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Added ESPNow Multi-Slave example (#669)

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* Added ESPNow basic example

* fixed meta doc for slave

* refactored folder structure

* bug fixes

* Added Single Master Multi-Slave

* updated meta docs
This commit is contained in:
Arvind Ravulavaru 2017-09-27 14:16:17 +05:30 committed by Me No Dev
parent 2b6d47ac17
commit a66b544d18
3 changed files with 341 additions and 10 deletions
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13
libraries/ESP32/examples/ESPNow/Basic/Master/Master.ino
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@ -55,7 +55,10 @@ void InitESPNow() {
// Scan for slaves in AP mode
void ScanForSlave() {
int8_t scanResults = WiFi.scanNetworks();
// reset on each scan
bool slaveFound = 0;
memset(&slave, 0, sizeof(slave));
Serial.println("");
if (scanResults == 0) {
Serial.println("No WiFi devices in AP Mode found");
@ -128,14 +131,6 @@ bool manageSlave() {
// Slave already paired.
Serial.println("Already Paired");
return true;
} else if (exists == ESP_ERR_ESPNOW_NOT_INIT) {
// How did we get so far!!
Serial.println("ESPNOW Not InitESP_ERR_ESPNOW_NOT_INIT");
return false;
} else if (exists == ESP_ERR_ESPNOW_ARG) {
// Invalid Argument
Serial.println("Invalid Argument");
return false;
} else {
// Slave not paired, attempt pair
esp_err_t addStatus = esp_now_add_peer(peer);
@ -191,8 +186,6 @@ void deletePeer() {
}
}
uint8_t data = 0;
// send data
void sendData() {

