/* * Copyright (c) 2020 Manivannan Sadhasivam * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include "lw_priv.h" #include #include BUILD_ASSERT(!IS_ENABLED(CONFIG_LORAMAC_REGION_UNKNOWN), "Unknown region specified for LoRaWAN in Kconfig"); #ifdef CONFIG_LORAMAC_REGION_AS923 #define LORAWAN_REGION LORAMAC_REGION_AS923 #elif CONFIG_LORAMAC_REGION_AU915 #define LORAWAN_REGION LORAMAC_REGION_AU915 #elif CONFIG_LORAMAC_REGION_CN470 #define LORAWAN_REGION LORAMAC_REGION_CN470 #elif CONFIG_LORAMAC_REGION_CN779 #define LORAWAN_REGION LORAMAC_REGION_CN779 #elif CONFIG_LORAMAC_REGION_EU433 #define LORAWAN_REGION LORAMAC_REGION_EU433 #elif CONFIG_LORAMAC_REGION_EU868 #define LORAWAN_REGION LORAMAC_REGION_EU868 #elif CONFIG_LORAMAC_REGION_KR920 #define LORAWAN_REGION LORAMAC_REGION_KR920 #elif CONFIG_LORAMAC_REGION_IN865 #define LORAWAN_REGION LORAMAC_REGION_IN865 #elif CONFIG_LORAMAC_REGION_US915 #define LORAWAN_REGION LORAMAC_REGION_US915 #elif CONFIG_LORAMAC_REGION_RU864 #define LORAWAN_REGION LORAMAC_REGION_RU864 #else #error "At least one LoRaWAN region should be selected" #endif /* Use version 1.0.3.0 for ABP */ #define LORAWAN_ABP_VERSION 0x01000300 #define LOG_LEVEL CONFIG_LORAWAN_LOG_LEVEL #include LOG_MODULE_REGISTER(lorawan); K_SEM_DEFINE(mlme_confirm_sem, 0, 1); K_SEM_DEFINE(mcps_confirm_sem, 0, 1); K_MUTEX_DEFINE(lorawan_join_mutex); K_MUTEX_DEFINE(lorawan_send_mutex); /* We store both the default datarate requested through lorawan_set_datarate * and the current datarate so that we can use the default datarate for all * join requests, even as the current datarate changes due to ADR. */ static enum lorawan_datarate default_datarate; static enum lorawan_datarate current_datarate; static bool lorawan_adr_enable; static sys_slist_t dl_callbacks; static LoRaMacPrimitives_t macPrimitives; static LoRaMacCallback_t macCallbacks; static LoRaMacEventInfoStatus_t last_mcps_confirm_status; static LoRaMacEventInfoStatus_t last_mlme_confirm_status; static LoRaMacEventInfoStatus_t last_mcps_indication_status; static LoRaMacEventInfoStatus_t last_mlme_indication_status; static uint8_t (*getBatteryLevelUser)(void); static void (*dr_change_cb)(enum lorawan_datarate dr); void BoardGetUniqueId(uint8_t *id) { /* Do not change the default value */ } static uint8_t getBatteryLevelLocal(void) { if (getBatteryLevelUser != NULL) { return getBatteryLevelUser(); } return 255; } static void OnMacProcessNotify(void) { LoRaMacProcess(); } static void datarate_observe(bool force_notification) { MibRequestConfirm_t mibGet; mibGet.Type = MIB_CHANNELS_DATARATE; LoRaMacMibGetRequestConfirm(&mibGet); if ((mibGet.Param.ChannelsDatarate != current_datarate) || (force_notification)) { current_datarate = mibGet.Param.ChannelsDatarate; if (dr_change_cb) { dr_change_cb(current_datarate); } LOG_INF("Datarate changed: DR_%d", current_datarate); } } static void McpsConfirm(McpsConfirm_t *mcpsConfirm) { LOG_DBG("Received McpsConfirm (for McpsRequest %d)", mcpsConfirm->McpsRequest); if (mcpsConfirm->Status != LORAMAC_EVENT_INFO_STATUS_OK) { LOG_ERR("McpsRequest failed : %s", lorawan_eventinfo2str(mcpsConfirm->Status)); } else { LOG_DBG("McpsRequest success!"); } /* Datarate may have changed due to a missed ADRACK */ if (lorawan_adr_enable) { datarate_observe(false); } last_mcps_confirm_status = mcpsConfirm->Status; k_sem_give(&mcps_confirm_sem); } static void McpsIndication(McpsIndication_t *mcpsIndication) { struct lorawan_downlink_cb *cb; LOG_DBG("Received McpsIndication %d", mcpsIndication->McpsIndication); if (mcpsIndication->Status != LORAMAC_EVENT_INFO_STATUS_OK) { LOG_ERR("McpsIndication failed : %s", lorawan_eventinfo2str(mcpsIndication->Status)); return; } /* Datarate can change as result of ADR command from server */ if (lorawan_adr_enable) { datarate_observe(false); } /* Iterate over all registered downlink callbacks */ SYS_SLIST_FOR_EACH_CONTAINER(&dl_callbacks, cb, node) { if ((cb->port == LW_RECV_PORT_ANY) || (cb->port == mcpsIndication->Port)) { cb->cb(mcpsIndication->Port, !!mcpsIndication->FramePending, mcpsIndication->Rssi, mcpsIndication->Snr, mcpsIndication->BufferSize, mcpsIndication->Buffer); } } last_mcps_indication_status = mcpsIndication->Status; } static void MlmeConfirm(MlmeConfirm_t *mlmeConfirm) { MibRequestConfirm_t mibGet; LOG_DBG("Received MlmeConfirm (for MlmeRequest %d)", mlmeConfirm->MlmeRequest); if (mlmeConfirm->Status != LORAMAC_EVENT_INFO_STATUS_OK) { LOG_ERR("MlmeConfirm failed : %s", lorawan_eventinfo2str(mlmeConfirm->Status)); goto out_sem; } switch (mlmeConfirm->MlmeRequest) { case MLME_JOIN: mibGet.Type = MIB_DEV_ADDR; LoRaMacMibGetRequestConfirm(&mibGet); LOG_INF("Joined network! DevAddr: %08x", mibGet.Param.DevAddr); break; case MLME_LINK_CHECK: /* Not implemented */ LOG_INF("Link check not implemented yet!"); break; default: break; } out_sem: last_mlme_confirm_status = mlmeConfirm->Status; k_sem_give(&mlme_confirm_sem); } static void MlmeIndication(MlmeIndication_t *mlmeIndication) { LOG_DBG("Received MlmeIndication %d", mlmeIndication->MlmeIndication); last_mlme_indication_status = mlmeIndication->Status; } static LoRaMacStatus_t lorawan_join_otaa( const struct lorawan_join_config *join_cfg) { MlmeReq_t mlme_req; MibRequestConfirm_t mib_req; mlme_req.Type = MLME_JOIN; mlme_req.Req.Join.Datarate = default_datarate; mlme_req.Req.Join.NetworkActivation = ACTIVATION_TYPE_OTAA; mib_req.Type = MIB_DEV_EUI; mib_req.Param.DevEui = join_cfg->dev_eui; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_JOIN_EUI; mib_req.Param.JoinEui = join_cfg->otaa.join_eui; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_NWK_KEY; mib_req.Param.NwkKey = join_cfg->otaa.nwk_key; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_APP_KEY; mib_req.Param.AppKey = join_cfg->otaa.app_key; LoRaMacMibSetRequestConfirm(&mib_req); return LoRaMacMlmeRequest(&mlme_req); } static LoRaMacStatus_t lorawan_join_abp( const struct lorawan_join_config *join_cfg) { MibRequestConfirm_t mib_req; mib_req.Type = MIB_ABP_LORAWAN_VERSION; mib_req.Param.AbpLrWanVersion.Value = LORAWAN_ABP_VERSION; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_NET_ID; mib_req.Param.NetID = 0; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_DEV_ADDR; mib_req.Param.DevAddr = join_cfg->abp.dev_addr; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_F_NWK_S_INT_KEY; mib_req.Param.FNwkSIntKey = join_cfg->abp.nwk_skey; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_S_NWK_S_INT_KEY; mib_req.Param.SNwkSIntKey = join_cfg->abp.nwk_skey; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_NWK_S_ENC_KEY; mib_req.Param.NwkSEncKey = join_cfg->abp.nwk_skey; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_APP_S_KEY; mib_req.Param.AppSKey = join_cfg->abp.app_skey; LoRaMacMibSetRequestConfirm(&mib_req); mib_req.Type = MIB_NETWORK_ACTIVATION; mib_req.Param.NetworkActivation = ACTIVATION_TYPE_ABP; LoRaMacMibSetRequestConfirm(&mib_req); return LORAMAC_STATUS_OK; } int lorawan_join(const struct lorawan_join_config *join_cfg) { MibRequestConfirm_t mib_req; LoRaMacStatus_t status; int ret = 0; k_mutex_lock(&lorawan_join_mutex, K_FOREVER); /* MIB_PUBLIC_NETWORK powers on the radio and does not turn it off */ mib_req.Type = MIB_PUBLIC_NETWORK; mib_req.Param.EnablePublicNetwork = true; LoRaMacMibSetRequestConfirm(&mib_req); if (join_cfg->mode == LORAWAN_ACT_OTAA) { status = lorawan_join_otaa(join_cfg); if (status != LORAMAC_STATUS_OK) { LOG_ERR("OTAA join failed: %s", lorawan_status2str(status)); ret = lorawan_status2errno(status); goto out; } LOG_DBG("Network join request sent!"); /* * We