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apache / nuttx-apps / e00bc64c4078e269e74ca5d417543de09eef74ab / . / examples / cc3000 / cc3000basic.c
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/****************************************************************************
* apps/examples/cc3000basic.c
*
* Derives from an application to demo an Arduino connected to the TI CC3000
*
* Copyright (C) 2013 Chris Magagna - cmagagna@yahoo.com
* Port to nuttx:
* Alan Carvalho de Assis <acassis@gmail.com>
* David Sidrane <david_s5@nscdg.com>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* Don't sue me if my code blows up your board and burns down your house
*
****************************************************************************
*
* To connect an Arduino to the CC3000 you'll need to make these 6 connections
* (in addition to the WiFi antenna, power etc).
*
* Name / pin on CC3000 module / pin on CC3000EM board / purpose
*
* SPI_CS / 12 / J4-8 / SPI Chip Select
* The Arduino will set this pin LOW when it wants to
* exchange data with the CC3000. By convention this is
* Arduino pin 10, but any pin can be used. In this
* program it will be called WLAN_CS
*
* SPI_DOUT / 13 / J4-9 / Data from the module to the Arduino
* This is Arduino's MISO pin, and is how the CC3000
* will get bytes to the Arduino. For most Arduinos
* MISO is pin 12
*
* SPI_IRQ / 14 / J4-10 / CC3000 host notify
* The CC3000 will drive this pin LOW to let the Arduino
* know it's ready to send data. For a regular Arduino
* (Uno, Nano, Leonardo) this will have to be connected
* to pin 2 or 3 so you can use attachInterrupt(). In
* this program it will be called WLAN_IRQ
*
* SPI_DIN / 15 / J4-11 Data from the Arduino to the CC3000
* This is the Arduino's MOSI pin, and is how the Arduino
* will get bytes to the CC3000. For most Arduinos
* MOSI is pin 11
*
* SPI_CLK / 17 / J4-12 SPI clock
* This is the Arduino's SCK pin. For most Arduinos
* SCK is pin 13
*
* VBAT_SW_EN / 26 / J5-5 Module enable
* The Arduino will set this pin HIGH to turn the CC3000
* on. Any pin can be used. In this program it will be
* called WLAN_EN
*
* WARNING #1: The CC3000 runs at 3.6V maximum so you can't run it from your
* regular 5V Arduino power pin. Run it from 3.3V!
*
* WARNING #2: When transmitting the CC3000 will use up to 275mA current. Most
* Arduinos' 3.3V pins can only supply up to 50mA current, so you'll need a
* separate power supply for it (or a voltage regulator like the LD1117V33
* connected to your Arduino's 5V power pin).
*
* WARNING #3: The CC3000's IO pins are not 5V tolerant. If you're using a 5V
* Arduino you will need a level shifter to convert these signals to 3.3V
* so you don't blow up the module.
*
* You'll need to shift the pins for WLAN_CS, MOSI, SCK, and WLAN_EN. MISO can be
* connected directly because it's an input pin for the Arduino and the Arduino
* can read 3.3V signals directly. For WLAN_IRQ use a pullup resistor of 20K to
* 100K Ohm -- one leg to the Arduino input pin + CC3000 SPI_IRQ pin, the other
* leg to +3.3V.
