/**
* This function figures out what interface is used, and reads the
* two different configuration files, the global and the user one.
*/
void settings_read_interface(void)
{
char *interface, *global_filename, *user_filename;
char *homedir;
void *value;
/* Get the name of the interface. */
settings_get("interface", &value);
interface = (char *)value;
/* Global configuration file, /etc/zen/<interface>.conf */
global_filename = (char *)malloc(strlen(GLOBAL_CONFIGDIR) +
strlen(interface) + 42);
if(global_filename == NULL)
return;
sprintf(global_filename, "%s/%s.conf", GLOBAL_CONFIGDIR, interface);
read_configuration(global_filename, 0);
free(global_filename);
/* User configuration file, ~/.zen/<interface>.conf */
homedir = find_homedir();
user_filename = (char *)malloc(strlen(homedir) +
strlen(interface) + 42);
if(user_filename == NULL)
return;
sprintf(user_filename, "%s/.zen/%s.conf", homedir, interface);
read_configuration(user_filename, 0);
free(user_filename);
}
int cmain ()
{
programme_identification = cons (sym_server_seteh, make_integer (1));
initialise_kyu_script_commands ();
initialise_kyu_types ();
multiplex_add_kyu_stdio (on_event, (void *)0);
graph_initialise();
global_environment = kyu_sx_default_environment ();
global_environment =
lx_environment_bind (global_environment, sym_action_wrap,
lx_foreign_mu (sym_action_wrap, action_wrap));
global_environment =
lx_environment_bind (global_environment, sym_action_dispatch,
lx_foreign_mu (sym_action_dispatch,
action_dispatch));
my_modules = lx_make_environment (sx_end_of_list);
mod_functions = lx_make_environment (sx_end_of_list);
mod_metadata = lx_make_environment (sx_end_of_list);
read_configuration ();
while (multiplex() == mx_ok);
return 0;
}
// Constructor
preferences_dialog::preferences_dialog( wxWindow* parent )
{
wxXmlResource::Get()->LoadDialog( this, parent, "preferences_dialog" );
#if ( ! setupUSE_SHOWCASE_PREVIEW_PANE )
// If not using the preview, then hide and disable the images checkbox
// TODO: is enable(false) needed, when already using a show(false)?
XRCCTRL( *this, "preferences_dialog_showcase_images_checkbox", wxCheckBox )->Enable( FALSE );
XRCCTRL( *this, "preferences_dialog_showcase_images_checkbox", wxCheckBox )->Show( FALSE );
#endif
// Attach time controls to their XRC "unknown" placeholders.
m_autoupdate_lower_time_control = new time_control( this, ID_PREFERENCES_DIALOG_LOWER_TIME_CONTROL );
wxXmlResource::Get()->AttachUnknownControl( "preferences_dialog_autoupdate_lower_time_control",
m_autoupdate_lower_time_control );
m_autoupdate_upper_time_control = new time_control( this, ID_PREFERENCES_DIALOG_UPPER_TIME_CONTROL );
wxXmlResource::Get()->AttachUnknownControl( "preferences_dialog_autoupdate_upper_time_control",
m_autoupdate_upper_time_control );
wxLogDebug( "Attached custom time_controls" );
// Read the configuration file to set up the values for the controls.
read_configuration();
// Set the size, position of the frame using our common function for this dialog
// [utils_controls.cpp]
utils_controls::read_dialog_position_and_size( this, "preferences_dialog" );
}
/************************************************************
read_cal() Read all EEPROM stored variables & constants.
Read from EEPROM, and stores into the RAM
*************************************************************/
byte* read_cal()
{
byte* addr;
addr = read_configuration(); // myinstance, confirmed status, config bytes
addr = read_stops_eeprom (addr);
addr = read_currentThresholds_eeprom(addr);
addr = read_latest_position_eeprom (addr);
return addr;
}
/*-------------------------------------------------------------------------------------------------------*/
int main(int argcount, char** argvektor) {
/* Read parameters from given file, default is "config.txt", check that input string fits char *infile.
