void stop_services(int stopall) { if (stopall) { stop_telnetd(); #if defined(APP_SSHD) stop_sshd(); #endif stop_httpd(); stop_vpn_server(); } #if (BOARD_NUM_USB_PORTS > 0) stop_p910nd(); #if defined(SRV_LPRD) stop_lpd(); #endif #if defined(SRV_U2EC) stop_u2ec(); #endif #endif stop_networkmap(); stop_lltd(); stop_detect_internet(); stop_rstats(); stop_infosvr(); stop_igmpproxy(NULL); }
void stop_usb_printer_spoolers(void) { #if defined(SRV_U2EC) stop_u2ec(); #endif #if defined(SRV_LPRD) stop_lpd(); #endif stop_p910nd(); }
void u2ec_processcheck(void) { u2ec_timer = (u2ec_timer + 1) % 3; if (u2ec_timer) return 1; if (nvram_match("apps_u2ec_ex", "1") && (!pids("u2ec") || !pids("lpd"))) { stop_u2ec(); stop_lpd(); start_u2ec(); start_lpd(); } }
int asus_ate_command(const char *command, const char *value, const char *value2) { _dprintf("===[ATE %s %s]===\n", command, value); #ifdef RTCONFIG_QTN if(!nvram_match("qtn_ready", "1")){ _dprintf("ATE Error: wireless 5G not ready\n"); return 0; } #endif /*** ATE Set function ***/ if(!strcmp(command, "Set_StartATEMode")) { nvram_set("asus_mfg", "1"); if(nvram_match("asus_mfg", "1")) { puts("1"); #ifdef RTCONFIG_FANCTRL stop_phy_tempsense(); #endif stop_wpsaide(); stop_wps(); #ifdef RTCONFIG_BCMWL6 stop_igmp_proxy(); #ifdef RTCONFIG_HSPOT stop_hspotap(); #endif stop_acsd(); #ifdef BCM_BSD stop_bsd(); #endif #ifdef BCM_SSD stop_ssd(); #endif #endif stop_upnp(); stop_lltd(); stop_rstats(); stop_wanduck(); stop_logger(); stop_wanduck(); stop_dnsmasq(0); stop_ots(); stop_networkmap(); #ifdef RTCONFIG_USB stop_usbled(); #ifdef RTCONFIG_USB_PRINTER stop_lpd(); stop_u2ec(); #endif #endif platform_start_ate_mode(); } else puts("ATE_ERROR"); return 0; } else if (!strcmp(command, "Set_AllLedOn")) { return setAllLedOn(); } else if (!strcmp(command, "Set_AllLedOn2")) { return setAllLedOn2(); } else if (!strcmp(command, "Set_AllLedOff")) { return setAllLedOff(); } else if (!strcmp(command, "Set_AllLedOn_Half")) { puts("ATE_ERROR"); //Need to implement for EA-N66U return EINVAL; } #ifdef RTCONFIG_BCMARM else if (!strcmp(command, "Set_AteModeLedOn")) { return setATEModeLedOn(); } #endif else if (!strcmp(command, "Set_MacAddr_2G")) { if( !setMAC_2G(value) ) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Set_MacAddr_5G")) { #ifdef RTCONFIG_QTN if( !setMAC_5G_qtn(value)) #else if( !setMAC_5G(value)) #endif { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #ifdef RTAC3200 else if (!strcmp(command, "Set_MacAddr_5G_2")) { if( !setMAC_5G_2(value)) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #endif #endif /* RTCONFIG_HAS_5G */ #if defined(RTN14U) else if (!strcmp(command, "eeprom")) { if ( !eeprom_upgrade(value, 1)) return EINVAL; return 0; } else if (!strcmp(command, "eeover")) { if ( !eeprom_upgrade(value, 0)) return EINVAL; return 0; } #endif #if defined(RTCONFIG_NEW_REGULATION_DOMAIN) else if (!strcmp(command, "Set_RegSpec")) { if (setRegSpec(value) < 0) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } getRegSpec(); return 0; } else if (!strcmp(command, "Set_RegulationDomain_2G")) { if (setRegDomain_2G(value) == -1) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } getRegDomain_2G(); return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Set_RegulationDomain_5G")) { if (setRegDomain_5G(value) == -1) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } getRegDomain_5G(); return 0; } #endif /* RTCONFIG_HAS_5G */ #else /* ! RTCONFIG_NEW_REGULATION_DOMAIN */ else if (!strcmp(command, "Set_RegulationDomain_2G")) { if ( !setCountryCode_2G(value)) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } #ifdef RTCONFIG_QCA if ((value2==NULL) || strcmp(value2,"noctl")) setCTL(value); #endif return 0; } #endif /* RTCONFIG_NEW_REGULATION_DOMAIN */ #ifdef CONFIG_BCMWL5 else if (!strcmp(command, "Set_RegulationDomain_5G")) { #ifdef RTCONFIG_QTN if ( !setCountryCode_5G_qtn(value)) #else if ( !setCountryCode_5G(value)) #endif { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } else if (!strcmp(command, "Set_Regrev_2G")) { if( !setRegrev_2G(value) ) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } else if (!strcmp(command, "Set_Regrev_5G")) { #ifdef RTCONFIG_QTN if( !setRegrev_5G_qtn(value)) #else if( !setRegrev_5G(value)) #endif { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } else if (!strcmp(command, "Set_Commit")) { setCommit(); return 0; } #endif #if defined(RTN14U) else if (!strcmp(command, "pkt_flood")) { if (nvram_invmatch("asus_mfg", "0")) { #if 0 // TBD struct sockaddr_ll dev,dev2; int fd,fd2,do_flag=3; unsigned char buffer[1514]; fd = socket(PF_PACKET, SOCK_RAW, htons(ETH_P_ALL)); dev.sll_family = AF_PACKET; dev.sll_protocol = htons(ETH_P_ALL); dev.sll_ifindex = 4; // LAN bind( fd, (struct sockaddr *) &dev, sizeof(dev)); fd2 = socket(PF_PACKET, SOCK_RAW, htons(ETH_P_ALL)); dev2.sll_family = AF_PACKET; dev2.sll_protocol = htons(ETH_P_ALL); dev2.sll_ifindex = 5; // WAN bind( fd2, (struct sockaddr *) &dev2, sizeof(dev2)); if (value) { if(strcmp(value,"WAN")==0) do_flag = 2; else if(strcmp(value,"LAN")==0) do_flag = 1; } memset(buffer,0xff,6); FRead(buffer+6, OFFSET_MAC_ADDR_2G, 6); memset(buffer+12,0x55,1502); while(1) { if (do_flag & 1) send( fd, buffer, 1514, 0); if (do_flag & 2) send( fd2, buffer, 1514, 0); } #endif } return 0; } #endif else if (!strcmp(command, "Set_SerialNumber")) { if(!setSN(value)) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #ifdef RTCONFIG_ODMPID else if (!strcmp(command, "Set_ModelName")) { if(!setMN(value)) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #endif else if (!strcmp(command, "Set_PINCode")) { if (!setPIN(value)) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } else if (!strcmp(command, "Set_40M_Channel_2G")) { if(!set40M_Channel_2G((char*)value)) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Set_40M_Channel_5G")) { if(!set40M_Channel_5G((char*)value)) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #endif /* RTCONFIG_HAS_5G */ else if (!strcmp(command, "Set_RestoreDefault")) { nvram_set("restore_defaults", "1"); ResetDefault(); nvram_set(ASUS_STOP_COMMIT, "1"); return 0; } else if (!strcmp(command, "Set_Eject")) { if( !Ej_device(value)) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #ifdef