Merge branch 'embassy-rs:main' into can-split

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schphil 2023-06-23 10:19:30 +02:00 committed by GitHub
commit 71afa40a69
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33 changed files with 3723 additions and 294 deletions

2
ci.sh
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@ -3,7 +3,7 @@
set -euo pipefail
export RUSTFLAGS=-Dwarnings
export DEFMT_LOG=trace,cyw43=info,cyw43_pio=info,smoltcp=info
export DEFMT_LOG=trace,embassy_net_esp_hosted=debug,cyw43=info,cyw43_pio=info,smoltcp=info
# needed by wifi examples
export WIFI_NETWORK=x

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@ -0,0 +1,20 @@
[package]
name = "embassy-net-esp-hosted"
version = "0.1.0"
edition = "2021"
[dependencies]
defmt = { version = "0.3", optional = true }
log = { version = "0.4.14", optional = true }
embassy-time = { version = "0.1.0", path = "../embassy-time" }
embassy-sync = { version = "0.2.0", path = "../embassy-sync"}
embassy-futures = { version = "0.1.0", path = "../embassy-futures"}
embassy-net-driver-channel = { version = "0.1.0", path = "../embassy-net-driver-channel"}
embedded-hal = { version = "1.0.0-alpha.10" }
embedded-hal-async = { version = "=0.2.0-alpha.1" }
noproto = { git="https://github.com/embassy-rs/noproto", default-features = false, features = ["derive"] }
#noproto = { version = "0.1", path = "/home/dirbaio/noproto", default-features = false, features = ["derive"] }
heapless = "0.7.16"

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@ -0,0 +1,139 @@
use ch::driver::LinkState;
use defmt::Debug2Format;
use embassy_net_driver_channel as ch;
use heapless::String;
use crate::ioctl::Shared;
use crate::proto::{self, CtrlMsg};
#[derive(Debug)]
pub struct Error {
pub status: u32,
}
pub struct Control<'a> {
state_ch: ch::StateRunner<'a>,
shared: &'a Shared,
}
#[allow(unused)]
enum WifiMode {
None = 0,
Sta = 1,
Ap = 2,
ApSta = 3,
}
impl<'a> Control<'a> {
pub(crate) fn new(state_ch: ch::StateRunner<'a>, shared: &'a Shared) -> Self {
Self { state_ch, shared }
}
pub async fn init(&mut self) {
debug!("wait for init event...");
self.shared.init_wait().await;
debug!("set wifi mode");
self.set_wifi_mode(WifiMode::Sta as _).await;
let mac_addr = self.get_mac_addr().await;
debug!("mac addr: {:02x}", mac_addr);
self.state_ch.set_ethernet_address(mac_addr);
}
pub async fn join(&mut self, ssid: &str, password: &str) {
let req = proto::CtrlMsg {
msg_id: proto::CtrlMsgId::ReqConnectAp as _,
msg_type: proto::CtrlMsgType::Req as _,
payload: Some(proto::CtrlMsgPayload::ReqConnectAp(proto::CtrlMsgReqConnectAp {
ssid: String::from(ssid),
pwd: String::from(password),
bssid: String::new(),
listen_interval: 3,
is_wpa3_supported: false,
})),
};
let resp = self.ioctl(req).await;
let proto::CtrlMsgPayload::RespConnectAp(resp) = resp.payload.unwrap() else { panic!("unexpected resp") };
debug!("======= {:?}", Debug2Format(&resp));
assert_eq!(resp.resp, 0);
self.state_ch.set_link_state(LinkState::Up);
}
async fn get_mac_addr(&mut self) -> [u8; 6] {
let req = proto::CtrlMsg {
msg_id: proto::CtrlMsgId::ReqGetMacAddress as _,
msg_type: proto::CtrlMsgType::Req as _,
payload: Some(proto::CtrlMsgPayload::ReqGetMacAddress(
proto::CtrlMsgReqGetMacAddress {
mode: WifiMode::Sta as _,
},
)),
};
let resp = self.ioctl(req).await;
let proto::CtrlMsgPayload::RespGetMacAddress(resp) = resp.payload.unwrap() else { panic!("unexpected resp") };
assert_eq!(resp.resp, 0);
// WHY IS THIS A STRING? WHYYYY
fn nibble_from_hex(b: u8) -> u8 {
match b {
b'0'..=b'9' => b - b'0',
b'a'..=b'f' => b + 0xa - b'a',
b'A'..=b'F' => b + 0xa - b'A',
_ => panic!("invalid hex digit {}", b),
}
}
let mac = resp.mac.as_bytes();
let mut res = [0; 6];
assert_eq!(mac.len(), 17);
for (i, b) in res.iter_mut().enumerate() {
*b = (nibble_from_hex(mac[i * 3]) << 4) | nibble_from_hex(mac[i * 3 + 1])
}
res
}
async fn set_wifi_mode(&mut self, mode: u32) {
let req = proto::CtrlMsg {
msg_id: proto::CtrlMsgId::ReqSetWifiMode as _,
msg_type: proto::CtrlMsgType::Req as _,
payload: Some(proto::CtrlMsgPayload::ReqSetWifiMode(proto::CtrlMsgReqSetMode { mode })),
};
let resp = self.ioctl(req).await;
let proto::CtrlMsgPayload::RespSetWifiMode(resp) = resp.payload.unwrap() else { panic!("unexpected resp") };
assert_eq!(resp.resp, 0);
}
async fn ioctl(&mut self, req: CtrlMsg) -> CtrlMsg {
debug!("ioctl req: {:?}", &req);
let mut buf = [0u8; 128];
let req_len = noproto::write(&req, &mut buf).unwrap();
struct CancelOnDrop<'a>(&'a Shared);
impl CancelOnDrop<'_> {
fn defuse(self) {
core::mem::forget(self);
}
}
impl Drop for CancelOnDrop<'_> {
fn drop(&mut self) {
self.0.ioctl_cancel();
}
}
let ioctl = CancelOnDrop(self.shared);
let resp_len = ioctl.0.ioctl(&mut buf, req_len).await;
ioctl.defuse();
let res = noproto::read(&buf[..resp_len]).unwrap();
debug!("ioctl resp: {:?}", &res);
res
}
}

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syntax = "proto3";
/* Enums similar to ESP IDF */
enum Ctrl_VendorIEType {
Beacon = 0;
Probe_req = 1;
Probe_resp = 2;
Assoc_req = 3;
Assoc_resp = 4;
}
enum Ctrl_VendorIEID {
ID_0 = 0;
ID_1 = 1;
}
enum Ctrl_WifiMode {
NONE = 0;
STA = 1;
AP = 2;
APSTA = 3;
}
enum Ctrl_WifiBw {
BW_Invalid = 0;
HT20 = 1;
HT40 = 2;
}
enum Ctrl_WifiPowerSave {
PS_Invalid = 0;
MIN_MODEM = 1;
MAX_MODEM = 2;
}
enum Ctrl_WifiSecProt {
Open = 0;
WEP = 1;
WPA_PSK = 2;
WPA2_PSK = 3;
WPA_WPA2_PSK = 4;
WPA2_ENTERPRISE = 5;
WPA3_PSK = 6;
WPA2_WPA3_PSK = 7;
}
/* enums for Control path */
enum Ctrl_Status {
Connected = 0;
Not_Connected = 1;
No_AP_Found = 2;
Connection_Fail = 3;
Invalid_Argument = 4;
Out_Of_Range = 5;
}
enum CtrlMsgType {
MsgType_Invalid = 0;
Req = 1;
Resp = 2;
Event = 3;
MsgType_Max = 4;
}
enum CtrlMsgId {
MsgId_Invalid = 0;
/** Request Msgs **/
Req_Base = 100;
Req_GetMACAddress = 101;
Req_SetMacAddress = 102;
Req_GetWifiMode = 103;
Req_SetWifiMode = 104;
Req_GetAPScanList = 105;
Req_GetAPConfig = 106;
Req_ConnectAP = 107;
Req_DisconnectAP = 108;
Req_GetSoftAPConfig = 109;
Req_SetSoftAPVendorSpecificIE = 110;
Req_StartSoftAP = 111;
Req_GetSoftAPConnectedSTAList = 112;
Req_StopSoftAP = 113;
Req_SetPowerSaveMode = 114;
Req_GetPowerSaveMode = 115;
Req_OTABegin = 116;
Req_OTAWrite = 117;
Req_OTAEnd = 118;
Req_SetWifiMaxTxPower = 119;
Req_GetWifiCurrTxPower = 120;
Req_ConfigHeartbeat = 121;
/* Add new control path command response before Req_Max
* and update Req_Max */
Req_Max = 122;
/** Response Msgs **/
Resp_Base = 200;
Resp_GetMACAddress = 201;
Resp_SetMacAddress = 202;
Resp_GetWifiMode = 203;
Resp_SetWifiMode = 204;
Resp_GetAPScanList = 205;
Resp_GetAPConfig = 206;
Resp_ConnectAP = 207;
Resp_DisconnectAP = 208;
Resp_GetSoftAPConfig = 209;
Resp_SetSoftAPVendorSpecificIE = 210;
Resp_StartSoftAP = 211;
Resp_GetSoftAPConnectedSTAList = 212;
Resp_StopSoftAP = 213;
Resp_SetPowerSaveMode = 214;
Resp_GetPowerSaveMode = 215;
Resp_OTABegin = 216;
Resp_OTAWrite = 217;
Resp_OTAEnd = 218;
Resp_SetWifiMaxTxPower = 219;
Resp_GetWifiCurrTxPower = 220;
Resp_ConfigHeartbeat = 221;
/* Add new control path command response before Resp_Max
* and update Resp_Max */
Resp_Max = 222;
/** Event Msgs **/
Event_Base = 300;
Event_ESPInit = 301;
Event_Heartbeat = 302;
Event_StationDisconnectFromAP = 303;
Event_StationDisconnectFromESPSoftAP = 304;
/* Add new control path command notification before Event_Max
* and update Event_Max */
Event_Max = 305;
}
/* internal supporting structures for CtrlMsg */
message ScanResult {
bytes ssid = 1;
uint32 chnl = 2;
int32 rssi = 3;
bytes bssid = 4;
Ctrl_WifiSecProt sec_prot = 5;
}
message ConnectedSTAList {
bytes mac = 1;
int32 rssi = 2;
}
/* Control path structures */
/** Req/Resp structure **/
message CtrlMsg_Req_GetMacAddress {
int32 mode = 1;
}
message CtrlMsg_Resp_GetMacAddress {
bytes mac = 1;
int32 resp = 2;
}
message CtrlMsg_Req_GetMode {
}
message CtrlMsg_Resp_GetMode {
int32 mode = 1;
int32 resp = 2;
}
message CtrlMsg_Req_SetMode {
int32 mode = 1;
}
message CtrlMsg_Resp_SetMode {
int32 resp = 1;
}
message CtrlMsg_Req_GetStatus {
}
message CtrlMsg_Resp_GetStatus {
int32 resp = 1;
}
message CtrlMsg_Req_SetMacAddress {
bytes mac = 1;
int32 mode = 2;
}
message CtrlMsg_Resp_SetMacAddress {
int32 resp = 1;
}
message CtrlMsg_Req_GetAPConfig {
}
message CtrlMsg_Resp_GetAPConfig {
bytes ssid = 1;
bytes bssid = 2;
int32 rssi = 3;
int32 chnl = 4;
Ctrl_WifiSecProt sec_prot = 5;
int32 resp = 6;
}
message CtrlMsg_Req_ConnectAP {
string ssid = 1;
string pwd = 2;
string bssid = 3;
bool is_wpa3_supported = 4;
int32 listen_interval = 5;
}
message CtrlMsg_Resp_ConnectAP {
int32 resp = 1;
bytes mac = 2;
}
message CtrlMsg_Req_GetSoftAPConfig {
}
message CtrlMsg_Resp_GetSoftAPConfig {
bytes ssid = 1;
bytes pwd = 2;
int32 chnl = 3;
Ctrl_WifiSecProt sec_prot = 4;
int32 max_conn = 5;
bool ssid_hidden = 6;
int32 bw = 7;
int32 resp = 8;
}
message CtrlMsg_Req_StartSoftAP {
string ssid = 1;
string pwd = 2;
int32 chnl = 3;
Ctrl_WifiSecProt sec_prot = 4;
int32 max_conn = 5;
bool ssid_hidden = 6;
int32 bw = 7;
}
message CtrlMsg_Resp_StartSoftAP {
int32 resp = 1;
bytes mac = 2;
}
message CtrlMsg_Req_ScanResult {
}
message CtrlMsg_Resp_ScanResult {
uint32 count = 1;
repeated ScanResult entries = 2;
int32 resp = 3;
}
message CtrlMsg_Req_SoftAPConnectedSTA {
}
message CtrlMsg_Resp_SoftAPConnectedSTA {
uint32 num = 1;
repeated ConnectedSTAList stations = 2;
int32 resp = 3;
}
message CtrlMsg_Req_OTABegin {
}
message CtrlMsg_Resp_OTABegin {
int32 resp = 1;
}
message CtrlMsg_Req_OTAWrite {
bytes ota_data = 1;
}
message CtrlMsg_Resp_OTAWrite {
int32 resp = 1;
}
message CtrlMsg_Req_OTAEnd {
}
message CtrlMsg_Resp_OTAEnd {
int32 resp = 1;
}
message CtrlMsg_Req_VendorIEData {
int32 element_id = 1;
int32 length = 2;
bytes vendor_oui = 3;
int32 vendor_oui_type = 4;
bytes payload = 5;
}
message CtrlMsg_Req_SetSoftAPVendorSpecificIE {
bool enable = 1;
Ctrl_VendorIEType type = 2;
Ctrl_VendorIEID idx = 3;
CtrlMsg_Req_VendorIEData vendor_ie_data = 4;
}
message CtrlMsg_Resp_SetSoftAPVendorSpecificIE {
int32 resp = 1;
}
message CtrlMsg_Req_SetWifiMaxTxPower {
int32 wifi_max_tx_power = 1;
}
message CtrlMsg_Resp_SetWifiMaxTxPower {
int32 resp = 1;
}
message CtrlMsg_Req_GetWifiCurrTxPower {
}
message CtrlMsg_Resp_GetWifiCurrTxPower {
int32 wifi_curr_tx_power = 1;
int32 resp = 2;
}
message CtrlMsg_Req_ConfigHeartbeat {
bool enable = 1;
int32 duration = 2;
}
message CtrlMsg_Resp_ConfigHeartbeat {
int32 resp = 1;
}
/** Event structure **/
message CtrlMsg_Event_ESPInit {
bytes init_data = 1;
}
message CtrlMsg_Event_Heartbeat {
int32 hb_num = 1;
}
message CtrlMsg_Event_StationDisconnectFromAP {
int32 resp = 1;
}
message CtrlMsg_Event_StationDisconnectFromESPSoftAP {
int32 resp = 1;
bytes mac = 2;
}
message CtrlMsg {
/* msg_type could be req, resp or Event */
CtrlMsgType msg_type = 1;
/* msg id */
CtrlMsgId msg_id = 2;
/* union of all msg ids */
oneof payload {
/** Requests **/
CtrlMsg_Req_GetMacAddress req_get_mac_address = 101;
CtrlMsg_Req_SetMacAddress req_set_mac_address = 102;
CtrlMsg_Req_GetMode req_get_wifi_mode = 103;
CtrlMsg_Req_SetMode req_set_wifi_mode = 104;
CtrlMsg_Req_ScanResult req_scan_ap_list = 105;
CtrlMsg_Req_GetAPConfig req_get_ap_config = 106;
CtrlMsg_Req_ConnectAP req_connect_ap = 107;
CtrlMsg_Req_GetStatus req_disconnect_ap = 108;
CtrlMsg_Req_GetSoftAPConfig req_get_softap_config = 109;
CtrlMsg_Req_SetSoftAPVendorSpecificIE req_set_softap_vendor_specific_ie = 110;
CtrlMsg_Req_StartSoftAP req_start_softap = 111;
CtrlMsg_Req_SoftAPConnectedSTA req_softap_connected_stas_list = 112;
CtrlMsg_Req_GetStatus req_stop_softap = 113;
CtrlMsg_Req_SetMode req_set_power_save_mode = 114;
CtrlMsg_Req_GetMode req_get_power_save_mode = 115;
CtrlMsg_Req_OTABegin req_ota_begin = 116;
CtrlMsg_Req_OTAWrite req_ota_write = 117;
CtrlMsg_Req_OTAEnd req_ota_end = 118;
CtrlMsg_Req_SetWifiMaxTxPower req_set_wifi_max_tx_power = 119;
CtrlMsg_Req_GetWifiCurrTxPower req_get_wifi_curr_tx_power = 120;
CtrlMsg_Req_ConfigHeartbeat req_config_heartbeat = 121;
/** Responses **/
CtrlMsg_Resp_GetMacAddress resp_get_mac_address = 201;
CtrlMsg_Resp_SetMacAddress resp_set_mac_address = 202;
CtrlMsg_Resp_GetMode resp_get_wifi_mode = 203;
CtrlMsg_Resp_SetMode resp_set_wifi_mode = 204;
CtrlMsg_Resp_ScanResult resp_scan_ap_list = 205;
CtrlMsg_Resp_GetAPConfig resp_get_ap_config = 206;
CtrlMsg_Resp_ConnectAP resp_connect_ap = 207;
CtrlMsg_Resp_GetStatus resp_disconnect_ap = 208;
CtrlMsg_Resp_GetSoftAPConfig resp_get_softap_config = 209;
CtrlMsg_Resp_SetSoftAPVendorSpecificIE resp_set_softap_vendor_specific_ie = 210;
CtrlMsg_Resp_StartSoftAP resp_start_softap = 211;
CtrlMsg_Resp_SoftAPConnectedSTA resp_softap_connected_stas_list = 212;
CtrlMsg_Resp_GetStatus resp_stop_softap = 213;
CtrlMsg_Resp_SetMode resp_set_power_save_mode = 214;
CtrlMsg_Resp_GetMode resp_get_power_save_mode = 215;
CtrlMsg_Resp_OTABegin resp_ota_begin = 216;
CtrlMsg_Resp_OTAWrite resp_ota_write = 217;
CtrlMsg_Resp_OTAEnd resp_ota_end = 218;
CtrlMsg_Resp_SetWifiMaxTxPower resp_set_wifi_max_tx_power = 219;
CtrlMsg_Resp_GetWifiCurrTxPower resp_get_wifi_curr_tx_power = 220;
CtrlMsg_Resp_ConfigHeartbeat resp_config_heartbeat = 221;
/** Notifications **/
CtrlMsg_Event_ESPInit event_esp_init = 301;
CtrlMsg_Event_Heartbeat event_heartbeat = 302;
CtrlMsg_Event_StationDisconnectFromAP event_station_disconnect_from_AP = 303;
CtrlMsg_Event_StationDisconnectFromESPSoftAP event_station_disconnect_from_ESP_SoftAP = 304;
}
}

