Merge branch 'support/esp32c6_csl_feature_merge' into 'master'

openthread_port: support CSL on esp32c6

Closes TZ-41

See merge request espressif/esp-idf!22259
This commit is contained in:
Jiang Jiang Jian 2023-03-20 17:01:29 +08:00
commit bb9200acec
7 changed files with 434 additions and 16 deletions

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@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2021-2023 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -474,6 +474,75 @@ extern void esp_ieee802154_timer0_done(void);
*/
extern void esp_ieee802154_timer1_done(void);
/**
* @brief Set the IEEE 802.15.4 Radio to receive state at a specific time.
*
*
* @param[in] time A specific timestamp for starting receiving.
* @return
* - ESP_OK on success
* - ESP_FAIL on failure due to invalid state.
*
* Note: Radio will start receiving after the timestamp, and continue receiving until it receives a valid frame.
* Ref to esp_ieee802154_receive_done().
*
*/
esp_err_t esp_ieee802154_receive_at(uint32_t time);
/**
* @brief Transmit the given frame at a specific time.
*
* @param[in] frame The pointer to the frame. Refer to `esp_ieee802154_transmit()`.
* @param[in] cca Perform CCA before transmission if it's true, otherwise transmit the frame directly.
* @param[in] time A specific timestamp for starting transmission.
*
* @return
* - ESP_OK on success.
* - ESP_FAIL on failure due to invalid state.
*
* Note: The transmit result will be reported via esp_ieee802154_transmit_done()
* or esp_ieee802154_transmit_failed().
*
*/
esp_err_t esp_ieee802154_transmit_at(const uint8_t *frame, bool cca, uint32_t time);
/**
* @brief Get the RSSI of the most recent received frame.
*
* @return The value of RSSI.
*
*/
int8_t esp_ieee802154_get_recent_rssi(void);
/**
* @brief Get the LQI of the most recent received frame.
*
* @return The value of LQI.
*
*/
uint8_t esp_ieee802154_get_recent_lqi(void);
/**
* @brief Set the key and addr for a frame needs to be encrypted by HW.
*
* @param[in] frame A frame needs to be encrypted. Refer to `esp_ieee802154_transmit()`.
* @param[in] key A 16-bytes key for encryption.
* @param[in] addr An 8-bytes addr for HW to generate nonce, in general, is the device extended address.
*
*/
void esp_ieee802154_set_transmit_security(uint8_t *frame, uint8_t *key, uint8_t *addr);
/**
* @brief This function will be called when a received frame needs to be acked with Enh-Ack, the upper
* layer should generate the Enh-Ack frame in this callback function.
*
* @param[in] frame The received frame.
* @param[in] frame_info The frame information. Refer to `esp_ieee802154_frame_info_t`.
* @param[out] enhack_frame The Enh-ack frame need to be generated via this function, HW will send it back after AIFS.
*
*/
void esp_ieee802154_enh_ack_generator(uint8_t *frame, esp_ieee802154_frame_info_t *frame_info, uint8_t* enhack_frame);
#ifdef __cplusplus
}
#endif

@ -1 +1 @@
Subproject commit ecb84fc262cfb8d0f262c22f7f8792bf069dfdd9
Subproject commit 54ceb75476f7bdbb8a2557d2a8a012a9342e7a37

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@ -167,6 +167,7 @@ idf_component_register(SRC_DIRS "${src_dirs}"
INCLUDE_DIRS "${public_include_dirs}"
PRIV_INCLUDE_DIRS "${private_include_dirs}"
REQUIRES esp_netif lwip
LDFRAGMENTS linker.lf
PRIV_REQUIRES console driver esp_event esp_partition esp_timer
ieee802154 mbedtls spi_flash)

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@ -165,4 +165,24 @@ menu "OpenThread"
help
Set the OpenThread UART buffer size.