RTCONFIG_FANCTRL else if (!strcmp(command, "Set_FanOn")) { setFanOn(); return 0; } else if (!strcmp(command, "Set_FanOff")) { setFanOff(); return 0; } #endif #ifdef CONFIG_BCMWL5 else if (!strcmp(command, "Set_WaitTime")) { if( !setWaitTime(value) ) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } else if (!strcmp(command, "Set_WiFi_2G")) { if( !setWiFi2G(value) ) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Set_WiFi_5G")) { if( !setWiFi5G(value) ) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } #endif /* RTCONFIG_HAS_5G */ #endif #ifdef RTCONFIG_RALINK else if (!strcmp(command, "Set_DevFlags")) { if( Set_Device_Flags(value) < 0 ) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } return 0; } else if (!strcmp(command, "Set_WanToLan")) { set_wantolan(); modprobe_r("hw_nat"); modprobe("hw_nat"); system("killall -9 wanduck"); system("killall -9 udhcpc"); return 0; } #if defined(RTAC1200HP) || defined(RTN56UB1) else if (!strcmp(command, "Set_FixChannel")) { FWrite("1", OFFSET_FIX_CHANNEL, 1); puts("1"); return 0; } else if (!strcmp(command, "Set_FreeChannel")) { FWrite("0", OFFSET_FIX_CHANNEL, 1); nvram_set("wl0_channel","0"); nvram_set("wl1_channel","0"); nvram_set("lan_stp","1"); nvram_commit(); puts("1"); return 0; } #endif #endif else if (!strcmp(command, "Set_XSetting")) { if(value == NULL || strcmp(value, "1")) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } else { nvram_set("x_Setting", "1"); puts(nvram_get("x_Setting")); } return 0; } /*** ATE Get functions ***/ else if (!strcmp(command, "Get_FWVersion")) { char fwver[12]; sprintf(fwver, "%s.%s", nvram_safe_get("firmver"), nvram_safe_get("buildno")); puts(fwver); return 0; } else if (!strcmp(command, "Get_BootLoaderVersion")) { getBootVer(); return 0; } else if (!strcmp(command, "Get_ResetButtonStatus")) { puts(nvram_safe_get("btn_rst")); return 0; } else if (!strcmp(command, "Get_WpsButtonStatus")) { puts(nvram_safe_get("btn_ez")); return 0; } #ifdef RT4GAC55U else if (!strcmp(command, "Get_LteButtonStatus")) { puts(nvram_safe_get("btn_lte")); return 0; } #endif #ifdef RTCONFIG_WIFI_TOG_BTN else if (!strcmp(command, "Get_WirelessButtonStatus")) { puts(nvram_safe_get("btn_wifi_toggle")); return 0; } #endif else if (!strcmp(command, "Get_SWMode")) { puts(nvram_safe_get("sw_mode")); return 0; } else if (!strcmp(command, "Get_MacAddr_2G")) { getMAC_2G(); return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Get_MacAddr_5G")) { #ifdef RTCONFIG_QTN getMAC_5G_qtn(); #else getMAC_5G(); #endif return 0; } #ifdef RTAC3200 else if (!strcmp(command, "Get_MacAddr_5G_2")) { getMAC_5G_2(); return 0; } #endif #endif /* RTCONFIG_HAS_5G */ else if (!strcmp(command, "Get_Usb2p0_Port1_Infor")) { Get_USB_Port_Info("1"); return 0; } else if (!strcmp(command, "Get_Usb2p0_Port1_Folder")) { Get_USB_Port_Folder("1"); return 0; } else if (!strcmp(command, "Get_Usb2p0_Port2_Infor")) { Get_USB_Port_Info("2"); return 0; } else if (!strcmp(command, "Get_Usb2p0_Port2_Folder")) { Get_USB_Port_Folder("2"); return 0; } else if (!strcmp(command, "Get_SD_Infor")) { Get_SD_Card_Info(); return 