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#![macro_use]
#![allow(unused_macros)]
use core::fmt::{Debug, Display, LowerHex};
#[cfg(all(feature = "defmt", feature = "log"))]
compile_error!("You may not enable both `defmt` and `log` features.");
macro_rules! assert {
($($x:tt)*) => {
{
#[cfg(not(feature = "defmt"))]
::core::assert!($($x)*);
#[cfg(feature = "defmt")]
::defmt::assert!($($x)*);
}
};
}
macro_rules! assert_eq {
($($x:tt)*) => {
{
#[cfg(not(feature = "defmt"))]
::core::assert_eq!($($x)*);
#[cfg(feature = "defmt")]
::defmt::assert_eq!($($x)*);
}
};
}
macro_rules! assert_ne {
($($x:tt)*) => {
{
#[cfg(not(feature = "defmt"))]
::core::assert_ne!($($x)*);
#[cfg(feature = "defmt")]
::defmt::assert_ne!($($x)*);
}
};
}
macro_rules! debug_assert {
($($x:tt)*) => {
{
#[cfg(not(feature = "defmt"))]
::core::debug_assert!($($x)*);
#[cfg(feature = "defmt")]
::defmt::debug_assert!($($x)*);
}
};
}
macro_rules! debug_assert_eq {
($($x:tt)*) => {
{
#[cfg(not(feature = "defmt"))]
::core::debug_assert_eq!($($x)*);
#[cfg(feature = "defmt")]
::defmt::debug_assert_eq!($($x)*);
}
};
}
macro_rules! debug_assert_ne {
($($x:tt)*) => {
{
#[cfg(not(feature = "defmt"))]
::core::debug_assert_ne!($($x)*);
#[cfg(feature = "defmt")]
::defmt::debug_assert_ne!($($x)*);
}
};
}
macro_rules! todo {
($($x:tt)*) => {
{
#[cfg(not(feature = "defmt"))]
::core::todo!($($x)*);
#[cfg(feature = "defmt")]
::defmt::todo!($($x)*);
}
};
}
#[cfg(not(feature = "defmt"))]
macro_rules! unreachable {
($($x:tt)*) => {
::core::unreachable!($($x)*)
};
}
#[cfg(feature = "defmt")]
macro_rules! unreachable {
($($x:tt)*) => {
::defmt::unreachable!($($x)*);
};
}
macro_rules! panic {
($($x:tt)*) => {
{
#[cfg(not(feature = "defmt"))]
::core::panic!($($x)*);
#[cfg(feature = "defmt")]
::defmt::panic!($($x)*);
}
};
}
macro_rules! trace {
($s:literal $(, $x:expr)* $(,)?) => {
{
#[cfg(feature = "log")]
::log::trace!($s $(, $x)*);
#[cfg(feature = "defmt")]
::defmt::trace!($s $(, $x)*);
#[cfg(not(any(feature = "log", feature="defmt")))]
let _ = ($( & $x ),*);
}
};
}
macro_rules! debug {
($s:literal $(, $x:expr)* $(,)?) => {
{
#[cfg(feature = "log")]
::log::debug!($s $(, $x)*);
#[cfg(feature = "defmt")]
::defmt::debug!($s $(, $x)*);
#[cfg(not(any(feature = "log", feature="defmt")))]
let _ = ($( & $x ),*);
}
};
}
macro_rules! info {
($s:literal $(, $x:expr)* $(,)?) => {
{
#[cfg(feature = "log")]
::log::info!($s $(, $x)*);
#[cfg(feature = "defmt")]
::defmt::info!($s $(, $x)*);
#[cfg(not(any(feature = "log", feature="defmt")))]
let _ = ($( & $x ),*);
}
};
}
macro_rules! warn {
($s:literal $(, $x:expr)* $(,)?) => {
{
#[cfg(feature = "log")]
::log::warn!($s $(, $x)*);
#[cfg(feature = "defmt")]
::defmt::warn!($s $(, $x)*);
#[cfg(not(any(feature = "log", feature="defmt")))]
let _ = ($( & $x ),*);
}
};
}
macro_rules! error {
($s:literal $(, $x:expr)* $(,)?) => {
{
#[cfg(feature = "log")]
::log::error!($s $(, $x)*);
#[cfg(feature = "defmt")]
::defmt::error!($s $(, $x)*);
#[cfg(not(any(feature = "log", feature="defmt")))]
let _ = ($( & $x ),*);
}
};
}
#[cfg(feature = "defmt")]
macro_rules! unwrap {
($($x:tt)*) => {
::defmt::unwrap!($($x)*)
};
}
#[cfg(not(feature = "defmt"))]
macro_rules! unwrap {
($arg:expr) => {
match $crate::fmt::Try::into_result($arg) {
::core::result::Result::Ok(t) => t,
::core::result::Result::Err(e) => {
::core::panic!("unwrap of `{}` failed: {:?}", ::core::stringify!($arg), e);
}
}
};
($arg:expr, $($msg:expr),+ $(,)? ) => {
match $crate::fmt::Try::into_result($arg) {
::core::result::Result::Ok(t) => t,
::core::result::Result::Err(e) => {
::core::panic!("unwrap of `{}` failed: {}: {:?}", ::core::stringify!($arg), ::core::format_args!($($msg,)*), e);
}
}
}
}
#[derive(Debug, Copy, Clone, Eq, PartialEq)]
pub struct NoneError;
pub trait Try {
type Ok;
type Error;
fn into_result(self) -> Result<Self::Ok, Self::Error>;
}
impl<T> Try for Option<T> {
type Ok = T;
type Error = NoneError;
#[inline]
fn into_result(self) -> Result<T, NoneError> {
self.ok_or(NoneError)
}
}
impl<T, E> Try for Result<T, E> {
type Ok = T;
type Error = E;
#[inline]
fn into_result(self) -> Self {
self
}
}
pub struct Bytes<'a>(pub &'a [u8]);
impl<'a> Debug for Bytes<'a> {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "{:#02x?}", self.0)
}
}
impl<'a> Display for Bytes<'a> {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "{:#02x?}", self.0)
}
}
impl<'a> LowerHex for Bytes<'a> {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "{:#02x?}", self.0)
}
}
#[cfg(feature = "defmt")]
impl<'a> defmt::Format for Bytes<'a> {
fn format(&self, fmt: defmt::Formatter) {
defmt::write!(fmt, "{:02x}", self.0)
}
}

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use core::cell::RefCell;
use core::future::poll_fn;
use core::task::Poll;
use embassy_sync::waitqueue::WakerRegistration;
use crate::fmt::Bytes;
#[derive(Clone, Copy)]
pub struct PendingIoctl {
pub buf: *mut [u8],
pub req_len: usize,
}
#[derive(Clone, Copy)]
enum IoctlState {
Pending(PendingIoctl),
Sent { buf: *mut [u8] },
Done { resp_len: usize },
}
pub struct Shared(RefCell<SharedInner>);
struct SharedInner {
ioctl: IoctlState,
is_init: bool,
control_waker: WakerRegistration,
runner_waker: WakerRegistration,
}
impl Shared {
pub fn new() -> Self {
Self(RefCell::new(SharedInner {
ioctl: IoctlState::Done { resp_len: 0 },
is_init: false,
control_waker: WakerRegistration::new(),
runner_waker: WakerRegistration::new(),
}))
}
pub async fn ioctl_wait_complete(&self) -> usize {
poll_fn(|cx| {
let mut this = self.0.borrow_mut();
if let IoctlState::Done { resp_len } = this.ioctl {
Poll::Ready(resp_len)
} else {
this.control_waker.register(cx.waker());
Poll::Pending
}
})
.await
}
pub async fn ioctl_wait_pending(&self) -> PendingIoctl {
let pending = poll_fn(|cx| {
let mut this = self.0.borrow_mut();
if let IoctlState::Pending(pending) = this.ioctl {
Poll::Ready(pending)
} else {
this.runner_waker.register(cx.waker());
Poll::Pending
}
})
.await;
self.0.borrow_mut().ioctl = IoctlState::Sent { buf: pending.buf };
pending
}
pub fn ioctl_cancel(&self) {
self.0.borrow_mut().ioctl = IoctlState::Done { resp_len: 0 };
}
pub async fn ioctl(&self, buf: &mut [u8], req_len: usize) -> usize {
trace!("ioctl req bytes: {:02x}", Bytes(&buf[..req_len]));
{
let mut this = self.0.borrow_mut();
this.ioctl = IoctlState::Pending(PendingIoctl { buf, req_len });
this.runner_waker.wake();
}
self.ioctl_wait_complete().await
}
pub fn ioctl_done(&self, response: &[u8]) {
let mut this = self.0.borrow_mut();
if let IoctlState::Sent { buf } = this.ioctl {
trace!("ioctl resp bytes: {:02x}", Bytes(response));
// TODO fix this
(unsafe { &mut *buf }[..response.len()]).copy_from_slice(response);
this.ioctl = IoctlState::Done {
resp_len: response.len(),
};
this.control_waker.wake();
} else {
warn!("IOCTL Response but no pending Ioctl");
}
}
// // // // // // // // // // // // // // // // // // // //
pub fn init_done(&self) {
let mut this = self.0.borrow_mut();
this.is_init = true;
this.control_waker.wake();
}
pub async fn init_wait(&self) {
poll_fn(|cx| {
let mut this = self.0.borrow_mut();
if this.is_init {
Poll::Ready(())
} else {
this.control_waker.register(cx.waker());
Poll::Pending
}
})
.await
}
}

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@ -0,0 +1,337 @@
#![no_std]
use control::Control;
use embassy_futures::select::{select3, Either3};
use embassy_net_driver_channel as ch;
use embassy_time::{Duration, Instant, Timer};
use embedded_hal::digital::{InputPin, OutputPin};
use embedded_hal_async::digital::Wait;
use embedded_hal_async::spi::SpiDevice;
use ioctl::Shared;
use proto::CtrlMsg;
use crate::ioctl::PendingIoctl;
use crate::proto::CtrlMsgPayload;
mod proto;
// must be first
mod fmt;
mod control;
mod ioctl;
const MTU: usize = 1514;
macro_rules! impl_bytes {
($t:ident) => {
impl $t {
pub const SIZE: usize = core::mem::size_of::<Self>();
#[allow(unused)]
pub fn to_bytes(&self) -> [u8; Self::SIZE] {
unsafe { core::mem::transmute(*self) }
}
#[allow(unused)]
pub fn from_bytes(bytes: &[u8; Self::SIZE]) -> &Self {
let alignment = core::mem::align_of::<Self>();
assert_eq!(
bytes.as_ptr().align_offset(alignment),
0,
"{} is not aligned",
core::any::type_name::<Self>()
);
unsafe { core::mem::transmute(bytes) }
}
#[allow(unused)]
pub fn from_bytes_mut(bytes: &mut [u8; Self::SIZE]) -> &mut Self {
let alignment = core::mem::align_of::<Self>();
assert_eq!(
bytes.as_ptr().align_offset(alignment),
0,
"{} is not aligned",
core::any::type_name::<Self>()
);
unsafe { core::mem::transmute(bytes) }
}
}
};
}
#[repr(C, packed)]
#[derive(Clone, Copy, Debug, Default)]
struct PayloadHeader {
/// InterfaceType on lower 4 bits, number on higher 4 bits.
if_type_and_num: u8,
/// Flags.
///
/// bit 0: more fragments.
flags: u8,
len: u16,
offset: u16,
checksum: u16,
seq_num: u16,
reserved2: u8,
/// Packet type for HCI or PRIV interface, reserved otherwise
hci_priv_packet_type: u8,
}
impl_bytes!(PayloadHeader);
#[allow(unused)]
#[repr(u8)]
enum InterfaceType {
Sta = 0,
Ap = 1,
Serial = 2,
Hci = 3,
Priv = 4,
Test = 5,
}
const MAX_SPI_BUFFER_SIZE: usize = 1600;
pub struct State {
shared: Shared,
ch: ch::State<MTU, 4, 4>,
}
impl State {
pub fn new() -> Self {
Self {
shared: Shared::new(),
ch: ch::State::new(),
}
}
}
pub type NetDriver<'a> = ch::Device<'a, MTU>;
pub async fn new<'a, SPI, IN, OUT>(
state: &'a mut State,
spi: SPI,
handshake: IN,
ready: IN,
reset: OUT,
) -> (NetDriver<'a>, Control<'a>, Runner<'a, SPI, IN, OUT>)
where
SPI: SpiDevice,
IN: InputPin + Wait,
OUT: OutputPin,
{
let (ch_runner, device) = ch::new(&mut state.ch, [0; 6]);
let state_ch = ch_runner.state_runner();
let mut runner = Runner {
ch: ch_runner,
shared: &state.shared,
next_seq: 1,
handshake,
ready,
reset,
spi,
};
runner.init().await;
(device, Control::new(state_ch, &state.shared), runner)
}
pub struct Runner<'a, SPI, IN, OUT> {
ch: ch::Runner<'a, MTU>,
shared: &'a Shared,
next_seq: u16,
spi: SPI,
handshake: IN,
ready: IN,
reset: OUT,
}
impl<'a, SPI, IN, OUT> Runner<'a, SPI, IN, OUT>
where
SPI: SpiDevice,
IN: InputPin + Wait,
OUT: OutputPin,
{
async fn init(&mut self) {}
pub async fn run(mut self) -> ! {
debug!("resetting...");
self.reset.set_low().unwrap();
Timer::after(Duration::from_millis(100)).await;
self.reset.set_high().unwrap();
Timer::after(Duration::from_millis(1000)).await;
let mut tx_buf = [0u8; MAX_SPI_BUFFER_SIZE];
let mut rx_buf = [0u8; MAX_SPI_BUFFER_SIZE];
loop {
self.handshake.wait_for_high().await.unwrap();
let ioctl = self.shared.ioctl_wait_pending();
let tx = self.ch.tx_buf();
let ev = async { self.ready.wait_for_high().await.unwrap() };
match select3(ioctl, tx, ev).await {
Either3::First(PendingIoctl { buf, req_len }) => {
tx_buf[12..24].copy_from_slice(b"\x01\x08\x00ctrlResp\x02");
tx_buf[24..26].copy_from_slice(&(req_len as u16).to_le_bytes());
tx_buf[26..][..req_len].copy_from_slice(&unsafe { &*buf }[..req_len]);
let mut header = PayloadHeader {
if_type_and_num: InterfaceType::Serial as _,
len: (req_len + 14) as _,
offset: PayloadHeader::SIZE as _,
seq_num: self.next_seq,
..Default::default()
};
self.next_seq = self.next_seq.wrapping_add(1);
// Calculate checksum
tx_buf[0..12].copy_from_slice(&header.to_bytes());
header.checksum = checksum(&tx_buf[..26 + req_len]);
tx_buf[0..12].copy_from_slice(&header.to_bytes());
}
Either3::Second(packet) => {
tx_buf[12..][..packet.len()].copy_from_slice(packet);
let mut header = PayloadHeader {
if_type_and_num: InterfaceType::Sta as _,
len: packet.len() as _,
offset: PayloadHeader::SIZE as _,
seq_num: self.next_seq,
..Default::default()
};
self.next_seq = self.next_seq.wrapping_add(1);
// Calculate checksum
tx_buf[0..12].copy_from_slice(&header.to_bytes());
header.checksum = checksum(&tx_buf[..12 + packet.len()]);
tx_buf[0..12].copy_from_slice(&header.to_bytes());
self.ch.tx_done();
}
Either3::Third(()) => {
tx_buf[..PayloadHeader::SIZE].fill(0);
}
}
if tx_buf[0] != 0 {
trace!("tx: {:02x}", &tx_buf[..40]);
}
self.spi.transfer(&mut rx_buf, &tx_buf).await.unwrap();
// The esp-hosted firmware deasserts the HANSHAKE pin a few us AFTER ending the SPI transfer
// If we check it again too fast, we'll see it's high from the previous transfer, and if we send it
// data it will get lost.
// Make sure we check it after 100us at minimum.
let delay_until = Instant::now() + Duration::from_micros(100);
self.handle_rx(&mut rx_buf);
Timer::at(delay_until).await;
}
}
fn handle_rx(&mut self, buf: &mut [u8]) {
trace!("rx: {:02x}", &buf[..40]);
let buf_len = buf.len();
let h = PayloadHeader::from_bytes_mut((&mut buf[..PayloadHeader::SIZE]).try_into().unwrap());
if h.len == 0 || h.offset as usize != PayloadHeader::SIZE {
return;
}
let payload_len = h.len as usize;
if buf_len < PayloadHeader::SIZE + payload_len {
warn!("rx: len too big");
return;
}
let if_type_and_num = h.if_type_and_num;
let want_checksum = h.checksum;
h.checksum = 0;
let got_checksum = checksum(&buf[..PayloadHeader::SIZE + payload_len]);
if want_checksum != got_checksum {
warn!("rx: bad checksum. Got {:04x}, want {:04x}", got_checksum, want_checksum);
return;
}
let payload = &mut buf[PayloadHeader::SIZE..][..payload_len];
match if_type_and_num & 0x0f {
// STA
0 => match self.ch.try_rx_buf() {
Some(buf) => {
buf[..payload.len()].copy_from_slice(payload);
self.ch.rx_done(payload.len())
}
None => warn!("failed to push rxd packet to the channel."),
},
// serial
2 => {
trace!("serial rx: {:02x}", payload);
if payload.len() < 14 {
warn!("serial rx: too short");
return;
}
let is_event = match &payload[..12] {
b"\x01\x08\x00ctrlResp\x02" => false,
b"\x01\x08\x00ctrlEvnt\x02" => true,
_ => {
warn!("serial rx: bad tlv");
return;
}
};
let len = u16::from_le_bytes(payload[12..14].try_into().unwrap()) as usize;
if payload.len() < 14 + len {
warn!("serial rx: too short 2");
return;
}
let data = &payload[14..][..len];
if is_event {
self.handle_event(data);
} else {
self.shared.ioctl_done(data);
}
}
_ => warn!("unknown iftype {}", if_type_and_num),
}
}
fn handle_event(&self, data: &[u8]) {
let Ok(event) = noproto::read::<CtrlMsg>(data) else {
warn!("failed to parse event");
return
};
debug!("event: {:?}", &event);
let Some(payload) = &event.payload else {
warn!("event without payload?");
return
};
match payload {
CtrlMsgPayload::EventEspInit(_) => self.shared.init_done(),
_ => {}
}
}
}
fn checksum(buf: &[u8]) -> u16 {
let mut res = 0u16;
for &b in buf {
res = res.wrapping_add(b as _);
}
res
}

