/* Neutrino-GUI - DBoxII-Project Copyright (C) 2001 Steffen Hehn 'McClean' Homepage: http://dbox.cyberphoria.org/ Kommentar: Diese GUI wurde von Grund auf neu programmiert und sollte nun vom Aufbau und auch den Ausbaumoeglichkeiten gut aussehen. Neutrino basiert auf der Client-Server Idee, diese GUI ist also von der direkten DBox- Steuerung getrennt. Diese wird dann von Daemons uebernommen. License: GPL This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include "configure_network.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if HAVE_COOL_HARDWARE #include #endif #include #include #include #include // obsolete #include #include #include #include #include #include #include #include #include #include #include #include "libdvbsub/dvbsub.h" #include "libtuxtxt/teletext.h" #include extern CPlugins * g_PluginList; /* neutrino.cpp */ extern CRemoteControl * g_RemoteControl; /* neutrino.cpp */ extern cVideo *videoDecoder; extern cAudio *audioDecoder; extern cDemux *videoDemux; extern cDemux *audioDemux; extern cDemux *pcrDemux; extern "C" int pinghost( const char *hostname ); CSatelliteSetupNotifier::CSatelliteSetupNotifier() { } /* items1 enabled for advanced diseqc settings, items2 for diseqc != NO_DISEQC, items3 disabled for NO_DISEQC */ bool CSatelliteSetupNotifier::changeNotify(const neutrino_locale_t, void * Data) { std::vector::iterator it; int type = *((int*) Data); if (type == NO_DISEQC) { for(it = items1.begin(); it != items1.end(); it++) { //(*it)->init(-1, 0, 0, 0); (*it)->setActive(false); } for(it = items2.begin(); it != items2.end(); it++) { //(*it)->init(-1, 0, 0, 0); (*it)->setActive(false); } for(it = items3.begin(); it != items3.end(); it++) { //(*it)->init(-1, 0, 0, 0); (*it)->setActive(false); } } else if(type < DISEQC_ADVANCED) { for(it = items1.begin(); it != items1.end(); it++) { //(*it)->init(-1, 0, 0, 0); (*it)->setActive(false); } for(it = items2.begin(); it != items2.end(); it++) { //(*it)->init(-1, 0, 0, 0); (*it)->setActive(true); } for(it = items3.begin(); it != items3.end(); it++) { //(*it)->init(-1, 0, 0, 0); (*it)->setActive(true); } } else if(type == DISEQC_ADVANCED) { for(it = items1.begin(); it != items1.end(); it++) { //(*it)->init(-1, 0, 0, 0); (*it)->setActive(true); } for(it = items2.begin(); it != items2.end(); it++) { //(*it)->init(-1, 0, 0, 0); (*it)->setActive(false); } for(it = items3.begin(); it != items3.end(); it++) { //(*it)->init(-1, 0, 0, 0); (*it)->setActive(true); } } g_Zapit->setDiseqcType((diseqc_t) type); g_Zapit->setDiseqcRepeat( CNeutrinoApp::getInstance()->getScanSettings().diseqcRepeat); return true; } void CSatelliteSetupNotifier::addItem(int list, CMenuItem* item) { switch(list) { case 0: items1.push_back(item); break; case 1: items2.push_back(item); break; case 2: items3.push_back(item); break; default: break; } } bool CSatDiseqcNotifier::changeNotify(const neutrino_locale_t, void * Data) { if (*((int*) Data) == NO_DISEQC) { satMenu->setActive(true); extMenu->setActive(false); extMotorMenu->setActive(false); repeatMenu->init(-1, 0, 0, 0); repeatMenu->setActive(false); motorControl->setActive(false); } else if (*((int*) Data) == DISEQC_1_2) { satMenu->setActive(true); extMenu->setActive(true); extMotorMenu->setActive(true); repeatMenu->init(-1, 0, 0, 0); repeatMenu->setActive(true); motorControl->setActive(true); } else { satMenu->setActive(true); extMenu->setActive(true); extMotorMenu->setActive(false); repeatMenu->init(-1, 0, 0, 0); repeatMenu->setActive((*((int*) Data) != DISEQC_1_0)); motorControl->setActive(false); } g_Zapit->setDiseqcType( *((diseqc_t*) Data) ); g_Zapit->setDiseqcRepeat( CNeutrinoApp::getInstance()->getScanSettings().diseqcRepeat); return