0; } else if (!strcmp(command, "Get_SD_Folder")) { Get_SD_Card_Folder(); return 0; } #if defined(RTCONFIG_NEW_REGULATION_DOMAIN) else if (!strcmp(command, "Get_RegSpec")) { getRegSpec(); return 0; } else if (!strcmp(command, "Get_RegulationDomain_2G")) { getRegDomain_2G(); return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Get_RegulationDomain_5G")) { getRegDomain_5G(); return 0; } #endif /* RTCONFIG_HAS_5G */ #else /* ! RTCONFIG_NEW_REGULATION_DOMAIN */ else if (!strcmp(command, "Get_RegulationDomain_2G")) { getCountryCode_2G(); return 0; } #endif /* ! RTCONFIG_NEW_REGULATION_DOMAIN */ #ifdef CONFIG_BCMWL5 else if (!strcmp(command, "Get_RegulationDomain_5G")) { #ifdef RTCONFIG_QTN getCountryCode_5G_qtn(); #else getCountryCode_5G(); #endif return 0; } else if (!strcmp(command, "Get_Regrev_2G")) { getRegrev_2G(); return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Get_Regrev_5G")) { #ifdef RTCONFIG_QTN getRegrev_5G_qtn(); #else getRegrev_5G(); #endif return 0; } #endif /* RTCONFIG_HAS_5G */ #endif else if (!strcmp(command, "Get_SerialNumber")) { getSN(); return 0; } #ifdef RTCONFIG_ODMPID else if (!strcmp(command, "Get_ModelName")) { getMN(); return 0; } #endif else if (!strcmp(command, "Get_PINCode")) { getPIN(); return 0; } else if (!strcmp(command, "Get_WanLanStatus")) { if( !GetPhyStatus()) puts("ATE_ERROR"); return 0; } else if (!strcmp(command, "Get_FwReadyStatus")) { puts(nvram_safe_get("success_start_service")); return 0; } else if (!strcmp(command, "Get_Build_Info")) { puts(nvram_safe_get("buildinfo")); return 0; } #ifdef RTCONFIG_RALINK else if (!strcmp(command, "Get_RSSI_2G")) { getrssi(0); return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Get_RSSI_5G")) { getrssi(1); return 0; } #endif /* RTCONFIG_HAS_5G */ #endif else if (!strcmp(command, "Get_ChannelList_2G")) { if(!Get_ChannelList_2G()) puts("ATE_ERROR"); return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Get_ChannelList_5G")) { #ifdef RTCONFIG_QTN if (!Get_ChannelList_5G_qtn()) #else if (!Get_ChannelList_5G()) #endif puts("ATE_ERROR"); return 0; } #ifdef RTAC3200 else if (!strcmp(command, "Get_ChannelList_5G_2")) { if (!Get_ChannelList_5G_2()) puts("ATE_ERROR"); return 0; } #endif #endif /* RTCONFIG_HAS_5G */ #if defined(RTCONFIG_USB_XHCI) else if (!strcmp(command, "Get_Usb3p0_Port1_Infor")) { if (!Get_USB3_Port_Info("1")) puts("ATE_ERROR"); return 0; } else if (!strcmp(command, "Get_Usb3p0_Port2_Infor")) { if (!Get_USB3_Port_Info("2")) puts("ATE_ERROR"); return 0; } else if (!strcmp(command, "Get_Usb3p0_Port3_Infor")) { puts("ATE_ERROR"); //Need to implement return 0; } else if (!strcmp(command, "Get_Usb3p0_Port1_Folder")) { if (!Get_USB3_Port_Folder("1")) puts("ATE_ERROR"); return 0; } else if (!strcmp(command, "Get_Usb3p0_Port2_Folder")) { if (!Get_USB3_Port_Folder("2")) puts("ATE_ERROR"); return 0; } else if (!strcmp(command, "Get_Usb3p0_Port3_Folder")) { puts("ATE_ERROR"); //Need to implement return EINVAL; } else if (!strcmp(command, "Get_Usb3p0_Port1_DataRate")) { if (!Get_USB3_Port_DataRate("1")) puts("ATE_ERROR"); return 