* This way several different simulations with different starting parameters are possible. */
char infile[1024];
unsigned int length = 1024;
double* init_positions;
if(argcount == 4) {
strncpy(infile, argvektor[1], length);
sim_number = atoi(argvektor[2]);
init_positions = read_configuration(argvektor[3]);
// return with a failure if the specified array could not be read
if (init_positions == NULL)
return EXIT_FAILURE;
} else if (argcount == 3) {
strncpy(infile, argvektor[1], length);
sim_number = atoi(argvektor[2]);
init_positions = NULL;
} else if (argcount == 2) {
strncpy(infile, argvektor[1], length);
sim_number = 0;
init_positions = NULL;
} else {
strncpy(infile,"Config_Files/default", length); // default
sim_number = 0;
init_positions = NULL;
}
// pass arguments to file reader
int success_check = read_struct(infile);
// check whether file could be properly read
if(success_check != EXIT_SUCCESS) {
return EXIT_FAILURE;
}
// create a new struct for the simulation
struct sim_struct *sim = make_sim_struct();
// Initiate all variables, here a memory problem is most likely the issue at hand
success_check = init(sim, init_positions);
if(success_check != EXIT_SUCCESS) {
return EXIT_FAILURE;
}
// run simulation
simulation();
return EXIT_SUCCESS;
}
static void init() {
// read configuration
read_configuration();
// register configurable messages
app_message_register_inbox_received(in_received_handler);
app_message_register_inbox_dropped(in_dropped_handler);
app_message_open(64, 64);
// Create main Window element
s_main_window = window_create();
window_set_background_color(s_main_window, GColorBlack);
// Set handlers to manage the elements inside the Window
window_set_window_handlers(s_main_window, (WindowHandlers) {
.load = main_window_load,
.unload = main_window_unload
});
/**
Provides to parse a configuration file
*/
static void check_configuration ()
{
int fsize;
gchar *file;
xmlDocPtr doc;
file = read_configuration (&fsize);
doc = xmlReadMemory (file, fsize, NULL, NULL, XML_PARSE_NOBLANKS);
if (doc == NULL) {
g_warning ("Unable to read configuration");
}
else {
build_hierarchy_tree_from_xml (doc);
xmlFreeDoc (doc);
}
g_free (file);
}
GA::GA(TString configfile)
{
read_configuration(configfile);
print_configuration();
init_random();
// output file
output.open(m_name+".log");
// chains
m_signal_chain = new TChain(m_signal_treename);
for (auto signal_file : m_signal_files)
m_signal_chain->Add(signal_file);
m_background_chain = new TChain(m_background_treename);
for (auto bkg_file : m_background_files)
m_background_chain->Add(bkg_file);
// init some variables
m_stall_generation = 0;
// histograms
Int_t bins[m_nvars];
Double_t xmin[m_nvars];
Double_t xmax[m_nvars];
for (unsigned int i=0; i<m_nvars; i++) {
bins[i] = (m_variables[i].max - m_variables[i].min)/m_variables[i].step;
xmin[i] = m_variables[i].min;
xmax[i] = m_variables[i].max;
}
hist_s = new THnSparseD("hist_s", "Signal", m_nvars, bins, xmin, xmax);
hist_b = new THnSparseD("hist_b", "Background", m_nvars, bins, xmin, xmax);
hist_z = new THnSparseD("hist_z", "Significance", m_nvars, bins, xmin, xmax);
}
void TestMode(const char * f, int color) {
ChessBoard board;
string Line;
file.open("DEBUG.TXT");
string board_status;
cout.setf (ios::unitbuf); //disable buffering
board.changeColor(color);
ifstream in(f);
read_configuration(board,in);
bestMove move = board.negaMax(1,color,-20000,200000,0,board.board);
cout << move.move << " " << move.score << endl;
//board.movePiece("b4c3",board.board);
//board.genMove();
//board.history.push_back("d2d4");
cout << board.printBoard() << endl;
//unordered_map<int, vector<int> > map = board.formLocationDictionary(board.board);
//vector<string> moves = board.addAllMoves(color,board.board, map);
/*for (auto it = moves.begin(); it != moves.end(); it++) {
cout << *it << endl;
}*/
//board.movePiece("a7b8q",board.board);
//cout << board.printBoard();
}
void WindowManager::init_internals(void)
{
ELOG("Starting window manager");
wm_conf = new WindowManagerConfig;
app_starting = false;
// defaults, in case world goes down
wm_conf->title_active_color = fl_rgb(0,0,128);
wm_conf->title_active_color_text = fl_rgb(255,255,255);
wm_conf->title_normal_color = fl_rgb(192,192,192);
wm_conf->title_normal_color_text = fl_rgb(0,0,128);
wm_conf->title_label_align = FL_ALIGN_LEFT;
wm_conf->title_height = 20;
