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Tasmota/libesp32/NimBLE-Arduino/examples/NimBLE_Client/NimBLE_Client.ino

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/** NimBLE_Server Demo:
*
* Demonstrates many of the available features of the NimBLE client library.
*
* Created: on March 24 2020
* Author: H2zero
*
*/
#include <NimBLEDevice.h>
void scanEndedCB(NimBLEScanResults results);
static NimBLEAdvertisedDevice* advDevice;
static bool doConnect = false;
static uint32_t scanTime = 0; /** 0 = scan forever */
/** None of these are required as they will be handled by the library with defaults. **
** Remove as you see fit for your needs */
class ClientCallbacks : public NimBLEClientCallbacks {
void onConnect(NimBLEClient* pClient) {
Serial.println("Connected");
/** After connection we should change the parameters if we don't need fast response times.
* These settings are 150ms interval, 0 latency, 450ms timout.
* Timeout should be a multiple of the interval, minimum is 100ms.
* I find a multiple of 3-5 * the interval works best for quick response/reconnect.
* Min interval: 120 * 1.25ms = 150, Max interval: 120 * 1.25ms = 150, 0 latency, 60 * 10ms = 600ms timeout
*/
pClient->updateConnParams(120,120,0,60);
};
void onDisconnect(NimBLEClient* pClient) {
Serial.print(pClient->getPeerAddress().toString().c_str());
Serial.println(" Disconnected - Starting scan");
NimBLEDevice::getScan()->start(scanTime, scanEndedCB);
};
/** Called when the peripheral requests a change to the connection parameters.
* Return true to accept and apply them or false to reject and keep
* the currently used parameters. Default will return true.
*/
bool onConnParamsUpdateRequest(NimBLEClient* pClient, const ble_gap_upd_params* params) {
if(params->itvl_min < 24) { /** 1.25ms units */
return false;
} else if(params->itvl_max > 40) { /** 1.25ms units */
return false;
} else if(params->latency > 2) { /** Number of intervals allowed to skip */
return false;
} else if(params->supervision_timeout > 100) { /** 10ms units */
return false;
}
return true;
};
/********************* Security handled here **********************
****** Note: these are the same return values as defaults ********/
uint32_t onPassKeyRequest(){
Serial.println("Client Passkey Request");
/** return the passkey to send to the server */
return 123456;
};
bool onConfirmPIN(uint32_t pass_key){
Serial.print("The passkey YES/NO number: ");
Serial.println(pass_key);
/** Return false if passkeys don't match. */
return true;
};
/** Pairing process complete, we can check the results in ble_gap_conn_desc */
void onAuthenticationComplete(ble_gap_conn_desc* desc){
if(!desc->sec_state.encrypted) {
Serial.println("Encrypt connection failed - disconnecting");
/** Find the client with the connection handle provided in desc */
NimBLEDevice::getClientByID(desc->conn_handle)->disconnect();
return;
}
};
};
/** Define a class to handle the callbacks when advertisments are received */
class AdvertisedDeviceCallbacks: public NimBLEAdvertisedDeviceCallbacks {
void onResult(NimBLEAdvertisedDevice* advertisedDevice) {
Serial.print("Advertised Device found: ");
Serial.println(advertisedDevice->toString().c_str());
if(advertisedDevice->isAdvertisingService(NimBLEUUID("DEAD")))
{
Serial.println("Found Our Service");
/** stop scan before connecting */
NimBLEDevice::getScan()->stop();
/** Save the device reference in a global for the client to use*/
advDevice = advertisedDevice;
/** Ready to connect now */
doConnect = true;
}
};
};
/** Notification / Indication receiving handler callback */
void notifyCB(NimBLERemoteCharacteristic* pRemoteCharacteristic, uint8_t* pData, size_t length, bool isNotify){
std::string str = (isNotify == true) ? "Notification" : "Indication";
str += " from ";
/** NimBLEAddress and NimBLEUUID have std::string operators */
str += std::string(pRemoteCharacteristic->getRemoteService()->getClient()->getPeerAddress());
str += ": Service = " + std::string(pRemoteCharacteristic->getRemoteService()->getUUID());
str += ", Characteristic = " + std::string(pRemoteCharacteristic->getUUID());
str += ", Value = " + std::string((char*)pData, length);
Serial.println(str.c_str());
}
/** Callback to process the results of the last scan or restart it */
void scanEndedCB(NimBLEScanResults results){
Serial.println("Scan Ended");
}
/** Create a single global instance of the callback class to be used by all clients */
static ClientCallbacks clientCB;
/** Handles the provisioning of clients and connects / interfaces with the server */
bool connectToServer() {
NimBLEClient* pClient = nullptr;
/** Check if we have a client we should reuse first **/
if(NimBLEDevice::getClientListSize()) {
/** Special case when we already know this device, we send false as the
* second argument in connect() to prevent refreshing the service database.
