"Module CC3000+Arduino Uno+ (mobile acces point)?"

Hello everybody, i’m triying using CC 3000 module plus arduino uno and i’m trying to use a smathphone mobile access point. I would know if it’s possible to use a mobile accès point, and the security type is WPA2 PSK, so when i compile i have this in serial monitor

Hello, CC3000!

RX Buffer : 131 bytes
TX Buffer : 131 bytes
Free RAM: 1209

Initialising the CC3000 …

:slight_smile: Hello Bonjour tout le monde. Je suis actuellement entrain de vouloir collecter des mesures su rle cloud avec le module CC3000 adafruit. COmme je n’ai pas de box ou de réseau à disposition, j’ai décidé de passer par mon smartphone pour point d’accès wifi. Ce smatphone a une sécurité de type WPA2 PSK.
j’arrive à avoir ça sur le moniteur série mais pas plus ducoup je me dis que ya peut etre un autre problème. Peut on passer par un point d’accès mobile?

#include <Adafruit_CC3000.h>
#include <ccspi.h>
#include <SPI.h>
#include <string.h>
#include “utility/debug.h”

#define ADAFRUIT_CC3000_IRQ 3
#define ADAFRUIT_CC3000_VBAT 5
#define ADAFRUIT_CC3000_CS 10

Adafruit_CC3000 cc3000 = Adafruit_CC3000(ADAFRUIT_CC3000_CS, ADAFRUIT_CC3000_IRQ, ADAFRUIT_CC3000_VBAT,
SPI_CLOCK_DIVIDER);

#define WLAN_SSID “acer Liquid Z530”
#define WLAN_PASS “tttyyyttty”

#define WLAN_SECURITY WLAN_SEC_WPA2

void setup(void)
{
Serial.begin(115200);
Serial.println(F(“Hello, CC3000!\n”));

displayDriverMode();
Serial.print("Free RAM: "); Serial.println(getFreeRam(), DEC);

/* Initialise the module */
Serial.println(F("\nInitialising the CC3000 …"));
if (!cc3000.begin())
{
Serial.println(F(“Unable to initialise the CC3000! Check your wiring?”));
while(1);
}

uint8_t macAddress[6] = { 0x08, 0x00, 0x28, 0x01, 0x79, 0xB7 };
if (!cc3000.setMacAddress(macAddress))
{
Serial.println(F(“Failed trying to update the MAC address”));
while(1);
}
*/

uint16_t firmware = checkFirmwareVersion();
if (firmware < 0x113) {
Serial.println(F(“Wrong firmware version!”));
for(;;);
}

displayMACAddress();

/* Optional: Get the SSID list (not available in ‘tiny’ mode) */
#ifndef CC3000_TINY_DRIVER
listSSIDResults();
#endif

/* Delete any old connection data on the module */
Serial.println(F("\nDeleting old connection profiles"));
if (!cc3000.deleteProfiles()) {
Serial.println(F(“Failed!”));
while(1);
}

/* Optional: Set a static IP address instead of using DHCP.
Note that the setStaticIPAddress function will save its state
in the CC3000’s internal non-volatile memory and the details
will be used the next time the CC3000 connects to a network.
This means you only need to call the function once and the
CC3000 will remember the connection details. To switch back
to using DHCP, call the setDHCP() function (again only needs
to be called once).
/
/

uint32_t ipAddress = cc3000.IP2U32(192, 168, 1, 19);
uint32_t netMask = cc3000.IP2U32(255, 255, 255, 0);
uint32_t defaultGateway = cc3000.IP2U32(192, 168, 1, 1);
uint32_t dns = cc3000.IP2U32(8, 8, 4, 4);
if (!cc3000.setStaticIPAddress(ipAddress, netMask, defaultGateway, dns)) {
Serial.println(F(“Failed to set static IP!”));
while(1);
}
/
/
Optional: Revert back from static IP addres to use DHCP.
See note for setStaticIPAddress above, this only needs to be
called once and will be remembered afterwards by the CC3000.
/
/

if (!cc3000.setDHCP()) {
Serial.println(F(“Failed to set DHCP!”));
while(1);
}
*/

/* Attempt to connect to an access point */
char ssid = WLAN_SSID; / Max 32 chars */
Serial.print(F("\nAttempting to connect to ")); Serial.println(ssid);

if (!cc3000.connectToAP(WLAN_SSID, WLAN_PASS, WLAN_SECURITY)) {
Serial.println(F(“Failed!”));
while(1);
}

Serial.println(F(“Connected!”));

