/* USER CODE BEGIN Header */ /** ****************************************************************************** * @file App/app_zigbee.c * @author MCD Application Team * @brief Zigbee Application. ****************************************************************************** * @attention * * Copyright (c) 2024 STMicroelectronics. * All rights reserved. * * This software is licensed under terms that can be found in the LICENSE file * in the root directory of this software component. * If no LICENSE file comes with this software, it is provided AS-IS. * ****************************************************************************** */ /* USER CODE END Header */ /* Includes ------------------------------------------------------------------*/ #include "app_common.h" #include "app_entry.h" #include "dbg_trace.h" #include "app_zigbee.h" #include "zigbee_interface.h" #include "shci.h" #include "stm_logging.h" #include "app_conf.h" #include "stm32wbxx_core_interface_def.h" #include "zigbee_types.h" #include "stm32_seq.h" /* Private includes -----------------------------------------------------------*/ #include #include "zcl/zcl.h" #include "zcl/general/zcl.onoff.h" #include "zcl/general/zcl.window.h" /* USER CODE BEGIN Includes */ /* USER CODE END Includes */ /* Private typedef -----------------------------------------------------------*/ /* USER CODE BEGIN PTD */ /* USER CODE END PTD */ /* Private defines -----------------------------------------------------------*/ #define APP_ZIGBEE_STARTUP_FAIL_DELAY 500U #define CHANNEL 11 #define SW1_ENDPOINT 1 /* USER CODE BEGIN PD */ #define SW1_GROUP_ADDR 0x0001 /* USER CODE END PD */ /* Private macros ------------------------------------------------------------*/ /* USER CODE BEGIN PM */ /* USER CODE END PM */ /* External definition -------------------------------------------------------*/ enum ZbStatusCodeT ZbStartupWait(struct ZigBeeT *zb, struct ZbStartupT *config); /* USER CODE BEGIN ED */ /* USER CODE END ED */ /* Private function prototypes -----------------------------------------------*/ static void APP_ZIGBEE_StackLayersInit(void); static void APP_ZIGBEE_ConfigEndpoints(void); static void APP_ZIGBEE_NwkForm(void); static void APP_ZIGBEE_TraceError(const char *pMess, uint32_t ErrCode); static void APP_ZIGBEE_CheckWirelessFirmwareInfo(void); static void Wait_Getting_Ack_From_M0(void); static void Receive_Ack_From_M0(void); static void Receive_Notification_From_M0(void); static void APP_ZIGBEE_ProcessNotifyM0ToM4(void); static void APP_ZIGBEE_ProcessRequestM0ToM4(void); /* USER CODE BEGIN PFP */ /* USER CODE END PFP */ /* Private variables ---------------------------------------------------------*/ static TL_CmdPacket_t *p_ZIGBEE_otcmdbuffer; static TL_EvtPacket_t *p_ZIGBEE_notif_M0_to_M4; static TL_EvtPacket_t *p_ZIGBEE_request_M0_to_M4; static __IO uint32_t CptReceiveNotifyFromM0 = 0; static __IO uint32_t CptReceiveRequestFromM0 = 0; PLACE_IN_SECTION("MB_MEM1") ALIGN(4) static TL_ZIGBEE_Config_t ZigbeeConfigBuffer; PLACE_IN_SECTION("MB_MEM2") ALIGN(4) static TL_CmdPacket_t ZigbeeOtCmdBuffer; PLACE_IN_SECTION("MB_MEM2") ALIGN(4) static uint8_t ZigbeeNotifRspEvtBuffer[sizeof(TL_PacketHeader_t) + TL_EVT_HDR_SIZE + 255U]; PLACE_IN_SECTION("MB_MEM2") ALIGN(4) static uint8_t ZigbeeNotifRequestBuffer[sizeof(TL_PacketHeader_t) + TL_EVT_HDR_SIZE + 255U]; struct zigbee_app_info { bool has_init; struct ZigBeeT *zb; enum ZbStartType startupControl; enum ZbStatusCodeT join_status; uint32_t join_delay; bool init_after_join; struct ZbZclClusterT *onOff_server_1; struct ZbZclClusterT *window_server_1; }; static struct zigbee_app_info zigbee_app_info; /* OnOff server 1 custom callbacks */ static enum ZclStatusCodeT onOff_server_1_off(struct ZbZclClusterT *cluster, struct ZbZclAddrInfoT *srcInfo, void *arg); static enum ZclStatusCodeT onOff_server_1_on(struct ZbZclClusterT *cluster, struct ZbZclAddrInfoT *srcInfo, void *arg); static enum ZclStatusCodeT onOff_server_1_toggle(struct ZbZclClusterT *cluster, struct ZbZclAddrInfoT *srcInfo, void *arg); static struct ZbZclOnOffServerCallbacksT OnOffServerCallbacks_1 = { .off = onOff_server_1_off, .on = onOff_server_1_on, .toggle = onOff_server_1_toggle, }; /* Window server 1 custom callbacks */ static enum ZclStatusCodeT window_server_1_up_command(struct ZbZclClusterT *cluster, struct ZbZclHeaderT *zclHdrPtr, struct ZbApsdeDataIndT *dataIndPtr, void *arg); static enum ZclStatusCodeT window_server_1_down_command(struct ZbZclClusterT *cluster, struct ZbZclHeaderT *zclHdrPtr, struct ZbApsdeDataIndT *dataIndPtr, void *arg); static enum ZclStatusCodeT window_server_1_set_lift_and_tilt_command(struct ZbZclClusterT *cluster, void *arg, uint8_t liftPercentage, uint8_t tiltPercentage); static enum ZclStatusCodeT window_server_1_stop_command(struct ZbZclClusterT *cluster, struct ZbZclHeaderT *zclHdrPtr, struct ZbApsdeDataIndT *dataIndPtr, void *arg); static struct ZbZclWindowServerCallbacksT WindowServerCallbacks_1 = { .up_command = window_server_1_up_command, .down_command = window_server_1_down_command, .set_lift_and_tilt_command = window_server_1_set_lift_and_tilt_command, .stop_command = window_server_1_stop_command, }; /* USER CODE BEGIN PV */ /* USER CODE END PV */ /* Functions Definition ------------------------------------------------------*/ /* OnOff server off 1 command callback */ static enum ZclStatusCodeT onOff_server_1_off(struct ZbZclClusterT *cluster, struct ZbZclAddrInfoT *srcInfo, void *arg) { /* USER CODE BEGIN 0 OnOff server 1 off 1 */ uint8_t endpoint; endpoint = ZbZclClusterGetEndpoint(cluster); if (endpoint == SW1_ENDPOINT) { HAL_GPIO_WritePin(GPIOB, GPIO_PIN_1, 0); (void)ZbZclAttrIntegerWrite(cluster, ZCL_ONOFF_ATTR_ONOFF, 0); } else { /* Unknown endpoint */ return ZCL_STATUS_FAILURE; } return ZCL_STATUS_SUCCESS; /* USER CODE END 0 OnOff server 1 off 1 */ } /* OnOff server on 1 command callback */ static enum ZclStatusCodeT onOff_server_1_on(struct ZbZclClusterT *cluster, struct ZbZclAddrInfoT *srcInfo, void *arg) { /* USER CODE BEGIN 1 OnOff server 1 on 1 */ uint8_t endpoint; endpoint = ZbZclClusterGetEndpoint(cluster); if (endpoint == SW1_ENDPOINT) { HAL_GPIO_WritePin(GPIOB, GPIO_PIN_1, 1); (void)ZbZclAttrIntegerWrite(cluster, ZCL_ONOFF_ATTR_ONOFF, 1); } else { /* Unknown endpoint */ return ZCL_STATUS_FAILURE; } return ZCL_STATUS_SUCCESS; /* USER CODE END 1 OnOff server 1 on 