true; } CTP_scanNotifier::CTP_scanNotifier(CMenuOptionChooser* i1, CMenuOptionChooser* i2, CMenuForwarder* i3, CMenuForwarder* i4) { toDisable1[0]=i1; toDisable1[1]=i2; toDisable2[0]=i3; toDisable2[1]=i4; } bool CTP_scanNotifier::changeNotify(const neutrino_locale_t, void * Data) { int val = *((int*) Data); //printf("CTP_scanNotifier::changeNotify: data %d\n", val); //FIXME: test //bool set_true_false=CNeutrinoApp::getInstance()->getScanSettings().TP_scan; bool set_true_false = (val == 2); for (int i=0; i<2; i++) { toDisable1[i]->setActive(set_true_false); toDisable2[i]->setActive(set_true_false); } return true; } #if 0 // not used CDHCPNotifier::CDHCPNotifier( CMenuForwarder* a1, CMenuForwarder* a2, CMenuForwarder* a3, CMenuForwarder* a4, CMenuForwarder* a5, CMenuForwarder* a6) { toDisable[0] = a1; toDisable[1] = a2; toDisable[2] = a3; toDisable[3] = a4; toDisable[4] = a5; toEnable[0] = a6; } bool CDHCPNotifier::changeNotify(const neutrino_locale_t, void * data) { CNetworkConfig::getInstance()->inet_static = ((*(int*)(data)) == 0); for(int x=0;x<5;x++) toDisable[x]->setActive(CNetworkConfig::getInstance()->inet_static); toEnable[0]->setActive(!CNetworkConfig::getInstance()->inet_static); return true; } #endif COnOffNotifier::COnOffNotifier( CMenuItem* a1,CMenuItem* a2,CMenuItem* a3,CMenuItem* a4,CMenuItem* a5) { number = 0; if(a1 != NULL){ toDisable[0] =a1;number++;}; if(a2 != NULL){ toDisable[1] =a2;number++;}; if(a3 != NULL){ toDisable[2] =a3;number++;}; if(a4 != NULL){ toDisable[3] =a4;number++;}; if(a5 != NULL){ toDisable[4] =a5;number++;}; } bool COnOffNotifier::changeNotify(const neutrino_locale_t, void *Data) { if(*(int*)(Data) == 0) { for (int i=0; isetActive(false); } else { for (int i=0; isetActive(true); } return true; } CRecordingNotifier::CRecordingNotifier(CMenuItem* i1 , CMenuItem* i2 , CMenuItem* i3 , CMenuItem* i4 , CMenuItem* i5 , CMenuItem* i6 , CMenuItem* i7 , CMenuItem* i8 , CMenuItem* i9) { toDisable[ 0] = i1; toDisable[ 1] = i2; toDisable[ 2] = i3; toDisable[ 3] = i4; toDisable[ 4] = i5; toDisable[ 5] = i6; toDisable[ 6] = i7; toDisable[ 7] = i8; toDisable[ 8] = i9; } bool CRecordingNotifier::changeNotify(const neutrino_locale_t, void *) { if ((g_settings.recording_type == CNeutrinoApp::RECORDING_OFF) || (g_settings.recording_type == CNeutrinoApp::RECORDING_FILE)) { for(int i = 0; i < 8; i++) { toDisable[i]->setActive(false); } if (g_settings.recording_type == CNeutrinoApp::RECORDING_FILE) { toDisable[7]->setActive(true); } } else if (g_settings.recording_type == CNeutrinoApp::RECORDING_SERVER) { toDisable[0]->setActive(true); toDisable[1]->setActive(true); toDisable[2]->setActive(true); toDisable[3]->setActive(g_settings.recording_server_wakeup==1); toDisable[4]->setActive(true); toDisable[5]->setActive(true); toDisable[6]->setActive(false); toDisable[7]->setActive(false); } else if (g_settings.recording_type == CNeutrinoApp::RECORDING_VCR) { toDisable[0]->setActive(false); toDisable[1]->setActive(false); toDisable[2]->setActive(false); toDisable[3]->setActive(false); toDisable[4]->setActive(false); toDisable[5]->setActive(false); toDisable[6]->setActive(true); toDisable[7]->setActive(false); } return true; } CRecordingNotifier2::CRecordingNotifier2( CMenuItem* i) { toDisable[0]=i; } bool CRecordingNotifier2::changeNotify(const neutrino_locale_t, void *) { toDisable[0]->setActive(g_settings.recording_server_wakeup==1); return true; } bool CRecordingSafetyNotifier::changeNotify(const neutrino_locale_t, void *) { g_Timerd->setRecordingSafety(atoi(g_settings.record_safety_time_before)*60, atoi(g_settings.record_safety_time_after)*60); return true; } CMiscNotifier::CMiscNotifier( CMenuItem* i1, CMenuItem* i2) { toDisable[0]=i1; toDisable[1]=i2; } bool CMiscNotifier::changeNotify(const neutrino_locale_t, void *) { toDisable[0]->setActive(!g_settings.shutdown_real); toDisable[1]->setActive(!g_settings.shutdown_real); return true; } bool CLcdNotifier::changeNotify(const neutrino_locale_t, void *) { CVFD::getInstance()->setlcdparameter(); //CLCD::getInstance()->setAutoDimm(g_settings.lcd_setting[SNeutrinoSettings::LCD_AUTODIMM]); return true; } int CRfExec::exec(CMenuTarget* /*parent*/, const std::string& /*actionKey*/) { g_RFmod->init(); return true; } bool CRfNotifier::changeNotify(const neutrino_locale_t OptionName, void * val) { //printf("CRfNotifier: Option %d val %d\n", OptionName, *((int *)val)); if (ARE_LOCALES_EQUAL(OptionName, LOCALE_RFMOD_CARRIER)) { g_RFmod->setSoundSubCarrier(*((int *)val)); } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_RFMOD_ENABLE)) { g_RFmod->setSoundEnable(*((int *)val)); } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_RFMOD_CHANNEL)) { } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_RFMOD_FINETUNE)) { } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_RFMOD_STANDBY)) { g_RFmod->setStandby(*((int *)val)); } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_RFMOD_TEST)) { g_RFmod->setTestPattern(*((int *)val)); } return true; } bool CPauseSectionsdNotifier::changeNotify(const neutrino_locale_t, void * Data) { g_Sectionsd->setPauseScanning((*((int *)Data)) == 0); return true; } bool CSectionsdConfigNotifier::changeNotify(const neutrino_locale_t, void *) { CNeutrinoApp::getInstance()->SendSectionsdConfig(); return true; } bool CRadiotextNotifier::changeNotify(const neutrino_locale_t, void *) { if (g_settings.radiotext_enable) { if (g_Radiotext == NULL) g_Radiotext = new CRadioText; if (g_Radiotext && ((CNeutrinoApp::getInstance()->getMode()) == NeutrinoMessages::mode_radio)) g_Radiotext->setPid(g_RemoteControl->current_PIDs.APIDs[g_RemoteControl->current_PIDs.PIDs.selected_apid].pid); } else { // stop radiotext PES decoding if (g_Radiotext) g_Radiotext->radiotext_stop(); delete g_Radiotext; g_Radiotext = NULL; } return true; } bool CTouchFileNotifier::changeNotify(const neutrino_locale_t, void * data) { if ((*(int *)data) != 0) { FILE * fd = fopen(filename, "w"); if (fd) fclose(fd); else return false; } else remove(filename); return true; } bool CColorSetupNotifier::changeNotify(const neutrino_locale_t, void *) { CFrameBuffer *frameBuffer = CFrameBuffer::getInstance(); // unsigned char r,g,b; //setting colors-.. frameBuffer->paletteGenFade(COL_MENUHEAD, convertSetupColor2RGB(g_settings.menu_Head_red, g_settings.menu_Head_green, g_settings.menu_Head_blue), convertSetupColor2RGB(g_settings.menu_Head_Text_red, g_settings.menu_Head_Text_green, g_settings.menu_Head_Text_blue), 8, convertSetupAlpha2Alpha( g_settings.menu_Head_alpha ) ); frameBuffer->paletteGenFade(COL_MENUCONTENT, convertSetupColor2RGB(g_settings.menu_Content_red, g_settings.menu_Content_green, g_settings.menu_Content_blue), convertSetupColor2RGB(g_settings.menu_Content_Text_red, g_settings.menu_Content_Text_green, g_settings.menu_Content_Text_blue), 8, convertSetupAlpha2Alpha(g_settings.menu_Content_alpha) ); frameBuffer->paletteGenFade(COL_MENUCONTENTDARK, convertSetupColor2RGB(int(g_settings.menu_Content_red*0.6), int(g_settings.menu_Content_green*0.6), int(g_settings.menu_Content_blue*0.6)), convertSetupColor2RGB(g_settings.menu_Content_Text_red, g_settings.menu_Content_Text_green, g_settings.menu_Content_Text_blue), 8, convertSetupAlpha2Alpha(g_settings.menu_Content_alpha) ); frameBuffer->paletteGenFade(COL_MENUCONTENTSELECTED, convertSetupColor2RGB(g_settings.menu_Content_Selected_red, g_settings.menu_Content_Selected_green, g_settings.menu_Content_Selected_blue), convertSetupColor2RGB(g_settings.menu_Content_Selected_Text_red, g_settings.menu_Content_Selected_Text_green, g_settings.menu_Content_Selected_Text_blue), 