blob: 4431457aee621d9fe4afec25ad0eaae3122fd73f [file] [log] [blame]
/* main.c - Bluetooth Cycling Speed and Cadence app main entry point */
/*
* Copyright (c) 2016 Intel Corporation
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <stdbool.h>
#include <zephyr/types.h>
#include <stddef.h>
#include <string.h>
#include <errno.h>
#include <sys/printk.h>
#include <sys/byteorder.h>
#include <zephyr.h>
#include <bluetooth/bluetooth.h>
#include <bluetooth/hci.h>
#include <bluetooth/conn.h>
#include <bluetooth/uuid.h>
#include <bluetooth/gatt.h>
#include <bluetooth/services/bas.h>
#define CSC_SUPPORTED_LOCATIONS { CSC_LOC_OTHER, \
CSC_LOC_FRONT_WHEEL, \
CSC_LOC_REAR_WHEEL, \
CSC_LOC_LEFT_CRANK, \
CSC_LOC_RIGHT_CRANK }
#define CSC_FEATURE (CSC_FEAT_WHEEL_REV | \
CSC_FEAT_CRANK_REV | \
CSC_FEAT_MULTI_SENSORS)
/* CSC Sensor Locations */
#define CSC_LOC_OTHER 0x00
#define CSC_LOC_TOP_OF_SHOE 0x01
#define CSC_LOC_IN_SHOE 0x02
#define CSC_LOC_HIP 0x03
#define CSC_LOC_FRONT_WHEEL 0x04
#define CSC_LOC_LEFT_CRANK 0x05
#define CSC_LOC_RIGHT_CRANK 0x06
#define CSC_LOC_LEFT_PEDAL 0x07
#define CSC_LOC_RIGHT_PEDAL 0x08
#define CSC_LOC_FRONT_HUB 0x09
#define CSC_LOC_REAR_DROPOUT 0x0a
#define CSC_LOC_CHAINSTAY 0x0b
#define CSC_LOC_REAR_WHEEL 0x0c
#define CSC_LOC_REAR_HUB 0x0d
#define CSC_LOC_CHEST 0x0e
/* CSC Application error codes */
#define CSC_ERR_IN_PROGRESS 0x80
#define CSC_ERR_CCC_CONFIG 0x81
/* SC Control Point Opcodes */
#define SC_CP_OP_SET_CWR 0x01
#define SC_CP_OP_CALIBRATION 0x02
#define SC_CP_OP_UPDATE_LOC 0x03
#define SC_CP_OP_REQ_SUPP_LOC 0x04
#define SC_CP_OP_RESPONSE 0x10
/* SC Control Point Response Values */
#define SC_CP_RSP_SUCCESS 0x01
#define SC_CP_RSP_OP_NOT_SUPP 0x02
#define SC_CP_RSP_INVAL_PARAM 0x03
#define SC_CP_RSP_FAILED 0x04
/* CSC Feature */
#define CSC_FEAT_WHEEL_REV BIT(0)
#define CSC_FEAT_CRANK_REV BIT(1)
#define CSC_FEAT_MULTI_SENSORS BIT(2)
/* CSC Measurement Flags */
#define CSC_WHEEL_REV_DATA_PRESENT BIT(0)
#define CSC_CRANK_REV_DATA_PRESENT BIT(1)
/* Cycling Speed and Cadence Service declaration */
static u32_t cwr; /* Cumulative Wheel Revolutions */
static u8_t supported_locations[] = CSC_SUPPORTED_LOCATIONS;
static u8_t sensor_location; /* Current Sensor Location */
static bool csc_simulate;
static bool ctrl_point_configured;
static void csc_meas_ccc_cfg_changed(const struct bt_gatt_attr *attr,
u16_t value)
{
csc_simulate = value == BT_GATT_CCC_NOTIFY;
}
static void ctrl_point_ccc_cfg_changed(const struct bt_gatt_attr *attr,
u16_t value)
{
ctrl_point_configured = value == BT_GATT_CCC_INDICATE;
}
static ssize_t read_location(struct bt_conn *conn,
const struct bt_gatt_attr *attr, void *buf,
u16_t len, u16_t offset)
{
u8_t *value = attr->user_data;
return bt_gatt_attr_read(conn, attr, buf, len, offset, value,
sizeof(*value));
}
static ssize_t read_csc_feature(struct bt_conn *conn,
const struct bt_gatt_attr *attr, void *buf,
u16_t len, u16_t offset)
{
u16_t csc_feature = CSC_FEATURE;
return bt_gatt_attr_read(conn, attr, buf, len, offset,
&csc_feature, sizeof(csc_feature));
}
static void ctrl_point_ind(struct bt_conn *conn, u8_t req_op, u8_t status,