config OPENTHREAD_LINK_METRICS
bool "Enable link metrics feature"
depends on OPENTHREAD_ENABLED
default n
help
Select this option to enable link metrics feature
config OPENTHREAD_CSL_ENABLE
bool "Enable CSL feature"
depends on OPENTHREAD_ENABLED
default n
help
Select this option to enable CSL feature
config OPENTHREAD_CSL_DEBUG_ENABLE
bool "Enable CSL debug"
depends on OPENTHREAD_CSL_ENABLE
default n
help
Select this option to set rx on when sleep in CSL feature, only for debug
endmenu

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@ -0,0 +1,10 @@
[mapping:openthread]
archive: libopenthread.a
entries:
if OPENTHREAD_CSL_ENABLE = y || OPENTHREAD_LINK_METRICS = y:
mesh_forwarder (noflash_text)
mac_frame (noflash_text)
csl_tx_scheduler (noflash_text)
link_metrics (noflash_text)
mac (noflash_text)
sub_mac (noflash_text)

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@ -22,10 +22,16 @@
#include "rom/ets_sys.h"
#include "openthread-core-config.h"
#include "openthread/link.h"
#include "openthread/platform/diag.h"
#include "openthread/platform/radio.h"
#include "utils/link_metrics.h"
#include "utils/mac_frame.h"
#define ESP_RECEIVE_SENSITIVITY -120
#define ESP_OPENTHREAD_XTAL_ACCURACY 130
#define ESP_OPENTHREAD_CSL_ACCURACY 1
#define ESP_OPENTHREAD_CSL_UNCERTAIN 1
#define EVENT_TX_DONE (1 << 0)
#define EVENT_TX_FAILED (1 << 1)
@ -46,16 +52,38 @@ typedef struct {
static otRadioFrame s_transmit_frame;
static esp_openthread_radio_tx_psdu s_transmit_psdu;
static uint8_t *s_enhack;
static otRadioFrame s_receive_frame[CONFIG_IEEE802154_RX_BUFFER_SIZE];
static otRadioFrame s_ack_frame;
static int s_ed_power;
static int s_rssi = 127;
static esp_ieee802154_tx_error_t s_tx_error;
static int s_radio_event_fd = -1;
static bool s_diag_mode = false;
static const char *s_radio_workflow = "radio";
static uint8_t s_txrx_events;
#if OPENTHREAD_CONFIG_MAC_HEADER_IE_SUPPORT
static otRadioIeInfo s_transmit_ie_info;
#endif // OPENTHREAD_CONFIG_MAC_HEADER_IE_SUPPORT
#if OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
static uint32_t s_csl_period;
static uint32_t s_csl_sample_time;
#endif // OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
#if OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2
static uint32_t s_mac_frame_counter;
static uint8_t s_key_id;
static struct otMacKeyMaterial s_pervious_key;
static struct otMacKeyMaterial s_current_key;
static struct otMacKeyMaterial s_next_key;
static bool s_with_security_enh_ack = false;
static uint32_t s_ack_frame_counter;
static uint8_t s_ack_key_id;
static uint8_t s_security_key[16];
static uint8_t s_security_addr[8];
#endif // OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2
static esp_openthread_circular_queue_info_t s_recv_queue = {.head = 0, .tail = 0, .used = 0};
static void set_event(uint8_t event)
@ -92,6 +120,10 @@ esp_err_t esp_openthread_radio_init(const esp_openthread_platform_config_t *conf
s_ack_frame.mPsdu = NULL;
memset(&s_recv_queue, 0, sizeof(esp_openthread_circular_queue_info_t));
#if OPENTHREAD_CONFIG_MAC_HEADER_IE_SUPPORT
s_transmit_frame.mInfo.mTxInfo.mIeInfo = &s_transmit_ie_info;
#endif
esp_ieee802154_enable();
esp_ieee802154_set_promiscuous(false);
esp_ieee802154_set_rx_when_idle(true);
@ -266,7 +298,31 @@ otError otPlatRadioTransmit(otInstance *aInstance, otRadioFrame *aFrame)
aFrame->mPsdu[-1] = aFrame->mLength; // lenth locates one byte before the psdu (esp_openthread_radio_tx_psdu);
esp_ieee802154_transmit(&aFrame->mPsdu[-1], aFrame->mInfo.mTxInfo.mCsmaCaEnabled);
// TODO: remove this macro check when esp32h4 unsupported.