*
* You can use a level shifter chip like the 74LVC245 or TXB0104 or you can use
* a pair of resistors to make a voltage divider like this:
*
* Arduino pin -----> 560 Ohm --+--> 1K Ohm -----> GND
* |
* |
* +---> CC3000 pin
*
****************************************************************************/
/****************************************************************************
* Included Files
****************************************************************************/
/*
* Memory Analyses
*
* total used free largest
* Mem: 16560 11144 5416 5384
* PID SIZE USED THREAD NAME
* 0 0 0 Idle Task
* 1 876 772 init
* 2 604 588 c3b
* 3 236 220 <pthread0>
*
* 8 364 348 <pthread0>
*
* 9 260 196 <pthread>
* 10 380 364 Telnet dd
* 11 860 844 Telnet sd
*/
#include <nuttx/config.h>
#include "board.h"
#include <stdio.h>
#include <string.h>
#include <syslog.h>
#include <stdint.h>
#include <stdlib.h>
#include <stdbool.h>
#include <sys/time.h>
#include <arpa/inet.h>
#include <nuttx/arch.h>
#include <nuttx/wireless/cc3000/nvmem.h>
#include <nuttx/wireless/cc3000/include/sys/socket.h>
#include <nuttx/wireless/cc3000/wlan.h>
#include <nuttx/wireless/cc3000/hci.h>
#include <nuttx/wireless/cc3000/netapp.h>
#include "shell.h"
/****************************************************************************
* Public Function Prototypes
****************************************************************************/
void Initialize(void);
void helpme(void);
int execute(int cmd);
void ShowBufferSize(void);
void StartSmartConfig(void);
void ManualConnect(void);
void ManualAddProfile(void);
void ListAccessPoints(void);
void PrintIPBytes(uint8_t *ipBytes);
void ShowInformation(void);
/****************************************************************************
* Pre-processor Definitions
****************************************************************************/
#define MS_PER_SEC 1000
#define US_PER_MS 1000
#define US_PER_SEC 1000000
/****************************************************************************
* Private Data
****************************************************************************/
static uint8_t isInitialized = false;
#ifdef CONFIG_EXAMPLES_CC3000_MEM_CHECK
static struct mallinfo mmstart;
static struct mallinfo mmprevious;
#endif
/****************************************************************************
* Private Functions
****************************************************************************/
#ifdef CONFIG_EXAMPLES_CC3000_MEM_CHECK
static void show_memory_usage(struct mallinfo *mmbefore,
struct mallinfo *mmafter)
{
int diff;
printf(" total used free largest\n");
printf("Before:%11d%11d%11d%11d\n",
mmbefore->arena, mmbefore->uordblks, mmbefore->fordblks, mmbefore->mxordblk);
printf("After: %11d%11d%11d%11d\n",
mmafter->arena, mmafter->uordblks, mmafter->fordblks, mmafter->mxordblk);
diff = mmbefore->uordblks - mmafter->uordblks;
if (diff < 0)
{
printf("Change:%11d allocated\n", -diff);
}
else if (diff > 0)
{
printf("Change:%11d freed\n", diff);
}
#ifdef CONFIG_EXAMPLES_CC3000_STACK_CHECK
stkmon_disp();
#endif
}
#endif
#ifdef CONFIG_EXAMPLES_CC3000_STACK_CHECK
static char buff[CONFIG_TASK_NAME_SIZE+1];
static void _stkmon_disp(FAR struct tcb_s *tcb, FAR void *arg)
{
#if CONFIG_TASK_NAME_SIZE > 0
strncpy(buff,tcb->name,CONFIG_TASK_NAME_SIZE);
buff[CONFIG_TASK_NAME_SIZE] = '\0';
syslog(LOG_INFO, "%5d %6d %6d %s\n",
tcb->pid, tcb->adj_stack_size, up_check_tcbstack(tcb), buff);
#else
syslog(LOG_INFO, "%5d %6d %6d\n",
tcb->pid, tcb->adj_stack_size, up_check_tcbstack(tcb));
#endif
}
#endif
static bool wait(long timeoutMs, volatile unsigned long *what,
volatile unsigned long is)