8, convertSetupAlpha2Alpha(g_settings.menu_Content_Selected_alpha) ); frameBuffer->paletteGenFade(COL_MENUCONTENTINACTIVE, convertSetupColor2RGB(g_settings.menu_Content_inactive_red, g_settings.menu_Content_inactive_green, g_settings.menu_Content_inactive_blue), convertSetupColor2RGB(g_settings.menu_Content_inactive_Text_red, g_settings.menu_Content_inactive_Text_green, g_settings.menu_Content_inactive_Text_blue), 8, convertSetupAlpha2Alpha(g_settings.menu_Content_inactive_alpha) ); frameBuffer->paletteGenFade(COL_INFOBAR, convertSetupColor2RGB(g_settings.infobar_red, g_settings.infobar_green, g_settings.infobar_blue), convertSetupColor2RGB(g_settings.infobar_Text_red, g_settings.infobar_Text_green, g_settings.infobar_Text_blue), 8, convertSetupAlpha2Alpha(g_settings.infobar_alpha) ); /* frameBuffer->paletteSetColor( COL_INFOBAR_SHADOW, convertSetupColor2RGB( int(g_settings.infobar_red*0.4), int(g_settings.infobar_green*0.4), int(g_settings.infobar_blue*0.4)), g_settings.infobar_alpha); */ frameBuffer->paletteGenFade(COL_INFOBAR_SHADOW, convertSetupColor2RGB(int(g_settings.infobar_red*0.4), int(g_settings.infobar_green*0.4), int(g_settings.infobar_blue*0.4)), convertSetupColor2RGB(g_settings.infobar_Text_red, g_settings.infobar_Text_green, g_settings.infobar_Text_blue), 8, convertSetupAlpha2Alpha(g_settings.infobar_alpha) ); frameBuffer->paletteSet(); return false; } bool CAudioSetupNotifier::changeNotify(const neutrino_locale_t OptionName, void *) { //printf("notify: %d\n", OptionName); #if 0 //FIXME to do ? manual audio delay if (ARE_LOCALES_EQUAL(OptionName, LOCALE_AUDIOMENU_PCMOFFSET)) { } #endif if (ARE_LOCALES_EQUAL(OptionName, LOCALE_AUDIOMENU_ANALOG_MODE)) { g_Zapit->setAudioMode(g_settings.audio_AnalogMode); } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_AUDIOMENU_ANALOG_OUT)) { audioDecoder->EnableAnalogOut(g_settings.analog_out ? true : false); } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_AUDIOMENU_HDMI_DD)) { audioDecoder->SetHdmiDD(g_settings.hdmi_dd ? true : false); } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_AUDIOMENU_SPDIF_DD)) { audioDecoder->SetSpdifDD(g_settings.spdif_dd ? true : false); } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_AUDIOMENU_AVSYNC)) { videoDecoder->SetSyncMode((AVSYNC_TYPE)g_settings.avsync); audioDecoder->SetSyncMode((AVSYNC_TYPE)g_settings.avsync); videoDemux->SetSyncMode((AVSYNC_TYPE)g_settings.avsync); audioDemux->SetSyncMode((AVSYNC_TYPE)g_settings.avsync); pcrDemux->SetSyncMode((AVSYNC_TYPE)g_settings.avsync); } else if (ARE_LOCALES_EQUAL(OptionName, LOCALE_AUDIOMENU_CLOCKREC)) { //.Clock recovery enable/disable // FIXME add code here. } else { // FIXME atm used for SRS audioDecoder->SetSRS(g_settings.srs_enable, g_settings.srs_nmgr_enable, g_settings.srs_algo, g_settings.srs_ref_volume); } return true; } //FIXME #define IOC_IR_SET_F_DELAY _IOW(0xDD, 5, unsigned int) /* set the delay time before the first repetition */ #define IOC_IR_SET_X_DELAY _IOW(0xDD, 6, unsigned int) /* set the delay time between all other repetitions */ bool CKeySetupNotifier::changeNotify(const neutrino_locale_t, void *) { unsigned int fdelay = atoi(g_settings.repeat_blocker); unsigned int xdelay = atoi(g_settings.repeat_genericblocker); g_RCInput->repeat_block = fdelay * 1000; g_RCInput->repeat_block_generic = xdelay * 1000; int fd = g_RCInput->getFileHandle(); ioctl(fd, IOC_IR_SET_F_DELAY, fdelay); ioctl(fd, IOC_IR_SET_X_DELAY, xdelay); return false; } #if 0 // not used bool CIPChangeNotifier::changeNotify(const neutrino_locale_t, void * Data) { char ip[16]; unsigned char _ip[4]; sscanf((char*) Data, "%hhu.%hhu.%hhu.%hhu", &_ip[0], &_ip[1], &_ip[2], &_ip[3]); sprintf(ip, "%hhu.