1 */ } /* OnOff server toggle 1 command callback */ static enum ZclStatusCodeT onOff_server_1_toggle(struct ZbZclClusterT *cluster, struct ZbZclAddrInfoT *srcInfo, void *arg) { /* USER CODE BEGIN 2 OnOff server 1 toggle 1 */ uint8_t attrVal; if (ZbZclAttrRead(cluster, ZCL_ONOFF_ATTR_ONOFF, NULL, &attrVal, sizeof(attrVal), false) != ZCL_STATUS_SUCCESS) { return ZCL_STATUS_FAILURE; } if (attrVal != 0) { return onOff_server_1_off(cluster, srcInfo, arg); } else { return onOff_server_1_on(cluster, srcInfo, arg); } /* USER CODE END 2 OnOff server 1 toggle 1 */ } /* Window server up_command 1 command callback */ static enum ZclStatusCodeT window_server_1_up_command(struct ZbZclClusterT *cluster, struct ZbZclHeaderT *zclHdrPtr, struct ZbApsdeDataIndT *dataIndPtr, void *arg) { /* USER CODE BEGIN 3 Window server 1 up_command 1 */ return ZCL_STATUS_SUCCESS; /* USER CODE END 3 Window server 1 up_command 1 */ } /* Window server down_command 1 command callback */ static enum ZclStatusCodeT window_server_1_down_command(struct ZbZclClusterT *cluster, struct ZbZclHeaderT *zclHdrPtr, struct ZbApsdeDataIndT *dataIndPtr, void *arg) { /* USER CODE BEGIN 4 Window server 1 down_command 1 */ return ZCL_STATUS_SUCCESS; /* USER CODE END 4 Window server 1 down_command 1 */ } /* Window server set_lift_and_tilt_command 1 command callback */ static enum ZclStatusCodeT window_server_1_set_lift_and_tilt_command(struct ZbZclClusterT *cluster, void *arg, uint8_t liftPercentage, uint8_t tiltPercentage) { /* USER CODE BEGIN 5 Window server 1 set_lift_and_tilt_command 1 */ uint8_t attrVal; if (ZbZclAttrRead(cluster, ZCL_WNCV_SVR_ATTR_CURR_POS_LIFT_PERCENT, NULL, &attrVal, sizeof(attrVal), false) != ZCL_STATUS_SUCCESS) { return ZCL_STATUS_FAILURE; } uint8_t endpoint; endpoint = ZbZclClusterGetEndpoint(cluster); if (endpoint == SW1_ENDPOINT) { if (attrVal > 10) { HAL_GPIO_WritePin(GPIOB, GPIO_PIN_1, 1); } else { HAL_GPIO_WritePin(GPIOB, GPIO_PIN_1, 0); } (void)ZbZclAttrIntegerWrite(cluster, ZCL_WNCV_SVR_ATTR_CURR_POS_LIFT_PERCENT, liftPercentage); } else { /* Unknown endpoint */ return ZCL_STATUS_FAILURE; } return ZCL_STATUS_SUCCESS; /* USER CODE END 5 Window server 1 set_lift_and_tilt_command 1 */ } /* Window server stop_command 1 command callback */ static enum ZclStatusCodeT window_server_1_stop_command(struct ZbZclClusterT *cluster, struct ZbZclHeaderT *zclHdrPtr, struct ZbApsdeDataIndT *dataIndPtr, void *arg) { /* USER CODE BEGIN 6 Window server 1 stop_command 1 */ return ZCL_STATUS_SUCCESS; /* USER CODE END 6 Window server 1 stop_command 1 */ } /** * @brief Zigbee application initialization * @param None * @retval None */ void APP_ZIGBEE_Init(void) { SHCI_CmdStatus_t ZigbeeInitStatus; APP_DBG("APP_ZIGBEE_Init"); /* Check the compatibility with the Coprocessor Wireless Firmware loaded */ APP_ZIGBEE_CheckWirelessFirmwareInfo(); /* Register cmdbuffer */ APP_ZIGBEE_RegisterCmdBuffer(&ZigbeeOtCmdBuffer); /* Init config buffer and call TL_ZIGBEE_Init */ APP_ZIGBEE_TL_INIT(); /* Register task */ /* Create the different tasks */ UTIL_SEQ_RegTask(1U << (uint32_t)CFG_TASK_NOTIFY_FROM_M0_TO_M4, UTIL_SEQ_RFU, APP_ZIGBEE_ProcessNotifyM0ToM4); UTIL_SEQ_RegTask(1U << (uint32_t)CFG_TASK_REQUEST_FROM_M0_TO_M4, UTIL_SEQ_RFU, APP_ZIGBEE_ProcessRequestM0ToM4); /* Task associated with network creation process */ UTIL_SEQ_RegTask(1U << CFG_TASK_ZIGBEE_NETWORK_FORM, UTIL_SEQ_RFU, APP_ZIGBEE_NwkForm); /* USER CODE BEGIN APP_ZIGBEE_INIT */ /* USER CODE END APP_ZIGBEE_INIT */ /* Start the Zigbee on the CPU2 side */ ZigbeeInitStatus = SHCI_C2_ZIGBEE_Init(); /* Prevent unused argument(s) compilation warning */ UNUSED(ZigbeeInitStatus); /* Initialize Zigbee stack layers */ APP_ZIGBEE_StackLayersInit(); } /** * @brief Initialize Zigbee stack layers * @param None * @retval None */ static void APP_ZIGBEE_StackLayersInit(void) { APP_DBG("APP_ZIGBEE_StackLayersInit"); zigbee_app_info.zb = ZbInit(0U, NULL, NULL); assert(zigbee_app_info.zb != NULL); /* Create the endpoint and cluster(s) */ APP_ZIGBEE_ConfigEndpoints(); /* USER CODE BEGIN APP_ZIGBEE_StackLayersInit */ /* USER CODE END APP_ZIGBEE_StackLayersInit */ /* Configure the joining parameters */ zigbee_app_info.join_status = (enum ZbStatusCodeT) 0x01; /* init to error status */ zigbee_app_info.join_delay = HAL_GetTick(); /* now */ zigbee_app_info.startupControl = ZbStartTypeJoin; /* Initialization Complete */ zigbee_app_info.has_init = true; /* run the task */ UTIL_SEQ_SetTask(1U << CFG_TASK_ZIGBEE_NETWORK_FORM, CFG_SCH_PRIO_0); } /** * @brief Configure Zigbee application endpoints * @param None * @retval None */ static void APP_ZIGBEE_ConfigEndpoints(void) { struct ZbApsmeAddEndpointReqT req; struct ZbApsmeAddEndpointConfT conf; memset(&req, 0, sizeof(req)); /* Endpoint: SW1_ENDPOINT */ req.profileId = ZCL_PROFILE_HOME_AUTOMATION; req.deviceId = ZCL_DEVICE_LEVEL_SWITCH; req.endpoint = SW1_ENDPOINT; ZbZclAddEndpoint(zigbee_app_info.zb, &req, &conf); assert(conf.status == ZB_STATUS_SUCCESS); /* OnOff server */ zigbee_app_info.onOff_server_1 = ZbZclOnOffServerAlloc(zigbee_app_info.zb, SW1_ENDPOINT, &OnOffServerCallbacks_1, NULL); assert(zigbee_app_info.onOff_server_1 != NULL); ZbZclClusterEndpointRegister(zigbee_app_info.onOff_server_1); /* Window server */ zigbee_app_info.window_server_1 = ZbZclWindowServerAlloc(zigbee_app_info.zb, SW1_ENDPOINT, &WindowServerCallbacks_1, NULL); assert(zigbee_app_info.window_server_1 != NULL); ZbZclClusterEndpointRegister(zigbee_app_info.window_server_1); /* USER CODE BEGIN CONFIG_ENDPOINT */ /* USER CODE END CONFIG_ENDPOINT */ } /** * @brief Handle Zigbee network forming and joining * @param None * @retval None */ static void APP_ZIGBEE_NwkForm(void) { if ((zigbee_app_info.join_status != ZB_STATUS_SUCCESS) && (HAL_GetTick() >= zigbee_app_info.join_delay)) { struct ZbStartupT config; enum ZbStatusCodeT status; /* Configure Zigbee Logging */ ZbSetLogging(zigbee_app_info.zb, ZB_LOG_MASK_LEVEL_5, NULL); /* Attempt to join a zigbee network */ ZbStartupConfigGetProDefaults(&config); /* Set the distributed network */ APP_DBG("Network config : APP_STARTUP_DISTRIBUTED"); config.startupControl = zigbee_app_info.startupControl; /* Set the TC address to be distributed. */ config.security.trustCenterAddress = ZB_DISTRIBUTED_TC_ADDR; /* Using the Uncertified Distributed Global Key (d0:d1:d2:d3:d4:d5:d6:d7:d8:d9:da:db:dc:dd:de:df) */ memcpy(config.security.distributedGlobalKey, sec_key_distrib_uncert, ZB_SEC_KEYSIZE); config.channelList.count = 1; config.channelList.list[0].page = 0; config.channelList.list[0].channelMask = 1 << CHANNEL; /*Channel in use */ /* Using ZbStartupWait (blocking) */ status = ZbStartupWait(zigbee_app_info.zb, &config); APP_DBG("ZbStartup Callback (status = 0x%02x)", status); zigbee_app_info.join_status = status; if (status == ZB_STATUS_SUCCESS) { zigbee_app_info.join_delay = 0U; zigbee_app_info.init_after_join = true; APP_DBG("Startup done !\n"); /* USER CODE BEGIN 7 */ /* USER CODE END 7 */ } else { zigbee_app_info.startupControl = ZbStartTypeForm; APP_DBG("Startup failed, attempting again after a short delay (%d ms)", APP_ZIGBEE_STARTUP_FAIL_DELAY); zigbee_app_info.join_delay = HAL_GetTick() + APP_ZIGBEE_STARTUP_FAIL_DELAY; /* USER CODE BEGIN 8 */ /* USER CODE END 8 */ } } /* If Network forming/joining was not successful reschedule the current task to retry the process */ if (zigbee_app_info.join_status != ZB_STATUS_SUCCESS) { UTIL_SEQ_SetTask(1U << CFG_TASK_ZIGBEE_NETWORK_FORM, CFG_SCH_PRIO_0); } /* USER CODE BEGIN NW_FORM */ /* USER CODE END NW_FORM */ } /************************************************************* * ZbStartupWait Blocking Call *************************************************************/ struct ZbStartupWaitInfo { bool active; enum ZbStatusCodeT status; }; static void ZbStartupWaitCb(enum ZbStatusCodeT status, void *cb_arg) { struct ZbStartupWaitInfo *info = cb_arg; info->status = status; info->active = false; UTIL_SEQ_SetEvt(EVENT_ZIGBEE_STARTUP_ENDED); } enum ZbStatusCodeT ZbStartupWait(struct ZigBeeT *zb, struct ZbStartupT *config) { struct ZbStartupWaitInfo *info; enum ZbStatusCodeT status; info = malloc(sizeof(struct ZbStartupWaitInfo)); if (info == NULL) { return ZB_STATUS_ALLOC_FAIL; } memset(info, 0, sizeof(struct ZbStartupWaitInfo)); info->active = true; status = ZbStartup(zb, config, ZbStartupWaitCb, info); if (status != ZB_STATUS_SUCCESS) { free(info); return status; } UTIL_SEQ_WaitEvt(EVENT_ZIGBEE_STARTUP_ENDED); status = info->status; free(info); return status; } /** * @brief Trace the error or the warning reported. * @param ErrId : * @param ErrCode * @retval None */ void APP_ZIGBEE_Error(uint32_t ErrId, uint32_t ErrCode) { switch (ErrId) { default: APP_ZIGBEE_TraceError("ERROR Unknown ", 0); break; } } /************************************************************* * * LOCAL FUNCTIONS * *************************************************************/ /** * @brief Warn the user that an error has occurred. * * @param pMess : Message associated to the error. * @param ErrCode: Error code associated to the module (Zigbee or other module if any) * @retval None */ static void APP_ZIGBEE_TraceError(const char *pMess, uint32_t ErrCode) { APP_DBG("**** Fatal error = %s (Err = %d)", pMess, ErrCode); /* USER CODE BEGIN TRACE_ERROR */ /* USER CODE END TRACE_ERROR */ } /** * @brief Check if the Coprocessor Wireless Firmware loaded supports Zigbee * and display associated information * @param None * @retval None */ static void APP_ZIGBEE_CheckWirelessFirmwareInfo(void) { WirelessFwInfo_t wireless_info_instance; WirelessFwInfo_t *p_wireless_info = &wireless_info_instance; if (SHCI_GetWirelessFwInfo(p_wireless_info) != SHCI_Success) { APP_ZIGBEE_Error((uint32_t)ERR_ZIGBEE_CHECK_WIRELESS, (uint32_t)ERR_INTERFACE_FATAL); } else { APP_DBG("**********************************************************"); APP_DBG("WIRELESS COPROCESSOR FW:"); /* Print version */ APP_DBG("VERSION ID = %d.