esp-idf/examples/bluetooth/nimble/ble_spp/spp_client/main/main.c

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/*
* SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
*
2021-12-06 01:59:55 -05:00
* SPDX-License-Identifier: Unlicense OR CC0-1.0
*/
#include "esp_log.h"
#include "nvs_flash.h"
/* BLE */
#include "esp_nimble_hci.h"
#include "nimble/nimble_port.h"
#include "nimble/nimble_port_freertos.h"
#include "host/ble_hs.h"
#include "host/util/util.h"
#include "console/console.h"
#include "services/gap/ble_svc_gap.h"
#include "ble_spp_client.h"
#include "driver/uart.h"
static const char *tag = "NimBLE_SPP_BLE_CENT";
static int ble_spp_client_gap_event(struct ble_gap_event *event, void *arg);
QueueHandle_t spp_common_uart_queue = NULL;
void ble_store_config_init(void);
static bool is_connect = false;
uint16_t attribute_handle[CONFIG_BT_NIMBLE_MAX_CONNECTIONS + 1];
static void ble_spp_client_scan(void);
/* 16 Bit Alert Notification Service UUID */
#define GATT_SVR_SVC_ALERT_UUID 0x1811
/* 16 Bit SPP Service UUID */
#define GATT_SPP_SVC_UUID 0xABF0
/* 16 Bit SPP Service Characteristic UUID */
#define GATT_SPP_CHR_UUID 0xABF1
static void
ble_spp_client_set_handle(const struct peer *peer)
{
const struct peer_chr *chr;
chr = peer_chr_find_uuid(peer,
BLE_UUID16_DECLARE(GATT_SPP_SVC_UUID),
BLE_UUID16_DECLARE(GATT_SPP_CHR_UUID));
attribute_handle[peer->conn_handle] = chr->chr.val_handle;
}
/**
* Called when service discovery of the specified peer has completed.
*/
static void
ble_spp_client_on_disc_complete(const struct peer *peer, int status, void *arg)
{
if (status != 0) {
/* Service discovery failed. Terminate the connection. */
MODLOG_DFLT(ERROR, "Error: Service discovery failed; status=%d "
"conn_handle=%d\n", status, peer->conn_handle);
ble_gap_terminate(peer->conn_handle, BLE_ERR_REM_USER_CONN_TERM);
return;
}
/* Service discovery has completed successfully. Now we have a complete
* list of services, characteristics, and descriptors that the peer
* supports.
*/
MODLOG_DFLT(INFO, "Service discovery complete; status=%d "
"conn_handle=%d\n", status, peer->conn_handle);
ble_spp_client_set_handle(peer);
ble_spp_client_scan();
}
/**
* Initiates the GAP general discovery procedure.
*/
static void
ble_spp_client_scan(void)
{
uint8_t own_addr_type;
struct ble_gap_disc_params disc_params;
int rc;
/* Figure out address to use while advertising (no privacy for now) */
rc = ble_hs_id_infer_auto(0, &own_addr_type);
if (rc != 0) {
MODLOG_DFLT(ERROR, "error determining address type; rc=%d\n", rc);
return;
}
/* Tell the controller to filter duplicates; we don't want to process
* repeated advertisements from the same device.
*/
disc_params.filter_duplicates = 1;
/**
* Perform a passive scan. I.e., don't send follow-up scan requests to
* each advertiser.
*/
disc_params.passive = 1;
/* Use defaults for the rest of the parameters. */
disc_params.itvl = 0;
disc_params.window = 0;
disc_params.filter_policy = 0;
disc_params.limited = 0;
rc = ble_gap_disc(own_addr_type, BLE_HS_FOREVER, &disc_params,
ble_spp_client_gap_event, NULL);
if (rc != 0) {
MODLOG_DFLT(ERROR, "Error initiating GAP discovery procedure; rc=%d\n",
rc);
}
}
/**
* Indicates whether we should try to connect to the sender of the specified
* advertisement. The function returns a positive result if the device
* advertises connectability and support for the Alert Notification service.
*/
static int
ble_spp_client_should_connect(const struct ble_gap_disc_desc *disc)
{
struct ble_hs_adv_fields fields;
int rc;
int i;
/* The device has to be advertising connectability. */
if (disc->event_type != BLE_HCI_ADV_RPT_EVTYPE_ADV_IND &&
disc->event_type != BLE_HCI_ADV_RPT_EVTYPE_DIR_IND) {
return 0;
}
rc = ble_hs_adv_parse_fields(&fields, disc->data, disc->length_data);
if (rc != 0) {
return rc;
}
/* The device has to advertise support for the Alert Notification
* service (0x1811).