#if !CONFIG_IDF_TARGET_ESP32H4
// esp32h4 do not support tx security
if (otMacFrameIsSecurityEnabled(aFrame) && !aFrame->mInfo.mTxInfo.mIsSecurityProcessed) {
otMacFrameSetFrameCounter(aFrame, s_mac_frame_counter++);
if (otMacFrameIsKeyIdMode1(aFrame)) {
s_transmit_frame.mInfo.mTxInfo.mAesKey = &s_current_key;
if (!s_transmit_frame.mInfo.mTxInfo.mIsARetx) {
otMacFrameSetKeyId(aFrame, s_key_id);
}
esp_ieee802154_get_extended_address(s_security_addr);
}
memcpy(s_security_key, s_current_key.mKeyMaterial.mKey.m8, sizeof(s_current_key.mKeyMaterial.mKey.m8));
esp_ieee802154_set_transmit_security(&aFrame->mPsdu[-1], s_security_key, s_security_addr);
}
// esp32h4 do not support transmit at
if (aFrame->mInfo.mTxInfo.mTxDelay != 0) {
esp_ieee802154_transmit_at(&aFrame->mPsdu[-1], aFrame->mInfo.mTxInfo.mCsmaCaEnabled,
(aFrame->mInfo.mTxInfo.mTxDelayBaseTime + aFrame->mInfo.mTxInfo.mTxDelay));
} else
#endif
{
esp_ieee802154_transmit(&aFrame->mPsdu[-1], aFrame->mInfo.mTxInfo.mCsmaCaEnabled);
}
otPlatRadioTxStarted(aInstance, aFrame);
@ -280,14 +336,29 @@ otRadioFrame *otPlatRadioGetTransmitBuffer(otInstance *aInstance)
int8_t otPlatRadioGetRssi(otInstance *aInstance)
{
return s_rssi;
return esp_ieee802154_get_recent_rssi();
}
otRadioCaps otPlatRadioGetCaps(otInstance *aInstance)
{
return (otRadioCaps)(OT_RADIO_CAPS_ENERGY_SCAN | OT_RADIO_CAPS_ACK_TIMEOUT | OT_RADIO_CAPS_SLEEP_TO_TX);
return (otRadioCaps)(OT_RADIO_CAPS_ENERGY_SCAN |
// TODO: remove this macro check when esp32h4 unsupported.
#if !CONFIG_IDF_TARGET_ESP32H4
OT_RADIO_CAPS_TRANSMIT_SEC | OT_RADIO_CAPS_RECEIVE_TIMING | OT_RADIO_CAPS_TRANSMIT_TIMING |
#endif
OT_RADIO_CAPS_ACK_TIMEOUT | OT_RADIO_CAPS_SLEEP_TO_TX);
}
// TODO: remove this macro check when esp32h4 unsupported.
#if !CONFIG_IDF_TARGET_ESP32H4
// esp32h4 do not support receive at
otError otPlatRadioReceiveAt(otInstance *aInstance, uint8_t aChannel, uint32_t aStart, uint32_t aDuration)
{
esp_ieee802154_receive_at((aStart + aDuration));
return OT_ERROR_NONE;
}
#endif
bool otPlatRadioGetPromiscuous(otInstance *aInstance)
{
return esp_ieee802154_get_promiscuous();
@ -295,7 +366,11 @@ bool otPlatRadioGetPromiscuous(otInstance *aInstance)
void otPlatRadioEnableSrcMatch(otInstance *aInstance, bool aEnable)
{
#if OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2
esp_ieee802154_set_pending_mode(ESP_IEEE802154_AUTO_PENDING_ENHANCED);
#else
esp_ieee802154_set_pending_mode(ESP_IEEE802154_AUTO_PENDING_ENABLE);
#endif // OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2
}
otError otPlatRadioAddSrcMatchShortEntry(otInstance *aInstance, uint16_t aShortAddress)
@ -404,36 +479,212 @@ void otPlatDiagAlarmCallback(otInstance *aInstance)
OT_UNUSED_VARIABLE(aInstance);
}
#if OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2
void otPlatRadioSetMacKey(otInstance *aInstance, uint8_t aKeyIdMode, uint8_t aKeyId, const otMacKeyMaterial *aPrevKey,
const otMacKeyMaterial *aCurrKey, const otMacKeyMaterial *aNextKey, otRadioKeyType aKeyType)
{
OT_UNUSED_VARIABLE(aInstance);
OT_UNUSED_VARIABLE(aKeyIdMode);
assert(aKeyType == OT_KEY_TYPE_LITERAL_KEY);
assert(aPrevKey != NULL && aCurrKey != NULL && aNextKey != NULL);
s_key_id = aKeyId;