{
long t_ms;
struct timeval end, start;
gettimeofday(&start, NULL);
while (*what != is)
{
usleep(10*US_PER_MS);
gettimeofday(&end, NULL);
t_ms = ((end.tv_sec - start.tv_sec) * MS_PER_SEC) + ((end.tv_usec - start.tv_usec) / US_PER_MS) ;
if (t_ms > timeoutMs)
{
return false;
}
}
return true;
}
static bool wait_on(long timeoutMs, volatile unsigned long *what,
volatile unsigned long is, char * msg)
{
printf(msg);
printf("...");
fflush(stdout);
bool ret = wait(timeoutMs,what,is);
if (!ret)
{
printf(" FAILED:Timeout!\n");
}
else
{
printf(" Succeed\n");
}
fflush(stdout);
return ret;
}
/****************************************************************************
* Public Functions
****************************************************************************/
#ifndef CONFIG_EXAMPLES_CC3000_STACK_CHECK
# define stkmon_disp()
#else
void stkmon_disp(void)
{
#if CONFIG_TASK_NAME_SIZE > 0
syslog(LOG_INFO, "%-5s %-6s %-6s %s\n", "PID", "SIZE", "USED", "THREAD NAME");
#else
syslog(LOG_INFO, "%-5s %-6s %-6s\n", "PID", "SIZE", "USED");
#endif
sched_foreach(_stkmon_disp, NULL);
}
#endif
void AsyncEventPrint(void)
{
printf("\n");
switch (lastAsyncEvent)
{
printf("CC3000 Async event: Simple config done\n");
break;
case HCI_EVNT_WLAN_UNSOL_CONNECT:
printf("CC3000 Async event: Unsolicited connect\n");
break;
case HCI_EVNT_WLAN_UNSOL_DISCONNECT:
printf("CC3000 Async event: Unsolicted disconnect\n");
break;
case HCI_EVNT_WLAN_UNSOL_DHCP:
printf("CC3000 Async event: Got IP address via DHCP: ");
printf("%d", dhcpIPAddress[0]);
printf(".");
printf("%d", dhcpIPAddress[1]);
printf(".");
printf("%d", dhcpIPAddress[2]);
printf(".");
printf("%d\n", dhcpIPAddress[3]);
break;
case HCI_EVENT_CC3000_CAN_SHUT_DOWN:
printf("CC3000 Async event: OK to shut down\n");
break;
case HCI_EVNT_WLAN_KEEPALIVE:
/* Once initialized, the CC3000 will send these keepalive events
* every 20 seconds.
*/
printf("CC3000 Async event: Keepalive\n");
return;
break;
default:
printf("AsyncCallback called with unhandled event! (0x%lx)\n",
(unsigned long)lastAsyncEvent);
break;
}
}
void helpme(void)
{
printf("\n+-------------------------------------------+\n");
printf("| Nuttx CC3000 Demo Program |\n");
printf("+-------------------------------------------+\n\n");
printf(" 01 - Initialize the CC3000\n");
printf(" 02 - Show RX & TX buffer sizes, & free RAM\n");
printf(" 03 - Start Smart Config\n");
printf(" 04 - Manually connect to AP\n");
printf(" 05 - Manually add connection profile\n");
printf(" 06 - List access points\n");
printf(" 07 - Show CC3000 information\n");
printf(" 08 - Telnet\n");
printf("\n Type 01-07 to select above option: ");
}
int execute(int cmd)
{
int ret = 0;
if (asyncNotificationWaiting)
{
asyncNotificationWaiting = false;
AsyncEventPrint();
}
printf("\n");
switch(cmd)
{
case '1':
Initialize();
break;
case '2':
ShowBufferSize();
break;
case '3':
StartSmartConfig();
break;
case '4':
ManualConnect();
break;
case '5':
ManualAddProfile();
break;
case '6':
ListAccessPoints();
break;
case '7':
ShowInformation();
break;
case '8':
if (!isInitialized)
{
Initialize();
}
#ifdef CONFIG_EXAMPLES_CC3000_MEM_CHECK
mmprevious= mallinfo();
show_memory_usage(&mmstart,&mmprevious);
#endif
shell_main(0, 0);
#ifdef CONFIG_EXAMPLES_CC3000_MEM_CHECK
mmprevious= mallinfo();
show_memory_usage(&mmstart,&mmprevious);
#endif
break;
case 'q':
case 'Q':
ret = 1;
break;
default:
printf("**Unknown command \"%d\" **\n", cmd);
break;
}
return ret;
}
void Initialize(void)
{
#ifdef CONFIG_EXAMPLES_CC3000_MEM_CHECK
mmstart = mallinfo();
memcpy(&mmprevious, &mmstart, sizeof(struct mallinfo));
show_memory_usage(&mmstart,&mmprevious);
#endif