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@ -0,0 +1,652 @@
use heapless::{String, Vec};
/// internal supporting structures for CtrlMsg
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct ScanResult {
#[noproto(tag = "1")]
pub ssid: String<32>,
#[noproto(tag = "2")]
pub chnl: u32,
#[noproto(tag = "3")]
pub rssi: u32,
#[noproto(tag = "4")]
pub bssid: String<32>,
#[noproto(tag = "5")]
pub sec_prot: CtrlWifiSecProt,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct ConnectedStaList {
#[noproto(tag = "1")]
pub mac: String<32>,
#[noproto(tag = "2")]
pub rssi: u32,
}
/// * Req/Resp structure *
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqGetMacAddress {
#[noproto(tag = "1")]
pub mode: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespGetMacAddress {
#[noproto(tag = "1")]
pub mac: String<32>,
#[noproto(tag = "2")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqGetMode {}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespGetMode {
#[noproto(tag = "1")]
pub mode: u32,
#[noproto(tag = "2")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqSetMode {
#[noproto(tag = "1")]
pub mode: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespSetMode {
#[noproto(tag = "1")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqGetStatus {}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespGetStatus {
#[noproto(tag = "1")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqSetMacAddress {
#[noproto(tag = "1")]
pub mac: String<32>,
#[noproto(tag = "2")]
pub mode: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespSetMacAddress {
#[noproto(tag = "1")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqGetApConfig {}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespGetApConfig {
#[noproto(tag = "1")]
pub ssid: String<32>,
#[noproto(tag = "2")]
pub bssid: String<32>,
#[noproto(tag = "3")]
pub rssi: u32,
#[noproto(tag = "4")]
pub chnl: u32,
#[noproto(tag = "5")]
pub sec_prot: CtrlWifiSecProt,
#[noproto(tag = "6")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqConnectAp {
#[noproto(tag = "1")]
pub ssid: String<32>,
#[noproto(tag = "2")]
pub pwd: String<32>,
#[noproto(tag = "3")]
pub bssid: String<32>,
#[noproto(tag = "4")]
pub is_wpa3_supported: bool,
#[noproto(tag = "5")]
pub listen_interval: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespConnectAp {
#[noproto(tag = "1")]
pub resp: u32,
#[noproto(tag = "2")]
pub mac: String<32>,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqGetSoftApConfig {}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespGetSoftApConfig {
#[noproto(tag = "1")]
pub ssid: String<32>,
#[noproto(tag = "2")]
pub pwd: String<32>,
#[noproto(tag = "3")]
pub chnl: u32,
#[noproto(tag = "4")]
pub sec_prot: CtrlWifiSecProt,
#[noproto(tag = "5")]
pub max_conn: u32,
#[noproto(tag = "6")]
pub ssid_hidden: bool,
#[noproto(tag = "7")]
pub bw: u32,
#[noproto(tag = "8")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqStartSoftAp {
#[noproto(tag = "1")]
pub ssid: String<32>,
#[noproto(tag = "2")]
pub pwd: String<32>,
#[noproto(tag = "3")]
pub chnl: u32,
#[noproto(tag = "4")]
pub sec_prot: CtrlWifiSecProt,
#[noproto(tag = "5")]
pub max_conn: u32,
#[noproto(tag = "6")]
pub ssid_hidden: bool,
#[noproto(tag = "7")]
pub bw: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespStartSoftAp {
#[noproto(tag = "1")]
pub resp: u32,
#[noproto(tag = "2")]
pub mac: String<32>,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqScanResult {}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespScanResult {
#[noproto(tag = "1")]
pub count: u32,
#[noproto(repeated, tag = "2")]
pub entries: Vec<ScanResult, 16>,
#[noproto(tag = "3")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqSoftApConnectedSta {}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespSoftApConnectedSta {
#[noproto(tag = "1")]
pub num: u32,
#[noproto(repeated, tag = "2")]
pub stations: Vec<ConnectedStaList, 16>,
#[noproto(tag = "3")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqOtaBegin {}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespOtaBegin {
#[noproto(tag = "1")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqOtaWrite {
#[noproto(tag = "1")]
pub ota_data: Vec<u8, 1024>,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespOtaWrite {
#[noproto(tag = "1")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqOtaEnd {}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespOtaEnd {
#[noproto(tag = "1")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqVendorIeData {
#[noproto(tag = "1")]
pub element_id: u32,
#[noproto(tag = "2")]
pub length: u32,
#[noproto(tag = "3")]
pub vendor_oui: Vec<u8, 8>,
#[noproto(tag = "4")]
pub vendor_oui_type: u32,
#[noproto(tag = "5")]
pub payload: Vec<u8, 64>,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqSetSoftApVendorSpecificIe {
#[noproto(tag = "1")]
pub enable: bool,
#[noproto(tag = "2")]
pub r#type: CtrlVendorIeType,
#[noproto(tag = "3")]
pub idx: CtrlVendorIeid,
#[noproto(optional, tag = "4")]
pub vendor_ie_data: Option<CtrlMsgReqVendorIeData>,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespSetSoftApVendorSpecificIe {
#[noproto(tag = "1")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqSetWifiMaxTxPower {
#[noproto(tag = "1")]
pub wifi_max_tx_power: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespSetWifiMaxTxPower {
#[noproto(tag = "1")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqGetWifiCurrTxPower {}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespGetWifiCurrTxPower {
#[noproto(tag = "1")]
pub wifi_curr_tx_power: u32,
#[noproto(tag = "2")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgReqConfigHeartbeat {
#[noproto(tag = "1")]
pub enable: bool,
#[noproto(tag = "2")]
pub duration: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgRespConfigHeartbeat {
#[noproto(tag = "1")]
pub resp: u32,
}
/// * Event structure *
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgEventEspInit {
#[noproto(tag = "1")]
pub init_data: Vec<u8, 64>,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgEventHeartbeat {
#[noproto(tag = "1")]
pub hb_num: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgEventStationDisconnectFromAp {
#[noproto(tag = "1")]
pub resp: u32,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsgEventStationDisconnectFromEspSoftAp {
#[noproto(tag = "1")]
pub resp: u32,
#[noproto(tag = "2")]
pub mac: String<32>,
}
#[derive(Debug, Default, Clone, Eq, PartialEq, noproto::Message)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct CtrlMsg {
/// msg_type could be req, resp or Event
#[noproto(tag = "1")]
pub msg_type: CtrlMsgType,
/// msg id
#[noproto(tag = "2")]
pub msg_id: CtrlMsgId,
/// union of all msg ids
#[noproto(
oneof,
tags = "101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 301, 302, 303, 304"
)]
pub payload: Option<CtrlMsgPayload>,
}
/// union of all msg ids
#[derive(Debug, Clone, Eq, PartialEq, noproto::Oneof)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlMsgPayload {
/// * Requests *
#[noproto(tag = "101")]
ReqGetMacAddress(CtrlMsgReqGetMacAddress),
#[noproto(tag = "102")]
ReqSetMacAddress(CtrlMsgReqSetMacAddress),
#[noproto(tag = "103")]
ReqGetWifiMode(CtrlMsgReqGetMode),
#[noproto(tag = "104")]
ReqSetWifiMode(CtrlMsgReqSetMode),
#[noproto(tag = "105")]
ReqScanApList(CtrlMsgReqScanResult),
#[noproto(tag = "106")]
ReqGetApConfig(CtrlMsgReqGetApConfig),
#[noproto(tag = "107")]
ReqConnectAp(CtrlMsgReqConnectAp),
#[noproto(tag = "108")]
ReqDisconnectAp(CtrlMsgReqGetStatus),
#[noproto(tag = "109")]
ReqGetSoftapConfig(CtrlMsgReqGetSoftApConfig),
#[noproto(tag = "110")]
ReqSetSoftapVendorSpecificIe(CtrlMsgReqSetSoftApVendorSpecificIe),
#[noproto(tag = "111")]
ReqStartSoftap(CtrlMsgReqStartSoftAp),
#[noproto(tag = "112")]
ReqSoftapConnectedStasList(CtrlMsgReqSoftApConnectedSta),
#[noproto(tag = "113")]
ReqStopSoftap(CtrlMsgReqGetStatus),
#[noproto(tag = "114")]
ReqSetPowerSaveMode(CtrlMsgReqSetMode),
#[noproto(tag = "115")]
ReqGetPowerSaveMode(CtrlMsgReqGetMode),
#[noproto(tag = "116")]
ReqOtaBegin(CtrlMsgReqOtaBegin),
#[noproto(tag = "117")]
ReqOtaWrite(CtrlMsgReqOtaWrite),
#[noproto(tag = "118")]
ReqOtaEnd(CtrlMsgReqOtaEnd),
#[noproto(tag = "119")]
ReqSetWifiMaxTxPower(CtrlMsgReqSetWifiMaxTxPower),
#[noproto(tag = "120")]
ReqGetWifiCurrTxPower(CtrlMsgReqGetWifiCurrTxPower),
#[noproto(tag = "121")]
ReqConfigHeartbeat(CtrlMsgReqConfigHeartbeat),
/// * Responses *
#[noproto(tag = "201")]
RespGetMacAddress(CtrlMsgRespGetMacAddress),
#[noproto(tag = "202")]
RespSetMacAddress(CtrlMsgRespSetMacAddress),
#[noproto(tag = "203")]
RespGetWifiMode(CtrlMsgRespGetMode),
#[noproto(tag = "204")]
RespSetWifiMode(CtrlMsgRespSetMode),
#[noproto(tag = "205")]
RespScanApList(CtrlMsgRespScanResult),
#[noproto(tag = "206")]
RespGetApConfig(CtrlMsgRespGetApConfig),
#[noproto(tag = "207")]
RespConnectAp(CtrlMsgRespConnectAp),
#[noproto(tag = "208")]
RespDisconnectAp(CtrlMsgRespGetStatus),
#[noproto(tag = "209")]
RespGetSoftapConfig(CtrlMsgRespGetSoftApConfig),
#[noproto(tag = "210")]
RespSetSoftapVendorSpecificIe(CtrlMsgRespSetSoftApVendorSpecificIe),
#[noproto(tag = "211")]
RespStartSoftap(CtrlMsgRespStartSoftAp),
#[noproto(tag = "212")]
RespSoftapConnectedStasList(CtrlMsgRespSoftApConnectedSta),
#[noproto(tag = "213")]
RespStopSoftap(CtrlMsgRespGetStatus),
#[noproto(tag = "214")]
RespSetPowerSaveMode(CtrlMsgRespSetMode),
#[noproto(tag = "215")]
RespGetPowerSaveMode(CtrlMsgRespGetMode),
#[noproto(tag = "216")]
RespOtaBegin(CtrlMsgRespOtaBegin),
#[noproto(tag = "217")]
RespOtaWrite(CtrlMsgRespOtaWrite),
#[noproto(tag = "218")]
RespOtaEnd(CtrlMsgRespOtaEnd),
#[noproto(tag = "219")]
RespSetWifiMaxTxPower(CtrlMsgRespSetWifiMaxTxPower),
#[noproto(tag = "220")]
RespGetWifiCurrTxPower(CtrlMsgRespGetWifiCurrTxPower),
#[noproto(tag = "221")]
RespConfigHeartbeat(CtrlMsgRespConfigHeartbeat),
/// * Notifications *
#[noproto(tag = "301")]
EventEspInit(CtrlMsgEventEspInit),
#[noproto(tag = "302")]
EventHeartbeat(CtrlMsgEventHeartbeat),
#[noproto(tag = "303")]
EventStationDisconnectFromAp(CtrlMsgEventStationDisconnectFromAp),
#[noproto(tag = "304")]
EventStationDisconnectFromEspSoftAp(CtrlMsgEventStationDisconnectFromEspSoftAp),
}
/// Enums similar to ESP IDF
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq, Hash, PartialOrd, Ord, noproto::Enumeration)]
#[repr(u32)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlVendorIeType {
#[default]
Beacon = 0,
ProbeReq = 1,
ProbeResp = 2,
AssocReq = 3,
AssocResp = 4,
}
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq, Hash, PartialOrd, Ord, noproto::Enumeration)]
#[repr(u32)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlVendorIeid {
#[default]
Id0 = 0,
Id1 = 1,
}
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq, Hash, PartialOrd, Ord, noproto::Enumeration)]
#[repr(u32)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlWifiMode {
#[default]
None = 0,
Sta = 1,
Ap = 2,
Apsta = 3,
}
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq, Hash, PartialOrd, Ord, noproto::Enumeration)]
#[repr(u32)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlWifiBw {
#[default]
BwInvalid = 0,
Ht20 = 1,
Ht40 = 2,
}
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq, Hash, PartialOrd, Ord, noproto::Enumeration)]
#[repr(u32)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlWifiPowerSave {
#[default]
PsInvalid = 0,
MinModem = 1,
MaxModem = 2,
}
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq, Hash, PartialOrd, Ord, noproto::Enumeration)]
#[repr(u32)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlWifiSecProt {
#[default]
Open = 0,
Wep = 1,
WpaPsk = 2,
Wpa2Psk = 3,
WpaWpa2Psk = 4,
Wpa2Enterprise = 5,
Wpa3Psk = 6,
Wpa2Wpa3Psk = 7,
}
/// enums for Control path
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq, Hash, PartialOrd, Ord, noproto::Enumeration)]
#[repr(u32)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlStatus {
#[default]
Connected = 0,
NotConnected = 1,
NoApFound = 2,
ConnectionFail = 3,
InvalidArgument = 4,
OutOfRange = 5,
}
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq, Hash, PartialOrd, Ord, noproto::Enumeration)]
#[repr(u32)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlMsgType {
#[default]
MsgTypeInvalid = 0,
Req = 1,
Resp = 2,
Event = 3,
MsgTypeMax = 4,
}
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq, Hash, PartialOrd, Ord, noproto::Enumeration)]
#[repr(u32)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum CtrlMsgId {
#[default]
MsgIdInvalid = 0,
/// * Request Msgs *
ReqBase = 100,
ReqGetMacAddress = 101,
ReqSetMacAddress = 102,
ReqGetWifiMode = 103,
ReqSetWifiMode = 104,
ReqGetApScanList = 105,
ReqGetApConfig = 106,
ReqConnectAp = 107,
ReqDisconnectAp = 108,
ReqGetSoftApConfig = 109,
ReqSetSoftApVendorSpecificIe = 110,
ReqStartSoftAp = 111,
ReqGetSoftApConnectedStaList = 112,
ReqStopSoftAp = 113,
ReqSetPowerSaveMode = 114,
ReqGetPowerSaveMode = 115,
ReqOtaBegin = 116,
ReqOtaWrite = 117,
ReqOtaEnd = 118,
ReqSetWifiMaxTxPower = 119,
ReqGetWifiCurrTxPower = 120,
ReqConfigHeartbeat = 121,
/// Add new control path command response before Req_Max
/// and update Req_Max
ReqMax = 122,
/// * Response Msgs *
RespBase = 200,
RespGetMacAddress = 201,
RespSetMacAddress = 202,
RespGetWifiMode = 203,
RespSetWifiMode = 204,
RespGetApScanList = 205,
RespGetApConfig = 206,
RespConnectAp = 207,
RespDisconnectAp = 208,
RespGetSoftApConfig = 209,
RespSetSoftApVendorSpecificIe = 210,
RespStartSoftAp = 211,
RespGetSoftApConnectedStaList = 212,
RespStopSoftAp = 213,
RespSetPowerSaveMode = 214,
RespGetPowerSaveMode = 215,
RespOtaBegin = 216,
RespOtaWrite = 217,
RespOtaEnd = 218,
RespSetWifiMaxTxPower = 219,
RespGetWifiCurrTxPower = 220,
RespConfigHeartbeat = 221,
/// Add new control path command response before Resp_Max
/// and update Resp_Max
RespMax = 222,
/// * Event Msgs *
EventBase = 300,
EventEspInit = 301,
EventHeartbeat = 302,
EventStationDisconnectFromAp = 303,
EventStationDisconnectFromEspSoftAp = 304,
/// Add new control path command notification before Event_Max
/// and update Event_Max
EventMax = 305,
}