s_pervious_key = *aPrevKey;
s_current_key = *aCurrKey;
s_next_key = *aNextKey;
}
void otPlatRadioSetMacFrameCounter(otInstance *aInstance, uint32_t aMacFrameCounter)
{
OT_UNUSED_VARIABLE(aInstance);
s_mac_frame_counter = aMacFrameCounter;
}
#endif // OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2
uint64_t otPlatRadioGetNow(otInstance *aInstance)
{
OT_UNUSED_VARIABLE(aInstance);
return esp_timer_get_time();
}
#if OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
void otPlatRadioUpdateCslSampleTime(otInstance *aInstance, uint32_t aCslSampleTime)
{
OT_UNUSED_VARIABLE(aInstance);
s_csl_sample_time = aCslSampleTime;
}
static IRAM_ATTR uint16_t get_csl_phase()
{
uint32_t cur_time = esp_timer_get_time();
uint32_t csl_period_us = s_csl_period * OT_US_PER_TEN_SYMBOLS;
uint32_t diff = (csl_period_us - (cur_time % csl_period_us) + (s_csl_sample_time % csl_period_us)) % csl_period_us;
return (uint16_t)(diff / OT_US_PER_TEN_SYMBOLS + 1);
}
#endif // OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
uint16_t otPlatTimeGetXtalAccuracy(void)
{
return ESP_OPENTHREAD_XTAL_ACCURACY;
}
#if OPENTHREAD_CONFIG_MLE_LINK_METRICS_SUBJECT_ENABLE
otError otPlatRadioConfigureEnhAckProbing(otInstance *aInstance, otLinkMetrics aLinkMetrics,
const otShortAddress aShortAddress, const otExtAddress *aExtAddress)
{
otError error = otLinkMetricsConfigureEnhAckProbing(aShortAddress, aExtAddress, aLinkMetrics);
return error;
}
#endif // OPENTHREAD_CONFIG_MLE_LINK_METRICS_SUBJECT_ENABLE
#if OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
otError otPlatRadioEnableCsl(otInstance *aInstance, uint32_t aCslPeriod, otShortAddress aShortAddr,
const otExtAddress *aExtAddr)
{
OT_UNUSED_VARIABLE(aInstance);
OT_UNUSED_VARIABLE(aShortAddr);
OT_UNUSED_VARIABLE(aExtAddr);
s_csl_period = aCslPeriod;
return OT_ERROR_NONE;
}
uint8_t otPlatRadioGetCslAccuracy(otInstance *aInstance)
{
return ESP_OPENTHREAD_CSL_ACCURACY;
}
uint8_t otPlatRadioGetCslUncertainty(otInstance *aInstance)
{
return ESP_OPENTHREAD_CSL_UNCERTAIN;
}
#endif
// events
void IRAM_ATTR esp_ieee802154_transmit_done(const uint8_t *frame, const uint8_t *ack,
esp_ieee802154_frame_info_t *s_ack_frame_info)
esp_ieee802154_frame_info_t *ack_frame_info)
{
ETS_ASSERT(frame == (uint8_t *)&s_transmit_psdu);
if (ack != NULL) {
s_ack_frame.mLength = (uint16_t)(*ack);
s_ack_frame.mPsdu = (uint8_t *)(ack + 1);
s_ack_frame.mChannel = ack_frame_info->channel;
s_ack_frame.mInfo.mRxInfo.mRssi = ack_frame_info->rssi;
s_ack_frame.mInfo.mRxInfo.mTimestamp = ack_frame_info->timestamp;
}
set_event(EVENT_TX_DONE);
}
static void IRAM_ATTR convert_to_ot_frame(uint8_t *data, esp_ieee802154_frame_info_t *frame_info,
otRadioFrame *radio_frame)
{
radio_frame->mPsdu = data + 1;
radio_frame->mLength = *data;
radio_frame->mChannel = frame_info->channel;
radio_frame->mInfo.mRxInfo.mRssi = frame_info->rssi;
radio_frame->mInfo.mRxInfo.mAckedWithFramePending = frame_info->pending;
radio_frame->mInfo.mRxInfo.mTimestamp = esp_timer_get_time();
#if OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
radio_frame->mInfo.mRxInfo.mTimestamp = frame_info->timestamp;
#endif // OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
}