0; } else if (!strcmp(command, "Get_Usb3p0_Port2_DataRate")) { if (!Get_USB3_Port_DataRate("2")) puts("ATE_ERROR"); return 0; } else if (!strcmp(command, "Get_Usb3p0_Port3_DataRate")) { puts("ATE_ERROR"); //Need to implement return EINVAL; } #endif /* RTCONFIG_USB_XHCI */ else if (!strcmp(command, "Get_fail_ret")) { Get_fail_ret(); return 0; } else if (!strcmp(command, "Get_fail_reboot_log")) { Get_fail_reboot_log(); return 0; } else if (!strcmp(command, "Get_fail_dev_log")) { Get_fail_dev_log(); return 0; } #ifdef RTCONFIG_RALINK #if !defined(RTN14U) && !defined(RTAC52U) && !defined(RTAC51U) && !defined(RTN11P) && !defined(RTN54U) && !defined(RTAC1200HP) && !defined(RTN56UB1) && !defined(RTAC54U) else if (!strcmp(command, "Ra_FWRITE")) { return FWRITE(value, value2); } else if (!strcmp(command, "Ra_Asuscfe_2G")) { return asuscfe(value, WIF_2G); } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Ra_Asuscfe_5G")) { return asuscfe(value, WIF_5G); } #endif /* RTCONFIG_HAS_5G */ else if (!strcmp(command, "Set_SwitchPort_LEDs")) { if(Set_SwitchPort_LEDs(value, value2) < 0) { puts("ATE_ERROR"); return EINVAL; } return 0; } #endif #endif #ifdef RTCONFIG_WIRELESS_SWITCH else if (!strcmp(command, "Get_WifiSwStatus")) { puts(nvram_safe_get("btn_wifi_sw")); return 0; } #endif #ifdef RTCONFIG_WIFI_TOG_BTN else if (!strcmp(command, "Get_WifiButtonStatus")) { puts(nvram_safe_get("btn_wifi_toggle")); return 0; } #endif #ifdef RTCONFIG_TURBO else if (!strcmp(command, "Get_Turbo")) { puts(nvram_safe_get("btn_turbo")); return 0; } #endif #ifdef RTCONFIG_LED_BTN else if (!strcmp(command, "Get_LedButtonStatus")) { puts(nvram_safe_get("btn_led")); return 0; } #endif #ifdef RTCONFIG_QTN else if (!strcmp(command, "Enable_Qtn_TelnetSrv")) { enable_qtn_telnetsrv(1); puts("1"); return 0; } else if (!strcmp(command, "Disable_Qtn_TelnetSrv")) { enable_qtn_telnetsrv(0); puts("1"); return 0; } else if (!strcmp(command, "Get_Qtn_TelnetSrv_Status")) { getstatus_qtn_telnetsrv(); return 0; } else if (!strcmp(command, "Del_Qtn_Cal_Files")) { del_qtn_cal_files(); puts("1"); return 0; } #endif #ifdef CONFIG_BCMWL5 else if (!strcmp(command, "Get_WiFiStatus_2G")) { if(!getWiFiStatus("2G")) puts("ATE_ERROR_INCORRECT_PARAMETER"); return 0; } else if (!strcmp(command, "Get_WiFiStatus_5G")) { if(!getWiFiStatus("5G")) puts("ATE_ERROR_INCORRECT_PARAMETER"); return 0; } #else else if (!strcmp(command, "Get_WiFiStatus_2G")) { if(get_radio(0, 0)) puts("1"); else puts("0"); return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Get_WiFiStatus_5G")) { if(get_radio(1, 0)) puts("1"); else puts("0"); return 0; } #endif /* RTCONFIG_HAS_5G */ #endif else if (!strcmp(command, "Set_WiFiStatus_2G")) { int act = !strcmp(value, "on"); if(!strcmp(value, "on") && !strcmp(value, "off")) puts("ATE_UNSUPPORT"); set_radio(act, 0, 0); if(get_radio(0, 0)){ if(act) puts("success=on"); else puts("ATE_ERROR_INCORRECT_PARAMETER"); } else{ if(!act) puts("success=off"); else puts("ATE_ERROR_INCORRECT_PARAMETER"); } return 0; } #if defined(RTCONFIG_HAS_5G) else if (!strcmp(command, "Set_WiFiStatus_5G")) { int act = !strcmp(value, "on"); if(!strcmp(value, "on") && !strcmp(value, "off")) puts("ATE_UNSUPPORT"); set_radio(act, 1, 0); if(get_radio(1, 0)){ if(act) puts("success=on"); else puts("ATE_ERROR_INCORRECT_PARAMETER"); } else{ if(!act) puts("success=off"); else puts("ATE_ERROR_INCORRECT_PARAMETER"); } return 0; } #endif /* RTCONFIG_HAS_5G */ else if (!strcmp(command, "Get_ATEVersion")) { puts(nvram_safe_get("Ate_version")); return 0; } else if (!strcmp(command, "Get_XSetting")) { puts(nvram_safe_get("x_Setting")); return 0; } else if (!strcmp(command, "Get_WaitTime")) { puts(nvram_safe_get("wait_time")); return 0; } else if (!strcmp(command, "Get_ExtendNo")) { puts(nvram_safe_get("extendno")); return 0; } #ifdef RTCONFIG_RALINK else if (!strcmp(command, "Get_DevFlags")) { if( Get_Device_Flags() < 0) { puts("ATE_ERROR"); return EINVAL; } return 0; } #endif #ifdef RTCONFIG_QCA /* else if (!strcmp(command, "Set_ART2")) { // temp solution system("killall rstats"); system("killall udhcpc"); system("killall wanduck"); system("killall networkmap"); system("killall -9 hostapd"); system("ifconfig ath0 down"); system("ifconfig ath1 down"); system("killall -9 hostapd"); system("brctl delif br0 ath0"); system("brctl delif br0 ath1"); system("wlanconfig ath0 destroy"); system("wlanconfig ath1 destroy"); system("ifconfig wifi0 down"); system("ifconfig wifi1 down"); modprobe_r("umac"); modprobe_r("ath_dfs"); modprobe_r("ath_dev"); modprobe_r("ath_rate_atheros"); modprobe_r("ath_spectral"); modprobe_r("ath_hal"); modprobe_r("adf"); modprobe_r("asf"); modprobe("art"); system("nart.out -port 2390 -console &"); system("nart.out -port 2391 -console &"); return 0; } */ else if (!strncmp(command, "Get_EEPROM_", 11)) { unsigned char buffer[2560]; unsigned short len; int lret; char *pt; len=sizeof(buffer); pt = (char*) command + 11; if (!strcmp(pt, "2G")) lret=getEEPROM(&buffer[0], &len, pt); else if (!strcmp(pt, "5G")) lret=getEEPROM(&buffer[0], &len, pt); else if (!strcmp(pt, "CAL_2G")) lret=getEEPROM(&buffer[0], &len, pt); else if (!strcmp(pt, "CAL_5G")) lret=getEEPROM(&buffer[0], &len, pt); else { puts("ATE_UNSUPPORT"); return EINVAL; } if ( !lret ) hexdump(&buffer[0], len); return 0; } else if (!strcmp(command, "Get_CalCompare")) { unsigned char buffer[2560], buffer2[2560]; unsigned short len, len2; int lret=0, cret=0; len=sizeof(buffer); len2=sizeof(buffer2); lret+=getEEPROM(&buffer[0], &len, "2G"); lret+=getEEPROM(&buffer2[0], &len2, "CAL_2G"); if (lret) return EINVAL; if ((len!=len2) || (memcmp(&buffer[0],&buffer2[0],len)!=0)) { puts("2G EEPROM different!"); cret++; } len=sizeof(buffer); len2=sizeof(buffer2); lret+=getEEPROM(&buffer[0], &len, "5G"); lret+=getEEPROM(&buffer2[0], &len2, "CAL_5G"); if (lret) return EINVAL; if ((len!=len2) || (memcmp(&buffer[0],&buffer2[0],len)!