wm_conf->title_box_type = 0;
wm_conf->frame_do_opaque = false;
wm_conf->frame_animate = true;
wm_conf->frame_animate_speed = 15;
fl_open_display();
XSetErrorHandler(xerror_handler);
wm_area.set(0, 0, Fl::w(), Fl::h());
read_configuration();
read_xset_configuration();
//register_protocols();
#ifdef _DEBUG
InitAtoms(fl_display, atom_map);
register_events();
#else
InitAtoms(fl_display);
#endif
//cur = XCreateFontCursor(fl_display, XC_left_ptr);
//XDefineCursor(fl_display, RootWindow(fl_display, fl_screen), cur);
// load cursor
cur = new CursorHandler;
cur->load(X_CURSORS);
cur->set_root_cursor();
sound_system = new SoundSystem();
sound_system->init();
sound_system->add(SOUND_MINIMIZE, "sounds/minimize.ogg");
sound_system->add(SOUND_MAXIMIZE, "sounds/maximize.ogg");
sound_system->add(SOUND_CLOSE, "sounds/close.ogg");
sound_system->add(SOUND_RESTORE, "sounds/restore.ogg");
sound_system->add(SOUND_SHADE, "sounds/shade.ogg");
// the world is starting here
show();
register_protocols();
hint_stuff = new Hints;
hint_stuff->icccm_set_iconsizes(this);
init_clients();
Fl::add_handler(wm_event_handler);
XSync(fl_display, 0);
is_running = true;
}
/**
* @param argc: Number of command line arguments supplied.
* @param argv: Char* array containing the command line arguments supplied.
* @return: To the system, normally 0.
* @brief: The first function once enotes is called.
*/
int
main(int argc, char *argv[])
{
int note_count;
/* IPC Check */
ecore_ipc_init();
dml("IPC Initiated Successfully", 1);
/* loading will increment this if there are notes if not we may need to
* create a blank one */
note_count = 0;
if ((ecore_config_init("enotes")) == ECORE_CONFIG_ERR_FAIL) {
ecore_ipc_shutdown();
return (-1);
}
ecore_app_args_set(argc, (const char **) argv);
ecore_config_app_describe("E-Notes - Sticky Notes for Enlightenment\n\
Copyright (c) Thomas Fletcher\n\
Usage: enotes [options]");
/* Read the Usage and Configurations */
main_config = mainconfig_new();
if (read_configuration(main_config) != ECORE_CONFIG_PARSE_CONTINUE) {
ecore_config_shutdown();
ecore_ipc_shutdown();
ecore_shutdown();
mainconfig_free(main_config);
return (-1);
}
dml("Successfully Read Configurations and Usage", 1);
process_note_storage_locations();
if (find_server() != 0) {
if (remotecmd != NULL)
send_to_server(remotecmd);
else
send_to_server("DEFNOTE");
} else {
dml("Server wasn't found.. Creating one", 1);
/* Setup Server */
setup_server();
/* Initialise the E-Libs */
ecore_init();
ecore_x_init(NULL);
ecore_app_args_set(argc, (const char **) argv);
if (!ecore_evas_init()) {
mainconfig_free(main_config);
return -1;
}
ewl_init(&argc, argv);
edje_init();
dml("Efl Successfully Initiated", 1);
autoload();
/* create autosave timer */
update_autosave();
if (remotecmd != NULL)
handle_ipc_message(remotecmd);
/* Begin the Control Centre */
if (main_config->controlcentre == 1) {
setup_cc();
dml("Control Centre Setup", 1);
} else {
dml("No Control Centre - Displaying Notice", 1);
if (get_note_count() == 0)
new_note();
}
if (main_config->welcome == 1) {
open_welcome();
}
/* Begin the main loop */
dml("Starting Main Loop", 1);
ecore_main_loop_begin();
dml("Main Loop Ended", 1);
/* Save Controlcentre Settings */
set_cc_pos();
autosave();
if (autosave_timer)
ecore_timer_del(autosave_timer);
/* Save and Free the Configuration */
ecore_config_save();
dml("Configuration Saved", 1);
mainconfig_free(main_config);
dml("Configuration Structure Free'd", 1);
/* Shutdown the E-Libs */
edje_shutdown();
ecore_evas_shutdown();
ecore_x_shutdown();
ecore_shutdown();
dml("Efl Shutdown", 1);
}
/* End IPC */
ecore_ipc_shutdown();
dml("IPC Shutdown", 1);
dml("Leaving.", 1);
return (0);
}
int main( int argc, char *argv[] )
{
int i;
#ifdef _REENTRANT
int ret;
#endif
fclose(stderr);
Alarm_set_types( NONE );