%hhu.%hhu.255", _ip[0], _ip[1], _ip[2]); CNetworkConfig::getInstance()->broadcast = ip; CNetworkConfig::getInstance()->netmask = (_ip[0] == 10) ? "255.0.0.0" : "255.255.255.0"; sprintf(ip, "%hhu.%hhu.%hhu.1", _ip[0], _ip[1], _ip[2]); CNetworkConfig::getInstance()->nameserver = ip; CNetworkConfig::getInstance()->gateway = ip; return true; } #endif bool CConsoleDestChangeNotifier::changeNotify(const neutrino_locale_t, void * Data) { g_settings.uboot_console = *(int *)Data; return true; } bool CTimingSettingsNotifier::changeNotify(const neutrino_locale_t OptionName, void *) { for (int i = 0; i < TIMING_SETTING_COUNT; i++) { if (ARE_LOCALES_EQUAL(OptionName, timing_setting_name[i])) { g_settings.timing[i] = atoi(g_settings.timing_string[i]); return true; } } return false; } bool CFontSizeNotifier::changeNotify(const neutrino_locale_t, void *) { CHintBox hintBox(LOCALE_MESSAGEBOX_INFO, g_Locale->getText(LOCALE_FONTSIZE_HINT)); // UTF-8 hintBox.paint(); CNeutrinoApp::getInstance()->SetupFonts(); hintBox.hide(); return true; } bool CRecAPIDSettingsNotifier::changeNotify(const neutrino_locale_t, void *) { g_settings.recording_audio_pids_default = ( (g_settings.recording_audio_pids_std ? TIMERD_APIDS_STD : 0) | (g_settings.recording_audio_pids_alt ? TIMERD_APIDS_ALT : 0) | (g_settings.recording_audio_pids_ac3 ? TIMERD_APIDS_AC3 : 0)); return true; } int CAPIDChangeExec::exec(CMenuTarget* /*parent*/, const std::string & actionKey) { // printf("CAPIDChangeExec exec: %s\n", actionKey.c_str()); unsigned int sel= atoi(actionKey.c_str()); if (g_RemoteControl->current_PIDs.PIDs.selected_apid!= sel ) { g_RemoteControl->setAPID(sel); } return menu_return::RETURN_EXIT; } int CSubtitleChangeExec::exec(CMenuTarget* /*parent*/, const std::string & actionKey) { printf("CSubtitleChangeExec::exec: action %s\n", actionKey.c_str()); if(actionKey == "off") { tuxtx_stop_subtitle(); dvbsub_stop(); return menu_return::RETURN_EXIT; } if(!strncmp(actionKey.c_str(), "DVB", 3)) { char const * pidptr = strchr(actionKey.c_str(), ':'); int pid = atoi(pidptr+1); tuxtx_stop_subtitle(); dvbsub_pause(); dvbsub_start(pid); } else { char const * ptr = strchr(actionKey.c_str(), ':'); ptr++; int pid = atoi(ptr); ptr = strchr(ptr, ':'); ptr++; int page = strtol(ptr, NULL, 16); ptr = strchr(ptr, ':'); ptr++; printf("CSubtitleChangeExec::exec: TTX, pid %x page %x lang %s\n", pid, page, ptr); tuxtx_stop_subtitle(); tuxtx_set_pid(pid, page, ptr); dvbsub_stop(); tuxtx_main(g_RCInput->getFileHandle(), pid, page); } return menu_return::RETURN_EXIT; } int CNVODChangeExec::exec(CMenuTarget* parent, const std::string & actionKey) { // printf("CNVODChangeExec exec: %s\n", actionKey.c_str()); unsigned sel= atoi(actionKey.c_str()); g_RemoteControl->setSubChannel(sel); parent->hide(); g_InfoViewer->showSubchan(); return menu_return::RETURN_EXIT; } int CStreamFeaturesChangeExec::exec(CMenuTarget* parent, const std::string & actionKey) { //printf("CStreamFeaturesChangeExec exec: %s\n", actionKey.c_str()); int sel= atoi(actionKey.c_str()); if(parent != NULL) parent->hide(); // -- obsolete (rasc 2004-06-10) // if (sel==-1) // { // CStreamInfo StreamInfo; // StreamInfo.exec(NULL, ""); // } else if(actionKey == "teletext") { g_RCInput->postMsg(CRCInput::RC_timeout, 0); g_RCInput->postMsg(CRCInput::RC_text, 0); #if 0 g_RCInput->clearRCMsg(); tuxtx_main(g_RCInput->getFileHandle(), frameBuffer->getFrameBufferPointer(), g_RemoteControl->current_PIDs.PIDs.vtxtpid); frameBuffer->paintBackground(); if(!g_settings.cacheTXT) tuxtxt_stop(); g_RCInput->clearRCMsg(); #endif } else if (sel>=0) { g_PluginList->startPlugin(sel,0); } return menu_return::RETURN_EXIT; } int CMoviePluginChangeExec::exec(CMenuTarget* parent, const std::string & actionKey) { int