const void *data, u16_t data_len);
struct write_sc_ctrl_point_req {
u8_t op;
union {
u32_t cwr;
u8_t location;
};
} __packed;
static ssize_t write_ctrl_point(struct bt_conn *conn,
const struct bt_gatt_attr *attr,
const void *buf, u16_t len, u16_t offset,
u8_t flags)
{
const struct write_sc_ctrl_point_req *req = buf;
u8_t status;
int i;
if (!ctrl_point_configured) {
return BT_GATT_ERR(CSC_ERR_CCC_CONFIG);
}
if (!len) {
return BT_GATT_ERR(BT_ATT_ERR_INVALID_ATTRIBUTE_LEN);
}
switch (req->op) {
case SC_CP_OP_SET_CWR:
if (len != sizeof(req->op) + sizeof(req->cwr)) {
status = SC_CP_RSP_INVAL_PARAM;
break;
}
cwr = sys_le32_to_cpu(req->cwr);
status = SC_CP_RSP_SUCCESS;
break;
case SC_CP_OP_UPDATE_LOC:
if (len != sizeof(req->op) + sizeof(req->location)) {
status = SC_CP_RSP_INVAL_PARAM;
break;
}
/* Break if the requested location is the same as current one */
if (req->location == sensor_location) {
status = SC_CP_RSP_SUCCESS;
break;
}
/* Pre-set status */
status = SC_CP_RSP_INVAL_PARAM;
/* Check if requested location is supported */
for (i = 0; i < ARRAY_SIZE(supported_locations); i++) {
if (supported_locations[i] == req->location) {
sensor_location = req->location;
status = SC_CP_RSP_SUCCESS;
break;
}
}
break;
case SC_CP_OP_REQ_SUPP_LOC:
if (len != sizeof(req->op)) {
status = SC_CP_RSP_INVAL_PARAM;
break;
}
/* Indicate supported locations and return */
ctrl_point_ind(conn, req->op, SC_CP_RSP_SUCCESS,
&supported_locations,
sizeof(supported_locations));
return len;
default:
status = SC_CP_RSP_OP_NOT_SUPP;
}
ctrl_point_ind(conn, req->op, status, NULL, 0);
return len;
}
BT_GATT_SERVICE_DEFINE(csc_svc,
BT_GATT_PRIMARY_SERVICE(BT_UUID_CSC),
BT_GATT_CHARACTERISTIC(BT_UUID_CSC_MEASUREMENT, BT_GATT_CHRC_NOTIFY,
0x00, NULL, NULL, NULL),
BT_GATT_CCC(csc_meas_ccc_cfg_changed,
BT_GATT_PERM_READ | BT_GATT_PERM_WRITE),
BT_GATT_CHARACTERISTIC(BT_UUID_SENSOR_LOCATION, BT_GATT_CHRC_READ,
BT_GATT_PERM_READ, read_location, NULL,
&sensor_location),
BT_GATT_CHARACTERISTIC(BT_UUID_CSC_FEATURE, BT_GATT_CHRC_READ,
BT_GATT_PERM_READ, read_csc_feature, NULL, NULL),
BT_GATT_CHARACTERISTIC(BT_UUID_SC_CONTROL_POINT,
BT_GATT_CHRC_WRITE | BT_GATT_CHRC_INDICATE,
BT_GATT_PERM_WRITE, NULL, write_ctrl_point,
&sensor_location),
BT_GATT_CCC(ctrl_point_ccc_cfg_changed,
BT_GATT_PERM_READ | BT_GATT_PERM_WRITE),
);
struct sc_ctrl_point_ind {
u8_t op;
u8_t req_op;
u8_t status;
u8_t data[];
} __packed;
static void ctrl_point_ind(struct bt_conn *conn, u8_t req_op, u8_t status,
const void *data, u16_t data_len)
{
struct sc_ctrl_point_ind *ind;
u8_t buf[sizeof(*ind) + data_len];
ind = (void *) buf;
ind->op = SC_CP_OP_RESPONSE;
ind->req_op = req_op;
ind->status = status;
/* Send data (supported locations) if present */
if (data && data_len) {
memcpy(ind->data, data, data_len);
}
bt_gatt_notify(conn, &csc_svc.attrs[8], buf, sizeof(buf));
}
struct csc_measurement_nfy {
u8_t flags;
u8_t data[];
} __packed;
struct wheel_rev_data_nfy {
u32_t cwr;
u16_t lwet;
} __packed;
struct crank_rev_data_nfy {
u16_t ccr;
u16_t lcet;
} __packed;
static void measurement_nfy(struct bt_conn *conn, u32_t cwr, u16_t lwet,
