Carl - SolderSplash Labs
WiFi DipCortex / CC3000 Demo - Contains a menu driven set of tests to initalise and control the CC3000 radio. Also allowing you to test various TCP and UDP connections.
Dependencies: NTPClient WebSocketClient cc3000_hostdriver_mbedsocket mbed HTTPClient
http://www.soldersplash.co.uk/products/wifi-dipcortex/
Please Note, this example uses the serial port so you will need an external RS232 TTL to USB adapter.
main.cpp
- Committer:
- SolderSplashLabs
- Date:
- 2013-10-12
- Revision:
- 5:506f580e7ead
- Parent:
- 4:4e5e094a81c0
File content as of revision 5:506f580e7ead:
#include "mbed.h"
#include "cc3000.h"
#include "wifi.h"
#include "UDPSocket.h"
#include "NTPClient.h"
#include "tcpTests.h"
#include "main.h"
using namespace mbed_cc3000;
// TODO : List internal varibles & CC3000 buffers
// AP point scanning
// List open sockets
// Overkill mode 2 TCP 2 UDP echo ports?
Serial pc(p19, p20);
//Serial pc(USBTX, USBRX);
const int ECHO_SERVER_PORT_UDP = 81;
uint8_t *HostToPing = (uint8_t *)"google.com";
tNetappIpconfigRetArgs ipinfo;
MENU_LEVEL currentMenu = MENU_TOP;
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Resolve a hostname and ping it
*/
// ------------------------------------------------------------------------------------------------------------
void PingTest ( void )
{
uint32_t ip;
int32_t resolveRetCode = 0;
printf("Get an IP address for %s\r\n",HostToPing);
resolveRetCode = wifi._socket.gethostbyname(HostToPing,strlen((const char *)HostToPing), &ip);
printf("gethostbyname Returned code : %i \r\n", resolveRetCode);
if (resolveRetCode > -1)
{
uint8_t add0 = (ip >> 24);
uint8_t add1 = (ip >> 16);
uint8_t add2 = (ip >> 8);
uint8_t add3 = (ip >> 0);
printf("IP address of %s: %d.%d.%d.%d \r\n", HostToPing, add0, add1, add2, add3);
printf("Sending ping\r\n");
uint32_t reply_count = wifi.ping(ip, 5, 500, 32);
printf("Received %d replies\r\n", reply_count);
printf("Ping complete.\r\n");
}
else
{
printf("Failed to resolve\r\n");
}
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Test the NTP library
*/
// ------------------------------------------------------------------------------------------------------------
void NtpTest ( void )
{
NTPClient ntp;
if (ntp.setTime("0.pool.ntp.org",123,10000) == 0)
{
printf("Set time successfully\r\n");
time_t ctTime;
ctTime = time(NULL);
printf("Time is set to (UTC): %s\r\n", ctime(&ctTime));
}
else
{
printf("NTP Update Failed\r\n");
}
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Send a UDP Packet, wait for response
*/
// ------------------------------------------------------------------------------------------------------------
void UdpClientTest ( void )
{
UDPSocket socket;
char buf[256];
int n = 0;
Endpoint outEndpoint;
Endpoint inEndpoint;
if (0 == socket.bind(ECHO_SERVER_PORT_UDP) )
{
// 2 second timeout
socket.set_blocking(false, 2000);
printf("\r\n!! Press any key to stop !!\r\n\r\n");
while (1)
{
if( outEndpoint.set_address(ECHO_SERVER_ADDRESS, ECHO_SERVER_PORT_UDP) < 0 )
{
printf("Failed to set endpoint address.\r\n");
break;
}
else if ( socket.sendTo( outEndpoint, hello, sizeof(hello) ) < 0 )
{
printf("Failed to send the packet.\r\n");
}
else
{
// Message sent, recv reply
printf("UDP Socket Sent : %s \r\n", hello);
n = socket.receiveFrom( inEndpoint, buf, sizeof(buf) );
if ( n < 0 )
{
printf("Failed to recv the UDP packet.\r\n");
}
else
{
buf[n] = '\0';
printf("UDP Socket Recv'd : %s \r\n", buf);
}
}
// Should we stop?
