sterwill/atwinc1500_hang.ino

## atwinc1500_hang.ino
// Demonstrates a lock-up with the Feather M0 + ATWINC1500 while attemping
// to write a byte of data to a TCP connection during a sustained read at
// full speed.
//
// Run a program that generates an endless stream of bytes on a host
// you can reach from your network ("yes | nc -k -l -p 9999"), customize
// the code below to connect to it, then run the sketch and watch the output
// on a serial monitor.
//
// You can use "pv" on the server side to rate-limit the stream.
// "yes |pv -L 10000 | nc -k -l -p 9999" limits the stream to 10,000 bytes/s.
//
// The lock-up happens quicker at higher speeds.  153,276 bytes/s (full speed)
// triggers it in under 10 seconds, 140,000 bytes/s takes 30 seconds,
// but at 130,000 bytes/s it ran for over 10 minutes with no problems before I
// stopped it.
//
// License: CC0
// To the extent possible under law, Shaw Terwilliger has waived all copyright
// and related or neighboring rights to this program. This work is published
// from: United States.

#include <WiFi101.h>

#define WIFI_SSID         "your ssid here"
#define WIFI_PASSPHRASE   "your passphrase"

// Point at a host and port that will feed you endless bytes.
#define TCP_HOST          "server.example.com"
#define TCP_PORT          9999

// Buffer > MTU (~1400) to allow for full packet reads
static uint8_t buf[2000];
static WiFiClient client;

static uint32_t last_write_at = 0;
static uint16_t writes = 0;
static uint32_t bytes_read_since_last_write = 0;

void setup() {
  Serial.begin(115200);
  Serial.println();
  Serial.println("started");

  // Pins for Feather M0
  WiFi.setPins(8, 7, 4, 2);

  WiFi.begin(WIFI_SSID, WIFI_PASSPHRASE);
  Serial.print("wifi... ");
  while (WiFi.status() != WL_CONNECTED) {}
  Serial.println(" connected");
}

void loop() {
  // Get connected
  if (!client.connected()) {
    Serial.print("tcp... ");
    if (!client.connect(TCP_HOST, TCP_PORT)) {
      Serial.println(" failed");
      return;
    }
    Serial.println(" connected");
  }

  uint32_t now = millis();

  // Read as much as we can.
  int bytes_read = client.read(buf, sizeof(buf));
  if (bytes_read > 0) {
    bytes_read_since_last_write += bytes_read;
  }

  // Print status and send a byte each second.
  if (now - last_write_at > 1000) {
    Serial.print(++writes, DEC);
    Serial.print(": read ");
    Serial.print(bytes_read_since_last_write, DEC);
    Serial.print(" bytes/s, writing 1 byte... ");
    client.write('x');
    Serial.println(" done.");

    last_write_at = now;
    bytes_read_since_last_write = 0;
  }
}
	// Demonstrates a lock-up with the Feather M0 + ATWINC1500 while attemping
	// to write a byte of data to a TCP connection during a sustained read at
	// full speed.
	//
	// Run a program that generates an endless stream of bytes on a host
	// you can reach from your network ("yes \| nc -k -l -p 9999"), customize
	// the code below to connect to it, then run the sketch and watch the output
	// on a serial monitor.
	//
	// You can use "pv" on the server side to rate-limit the stream.
	// "yes \|pv -L 10000 \| nc -k -l -p 9999" limits the stream to 10,000 bytes/s.
	//
	// The lock-up happens quicker at higher speeds. 153,276 bytes/s (full speed)
	// triggers it in under 10 seconds, 140,000 bytes/s takes 30 seconds,
	// but at 130,000 bytes/s it ran for over 10 minutes with no problems before I
	// stopped it.
	//
	// License: CC0
	// To the extent possible under law, Shaw Terwilliger has waived all copyright
	// and related or neighboring rights to this program. This work is published
	// from: United States.

	#include <WiFi101.h>

	#define WIFI_SSID "your ssid here"
	#define WIFI_PASSPHRASE "your passphrase"

	// Point at a host and port that will feed you endless bytes.
	#define TCP_HOST "server.example.com"
	#define TCP_PORT 9999

	// Buffer > MTU (~1400) to allow for full packet reads
	static uint8_t buf[2000];
	static WiFiClient client;

	static uint32_t last_write_at = 0;
	static uint16_t writes = 0;
	static uint32_t bytes_read_since_last_write = 0;

	void setup() {
	Serial.begin(115200);
	Serial.println();
	Serial.println("started");

	// Pins for Feather M0
	WiFi.setPins(8, 7, 4, 2);

	WiFi.begin(WIFI_SSID, WIFI_PASSPHRASE);
	Serial.print("wifi... ");
	while (WiFi.status() != WL_CONNECTED) {}
	Serial.println(" connected");
	}

	void loop() {
	// Get connected
	if (!client.connected()) {
	Serial.print("tcp... ");
	if (!client.connect(TCP_HOST, TCP_PORT)) {
	Serial.println(" failed");
	return;
	}
	Serial.println(" connected");
	}

	uint32_t now = millis();

	// Read as much as we can.
	int bytes_read = client.read(buf, sizeof(buf));
	if (bytes_read > 0) {
	bytes_read_since_last_write += bytes_read;
	}

	// Print status and send a byte each second.
	if (now - last_write_at > 1000) {
	Serial.print(++writes, DEC);
	Serial.print(": read ");
	Serial.print(bytes_read_since_last_write, DEC);
	Serial.print(" bytes/s, writing 1 byte... ");
	client.write('x');
	Serial.println(" done.");

	last_write_at = now;
	bytes_read_since_last_write = 0;
	}
	}