can be sure that the semaphore will be released for * both success and failure cases after a specific time period. * So we can use K_FOREVER and no need to check the return val. */ k_sem_take(&mlme_confirm_sem, K_FOREVER); if (last_mlme_confirm_status != LORAMAC_EVENT_INFO_STATUS_OK) { ret = lorawan_eventinfo2errno(last_mlme_confirm_status); goto out; } } else if (join_cfg->mode == LORAWAN_ACT_ABP) { status = lorawan_join_abp(join_cfg); if (status != LORAMAC_STATUS_OK) { LOG_ERR("ABP join failed: %s", lorawan_status2str(status)); ret = lorawan_status2errno(status); goto out; } } else { ret = -EINVAL; } out: /* If the join succeeded */ if (ret == 0) { /* * Several regions (AS923, AU915, US915) overwrite the * datarate as part of the join process. Reset the datarate * to the value requested (and validated) in * lorawan_set_datarate so that the MAC layer is aware of the * set datarate for LoRaMacQueryTxPossible. This is only * performed when ADR is disabled as it the network servers * responsibility to increase datarates when ADR is enabled. */ if (!lorawan_adr_enable) { MibRequestConfirm_t mib_req; mib_req.Type = MIB_CHANNELS_DATARATE; mib_req.Param.ChannelsDatarate = default_datarate; LoRaMacMibSetRequestConfirm(&mib_req); } /* * Force a notification of the datarate on network join as the * user may not have explicitly set a datarate to use. */ datarate_observe(true); } k_mutex_unlock(&lorawan_join_mutex); return ret; } int lorawan_set_class(enum lorawan_class dev_class) { LoRaMacStatus_t status; MibRequestConfirm_t mib_req; mib_req.Type = MIB_DEVICE_CLASS; switch (dev_class) { case LORAWAN_CLASS_A: mib_req.Param.Class = CLASS_A; break; case LORAWAN_CLASS_B: case LORAWAN_CLASS_C: LOG_ERR("Device class not supported yet!"); return -ENOTSUP; default: return -EINVAL; } status = LoRaMacMibSetRequestConfirm(&mib_req); if (status != LORAMAC_STATUS_OK) { LOG_ERR("Failed to set device class: %s", lorawan_status2str(status)); return lorawan_status2errno(status); } return 0; } int lorawan_set_datarate(enum lorawan_datarate dr) { MibRequestConfirm_t mib_req; /* Bail out if using ADR */ if (lorawan_adr_enable) { return -EINVAL; } /* Notify MAC layer of the requested datarate */ mib_req.Type = MIB_CHANNELS_DATARATE; mib_req.Param.ChannelsDatarate = dr; if (LoRaMacMibSetRequestConfirm(&mib_req) != LORAMAC_STATUS_OK) { /* Datarate is invalid for this region */ return -EINVAL; } default_datarate = dr; current_datarate = dr; return 0; } void lorawan_get_payload_sizes(uint8_t *max_next_payload_size, uint8_t *max_payload_size) { LoRaMacTxInfo_t txInfo; /* QueryTxPossible cannot fail */ (void)LoRaMacQueryTxPossible(0, &txInfo); *max_next_payload_size = txInfo.MaxPossibleApplicationDataSize; *max_payload_size = txInfo.CurrentPossiblePayloadSize; } enum lorawan_datarate lorawan_get_min_datarate(void) { MibRequestConfirm_t mibGet; mibGet.Type = MIB_CHANNELS_MIN_TX_DATARATE; LoRaMacMibGetRequestConfirm(&mibGet); return mibGet.Param.ChannelsMinTxDatarate; } void lorawan_enable_adr(bool enable) { MibRequestConfirm_t mib_req; if (enable != lorawan_adr_enable) { lorawan_adr_enable = enable; mib_req.Type = MIB_ADR; mib_req.Param.AdrEnable = lorawan_adr_enable; LoRaMacMibSetRequestConfirm(&mib_req); } } int lorawan_set_conf_msg_tries(uint8_t tries) { MibRequestConfirm_t mib_req; mib_req.Type = MIB_CHANNELS_NB_TRANS; mib_req.Param.ChannelsNbTrans = tries; if (LoRaMacMibSetRequestConfirm(&mib_req) != LORAMAC_STATUS_OK) { return -EINVAL; } return 0; } int lorawan_send(uint8_t port, uint8_t *data, uint8_t len, uint8_t flags) { LoRaMacStatus_t status; McpsReq_t mcpsReq; LoRaMacTxInfo_t txInfo; int ret = 0; bool empty_frame = false; if (data == NULL) { return -EINVAL; } k_mutex_lock(&lorawan_send_mutex, K_FOREVER); status = LoRaMacQueryTxPossible(len, &txInfo); if (status != LORAMAC_STATUS_OK) { /* * If status indicates an error, then most likely the payload * has exceeded the maximum possible length for the current * region and datarate. We can't do much other than sending * empty frame in order to flush MAC commands in stack and * hoping the application to lower the payload size for * next try. */ LOG_ERR("LoRaWAN Query Tx Possible Failed: %s", lorawan_status2str(status)); empty_frame = true; mcpsReq.Type = MCPS_UNCONFIRMED; mcpsReq.Req.Unconfirmed.fBuffer = NULL; mcpsReq.Req.Unconfirmed.fBufferSize = 0; mcpsReq.Req.Unconfirmed.Datarate = DR_0; } else { if (flags & LORAWAN_MSG_CONFIRMED) { mcpsReq.Type = MCPS_CONFIRMED; mcpsReq.Req.Confirmed.fPort = port; mcpsReq.Req.Confirmed.fBuffer = data; mcpsReq.Req.Confirmed.fBufferSize = len; mcpsReq.Req.Confirmed.Datarate = current_datarate; } else { /* default message type */ mcpsReq.Type = MCPS_UNCONFIRMED; mcpsReq.Req.Unconfirmed.fPort = port; mcpsReq.Req.Unconfirmed.fBuffer = data; mcpsReq.Req.Unconfirmed.fBufferSize = len; mcpsReq.Req.Unconfirmed.Datarate = current_datarate; } } status = LoRaMacMcpsRequest(&mcpsReq); if (status != LORAMAC_STATUS_OK) { LOG_ERR("LoRaWAN Send failed: %s", lorawan_status2str(status)); ret = lorawan_status2errno(status); goto out; } /* * Always wait for MAC operations to complete. * We can be sure that the semaphore will be released for * both success and failure cases after a specific time period. * So we can use K_FOREVER and no need to check the return val. */ k_sem_take(&mcps_confirm_sem, K_FOREVER); if (last_mcps_confirm_status != LORAMAC_EVENT_INFO_STATUS_OK) { ret = lorawan_eventinfo2errno(last_mcps_confirm_status); } /* * Indicate to the application that the provided data was not sent and * it has to resend the packet. */ if (empty_frame) { ret = -EAGAIN; } out: k_mutex_unlock(&lorawan_send_mutex); return ret; } int lorawan_set_battery_level_callback(uint8_t (*battery_lvl_cb)(void)) { if (battery_lvl_cb == NULL) { return -EINVAL; } getBatteryLevelUser = battery_lvl_cb; return 0; } void lorawan_register_downlink_callback(struct lorawan_downlink_cb *cb) { sys_slist_append(&dl_callbacks, &cb->node); } void lorawan_register_dr_changed_callback(void (*cb)(enum lorawan_datarate)) { dr_change_cb = cb; } int lorawan_start(void) { LoRaMacStatus_t status; MibRequestConfirm_t mib_req; GetPhyParams_t phy_params; PhyParam_t phy_param; status = LoRaMacStart(); if (status != LORAMAC_STATUS_OK) { LOG_ERR("Failed to start the LoRaMAC stack: %s", lorawan_status2str(status)); return -EINVAL; } /* Retrieve the default TX datarate for selected region */ phy_params.Attribute = PHY_DEF_TX_DR; phy_param = RegionGetPhyParam(LORAWAN_REGION, &phy_params); default_datarate = phy_param.Value; current_datarate = default_datarate; /* TODO: Move these to a proper location */ mib_req.Type = MIB_SYSTEM_MAX_RX_ERROR; mib_req.Param.SystemMaxRxError = CONFIG_LORAWAN_SYSTEM_MAX_RX_ERROR; LoRaMacMibSetRequestConfirm(&mib_req); return 0; } static int lorawan_init(const struct device *dev) { LoRaMacStatus_t status; sys_slist_init(&dl_callbacks); macPrimitives.MacMcpsConfirm = McpsConfirm; macPrimitives.MacMcpsIndication = McpsIndication; macPrimitives.MacMlmeConfirm = MlmeConfirm; macPrimitives.MacMlmeIndication = MlmeIndication; macCallbacks.GetBatteryLevel = getBatteryLevelLocal; macCallbacks.GetTemperatureLevel = NULL; macCallbacks.NvmDataChange = NULL; macCallbacks.MacProcessNotify = OnMacProcessNotify; status = LoRaMacInitialization(&macPrimitives, &macCallbacks, LORAWAN_REGION); if (status != LORAMAC_STATUS_OK) { LOG_ERR("LoRaMacInitialization failed: %s", lorawan_status2str(status)); return -EINVAL; } LOG_DBG("LoRaMAC Initialized"); return 0; } SYS_INIT(lorawan_init, APPLICATION, CONFIG_KERNEL_INIT_PRIORITY_DEVICE);