sel= atoi(actionKey.c_str()); parent->hide(); if (sel>=0) { g_settings.movieplayer_plugin=g_PluginList->getName(sel); } return menu_return::RETURN_EXIT; } int COnekeyPluginChangeExec::exec(CMenuTarget* parent, const std::string & actionKey) { int sel= atoi(actionKey.c_str()); parent->hide(); if (sel>=0) { g_settings.onekey_plugin=g_PluginList->getName(sel); } return menu_return::RETURN_EXIT; } int CUCodeCheckExec::exec(CMenuTarget* /*parent*/, const std::string & /*actionKey*/) { #if 0 std::string text; char res[60]; text = g_Locale->getText(LOCALE_UCODECHECK_AVIA500); text += ": "; checkFile((char *) UCODEDIR "/avia500.ux", (char*) &res); text += res; text += '\n'; text += g_Locale->getText(LOCALE_UCODECHECK_AVIA600); text += ": "; checkFile(UCODEDIR "/avia600.ux", (char*) &res); text += res; text += '\n'; text += g_Locale->getText(LOCALE_UCODECHECK_UCODE); text += ": "; checkFile(UCODEDIR "/ucode.bin", (char*) &res); if (strcmp("not found", res) == 0) text += "ucode_0014 (built-in)"; else text += res; text += '\n'; text += g_Locale->getText(LOCALE_UCODECHECK_CAM_ALPHA); text += ": "; checkFile(UCODEDIR "/cam-alpha.bin", (char*) &res); text += res; ShowMsgUTF(LOCALE_UCODECHECK_HEAD, text, CMessageBox::mbrBack, CMessageBox::mbBack); // UTF-8 #endif return 1; } long CNetAdapter::mac_addr_sys ( u_char *addr) //only for function getMacAddr() { struct ifreq ifr; struct ifreq *IFR; struct ifconf ifc; char buf[1024]; int s, i; int ok = 0; s = socket(AF_INET, SOCK_DGRAM, 0); if (s==-1) { return -1; } ifc.ifc_len = sizeof(buf); ifc.ifc_buf = buf; ioctl(s, SIOCGIFCONF, &ifc); IFR = ifc.ifc_req; for (i = ifc.ifc_len / sizeof(struct ifreq); --i >= 0; IFR++) { strcpy(ifr.ifr_name, IFR->ifr_name); if (ioctl(s, SIOCGIFFLAGS, &ifr) == 0) { if (! (ifr.ifr_flags & IFF_LOOPBACK)) { if (ioctl(s, SIOCGIFHWADDR, &ifr) == 0) { ok = 1; break; } } } } close(s); if (ok) { memmove(addr, ifr.ifr_hwaddr.sa_data, 6); } else { return -1; } return 0; } std::string CNetAdapter::getMacAddr(void) { long stat; u_char addr[6]; stat = mac_addr_sys( addr); if (0 == stat) { std::stringstream mac_tmp; for(int i=0;i<6;++i) mac_tmp<getText(LOCALE_PING_OK)); case 0: return (g_Locale->getText(LOCALE_PING_UNREACHABLE)); case -1: return (g_Locale->getText(LOCALE_PING_PROTOCOL)); case -2: return (g_Locale->getText(LOCALE_PING_SOCKET)); } return ""; } void testNetworkSettings(const char* ip, const char* netmask, const char* broadcast, const char* gateway, const char* nameserver, bool ip_static) { char our_ip[16]; char our_mask[16]; char our_broadcast[16]; char our_gateway[16]; char our_nameserver[16]; std::string text, ethID, testsite; //set default testdomain and wiki-IP std::string defaultsite = "www.google.de", wiki_IP = "89.31.143.1"; //set physical adress static CNetAdapter netadapter; ethID=netadapter.getMacAddr(); //get www-domain testsite from /.version CConfigFile config('\t'); config.loadConfig("/.version"); testsite = config.getString("homepage",defaultsite); testsite.replace( 0, testsite.find("www",0), "" ); //use default testdomain if testsite missing if (testsite.length()==0) testsite = defaultsite; if (ip_static) { strcpy(our_ip, ip); strcpy(our_mask, netmask); strcpy(our_broadcast, broadcast); strcpy(our_gateway, gateway); strcpy(our_nameserver, nameserver); } else { char eth[] = "eth0"; netGetIP(eth, our_ip, our_mask, our_broadcast); netGetDefaultRoute(our_gateway); netGetNameserver(our_nameserver); } printf("testNw IP: %s\n", our_ip); printf("testNw MAC-address: %s\n", ethID.c_str()); printf("testNw Netmask: %s\n", our_mask); printf("testNw Broadcast: %s\n", our_broadcast); printf("testNw Gateway: %s\n", our_gateway); printf("testNw Nameserver: %s\n", our_nameserver); printf("testNw Testsite %s\n", testsite.c_str()); if (our_ip[0] == 0) { text = g_Locale->getText(LOCALE_NETWORKMENU_INACTIVE_NETWORK); } else { text = "Box: " + ethID + "\n "; text += (std::string)our_ip + " " + (std::string)mypinghost(our_ip); text += "\n"; text += g_Locale->getText(LOCALE_NETWORKMENU_GATEWAY); text += " (Router)\n "; text += (std::string)our_gateway + " " +(std::string)mypinghost(our_gateway); text += "\n"; text += g_Locale->getText(LOCALE_NETWORKMENU_NAMESERVER); text += "\n "; text += (std::string)our_nameserver + " " + (std::string)mypinghost(our_nameserver); text += "\n"; text += "wiki.neutrino-hd.de:\n "; text += "via IP (" + wiki_IP + "): " + (std::string)mypinghost(wiki_IP.c_str()); text += ":\n "; if (1 == pinghost(our_nameserver)) { text += "via DNS: " + (std::string)mypinghost("wiki.neutrino-hd.de"); text += "\n"; text += testsite + ":\n "; text += "via DNS: " + (std::string)mypinghost(testsite.c_str()) + ":\n"; } } ShowMsgUTF(LOCALE_NETWORKMENU_TEST, text, CMessageBox::mbrBack, CMessageBox::mbBack); // UTF-8 } void showCurrentNetworkSettings() { char ip[16]; char mask[16]; char broadcast[16]; char router[16]; char nameserver[16]; std::string text; char eth[] = "eth0"; netGetIP(eth, ip, mask, broadcast); if (ip[0] == 0) { text = g_Locale->getText(LOCALE_NETWORKMENU_INACTIVE_NETWORK); } else { netGetNameserver(nameserver); netGetDefaultRoute(router); CNetworkConfig networkConfig; std::string dhcp = networkConfig.inet_static ? g_Locale->getText(LOCALE_OPTIONS_OFF) : g_Locale->getText(LOCALE_OPTIONS_ON); text = (std::string)g_Locale->getText(LOCALE_NETWORKMENU_DHCP) + ": " + dhcp + '\n' + g_Locale->getText(LOCALE_NETWORKMENU_IPADDRESS ) + ": " + ip + '\n' + g_Locale->getText(LOCALE_NETWORKMENU_NETMASK ) + ": " + mask + '\n' + g_Locale->getText(LOCALE_NETWORKMENU_BROADCAST ) + ": " + broadcast + '\n' + g_Locale->getText(LOCALE_NETWORKMENU_NAMESERVER) + ": " + nameserver + '\n' + g_Locale->getText(LOCALE_NETWORKMENU_GATEWAY ) + ": " + router; } ShowMsgUTF(LOCALE_NETWORKMENU_SHOW, text, CMessageBox::mbrBack, CMessageBox::mbBack); // UTF-8 } #endif uint64_t getcurrenttime() { struct timeval tv; gettimeofday( &tv, NULL ); return (uint64_t) tv.tv_usec + (uint64_t)((uint64_t) tv.tv_sec * (uint64_t) 1000000); } bool CTZChangeNotifier::changeNotify(const neutrino_locale_t, void * Data) { bool found = false; std::string name, zone; printf("CTZChangeNotifier::changeNotify: %s\n", (char *) Data); xmlDocPtr parser = parseXmlFile("/etc/timezone.xml"); if (parser != NULL) { xmlNodePtr search = xmlDocGetRootElement(parser)->xmlChildrenNode; while (search) { if (!strcmp(xmlGetName(search), "zone")) { name = xmlGetAttribute(search, "name"); if(!strcmp(g_settings.timezone, name.c_str())) { zone = xmlGetAttribute(search, "zone"); found = true; break; } } search = search->xmlNextNode; } xmlFreeDoc(parser); } if(found) { printf("Timezone: %s -> %s\n", name.c_str(), zone.c_str()); std::string cmd = "cp /usr/share/zoneinfo/" + zone + " /etc/localtime"; printf("exec %s\n", cmd.c_str()); system(cmd.c_str()); cmd = ":" + zone; setenv("TZ", cmd.c_str(), 1); } return true; } extern Zapit_config zapitCfg; void loadZapitSettings(); void getZapitConfig(Zapit_config *Cfg); int CDataResetNotifier::exec(CMenuTarget* /*parent*/, const std::string& actionKey) { bool delete_all = (actionKey == "all"); bool delete_chan = (actionKey == "channels") || delete_all; bool delete_set = (actionKey == "settings") || delete_all; neutrino_locale_t msg = delete_all ? LOCALE_RESET_ALL : delete_chan ? LOCALE_RESET_CHANNELS : LOCALE_RESET_SETTINGS; int ret = menu_return::RETURN_REPAINT; int result = ShowMsgUTF(msg, g_Locale->getText(LOCALE_RESET_CONFIRM), CMessageBox::mbrNo, CMessageBox::mbYes | CMessageBox::mbNo); if(result != CMessageBox::mbrYes) return