=0)) { puts("5G EEPROM different!"); cret++; } if (!cret) puts("1"); else puts("0"); return 0; } #ifdef RTCONFIG_ATEUSB3_FORCE else if (!strcmp(command, "Set_ForceUSB3")) { if (setForceU3(value) < 0) { puts("ATE_ERROR_INCORRECT_PARAMETER"); return EINVAL; } getForceU3(); return 0; } else if (!strcmp(command, "Get_ForceUSB3")) { getForceU3(); return 0; } #endif #endif /* RTCONFIG_QCA */ #ifdef RT4GAC55U else if(!strcmp(command, "Get_GobiSimCard")) { char line[128]; if (!Gobi_SimCardReady(Gobi_SimCard(line, sizeof(line)))) { puts("FAIL"); return EINVAL; } puts("PASS"); } else if(!strcmp(command, "Get_GobiIMEI")) { char line[128]; const char *IMEI = Gobi_IMEI(line, sizeof(line)); if (IMEI == NULL) { puts("FAIL"); return EINVAL; } puts(IMEI); } else if(!strcmp(command, "Get_GobiConnectISP")) { char line[128]; const char *ISP = Gobi_ConnectISP(line, sizeof(line)); if (ISP == NULL) { puts("FAIL"); return EINVAL; } puts(ISP); } else if(!strcmp(command, "Get_GobiConnectStatus")) { const char *status = Gobi_ConnectStatus_Str(Gobi_ConnectStatus_Int()); if (status == NULL) { puts("FAIL"); return EINVAL; } puts(status); } else if(!strcmp(command, "Get_GobiSignal_Percent")) { int percent = Gobi_SignalQuality_Percent(Gobi_SignalQuality_Int()); if (percent < 0) { puts("FAIL"); return EINVAL; } printf("%d\n", percent); } else if(!strcmp(command, "Get_GobiSignal_dbm")) { int dbm = Gobi_SignalLevel_Int(); if (dbm >= 0) { puts("FAIL"); return EINVAL; } printf("%d dBm\n", dbm); } else if(!strcmp(command, "Get_GobiVersion")) { char line[128]; if (Gobi_Version(line, sizeof(line)) == NULL) { puts("FAIL"); return EINVAL; } printf("%s\n", line); } #endif /* RT4GAC55U */ else { puts("ATE_UNSUPPORT"); return EINVAL; } return 0; }
/* wathchdog is runned in NORMAL_PERIOD, 1 seconds * check in each NORMAL_PERIOD * 1. button * * check in each NORAML_PERIOD*10 * * 1. ntptime * 2. time-dependent service * 3. http-process * 4. usb hotplug status */ void watchdog(void) { /* handle button */ btn_check(); /* if timer is set to less than 1 sec, then bypass the following */ if (itv.it_value.tv_sec == 0) return; if (nvram_match("asus_mfg", "1")) { system("rmmod hw_nat"); if (pids("ntp")) system("killall -SIGTERM ntp"); if (pids("ntpclient")) system("killall ntpclient"); if (pids("udhcpc")) system("killall -SIGTERM udhcpc"); #if (!defined(W7_LOGO) && !defined(WIFI_LOGO)) if (pids("ots")) system("killall ots"); #endif stop_wanduck(); stop_logger(); stop_upnp(); // it may cause upnp cannot run stop_dhcpd(); stop_dns(); #if (!defined(W7_LOGO) && !defined(WIFI_LOGO)) stop_pspfix(); #endif stop_wsc(); stop_wsc_2g(); stop_lltd(); stop_networkmap(); stop_httpd(); stop_lpd(); stop_u2ec(); kill_pidfile_s("/var/run/linkstatus_monitor.pid", SIGTERM); if (pids("detectWan")) system("killall detectWan"); #if (!defined(W7_LOGO) && !defined(WIFI_LOGO)) stop_rstats(); kill_pidfile_s("/var/run/detect_internet.pid", SIGTERM); #endif if (pids("tcpcheck")) system("killall -SIGTERM tcpcheck"); #ifdef HTTPD_CHECK if (pids("httpdcheck")) system("killall -SIGTERM httpdcheck"); #endif if (pids("traceroute")) system("killall traceroute"); if (pids("usbled")) system("killall -SIGTERM usbled"); nvram_set("asus_mfg", "2"); } #if 0 // reboot signal checking if (nvram_match("reboot", "1")) { printf("[watchdog] nvram match reboot\n"); reboot_count++; if (reboot_count >= 2) { // kill(1, SIGTERM); sys_exit(); } return; } #else