%d.%d", p_wireless_info->VersionMajor, p_wireless_info->VersionMinor, p_wireless_info->VersionSub); switch (p_wireless_info->StackType) { case INFO_STACK_TYPE_ZIGBEE_FFD: APP_DBG("FW Type : FFD Zigbee stack"); break; case INFO_STACK_TYPE_ZIGBEE_RFD: APP_DBG("FW Type : RFD Zigbee stack"); break; default: /* No Zigbee device supported ! */ APP_ZIGBEE_Error((uint32_t)ERR_ZIGBEE_CHECK_WIRELESS, (uint32_t)ERR_INTERFACE_FATAL); break; } /* print the application name */ char *__PathProject__ = (strstr(__FILE__, "Zigbee") ? strstr(__FILE__, "Zigbee") + 7 : __FILE__); char *pdel = NULL; if((strchr(__FILE__, '/')) == NULL) { pdel = strchr(__PathProject__, '\\'); } else { pdel = strchr(__PathProject__, '/'); } int index = (int)(pdel - __PathProject__); APP_DBG("Application flashed: %*.*s", index, index, __PathProject__); /* print channel */ APP_DBG("Channel used: %d", CHANNEL); /* print Link Key */ APP_DBG("Link Key: %.16s", sec_key_ha); /* print Link Key value hex */ char Z09_LL_string[ZB_SEC_KEYSIZE*3+1]; Z09_LL_string[0] = 0; for (int str_index = 0; str_index < ZB_SEC_KEYSIZE; str_index++) { sprintf(&Z09_LL_string[str_index*3], "%02x ", sec_key_ha[str_index]); } APP_DBG("Link Key value: %s", Z09_LL_string); /* print clusters allocated */ APP_DBG("Clusters allocated are:"); APP_DBG("onOff Server on Endpoint %d", SW1_ENDPOINT); APP_DBG("window Server on Endpoint %d", SW1_ENDPOINT); APP_DBG("**********************************************************"); } } /************************************************************* * * WRAP FUNCTIONS * *************************************************************/ void APP_ZIGBEE_RegisterCmdBuffer(TL_CmdPacket_t *p_buffer) { p_ZIGBEE_otcmdbuffer = p_buffer; } Zigbee_Cmd_Request_t * ZIGBEE_Get_OTCmdPayloadBuffer(void) { return (Zigbee_Cmd_Request_t *)p_ZIGBEE_otcmdbuffer->cmdserial.cmd.payload; } Zigbee_Cmd_Request_t * ZIGBEE_Get_OTCmdRspPayloadBuffer(void) { return (Zigbee_Cmd_Request_t *)((TL_EvtPacket_t *)p_ZIGBEE_otcmdbuffer)->evtserial.evt.payload; } Zigbee_Cmd_Request_t * ZIGBEE_Get_NotificationPayloadBuffer(void) { return (Zigbee_Cmd_Request_t *)(p_ZIGBEE_notif_M0_to_M4)->evtserial.evt.payload; } Zigbee_Cmd_Request_t * ZIGBEE_Get_M0RequestPayloadBuffer(void) { return (Zigbee_Cmd_Request_t *)(p_ZIGBEE_request_M0_to_M4)->evtserial.evt.payload; } /** * @brief This function is used to transfer the commands from the M4 to the M0. * * @param None * @return None */ void ZIGBEE_CmdTransfer(void) { Zigbee_Cmd_Request_t *cmd_req = (Zigbee_Cmd_Request_t *)p_ZIGBEE_otcmdbuffer->cmdserial.cmd.payload; /* Zigbee OT command cmdcode range 0x280 .. 