void act_nset_q(int8 num)
{
wiz_NetInfo ni;
if(num == 1) {
GetNetInfo(&ni);
if(ni.DHCP > NETINFO_STATIC)
MAKE_TCMD_CHAR(atci.tcmd.arg1, 'D');
else MAKE_TCMD_CHAR(atci.tcmd.arg1, 'S');
CMD_RESP_RET(RET_OK, VAL_NONE);
} else if(num > 1) {
dhcp_get_storage(&ni);
switch(num) {
case 2: MAKE_TCMD_ADDR(atci.tcmd.arg1, ni.IP[0], ni.IP[1], ni.IP[2], ni.IP[3]); break;
case 3: MAKE_TCMD_ADDR(atci.tcmd.arg1, ni.SN[0], ni.SN[1], ni.SN[2], ni.SN[3]); break;
case 4: MAKE_TCMD_ADDR(atci.tcmd.arg1, ni.GW[0], ni.GW[1], ni.GW[2], ni.GW[3]); break;
case 5: MAKE_TCMD_ADDR(atci.tcmd.arg1, ni.DNS[0], ni.DNS[1], ni.DNS[2], ni.DNS[3]); break;
case 6: CMD_RESP_RET(RET_NOT_ALLOWED, VAL_NONE);
}
CMD_RESP_RET(RET_OK, VAL_NONE);
} else {
GetNetInfo(&ni);
if(ni.DHCP > NETINFO_STATIC)
MAKE_TCMD_CHAR(atci.tcmd.arg1, 'D');
else MAKE_TCMD_CHAR(atci.tcmd.arg1, 'S');
dhcp_get_storage(&ni);
MAKE_TCMD_ADDR(atci.tcmd.arg2, ni.IP[0], ni.IP[1], ni.IP[2], ni.IP[3]);
MAKE_TCMD_ADDR(atci.tcmd.arg3, ni.SN[0], ni.SN[1], ni.SN[2], ni.SN[3]);
MAKE_TCMD_ADDR(atci.tcmd.arg4, ni.GW[0], ni.GW[1], ni.GW[2], ni.GW[3]);
MAKE_TCMD_ADDR(atci.tcmd.arg5, ni.DNS[0], ni.DNS[1], ni.DNS[2], ni.DNS[3]);
CMD_RESP_RET(RET_OK, VAL_NONE);
}
}
void act_nset_a(int8 mode, uint8 *ip, uint8 *sn,
uint8 *gw, uint8 *dns1, uint8 *dns2)
{
wiz_NetInfo ni = {0,};
if(ip) memcpy(ni.IP, ip, 4);
if(sn) memcpy(ni.SN, sn, 4);
if(gw) memcpy(ni.GW, gw, 4);
if(dns1) memcpy(ni.DNS, dns1, 4);
if(dns2) {
MAKE_TCMD_DIGIT(atci.tcmd.arg1, 6);
CMD_RESP_RET(RET_NOT_ALLOWED, VAL_NONE);
}
if(mode == 'S') {
if(dhcp_static_mode(&ni) != RET_OK) {
dhcp_set_storage(&ni);
SetNetInfo(&ni);
}
} else if(mode == 'D') {
dhcp_set_storage(&ni);
dhcp_alarm_start(NULL);
} else {
dhcp_set_storage(&ni);
GetNetInfo(&ni);
if(ni.DHCP == NETINFO_STATIC) SetNetInfo(&ni);
}
CMD_RESP_RET(RET_OK, VAL_NONE);
}
void act_nmac_q(void)
{
wiz_NetInfo ni = {0,};
GetNetInfo(&ni);
sprintf((char*)atci.tcmd.arg1, "%d:%d:%d:%d:%d:%d",
ni.Mac[0], ni.Mac[1], ni.Mac[2], ni.Mac[3], ni.Mac[4], ni.Mac[5]);
CMD_RESP_RET(RET_OK, VAL_NONE);
}
int8 dhcp_alarm_start(uint8 *saved_ip)
{
GetNetInfo(&workinfo);
if(workinfo.DHCP > NETINFO_STATIC) {
DBGA("Already DHCP Mode(%d)", workinfo.DHCP);
return RET_NOK;
} else DBG("DHCP Start");
SET_STATE(DHCP_STATE_INIT);
di.action = DHCP_ACT_START;
memset(&workinfo, 0, sizeof(workinfo));
if(saved_ip) memcpy(workinfo.IP, saved_ip, 4);
workinfo.DHCP = NETINFO_DHCP_BUSY;
SetNetInfo(&workinfo);
if(dhcp_alarm) alarm_set(10, dhcp_alarm_cb, 0);
return RET_OK;
}
void DisplayNetInfo(void)
{
GetNetInfo(&display_NetInfo);
printf("============================================\r\n");
printf(" HTTP Client Net Config Information\r\n");
printf("============================================\r\n");
printf("MAC ADDRESS : \r\n"); //display MAC addr
printf("%02x.%02x.%02x.%02x.%02x.%02x\r\n",display_NetInfo.Mac[0],display_NetInfo.Mac[1],display_NetInfo.Mac[2],display_NetInfo.Mac[3],display_NetInfo.Mac[4],display_NetInfo.Mac[5]);
printf("SUBNET MASK : \r\n"); //display subnet
printf("%d.%d.%d.%d\r\n",display_NetInfo.Subnet[0],display_NetInfo.Subnet[1],display_NetInfo.Subnet[2],display_NetInfo.Subnet[3]);
printf("G/W IP ADDRESS : \r\n"); //display W5200's IP addr
printf("%d.%d.%d.%d\r\n",display_NetInfo.IP[0],display_NetInfo.IP[1],display_NetInfo.IP[2],display_NetInfo.IP[3]);