Alarmp( SPLOG_PRINT, SYSTEM, "/===========================================================================\\\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| The Spread Toolkit. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Copyright (c) 1993-2014 Spread Concepts LLC |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| All rights reserved. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| The Spread package is licensed under the Spread Open-Source License. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| You may only use this software in compliance with the License. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| A copy of the license can be found at http://www.spread.org/license |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| This product uses software developed by Spread Concepts LLC for use |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| in the Spread toolkit. For more information about Spread, |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| see http://www.spread.org |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| This software is distributed on an \"AS IS\" basis, WITHOUT WARRANTY OF |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| ANY KIND, either express or implied. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Creators: |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Yair Amir [email protected] |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Michal Miskin-Amir [email protected] |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Jonathan Stanton [email protected] |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| John Schultz [email protected] |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Contributors: |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Amy Babay [email protected] - accelerated ring protocol. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Ryan Caudy [email protected] - contribution to process groups.|\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Claudiu Danilov [email protected] - scalable, wide-area support. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Cristina Nita-Rotaru [email protected] - GC security. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Theo Schlossnagle [email protected] - Perl, autoconf, old skiplist |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Dan Schoenblum [email protected] - Java Interface Developer. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Special thanks to the following for discussions and ideas: |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Ken Birman, Danny Dolev, Jacob Green, Mike Goodrich, Ben Laurie, |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| David Shaw, Gene Tsudik, Robbert VanRenesse. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Partial funding provided by the Defense Advanced Research Project Agency |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| (DARPA) and the National Security Agency (NSA) 2000-2004. The Spread |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| toolkit is not necessarily endorsed by DARPA or the NSA. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| For a full list of contributors, see Readme.txt in the distribution. |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| WWW: www.spread.org www.spreadconcepts.com |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Contact: [email protected] |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| |\n");
Alarmp( SPLOG_PRINT, SYSTEM, "| Version %d.%02d.%02d Built %-17s |\n",
(int)SP_MAJOR_VERSION, (int)SP_MINOR_VERSION, (int)SP_PATCH_VERSION, Spread_build_date );
Alarmp( SPLOG_PRINT, SYSTEM, "\\===========================================================================/\n");
#ifdef ARCH_PC_WIN95
ret = WSAStartup( MAKEWORD(2,0), &WSAData );
if( ret != 0 )
Alarm( EXIT, "sptmonitor: main: winsock initialization error %d\n", ret );
#endif /* ARCH_PC_WIN95 */
Usage( argc, argv );
Alarm_set_interactive();
read_configuration();
initialize_locks();
for( i=0; i < Conf_num_procs( &Cn ); i++ )
Partition[i] = 0;
for( i=0; i < Conf_num_procs( &Cn ); i++ )
Status_vector[i] = 0;
Pack_scat.elements[0].len = sizeof( packet_header );
Pack_scat.elements[0].buf = (char *)&Pack;
Pack.proc_id = My.id;
Pack.seq = My_port;
Pack.memb_id.proc_id = 15051963;
Report_scat.num_elements = 2;
Report_scat.elements[0].buf = (char *)&Report_pack;
Report_scat.elements[0].len = sizeof(packet_header);
Report_scat.elements[1].buf = (char *)&GlobalStatus;
Report_scat.elements[1].len = sizeof(status);
SendChan = DL_init_channel( SEND_CHANNEL , My_port, 0, 0 );
Report_socket = DL_init_channel( RECV_CHANNEL, My_port, 0, 0 );
E_init(); /* both reentrent and non-reentrant code uses events */
#ifndef _REENTRANT
E_attach_fd( 0, READ_FD, User_command, 0, NULL, LOW_PRIORITY );
E_attach_fd( Report_socket, READ_FD, Report_message, 0, NULL, HIGH_PRIORITY );
#endif /* _REENTRANT */