if ( pc.readable() )
{
pc.getc();
break;
}
}
if ( wifi.is_connected() )
{
socket.close();
}
}
else
{
// Failed to bind to the socket
}
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Listen on a UDP port for messages
*/
// ------------------------------------------------------------------------------------------------------------
void UdpServerTest ( void )
{
UDPSocket socket;
Endpoint client;
char buffer[256];
int n = 0;
if (0 == socket.bind(ECHO_SERVER_PORT_UDP) )
{
printf("\r\n!! Press any key to stop listening !!\r\n\r\n");
while (true)
{
printf("Waiting for packet...\r\n");
n = socket.receiveFrom(client, buffer, sizeof(buffer));
printf("Received packet from: %s\n", client.get_address());
socket.sendTo(client, buffer, n);
// Should we stop?
if ( pc.readable() )
{
pc.getc();
break;
}
}
}
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Print menu header
*/
// ------------------------------------------------------------------------------------------------------------
void Menu_PrintHeader ( void )
{
if (( wifi.is_enabled() ) && ( wifi.is_dhcp_configured() ))
{
wifi.get_ip_config(&ipinfo);
}
printf("\r\n");
printf("+-------------------------------------------+\r\n");
printf("| WiFi DipCortex / CC3000 Kitchen Sink |\r\n");
printf("+-------------------------------------------+\r\n");
if (! wifi.is_enabled() )
{
printf("| CC3000 Disabled |\r\n");
}
else if ( wifi.is_dhcp_configured() )
{
printf("| SSID : %-33s|\r\n", ipinfo.uaSSID);
printf("| IP : %-35s|\r\n", wifi.getIPAddress());
}
else if ( wifi.is_connected() )
{
printf("| Connecting, waiting for DHCP |\r\n");
}
else
{
printf("| Not Connected |\r\n");
}
printf("+-------------------------------------------+\r\n");
printf("\r\n");
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Control the wifi connection
*/
// ------------------------------------------------------------------------------------------------------------
char WaitForSerialCommand ( void )
{
char charIn = 0;
char prevCharIn;
while (1)
{
prevCharIn = charIn;
charIn = pc.getc();
printf("%c", charIn);
if ((charIn == '\n') || (charIn == '\r'))
{
break;
}
}
return ( prevCharIn );
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Configure the module for smart connect mode allow configuration over the air
*/
// ------------------------------------------------------------------------------------------------------------
void SmartConfig ( void )
{
// We dont want to auto reconnect to an access point
wifi._wlan.ioctl_set_connection_policy(0, 0, 0);
// start smart config will disconnect, set the prefix
// wait for a message via a SmartConfig app, store it to the profile list
// finally it will reenable auto connection, triggering the module to connect to the new access point
wifi.start_smart_config(0);
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Control the wifi connection
*/
// ------------------------------------------------------------------------------------------------------------
void Menu_ConnectionControl ( void )
{
uint32_t ip = 0;
Menu_PrintHeader();
printf(" 1 - Enable auto connect to any previous access point\r\n");
printf(" 2 - Disable auto connect \r\n");
printf(" 3 - Connect to %s \r\n", SSID);
printf(" 4 - Disconnect \r\n");
printf(" 5 - Start SmartConfig \r\n");
printf(" 6 - Erase profiles \r\n");
printf(" 7 - Get Status \r\n");
printf(" x - Top Menu \r\n");
printf("\r\n");
printf("Enter command character : ");
switch(WaitForSerialCommand())
{
case '1':
wifi._wlan.ioctl_set_connection_policy(0, 1, 1);
break;
case '2':
wifi._wlan.ioctl_set_connection_policy(0, 0, 0);
break;
case '3':
//wifi.start(0);
// Enable DHCP
wifi._netapp.dhcp(&ip, &ip, &ip, &ip);
if ( AP_SECURITY == NONE )
{
wifi.connect_non_blocking((uint8_t *)SSID, 0, AP_SECURITY);
}
else
{
printf("\r\n Connecting to : %s key : %s", SSID, AP_KEY );