View File

@ -23,10 +23,15 @@ cortex-m = "0.7.6"
heapless = "0.7.16"
bit_field = "0.10.2"
stm32-device-signature = { version = "0.3.3", features = ["stm32wb5x"] }
stm32wb-hci = { version = "0.1.2", features = ["version-5-0"], optional = true }
[features]
defmt = ["dep:defmt", "embassy-sync/defmt", "embassy-embedded-hal/defmt", "embassy-hal-common/defmt"]
ble = ["dep:stm32wb-hci"]
mac = []
stm32wb10cc = [ "embassy-stm32/stm32wb10cc" ]
stm32wb15cc = [ "embassy-stm32/stm32wb15cc" ]
stm32wb30ce = [ "embassy-stm32/stm32wb30ce" ]

View File

@ -1,13 +1,14 @@
use core::marker::PhantomData;
use embassy_stm32::ipcc::Ipcc;
use hci::Opcode;
use crate::channels;
use crate::cmd::CmdPacket;
use crate::consts::TlPacketType;
use crate::evt::EvtBox;
use crate::tables::BleTable;
use crate::tables::{BleTable, BLE_CMD_BUFFER, CS_BUFFER, EVT_QUEUE, HCI_ACL_DATA_BUFFER, TL_BLE_TABLE};
use crate::unsafe_linked_list::LinkedListNode;
use crate::{channels, BLE_CMD_BUFFER, CS_BUFFER, EVT_QUEUE, HCI_ACL_DATA_BUFFER, TL_BLE_TABLE};
pub struct Ble {
phantom: PhantomData<Ble>,
@ -29,7 +30,7 @@ impl Ble {
Self { phantom: PhantomData }
}
/// `HW_IPCC_BLE_EvtNot`
pub async fn read(&self) -> EvtBox {
pub async fn tl_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()))
@ -41,7 +42,7 @@ impl Ble {
}
/// `TL_BLE_SendCmd`
pub async fn write(&self, opcode: u16, payload: &[u8]) {
pub async fn tl_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);
})
@ -61,3 +62,18 @@ impl Ble {
.await;
}
}
pub extern crate stm32wb_hci as hci;
impl hci::Controller for Ble {
async fn controller_write(&mut self, opcode: Opcode, payload: &[u8]) {
self.tl_write(opcode.0, payload).await;
}
async fn controller_read_into(&self, buf: &mut [u8]) {
let evt_box = self.tl_read().await;
let evt_serial = evt_box.serial();
buf[..evt_serial.len()].copy_from_slice(evt_serial);
}
}

View File

@ -37,7 +37,7 @@ pub struct CmdSerialStub {
}
#[derive(Copy, Clone, Default)]
#[repr(C, packed)]
#[repr(C, packed(4))]
pub struct CmdPacket {
pub header: PacketHeader,
pub cmdserial: CmdSerial,
@ -52,7 +52,7 @@ impl CmdPacket {
p_cmd_serial,
CmdSerialStub {
ty: packet_type as u8,
cmd_code: cmd_code,
cmd_code,
payload_len: payload.len() as u8,
},
);

View File

@ -1,5 +1,8 @@
use core::convert::TryFrom;
use crate::evt::CsEvt;
use crate::PacketHeader;
#[derive(Debug)]
#[repr(C)]
pub enum TlPacketType {
@ -53,3 +56,34 @@ impl TryFrom<u8> for TlPacketType {
}
}
}
pub const TL_PACKET_HEADER_SIZE: usize = core::mem::size_of::<PacketHeader>();
pub const TL_EVT_HEADER_SIZE: usize = 3;
pub const TL_CS_EVT_SIZE: usize = core::mem::size_of::<CsEvt>();
/**
* 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).
*/
pub const CFG_TL_BLE_EVT_QUEUE_LENGTH: usize = 5;
pub const CFG_TL_BLE_MOST_EVENT_PAYLOAD_SIZE: usize = 255;
pub const TL_BLE_EVENT_FRAME_SIZE: usize = TL_EVT_HEADER_SIZE + CFG_TL_BLE_MOST_EVENT_PAYLOAD_SIZE;
pub const POOL_SIZE: usize = CFG_TL_BLE_EVT_QUEUE_LENGTH * 4 * divc(TL_PACKET_HEADER_SIZE + TL_BLE_EVENT_FRAME_SIZE, 4);
pub const fn divc(x: usize, y: usize) -> usize {
(x + y - 1) / y
}
pub const TL_BLE_EVT_CS_PACKET_SIZE: usize = TL_EVT_HEADER_SIZE + TL_CS_EVT_SIZE;
#[allow(dead_code)]
pub const TL_BLE_EVT_CS_BUFFER_SIZE: usize = TL_PACKET_HEADER_SIZE + TL_BLE_EVT_CS_PACKET_SIZE;

View File

@ -1,7 +1,7 @@
use core::{ptr, slice};
use super::PacketHeader;
use crate::mm;
use crate::consts::TL_EVT_HEADER_SIZE;
/**
* The payload of `Evt` for a command status event
@ -46,15 +46,15 @@ pub struct AsynchEvt {
payload: [u8; 1],
}
#[derive(Copy, Clone, Default)]
#[derive(Copy, Clone)]
#[repr(C, packed)]
pub struct Evt {
pub evt_code: u8,
pub payload_len: u8,
pub payload: [u8; 1],
pub payload: [u8; 255],
}
#[derive(Copy, Clone, Default)]
#[derive(Copy, Clone)]
#[repr(C, packed)]
pub struct EvtSerial {
pub kind: u8,
@ -62,6 +62,7 @@ pub struct EvtSerial {
}
#[derive(Copy, Clone, Default)]
#[repr(C, packed)]
pub struct EvtStub {
pub kind: u8,
pub evt_code: u8,
@ -75,7 +76,7 @@ pub struct EvtStub {
/// 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, Default)]
#[derive(Copy, Clone)]
#[repr(C, packed)]
pub struct EvtPacket {
pub header: PacketHeader,
@ -114,7 +115,7 @@ impl EvtBox {
}
}
pub fn payload<'a>(&self) -> &'a [u8] {
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;
@ -125,71 +126,35 @@ impl EvtBox {
}
}
// TODO: bring back acl
/// 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.
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();
// /// 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)
// }
// }
// }
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) {
trace!("evt box drop packet");
#[cfg(feature = "ble")]
unsafe {
use crate::mm;
unsafe { mm::MemoryManager::drop_event_packet(self.ptr) };
mm::MemoryManager::drop_event_packet(self.ptr)
};
#[cfg(feature = "mac")]
unsafe {
use crate::mac;
mac::Mac::drop_event_packet(self.ptr)
}
}
}

View File

@ -0,0 +1,111 @@
use crate::cmd::CmdPacket;
use crate::consts::{TlPacketType, TL_EVT_HEADER_SIZE};
use crate::evt::{CcEvt, EvtPacket, EvtSerial};
use crate::tables::{DeviceInfoTable, RssInfoTable, SafeBootInfoTable, WirelessFwInfoTable};
use crate::TL_REF_TABLE;
const TL_BLEEVT_CC_OPCODE: u8 = 0x0e;
const LHCI_OPCODE_C1_DEVICE_INF: u16 = 0xfd62;
const PACKAGE_DATA_PTR: *const u8 = 0x1FFF_7500 as _;
const UID64_PTR: *const u32 = 0x1FFF_7580 as _;
#[derive(Debug, Copy, Clone)]
#[repr(C, packed)]
pub struct LhciC1DeviceInformationCcrp {
pub status: u8,
pub rev_id: u16,
pub dev_code_id: u16,
pub package_type: u8,
pub device_type_id: u8,
pub st_company_id: u32,
pub uid64: u32,
pub uid96_0: u32,
pub uid96_1: u32,
pub uid96_2: u32,
pub safe_boot_info_table: SafeBootInfoTable,
pub rss_info_table: RssInfoTable,
pub wireless_fw_info_table: WirelessFwInfoTable,
pub app_fw_inf: u32,
}
impl Default for LhciC1DeviceInformationCcrp {
fn default() -> Self {
let DeviceInfoTable {
safe_boot_info_table,
rss_info_table,
wireless_fw_info_table,
} = unsafe { &*(*TL_REF_TABLE.as_ptr()).device_info_table }.clone();
let device_id = stm32_device_signature::device_id();
let uid96_0 = (device_id[3] as u32) << 24
| (device_id[2] as u32) << 16
| (device_id[1] as u32) << 8
| device_id[0] as u32;
let uid96_1 = (device_id[7] as u32) << 24
| (device_id[6] as u32) << 16
| (device_id[5] as u32) << 8
| device_id[4] as u32;
let uid96_2 = (device_id[11] as u32) << 24
| (device_id[10] as u32) << 16
| (device_id[9] as u32) << 8
| device_id[8] as u32;
let package_type = unsafe { *PACKAGE_DATA_PTR };
let uid64 = unsafe { *UID64_PTR };
let st_company_id = unsafe { *UID64_PTR.offset(1) } >> 8 & 0x00FF_FFFF;
let device_type_id = (unsafe { *UID64_PTR.offset(1) } & 0x000000FF) as u8;
LhciC1DeviceInformationCcrp {
status: 0,
rev_id: 0,
dev_code_id: 0,
package_type,
device_type_id,
st_company_id,
uid64,
uid96_0,
uid96_1,
uid96_2,
safe_boot_info_table,
rss_info_table,
wireless_fw_info_table,
app_fw_inf: (1 << 8), // 0.0.1
}
}
}
impl LhciC1DeviceInformationCcrp {
pub fn new() -> Self {
Self::default()
}
pub fn write(&self, cmd_packet: &mut CmdPacket) {
let self_size = core::mem::size_of::<LhciC1DeviceInformationCcrp>();
unsafe {
let cmd_packet_ptr: *mut CmdPacket = cmd_packet;
let evet_packet_ptr: *mut EvtPacket = cmd_packet_ptr.cast();
let evt_serial: *mut EvtSerial = &mut (*evet_packet_ptr).evt_serial;
let evt_payload = (*evt_serial).evt.payload.as_mut_ptr();
let evt_cc: *mut CcEvt = evt_payload.cast();
let evt_cc_payload_buf = (*evt_cc).payload.as_mut_ptr();
(*evt_serial).kind = TlPacketType::LocRsp as u8;
(*evt_serial).evt.evt_code = TL_BLEEVT_CC_OPCODE;
(*evt_serial).evt.payload_len = TL_EVT_HEADER_SIZE as u8 + self_size as u8;
(*evt_cc).cmd_code = LHCI_OPCODE_C1_DEVICE_INF;
(*evt_cc).num_cmd = 1;
let self_ptr: *const LhciC1DeviceInformationCcrp = self;
let self_buf = self_ptr.cast();
core::ptr::copy(self_buf, evt_cc_payload_buf, self_size);
}
}
}

View File

@ -1,4 +1,5 @@
#![no_std]
#![cfg_attr(feature = "ble", feature(async_fn_in_trait))]
// This must go FIRST so that all the other modules see its macros.
pub mod fmt;
@ -6,148 +7,41 @@ pub mod fmt;
use core::mem::MaybeUninit;
use core::sync::atomic::{compiler_fence, Ordering};
use ble::Ble;
use cmd::CmdPacket;
use embassy_hal_common::{into_ref, Peripheral, PeripheralRef};
use embassy_stm32::interrupt;
use embassy_stm32::interrupt::typelevel::Interrupt;
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,
};
use tables::*;
use unsafe_linked_list::LinkedListNode;
#[cfg(feature = "ble")]
pub mod ble;
pub mod channels;
pub mod cmd;
pub mod consts;
pub mod evt;
pub mod lhci;
#[cfg(feature = "mac")]
pub mod mac;
pub mod mm;
pub mod shci;
pub mod sys;
pub mod tables;
pub mod unsafe_linked_list;
#[link_section = "TL_REF_TABLE"]
pub static mut TL_REF_TABLE: MaybeUninit<RefTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
static mut TL_DEVICE_INFO_TABLE: MaybeUninit<DeviceInfoTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
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_SYS_TABLE: MaybeUninit<SysTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
static mut TL_MEM_MANAGER_TABLE: MaybeUninit<MemManagerTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
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_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_MEM2"]
static mut TRACES_EVT_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]> =
MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
static mut EVT_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
static mut SYSTEM_EVT_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
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();
#[link_section = "MB_MEM2"]
static mut SYS_SPARE_EVT_BUF: MaybeUninit<[u8; TL_PACKET_HEADER_SIZE + TL_EVT_HEADER_SIZE + 255]> =
MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
static mut BLE_SPARE_EVT_BUF: MaybeUninit<[u8; TL_PACKET_HEADER_SIZE + TL_EVT_HEADER_SIZE + 255]> =
MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
static mut BLE_CMD_BUFFER: MaybeUninit<CmdPacket> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
// 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();
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,
#[cfg(feature = "ble")]
pub ble_subsystem: ble::Ble,
#[cfg(feature = "mac")]
pub mac_subsystem: mac::Mac,
}
impl<'d> TlMbox<'d> {
@ -232,24 +126,14 @@ impl<'d> TlMbox<'d> {
Ipcc::enable(config);
let sys = sys::Sys::new();
let ble = ble::Ble::new();
let mm = mm::MemoryManager::new();
// enable interrupts
interrupt::typelevel::IPCC_C1_RX::unpend();
interrupt::typelevel::IPCC_C1_TX::unpend();
unsafe { interrupt::typelevel::IPCC_C1_RX::enable() };
unsafe { interrupt::typelevel::IPCC_C1_TX::enable() };
STATE.reset();
Self {
_ipcc: ipcc,
sys_subsystem: sys,
ble_subsystem: ble,
mm_subsystem: mm,
sys_subsystem: sys::Sys::new(),
#[cfg(feature = "ble")]
ble_subsystem: ble::Ble::new(),
#[cfg(feature = "mac")]
mac_subsystem: mac::Mac::new(),
mm_subsystem: mm::MemoryManager::new(),
}
}
}