*/
for (i = 0; i < fields.num_uuids16; i++) {
if (ble_uuid_u16(&fields.uuids16[i].u) == GATT_SVR_SVC_ALERT_UUID) {
return 1;
}
}
return 0;
}
/**
* Connects to the sender of the specified advertisement of it looks
* interesting. A device is "interesting" if it advertises connectability and
* support for the Alert Notification service.
*/
static void
ble_spp_client_connect_if_interesting(const struct ble_gap_disc_desc *disc)
{
uint8_t own_addr_type;
int rc;
/* Don't do anything if we don't care about this advertiser. */
if (!ble_spp_client_should_connect(disc)) {
return;
}
/* Scanning must be stopped before a connection can be initiated. */
rc = ble_gap_disc_cancel();
if (rc != 0) {
MODLOG_DFLT(DEBUG, "Failed to cancel scan; rc=%d\n", rc);
return;
}
/* Figure out address to use for connect (no privacy for now) */
rc = ble_hs_id_infer_auto(0, &own_addr_type);
if (rc != 0) {
MODLOG_DFLT(ERROR, "error determining address type; rc=%d\n", rc);
return;
}
/* Try to connect the the advertiser. Allow 30 seconds (30000 ms) for
* timeout.
*/
rc = ble_gap_connect(own_addr_type, &disc->addr, 30000, NULL,
ble_spp_client_gap_event, NULL);
if (rc != 0) {
MODLOG_DFLT(ERROR, "Error: Failed to connect to device; addr_type=%d "
"addr=%s; rc=%d\n",
disc->addr.type, addr_str(disc->addr.val), rc);
return;
}
}
/**
* The nimble host executes this callback when a GAP event occurs. The
* application associates a GAP event callback with each connection that is
* established. ble_spp_client uses the same callback for all connections.
*
* @param event The event being signalled.
* @param arg Application-specified argument; unused by
* ble_spp_client.
*
* @return 0 if the application successfully handled the
* event; nonzero on failure. The semantics
* of the return code is specific to the
* particular GAP event being signalled.
*/
static int
ble_spp_client_gap_event(struct ble_gap_event *event, void *arg)
{
struct ble_gap_conn_desc desc;
struct ble_hs_adv_fields fields;
int rc;
switch (event->type) {
case BLE_GAP_EVENT_DISC:
rc = ble_hs_adv_parse_fields(&fields, event->disc.data,
event->disc.length_data);
if (rc != 0) {
return 0;
}
/* An advertisment report was received during GAP discovery. */
print_adv_fields(&fields);
/* Try to connect to the advertiser if it looks interesting. */
ble_spp_client_connect_if_interesting(&event->disc);
return 0;
case BLE_GAP_EVENT_CONNECT:
/* A new connection was established or a connection attempt failed. */
if (event->connect.status == 0) {
/* Connection successfully established. */
MODLOG_DFLT(INFO, "Connection established ");
is_connect = true;
rc = ble_gap_conn_find(event->connect.conn_handle, &desc);
assert(rc == 0);
print_conn_desc(&desc);
MODLOG_DFLT(INFO, "\n");
/* Remember peer. */
rc = peer_add(event->connect.conn_handle);
if (rc != 0) {
MODLOG_DFLT(ERROR, "Failed to add peer; rc=%d\n", rc);
return 0;
}
/* Perform service discovery. */
rc = peer_disc_all(event->connect.conn_handle,
ble_spp_client_on_disc_complete, NULL);
if (rc != 0) {
MODLOG_DFLT(ERROR, "Failed to discover services; rc=%d\n", rc);
return 0;
}
} else {
/* Connection attempt failed; resume scanning. */
MODLOG_DFLT(ERROR, "Error: Connection failed; status=%d\n",
event->connect.status);
ble_spp_client_scan();
}
return 0;
case BLE_GAP_EVENT_DISCONNECT:
/* Connection terminated. */
MODLOG_DFLT(INFO, "disconnect; reason=%d ", event->disconnect.reason);
print_conn_desc(&event->disconnect.conn);
MODLOG_DFLT(INFO, "\n");
/* Forget about peer. */
attribute_handle[event->disconnect.conn.conn_handle] = 0;
peer_delete(event->disconnect.conn.conn_handle);
/* Resume scanning. */
ble_spp_client_scan();
return 0;
case BLE_GAP_EVENT_DISC_COMPLETE:
MODLOG_DFLT(INFO, "discovery complete; reason=%d\n",
event->disc_complete.reason);
return 0;
case BLE_GAP_EVENT_NOTIFY_RX:
/* Peer sent us a notification or indication. */
MODLOG_DFLT(INFO, "received %s; conn_handle=%d attr_handle=%d "
"attr_len=%d\n",
event->notify_rx.indication ?
