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TinyGSM_Senseright
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TinyGSM_Senseright/examples/FileDownload/FileDownload.ino

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/**************************************************************
*
* For this example, you need to install CRC32 library:
* https://github.com/bakercp/CRC32
* or from http://librarymanager/all#CRC32+checksum
*
* TinyGSM Getting Started guide:
* https://tiny.cc/tinygsm-readme
*
* ATTENTION! Downloading big files requires of knowledge of
* the TinyGSM internals and some modem specifics,
* so this is for more experienced developers.
*
**************************************************************/
// Select your modem:
#define TINY_GSM_MODEM_SIM800
// #define TINY_GSM_MODEM_SIM808
// #define TINY_GSM_MODEM_SIM868
// #define TINY_GSM_MODEM_SIM900
// #define TINY_GSM_MODEM_SIM7000
// #define TINY_GSM_MODEM_SIM5360
// #define TINY_GSM_MODEM_SIM7600
// #define TINY_GSM_MODEM_UBLOX
// #define TINY_GSM_MODEM_SARAR4
// #define TINY_GSM_MODEM_M95
// #define TINY_GSM_MODEM_BG96
// #define TINY_GSM_MODEM_A6
// #define TINY_GSM_MODEM_A7
// #define TINY_GSM_MODEM_M590
// #define TINY_GSM_MODEM_MC60
// #define TINY_GSM_MODEM_MC60E
// #define TINY_GSM_MODEM_ESP8266
// #define TINY_GSM_MODEM_XBEE
// #define TINY_GSM_MODEM_SEQUANS_MONARCH
// Set serial for debug console (to the Serial Monitor, default speed 115200)
#define SerialMon Serial
// Set serial for AT commands (to the module)
// Use Hardware Serial on Mega, Leonardo, Micro
#define SerialAT Serial1
// or Software Serial on Uno, Nano
//#include <SoftwareSerial.h>
//SoftwareSerial SerialAT(2, 3); // RX, TX
// Increase RX buffer to capture the entire response
// Chips without internal buffering (A6/A7, ESP8266, M590)
// need enough space in the buffer for the entire response
// else data will be lost (and the http library will fail).
#if !defined(TINY_GSM_RX_BUFFER)
#define TINY_GSM_RX_BUFFER 1024
#endif
// See all AT commands, if wanted
// #define DUMP_AT_COMMANDS
// Define the serial console for debug prints, if needed
#define TINY_GSM_DEBUG SerialMon
// #define LOGGING // <- Logging is for the HTTP library
// Add a reception delay - may be needed for a fast processor at a slow baud rate
// #define TINY_GSM_YIELD() { delay(2); }
// Define how you're planning to connect to the internet
#define TINY_GSM_USE_GPRS true
#define TINY_GSM_USE_WIFI false
// set GSM PIN, if any
#define GSM_PIN ""
// Your GPRS credentials, if any
const char apn[] = "YourAPN";
const char gprsUser[] = "";
const char gprsPass[] = "";
// Your WiFi connection credentials, if applicable
const char wifiSSID[] = "YourSSID";
const char wifiPass[] = "YourWiFiPass";
// Server details
const char server[] = "vsh.pp.ua";
const int port = 80;
#include <TinyGsmClient.h>
#include <CRC32.h>
// Just in case someone defined the wrong thing..
#if TINY_GSM_USE_GPRS && not defined TINY_GSM_MODEM_HAS_GPRS
#undef TINY_GSM_USE_GPRS
#undef TINY_GSM_USE_WIFI
#define TINY_GSM_USE_GPRS false
#define TINY_GSM_USE_WIFI true
#endif
#if TINY_GSM_USE_WIFI && not defined TINY_GSM_MODEM_HAS_WIFI
#undef TINY_GSM_USE_GPRS
#undef TINY_GSM_USE_WIFI
#define TINY_GSM_USE_GPRS true
#define TINY_GSM_USE_WIFI false
#endif
const char resource[] = "/TinyGSM/test_1k.bin";
uint32_t knownCRC32 = 0x6f50d767;
uint32_t knownFileSize = 1024; // In case server does not send it
#ifdef DUMP_AT_COMMANDS
#include <StreamDebugger.h>
StreamDebugger debugger(SerialAT, SerialMon);
TinyGsm modem(debugger);
#else
TinyGsm modem(SerialAT);
#endif
TinyGsmClient client(modem);
void setup() {
// Set console baud rate
SerialMon.begin(115200);
delay(10);
// !!!!!!!!!!!
// Set your reset, enable, power pins here
// !!!!!!!!!!!
SerialMon.println("Wait...");
// Set GSM module baud rate
SerialAT.begin(115200);
delay(6000);
// Restart takes quite some time
// To skip it, call init() instead of restart()
SerialMon.println("Initializing modem...");
modem.restart();
// modem.init();
String modemInfo = modem.getModemInfo();
SerialMon.print("Modem Info: ");
SerialMon.println(modemInfo);
#if TINY_GSM_USE_GPRS
// Unlock your SIM card with a PIN if needed
if ( GSM_PIN && modem.getSimStatus() != 3 ) {
modem.simUnlock(GSM_PIN);
}
#endif
}
void printPercent(uint32_t readLength, uint32_t contentLength) {
// If we know the total length
if (contentLength != (uint32_t)-1) {
SerialMon.print("\r ");
SerialMon.print((100.0 * readLength) / contentLength);
SerialMon.print('%');
} else {
SerialMon.println(readLength);
}
}
void loop() {
#if TINY_GSM_USE_WIFI
// Wifi connection parameters must be set before waiting for the network
SerialMon.print(F("Setting SSID/password..."));
if (!modem.networkConnect(wifiSSID, wifiPass)) {
SerialMon.println(" fail");
delay(10000);
return;
}
SerialMon.println(" success");
#endif
#if TINY_GSM_USE_GPRS && defined TINY_GSM_MODEM_XBEE
// The XBee must run the gprsConnect function BEFORE waiting for network!