View File

@ -0,0 +1,111 @@
use core::future::poll_fn;
use core::marker::PhantomData;
use core::ptr;
use core::sync::atomic::{AtomicBool, Ordering};
use core::task::Poll;
use embassy_futures::poll_once;
use embassy_stm32::ipcc::Ipcc;
use embassy_sync::waitqueue::AtomicWaker;
use crate::channels;
use crate::cmd::CmdPacket;
use crate::consts::TlPacketType;
use crate::evt::{EvtBox, EvtPacket};
use crate::tables::{
Mac802_15_4Table, MAC_802_15_4_CMD_BUFFER, MAC_802_15_4_NOTIF_RSP_EVT_BUFFER, TL_MAC_802_15_4_TABLE,
};
static MAC_WAKER: AtomicWaker = AtomicWaker::new();
static MAC_EVT_OUT: AtomicBool = AtomicBool::new(false);
pub struct Mac {
phantom: PhantomData<Mac>,
}
impl Mac {
pub(crate) fn new() -> Self {
unsafe {
TL_MAC_802_15_4_TABLE.as_mut_ptr().write_volatile(Mac802_15_4Table {
p_cmdrsp_buffer: MAC_802_15_4_CMD_BUFFER.as_mut_ptr().cast(),
p_notack_buffer: MAC_802_15_4_NOTIF_RSP_EVT_BUFFER.as_mut_ptr().cast(),
evt_queue: ptr::null_mut(),
});
}
Self { phantom: PhantomData }
}
/// SAFETY: passing a pointer to something other than a managed event packet is UB
pub(crate) unsafe fn drop_event_packet(_: *mut EvtPacket) {
// Write the ack
CmdPacket::write_into(
MAC_802_15_4_NOTIF_RSP_EVT_BUFFER.as_mut_ptr() as *mut _,
TlPacketType::OtAck,
0,
&[],
);
// Clear the rx flag
let _ = poll_once(Ipcc::receive::<bool>(
channels::cpu2::IPCC_MAC_802_15_4_NOTIFICATION_ACK_CHANNEL,
|| None,
));
// Allow a new read call
MAC_EVT_OUT.store(false, Ordering::SeqCst);
MAC_WAKER.wake();
}
/// `HW_IPCC_MAC_802_15_4_EvtNot`
///
/// This function will stall if the previous `EvtBox` has not been dropped
pub async fn read(&self) -> EvtBox {
// Wait for the last event box to be dropped
poll_fn(|cx| {
MAC_WAKER.register(cx.waker());
if MAC_EVT_OUT.load(Ordering::SeqCst) {
Poll::Pending
} else {
Poll::Ready(())
}
})
.await;
// Return a new event box
Ipcc::receive(channels::cpu2::IPCC_MAC_802_15_4_NOTIFICATION_ACK_CHANNEL, || unsafe {
// The closure is not async, therefore the closure must execute to completion (cannot be dropped)
// Therefore, the event box is guaranteed to be cleaned up if it's not leaked
MAC_EVT_OUT.store(true, Ordering::SeqCst);
Some(EvtBox::new(MAC_802_15_4_NOTIF_RSP_EVT_BUFFER.as_mut_ptr() as *mut _))
})
.await
}
/// `HW_IPCC_MAC_802_15_4_CmdEvtNot`
pub async fn write_and_get_response(&self, opcode: u16, payload: &[u8]) -> u8 {
self.write(opcode, payload).await;
Ipcc::flush(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL).await;
unsafe {
let p_event_packet = MAC_802_15_4_CMD_BUFFER.as_ptr() as *const EvtPacket;
let p_mac_rsp_evt = &((*p_event_packet).evt_serial.evt.payload) as *const u8;
ptr::read_volatile(p_mac_rsp_evt)
}
}
/// `TL_MAC_802_15_4_SendCmd`
pub async fn write(&self, opcode: u16, payload: &[u8]) {
Ipcc::send(channels::cpu1::IPCC_MAC_802_15_4_CMD_RSP_CHANNEL, || unsafe {
CmdPacket::write_into(
MAC_802_15_4_CMD_BUFFER.as_mut_ptr(),
TlPacketType::OtCmd,
opcode,
payload,
);
})
.await;
}
}

View File

@ -1,22 +1,23 @@
//! Memory manager routines
use core::future::poll_fn;
use core::marker::PhantomData;
use core::mem::MaybeUninit;
use core::task::Poll;
use cortex_m::interrupt;
use embassy_stm32::ipcc::Ipcc;
use embassy_sync::waitqueue::AtomicWaker;
use crate::channels;
use crate::consts::POOL_SIZE;
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,
use crate::tables::{
MemManagerTable, BLE_SPARE_EVT_BUF, EVT_POOL, FREE_BUF_QUEUE, SYS_SPARE_EVT_BUF, TL_MEM_MANAGER_TABLE,
};
use crate::unsafe_linked_list::LinkedListNode;
static MM_WAKER: AtomicWaker = AtomicWaker::new();
static mut LOCAL_FREE_BUF_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
pub struct MemoryManager {
phantom: PhantomData<MemoryManager>,
@ -42,7 +43,8 @@ impl MemoryManager {
Self { phantom: PhantomData }
}
/// SAFETY: passing a pointer to something other than an event packet is UB
#[allow(dead_code)]
/// SAFETY: passing a pointer to something other than a managed 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 _);

View File

@ -1,39 +1,346 @@
use core::{mem, slice};
use super::{TL_CS_EVT_SIZE, TL_EVT_HEADER_SIZE, TL_PACKET_HEADER_SIZE};
use crate::consts::{TL_CS_EVT_SIZE, TL_EVT_HEADER_SIZE, TL_PACKET_HEADER_SIZE};
pub const SCHI_OPCODE_BLE_INIT: u16 = 0xfc66;
const SHCI_OGF: u16 = 0x3F;
#[derive(Debug, Clone, Copy)]
const fn opcode(ogf: u16, ocf: u16) -> isize {
((ogf << 10) + ocf) as isize
}
#[allow(dead_code)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum SchiCommandStatus {
ShciSuccess = 0x00,
ShciUnknownCmd = 0x01,
ShciMemoryCapacityExceededErrCode = 0x07,
ShciErrUnsupportedFeature = 0x11,
ShciErrInvalidHciCmdParams = 0x12,
ShciErrInvalidParams = 0x42, /* only used for release < v1.13.0 */
ShciErrInvalidParamsV2 = 0x92, /* available for release >= v1.13.0 */
ShciFusCmdNotSupported = 0xFF,
}
impl TryFrom<u8> for SchiCommandStatus {
type Error = ();
fn try_from(v: u8) -> Result<Self, Self::Error> {
match v {
x if x == SchiCommandStatus::ShciSuccess as u8 => Ok(SchiCommandStatus::ShciSuccess),
x if x == SchiCommandStatus::ShciUnknownCmd as u8 => Ok(SchiCommandStatus::ShciUnknownCmd),
x if x == SchiCommandStatus::ShciMemoryCapacityExceededErrCode as u8 => {
Ok(SchiCommandStatus::ShciMemoryCapacityExceededErrCode)
}
x if x == SchiCommandStatus::ShciErrUnsupportedFeature as u8 => {
Ok(SchiCommandStatus::ShciErrUnsupportedFeature)
}
x if x == SchiCommandStatus::ShciErrInvalidHciCmdParams as u8 => {
Ok(SchiCommandStatus::ShciErrInvalidHciCmdParams)
}
x if x == SchiCommandStatus::ShciErrInvalidParams as u8 => Ok(SchiCommandStatus::ShciErrInvalidParams), /* only used for release < v1.13.0 */
x if x == SchiCommandStatus::ShciErrInvalidParamsV2 as u8 => Ok(SchiCommandStatus::ShciErrInvalidParamsV2), /* available for release >= v1.13.0 */
x if x == SchiCommandStatus::ShciFusCmdNotSupported as u8 => Ok(SchiCommandStatus::ShciFusCmdNotSupported),
_ => Err(()),
}
}
}
#[allow(dead_code)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum ShciOpcode {
// 0x50 reserved
// 0x51 reserved
FusGetState = opcode(SHCI_OGF, 0x52),
// 0x53 reserved
FusFirmwareUpgrade = opcode(SHCI_OGF, 0x54),
FusFirmwareDelete = opcode(SHCI_OGF, 0x55),
FusUpdateAuthKey = opcode(SHCI_OGF, 0x56),
FusLockAuthKey = opcode(SHCI_OGF, 0x57),
FusStoreUserKey = opcode(SHCI_OGF, 0x58),
FusLoadUserKey = opcode(SHCI_OGF, 0x59),
FusStartWirelessStack = opcode(SHCI_OGF, 0x5a),
// 0x5b reserved
// 0x5c reserved
FusLockUserKey = opcode(SHCI_OGF, 0x5d),
FusUnloadUserKey = opcode(SHCI_OGF, 0x5e),
FusActivateAntirollback = opcode(SHCI_OGF, 0x5f),
// 0x60 reserved
// 0x61 reserved
// 0x62 reserved
// 0x63 reserved
// 0x64 reserved
// 0x65 reserved
BleInit = opcode(SHCI_OGF, 0x66),
ThreadInit = opcode(SHCI_OGF, 0x67),
DebugInit = opcode(SHCI_OGF, 0x68),
FlashEraseActivity = opcode(SHCI_OGF, 0x69),
ConcurrentSetMode = opcode(SHCI_OGF, 0x6a),
FlashStoreData = opcode(SHCI_OGF, 0x6b),
FlashEraseData = opcode(SHCI_OGF, 0x6c),
RadioAllowLowPower = opcode(SHCI_OGF, 0x6d),
Mac802_15_4Init = opcode(SHCI_OGF, 0x6e),
ReInit = opcode(SHCI_OGF, 0x6f),
ZigbeeInit = opcode(SHCI_OGF, 0x70),
LldTestsInit = opcode(SHCI_OGF, 0x71),
ExtraConfig = opcode(SHCI_OGF, 0x72),
SetFlashActivityControl = opcode(SHCI_OGF, 0x73),
BleLldInit = opcode(SHCI_OGF, 0x74),
Config = opcode(SHCI_OGF, 0x75),
ConcurrentGetNextBleEvtTime = opcode(SHCI_OGF, 0x76),
ConcurrentEnableNext802_15_4EvtNotification = opcode(SHCI_OGF, 0x77),
Mac802_15_4DeInit = opcode(SHCI_OGF, 0x78),
}
pub const SHCI_C2_CONFIG_EVTMASK1_BIT0_ERROR_NOTIF_ENABLE: u8 = 1 << 0;
pub const SHCI_C2_CONFIG_EVTMASK1_BIT1_BLE_NVM_RAM_UPDATE_ENABLE: u8 = 1 << 1;
pub const SHCI_C2_CONFIG_EVTMASK1_BIT2_THREAD_NVM_RAM_UPDATE_ENABLE: u8 = 1 << 2;
pub const SHCI_C2_CONFIG_EVTMASK1_BIT3_NVM_START_WRITE_ENABLE: u8 = 1 << 3;
pub const SHCI_C2_CONFIG_EVTMASK1_BIT4_NVM_END_WRITE_ENABLE: u8 = 1 << 4;
pub const SHCI_C2_CONFIG_EVTMASK1_BIT5_NVM_START_ERASE_ENABLE: u8 = 1 << 5;
pub const SHCI_C2_CONFIG_EVTMASK1_BIT6_NVM_END_ERASE_ENABLE: u8 = 1 << 6;
#[derive(Clone, Copy)]
#[repr(C, packed)]
pub struct ShciConfigParam {
pub payload_cmd_size: u8,
pub config: u8,
pub event_mask: u8,
pub spare: u8,
pub ble_nvm_ram_address: u32,
pub thread_nvm_ram_address: u32,
pub revision_id: u16,
pub device_id: u16,
}
impl ShciConfigParam {
pub fn payload<'a>(&'a self) -> &'a [u8] {
unsafe { slice::from_raw_parts(self as *const _ as *const u8, mem::size_of::<Self>()) }
}
}
impl Default for ShciConfigParam {
fn default() -> Self {
Self {
payload_cmd_size: (mem::size_of::<Self>() - 1) as u8,
config: 0,
event_mask: SHCI_C2_CONFIG_EVTMASK1_BIT0_ERROR_NOTIF_ENABLE
+ SHCI_C2_CONFIG_EVTMASK1_BIT1_BLE_NVM_RAM_UPDATE_ENABLE
+ SHCI_C2_CONFIG_EVTMASK1_BIT2_THREAD_NVM_RAM_UPDATE_ENABLE
+ SHCI_C2_CONFIG_EVTMASK1_BIT3_NVM_START_WRITE_ENABLE
+ SHCI_C2_CONFIG_EVTMASK1_BIT4_NVM_END_WRITE_ENABLE
+ SHCI_C2_CONFIG_EVTMASK1_BIT5_NVM_START_ERASE_ENABLE
+ SHCI_C2_CONFIG_EVTMASK1_BIT6_NVM_END_ERASE_ENABLE,
spare: 0,
ble_nvm_ram_address: 0,
thread_nvm_ram_address: 0,
revision_id: 0,
device_id: 0,
}
}
}
#[derive(Clone, Copy)]
#[repr(C, packed)]
pub struct ShciBleInitCmdParam {
/// NOT USED CURRENTLY
/// NOT USED - shall be set to 0
pub p_ble_buffer_address: u32,
/// Size of the Buffer allocated in pBleBufferAddress
/// NOT USED - shall be set to 0
pub ble_buffer_size: u32,
/// Maximum number of attribute records related to all the required characteristics (excluding the services)
/// that can be stored in the GATT database, for the specific BLE user application.
/// For each characteristic, the number of attribute records goes from two to five depending on the characteristic properties:
/// - minimum of two (one for declaration and one for the value)
/// - add one more record for each additional property: notify or indicate, broadcast, extended property.
/// The total calculated value must be increased by 9, due to the records related to the standard attribute profile and
/// GAP service characteristics, and automatically added when initializing GATT and GAP layers
/// - Min value: <number of user attributes> + 9
/// - Max value: depending on the GATT database defined by user application
pub num_attr_record: u16,
/// Defines the maximum number of services that can be stored in the GATT database. Note that the GAP and GATT services
/// are automatically added at initialization so this parameter must be the number of user services increased by two.
/// - Min value: <number of user service> + 2
/// - Max value: depending GATT database defined by user application
pub num_attr_serv: u16,
/// NOTE: This parameter is ignored by the CPU2 when the parameter "Options" is set to "LL_only" ( see Options description in that structure )
///
/// Size of the storage area for the attribute values.
/// Each characteristic contributes to the attrValueArrSize value as follows:
/// - Characteristic value length plus:
/// + 5 bytes if characteristic UUID is 16 bits
/// + 19 bytes if characteristic UUID is 128 bits
/// + 2 bytes if characteristic has a server configuration descriptor
/// + 2 bytes * NumOfLinks if the characteristic has a client configuration descriptor
/// + 2 bytes if the characteristic has extended properties
/// Each descriptor contributes to the attrValueArrSize value as follows:
/// - Descriptor length
pub attr_value_arr_size: u16,
/// Maximum number of BLE links supported
/// - Min value: 1
/// - Max value: 8
pub num_of_links: u8,
/// Disable/enable the extended packet length BLE 5.0 feature
/// - Disable: 0
/// - Enable: 1
pub extended_packet_length_enable: u8,
pub pr_write_list_size: u8,
pub mb_lock_count: u8,
/// NOTE: This parameter is ignored by the CPU2 when the parameter "Options" is set to "LL_only" ( see Options description in that structure )
///
/// Maximum number of supported "prepare write request"
/// - Min value: given by the macro DEFAULT_PREP_WRITE_LIST_SIZE
/// - Max value: a value higher than the minimum required can be specified, but it is not recommended
pub prepare_write_list_size: u8,
/// NOTE: This parameter is overwritten by the CPU2 with an hardcoded optimal value when the parameter "Options" is set to "LL_only"
/// ( see Options description in that structure )
///
/// Number of allocated memory blocks for the BLE stack
/// - Min value: given by the macro MBLOCKS_CALC
/// - Max value: a higher value can improve data throughput performance, but uses more memory
pub block_count: u8,
/// NOTE: This parameter is ignored by the CPU2 when the parameter "Options" is set to "LL_only" ( see Options description in that structure )
///
/// Maximum ATT MTU size supported
/// - Min value: 23
/// - Max value: 512
pub att_mtu: u16,
/// The sleep clock accuracy (ppm value) that used in BLE connected slave mode to calculate the window widening
/// (in combination with the sleep clock accuracy sent by master in CONNECT_REQ PDU),
/// refer to BLE 5.0 specifications - Vol 6 - Part B - chap 4.5.7 and 4.2.2
/// - Min value: 0
/// - Max value: 500 (worst possible admitted by specification)
pub slave_sca: u16,
/// The sleep clock accuracy handled in master mode. It is used to determine the connection and advertising events timing.
/// It is transmitted to the slave in CONNEC_REQ PDU used by the slave to calculate the window widening,
/// see SlaveSca and Bluetooth Core Specification v5.0 Vol 6 - Part B - chap 4.5.7 and 4.2.2
/// Possible values:
/// - 251 ppm to 500 ppm: 0
/// - 151 ppm to 250 ppm: 1
/// - 101 ppm to 150 ppm: 2
/// - 76 ppm to 100 ppm: 3
/// - 51 ppm to 75 ppm: 4
/// - 31 ppm to 50 ppm: 5
/// - 21 ppm to 30 ppm: 6
/// - 0 ppm to 20 ppm: 7
pub master_sca: u8,
/// Some information for Low speed clock mapped in bits field
/// - bit 0:
/// - 1: Calibration for the RF system wakeup clock source
/// - 0: No calibration for the RF system wakeup clock source
/// - bit 1:
/// - 1: STM32W5M Module device
/// - 0: Other devices as STM32WBxx SOC, STM32WB1M module
/// - bit 2:
/// - 1: HSE/1024 Clock config
/// - 0: LSE Clock config
pub ls_source: u8,
/// This parameter determines the maximum duration of a slave connection event. When this duration is reached the slave closes
/// the current connections event (whatever is the CE_length parameter specified by the master in HCI_CREATE_CONNECTION HCI command),
/// expressed in units of 625/256 µs (~2.44 µs)
/// - Min value: 0 (if 0 is specified, the master and slave perform only a single TX-RX exchange per connection event)
/// - Max value: 1638400 (4000 ms). A higher value can be specified (max 0xFFFFFFFF) but results in a maximum connection time
/// of 4000 ms as specified. In this case the parameter is not applied, and the predicted CE length calculated on slave is not shortened
pub max_conn_event_length: u32,
/// Startup time of the high speed (16 or 32 MHz) crystal oscillator in units of 625/256 µs (~2.44 µs).
/// - Min value: 0
/// - Max value: 820 (~2 ms). A higher value can be specified, but the value that implemented in stack is forced to ~2 ms
pub hs_startup_time: u16,
/// Viterbi implementation in BLE LL reception.
/// - 0: Enable
/// - 1: Disable
pub viterbi_enable: u8,
pub ll_only: u8,
/// - bit 0:
/// - 1: LL only
/// - 0: LL + host
/// - bit 1:
/// - 1: no service change desc.
/// - 0: with service change desc.
/// - bit 2:
/// - 1: device name Read-Only
/// - 0: device name R/W
/// - bit 3:
/// - 1: extended advertizing supported
/// - 0: extended advertizing not supported
/// - bit 4:
/// - 1: CS Algo #2 supported
/// - 0: CS Algo #2 not supported
/// - bit 5:
/// - 1: Reduced GATT database in NVM
/// - 0: Full GATT database in NVM
/// - bit 6:
/// - 1: GATT caching is used
/// - 0: GATT caching is not used
/// - bit 7:
/// - 1: LE Power Class 1
/// - 0: LE Power Classe 2-3
/// - other bits: complete with Options_extension flag
pub options: u8,
/// Reserved for future use - shall be set to 0
pub hw_version: u8,
// /**
// * Maximum number of connection-oriented channels in initiator mode.
// * Range: 0 .. 64
// */
// pub max_coc_initiator_nbr: u8,
//
// /**
// * Minimum transmit power in dBm supported by the Controller.
// * Range: -127 .. 20
// */
// pub min_tx_power: i8,
//
// /**
// * Maximum transmit power in dBm supported by the Controller.
// * Range: -127 .. 20
// */
// pub max_tx_power: i8,
//
// /**
// * RX model configuration
// * - bit 0: 1: agc_rssi model improved vs RF blockers 0: Legacy agc_rssi model
// * - other bits: reserved ( shall be set to 0)
// */
// pub rx_model_config: u8,
//
// /* Maximum number of advertising sets.
// * Range: 1 .. 8 with limitation:
// * This parameter is linked to max_adv_data_len such as both compliant with allocated Total memory computed with BLE_EXT_ADV_BUFFER_SIZE based
// * on Max Extended advertising configuration supported.
// * This parameter is considered by the CPU2 when Options has SHCI_C2_BLE_INIT_OPTIONS_EXT_ADV flag set
// */
// pub max_adv_set_nbr: u8,
//
// /* Maximum advertising data length (in bytes)
// * Range: 31 .. 1650 with limitation:
// * This parameter is linked to max_adv_set_nbr such as both compliant with allocated Total memory computed with BLE_EXT_ADV_BUFFER_SIZE based
// * on Max Extended advertising configuration supported.
// * This parameter is considered by the CPU2 when Options has SHCI_C2_BLE_INIT_OPTIONS_EXT_ADV flag set
// */
// pub max_adv_data_len: u16,
//
// /* RF TX Path Compensation Value (16-bit signed integer). Units: 0.1 dB.
// * Range: -1280 .. 1280
// */
// pub tx_path_compens: i16,
//
// /* RF RX Path Compensation Value (16-bit signed integer). Units: 0.1 dB.
// * Range: -1280 .. 1280
// */
// pub rx_path_compens: i16,
//
// /* BLE core specification version (8-bit unsigned integer).
// * values as: 11(5.2), 12(5.3)
// */
// pub ble_core_version: u8,
//
// /**
// * Options flags extension
// * - bit 0: 1: appearance Writable 0: appearance Read-Only
// * - bit 1: 1: Enhanced ATT supported 0: Enhanced ATT not supported
// * - other bits: reserved ( shall be set to 0)
// */
// pub options_extension: u8,
}
impl ShciBleInitCmdParam {
pub fn payload<'a>(&self) -> &'a [u8] {
pub fn payload<'a>(&'a self) -> &'a [u8] {
unsafe { slice::from_raw_parts(self as *const _ as *const u8, mem::size_of::<Self>()) }
}
}
@ -48,8 +355,8 @@ impl Default for ShciBleInitCmdParam {
attr_value_arr_size: 1344,
num_of_links: 2,
extended_packet_length_enable: 1,
pr_write_list_size: 0x3A,
mb_lock_count: 0x79,
prepare_write_list_size: 0x3A,
block_count: 0x79,
att_mtu: 156,
slave_sca: 500,
master_sca: 0,
@ -57,25 +364,12 @@ impl Default for ShciBleInitCmdParam {
max_conn_event_length: 0xFFFFFFFF,
hs_startup_time: 0x148,
viterbi_enable: 1,
ll_only: 0,
options: 0,
hw_version: 0,
}
}
}
#[derive(Debug, Clone, Copy, Default)]
#[repr(C, packed)]
pub struct ShciHeader {
metadata: [u32; 3],
}
#[derive(Debug, Clone, Copy)]
#[repr(C, packed)]
pub struct ShciBleInitCmdPacket {
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;