static void IRAM_ATTR enh_ack_set_security_addr_and_key(otRadioFrame *ack_frame)
{
struct otMacKeyMaterial *key = NULL;
uint8_t key_id;
ETS_ASSERT(otMacFrameIsSecurityEnabled(ack_frame));
key_id = otMacFrameGetKeyId(ack_frame);
ETS_ASSERT(otMacFrameIsKeyIdMode1(ack_frame) && key_id != 0);
if (key_id == s_key_id) {
key = &s_current_key;
} else if (key_id == s_key_id - 1) {
key = &s_pervious_key;
} else if (key_id == s_key_id + 1) {
key = &s_next_key;
} else {
ETS_ASSERT(false);
}
s_ack_frame_counter = s_mac_frame_counter;
s_ack_key_id = key_id;
s_with_security_enh_ack = true;
if (otMacFrameIsKeyIdMode1(ack_frame)) {
esp_ieee802154_get_extended_address(s_security_addr);
memcpy(s_security_key, (*key).mKeyMaterial.mKey.m8, OT_MAC_KEY_SIZE);
}
esp_ieee802154_set_transmit_security(&ack_frame->mPsdu[-1], s_security_key, s_security_addr);
}
void IRAM_ATTR esp_ieee802154_enh_ack_generator(uint8_t *frame, esp_ieee802154_frame_info_t *frame_info,
uint8_t *enhack_frame)
{
otRadioFrame ack_frame;
otRadioFrame ot_frame;
uint8_t ack_ie_data[OT_ACK_IE_MAX_SIZE];
uint8_t offset = 0;
#if OPENTHREAD_CONFIG_MLE_LINK_METRICS_SUBJECT_ENABLE
uint8_t link_metrics_data_len = 0;
uint8_t link_metrics_data[OT_ENH_PROBING_IE_DATA_MAX_SIZE];
otMacAddress mac_addr;
#endif
ack_frame.mPsdu = enhack_frame + 1;
convert_to_ot_frame(frame, frame_info, &ot_frame);
#if OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
if (s_csl_period > 0) {
offset += otMacFrameGenerateCslIeTemplate(ack_ie_data);
}
#endif
#if OPENTHREAD_CONFIG_MLE_LINK_METRICS_SUBJECT_ENABLE
otMacFrameGetSrcAddr(&ot_frame, &mac_addr);
link_metrics_data_len = otLinkMetricsEnhAckGenData(&mac_addr, esp_ieee802154_get_recent_lqi(),
esp_ieee802154_get_recent_rssi(), link_metrics_data);
if (link_metrics_data_len > 0) {
offset += otMacFrameGenerateEnhAckProbingIe(ack_ie_data, link_metrics_data, link_metrics_data_len);
}
#endif
ETS_ASSERT(otMacFrameGenerateEnhAck(&ot_frame, frame_info->pending, ack_ie_data, offset, &ack_frame) == OT_ERROR_NONE);
enhack_frame[0] = ack_frame.mLength;
s_enhack = enhack_frame;
if (otMacFrameIsSecurityEnabled(&ack_frame) && !ack_frame.mInfo.mTxInfo.mIsSecurityProcessed) {
otMacFrameSetFrameCounter(&ack_frame, s_mac_frame_counter++);
enh_ack_set_security_addr_and_key(&ack_frame);
}
}
void IRAM_ATTR esp_ieee802154_receive_done(uint8_t *data, esp_ieee802154_frame_info_t *frame_info)
{
otRadioFrame ot_frame;
ot_frame.mPsdu = data + 1;
if (s_recv_queue.used == CONFIG_IEEE802154_RX_BUFFER_SIZE) {
ESP_EARLY_LOGE(OT_PLAT_LOG_TAG, "radio receive buffer full!");
return;
}
s_rssi = frame_info->rssi;
s_receive_frame[s_recv_queue.tail].mPsdu = data + 1;
s_receive_frame[s_recv_queue.tail].mLength = *data;
s_receive_frame[s_recv_queue.tail].mChannel = frame_info->channel;
s_receive_frame[s_recv_queue.tail].mInfo.mRxInfo.mRssi = frame_info->rssi;
s_receive_frame[s_recv_queue.tail].mInfo.mRxInfo.mAckedWithFramePending = frame_info->pending;
s_receive_frame[s_recv_queue.tail].mInfo.mRxInfo.mTimestamp = esp_timer_get_time();
convert_to_ot_frame(data, frame_info, &(s_receive_frame[s_recv_queue.tail]));
#if OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2
// Inform if this frame was acknowledged with secured Enh-ACK.
