ty = TlPacketType::SysCmd as u8;
p_cmd_buffer.cmdserial.ty = TlPacketType::SysCmd as u8;
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);
sys::send_cmd();
}
}

View File

@ -1,45 +1,27 @@
use embassy_futures::block_on;
use super::cmd::{CmdPacket, CmdSerial};
use super::consts::TlPacketType;
use super::evt::{CcEvt, EvtBox, EvtSerial};
use super::ipcc::Ipcc;
use super::unsafe_linked_list::LinkedListNode;
use super::{channels, SysTable, SYSTEM_EVT_QUEUE, SYS_CMD_BUF, TL_CHANNEL, TL_REF_TABLE, TL_SYS_TABLE};
use crate::tl_mbox::ipcc::Ipcc;
use super::{channels, SysTable, HEAPLESS_EVT_QUEUE, SYSTEM_EVT_QUEUE, SYS_CMD_BUF, TL_SYS_TABLE};
pub struct Sys;
impl Sys {
pub fn enable() {
pub 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(),
});
})
}
Ipcc::c1_set_rx_channel(channels::cpu2::IPCC_SYSTEM_EVENT_CHANNEL, true);
}
pub fn evt_handler() {
unsafe {
let mut node_ptr = core::ptr::null_mut();
let node_ptr_ptr: *mut _ = &mut node_ptr;
while !LinkedListNode::is_empty(SYSTEM_EVT_QUEUE.as_mut_ptr()) {
LinkedListNode::remove_head(SYSTEM_EVT_QUEUE.as_mut_ptr(), node_ptr_ptr);
let event = node_ptr.cast();
let event = EvtBox::new(event);
// TODO: not really happy about this
block_on(TL_CHANNEL.send(event));
}
}
Ipcc::c1_clear_flag_channel(channels::cpu2::IPCC_SYSTEM_EVENT_CHANNEL);
Sys
}
pub fn cmd_evt_handler() -> CcEvt {
@ -55,29 +37,40 @@ impl Sys {
// 4. CcEvt type is the actual SHCI response
// 5. profit
unsafe {
let cmd: *const CmdPacket = (*TL_SYS_TABLE.as_ptr()).pcmd_buffer;
let cmd_serial: *const CmdSerial = &(*cmd).cmd_serial;
let pcmd: *const CmdPacket = (*TL_SYS_TABLE.as_ptr()).pcmd_buffer;
let a = unsafe {
core::slice::from_raw_parts(&pcmd as *const _ as *const u8, core::mem::size_of::<CmdPacket>())
};
debug!("shci response {:#04x}", a);
let cmd_serial: *const CmdSerial = &(*pcmd).cmdserial;
let evt_serial: *const EvtSerial = cmd_serial.cast();
let cc = (*evt_serial).evt.payload.as_ptr().cast();
let cc: *const CcEvt = (*evt_serial).evt.payload.as_ptr().cast();
*cc
}
}
#[allow(dead_code)]
pub fn send_cmd(buf: &[u8]) {
pub fn evt_handler() {
unsafe {
// TODO: check this
let cmd_buffer = &mut *(*TL_REF_TABLE.assume_init().sys_table).pcmd_buffer;
let cmd_serial: *mut CmdSerial = &mut cmd_buffer.cmd_serial;
let cmd_serial_buf = cmd_serial.cast();
let mut node_ptr = core::ptr::null_mut();
let node_ptr_ptr: *mut _ = &mut node_ptr;
core::ptr::copy(buf.as_ptr(), cmd_serial_buf, buf.len());
while !LinkedListNode::is_empty(SYSTEM_EVT_QUEUE.as_mut_ptr()) {
LinkedListNode::remove_head(SYSTEM_EVT_QUEUE.as_mut_ptr(), node_ptr_ptr);
let cmd_packet = &mut *(*TL_REF_TABLE.assume_init().sys_table).pcmd_buffer;
cmd_packet.cmd_serial.ty = TlPacketType::SysCmd as u8;
let event = node_ptr.cast();
let event = EvtBox::new(event);
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);
block_on(HEAPLESS_EVT_QUEUE.send(event));
}
}
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);
}

View File

@ -4,7 +4,9 @@
use defmt::*;
use embassy_executor::Spawner;
use embassy_stm32::tl_mbox::{Config, TlMbox};
use embassy_stm32::tl_mbox::hci::RadioCoprocessor;
use embassy_stm32::tl_mbox::ipcc::Config;
use embassy_stm32::tl_mbox::TlMbox;
use embassy_stm32::{bind_interrupts, tl_mbox};
use {defmt_rtt as _, panic_probe as _};
@ -45,53 +47,14 @@ async fn main(_spawner: Spawner) {
let config = Config::default();
let mbox = TlMbox::new(p.IPCC, Irqs, config);
info!("waiting for coprocessor to boot");
let event_box = mbox.read().await;
let mut rc = RadioCoprocessor::new(mbox, Default::default());
rc.write(&[0x01, 0x03, 0x0c, 0x00, 0x00]).unwrap();
let mut payload = [0u8; 6];
event_box.copy_into_slice(&mut payload).unwrap();
let response = rc.read().await;
info!("coprocessor ready {}", response);
let event_packet = event_box.evt();
let kind = event_packet.evt_serial.kind;
// means recieved SYS event, which indicates in this case that the coprocessor is ready
if kind == 0x12 {
let code = event_packet.evt_serial.evt.evt_code;
let payload_len = event_packet.evt_serial.evt.payload_len;
info!(
"==> kind: {:#04x}, code: {:#04x}, payload_length: {}, payload: {:#04x}",
kind,
code,
payload_len,
payload[3..]
);
}
// initialize ble stack, does not return a response
mbox.shci_ble_init(Default::default());
info!("resetting BLE");
mbox.send_ble_cmd(&[0x01, 0x03, 0x0c, 0x00, 0x00]);
let event_box = mbox.read().await;
let mut payload = [0u8; 7];
event_box.copy_into_slice(&mut payload).unwrap();
let event_packet = event_box.evt();
let kind = event_packet.evt_serial.kind;
let code = event_packet.evt_serial.evt.evt_code;
let payload_len = event_packet.evt_serial.evt.payload_len;
info!(
"==> kind: {:#04x}, code: {:#04x}, payload_length: {}, payload: {:#04x}",
kind,
code,
payload_len,
payload[3..]
);
let response = rc.read().await;
info!("coprocessor ready {}", response);
info!("Test OK");
cortex_m::asm::bkpt();