Print_menu();
#ifdef _REENTRANT
#ifndef ARCH_PC_WIN95
ret = pthread_create( &Read_thread, NULL, Read_thread_routine, 0 );
ret = pthread_create( &Status_thread, NULL, Status_send_thread_routine, 0 );
ret = pthread_create( &Partition_thread, NULL, Partition_send_thread_routine, 0 );
#else /* ARCH_PC_WIN95 */
Read_thread = CreateThread( NULL, 0, Read_thread_routine, NULL, 0, &ret );
Status_thread = CreateThread( NULL, 0, Status_send_thread_routine, NULL, 0, &ret );
Partition_thread = CreateThread( NULL, 0, Partition_send_thread_routine, NULL, 0, &ret );
#endif /* ARCH_PC_WIN95 */
for(;;)
{
User_command();
}
#else /*! _REENTRANT */
E_handle_events();
#endif /* _REENTRANT */
return 0;
}
/* Send message to all daemons to reload their configuration files to change the set of daemons */
static void Reload_Conf()
{
int32 proc_id;
proc p;
int proc_index;
int i,j;
Pack.type = RELOAD_TYPE;
Pack.type = Set_endian( Pack.type );
Pack.conf_hash = MONITOR_HASH;
Pack.data_len = 0;
Pack_scat.num_elements = 1;
Alarm( PRINT, "Old configuration hash is: %u\n", Cn.hash_code);
Alarm( PRINT , "Monitor: send conf reload command\n");
for( i=0; i < Cn.num_segments ; i++ )
{
for( j=0; j < Cn.segments[i].num_procs; j++ )
{
proc_id = Cn.segments[i].procs[j]->id;
proc_index = Conf_proc_by_id( proc_id, &p );
DL_send( SendChan, p.id, p.port, &Pack_scat );
}
}
/* Now reload monitor's configuration
* and clear all Partition, Status, FC arrays as they are now inaccurate
*/
read_configuration();
for( i=0; i < Conf_num_procs( &Cn ); i++ )
{
Partition[i] = 0;
Work_partition[i] = 0;
Fc_buf[i][0] = 0;
Fc_buf[i][1] = 0;
Work_fc_buf[i][0] = 0;
Work_fc_buf[i][1] = 0;
Status_vector[i] = 0;
}
Mutex_lock( &Partition_mutex );
Partition_active = 0;
Mutex_unlock( &Partition_mutex );
#ifndef _REENTRANT
E_dequeue( Send_partition, 0, NULL );
#endif
Mutex_lock( &Status_mutex );
Status_active = 0;
Mutex_unlock( &Status_mutex );
#ifndef _REENTRANT
E_dequeue( Send_status_query, 0, NULL );
#endif
Alarm( PRINT, "New configuration hash is: %u\n", Cn.hash_code);
Alarm( PRINT, "All Status, Partition, FC, etc commands are reset by configuration reload!\n");
}
int main ( int argc, char** argv ) {
FILE* pipe;
SHAREDBUFFER* shared_buffer;
CONFIG* config;
char main_process_lifetime[15];
int producer_count = 0;
char producer_lifetime[15];
int consumer_count = 0;
int child_exit_status = 0;
int child_exit_pid;
int child_pid;
int i = 0;
int logfd;
char message[150];
char dir[255];
int available_process_count = 10000;
strncpy(dir, argv[0], last_index_of(argv[0], '/'));
chdir(dir);
logfd = log_open_file( NULL );
if ( !logfd )
{
printf("Unable to open log file.\n");
return EXIT_FAILURE;
}
log_event( "--------------------------------" );
log_event( "Main process started." );
// first of all load configuration file
config = load_config_file();
if ( !config )
{
log_event( "Unable to access configuration." );
return EXIT_FAILURE;
}
// read values from configuration
producer_count = atoi(read_configuration(config, "producer_count", "5"));
consumer_count = atoi(read_configuration(config, "consumer_count", "2"));
strcpy(producer_lifetime, read_configuration(config, "producer_lifetime", "10"));
strcpy(main_process_lifetime, read_configuration(config, "main_process_lifetime", "40"));
destroy_config( config );
log_event( "Fetching available process count of system." );
pipe = popen(PROCESS_COUNT_SCRIPT, "r");
if ( pipe )
{
fgets(message, 100, pipe);
pclose(pipe);
available_process_count = atoi(message);
}
if ( producer_count + consumer_count + 1 > available_process_count )
{
log_event( "Requested total process count is more than available process count of system." );
goto SAFE_EXIT;
}
//initialize shared buffer
shared_buffer = create_shared_buffer();
if ( !shared_buffer )
{
log_event( "Unable to initialize shared buffer." );
destroy_config( config );
return EXIT_FAILURE;
}
// create and start producer processes
// producer processes run for a specified lifetime ( in seconds )
// which is read from configuration
for ( i=0; i<producer_count; ++i)
{
child_pid = vfork();
if ( child_pid == 0 ) // producer process
{
execl("producer", "producer", producer_lifetime, NULL);
exit(0);
}
}
// start consumer processes
// consumer processes run until a SIGKILL signal
// there is no specific entry in the requirements that
// when a consumer process should end.