if (otMacFrameIsAckRequested(&ot_frame) && otMacFrameIsVersion2015(&ot_frame)) {
s_receive_frame[s_recv_queue.tail].mInfo.mRxInfo.mAckedWithSecEnhAck = s_with_security_enh_ack;
s_receive_frame[s_recv_queue.tail].mInfo.mRxInfo.mAckFrameCounter = s_ack_frame_counter;
s_receive_frame[s_recv_queue.tail].mInfo.mRxInfo.mAckKeyId = s_ack_key_id;
}
s_with_security_enh_ack = false;
#endif // OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2
s_recv_queue.tail = (s_recv_queue.tail + 1) % CONFIG_IEEE802154_RX_BUFFER_SIZE;
s_recv_queue.used++;
set_event(EVENT_RX_DONE);
@ -454,6 +705,16 @@ void IRAM_ATTR esp_ieee802154_receive_sfd_done(void)
void IRAM_ATTR esp_ieee802154_transmit_sfd_done(uint8_t *frame)
{
assert(frame == (uint8_t *)&s_transmit_psdu || frame == s_enhack);
#if OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
otRadioFrame ot_frame;
ot_frame.mPsdu = frame + 1;
ot_frame.mLength = frame[0];
if (s_csl_period > 0) {
otMacFrameSetCslIe(&ot_frame, s_csl_period, get_csl_phase());
}
#endif
}
void IRAM_ATTR esp_ieee802154_energy_detect_done(int8_t power)

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@ -434,4 +434,61 @@
*/
#define OPENTHREAD_CONFIG_DNS_CLIENT_ENABLE CONFIG_OPENTHREAD_DNS_CLIENT
#if CONFIG_OPENTHREAD_CSL_ENABLE
/**
* @def OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
*
* Define as 1 to support Thread 1.2 CSL feature.
*
*/
#ifndef OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
#define OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE 1
#endif
/**
* @def OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
*
* Define as 1 to set the ahead time for CSL transmit timing.
*
*/
#ifndef OPENTHREAD_CONFIG_MAC_CSL_REQUEST_AHEAD_US
#define OPENTHREAD_CONFIG_MAC_CSL_REQUEST_AHEAD_US 20000
#endif
/**
* @def OPENTHREAD_CONFIG_MAC_CSL_DEBUG_ENABLE
*
* Define as 1 to enable support Thread 1.2 CSL debug.
*
*/
#ifndef OPENTHREAD_CONFIG_MAC_CSL_DEBUG_ENABLE
#define OPENTHREAD_CONFIG_MAC_CSL_DEBUG_ENABLE CONFIG_OPENTHREAD_CSL_DEBUG_ENABLE
#endif
#endif // CONFIG_OPENTHREAD_CSL_ENABLE
#if CONFIG_OPENTHREAD_LINK_METRICS
/**
* @def OPENTHREAD_CONFIG_MLE_LINK_METRICS_SUBJECT_ENABLE
*
* Define as 1 to support Thread 1.2 Link Metrics Subject feature.
*
*/
#ifndef OPENTHREAD_CONFIG_MLE_LINK_METRICS_SUBJECT_ENABLE
#define OPENTHREAD_CONFIG_MLE_LINK_METRICS_SUBJECT_ENABLE 1
#endif
/**
* @def OPENTHREAD_CONFIG_MLE_LINK_METRICS_INITIATOR_ENABLE
*
* Define as 1 to support Thread 1.2 Link Metrics feature.
*
*/
#ifndef OPENTHREAD_CONFIG_MLE_LINK_METRICS_INITIATOR_ENABLE
#define OPENTHREAD_CONFIG_MLE_LINK_METRICS_INITIATOR_ENABLE 1
#endif
#endif //CONFIG_OPENTHREAD_LINK_METRICS
#define OPENTHREAD_FTD 1