true; if(delete_all) { system("rm -f /var/tuxbox/config/zapit/*.conf"); loadZapitSettings(); getZapitConfig(&zapitCfg); g_RCInput->postMsg( NeutrinoMessages::REBOOT, 0); ret = menu_return::RETURN_EXIT_ALL; } if(delete_set) { unlink(NEUTRINO_SETTINGS_FILE); //unlink(NEUTRINO_SCAN_SETTINGS_FILE); CNeutrinoApp::getInstance()->loadSetup(NEUTRINO_SETTINGS_FILE); CNeutrinoApp::getInstance()->saveSetup(NEUTRINO_SETTINGS_FILE); CNeutrinoApp::getInstance()->loadColors(NEUTRINO_SETTINGS_FILE); //CNeutrinoApp::getInstance()->SetupFonts(); CNeutrinoApp::getInstance()->SetupTiming(); } if(delete_chan) { system("rm -f /var/tuxbox/config/zapit/*.xml"); g_Zapit->reinitChannels(); } return ret; } bool CLedControlNotifier::changeNotify(const neutrino_locale_t, void* /*data*/) { CVFD::getInstance()->setled(); return true; } bool CFanControlNotifier::changeNotify(const neutrino_locale_t, void * data) { int cfd, ret; //unsigned char speed = (unsigned char) g_settings.fan_speed; unsigned int speed = * (int *) data; printf("FAN Speed %d\n", speed); cfd = open("/dev/cs_control", O_RDONLY); if(cfd < 0) { perror("Cannot open /dev/cs_control"); return false; } ret = ioctl(cfd, IOC_CONTROL_PWM_SPEED, speed); close(cfd); if(ret < 0) { perror("IOC_CONTROL_PWM_SPEED"); return false; } return true; } bool CCpuFreqNotifier::changeNotify(const neutrino_locale_t, void * data) { extern cCpuFreqManager * cpuFreq; int freq = * (int *) data; printf("CCpuFreqNotifier: %d Mhz\n", freq); freq *= 1000*1000; cpuFreq->SetCpuFreq(freq); return true; } bool CScreenPresetNotifier::changeNotify(const neutrino_locale_t /*OptionName*/, void * data) { int preset = * (int *) data; printf("CScreenPresetNotifier::changeNotify preset %d (setting %d)\n", preset, g_settings.screen_preset); g_settings.screen_StartX = g_settings.screen_preset ? g_settings.screen_StartX_lcd : g_settings.screen_StartX_crt; g_settings.screen_StartY = g_settings.screen_preset ? g_settings.screen_StartY_lcd : g_settings.screen_StartY_crt; g_settings.screen_EndX = g_settings.screen_preset ? g_settings.screen_EndX_lcd : g_settings.screen_EndX_crt; g_settings.screen_EndY = g_settings.screen_preset ? g_settings.screen_EndY_lcd : g_settings.screen_EndY_crt; CFrameBuffer::getInstance()->Clear(); return true; } bool CAllUsalsNotifier::changeNotify(const neutrino_locale_t /*OptionName*/, void * data) { int onoff = * (int *) data; printf("CAllUsalsNotifier::changeNotify: %s\n", onoff ? "ON" : "OFF"); sat_iterator_t sit; for (sit = satellitePositions.begin(); sit != satellitePositions.end(); sit++) { sit->second.use_usals = onoff; } return true; } extern CMenuOptionChooser::keyval_ext VIDEOMENU_VIDEOMODE_OPTIONS[]; bool CAutoModeNotifier::changeNotify(const neutrino_locale_t /*OptionName*/, void * /* data */) { int i; int modes[VIDEO_STD_MAX+1]; memset(modes, 0, sizeof(int)*VIDEO_STD_MAX+1); for(i = 0; i < VIDEOMENU_VIDEOMODE_OPTION_COUNT; i++) { modes[VIDEOMENU_VIDEOMODE_OPTIONS[i].key] = g_settings.enabled_video_modes[i]; } videoDecoder->SetAutoModes(modes); return true; } int safe_mkdir(char * path) { struct statfs s; int ret = 0; if(!strncmp(path, "/hdd", 4)) { ret = statfs("/hdd", &s); if((ret != 0) || (s.f_type == 0x72b6)) ret = -1; else mkdir(path, 0755); } else mkdir(path, 0755); return ret; } int check_dir(const char * newdir) { struct statfs s; if (::statfs(newdir, &s) == 0) { switch (s.f_type) /* f_type is long */ { case 0xEF53L: /*EXT2 & EXT3*/ case 0x6969L: /*NFS*/ case 0xFF534D42L: /*CIFS*/ case 0x517BL: /*SMB*/ case 0x52654973L: /*REISERFS*/ case 0x65735546L: /*fuse for ntfs*/ case 0x58465342L: /*xfs*/ case 0x4d44L: /*msdos*/ return 0;//ok default: fprintf( stderr,"%s Unknow File system type: %i\n",newdir ,s.f_type); break; } } return 1;//error }