uint8_t fancyBuffer[MAC_ADDR_LEN];
if (isInitialized)
{
printf("CC3000 already initialized. Shutting down and restarting...\n");
wlan_stop();
usleep(1000000); /* Delay 1s */
}
printf("Initializing CC3000...\n");
CC3000_Init();
#ifdef CONFIG_EXAMPLES_CC3000_STACK_CHECK
stkmon_disp();
#endif
printf(" CC3000 init complete.\n");
if (nvmem_read_sp_version(fancyBuffer) == 0)
{
printf(" Firmware version is: ");
printf("%d", fancyBuffer[0]);
printf(".");
printf("%d\n", fancyBuffer[1]);
}
else
{
printf("Unable to get firmware version. Can't continue.\n");
return;
}
#if 0
if (nvmem_get_mac_address(fancyBuffer) == 0)
{
printf(" MAC address: ");
for (i = 0; i < MAC_ADDR_LEN; i++)
{
if (i != 0)
{
printf(":");
}
printf("%x", fancyBuffer[i]);
}
printf("\n");
isInitialized = true;
}
else
{
printf("Unable to get MAC address. Can't continue.\n");
}
#else
isInitialized = true;
#endif
#ifdef CONFIG_EXAMPLES_CC3000_MEM_CHECK
mmprevious = mallinfo();
show_memory_usage(&mmstart,&mmprevious);
#endif
}
/* This just shows the compiled size of the transmit & recieve buffers */
void ShowBufferSize(void)
{
printf("Transmit buffer is %d bytes", CC3000_TX_BUFFER_SIZE);
printf("Receive buffer is %d bytes", CC3000_RX_BUFFER_SIZE);
}
/* Smart Config is TI's way to let you connect your device to your WiFi network
* without needing a keyboard and display to enter the network name, password,
* etc. You run a little app on your iPhone, Android device, or laptop with Java
* and it sends the config info to the CC3000 automagically, so the end user
* doesn't need to do anything complicated. More details here:
*
* http://processors.wiki.ti.com/index.php/CC3000_Smart_Config
*
* This example deletes any currently saved WiFi profiles and goes over the top
* with error checking, so it's easier to see exactly what's going on. You
* probably won't need all of this code for your own Smart Config implementation.
*
* This example also doesn't use any of the AES enhanced security setup API calls
* because frankly they're weirder than I want to deal with.
*/
/* The Simple Config Prefix always needs to be 'TTT' */
char simpleConfigPrefix[] = {'T', 'T', 'T'};
/* This is the default Device Name that TI's Smart Config app for iPhone etc. use.
* You can change it to whatever you want, but then your users will need to type
* that name into their phone or tablet when they run Smart Config.
*/
char device_name[] = "CC3000";
void StartSmartConfig(void)
{
long rval;
if (!isInitialized)
{
printf("CC3000 not initialized; can't run Smart Config.\n");
return;
}
printf("Starting Smart Config\n");
printf(" Disabling auto-connect policy...");
if ((rval = wlan_ioctl_set_connection_policy(DISABLE, DISABLE, DISABLE)) !=0)
{
printf(" Failed!\n Setting auto connection policy failed, error: %lx\n",
(unsigned long)rval);
return;
}
printf(" Succeed\n");
printf(" Deleting all existing profiles...");
fflush(stdout);
if ((rval = wlan_ioctl_del_profile(255)) !=0)
{
printf(" Failed!\n Deleting all profiles failed, error: %lx\n",
(unsigned long)rval);
return;
}
printf(" Succeed\n");
wait_on(20*MS_PER_SEC, &ulCC3000Connected, 0, " Waiting until disconnected");
printf(" Setting smart config prefix...");
fflush(stdout);
if ((rval = wlan_smart_config_set_prefix(simpleConfigPrefix)) !=0)
{
printf(" Failed!\n Setting smart config prefix failed, error: %lx",
(unsigned long)rval);
return;
}
printf(" Succeed\n");
printf(" Starting smart config...");
fflush(stdout);
if ((rval = wlan_smart_config_start(0)) !=0)
{
printf(" Failed!\n Starting smart config failed, error: %lx\n",
(unsigned long)rval);
return;
}
printf(" Succeed\n");