printf("LOCAL IP ADDRESS : \r\n"); //display W5200's G/W
printf("%d.%d.%d.%d\r\n",display_NetInfo.Gateway[0],display_NetInfo.Gateway[1],display_NetInfo.Gateway[2],display_NetInfo.Gateway[3]);
printf("============================================\r\n");
}
int8 dhcp_static_mode(wiz_NetInfo *net)
{
wiz_NetInfo cur;
if(net == NULL) {
DBG("NULL arg");
return RET_NOK;
}
GetNetInfo(&cur);
if(cur.DHCP == NETINFO_STATIC) {
DBG("Already Static Mode");
return RET_NOK;
}
di.action = DHCP_ACT_NONE;
SET_STATE(DHCP_STATE_INIT);
if(net->IP[0]!=0 || net->IP[1]!=0 || net->IP[2]!=0 || net->IP[3]!=0)
memcpy(storage.IP, net->IP, 4);
else memcpy(net->IP, storage.IP, 4);
if(net->SN[0]!=0 || net->SN[1]!=0 || net->SN[2]!=0 || net->SN[3]!=0)
memcpy(storage.SN, net->SN, 4);
else memcpy(net->SN, storage.SN, 4);
if(net->GW[0]!=0 || net->GW[1]!=0 || net->GW[2]!=0 || net->GW[3]!=0)
memcpy(storage.GW, net->GW, 4);
else memcpy(net->GW, storage.GW, 4);
if(net->DNS[0]!=0 || net->DNS[1]!=0 || net->DNS[2]!=0 || net->DNS[3]!=0)
memcpy(storage.DNS, net->DNS, 4);
else memcpy(net->DNS, storage.DNS, 4);
net->DHCP = NETINFO_STATIC;
SetNetInfo(net);
if(dhcp_alarm) alarm_del(dhcp_alarm_cb, -1);
//send_checker_NB();
return RET_OK;
}
void WIZ_Config(void)
{
uint8 i;
wiz_NetInfo netinfo;
Reset_W5200();
wizInit();
for(i=0; i<4; i++){
netinfo.Mac[i] = Mac[i];
printf("MAC[%d]: 0x%2x\r\n", i, Mac[i]);
netinfo.IP[i] = IP[i];
netinfo.Subnet[i] = Subnet[i];
netinfo.Gateway[i] = Gateway[i];
netinfo.DNSServerIP[i] = DNSServerIP[i];
}
netinfo.Mac[i] = Mac[i];
printf("MAC[%d]: 0x%2x\r\n", i, Mac[i]);
i++;
netinfo.Mac[i] = Mac[i];
printf("MAC[%d]: 0x%2x\r\n", i, Mac[i]);
SetNetInfo(&netinfo);
printf("\r\n--------------------------------------- \r\n");
printf("W5200E01-M3 \r\n");
printf("Network Configuration Information \r\n");
printf("--------------------------------------- ");
GetNetInfo(&netinfo);
printf("\r\nMAC : %.2X.%.2X.%.2X.%.2X.%.2X.%.2X", netinfo.Mac[0],netinfo.Mac[1],netinfo.Mac[2],netinfo.Mac[3],netinfo.Mac[4],netinfo.Mac[5]);
printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]);
printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]);
printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]);
printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]);
}
/*******************************************************************************
* Function Name : Main_Menu
* Description : Display/Manage a Menu on HyperTerminal Window
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void Main_Menu(void)
{
static char choice[3];
static char subject[32], msg[256], sender[32], passwd[32], recipient[32], encodedText[256];
static bool bTreat;
static u8 Sip[4];
static char key = 0;
static wiz_NetInfo netinfo;
while (1)
{
/* Display Menu on HyperTerminal Window */
bTreat = (bool)RESET ;
SerialPutString("\r\n====================== STM32-Discovery ===================\r\n");
SerialPutString("This Application is basic example of UART interface with\r\n");
SerialPutString("Windows Hyper Terminal. \r\n");
SerialPutString("\r\n==========================================================\r\n");
SerialPutString(" APPLICATION MENU :\r\n");
SerialPutString("\r\n==========================================================\r\n\n");
