/***************************************************************************** * FUNCTION: WF_LibInitialize * * RETURNS: None * * PARAMS: None * * NOTES: Performs initialization which is specific to the Microchip Demo code. *****************************************************************************/ static void WF_LibInitialize() { /* Disable Tx Data confirms (from the MRF24W) */ WF_SetTxDataConfirm(WF_DISABLED); /* if the user has left the default MAC address in TCPIPConfig.h unchanged then use */ /* the unique MRF24W MAC address so prevent multiple devices from having the same */ /* MAC address. */ if ( memcmp((void *)AppConfig.MyMACAddr.v, (void *)MchpDefaultMacAddress, WF_MAC_ADDRESS_LENGTH) == 0) { /* get the MRF24W MAC address and overwrite the MAC in AppConfig */ WF_GetMacAddress((UINT8 *)AppConfig.MyMACAddr.v); } /* else presume the user has a unique MAC address of their own that they wish to use */ else { // set MAC address with user-supplied MAC */ WF_SetMacAddress((UINT8 *)AppConfig.MyMACAddr.v); } #ifdef WF_CONFIG_DHCP WF_SET_DHCP_STATE(DHCP_ENABLED); #endif }
/***************************************************************************** * FUNCTION: do_ifconfig_cmd * * RETURNS: None * * PARAMS: None * * NOTES: Responds to the user invoking ifconfig *****************************************************************************/ void do_ifconfig_cmd(void) { uint8_t macAddress[6]; uint8_t conState, cpId; IP_ADDR ipAddress; // if user only typed in ifconfig with no other parameters if (ARGC == 1u) { IfconfigDisplayStatus(); return; } if (WF_hibernate.state) { WFConsolePrintRomStr("The Wi-Fi module is in hibernate mode - command failed.", true); return; } #if defined(WF_CM_DEBUG) else if ( (ARGC == 2u) && !strcmp((char *) ARGV[1], "info") ) { uint8_t i; tWFCMInfoFSMStats cm_stats; WF_CMInfoGetFSMStats(&cm_stats); for (i = 0; i < 12; i++) { sprintf( (char *) g_ConsoleContext.txBuf, "[%02X]: %02X%02X %02X%02X", i, cm_stats.byte[i*4 + 0], cm_stats.byte[i*4 + 1], cm_stats.byte[i*4 + 2], cm_stats.byte[i*4 + 3] ); WFConsolePrintRamStr( (char *) g_ConsoleContext.txBuf , true); } } else if ( (ARGC == 2u) && !strcmp((char *) ARGV[1], "scan") ) { if (WF_Scan(1) != WF_SUCCESS) // scan, using CP 1 WFConsolePrintRomStr("Scan failed", true); } else if ( (ARGC == 2u) && !strcmp((char *) ARGV[1], "scanget") ) //"scangetresult" { tWFScanResult pScanResult[1]; WF_ScanGetResult(0, pScanResult); } else if ( (ARGC == 2u) && !strcmp((char *) ARGV[1], "cpgete") ) //"cpgetelements" { tWFCPElements pCPElements[1]; WF_CPGetElements(1, pCPElements); } #endif // else if 2 arguments and the second arg is IP address else if ( (ARGC == 2u) && (StringToIPAddress((uint8_t*)ARGV[1], &ipAddress)) ) { #if defined(STACK_USE_DHCP_CLIENT) if (DHCPIsEnabled(0)) { WFConsolePrintRomStr("Static IP address should not be set with DHCP enabled", true); return; } #endif AppConfig.MyIPAddr.v[0] = ipAddress.v[0]; AppConfig.MyIPAddr.v[1] = ipAddress.v[1]; AppConfig.MyIPAddr.v[2] = ipAddress.v[2]; AppConfig.MyIPAddr.v[3] = ipAddress.v[3]; /* Microchip DHCP client clobbers static ip on every iteration of loop, even if dhcp is turned off*/ AppConfig.DefaultIPAddr.v[0] = ipAddress.v[0]; AppConfig.DefaultIPAddr.v[1] = ipAddress.v[1]; AppConfig.DefaultIPAddr.v[2] = ipAddress.v[2]; AppConfig.DefaultIPAddr.v[3] = ipAddress.v[3]; LCDDisplayIPValue(AppConfig.MyIPAddr); } // else if 2 args and second arg is MAC address else if ( (ARGC == 2u) && isMacAddress(ARGV[1], macAddress)) { /* Can only set MAC address in idle state */ WF_CMGetConnectionState(&conState, &cpId); if ( conState != WF_CSTATE_NOT_CONNECTED ) { WFConsolePrintRomStr("HW MAC address can only be set in idle mode", true); return; } WF_SetMacAddress( macAddress ); AppConfig.MyMACAddr.v[0] = macAddress[0]; AppConfig.MyMACAddr.v[1] = macAddress[1]; AppConfig.MyMACAddr.v[2] = macAddress[2]; AppConfig.MyMACAddr.v[3] = macAddress[3]; AppConfig.MyMACAddr.v[4] = macAddress[4]; AppConfig.MyMACAddr.v[5] = macAddress[5]; } else if ( (2u <= ARGC) && (strcmppgm2ram((char *)ARGV[1], (ROM FAR char *)"netmask") == 0) ) { if (ARGC != 3u) { missingValue(); return; } #if defined(STACK_USE_DHCP_CLIENT) if ( DHCPIsEnabled(0) ) { WFConsolePrintRomStr( "The Netmask should not be set with DHCP enabled", true); return; } #endif if ( !StringToIPAddress((uint8_t*)ARGV[2], &ipAddress) ) { WFConsolePrintRomStr("Invalid netmask value", true); return; } AppConfig.MyMask.v[0] = ipAddress.v[0]; AppConfig.MyMask.v[1] = ipAddress.v[1]; AppConfig.MyMask.v[2] = ipAddress.v[2]; AppConfig.MyMask.v[3] = ipAddress.v[3]; /* Microchip DHCP client clobbers static netmask on every iteration of loop, even if dhcp is turned off*/ AppConfig.DefaultMask.v[0] = ipAddress.v[0]; AppConfig.DefaultMask.v[1] = ipAddress.v[1]; AppConfig.DefaultMask.v[2] = ipAddress.v[2]; AppConfig.DefaultMask.v[3] = ipAddress.v[3]; } else if ( (2u <= ARGC) && (strcmppgm2ram((char *)ARGV[1], (ROM FAR char *)"gateway") == 0) ) { if (ARGC != 3u) { missingValue(); return; } if ( !StringToIPAddress((uint8_t*)ARGV[2], &ipAddress) ) { WFConsolePrintRomStr("Invalid gateway value", true); return; } AppConfig.MyGateway.v[0] = ipAddress.v[0]; AppConfig.MyGateway.v[1] = ipAddress.v[1]; AppConfig.MyGateway.v[2] = ipAddress.v[2]; AppConfig.MyGateway.v[3] = ipAddress.v[3]; } else if ( (2u <= ARGC) && (strcmppgm2ram((char*)ARGV[1], "auto-dhcp") == 0) ) { if (ARGC != 3u) { missingValue(); return; } #if defined(STACK_USE_DHCP_CLIENT) if (strcmppgm2ram((char*)ARGV[2], "start") == 0) { setDHCPState(true); } else if (strcmppgm2ram((char*)ARGV[2], "stop") == 0) { setDHCPState(false); } else #endif { WFConsolePrintRomStr(" Invalid dhcp param", true); return; } } else { notHandledParam(1); } }