if (!wait_on(30*MS_PER_SEC, &ulSmartConfigFinished, 1, " Waiting on Starting smart config done"))
{
printf(" Timed out waiting for Smart Config to finish. Hopefully it did anyway\n");
}
printf(" Smart Config packet %s!\n",ulSmartConfigFinished ? "seen" : "NOT seen");
printf(" Enabling auto-connect policy...");
fflush(stdout);
if ((rval = wlan_ioctl_set_connection_policy(DISABLE, DISABLE, ENABLE)) !=0)
{
printf(" Failed!\n Setting auto connection policy failed, error: %lx\n",
(unsigned long)rval);
return;
}
printf(" Succeed\n");
printf(" Stopping CC3000...\n");
fflush(stdout);
wlan_stop(); /* No error returned here, so nothing to check */
printf(" Pausing for 2 seconds...\n");
usleep(2000000);
printf(" Restarting CC3000... \n");
wlan_start(0); /* No error returned here, so nothing to check */
if (!wait_on(20*MS_PER_SEC, &ulCC3000Connected, 1, " Waiting for connection to AP"))
{
printf(" Timed out waiting for connection to AP\n");
return;
}
if (!wait_on(15*MS_PER_SEC, &ulCC3000DHCP, 1, " Waiting for IP address from DHCP"))
{
printf(" Timed out waiting for IP address from DHCP\n");
return;
}
printf(" Sending mDNS broadcast to signal we're done with Smart Config...\n");
fflush(stdout);
/* The API documentation says mdnsAdvertiser() is supposed to return 0 on
* success and SOC_ERROR on failure, but it looks like what it actually
* returns is the socket number it used. So we ignore it.
*/
mdnsadvertiser(1, device_name, strlen(device_name));
printf(" Smart Config finished Successfully!\n");
ShowInformation();
fflush(stdout);
}
/* This is an example of how you'd connect the CC3000 to an AP without using
* Smart Config or a stored profile.
*
* All the code above wlan_connect() is just for this demo program; if you're
* always going to connect to your network this way you wouldn't need it.
*/
void ManualConnect(void)
{
char ssidName[] = "YourAP";
char AP_KEY[] = "yourpass";
uint8_t rval;
if (!isInitialized)
{
printf("CC3000 not initialized; can't run manual connect.\n");
return;
}
printf("Starting manual connect...\n");
printf(" Disabling auto-connect policy...\n");
(void)wlan_ioctl_set_connection_policy(DISABLE, DISABLE, DISABLE);
printf(" Deleting all existing profiles...\n");
(void)wlan_ioctl_del_profile(255);
wait_on(15*MS_PER_SEC, &ulCC3000Connected, 0, " Waiting until disconnected");
printf(" Manually connecting...\n");
/* Parameter 1 is the security type: WLAN_SEC_UNSEC, WLAN_SEC_WEP,
* WLAN_SEC_WPA or WLAN_SEC_WPA2
* Parameter 3 is the MAC adddress of the AP. All the TI examples
* use NULL. I suppose you would want to specify this
* if you were security paranoid.
*/
rval = wlan_connect(WLAN_SEC_WPA2,
ssidName,
strlen(ssidName),
NULL,
(uint8_t *)AP_KEY,
strlen(AP_KEY));
if (rval == 0)
{
printf(" Manual connect success.\n");
}
else
{
printf(" Unusual return value: %d\n", rval);
}
}
/* This is an example of manually adding a WLAN profile to the CC3000. See
* wlan_ioctl_set_connection_policy() for more details of how profiles are
* used but basically there's 7 slots where you can store AP info and if
* the connection policy is set to auto_start then the CC3000 will go
* through its profile table and try to auto-connect to something it knows
* about after it boots up.
*
* Note the API documentation for wlan_add_profile is wrong. It says it
* returns 0 on success and -1 on failure. What it really returns is
* the stored profile number (0-6, since the CC3000 can store 7) or
* 255 on failure.
*
* Unfortunately the API doesn't give you any way to see how many profiles
* are in use or which profile is stored in which slot, so if you want to
* manage multiple profiles you'll need to do that yourself.