wifi.connect_non_blocking((uint8_t *)SSID, (uint8_t *)AP_KEY, AP_SECURITY);
}
break;
case '4' :
// Stop the module re-connecting
wifi._wlan.ioctl_set_connection_policy(0, 0, 0);
// Then disconnect
wifi.disconnect();
break;
case '5' :
SmartConfig();
break;
case '6' :
wifi._wlan.ioctl_del_profile(255);
break;
case '7' :
print_cc3000_info();
break;
case '8':
//wifi._spi.manualIrqCheck();
break;
case 'x':
currentMenu = MENU_TOP;
break;
}
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief
*/
// ------------------------------------------------------------------------------------------------------------
void Menu_UdpControl ( void )
{
Menu_PrintHeader();
printf(" 1 - UDP Client, Connect to %s:%d\r\n", ECHO_SERVER_ADDRESS, ECHO_SERVER_PORT_UDP);
printf(" 2 - UDP Server \r\n");
printf(" 3 - NTP Client \r\n");
printf(" x - Exit to top menu \r\n");
printf("\r\n");
printf("Enter command character : ");
switch(WaitForSerialCommand())
{
case '1':
UdpClientTest();
break;
case '2':
UdpServerTest();
break;
case '3':
NtpTest();
break;
case 'x':
currentMenu = MENU_TOP;
break;
}
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief
*/
// ------------------------------------------------------------------------------------------------------------
void Menu_TcpControl ( void )
{
Menu_PrintHeader();
printf(" 1 - TCP Client, Connect to %s:%d\r\n", ECHO_SERVER_ADDRESS, ECHO_SERVER_PORT_TCP);
printf(" 2 - TCP Server, listen on %d.%d.%d.%d:%d\r\n", ipinfo.aucIP[3], ipinfo.aucIP[2], ipinfo.aucIP[1], ipinfo.aucIP[0], ECHO_SERVER_PORT_TCP);
printf(" 3 - Web Socket Write \r\n");
printf(" 4 - Web Socket Read \r\n");
printf(" 5 - HTTP Client \r\n");
printf(" x - Exit to top menu ");
printf("\r\n");
printf("Enter command character : ");
switch(WaitForSerialCommand())
{
case '1':
TcpClientTest();
break;
case '2':
TcpServerTest();
break;
case '3':
WebSocketTest();
break;
case '4':
break;
case '5':
HttpClientTest();
break;
case 'x':
currentMenu = MENU_TOP;
break;
}
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Display a menu to the user
*/
// ------------------------------------------------------------------------------------------------------------
void Menu_Top ( void )
{
Menu_PrintHeader();
printf(" 1 - Connection control menu \r\n" );
printf(" 2 - TCP test menu \r\n" );
printf(" 3 - UDP test menu \r\n" );
printf(" 4 - Connection status \r\n");
printf(" 5 - Ping - %s \r\n", HostToPing);
printf(" x - Top Menu \r\n");
printf("\r\n");
printf("Enter command character : ");
switch(WaitForSerialCommand())
{
case '1':
currentMenu = MENU_CONNECTION;
break;
case '2':
currentMenu = MENU_TCP;
break;
case '3':
currentMenu = MENU_UDP;
break;
case '4':
print_cc3000_info();
break;
case '5':
PingTest();
break;
case 'x':
currentMenu = MENU_TOP;
break;
}
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief Pick which menu to display
*/
// ------------------------------------------------------------------------------------------------------------
void MenuSwitch ( void )
{
bool connected = false;
if ( wifi.is_dhcp_configured() )
{
connected = true;
}
switch ( currentMenu )
{
case MENU_TOP :
Menu_Top();
break;
case MENU_CONNECTION :
Menu_ConnectionControl();
break;
case MENU_TCP :
if (connected)
{
Menu_TcpControl();
}
else
{
currentMenu = MENU_TOP;
}
break;
case MENU_UDP :
if (connected)
{
Menu_UdpControl();
}
else
{
currentMenu = MENU_TOP;
}
break;
default :
printf("Unknown command\r\n");
break;
}
}
// ------------------------------------------------------------------------------------------------------------
/*!
@brief main loop
*/
// ------------------------------------------------------------------------------------------------------------
int main( void )
{
// Initalise the WiFi Module
init();
pc.baud(SERIAL_BAUD_RATE);
wait(1);
wifi.start(0);
wait_ms(750);
while (1)
{
MenuSwitch();
}
}