u16_t ccr, u16_t lcet)
{
struct csc_measurement_nfy *nfy;
u8_t buf[sizeof(*nfy) +
(cwr ? sizeof(struct wheel_rev_data_nfy) : 0) +
(ccr ? sizeof(struct crank_rev_data_nfy) : 0)];
u16_t len = 0U;
nfy = (void *) buf;
nfy->flags = 0U;
/* Send Wheel Revolution data is present */
if (cwr) {
struct wheel_rev_data_nfy data;
nfy->flags |= CSC_WHEEL_REV_DATA_PRESENT;
data.cwr = sys_cpu_to_le32(cwr);
data.lwet = sys_cpu_to_le16(lwet);
memcpy(nfy->data, &data, sizeof(data));
len += sizeof(data);
}
/* Send Crank Revolution data is present */
if (ccr) {
struct crank_rev_data_nfy data;
nfy->flags |= CSC_CRANK_REV_DATA_PRESENT;
data.ccr = sys_cpu_to_le16(ccr);
data.lcet = sys_cpu_to_le16(lcet);
memcpy(nfy->data + len, &data, sizeof(data));
}
bt_gatt_notify(NULL, &csc_svc.attrs[1], buf, sizeof(buf));
}
static u16_t lwet; /* Last Wheel Event Time */
static u16_t ccr; /* Cumulative Crank Revolutions */
static u16_t lcet; /* Last Crank Event Time */
static void csc_simulation(void)
{
static u8_t i;
u32_t rand = sys_rand32_get();
bool nfy_crank = false, nfy_wheel = false;
/* Measurements don't have to be updated every second */
if (!(i % 2)) {
lwet += 1050 + rand % 50;
cwr += 2U;
nfy_wheel = true;
}
if (!(i % 3)) {
lcet += 1000 + rand % 50;
ccr += 1U;
nfy_crank = true;
}
/*
* In typical applications, the CSC Measurement characteristic is
* notified approximately once per second. This interval may vary
* and is determined by the Server and not required to be configurable
* by the Client.
*/
measurement_nfy(NULL, nfy_wheel ? cwr : 0, nfy_wheel ? lwet : 0,
nfy_crank ? ccr : 0, nfy_crank ? lcet : 0);
/*
* The Last Crank Event Time value and Last Wheel Event Time roll over
* every 64 seconds.
*/
if (!(i % 64)) {
lcet = 0U;
lwet = 0U;
i = 0U;
}
i++;
}
static void connected(struct bt_conn *conn, u8_t err)
{
if (err) {
printk("Connection failed (err 0x%02x)\n", err);
} else {
printk("Connected\n");
}
}
static void disconnected(struct bt_conn *conn, u8_t reason)
{
printk("Disconnected (reason 0x%02x)\n", reason);
}
static struct bt_conn_cb conn_callbacks = {
.connected = connected,
.disconnected = disconnected,
};
static const struct bt_data ad[] = {
BT_DATA_BYTES(BT_DATA_FLAGS, (BT_LE_AD_GENERAL | BT_LE_AD_NO_BREDR)),
BT_DATA_BYTES(BT_DATA_UUID16_ALL, 0x16, 0x18, 0x0f, 0x18),
};
static void bt_ready(void)
{
int err;
printk("Bluetooth initialized\n");
err = bt_le_adv_start(BT_LE_ADV_CONN_NAME, ad, ARRAY_SIZE(ad), NULL, 0);
if (err) {
printk("Advertising failed to start (err %d)\n", err);
return;
}
printk("Advertising successfully started\n");
}
static void bas_notify(void)
{
u8_t battery_level = bt_gatt_bas_get_battery_level();
battery_level--;
if (!battery_level) {
battery_level = 100U;
}
bt_gatt_bas_set_battery_level(battery_level);
}
void main(void)
{
int err;
err = bt_enable(NULL);
if (err) {
printk("Bluetooth init failed (err %d)\n", err);
return;
}
bt_ready();
bt_conn_cb_register(&conn_callbacks);
while (1) {
k_sleep(K_SECONDS(1));
/* CSC simulation */
if (csc_simulate) {
csc_simulation();
}
/* Battery level simulation */
bas_notify();
}
}