SerialPutString(" 1 - Set LD1 on \r\n");
SerialPutString(" 2 - Set LD1 off \r\n");
SerialPutString(" 3 - Show network setting\r\n");
SerialPutString(" 4 - Set network setting\r\n");
SerialPutString(" 5 - Run TCP Loopback\r\n");
SerialPutString(" 6 - Run UDP Loopback\r\n");
SerialPutString(" 7 - DNS test\r\n");
SerialPutString(" 8 - BASE64 test\r\n");
SerialPutString(" 9 - Send Mail\r\n");
SerialPutString("Enter your choice : ");
GetInputString(choice);
/* Set LD1 on */
if (strcmp(choice,"1")== 0)
{
bTreat = (bool)SET;
LED3_onoff(ON);
LED4_onoff(ON);
}
/* Set LD1 off */
if ((strcmp(choice,"2") == 0))
{
bTreat = (bool)SET;
LED3_onoff(OFF);
LED4_onoff(OFF);
}
if (strcmp(choice,"3") == 0)
{
bTreat = (bool)SET;
GetNetInfo(&netinfo);
printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]);
printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]);
printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]);
printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]);
}
if (strcmp(choice,"4") == 0)
{
bTreat = (bool)SET;
// IP address
SerialPutString("\r\nIP address : ");
GetInputString(msg);
if(!VerifyIPAddress(msg, netinfo.IP))
{
SerialPutString("\aInvalid.");
}
// Subnet mask
SerialPutString("\r\nSubnet mask : ");
GetInputString(msg);
if(!VerifyIPAddress(msg, netinfo.Subnet))
{
SerialPutString("\aInvalid.");
}
// gateway address
SerialPutString("\r\nGateway address : ");
GetInputString(msg);
if(!VerifyIPAddress(msg, netinfo.Gateway))
{
SerialPutString("\aInvalid.");
}
// DNS address
SerialPutString("\r\nDNS address : ");
GetInputString(msg);
if(!VerifyIPAddress(msg, netinfo.DNSServerIP))
{
SerialPutString("\aInvalid.");
}
printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]);
printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]);
printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]);
printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]);
SetNetInfo(&netinfo);
}
if (strcmp(choice,"5") == 0)
{
bTreat = (bool)SET;
SerialPutString("\r\nRun TCP loopback");
printf("\r\nRun TCP loopback, port number [%d] is listened", (u16)TCP_LISTEN_PORT);
SerialPutString("\r\nTo Exit, press [Q]");
while(1) {
if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) {
SerialPutString("\r\n Stop ");
break;
}
loopback_tcps(7, (u16)TCP_LISTEN_PORT);
}
}
if (strcmp(choice,"6") == 0)
{
bTreat = (bool)SET;
SerialPutString("\r\nRun UDP loopback");
printf("\r\nRun UDP loopback, port number [%d] is listened", (u16)UDP_LISTEN_PORT);
SerialPutString("\r\nTo Exit, press [Q]");
while(1) {
if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) {
SerialPutString("\r\n Stop ");
break;
}
loopback_udp(7, (u16)UDP_LISTEN_PORT);
}
}
if (strcmp(choice,"7")== 0)
{
bTreat = (bool)SET;
SerialPutString("\r\nServer address : ");
GetInputString(msg);
SerialPutString("URL = ");
SerialPutString(msg);
if (dns_query(SOCK_DNS, (void *)msg, Sip) == 1) {
printf("\r\nSIP : %d.%d.%d.%d", (u16)Sip[0],(u16)Sip[1],(u16)Sip[2],(u16)Sip[3]);
}else {
SerialPutString("\n\r DNS fail");
}
}
if (strcmp(choice,"8")== 0)
{
bTreat = (bool)SET;
memset(encodedText, '\0', 256);
SerialPutString("\r\n");
SerialPutString(" 1 - BASE64 Encode \r\n");
SerialPutString(" 2 - BASE64 Decode \r\n");
SerialPutString("Enter your choice : ");
GetInputString(choice);