if (nvram_match("reboot", "1")) return; #endif if (stop_service_type_99) return; if (!nvram_match("asus_mfg", "0")) return; watchdog_period = (watchdog_period + 1) % 10; if (watchdog_period) return; #ifdef BTN_SETUP if (btn_pressed_setup >= BTNSETUP_START) return; #endif #if (!defined(W7_LOGO) && !defined(WIFI_LOGO)) if (count_to_stop_wps > 0) { count_to_stop_wps--; if (!count_to_stop_wps) { // if (nvram_match("wl_radio_x", "1")) stop_wsc(); // psp fix // if (nvram_match("rt_radio_x", "1")) stop_wsc_2g(); // psp fix nvram_set("wps_enable", "0"); // psp fix } } #endif ddns_timer = (ddns_timer + 1) % 4320; if (nvram_match("asus_debug", "1")) mem_timer = (mem_timer + 1) % 60; if (!watchdog_count) watchdog_count++; else if (watchdog_count++ == 1) { #if 0 if (!strcmp(nvram_safe_get("rc_service"), "restart_upnp")) service_handle(); else #endif if ( nvram_match("router_disable", "0") && nvram_match("upnp_enable", "1") && nvram_match("upnp_started", "0") ) { // if (has_wan_ip()) { dbg("[watchdog] starting upnp...\n"); stop_upnp(); start_upnp(); } } } /* check for time-dependent services */ svc_timecheck(); /* http server check */ httpd_processcheck(); u2ec_processcheck(); media_processcheck(); #if 0 samba_processcheck(); #endif pppd_processcheck(); if (nvram_match("wan_route_x", "IP_Routed")) nm_processcheck(); cpu_usage_minotor(); dm_block_chk(); if (nvram_match("asus_debug", "1") && !mem_timer) { print_num_of_connections(); dbg("Hardware NAT: %s\n", is_hwnat_loaded() ? "Enabled": "Disabled"); dbg("Software QoS: %s\n", nvram_match("qos_enable", "1") ? "Enabled": "Disabled"); dbg("pppd running: %s\n", pids("pppd") ? "Yes": "No"); #if 0 dbg("CPU usage: %d%%\n", get_cpu_usage()); #else dbg("CPU usage: %d%%\n", cpu_main(0, NULL, 0)); #endif system("free"); system("date"); print_uptime(); } #ifdef CDMA /* CDMA_DOWN = 99, none * CDMA_DOWN = 1, currently down * CDMA_DOWN = 2, currently up * CDMA_DOWN = 0, currently trying to connect */ if (nvram_match("cdma_down", "1")) { logmessage("CDMA client", "cdma is down(%d)!", cdma_down); cdma_down++; cdma_connec t = 0; if (cdma_down == 2) { printf("[watchdog] stop wan\n"); stop_wan(); start_wan(); } else if (cdma_down >= 12) /* 2 minutes timeout for retry */ { cdma_down = 0; } } else if (nvram_match("cdma_down", "0")) { logmessage("CDMA client", "cdma try connect(%d)!", cdma_connect); cdma_down = 0; cdma_connect++; if (cdma_connect > 12) /* 2 minitues timeout for connecting */ { nvram_set("cdma_down", "1"); } } else { cdma_down = 0; cdma_connect = 0; } #endif if (nvram_match("wan_route_x", "IP_Routed")) { if (!is_phyconnected() || !has_wan_ip()) return; /* sync time to ntp server if necessary */ if (!nvram_match("wan_dns_t", "") && !nvram_match("wan_gateway_t", "")) { ntp_timesync(); } if ( nvram_match("ddns_enable_x", "1") && (!nvram_match("ddns_updated", "1") || !ddns_timer) ) { logmessage("RT-N56U", "[start ddns] watchdog"); start_ddns(); } if (!ddns_timer) { stop_networkmap(); start_networkmap(); } } else { if (/*!nvram_match("lan_dns_t", "") && */!nvram_match("lan_gateway_t", "")) ntp_timesync(); } }