* This saves considerable time and power.
*/
pClient = NimBLEDevice::getClientByPeerAddress(advDevice->getAddress());
if(pClient){
if(!pClient->connect(advDevice, false)) {
Serial.println("Reconnect failed");
return false;
}
Serial.println("Reconnected client");
}
/** We don't already have a client that knows this device,
* we will check for a client that is disconnected that we can use.
*/
else {
pClient = NimBLEDevice::getDisconnectedClient();
}
}
/** No client to reuse? Create a new one. */
if(!pClient) {
if(NimBLEDevice::getClientListSize() >= NIMBLE_MAX_CONNECTIONS) {
Serial.println("Max clients reached - no more connections available");
return false;
}
pClient = NimBLEDevice::createClient();
Serial.println("New client created");
pClient->setClientCallbacks(&clientCB, false);
/** Set initial connection parameters: These settings are 15ms interval, 0 latency, 120ms timout.
* These settings are safe for 3 clients to connect reliably, can go faster if you have less
* connections. Timeout should be a multiple of the interval, minimum is 100ms.
* Min interval: 12 * 1.25ms = 15, Max interval: 12 * 1.25ms = 15, 0 latency, 51 * 10ms = 510ms timeout
*/
pClient->setConnectionParams(12,12,0,51);
/** Set how long we are willing to wait for the connection to complete (seconds), default is 30. */
pClient->setConnectTimeout(5);
if (!pClient->connect(advDevice)) {
/** Created a client but failed to connect, don't need to keep it as it has no data */
NimBLEDevice::deleteClient(pClient);
Serial.println("Failed to connect, deleted client");
return false;
}
}
if(!pClient->isConnected()) {
if (!pClient->connect(advDevice)) {
Serial.println("Failed to connect");
return false;
}
}
Serial.print("Connected to: ");
Serial.println(pClient->getPeerAddress().toString().c_str());
Serial.print("RSSI: ");
Serial.println(pClient->getRssi());
/** Now we can read/write/subscribe the charateristics of the services we are interested in */
NimBLERemoteService* pSvc = nullptr;
NimBLERemoteCharacteristic* pChr = nullptr;
NimBLERemoteDescriptor* pDsc = nullptr;
pSvc = pClient->getService("DEAD");
if(pSvc) { /** make sure it's not null */
pChr = pSvc->getCharacteristic("BEEF");
}
if(pChr) { /** make sure it's not null */
if(pChr->canRead()) {
Serial.print(pChr->getUUID().toString().c_str());
Serial.print(" Value: ");
Serial.println(pChr->readValue().c_str());
}
if(pChr->canWrite()) {
if(pChr->writeValue("Tasty")) {
Serial.print("Wrote new value to: ");
Serial.println(pChr->getUUID().toString().c_str());
}
else {
/** Disconnect if write failed */
pClient->disconnect();
return false;
}
if(pChr->canRead()) {
Serial.print("The value of: ");
Serial.print(pChr->getUUID().toString().c_str());
Serial.print(" is now: ");
Serial.println(pChr->readValue().c_str());
}
}
/** registerForNotify() has been deprecated and replaced with subscribe() / unsubscribe().
* Subscribe parameter defaults are: notifications=true, notifyCallback=nullptr, response=false.
* Unsubscribe parameter defaults are: response=false.