*/
void ManualAddProfile(void)
{
char ssidName[] = "YourAP";
char AP_KEY[] = "yourpass";
uint8_t rval;
if (!isInitialized)
{
printf("CC3000 not initialized; can't run manual add profile.");
return;
}
printf("Starting manual add profile...\n");
printf(" Disabling auto connection...\n");
wlan_ioctl_set_connection_policy(DISABLE, DISABLE, DISABLE);
printf(" Adding profile...\n");
rval = wlan_add_profile (
WLAN_SEC_WPA2, /* WLAN_SEC_UNSEC, WLAN_SEC_WEP, WLAN_SEC_WPA or WLAN_SEC_WPA2 */
(uint8_t *)ssidName,
strlen(ssidName),
NULL, /* BSSID, TI always uses NULL */
0, /* Profile priority */
0x18, /* Key length for WEP security, undocumented why this needs to be 0x18 */
0x1e, /* Key index, undocumented why this needs to be 0x1e */
0x2, /* key management, undocumented why this needs to be 2 */
(uint8_t *)AP_KEY, /* WPA security key */
strlen(AP_KEY) /* WPA security key length */
);
if (rval!=255)
{
/* This code is lifted from http://e2e.ti.com/support/low_power_rf/f/851/p/180859/672551.aspx;
* the actual API documentation on wlan_add_profile doesn't specify any of this....
*/
printf(" Manual add profile success, stored in profile: %d\n", rval);
printf(" Enabling auto connection...\n");
wlan_ioctl_set_connection_policy(DISABLE, DISABLE, ENABLE);
printf(" Stopping CC3000...\n");
wlan_stop();
printf(" Stopping for 5 seconds...\n");
usleep(5000000);
printf(" Restarting CC3000...\n");
wlan_start(0);
printf(" Manual add profile done!");
}
else
{
printf(" Manual add profile failured (all profiles full?).");
}
}
/* The call wlan_ioctl_get_scan_results returns this structure. I couldn't
* find it in the TI library so it's defined here. It's 50 bytes with
* a semi weird arrangement but fortunately it's not as bad as it looks.
*
* numNetworksFound - 4 bytes - On the first call to wlan_ioctl_get_scan_results
* this will be set to how many APs the CC3000 sees. Although
* with 4 bytes the CC3000 could see 4 billion APs in my testing
* this number was always 20 or less so there's probably an
* internal memory limit.
*
* results - 4 bytes - 0=aged results, 1=results valid, 2=no results. Why TI
* used 32 bits to store something that could be done in 2,
* and how this field is different than isValid below, is
* a mystery to me so I just igore this field completely.
*
* isValid & rssi - 1 byte - a packed structure. The top bit (isValid)
* indicates whether or not this structure has valid data,
* the bottom 7 bits (rssi) are the signal strength of this AP.
*
* securityMode & ssidLength - 1 byte - another packed structure. The top 2
* bits (securityMode) show how the AP is configured:
* 0 - open / no security
* 1 - WEP
* 2 - WPA
* 3 - WPA2
* ssidLength is the lower 6 bytes and shows how many characters
* (up to 32) of the ssid_name field are valid
*
* frameTime - 2 bytes - how long, in seconds, since the CC3000 saw this AP
* beacon
*
* ssid_name - 32 bytes - The ssid name for this AP. Note that this isn't a
* regular null-terminated C string so you can't use it
* directly with a strcpy() or Serial.println() etc. and you'll
* need a 33-byte string to store it (32 valid characters +
* null terminator)
*
* bssid - 6 bytes - the MAC address of this AP
*/
typedef struct scanResults
{
unsigned long numNetworksFound;
unsigned long results;
unsigned isValid:1;
unsigned rssi:7;
unsigned securityMode:2;
unsigned ssidLength:6;
uint16_t frameTime;
uint8_t ssid_name[32];
uint8_t bssid[6];
} scanResults;
#define NUM_CHANNELS 16
void ListAccessPoints(void)
{
unsigned long aiIntervalList[NUM_CHANNELS];
uint8_t rval;
scanResults sr;
int apCounter, i;
char localB[33];
if (!isInitialized)
{
printf("CC3000 not initialized; can't list access points.\n");
return;
}
printf("List visible access points\n");
printf(" Setting scan parameters...\n");
for (i=0; i<NUM_CHANNELS; i++)
{
aiIntervalList[i] = 2000;
}
rval = wlan_ioctl_set_scan_params(
1000, /* Enable start application scan */
100, /* Minimum dwell time on each channel */
100, /* Maximum dwell time on each channel */
5, /* Number of probe requests */
0x7ff, /* Channel mask */
-80, /* RSSI threshold */
0, /* SNR threshold */
205, /* Probe TX power */
aiIntervalList /* Table of scan intervals per channel */
);
if (rval!=0)
{
printf(" Got back unusual result from wlan_ioctl_set_scan_params, can't continue: %d\n", rval);
return;
}
#if 0
printf(" Sleeping 5 seconds to let the CC3000 discover APs...\n");
usleep(5000000);
#endif
printf(" Getting AP count...\n");
/* On the first call to get_scan_results, sr.numNetworksFound will return the
* actual # of APs currently seen. Get that # then loop through and print
* out what's found.
