/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ #include #include #include #include #include "os/mynewt.h" #include "console/console.h" #include "config/config.h" #include "nimble/ble.h" #include "host/ble_hs.h" #include "services/gap/ble_svc_gap.h" #include "blecsc_sens.h" /* Wheel size for simulation calculations */ #define CSC_SIM_WHEEL_CIRCUMFERENCE_MM 2000 /* Simulated cadence lower limit */ #define CSC_SIM_CRANK_RPM_MIN 20 /* Simulated cadence upper limit */ #define CSC_SIM_CRANK_RPM_MAX 100 /* Simulated speed lower limit */ #define CSC_SIM_SPEED_KPH_MIN 0 /* Simulated speed upper limit */ #define CSC_SIM_SPEED_KPH_MAX 35 /* Noticication status */ static bool notify_state = false; /* Connection handle */ static uint16_t conn_handle; static uint8_t blecsc_addr_type; /* Advertised device name */ static const char *device_name = "blecsc_sensor"; /* Measurement and notification timer */ static struct os_callout blecsc_measure_timer; /* Variable holds current CSC measurement state */ static struct ble_csc_measurement_state csc_measurement_state; /* Variable holds simulted speed (kilometers per hour) */ static uint16_t csc_sim_speed_kph = CSC_SIM_SPEED_KPH_MIN; /* Variable holds simulated cadence (RPM) */ static uint8_t csc_sim_crank_rpm = CSC_SIM_CRANK_RPM_MIN; static int blecsc_gap_event(struct ble_gap_event *event, void *arg); /* * Enables advertising with parameters: * o General discoverable mode * o Undirected connectable mode */ static void blecsc_advertise(void) { struct ble_gap_adv_params adv_params; struct ble_hs_adv_fields fields; int rc; /* * Set the advertisement data included in our advertisements: * o Flags (indicates advertisement type and other general info) * o Advertising tx power * o Device name */ memset(&fields, 0, sizeof(fields)); /* * Advertise two flags: * o Discoverability in forthcoming advertisement (general) * o BLE-only (BR/EDR unsupported) */ fields.flags = BLE_HS_ADV_F_DISC_GEN | BLE_HS_ADV_F_BREDR_UNSUP; /* * Indicate that the TX power level field should be included; have the * stack fill this value automatically. This is done by assigning the * special value BLE_HS_ADV_TX_PWR_LVL_AUTO. */ fields.tx_pwr_lvl_is_present = 1; fields.tx_pwr_lvl = BLE_HS_ADV_TX_PWR_LVL_AUTO; fields.name = (uint8_t *)device_name; fields.name_len = strlen(device_name); fields.name_is_complete = 1; /* * Set appearance. */ fields.appearance = ble_svc_gap_device_appearance(); fields.appearance_is_present = 1; rc = ble_gap_adv_set_fields(&fields); if (rc != 0) { MODLOG_DFLT(ERROR, "error setting advertisement data; rc=%d\n", rc); return; } /* Begin advertising */ memset(&adv_params, 0, sizeof(adv_params)); adv_params.conn_mode = BLE_GAP_CONN_MODE_UND; adv_params.disc_mode = BLE_GAP_DISC_MODE_GEN; rc = ble_gap_adv_start(blecsc_addr_type, NULL, BLE_HS_FOREVER, &adv_params, blecsc_gap_event, NULL); if (rc != 0) { MODLOG_DFLT(ERROR, "error enabling advertisement; rc=%d\n", rc); return; } } /* Update simulated CSC measurements. * Each call increments wheel and crank revolution counters by one and * computes last event time in order to match simulated candence and speed. * Last event time is expressedd in 1/1024th of second units. * * 60 * 1024 * crank_dt = -------------- * cadence[RPM] * * * circumference[mm] * 1024 * 60 * 60 * wheel_dt = ------------------------------------- * 10^6 * speed [kph] */ static void blecsc_simulate_speed_and_cadence(void) { uint16_t wheel_rev_period; uint16_t crank_rev_period; /* Update simulated crank and wheel rotation speed */ csc_sim_speed_kph++; if (csc_sim_speed_kph >= CSC_SIM_SPEED_KPH_MAX) { csc_sim_speed_kph = CSC_SIM_SPEED_KPH_MIN; } csc_sim_crank_rpm++; if (csc_sim_crank_rpm >= CSC_SIM_CRANK_RPM_MAX) { csc_sim_crank_rpm = CSC_SIM_CRANK_RPM_MIN; } /* Calculate simulated measurement values */ if (csc_sim_speed_kph > 0){ wheel_rev_period = (36*64*CSC_SIM_WHEEL_CIRCUMFERENCE_MM) / (625*csc_sim_speed_kph); csc_measurement_state.cumulative_wheel_rev++; csc_measurement_state.last_wheel_evt_time += wheel_rev_period; } if (csc_sim_crank_rpm > 0){ crank_rev_period = (60*1024) / csc_sim_crank_rpm; csc_measurement_state.cumulative_crank_rev++; csc_measurement_state.last_crank_evt_time += crank_rev_period; } MODLOG_DFLT(INFO, "CSC simulated values: speed = %d kph, cadence = %d \n", csc_sim_speed_kph, csc_sim_crank_rpm); } /* Run CSC measurement simulation and notify it to the client */ static void blecsc_measurement(struct os_event *ev) { int rc; rc = os_callout_reset(&blecsc_measure_timer, OS_TICKS_PER_SEC); assert(rc == 0); blecsc_simulate_speed_and_cadence(); if (notify_state) { rc = gatt_svr_chr_notify_csc_measurement(conn_handle); assert(rc == 0); } } static int blecsc_gap_event(struct ble_gap_event *event, void *arg) { switch (event->type) { case BLE_GAP_EVENT_CONNECT: /* A new connection was established or a connection attempt failed */ MODLOG_DFLT(INFO, "connection %s; status=%d\n", event->connect.status == 0 ? "established" : "failed", event->connect.status); if (event->connect.status != 0) { /* Connection failed; resume advertising */ blecsc_advertise(); conn_handle = 0; } else { conn_handle = event->connect.conn_handle; } break; case BLE_GAP_EVENT_DISCONNECT: MODLOG_DFLT(INFO, "disconnect; reason=%d\n", event->disconnect.reason); conn_handle = 0; /* Connection terminated; resume advertising */ blecsc_advertise(); break; case BLE_GAP_EVENT_ADV_COMPLETE: MODLOG_DFLT(INFO, "adv complete\n"); break; case BLE_GAP_EVENT_SUBSCRIBE: MODLOG_DFLT(INFO, "subscribe event attr_handle=%d\n", event->subscribe.attr_handle); if (event->subscribe.attr_handle == csc_measurement_handle) { notify_state = event->subscribe.cur_notify; MODLOG_DFLT(INFO, "csc measurement notify state = %d\n", notify_state); } else if (event->subscribe.attr_handle == csc_control_point_handle) { gatt_svr_set_cp_indicate(event->subscribe.cur_indicate); MODLOG_DFLT(INFO, "csc control point indicate state = %d\n", event->subscribe.cur_indicate); } break; case BLE_GAP_EVENT_MTU: MODLOG_DFLT(INFO, "mtu update event; conn_handle=%d mtu=%d\n", event->mtu.conn_handle, event->mtu.value); break; } return 0; } static void blecsc_on_sync(void) { int rc; /* Figure out address to use while advertising (no privacy) */ rc = ble_hs_id_infer_auto(0, &blecsc_addr_type); assert(rc == 0); /* Begin advertising */ blecsc_advertise(); } /* * main * * The main task for the project. This function initializes the packages, * then starts serving events from default event queue. * * @return int NOTE: this function should never return! */ int main(void) { int rc; /* Initialize OS */ sysinit(); /* Initialize the NimBLE host configuration */ ble_hs_cfg.sync_cb = blecsc_on_sync; /* Initialize measurement and notification timer */ os_callout_init(&blecsc_measure_timer, os_eventq_dflt_get(), blecsc_measurement, NULL); rc = os_callout_reset(&blecsc_measure_timer, OS_TICKS_PER_SEC); assert(rc == 0); rc = gatt_svr_init(&csc_measurement_state); assert(rc == 0); /* Set the default device name */ rc = ble_svc_gap_device_name_set(device_name); assert(rc == 0); /* As the last thing, process events from default event queue */ while (1) { os_eventq_run(os_eventq_dflt_get()); } return 0; }