View File

@ -1,9 +1,11 @@
use core::marker::PhantomData;
use core::ptr;
use crate::cmd::CmdPacket;
use crate::consts::TlPacketType;
use crate::evt::EvtBox;
use crate::shci::{ShciBleInitCmdParam, SCHI_OPCODE_BLE_INIT};
use crate::evt::{CcEvt, EvtBox, EvtPacket};
#[allow(unused_imports)]
use crate::shci::{SchiCommandStatus, ShciBleInitCmdParam, ShciOpcode};
use crate::tables::{SysTable, WirelessFwInfoTable};
use crate::unsafe_linked_list::LinkedListNode;
use crate::{channels, Ipcc, SYSTEM_EVT_QUEUE, SYS_CMD_BUF, TL_DEVICE_INFO_TABLE, TL_SYS_TABLE};
@ -39,21 +41,35 @@ impl Sys {
}
}
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());
pub async fn write(&self, opcode: ShciOpcode, payload: &[u8]) {
Ipcc::send(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL, || unsafe {
CmdPacket::write_into(SYS_CMD_BUF.as_mut_ptr(), TlPacketType::SysCmd, opcode as u16, payload);
})
.await;
}
/// `HW_IPCC_SYS_CmdEvtNot`
pub async fn write_and_get_response(&self, opcode: ShciOpcode, payload: &[u8]) -> SchiCommandStatus {
self.write(opcode, payload).await;
Ipcc::flush(channels::cpu1::IPCC_SYSTEM_CMD_RSP_CHANNEL).await;
unsafe {
let p_event_packet = SYS_CMD_BUF.as_ptr() as *const EvtPacket;
let p_command_event = &((*p_event_packet).evt_serial.evt.payload) as *const _ as *const CcEvt;
let p_payload = &((*p_command_event).payload) as *const u8;
ptr::read_volatile(p_payload).try_into().unwrap()
}
}
#[cfg(feature = "mac")]
pub async fn shci_c2_mac_802_15_4_init(&self) -> SchiCommandStatus {
self.write_and_get_response(ShciOpcode::Mac802_15_4Init, &[]).await
}
#[cfg(feature = "ble")]
pub async fn shci_c2_ble_init(&self, param: ShciBleInitCmdParam) -> SchiCommandStatus {
self.write_and_get_response(ShciOpcode::BleInit, param.payload()).await
}
/// `HW_IPCC_SYS_EvtNot`

View File

@ -1,6 +1,9 @@
use core::mem::MaybeUninit;
use bit_field::BitField;
use crate::cmd::{AclDataPacket, CmdPacket};
use crate::consts::{POOL_SIZE, TL_CS_EVT_SIZE, TL_EVT_HEADER_SIZE, TL_PACKET_HEADER_SIZE};
use crate::unsafe_linked_list::LinkedListNode;
#[derive(Debug, Copy, Clone)]
@ -161,6 +164,9 @@ pub struct Mac802_15_4Table {
pub evt_queue: *const u8,
}
#[repr(C, align(4))]
pub struct AlignedData<const L: usize>([u8; L]);
/// Reference table. Contains pointers to all other tables.
#[derive(Debug, Copy, Clone)]
#[repr(C)]
@ -173,3 +179,94 @@ pub struct RefTable {
pub traces_table: *const TracesTable,
pub mac_802_15_4_table: *const Mac802_15_4Table,
}
// --------------------- ref table ---------------------
#[link_section = "TL_REF_TABLE"]
pub static mut TL_REF_TABLE: MaybeUninit<RefTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
pub static mut TL_DEVICE_INFO_TABLE: MaybeUninit<DeviceInfoTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
pub static mut TL_BLE_TABLE: MaybeUninit<BleTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
pub static mut TL_THREAD_TABLE: MaybeUninit<ThreadTable> = MaybeUninit::uninit();
// #[link_section = "MB_MEM1"]
// pub static mut TL_LLD_TESTS_TABLE: MaybeUninit<LldTestTable> = MaybeUninit::uninit();
// #[link_section = "MB_MEM1"]
// pub static mut TL_BLE_LLD_TABLE: MaybeUninit<BleLldTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
pub static mut TL_SYS_TABLE: MaybeUninit<SysTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
pub static mut TL_MEM_MANAGER_TABLE: MaybeUninit<MemManagerTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
pub static mut TL_TRACES_TABLE: MaybeUninit<TracesTable> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
pub static mut TL_MAC_802_15_4_TABLE: MaybeUninit<Mac802_15_4Table> = MaybeUninit::uninit();
// #[link_section = "MB_MEM1"]
// pub static mut TL_ZIGBEE_TABLE: MaybeUninit<ZigbeeTable> = MaybeUninit::uninit();
// --------------------- tables ---------------------
#[link_section = "MB_MEM1"]
pub static mut FREE_BUF_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
#[allow(dead_code)]
#[link_section = "MB_MEM1"]
pub static mut TRACES_EVT_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
const CS_BUFFER_SIZE: usize = TL_PACKET_HEADER_SIZE + TL_EVT_HEADER_SIZE + TL_CS_EVT_SIZE;
#[link_section = "MB_MEM2"]
pub static mut CS_BUFFER: MaybeUninit<AlignedData<CS_BUFFER_SIZE>> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
pub static mut EVT_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
pub static mut SYSTEM_EVT_QUEUE: MaybeUninit<LinkedListNode> = MaybeUninit::uninit();
// --------------------- app tables ---------------------
#[cfg(feature = "mac")]
#[link_section = "MB_MEM2"]
pub static mut MAC_802_15_4_CMD_BUFFER: MaybeUninit<CmdPacket> = MaybeUninit::uninit();
#[cfg(feature = "mac")]
const MAC_802_15_4_NOTIF_RSP_EVT_BUFFER_SIZE: usize = TL_PACKET_HEADER_SIZE + TL_EVT_HEADER_SIZE + 255;
#[cfg(feature = "mac")]
#[link_section = "MB_MEM2"]
pub static mut MAC_802_15_4_NOTIF_RSP_EVT_BUFFER: MaybeUninit<AlignedData<MAC_802_15_4_NOTIF_RSP_EVT_BUFFER_SIZE>> =
MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
pub static mut EVT_POOL: MaybeUninit<[u8; POOL_SIZE]> = MaybeUninit::uninit();
#[link_section = "MB_MEM2"]
pub static mut SYS_CMD_BUF: MaybeUninit<CmdPacket> = MaybeUninit::uninit();
const SYS_SPARE_EVT_BUF_SIZE: usize = TL_PACKET_HEADER_SIZE + TL_EVT_HEADER_SIZE + 255;
#[link_section = "MB_MEM2"]
pub static mut SYS_SPARE_EVT_BUF: MaybeUninit<AlignedData<SYS_SPARE_EVT_BUF_SIZE>> = MaybeUninit::uninit();
#[link_section = "MB_MEM1"]
pub static mut BLE_CMD_BUFFER: MaybeUninit<CmdPacket> = MaybeUninit::uninit();
const BLE_SPARE_EVT_BUF_SIZE: usize = TL_PACKET_HEADER_SIZE + TL_EVT_HEADER_SIZE + 255;
#[link_section = "MB_MEM2"]
pub static mut BLE_SPARE_EVT_BUF: MaybeUninit<AlignedData<BLE_SPARE_EVT_BUF_SIZE>> = MaybeUninit::uninit();
const HCI_ACL_DATA_BUFFER_SIZE: usize = TL_PACKET_HEADER_SIZE + 5 + 251;
#[link_section = "MB_MEM2"]
// fuck these "magic" numbers from ST ---v---v
pub static mut HCI_ACL_DATA_BUFFER: MaybeUninit<[u8; HCI_ACL_DATA_BUFFER_SIZE]> = MaybeUninit::uninit();

View File

@ -120,7 +120,6 @@ impl Ipcc {
let regs = IPCC::regs();
Self::flush(channel).await;
compiler_fence(Ordering::SeqCst);
f();
@ -187,7 +186,6 @@ impl Ipcc {
.await;
trace!("ipcc: ch {}: read data", channel as u8);
compiler_fence(Ordering::SeqCst);
match f() {
Some(ret) => return ret,
@ -237,7 +235,7 @@ pub(crate) mod sealed {
}
}
pub fn rx_waker_for(&self, channel: IpccChannel) -> &AtomicWaker {
pub const fn rx_waker_for(&self, channel: IpccChannel) -> &AtomicWaker {
match channel {
IpccChannel::Channel1 => &self.rx_wakers[0],
IpccChannel::Channel2 => &self.rx_wakers[1],
@ -248,7 +246,7 @@ pub(crate) mod sealed {
}
}
pub fn tx_waker_for(&self, channel: IpccChannel) -> &AtomicWaker {
pub const fn tx_waker_for(&self, channel: IpccChannel) -> &AtomicWaker {
match channel {
IpccChannel::Channel1 => &self.tx_wakers[0],
IpccChannel::Channel2 => &self.tx_wakers[1],

View File

@ -6,8 +6,24 @@ license = "MIT OR Apache-2.0"
[features]
default = ["nightly"]
nightly = ["embassy-executor/nightly", "embassy-nrf/nightly", "embassy-net/nightly", "embassy-nrf/unstable-traits", "embassy-time/nightly", "embassy-time/unstable-traits", "static_cell/nightly",
"embassy-usb", "embedded-io/async", "embassy-net", "embassy-lora", "lora-phy", "lorawan-device", "lorawan"]
nightly = [
"embedded-hal-async",
"embassy-executor/nightly",
"embassy-nrf/nightly",
"embassy-net/nightly",
"embassy-net-esp-hosted",
"embassy-nrf/unstable-traits",
"embassy-time/nightly",
"embassy-time/unstable-traits",
"static_cell/nightly",
"embassy-usb",
"embedded-io/async",
"embassy-net",
"embassy-lora",
"lora-phy",
"lorawan-device",
"lorawan",
]
[dependencies]
embassy-futures = { version = "0.1.0", path = "../../embassy-futures" }
@ -22,6 +38,7 @@ embassy-lora = { version = "0.1.0", path = "../../embassy-lora", features = ["ti
lora-phy = { version = "1", optional = true }
lorawan-device = { version = "0.10.0", default-features = false, features = ["async", "external-lora-phy"], optional = true }
lorawan = { version = "0.7.3", default-features = false, features = ["default-crypto"], optional = true }
embassy-net-esp-hosted = { version = "0.1.0", path = "../../embassy-net-esp-hosted", features = ["defmt"], optional = true }
defmt = "0.3"
defmt-rtt = "0.4"
@ -35,3 +52,4 @@ rand = { version = "0.8.4", default-features = false }
embedded-storage = "0.3.0"
usbd-hid = "0.6.0"
serde = { version = "1.0.136", default-features = false }
embedded-hal-async = { version = "0.2.0-alpha.1", optional = true }