/* Wait for DHCP to complete */
Serial.println(F(“Request DHCP”));
while (!cc3000.checkDHCP())
{
delay(100); // ToDo: Insert a DHCP timeout!
}

/* Display the IP address DNS, Gateway, etc. */
while (! displayConnectionDetails()) {
delay(1000);
}

#ifndef CC3000_TINY_DRIVER
/* Try looking up www.adafruit.com */
uint32_t ip = 0;
Serial.print(F("www.adafruit.com → "));
while (ip == 0) {
if (! cc3000.getHostByName(“www.adafruit.com”, &ip)) {
Serial.println(F(“Couldn’t resolve!”));
}
delay(500);
}
cc3000.printIPdotsRev(ip);

/* Do a quick ping test on adafruit.com */
Serial.print(F("\n\rPinging “)); cc3000.printIPdotsRev(ip); Serial.print(”…");
uint8_t replies = cc3000.ping(ip, 5);
Serial.print(replies); Serial.println(F(" replies"));
if (replies)
Serial.println(F(“Ping successful!”));
#endif

/* You need to make sure to clean up after yourself or the CC3000 can freak out /
/
the next time you try to connect … */
Serial.println(F("\n\nClosing the connection"));
cc3000.disconnect();
}

void loop(void)
{
delay(1000);
}

void displayDriverMode(void)
{
#ifdef CC3000_TINY_DRIVER
Serial.println(F(“CC3000 is configure in ‘Tiny’ mode”));
#else
Serial.print(F(“RX Buffer : “));
Serial.print(CC3000_RX_BUFFER_SIZE);
Serial.println(F(” bytes”));
Serial.print(F(“TX Buffer : “));
Serial.print(CC3000_TX_BUFFER_SIZE);
Serial.println(F(” bytes”));
#endif
}

uint16_t checkFirmwareVersion(void)
{
uint8_t major, minor;
uint16_t version;

#ifndef CC3000_TINY_DRIVER
if(!cc3000.getFirmwareVersion(&major, &minor))
{
Serial.println(F(“Unable to retrieve the firmware version!\r\n”));
version = 0;
}
else
{
Serial.print(F(“Firmware V. : “));
Serial.print(major); Serial.print(F(”.”)); Serial.println(minor);
version = major; version <<= 8; version |= minor;
}
#endif
return version;
}

void displayMACAddress(void)
{
uint8_t macAddress[6];

if(!cc3000.getMacAddress(macAddress))
{
Serial.println(F(“Unable to retrieve MAC Address!\r\n”));
}
else
{
Serial.print(F("MAC Address : "));
cc3000.printHex((byte*)&macAddress, 6);
}
}

bool displayConnectionDetails(void)
{
uint32_t ipAddress, netmask, gateway, dhcpserv, dnsserv;

if(!cc3000.getIPAddress(&ipAddress, &netmask, &gateway, &dhcpserv, &dnsserv))
{
Serial.println(F(“Unable to retrieve the IP Address!\r\n”));
return false;
}
else
{
Serial.print(F("\nIP Addr: “)); cc3000.printIPdotsRev(ipAddress);
Serial.print(F(”\nNetmask: “)); cc3000.printIPdotsRev(netmask);
Serial.print(F(”\nGateway: “)); cc3000.printIPdotsRev(gateway);
Serial.print(F(”\nDHCPsrv: “)); cc3000.printIPdotsRev(dhcpserv);
Serial.print(F(”\nDNSserv: ")); cc3000.printIPdotsRev(dnsserv);
Serial.println();
return true;
}
}

void listSSIDResults(void)
{
uint32_t index;
uint8_t valid, rssi, sec;
char ssidname[33];

if (!cc3000.startSSIDscan(&index)) {
Serial.println(F(“SSID scan failed!”));
return;
}

Serial.print(F(“Networks found: “)); Serial.println(index);
Serial.println(F(”================================================”));

while (index) {
index–;

valid = cc3000.getNextSSID(&rssi, &sec, ssidname);

Serial.print(F("SSID Name : ")); Serial.print(ssidname);
Serial.println();
Serial.print(F("RSSI : "));
Serial.println(rssi);
Serial.print(F(“Security Mode: “));
Serial.println(sec);
Serial.println();
}
Serial.println(F(”================================================”));

cc3000.stopSSIDscan();
}

voici mon code:

Hello, CC3000!

RX Buffer : 131 bytes
TX Buffer : 131 bytes
Free RAM: 1209

Initialising the CC3000 …