*/
if(pChr->canNotify()) {
//if(!pChr->registerForNotify(notifyCB)) {
if(!pChr->subscribe(true, notifyCB)) {
/** Disconnect if subscribe failed */
pClient->disconnect();
return false;
}
}
else if(pChr->canIndicate()) {
/** Send false as first argument to subscribe to indications instead of notifications */
//if(!pChr->registerForNotify(notifyCB, false)) {
if(!pChr->subscribe(false, notifyCB)) {
/** Disconnect if subscribe failed */
pClient->disconnect();
return false;
}
}
}
else{
Serial.println("DEAD service not found.");
}
pSvc = pClient->getService("BAAD");
if(pSvc) { /** make sure it's not null */
pChr = pSvc->getCharacteristic("F00D");
}
if(pChr) { /** make sure it's not null */
if(pChr->canRead()) {
Serial.print(pChr->getUUID().toString().c_str());
Serial.print(" Value: ");
Serial.println(pChr->readValue().c_str());
}
pDsc = pChr->getDescriptor(NimBLEUUID("C01D"));
if(pDsc) { /** make sure it's not null */
Serial.print("Descriptor: ");
Serial.print(pDsc->getUUID().toString().c_str());
Serial.print(" Value: ");
Serial.println(pDsc->readValue().c_str());
}
if(pChr->canWrite()) {
if(pChr->writeValue("No tip!")) {
Serial.print("Wrote new value to: ");
Serial.println(pChr->getUUID().toString().c_str());
}
else {
/** Disconnect if write failed */
pClient->disconnect();
return false;
}
if(pChr->canRead()) {
Serial.print("The value of: ");
Serial.print(pChr->getUUID().toString().c_str());
Serial.print(" is now: ");
Serial.println(pChr->readValue().c_str());
}
}
/** registerForNotify() has been deprecated and replaced with subscribe() / unsubscribe().
* Subscribe parameter defaults are: notifications=true, notifyCallback=nullptr, response=false.
* Unsubscribe parameter defaults are: response=false.
*/
if(pChr->canNotify()) {
//if(!pChr->registerForNotify(notifyCB)) {
if(!pChr->subscribe(true, notifyCB)) {
/** Disconnect if subscribe failed */
pClient->disconnect();
return false;
}
}
else if(pChr->canIndicate()) {
/** Send false as first argument to subscribe to indications instead of notifications */
//if(!pChr->registerForNotify(notifyCB, false)) {
if(!pChr->subscribe(false, notifyCB)) {
/** Disconnect if subscribe failed */
pClient->disconnect();
return false;
}
}
}
else{
Serial.println("BAAD service not found.");
}
Serial.println("Done with this device!");
return true;
}
void setup (){
Serial.begin(115200);
Serial.println("Starting NimBLE Client");
/** Initialize NimBLE, no device name spcified as we are not advertising */
NimBLEDevice::init("");
/** Set the IO capabilities of the device, each option will trigger a different pairing method.
* BLE_HS_IO_KEYBOARD_ONLY - Passkey pairing
* BLE_HS_IO_DISPLAY_YESNO - Numeric comparison pairing
* BLE_HS_IO_NO_INPUT_OUTPUT - DEFAULT setting - just works pairing
*/
//NimBLEDevice::setSecurityIOCap(BLE_HS_IO_KEYBOARD_ONLY); // use passkey
//NimBLEDevice::setSecurityIOCap(BLE_HS_IO_DISPLAY_YESNO); //use numeric comparison
/** 2 different ways to set security - both calls achieve the same result.
* no bonding, no man in the middle protection, secure connections.
*
* These are the default values, only shown here for demonstration.
*/
//NimBLEDevice::setSecurityAuth(false, false, true);
NimBLEDevice::setSecurityAuth(/*BLE_SM_PAIR_AUTHREQ_BOND | BLE_SM_PAIR_AUTHREQ_MITM |*/ BLE_SM_PAIR_AUTHREQ_SC);
/** Optional: set the transmit power, default is 3db */
NimBLEDevice::setPower(ESP_PWR_LVL_P9); /** +9db */
/** Optional: set any devices you don't want to get advertisments from */
// NimBLEDevice::addIgnored(NimBLEAddress ("aa:bb:cc:dd:ee:ff"));
/** create new scan */
NimBLEScan* pScan = NimBLEDevice::getScan();
/** create a callback that gets called when advertisers are found */
pScan->setAdvertisedDeviceCallbacks(new AdvertisedDeviceCallbacks());
/** Set scan interval (how often) and window (how long) in milliseconds */
pScan->setInterval(45);
pScan->setWindow(15);
/** Active scan will gather scan response data from advertisers
* but will use more energy from both devices
*/
pScan->setActiveScan(true);
/** Start scanning for advertisers for the scan time specified (in seconds) 0 = forever
* Optional callback for when scanning stops.
*/
pScan->start(scanTime, scanEndedCB);
}
void loop (){
/** Loop here until we find a device we want to connect to */
while(!doConnect){
delay(1);
}
doConnect = false;
/** Found a device we want to connect to, do it now */
if(connectToServer()) {
Serial.println("Success! we should now be getting notifications, scanning for more!");
} else {
Serial.println("Failed to connect, starting scan");
}
NimBLEDevice::getScan()->start(scanTime,scanEndedCB);
}
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