View File

@ -0,0 +1,139 @@
#![no_std]
#![no_main]
#![feature(type_alias_impl_trait)]
use defmt::{info, unwrap, warn};
use embassy_executor::Spawner;
use embassy_net::tcp::TcpSocket;
use embassy_net::{Stack, StackResources};
use embassy_nrf::gpio::{AnyPin, Input, Level, Output, OutputDrive, Pin, Pull};
use embassy_nrf::rng::Rng;
use embassy_nrf::spim::{self, Spim};
use embassy_nrf::{bind_interrupts, peripherals};
use embedded_hal_async::spi::ExclusiveDevice;
use embedded_io::asynch::Write;
use static_cell::make_static;
use {defmt_rtt as _, embassy_net_esp_hosted as hosted, panic_probe as _};
bind_interrupts!(struct Irqs {
SPIM3 => spim::InterruptHandler<peripherals::SPI3>;
RNG => embassy_nrf::rng::InterruptHandler<peripherals::RNG>;
});
#[embassy_executor::task]
async fn wifi_task(
runner: hosted::Runner<
'static,
ExclusiveDevice<Spim<'static, peripherals::SPI3>, Output<'static, peripherals::P0_31>>,
Input<'static, AnyPin>,
Output<'static, peripherals::P1_05>,
>,
) -> ! {
runner.run().await
}
#[embassy_executor::task]
async fn net_task(stack: &'static Stack<hosted::NetDriver<'static>>) -> ! {
stack.run().await
}
#[embassy_executor::main]
async fn main(spawner: Spawner) {
info!("Hello World!");
let p = embassy_nrf::init(Default::default());
let miso = p.P0_28;
let sck = p.P0_29;
let mosi = p.P0_30;
let cs = Output::new(p.P0_31, Level::High, OutputDrive::HighDrive);
let handshake = Input::new(p.P1_01.degrade(), Pull::Up);
let ready = Input::new(p.P1_04.degrade(), Pull::None);
let reset = Output::new(p.P1_05, Level::Low, OutputDrive::Standard);
let mut config = spim::Config::default();
config.frequency = spim::Frequency::M32;
config.mode = spim::MODE_2; // !!!
let spi = spim::Spim::new(p.SPI3, Irqs, sck, miso, mosi, config);
let spi = ExclusiveDevice::new(spi, cs);
let (device, mut control, runner) = embassy_net_esp_hosted::new(
make_static!(embassy_net_esp_hosted::State::new()),
spi,
handshake,
ready,
reset,
)
.await;
unwrap!(spawner.spawn(wifi_task(runner)));
control.init().await;
control.join(env!("WIFI_NETWORK"), env!("WIFI_PASSWORD")).await;
let config = embassy_net::Config::dhcpv4(Default::default());
// let config = embassy_net::Config::ipv4_static(embassy_net::StaticConfigV4 {
// address: Ipv4Cidr::new(Ipv4Address::new(10, 42, 0, 61), 24),
// dns_servers: Vec::new(),
// gateway: Some(Ipv4Address::new(10, 42, 0, 1)),
// });
// Generate random seed
let mut rng = Rng::new(p.RNG, Irqs);
let mut seed = [0; 8];
rng.blocking_fill_bytes(&mut seed);
let seed = u64::from_le_bytes(seed);
// Init network stack
let stack = &*make_static!(Stack::new(
device,
config,
make_static!(StackResources::<2>::new()),
seed
));
unwrap!(spawner.spawn(net_task(stack)));
// And now we can use it!
let mut rx_buffer = [0; 4096];
let mut tx_buffer = [0; 4096];
let mut buf = [0; 4096];
loop {
let mut socket = TcpSocket::new(stack, &mut rx_buffer, &mut tx_buffer);
socket.set_timeout(Some(embassy_time::Duration::from_secs(10)));
info!("Listening on TCP:1234...");
if let Err(e) = socket.accept(1234).await {
warn!("accept error: {:?}", e);
continue;
}
info!("Received connection from {:?}", socket.remote_endpoint());
loop {
let n = match socket.read(&mut buf).await {
Ok(0) => {
warn!("read EOF");
break;
}
Ok(n) => n,
Err(e) => {
warn!("read error: {:?}", e);
break;
}
};
info!("rxd {:02x}", &buf[..n]);
match socket.write_all(&buf[..n]).await {
Ok(()) => {}
Err(e) => {
warn!("write error: {:?}", e);
break;
}
};
}
}
}

View File

@ -1,6 +1,6 @@
[target.'cfg(all(target_arch = "arm", target_os = "none"))']
# replace STM32WB55CCUx with your chip as listed in `probe-rs-cli chip list`
# runner = "probe-rs-cli run --chip STM32WB55CCUx --speed 1000 --connect-under-reset"
# runner = "probe-rs-cli run --chip STM32WB55RGVx --speed 1000 --connect-under-reset"
runner = "teleprobe local run --chip STM32WB55RG --elf"
[build]

View File

@ -20,3 +20,24 @@ embedded-hal = "0.2.6"
panic-probe = { version = "0.3", features = ["print-defmt"] }
futures = { version = "0.3.17", default-features = false, features = ["async-await"] }
heapless = { version = "0.7.5", default-features = false }
[features]
default = ["ble"]
mac = ["embassy-stm32-wpan/mac"]
ble = ["embassy-stm32-wpan/ble"]
[[bin]]
name = "tl_mbox_ble"
required-features = ["ble"]
[[bin]]
name = "tl_mbox_mac"
required-features = ["mac"]
[[bin]]
name = "eddystone_beacon"
required-features = ["ble"]
[patch.crates-io]
stm32wb-hci = { git = "https://github.com/OueslatiGhaith/stm32wb-hci", rev = "9f663be"}

View File

@ -0,0 +1,249 @@
#![no_std]
#![no_main]
#![feature(type_alias_impl_trait)]
use core::time::Duration;
use defmt::*;
use embassy_executor::Spawner;
use embassy_stm32::bind_interrupts;
use embassy_stm32::ipcc::{Config, ReceiveInterruptHandler, TransmitInterruptHandler};
use embassy_stm32_wpan::ble::hci::host::uart::UartHci;
use embassy_stm32_wpan::ble::hci::host::{AdvertisingFilterPolicy, EncryptionKey, HostHci, OwnAddressType};
use embassy_stm32_wpan::ble::hci::types::AdvertisingType;
use embassy_stm32_wpan::ble::hci::vendor::stm32wb::command::gap::{
AdvertisingDataType, DiscoverableParameters, GapCommands, Role,
};
use embassy_stm32_wpan::ble::hci::vendor::stm32wb::command::gatt::GattCommands;
use embassy_stm32_wpan::ble::hci::vendor::stm32wb::command::hal::{ConfigData, HalCommands, PowerLevel};
use embassy_stm32_wpan::ble::hci::BdAddr;
use embassy_stm32_wpan::lhci::LhciC1DeviceInformationCcrp;
use embassy_stm32_wpan::TlMbox;
use {defmt_rtt as _, panic_probe as _};
bind_interrupts!(struct Irqs{
IPCC_C1_RX => ReceiveInterruptHandler;
IPCC_C1_TX => TransmitInterruptHandler;
});
const BLE_GAP_DEVICE_NAME_LENGTH: u8 = 7;
#[embassy_executor::main]
async fn main(_spawner: Spawner) {
/*
How to make this work:
- Obtain a NUCLEO-STM32WB55 from your preferred supplier.
- Download and Install STM32CubeProgrammer.
- Download stm32wb5x_FUS_fw.bin, stm32wb5x_BLE_Stack_full_fw.bin, and Release_Notes.html from
gh:STMicroelectronics/STM32CubeWB@2234d97/Projects/STM32WB_Copro_Wireless_Binaries/STM32WB5x
- Open STM32CubeProgrammer
- On the right-hand pane, click "firmware upgrade" to upgrade the st-link firmware.
- Once complete, click connect to connect to the device.
- On the left hand pane, click the RSS signal icon to open "Firmware Upgrade Services".
- In the Release_Notes.html, find the memory address that corresponds to your device for the stm32wb5x_FUS_fw.bin file
- Select that file, the memory address, "verify download", and then "Firmware Upgrade".
- Once complete, in the Release_Notes.html, find the memory address that corresponds to your device for the
stm32wb5x_BLE_Stack_full_fw.bin file. It should not be the same memory address.
- Select that file, the memory address, "verify download", and then "Firmware Upgrade".
- Select "Start Wireless Stack".
- Disconnect from the device.
- In the examples folder for stm32wb, modify the memory.x file to match your target device.
- Run this example.
Note: extended stack versions are not supported at this time. Do not attempt to install a stack with "extended" in the name.
*/
let p = embassy_stm32::init(Default::default());
info!("Hello World!");
let config = Config::default();
let mut mbox = TlMbox::init(p.IPCC, Irqs, config);
let sys_event = mbox.sys_subsystem.read().await;
info!("sys event: {}", sys_event.payload());
mbox.sys_subsystem.shci_c2_ble_init(Default::default()).await;
info!("resetting BLE...");
mbox.ble_subsystem.reset().await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("config public address...");
mbox.ble_subsystem
.write_config_data(&ConfigData::public_address(get_bd_addr()).build())
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("config random address...");
mbox.ble_subsystem
.write_config_data(&ConfigData::random_address(get_random_addr()).build())
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("config identity root...");
mbox.ble_subsystem
.write_config_data(&ConfigData::identity_root(&get_irk()).build())
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("config encryption root...");
mbox.ble_subsystem
.write_config_data(&ConfigData::encryption_root(&get_erk()).build())
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("config tx power level...");
mbox.ble_subsystem.set_tx_power_level(PowerLevel::ZerodBm).await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("GATT init...");
mbox.ble_subsystem.init_gatt().await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("GAP init...");
mbox.ble_subsystem
.init_gap(Role::PERIPHERAL, false, BLE_GAP_DEVICE_NAME_LENGTH)
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
// info!("set scan response...");
// mbox.ble_subsystem.le_set_scan_response_data(&[]).await.unwrap();
// let response = mbox.ble_subsystem.read().await.unwrap();
// defmt::info!("{}", response);
info!("set discoverable...");
mbox.ble_subsystem
.set_discoverable(&DiscoverableParameters {
advertising_type: AdvertisingType::NonConnectableUndirected,
advertising_interval: Some((Duration::from_millis(250), Duration::from_millis(250))),
address_type: OwnAddressType::Public,
filter_policy: AdvertisingFilterPolicy::AllowConnectionAndScan,
local_name: None,
advertising_data: &[],
conn_interval: (None, None),
})
.await
.unwrap();
let response = mbox.ble_subsystem.read().await;
defmt::info!("{}", response);
// remove some advertisement to decrease the packet size
info!("delete tx power ad type...");
mbox.ble_subsystem
.delete_ad_type(AdvertisingDataType::TxPowerLevel)
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("delete conn interval ad type...");
mbox.ble_subsystem
.delete_ad_type(AdvertisingDataType::PeripheralConnectionInterval)
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("update advertising data...");
mbox.ble_subsystem
.update_advertising_data(&eddystone_advertising_data())
.await
.unwrap();
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("update advertising data type...");
mbox.ble_subsystem
.update_advertising_data(&[3, AdvertisingDataType::UuidCompleteList16 as u8, 0xaa, 0xfe])
.await
.unwrap();
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
info!("update advertising data flags...");
mbox.ble_subsystem
.update_advertising_data(&[
2,
AdvertisingDataType::Flags as u8,
(0x02 | 0x04) as u8, // BLE general discoverable, without BR/EDR support
])
.await
.unwrap();
let response = mbox.ble_subsystem.read().await.unwrap();
defmt::info!("{}", response);
cortex_m::asm::wfi();
}
fn get_bd_addr() -> BdAddr {
let mut bytes = [0u8; 6];
let lhci_info = LhciC1DeviceInformationCcrp::new();
bytes[0] = (lhci_info.uid64 & 0xff) as u8;
bytes[1] = ((lhci_info.uid64 >> 8) & 0xff) as u8;
bytes[2] = ((lhci_info.uid64 >> 16) & 0xff) as u8;
bytes[3] = lhci_info.device_type_id;
bytes[4] = (lhci_info.st_company_id & 0xff) as u8;
bytes[5] = (lhci_info.st_company_id >> 8 & 0xff) as u8;
BdAddr(bytes)
}
fn get_random_addr() -> BdAddr {
let mut bytes = [0u8; 6];
let lhci_info = LhciC1DeviceInformationCcrp::new();
bytes[0] = (lhci_info.uid64 & 0xff) as u8;
bytes[1] = ((lhci_info.uid64 >> 8) & 0xff) as u8;
bytes[2] = ((lhci_info.uid64 >> 16) & 0xff) as u8;
bytes[3] = 0;
bytes[4] = 0x6E;
bytes[5] = 0xED;
BdAddr(bytes)
}
const BLE_CFG_IRK: [u8; 16] = [
0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xf0, 0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xf0,
];
const BLE_CFG_ERK: [u8; 16] = [
0xfe, 0xdc, 0xba, 0x09, 0x87, 0x65, 0x43, 0x21, 0xfe, 0xdc, 0xba, 0x09, 0x87, 0x65, 0x43, 0x21,
];
fn get_irk() -> EncryptionKey {
EncryptionKey(BLE_CFG_IRK)
}
fn get_erk() -> EncryptionKey {
EncryptionKey(BLE_CFG_ERK)
}
fn eddystone_advertising_data() -> [u8; 24] {
const EDDYSTONE_URL: &[u8] = b"www.rust-lang.com";
let mut service_data = [0u8; 24];
let url_len = EDDYSTONE_URL.len();
service_data[0] = 6 + url_len as u8;
service_data[1] = AdvertisingDataType::ServiceData as u8;
// 16-bit eddystone uuid
service_data[2] = 0xaa;
service_data[3] = 0xFE;
service_data[4] = 0x10; // URL frame type
service_data[5] = 22_i8 as u8; // calibrated TX power at 0m
service_data[6] = 0x03; // eddystone url prefix = https
service_data[7..(7 + url_len)].copy_from_slice(EDDYSTONE_URL);
service_data
}

View File

@ -52,10 +52,10 @@ async fn main(_spawner: Spawner) {
mbox.sys_subsystem.shci_c2_ble_init(Default::default()).await;
info!("starting ble...");
mbox.ble_subsystem.write(0x0c, &[]).await;
mbox.ble_subsystem.tl_write(0x0c, &[]).await;
info!("waiting for ble...");
let ble_event = mbox.ble_subsystem.read().await;
let ble_event = mbox.ble_subsystem.tl_read().await;
info!("ble event: {}", ble_event.payload());

View File

@ -0,0 +1,64 @@
#![no_std]
#![no_main]
#![feature(type_alias_impl_trait)]
use defmt::*;
use embassy_executor::Spawner;
use embassy_stm32::bind_interrupts;
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 => ReceiveInterruptHandler;
IPCC_C1_TX => TransmitInterruptHandler;
});
#[embassy_executor::main]
async fn main(_spawner: Spawner) {
/*
How to make this work:
- Obtain a NUCLEO-STM32WB55 from your preferred supplier.
- Download and Install STM32CubeProgrammer.
- Download stm32wb5x_FUS_fw.bin, stm32wb5x_BLE_Stack_full_fw.bin, and Release_Notes.html from
gh:STMicroelectronics/STM32CubeWB@2234d97/Projects/STM32WB_Copro_Wireless_Binaries/STM32WB5x
- Open STM32CubeProgrammer
- On the right-hand pane, click "firmware upgrade" to upgrade the st-link firmware.
- Once complete, click connect to connect to the device.
- On the left hand pane, click the RSS signal icon to open "Firmware Upgrade Services".
- In the Release_Notes.html, find the memory address that corresponds to your device for the stm32wb5x_FUS_fw.bin file
- Select that file, the memory address, "verify download", and then "Firmware Upgrade".
- Once complete, in the Release_Notes.html, find the memory address that corresponds to your device for the
stm32wb5x_BLE_Stack_full_fw.bin file. It should not be the same memory address.
- Select that file, the memory address, "verify download", and then "Firmware Upgrade".
- Select "Start Wireless Stack".
- Disconnect from the device.
- In the examples folder for stm32wb, modify the memory.x file to match your target device.
- Run this example.
Note: extended stack versions are not supported at this time. Do not attempt to install a stack with "extended" in the name.
*/
let p = embassy_stm32::init(Default::default());
info!("Hello World!");
let config = Config::default();
let mbox = TlMbox::init(p.IPCC, Irqs, config);
let sys_event = mbox.sys_subsystem.read().await;
info!("sys event: {}", sys_event.payload());
mbox.sys_subsystem.shci_c2_mac_802_15_4_init().await;
//
// info!("starting ble...");
// mbox.ble_subsystem.t_write(0x0c, &[]).await;
//
// info!("waiting for ble...");
// let ble_event = mbox.ble_subsystem.tl_read().await;
//
// info!("ble event: {}", ble_event.payload());
info!("Test OK");
cortex_m::asm::bkpt();
}

View File

@ -13,6 +13,10 @@ embassy-executor = { version = "0.2.0", path = "../../embassy-executor", feature
embassy-time = { version = "0.1.0", path = "../../embassy-time", features = ["defmt", "nightly", "defmt-timestamp-uptime"] }
embassy-nrf = { version = "0.1.0", path = "../../embassy-nrf", features = ["defmt", "nightly", "unstable-traits", "nrf52840", "time-driver-rtc1", "gpiote", "unstable-pac"] }
embedded-io = { version = "0.4.0", features = ["async"] }
embassy-net = { version = "0.1.0", path = "../../embassy-net", features = ["defmt", "tcp", "dhcpv4", "medium-ethernet", "nightly"] }
embassy-net-esp-hosted = { version = "0.1.0", path = "../../embassy-net-esp-hosted", features = ["defmt"] }
embedded-hal-async = { version = "0.2.0-alpha.1" }
static_cell = { version = "1.1", features = [ "nightly" ] }
defmt = "0.3"
defmt-rtt = "0.4"