if (strcmp(choice,"1")== 0) {
SerialPutString("Type Plain Text\r\n");
GetInputString(msg);
base64_encode(msg, strlen(msg)+1, encodedText);
SerialPutString("Encoded Text\r\n");
printf("%s\r\n", encodedText);
}else if(strcmp(choice,"2")== 0){
SerialPutString("Type Encoded Text\r\n");
GetInputString(msg);
base64_decode(msg, (void *)encodedText, strlen(msg));
SerialPutString("Decoded Text\r\n");
printf("%s\r\n", encodedText);
}
}
if (strcmp(choice,"9")== 0) {
bTreat = (bool)SET;
SerialPutString("\r\nServer address : ");
GetInputString(msg);
SerialPutString("URL = ");
SerialPutString(msg);
// DNS
if (dns_query(SOCK_DNS, (void *)msg, Sip) == 1) {
printf("\r\nSIP : %d.%d.%d.%d", (u16)Sip[0],(u16)Sip[1],(u16)Sip[2],(u16)Sip[3]);
while(1) {
SerialPutString("\r\nType a Sender: ");
GetInputString(sender);
SerialPutString("Type a Password: "******"Type a Recipient: ");
GetInputString(recipient);
SerialPutString("Type a Subject: ");
GetInputString(subject);
SerialPutString("Type a message: ");
GetInputString(msg);
send_mail(SOCK_SMTP, (void *)sender, (void *) passwd, (void *)recipient, (void *)subject, (void *)msg, Sip);
SerialPutString("\r\nIf you want send another message? [YES]: any key, [NO]: Q");
key = GetKey();
if (key == 'Q') {
SerialPutString("\r\n Stop ");
break;
}
}
}else {
SerialPutString("\r\nDNS error");
}
}
/* OTHERS CHOICE*/
if (bTreat == (bool)RESET)
{
SerialPutString(" wrong choice \r\n");
}
} /* While(1)*/
}/* Main_Menu */
static int8 mn_set_network(menu_ctrl mctrl, int8 *mbuf)
{
#define INPUT_GUIDE(name_v) \
printf("Enter new "name_v" [xxx.xxx.xxx.xxx] or 'n' key to skip\r\n")
#define NEXT_GUIDE(name_v, addr_v) \
do {INPUT_GUIDE(name_v); \
printf("Current "name_v" is (%d.%d.%d.%d)\r\n", \
addr_v[0], addr_v[1], addr_v[2], addr_v[3]); \
} while(0)
#define SET_DONE_GUIDE(name_v, addr_v) \
printf("New "name_v" is (%d.%d.%d.%d)\r\n\r\n", \
addr_v[0], addr_v[1], addr_v[2], addr_v[3])
#define SET_STAGE(cur_name_v, next_name_v, cur_addr_v, next_addr_v) \
do {uint8 _tmp[4], _next[4]; \
if(next_addr_v != NULL) memcpy(_next, next_addr_v, 4); \
if(mbuf[0] == 'n') { \
stage++; \
if(next_addr_v != NULL) NEXT_GUIDE(next_name_v, _next); \
} else { \
ret = ip_check(mbuf, _tmp); \
if(ret == RET_OK) { \
memcpy(cur_addr_v, _tmp, 4); \
stage++; \
SetNetInfo(&netinfo); \
SET_DONE_GUIDE(cur_name_v, cur_addr_v); \
if(next_addr_v != NULL) NEXT_GUIDE(next_name_v, _next); \
} else { \
printf("wrong input(%s)\r\n\r\n", mbuf); \
INPUT_GUIDE(cur_name_v); \
} \
} \
} while(0)
int8 ret;
static uint8 stage = 0;
static wiz_NetInfo netinfo;
GetNetInfo(&netinfo);
if(mctrl == MC_START) {
NEXT_GUIDE("IP Address", netinfo.ip);
} else if(mctrl == MC_END) {
stage = 0;
} else if(mctrl == MC_DATA) {
switch(stage) {
case 0:
SET_STAGE("IP Address", "SN Mask", netinfo.ip, netinfo.sn);
break;
case 1:
SET_STAGE("SN Mask", "GW Address", netinfo.sn, netinfo.gw);
break;
case 2:
SET_STAGE("GW Address", "DNS Address", netinfo.gw, netinfo.dns);
break;
case 3:
SET_STAGE("DNS Address", "", netinfo.dns, NULL);
if(stage > 3) return RET_OK;
break;
}
}
return RET_NOK;
#undef INPUT_GUIDE
#undef NEXT_GUIDE
#undef SET_DONE_GUIDE
#undef SET_STAGE
}
void WIZ_Config(void)
{
uint8 i;
wiz_NetInfo netinfo;
extern u_char GET_SN_MASK[4]; /**< Subnet mask received from the DHCP server */