modem.gprsConnect(apn, gprsUser, gprsPass);
#endif
SerialMon.print("Waiting for network...");
if (!modem.waitForNetwork()) {
SerialMon.println(" fail");
delay(10000);
return;
}
SerialMon.println(" success");
if (modem.isNetworkConnected()) {
SerialMon.println("Network connected");
}
#if TINY_GSM_USE_GPRS
// GPRS connection parameters are usually set after network registration
SerialMon.print(F("Connecting to "));
SerialMon.print(apn);
if (!modem.gprsConnect(apn, gprsUser, gprsPass)) {
SerialMon.println(" fail");
delay(10000);
return;
}
SerialMon.println(" success");
if (modem.isGprsConnected()) {
SerialMon.println("GPRS connected");
}
#endif
SerialMon.print(F("Connecting to "));
SerialMon.print(server);
if (!client.connect(server, port)) {
SerialMon.println(" fail");
delay(10000);
return;
}
SerialMon.println(" success");
// Make a HTTP GET request:
client.print(String("GET ") + resource + " HTTP/1.0\r\n");
client.print(String("Host: ") + server + "\r\n");
client.print("Connection: close\r\n\r\n");
// Let's see what the entire elapsed time is, from after we send the request.
uint32_t timeElapsed = millis();
SerialMon.println(F("Waiting for response header"));
// While we are still looking for the end of the header (i.e. empty line FOLLOWED by a newline),
// continue to read data into the buffer, parsing each line (data FOLLOWED by a newline).
// If it takes too long to get data from the client, we need to exit.
const uint32_t clientReadTimeout = 5000;
uint32_t clientReadStartTime = millis();
String headerBuffer;
bool finishedHeader = false;
uint32_t contentLength = 0;
while (!finishedHeader) {
int nlPos;
if (client.available()) {
clientReadStartTime = millis();
while (client.available()) {
char c = client.read();
headerBuffer += c;
// Uncomment the lines below to see the data coming into the buffer
// if (c < 16)
// SerialMon.print('0');
// SerialMon.print(c, HEX);
// SerialMon.print(' ');
// if (isprint(c))
// SerialMon.print(reinterpret_cast<char> c);
// else
// SerialMon.print('*');
// SerialMon.print(' ');
// Let's exit and process if we find a new line
if (headerBuffer.indexOf(F("\r\n")) >= 0)
break;
}
}
else {
if (millis() - clientReadStartTime > clientReadTimeout) {
// Time-out waiting for data from client
SerialMon.println(F(">>> Client Timeout !"));
break;
}
}
// See if we have a new line.
nlPos = headerBuffer.indexOf(F("\r\n"));
if (nlPos > 0) {
headerBuffer.toLowerCase();
// Check if line contains content-length
if (headerBuffer.startsWith(F("content-length:"))) {
contentLength = headerBuffer.substring(headerBuffer.indexOf(':') + 1).toInt();
// SerialMon.print(F("Got Content Length: ")); // uncomment for
// SerialMon.println(contentLength); // confirmation
}
headerBuffer.remove(0, nlPos + 2); // remove the line
}
else if (nlPos == 0) {
// if the new line is empty (i.e. "\r\n" is at the beginning of the line), we are done with the header.
finishedHeader = true;
}
}
// The two cases which are not managed properly are as follows:
// 1. The client doesn't provide data quickly enough to keep up with this loop.
// 2. If the client data is segmented in the middle of the 'Content-Length: ' header,
// then that header may be missed/damaged.
//
uint32_t readLength = 0;
CRC32 crc;
if (finishedHeader && contentLength == knownFileSize) {
SerialMon.println(F("Reading response data"));
clientReadStartTime = millis();
printPercent(readLength, contentLength);
while (readLength < contentLength && client.connected() && millis() - clientReadStartTime < clientReadTimeout) {
while (client.available()) {
uint8_t c = client.read();
//SerialMon.print(reinterpret_cast<char>c); // Uncomment this to show data
crc.update(c);
readLength++;
if (readLength % (contentLength / 13) == 0) {
printPercent(readLength, contentLength);
}
clientReadStartTime = millis();
}
}
printPercent(readLength, contentLength);
}
timeElapsed = millis() - timeElapsed;
SerialMon.println();
// Shutdown
client.stop();
SerialMon.println(F("Server disconnected"));
#if TINY_GSM_USE_WIFI
modem.networkDisconnect();
SerialMon.println(F("WiFi disconnected"));
#endif
#if TINY_GSM_USE_GPRS
modem.gprsDisconnect();
SerialMon.println(F("GPRS disconnected"));
#endif
float duration = float(timeElapsed) / 1000;
SerialMon.println();
SerialMon.print("Content-Length: "); SerialMon.println(contentLength);
SerialMon.print("Actually read: "); SerialMon.println(readLength);
SerialMon.print("Calc. CRC32: 0x"); SerialMon.println(crc.finalize(), HEX);
SerialMon.print("Known CRC32: 0x"); SerialMon.println(knownCRC32, HEX);
SerialMon.print("Duration: "); SerialMon.print(duration); SerialMon.println("s");
// Do nothing forevermore
while (true) {
delay(1000);
}
}