View File

@ -0,0 +1,270 @@
#![no_std]
#![no_main]
#![feature(type_alias_impl_trait)]
#[path = "../common.rs"]
mod common;
use defmt::{error, info, unwrap};
use embassy_executor::Spawner;
use embassy_futures::join::join;
use embassy_net::tcp::TcpSocket;
use embassy_net::{Config, Ipv4Address, Stack, StackResources};
use embassy_nrf::gpio::{AnyPin, Input, Level, Output, OutputDrive, Pin, Pull};
use embassy_nrf::rng::Rng;
use embassy_nrf::spim::{self, Spim};
use embassy_nrf::{bind_interrupts, peripherals};
use embassy_time::{with_timeout, Duration, Timer};
use embedded_hal_async::spi::ExclusiveDevice;
use static_cell::make_static;
use {defmt_rtt as _, embassy_net_esp_hosted as hosted, panic_probe as _};
teleprobe_meta::timeout!(120);
bind_interrupts!(struct Irqs {
SPIM3 => spim::InterruptHandler<peripherals::SPI3>;
RNG => embassy_nrf::rng::InterruptHandler<peripherals::RNG>;
});
#[embassy_executor::task]
async fn wifi_task(
runner: hosted::Runner<
'static,
ExclusiveDevice<Spim<'static, peripherals::SPI3>, Output<'static, peripherals::P0_31>>,
Input<'static, AnyPin>,
Output<'static, peripherals::P1_05>,
>,
) -> ! {
runner.run().await
}
type MyDriver = hosted::NetDriver<'static>;
#[embassy_executor::task]
async fn net_task(stack: &'static Stack<MyDriver>) -> ! {
stack.run().await
}
#[embassy_executor::main]
async fn main(spawner: Spawner) {
info!("Hello World!");
let p = embassy_nrf::init(Default::default());
let miso = p.P0_28;
let sck = p.P0_29;
let mosi = p.P0_30;
let cs = Output::new(p.P0_31, Level::High, OutputDrive::HighDrive);
let handshake = Input::new(p.P1_01.degrade(), Pull::Up);
let ready = Input::new(p.P1_04.degrade(), Pull::None);
let reset = Output::new(p.P1_05, Level::Low, OutputDrive::Standard);
let mut config = spim::Config::default();
config.frequency = spim::Frequency::M32;
config.mode = spim::MODE_2; // !!!
let spi = spim::Spim::new(p.SPI3, Irqs, sck, miso, mosi, config);
let spi = ExclusiveDevice::new(spi, cs);
let (device, mut control, runner) = embassy_net_esp_hosted::new(
make_static!(embassy_net_esp_hosted::State::new()),
spi,
handshake,
ready,
reset,
)
.await;
unwrap!(spawner.spawn(wifi_task(runner)));
control.init().await;
control.join(WIFI_NETWORK, WIFI_PASSWORD).await;
// Generate random seed
let mut rng = Rng::new(p.RNG, Irqs);
let mut seed = [0; 8];
rng.blocking_fill_bytes(&mut seed);
let seed = u64::from_le_bytes(seed);
// Init network stack
let stack = &*make_static!(Stack::new(
device,
Config::dhcpv4(Default::default()),
make_static!(StackResources::<2>::new()),
seed
));
unwrap!(spawner.spawn(net_task(stack)));
info!("Waiting for DHCP up...");
while stack.config_v4().is_none() {
Timer::after(Duration::from_millis(100)).await;
}
info!("IP addressing up!");
let down = test_download(stack).await;
let up = test_upload(stack).await;
let updown = test_upload_download(stack).await;
assert!(down > TEST_EXPECTED_DOWNLOAD_KBPS);
assert!(up > TEST_EXPECTED_UPLOAD_KBPS);
assert!(updown > TEST_EXPECTED_UPLOAD_DOWNLOAD_KBPS);
info!("Test OK");
cortex_m::asm::bkpt();
}
// Test-only wifi network, no internet access!
const WIFI_NETWORK: &str = "EmbassyTest";
const WIFI_PASSWORD: &str = "V8YxhKt5CdIAJFud";
const TEST_DURATION: usize = 10;
const TEST_EXPECTED_DOWNLOAD_KBPS: usize = 150;
const TEST_EXPECTED_UPLOAD_KBPS: usize = 150;
const TEST_EXPECTED_UPLOAD_DOWNLOAD_KBPS: usize = 150;
const RX_BUFFER_SIZE: usize = 4096;
const TX_BUFFER_SIZE: usize = 4096;
const SERVER_ADDRESS: Ipv4Address = Ipv4Address::new(192, 168, 2, 2);
const DOWNLOAD_PORT: u16 = 4321;
const UPLOAD_PORT: u16 = 4322;
const UPLOAD_DOWNLOAD_PORT: u16 = 4323;
async fn test_download(stack: &'static Stack<MyDriver>) -> usize {
info!("Testing download...");
let mut rx_buffer = [0; RX_BUFFER_SIZE];
let mut tx_buffer = [0; TX_BUFFER_SIZE];
let mut socket = TcpSocket::new(stack, &mut rx_buffer, &mut tx_buffer);
socket.set_timeout(Some(Duration::from_secs(10)));
info!("connecting to {:?}:{}...", SERVER_ADDRESS, DOWNLOAD_PORT);
if let Err(e) = socket.connect((SERVER_ADDRESS, DOWNLOAD_PORT)).await {
error!("connect error: {:?}", e);
return 0;
}
info!("connected, testing...");
let mut rx_buf = [0; 4096];
let mut total: usize = 0;
with_timeout(Duration::from_secs(TEST_DURATION as _), async {
loop {
match socket.read(&mut rx_buf).await {
Ok(0) => {
error!("read EOF");
return 0;
}
Ok(n) => total += n,
Err(e) => {
error!("read error: {:?}", e);
return 0;
}
}
}
})
.await
.ok();
let kbps = (total + 512) / 1024 / TEST_DURATION;
info!("download: {} kB/s", kbps);
kbps
}
async fn test_upload(stack: &'static Stack<MyDriver>) -> usize {
info!("Testing upload...");
let mut rx_buffer = [0; RX_BUFFER_SIZE];
let mut tx_buffer = [0; TX_BUFFER_SIZE];
let mut socket = TcpSocket::new(stack, &mut rx_buffer, &mut tx_buffer);
socket.set_timeout(Some(Duration::from_secs(10)));
info!("connecting to {:?}:{}...", SERVER_ADDRESS, UPLOAD_PORT);
if let Err(e) = socket.connect((SERVER_ADDRESS, UPLOAD_PORT)).await {
error!("connect error: {:?}", e);
return 0;
}
info!("connected, testing...");
let buf = [0; 4096];
let mut total: usize = 0;
with_timeout(Duration::from_secs(TEST_DURATION as _), async {
loop {
match socket.write(&buf).await {
Ok(0) => {
error!("write zero?!??!?!");
return 0;
}
Ok(n) => total += n,
Err(e) => {
error!("write error: {:?}", e);
return 0;
}
}
}
})
.await
.ok();
let kbps = (total + 512) / 1024 / TEST_DURATION;
info!("upload: {} kB/s", kbps);
kbps
}
async fn test_upload_download(stack: &'static Stack<MyDriver>) -> usize {
info!("Testing upload+download...");
let mut rx_buffer = [0; RX_BUFFER_SIZE];
let mut tx_buffer = [0; TX_BUFFER_SIZE];
let mut socket = TcpSocket::new(stack, &mut rx_buffer, &mut tx_buffer);
socket.set_timeout(Some(Duration::from_secs(10)));
info!("connecting to {:?}:{}...", SERVER_ADDRESS, UPLOAD_DOWNLOAD_PORT);
if let Err(e) = socket.connect((SERVER_ADDRESS, UPLOAD_DOWNLOAD_PORT)).await {
error!("connect error: {:?}", e);
return 0;
}
info!("connected, testing...");
let (mut reader, mut writer) = socket.split();
let tx_buf = [0; 4096];
let mut rx_buf = [0; 4096];
let mut total: usize = 0;
let tx_fut = async {
loop {
match writer.write(&tx_buf).await {
Ok(0) => {
error!("write zero?!??!?!");
return 0;
}
Ok(_) => {}
Err(e) => {
error!("write error: {:?}", e);
return 0;
}
}
}
};
let rx_fut = async {
loop {
match reader.read(&mut rx_buf).await {
Ok(0) => {
error!("read EOF");
return 0;
}
Ok(n) => total += n,
Err(e) => {
error!("read error: {:?}", e);
return 0;
}
}
}
};
with_timeout(Duration::from_secs(TEST_DURATION as _), join(tx_fut, rx_fut))
.await
.ok();
let kbps = (total + 512) / 1024 / TEST_DURATION;
info!("upload+download: {} kB/s", kbps);
kbps
}

View File

@ -63,20 +63,13 @@ async fn main(spawner: Spawner) {
.set_power_management(cyw43::PowerManagementMode::PowerSave)
.await;
let config = Config::dhcpv4(Default::default());
//let config = embassy_net::Config::Static(embassy_net::Config {
// address: Ipv4Cidr::new(Ipv4Address::new(192, 168, 69, 2), 24),
// dns_servers: Vec::new(),
// gateway: Some(Ipv4Address::new(192, 168, 69, 1)),
//});
// Generate random seed
let seed = 0x0123_4567_89ab_cdef; // chosen by fair dice roll. guarenteed to be random.
// Init network stack
let stack = &*make_static!(Stack::new(
net_device,
config,
Config::dhcpv4(Default::default()),
make_static!(StackResources::<2>::new()),
seed
));

View File

@ -30,7 +30,7 @@ embassy-executor = { version = "0.2.0", path = "../../embassy-executor", feature
embassy-time = { version = "0.1.0", path = "../../embassy-time", features = ["defmt", "tick-hz-32_768", "defmt-timestamp-uptime"] }
embassy-stm32 = { version = "0.1.0", path = "../../embassy-stm32", features = ["nightly", "defmt", "unstable-pac", "memory-x", "time-driver-any"] }
embassy-futures = { version = "0.1.0", path = "../../embassy-futures" }
embassy-stm32-wpan = { version = "0.1.0", path = "../../embassy-stm32-wpan", optional = true, features = ["defmt", "stm32wb55rg"] }
embassy-stm32-wpan = { version = "0.1.0", path = "../../embassy-stm32-wpan", optional = true, features = ["defmt", "stm32wb55rg", "ble"] }
defmt = "0.3.0"
defmt-rtt = "0.4"
@ -46,6 +46,9 @@ rand_chacha = { version = "0.3", default-features = false }
chrono = { version = "^0.4", default-features = false, optional = true}
[patch.crates-io]
stm32wb-hci = { git = "https://github.com/OueslatiGhaith/stm32wb-hci", rev = "9f663be"}
# BEGIN TESTS
# Generated by gen_test.py. DO NOT EDIT.
[[bin]]

View File

@ -6,43 +6,49 @@
#[path = "../common.rs"]
mod common;
use core::mem;
use core::time::Duration;
use common::*;
use embassy_executor::Spawner;
use embassy_futures::poll_once;
use embassy_stm32::bind_interrupts;
use embassy_stm32::ipcc::{Config, ReceiveInterruptHandler, TransmitInterruptHandler};
use embassy_stm32_wpan::ble::hci::host::uart::UartHci;
use embassy_stm32_wpan::ble::hci::host::{AdvertisingFilterPolicy, EncryptionKey, HostHci, OwnAddressType};
use embassy_stm32_wpan::ble::hci::types::AdvertisingType;
use embassy_stm32_wpan::ble::hci::vendor::stm32wb::command::gap::{
AdvertisingDataType, DiscoverableParameters, GapCommands, Role,
};
use embassy_stm32_wpan::ble::hci::vendor::stm32wb::command::gatt::GattCommands;
use embassy_stm32_wpan::ble::hci::vendor::stm32wb::command::hal::{ConfigData, HalCommands, PowerLevel};
use embassy_stm32_wpan::ble::hci::BdAddr;
use embassy_stm32_wpan::lhci::LhciC1DeviceInformationCcrp;
use embassy_stm32_wpan::{mm, TlMbox};
use embassy_time::{Duration, Timer};
use {defmt_rtt as _, panic_probe as _};
bind_interrupts!(struct Irqs{
IPCC_C1_RX => ReceiveInterruptHandler;
IPCC_C1_TX => TransmitInterruptHandler;
});
const BLE_GAP_DEVICE_NAME_LENGTH: u8 = 7;
#[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);
let mut mbox = TlMbox::init(p.IPCC, Irqs, config);
spawner.spawn(run_mm_queue(mbox.mm_subsystem)).unwrap();
// 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 sys_event = mbox.sys_subsystem.read().await;
info!("sys event: {}", sys_event.payload());
let fw_info = mbox.sys_subsystem.wireless_fw_info().unwrap();
let version_major = fw_info.version_major();
@ -57,19 +63,188 @@ async fn main(spawner: Spawner) {
version_major, version_minor, subversion, sram2a_size, sram2b_size
);
Timer::after(Duration::from_millis(50)).await;
mbox.sys_subsystem.shci_c2_ble_init(Default::default()).await;
info!("starting ble...");
mbox.ble_subsystem.write(0x0c, &[]).await;
info!("resetting BLE...");
mbox.ble_subsystem.reset().await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("waiting for ble...");
let ble_event = mbox.ble_subsystem.read().await;
info!("config public address...");
mbox.ble_subsystem
.write_config_data(&ConfigData::public_address(get_bd_addr()).build())
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("ble event: {}", ble_event.payload());
info!("config random address...");
mbox.ble_subsystem
.write_config_data(&ConfigData::random_address(get_random_addr()).build())
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("config identity root...");
mbox.ble_subsystem
.write_config_data(&ConfigData::identity_root(&get_irk()).build())
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("config encryption root...");
mbox.ble_subsystem
.write_config_data(&ConfigData::encryption_root(&get_erk()).build())
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("config tx power level...");
mbox.ble_subsystem.set_tx_power_level(PowerLevel::ZerodBm).await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("GATT init...");
mbox.ble_subsystem.init_gatt().await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("GAP init...");
mbox.ble_subsystem
.init_gap(Role::PERIPHERAL, false, BLE_GAP_DEVICE_NAME_LENGTH)
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
// info!("set scan response...");
// mbox.ble_subsystem.le_set_scan_response_data(&[]).await.unwrap();
// let response = mbox.ble_subsystem.read().await.unwrap();
// info!("{}", response);
info!("set discoverable...");
mbox.ble_subsystem
.set_discoverable(&DiscoverableParameters {
advertising_type: AdvertisingType::NonConnectableUndirected,
advertising_interval: Some((Duration::from_millis(250), Duration::from_millis(250))),
address_type: OwnAddressType::Public,
filter_policy: AdvertisingFilterPolicy::AllowConnectionAndScan,
local_name: None,
advertising_data: &[],
conn_interval: (None, None),
})
.await
.unwrap();
let response = mbox.ble_subsystem.read().await;
info!("{}", response);
// remove some advertisement to decrease the packet size
info!("delete tx power ad type...");
mbox.ble_subsystem
.delete_ad_type(AdvertisingDataType::TxPowerLevel)
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("delete conn interval ad type...");
mbox.ble_subsystem
.delete_ad_type(AdvertisingDataType::PeripheralConnectionInterval)
.await;
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("update advertising data...");
mbox.ble_subsystem
.update_advertising_data(&eddystone_advertising_data())
.await
.unwrap();
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("update advertising data type...");
mbox.ble_subsystem
.update_advertising_data(&[3, AdvertisingDataType::UuidCompleteList16 as u8, 0xaa, 0xfe])
.await
.unwrap();
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
info!("update advertising data flags...");
mbox.ble_subsystem
.update_advertising_data(&[
2,
AdvertisingDataType::Flags as u8,
(0x02 | 0x04) as u8, // BLE general discoverable, without BR/EDR support
])
.await
.unwrap();
let response = mbox.ble_subsystem.read().await.unwrap();
info!("{}", response);
Timer::after(Duration::from_millis(150)).await;
info!("Test OK");
cortex_m::asm::bkpt();
}
fn get_bd_addr() -> BdAddr {
let mut bytes = [0u8; 6];
let lhci_info = LhciC1DeviceInformationCcrp::new();
bytes[0] = (lhci_info.uid64 & 0xff) as u8;
bytes[1] = ((lhci_info.uid64 >> 8) & 0xff) as u8;
bytes[2] = ((lhci_info.uid64 >> 16) & 0xff) as u8;
bytes[3] = lhci_info.device_type_id;
bytes[4] = (lhci_info.st_company_id & 0xff) as u8;
bytes[5] = (lhci_info.st_company_id >> 8 & 0xff) as u8;
BdAddr(bytes)
}
fn get_random_addr() -> BdAddr {
let mut bytes = [0u8; 6];
let lhci_info = LhciC1DeviceInformationCcrp::new();
bytes[0] = (lhci_info.uid64 & 0xff) as u8;
bytes[1] = ((lhci_info.uid64 >> 8) & 0xff) as u8;
bytes[2] = ((lhci_info.uid64 >> 16) & 0xff) as u8;
bytes[3] = 0;
bytes[4] = 0x6E;
bytes[5] = 0xED;
BdAddr(bytes)
}
const BLE_CFG_IRK: [u8; 16] = [
0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xf0, 0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xf0,
];
const BLE_CFG_ERK: [u8; 16] = [
0xfe, 0xdc, 0xba, 0x09, 0x87, 0x65, 0x43, 0x21, 0xfe, 0xdc, 0xba, 0x09, 0x87, 0x65, 0x43, 0x21,
];
fn get_irk() -> EncryptionKey {
EncryptionKey(BLE_CFG_IRK)
}
fn get_erk() -> EncryptionKey {
EncryptionKey(BLE_CFG_ERK)
}
fn eddystone_advertising_data() -> [u8; 24] {
const EDDYSTONE_URL: &[u8] = b"www.rust-lang.com";
let mut service_data = [0u8; 24];
let url_len = EDDYSTONE_URL.len();
service_data[0] = 6 + url_len as u8;
service_data[1] = AdvertisingDataType::ServiceData as u8;
// 16-bit eddystone uuid
service_data[2] = 0xaa;
service_data[3] = 0xFE;
service_data[4] = 0x10; // URL frame type
service_data[5] = 22_i8 as u8; // calibrated TX power at 0m
service_data[6] = 0x03; // eddystone url prefix = https
service_data[7..(7 + url_len)].copy_from_slice(EDDYSTONE_URL);
service_data
}