"indication" :
"notification",
event->notify_rx.conn_handle,
event->notify_rx.attr_handle,
OS_MBUF_PKTLEN(event->notify_rx.om));
/* Attribute data is contained in event->notify_rx.om. Use
* `os_mbuf_copydata` to copy the data received in notification mbuf */
return 0;
case BLE_GAP_EVENT_MTU:
MODLOG_DFLT(INFO, "mtu update event; conn_handle=%d cid=%d mtu=%d\n",
event->mtu.conn_handle,
event->mtu.channel_id,
event->mtu.value);
return 0;
default:
return 0;
}
}
static void
ble_spp_client_on_reset(int reason)
{
MODLOG_DFLT(ERROR, "Resetting state; reason=%d\n", reason);
}
static void
ble_spp_client_on_sync(void)
{
int rc;
/* Make sure we have proper identity address set (public preferred) */
rc = ble_hs_util_ensure_addr(0);
assert(rc == 0);
/* Begin scanning for a peripheral to connect to. */
ble_spp_client_scan();
}
void ble_spp_client_host_task(void *param)
{
ESP_LOGI(tag, "BLE Host Task Started");
/* This function will return only when nimble_port_stop() is executed */
nimble_port_run();
nimble_port_freertos_deinit();
}
void ble_client_uart_task(void *pvParameters)
{
ESP_LOGI(tag,"BLE client UART task started\n");
int rc;
int i;
uart_event_t event;
for (;;) {
//Waiting for UART event.
if (xQueueReceive(spp_common_uart_queue, (void * )&event, (TickType_t)portMAX_DELAY)) {
switch (event.type) {
//Event of UART receving data
case UART_DATA:
if (event.size && (is_connect == true)) {
/* Writing characteristics */
uint8_t * temp = NULL;
temp = (uint8_t *)malloc(sizeof(uint8_t)*event.size);
if(temp == NULL){
ESP_LOGE(tag, "malloc failed,%s L#%d\n", __func__, __LINE__);
break;
}
memset(temp, 0x0, event.size);
uart_read_bytes(UART_NUM_0,temp,event.size,portMAX_DELAY);
for ( i = 1; i <= CONFIG_BT_NIMBLE_MAX_CONNECTIONS; i++) {
if (attribute_handle[i] != 0) {
rc = ble_gattc_write_flat(i, attribute_handle[i],temp, event.size,NULL, NULL);
if (rc == 0) {
ESP_LOGI(tag,"Write in uart task success!");
}
else {
ESP_LOGI(tag,"Error in writing characteristic rc=%d",rc);
}
vTaskDelay(10);
}
}
free(temp);
}
break;
default:
break;
}
}
}
vTaskDelete(NULL);
}
static void ble_spp_uart_init(void)
{
uart_config_t uart_config = {
.baud_rate = 115200,
.data_bits = UART_DATA_8_BITS,
.parity = UART_PARITY_DISABLE,
.stop_bits = UART_STOP_BITS_1,
.flow_ctrl = UART_HW_FLOWCTRL_RTS,
.rx_flow_ctrl_thresh = 122,
.source_clk = UART_SCLK_DEFAULT,
};
//Install UART driver, and get the queue.
uart_driver_install(UART_NUM_0, 4096, 8192, 10, &spp_common_uart_queue, 0);
//Set UART parameters
uart_param_config(UART_NUM_0, &uart_config);
//Set UART pins
uart_set_pin(UART_NUM_0, UART_PIN_NO_CHANGE, UART_PIN_NO_CHANGE, UART_PIN_NO_CHANGE, UART_PIN_NO_CHANGE);
xTaskCreate(ble_client_uart_task, "uTask", 4096, (void*)UART_NUM_0, 8, NULL);
}
void
app_main(void)
{
int rc;
/* Initialize NVS — it is used to store PHY calibration data */
esp_err_t ret = nvs_flash_init();
if (ret == ESP_ERR_NVS_NO_FREE_PAGES || ret == ESP_ERR_NVS_NEW_VERSION_FOUND) {
ESP_ERROR_CHECK(nvs_flash_erase());
ret = nvs_flash_init();
}
ESP_ERROR_CHECK(ret);
ESP_ERROR_CHECK(esp_nimble_hci_and_controller_init());
nimble_port_init();
/* Initialize UART driver and start uart task */
ble_spp_uart_init();
/* Configure the host. */
ble_hs_cfg.reset_cb = ble_spp_client_on_reset;
ble_hs_cfg.sync_cb = ble_spp_client_on_sync;
ble_hs_cfg.store_status_cb = ble_store_util_status_rr;
/* Initialize data structures to track connected peers. */
rc = peer_init(MYNEWT_VAL(BLE_MAX_CONNECTIONS), 64, 64, 64);
assert(rc == 0);
/* Set the default device name. */
rc = ble_svc_gap_device_name_set("nimble-ble-spp-client");
assert(rc == 0);
/* XXX Need to have template for store */
ble_store_config_init();
nimble_port_freertos_init(ble_spp_client_host_task);
}