0x3DF = 352 */ p_ZIGBEE_otcmdbuffer->cmdserial.cmd.cmdcode = 0x280U; /* Size = otCmdBuffer->Size (Number of OT cmd arguments : 1 arg = 32bits so multiply by 4 to get size in bytes) * + ID (4 bytes) + Size (4 bytes) */ p_ZIGBEE_otcmdbuffer->cmdserial.cmd.plen = 8U + (cmd_req->Size * 4U); TL_ZIGBEE_SendM4RequestToM0(); /* Wait completion of cmd */ Wait_Getting_Ack_From_M0(); } /** * @brief This function is called when the M0+ acknowledge the fact that it has received a Cmd * * * @param Otbuffer : a pointer to TL_EvtPacket_t * @return None */ void TL_ZIGBEE_CmdEvtReceived(TL_EvtPacket_t *Otbuffer) { /* Prevent unused argument(s) compilation warning */ UNUSED(Otbuffer); Receive_Ack_From_M0(); } /** * @brief This function is called when notification from M0+ is received. * * @param Notbuffer : a pointer to TL_EvtPacket_t * @return None */ void TL_ZIGBEE_NotReceived(TL_EvtPacket_t *Notbuffer) { p_ZIGBEE_notif_M0_to_M4 = Notbuffer; Receive_Notification_From_M0(); } /** * @brief This function is called before sending any ot command to the M0 * core. The purpose of this function is to be able to check if * there are no notifications coming from the M0 core which are * pending before sending a new ot command. * @param None * @retval None */ void Pre_ZigbeeCmdProcessing(void) { UTIL_SEQ_WaitEvt(EVENT_SYNCHRO_BYPASS_IDLE); } /** * @brief This function waits for getting an acknowledgment from the M0. * * @param None * @retval None */ static void Wait_Getting_Ack_From_M0(void) { UTIL_SEQ_WaitEvt(EVENT_ACK_FROM_M0_EVT); } /** * @brief Receive an acknowledgment from the M0+ core. * Each command send by the M4 to the M0 are acknowledged. * This function is called under interrupt. * @param None * @retval None */ static void Receive_Ack_From_M0(void) { UTIL_SEQ_SetEvt(EVENT_ACK_FROM_M0_EVT); } /** * @brief Receive a notification from the M0+ through the IPCC. * This function is called under interrupt. * @param None * @retval None */ static void Receive_Notification_From_M0(void) { CptReceiveNotifyFromM0++; UTIL_SEQ_SetTask(1U << (uint32_t)CFG_TASK_NOTIFY_FROM_M0_TO_M4, CFG_SCH_PRIO_0); } /** * @brief This function is called when a request from M0+ is received. * * @param Notbuffer : a pointer to TL_EvtPacket_t * @return None */ void TL_ZIGBEE_M0RequestReceived(TL_EvtPacket_t *Reqbuffer) { p_ZIGBEE_request_M0_to_M4 = Reqbuffer; CptReceiveRequestFromM0++; UTIL_SEQ_SetTask(1U << (uint32_t)CFG_TASK_REQUEST_FROM_M0_TO_M4, CFG_SCH_PRIO_0); } /** * @brief Perform initialization of TL for Zigbee. * @param None * @retval None */ void APP_ZIGBEE_TL_INIT(void) { ZigbeeConfigBuffer.p_ZigbeeOtCmdRspBuffer = (uint8_t *)&ZigbeeOtCmdBuffer; ZigbeeConfigBuffer.p_ZigbeeNotAckBuffer = (uint8_t *)ZigbeeNotifRspEvtBuffer; ZigbeeConfigBuffer.p_ZigbeeNotifRequestBuffer = (uint8_t *)ZigbeeNotifRequestBuffer; TL_ZIGBEE_Init(&ZigbeeConfigBuffer); } /** * @brief Process the messages coming from the M0. * @param None * @retval None */ static void APP_ZIGBEE_ProcessNotifyM0ToM4(void) { if (CptReceiveNotifyFromM0 != 0) { /* Reset counter */ CptReceiveNotifyFromM0 = 0; Zigbee_CallBackProcessing(); } } /** * @brief Process the requests coming from the M0. * @param None * @retval None */ static void APP_ZIGBEE_ProcessRequestM0ToM4(void) { if (CptReceiveRequestFromM0 != 0) { CptReceiveRequestFromM0 = 0; Zigbee_M0RequestProcessing(); } } /* USER CODE BEGIN FD_LOCAL_FUNCTIONS */ /* USER CODE END FD_LOCAL_FUNCTIONS */