*/
if ((rval=wlan_ioctl_get_scan_results(2000, (uint8_t *)&sr))!=0)
{
printf(" Got back unusual result from wlan_ioctl_get scan results, can't continue: %d\n", rval);
return;
}
apCounter = sr.numNetworksFound;
printf(" Number of APs found: %d\n", apCounter);
do
{
if (sr.isValid)
{
printf(" ");
switch (sr.securityMode)
{
case WLAN_SEC_UNSEC: /* 0 */
printf("OPEN ");
break;
case WLAN_SEC_WEP: /* 1 */
printf("WEP ");
break;
case WLAN_SEC_WPA: /* 2 */
printf("WPA ");
break;
case WLAN_SEC_WPA2: /* 3 */
printf("WPA2 ");
break;
}
sprintf(localB, "%3u ", sr.rssi);
printf("%s", localB);
memset(localB, 0, 33);
memcpy(localB, sr.ssid_name, sr.ssidLength);
printf("%s\n", localB);
}
if (--apCounter>0)
{
if ((rval=wlan_ioctl_get_scan_results(2000, (uint8_t *)&sr)) !=0)
{
printf(" Got back unusual result from wlan_ioctl_get scan, can't continue: %d\n", rval);
return;
}
}
}
while (apCounter>0);
printf(" Access Point list finished.\n");
}
void PrintIPBytes(uint8_t *ipBytes)
{
printf("%d.%d.%d.%d\n", ipBytes[3], ipBytes[2], ipBytes[1], ipBytes[0]);
}
/* All the data in all the fields from netapp_ipconfig() are reversed,
* e.g. an IP address is read via bytes 3,2,1,0 instead of bytes
* 0,1,2,3 and the MAC address is read via bytes 5,4,3,2,1,0 instead
* of 0,1,2,3,4,5.
*
* N.B. TI is inconsistent here; nvmem_get_mac_address() returns them in
* the right order etc.
*/
void ShowInformation(void)
{
tNetappIpconfigRetArgs inf;
char localB[33];
int i;
if (!isInitialized)
{
printf("CC3000 not initialized; can't get information.\n");
return;
}
printf("CC3000 information:\n");
netapp_ipconfig(&inf);
printf(" IP address: ");
PrintIPBytes(inf.aucIP);
printf(" Subnet mask: ");
PrintIPBytes(inf.aucSubnetMask);
printf(" Gateway: ");
PrintIPBytes(inf.aucDefaultGateway);
printf(" DHCP server: ");
PrintIPBytes(inf.aucDHCPServer);
printf(" DNS server: ");
PrintIPBytes(inf.aucDNSServer);
printf(" MAC address: ");
for (i=(MAC_ADDR_LEN-1); i>=0; i--)
{
if (i!=(MAC_ADDR_LEN-1))
{
printf(":");
}
printf("%x", inf.uaMacAddr[i]);
}
printf("\n");
memset(localB, 0, sizeof(localB));
strncpy(localB, (char*)inf.uaSSID,sizeof(localB));
printf(" Connected to SSID: %s\n", localB);
}
#ifdef CONFIG_BUILD_KERNEL
int main(int argc, FAR char *argv[])
#else
int c3b_main(int argc, char *argv[])
#endif
{
char ch='0';
do
{
helpme();
stkmon_disp();
ch = getchar();
}
while (execute(ch) == 0);
return 0;
}