extern u_char GET_GW_IP[4]; /**< Gateway ip address received from the DHCP server */
extern u_char GET_SIP[4]; /**< Local ip address received from the DHCP server */
Reset_W5200();
wizInit();
if(Enable_DHCP == OFF){
for(i=0; i<4; i++){
netinfo.Mac[i] = Mac[i];
netinfo.IP[i] = IP[i];
netinfo.Subnet[i] = Subnet[i];
netinfo.Gateway[i] = Gateway[i];
netinfo.DNSServerIP[i] = DNSServerIP[i];
}
netinfo.Mac[i] = Mac[i];
i++;
netinfo.Mac[i] = Mac[i];
} else{
for(i=0; i<6; i++){
SRC_MAC_ADDR[i] = Mac[i];
}
printf("Delay for 2 Seconds..\r\n");
Delay_ms(2000);
// Set DHCP
init_dhcp_client(SOCK_DHCP, wizSWReset, wizSWReset);
getIP_DHCPS();
for(i=0; i<4; i++){
netinfo.Mac[i] = SRC_MAC_ADDR[i];
netinfo.IP[i] = GET_SIP[i];
netinfo.Subnet[i] = GET_SN_MASK[i];
netinfo.Gateway[i] = GET_GW_IP[i];
netinfo.DNSServerIP[i] = GET_DNS_IP[i];
}
netinfo.Mac[i] = SRC_MAC_ADDR[i];
i++;
netinfo.Mac[i] = SRC_MAC_ADDR[i];
}
SetNetInfo(&netinfo);
printf("\r\n--------------------------------------- \r\n");
printf("W5200E01-M3 \r\n");
printf("Network Configuration Information \r\n");
printf("--------------------------------------- ");
GetNetInfo(&netinfo);
printf("\r\nMAC : %.2X.%.2X.%.2X.%.2X.%.2X.%.2X", netinfo.Mac[0],netinfo.Mac[1],netinfo.Mac[2],netinfo.Mac[3],netinfo.Mac[4],netinfo.Mac[5]);
printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]);
printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]);
printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]);
printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]);
}
/*******************************************************************************
* Function Name : Main_Menu
* Description : Display/Manage a Menu on HyperTerminal Window
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void Main_Menu(void)
{
static char choice[3];
static char msg[256];
static bool bTreat;
static u8 Sip[4];
static char key = 0;
static wiz_NetInfo netinfo;
while (1)
{
/* Display Menu on HyperTerminal Window */
bTreat = (bool)RESET ;
SerialPutString("\r\n====================== STM32-Discovery ===================\r\n");
SerialPutString("This Application is basic example of UART interface with\r\n");
SerialPutString("Windows Hyper Terminal. \r\n");
SerialPutString("\r\n==========================================================\r\n");
SerialPutString(" APPLICATION MENU :\r\n");
SerialPutString("\r\n==========================================================\r\n\n");
SerialPutString(" 1 - Set LD1 on \r\n");
SerialPutString(" 2 - Set LD1 off \r\n");
SerialPutString(" 3 - Show network setting\r\n");
SerialPutString(" 4 - Set network setting\r\n");
SerialPutString(" 5 - Run TCP Loopback\r\n");
SerialPutString(" 6 - Run UDP Loopback\r\n");
SerialPutString(" 7 - DNS test\r\n");
SerialPutString(" 8 - Twitter\r\n");
SerialPutString("Enter your choice : ");
GetInputString(choice);
/* Set LD1 on */
if (strcmp(choice,"1")== 0)
{
bTreat = (bool)SET;
LED3_onoff(ON);
LED4_onoff(ON);
}
/* Set LD1 off */
if ((strcmp(choice,"2") == 0))
{
bTreat = (bool)SET;
LED3_onoff(OFF);
LED4_onoff(OFF);
}
if (strcmp(choice,"3") == 0)
{
bTreat = (bool)SET;
GetNetInfo(&netinfo);
printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]);
printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]);
printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]);
printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]);
}
if (strcmp(choice,"4") == 0)
{
bTreat = (bool)SET;
// IP address
SerialPutString("\r\nIP address : ");
GetInputString(msg);
if(!VerifyIPAddress(msg, netinfo.IP))
{
SerialPutString("\aInvalid.");
}
// Subnet mask
SerialPutString("\r\nSubnet mask : ");
GetInputString(msg);
if(!VerifyIPAddress(msg, netinfo.Subnet))
{
SerialPutString("\aInvalid.");
}
// gateway address
SerialPutString("\r\nGateway address : ");
GetInputString(msg);
if(!VerifyIPAddress(msg, netinfo.Gateway))
{
SerialPutString("\aInvalid.");
}
// DNS address
SerialPutString("\r\nDNS address : ");
GetInputString(msg);
if(!VerifyIPAddress(msg, netinfo.DNSServerIP))
{
SerialPutString("\aInvalid.");
}
printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]);
printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]);
printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]);
printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]);
SetNetInfo(&netinfo);
}
if (strcmp(choice,"5") == 0)
{
bTreat = (bool)SET;
SerialPutString("\r\nRun TCP loopback");
printf("\r\nRun TCP loopback, port number [%d] is listened", (u16)TCP_LISTEN_PORT);
SerialPutString("\r\nTo Exit, press [Q]");
while(1) {
if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) {
SerialPutString("\r\n Stop ");
break;
}
loopback_tcps(7, (u16)TCP_LISTEN_PORT);
}
}
if (strcmp(choice,"6") == 0)
{
bTreat = (bool)SET;
SerialPutString("\r\nRun UDP loopback");
printf("\r\nRun UDP loopback, port number [%d] is listened", (u16)UDP_LISTEN_PORT);
SerialPutString("\r\nTo Exit, press [Q]");
while(1) {
if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) {
SerialPutString("\r\n Stop ");
break;
}
loopback_udp(7, (u16)UDP_LISTEN_PORT);
}
}
if (strcmp(choice,"7")== 0)
{
bTreat = (bool)SET;
SerialPutString("\r\nServer address : ");
GetInputString(msg);
SerialPutString("URL = ");
SerialPutString(msg);
if (dns_query(SOCK_DNS, (void *)msg, Sip) == 1) {
printf("\r\nSIP : %d.%d.%d.%d", (u16)Sip[0],(u16)Sip[1],(u16)Sip[2],(u16)Sip[3]);
}else {
SerialPutString("\n\r DNS fail");
}
}
if (strcmp(choice,"8")== 0) {
bTreat = (bool)SET;
// DNS
if (dns_query(SOCK_DNS, LIB_DOMAIN, Sip) == 1) {
printf("\r\nSIP : %d.%d.%d.%d", (u16)Sip[0],(u16)Sip[1],(u16)Sip[2],(u16)Sip[3]);
while(1) {
/*
sprintf(msg, "Hello, World [%d] from wiz820io", twit_cnt++);
SerialPutString("\r\nSend Twitter Message: ");
SerialPutString(msg);
*/
SerialPutString("\r\nType a message: ");
GetInputString(msg);
Twitter_Post(SOCK_TWITTER, (void *)msg, Sip);
SerialPutString("\r\nIf you want send another message? [YES]: any key, [NO]: Q");
key = GetKey();
if (key == 'Q') {
SerialPutString("\r\n Stop ");
break;
}
}
}else {
SerialPutString("\r\nDNS error");
}
}
if (strcmp(choice,"9") == 0)
{
uint8 l_ip[4] = {222, 98, 173, 237};
bTreat = (bool)SET;
SerialPutString("\r\nRun TCP loopback [Client]");
SerialPutString("\r\nTo Exit, press [Q]");
while(1) {
if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) {
SerialPutString("\r\n Stop ");
break;
}
TCPClientOpen(7, 5000, l_ip, 5000);
Delay_ms(3000);
TCPClose(7);
Delay_ms(3000);
}
}
/* OTHERS CHOICE*/
if (bTreat == (bool)RESET)
{
SerialPutString(" wrong choice \r\n");
}
} /* While(1)*/
}/* Main_Menu */