245
libraries/ESP32/examples/ESPNow/Multi-Slave/Master/Master.ino Normal file
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@ -0,0 +1,245 @@
/**
ESPNOW - Basic communication - Master
Date: 26th September 2017
Author: Arvind Ravulavaru <https://github.com/arvindr21>
Purpose: ESPNow Communication between a Master ESP32 and multiple ESP32 Slaves
Description: This sketch consists of the code for the Master module.
Resources: (A bit outdated)
a. https://espressif.com/sites/default/files/documentation/esp-now_user_guide_en.pdf
b. http://www.esploradores.com/practica-6-conexion-esp-now/
<< This Device Master >>
Flow: Master
Step 1 : ESPNow Init on Master and set it in STA mode
Step 2 : Start scanning for Slave ESP32 (we have added a prefix of `slave` to the SSID of slave for an easy setup)
Step 3 : Once found, add Slave as peer
Step 4 : Register for send callback
Step 5 : Start Transmitting data from Master to Slave(s)
Flow: Slave
Step 1 : ESPNow Init on Slave
Step 2 : Update the SSID of Slave with a prefix of `slave`
Step 3 : Set Slave in AP mode
Step 4 : Register for receive callback and wait for data
Step 5 : Once data arrives, print it in the serial monitor
Note: Master and Slave have been defined to easily understand the setup.
Based on the ESPNOW API, there is no concept of Master and Slave.
Any devices can act as master or salve.
// Sample Serial log with 1 master & 2 slaves
Found 12 devices
1: Slave:24:0A:C4:81:CF:A4 [24:0A:C4:81:CF:A5] (-44)
3: Slave:30:AE:A4:02:6D:CC [30:AE:A4:02:6D:CD] (-55)
2 Slave(s) found, processing..
Processing: 24:A:C4:81:CF:A5 Status: Already Paired
Processing: 30:AE:A4:2:6D:CD Status: Already Paired
Sending: 9
Send Status: Success
Last Packet Sent to: 24:0a:c4:81:cf:a5
Last Packet Send Status: Delivery Success
Send Status: Success
Last Packet Sent to: 30:ae:a4:02:6d:cd
Last Packet Send Status: Delivery Success
*/
#include <esp_now.h>
#include <WiFi.h>
// Global copy of slave
#define NUMSLAVES 20
esp_now_peer_info_t slaves[NUMSLAVES] = {};
int SlaveCnt = 0;
#define CHANNEL 3
#define PRINTSCANRESULTS 0
// Init ESP Now with fallback
void InitESPNow() {
if (esp_now_init() == ESP_OK) {
Serial.println("ESPNow Init Success");
}
else {
Serial.println("ESPNow Init Failed");
// Retry InitESPNow, add a counte and then restart?
// InitESPNow();
// or Simply Restart
ESP.restart();
}
}
// Scan for slaves in AP mode
void ScanForSlave() {
int8_t scanResults = WiFi.scanNetworks();
//reset slaves
memset(slaves, 0, sizeof(slaves));
SlaveCnt = 0;
Serial.println("");
if (scanResults == 0) {
Serial.println("No WiFi devices in AP Mode found");
} else {
Serial.print("Found "); Serial.print(scanResults); Serial.println(" devices ");
for (int i = 0; i < scanResults; ++i) {
// Print SSID and RSSI for each device found
String SSID = WiFi.SSID(i);
int32_t RSSI = WiFi.RSSI(i);
String BSSIDstr = WiFi.BSSIDstr(i);
if (PRINTSCANRESULTS) {
Serial.print(i + 1); Serial.print(": "); Serial.print(SSID); Serial.print(" ["); Serial.print(BSSIDstr); Serial.print("]"); Serial.print(" ("); Serial.print(RSSI); Serial.print(")"); Serial.println("");
}
delay(10);
// Check if the current device starts with `Slave`
if (SSID.indexOf("Slave") == 0) {
// SSID of interest
Serial.print(i + 1); Serial.print(": "); Serial.print(SSID); Serial.print(" ["); Serial.print(BSSIDstr); Serial.print("]"); Serial.print(" ("); Serial.print(RSSI); Serial.print(")"); Serial.println("");
// Get BSSID => Mac Address of the Slave
int mac[6];
if ( 6 == sscanf(BSSIDstr.c_str(), "%x:%x:%x:%x:%x:%x%c", &mac[0], &mac[1], &mac[2], &mac[3], &mac[4], &mac[5] ) ) {
for (int ii = 0; ii < 6; ++ii ) {
slaves[SlaveCnt].peer_addr[ii] = (uint8_t) mac[ii];
}
}
slaves[SlaveCnt].channel = CHANNEL; // pick a channel
slaves[SlaveCnt].encrypt = 0; // no encryption
SlaveCnt++;
}
}
}
if (SlaveCnt > 0) {
Serial.print(SlaveCnt); Serial.println(" Slave(s) found, processing..");
} else {
Serial.println("No Slave Found, trying again.");
}
// clean up ram
WiFi.scanDelete();
}
// Check if the slave is already paired with the master.
// If not, pair the slave with master
void manageSlave() {
if (SlaveCnt > 0) {
for (int i = 0; i < SlaveCnt; i++) {
const esp_now_peer_info_t *peer = &slaves[i];
const uint8_t *peer_addr = slaves[i].peer_addr;
Serial.print("Processing: ");
for (int ii = 0; ii < 6; ++ii ) {
Serial.print((uint8_t) slaves[i].peer_addr[ii], HEX);
if (ii != 5) Serial.print(":");
}
Serial.print(" Status: ");
// check if the peer exists
bool exists = esp_now_is_peer_exist(peer_addr);
if (exists) {
// Slave already paired.
Serial.println("Already Paired");
} else {
// Slave not paired, attempt pair
esp_err_t addStatus = esp_now_add_peer(peer);
if (addStatus == ESP_OK) {
// Pair success
Serial.println("Pair success");
} else if (addStatus == ESP_ERR_ESPNOW_NOT_INIT) {
// How did we get so far!!
Serial.println("ESPNOW Not Init");
} else if (addStatus == ESP_ERR_ESPNOW_ARG) {
Serial.println("Add Peer - Invalid Argument");
} else if (addStatus == ESP_ERR_ESPNOW_FULL) {
Serial.println("Peer list full");
} else if (addStatus == ESP_ERR_ESPNOW_NO_MEM) {
Serial.println("Out of memory");
} else if (addStatus == ESP_ERR_ESPNOW_EXIST) {
Serial.println("Peer Exists");
} else {
Serial.println("Not sure what happened");
}
delay(100);
}
}
} else {
// No slave found to process
Serial.println("No Slave found to process");
}
}
uint8_t data = 0;
// send data
void sendData() {
data++;
for (int i = 0; i < SlaveCnt; i++) {
const uint8_t *peer_addr = slaves[i].peer_addr;
if (i == 0) { // print only for first slave
Serial.print("Sending: ");
Serial.println(data);
}
esp_err_t result = esp_now_send(peer_addr, &data, sizeof(data));
Serial.print("Send Status: ");
if (result == ESP_OK) {
Serial.println("Success");
} else if (result == ESP_ERR_ESPNOW_NOT_INIT) {
// How did we get so far!!
Serial.println("ESPNOW not Init.");
} else if (result == ESP_ERR_ESPNOW_ARG) {
Serial.println("Invalid Argument");
} else if (result == ESP_ERR_ESPNOW_INTERNAL) {
Serial.println("Internal Error");
} else if (result == ESP_ERR_ESPNOW_NO_MEM) {
Serial.println("ESP_ERR_ESPNOW_NO_MEM");
} else if (result == ESP_ERR_ESPNOW_NOT_FOUND) {
Serial.println("Peer not found.");
} else {
Serial.println("Not sure what happened");
}
delay(100);
}
}
// callback when data is sent from Master to Slave
void OnDataSent(const uint8_t *mac_addr, esp_now_send_status_t status) {
char macStr[18];
snprintf(macStr, sizeof(macStr), "%02x:%02x:%02x:%02x:%02x:%02x",
mac_addr[0], mac_addr[1], mac_addr[2], mac_addr[3], mac_addr[4], mac_addr[5]);
Serial.print("Last Packet Sent to: "); Serial.println(macStr);
Serial.print("Last Packet Send Status: "); Serial.println(status == ESP_NOW_SEND_SUCCESS ? "Delivery Success" : "Delivery Fail");
}
void setup() {
Serial.begin(115200);
//Set device in STA mode to begin with
WiFi.mode(WIFI_STA);
Serial.println("ESPNow/Multi-Slave/Master Example");
// This is the mac address of the Master in Station Mode
Serial.print("STA MAC: "); Serial.println(WiFi.macAddress());
// Init ESPNow with a fallback logic
InitESPNow();
// Once ESPNow is successfully Init, we will register for Send CB to
// get the status of Trasnmitted packet
esp_now_register_send_cb(OnDataSent);
}
void loop() {
// In the loop we scan for slave
ScanForSlave();
// If Slave is found, it would be populate in `slave` variable
// We will check if `slave` is defined and then we proceed further
if (SlaveCnt > 0) { // check if slave channel is defined
// `slave` is defined
// Add slave as peer if it has not been added already
manageSlave();
// pair success or already paired
// Send data to device
sendData();
} else {
// No slave found to process
}
// wait for 3seconds to run the logic again
delay(1000);
}

93
libraries/ESP32/examples/ESPNow/Multi-Slave/Slave/Slave.ino Normal file
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@ -0,0 +1,93 @@
/**
ESPNOW - Basic communication - Slave
Date: 26th September 2017
Author: Arvind Ravulavaru <https://github.com/arvindr21>
Purpose: ESPNow Communication between a Master ESP32 and multiple ESP32 Slaves
Description: This sketch consists of the code for the Slave module.
Resources: (A bit outdated)
a. https://espressif.com/sites/default/files/documentation/esp-now_user_guide_en.pdf
b. http://www.esploradores.com/practica-6-conexion-esp-now/
<< This Device Slave >>
Flow: Master
Step 1 : ESPNow Init on Master and set it in STA mode
Step 2 : Start scanning for Slave ESP32 (we have added a prefix of `slave` to the SSID of slave for an easy setup)
Step 3 : Once found, add Slave as peer
Step 4 : Register for send callback
Step 5 : Start Transmitting data from Master to Slave(s)
Flow: Slave
Step 1 : ESPNow Init on Slave
Step 2 : Update the SSID of Slave with a prefix of `slave`
Step 3 : Set Slave in AP mode
Step 4 : Register for receive callback and wait for data
Step 5 : Once data arrives, print it in the serial monitor
Note: Master and Slave have been defined to easily understand the setup.
Based on the ESPNOW API, there is no concept of Master and Slave.
Any devices can act as master or salve.
*/
#include <esp_now.h>
#include <WiFi.h>
#define CHANNEL 1
// Init ESP Now with fallback
void InitESPNow() {
if (esp_now_init() == ESP_OK) {
Serial.println("ESPNow Init Success");
}
else {
Serial.println("ESPNow Init Failed");
// Retry InitESPNow, add a counte and then restart?
// InitESPNow();
// or Simply Restart
ESP.restart();
}
}
// config AP SSID
void configDeviceAP() {
String Prefix = "Slave:";
String Mac = WiFi.macAddress();
String SSID = Prefix + Mac;
String Password = "123456789";
bool result = WiFi.softAP(SSID.c_str(), Password.c_str(), CHANNEL, 0);
if (!result) {
Serial.println("AP Config failed.");
} else {
Serial.println("AP Config Success. Broadcasting with AP: " + String(SSID));
}
}
void setup() {
Serial.begin(115200);
Serial.println("ESPNow/Basic/Slave Example");
//Set device in AP mode to begin with
WiFi.mode(WIFI_AP);
// configure device AP mode
configDeviceAP();
// This is the mac address of the Slave in AP Mode
Serial.print("AP MAC: "); Serial.println(WiFi.softAPmacAddress());
// Init ESPNow with a fallback logic
InitESPNow();
// Once ESPNow is successfully Init, we will register for recv CB to
// get recv packer info.
esp_now_register_recv_cb(OnDataRecv);
}
// callback when data is recv from Master
void OnDataRecv(const uint8_t *mac_addr, const uint8_t *data, int data_len) {
char macStr[18];
snprintf(macStr, sizeof(macStr), "%02x:%02x:%02x:%02x:%02x:%02x",
mac_addr[0], mac_addr[1], mac_addr[2], mac_addr[3], mac_addr[4], mac_addr[5]);
Serial.print("Last Packet Recv from: "); Serial.println(macStr);
Serial.print("Last Packet Recv Data: "); Serial.println(*data);
Serial.println("");
}
void loop() {
// Chill
}