for ( i=0; i<consumer_count; ++i)
{
child_pid = vfork();
if ( child_pid == 0 ) // consumer process
{
execl("consumer", "consumer", NULL);
exit(0);
}
}
// start controller process
// controller process checks elapsed time
// once in every 5 seconds
// if total execution time is above a specified time (in seconds)
// signals all child processes except itself, to force exit
child_pid = vfork();
if ( child_pid == 0 ) //controller process
{
execl("controller", "controller", main_process_lifetime, NULL);
exit(0);
}
// in order to catch all child processes exits
// we need a common wait for all them
// here exitting processes is cought with pid and exit status
// wait childs to exit
while( (child_exit_pid = wait(&child_exit_status)) > 0 )
{
sprintf( message, "Process [PID:%d] exitid with status: %d", child_exit_pid, child_exit_status );
log_event( message );
}
SAFE_EXIT:
log_event( "Main process is being closed." );
// relase allocated data structures to OS
destroy_shared_buffer( shared_buffer );
log_close_file( );
return EXIT_SUCCESS;
}
// Constructor. Parent is the wizard page
proxy_wizardpage::proxy_wizardpage( wxWizard *parent,
wxBitmap bitmap )
: wxWizardPageSimple( parent )
{
wxLogDebug( wxT( "Entering proxy_wizardpage constructor") );
// To set a custom bitmap in a derived wxWizardPageSimple, you just have to
// set the wxWizardPageSimple m_bitmap member in the derived constructor.
// ( see wx examples ). .
m_bitmap = bitmap;
wxFlexGridSizer *root_flexgridsizer = new wxFlexGridSizer( 1, 0, 0 );
root_flexgridsizer->AddGrowableCol( 0 );
root_flexgridsizer->AddGrowableRow( 1 );
wxStaticBox *enable_staticbox = new wxStaticBox( this, -1, _("Enable proxy") );
wxStaticBoxSizer *enable_staticboxsizer = new wxStaticBoxSizer( enable_staticbox, wxVERTICAL );
// This control needs an ID number, so that update events only get processed if
// it is this checkbox that calls it, instead of all of them calling the update handler.
m_use_proxy_checkbox = new wxCheckBox( this, ID_USE_PROXY_CHECKBOX, _("This computer uses a proxy to access the Internet"), wxDefaultPosition, wxDefaultSize, 0 );
enable_staticboxsizer->Add( m_use_proxy_checkbox, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
wxStaticText *unsure_statictext = new wxStaticText( this, -1, _( "(If you are not sure whether or not you have a proxy, then just click 'Next')" ) );
enable_staticboxsizer->Add( unsure_statictext, 0, wxALIGN_CENTRE|wxALL, 5 );
root_flexgridsizer->Add( enable_staticboxsizer, 0, wxGROW|wxALIGN_CENTER_VERTICAL, 5 );
wxStaticBox *settings_staticbox = new wxStaticBox( this, -1, _( "Proxy settings" ) );
wxStaticBoxSizer *settings_staticboxsizer = new wxStaticBoxSizer( settings_staticbox, wxVERTICAL );
wxFlexGridSizer *settings_flexgridsizer = new wxFlexGridSizer( 2, 0, 0 );
wxStaticText *proxy_server_statictext = new wxStaticText( this, -1, _( "Proxy server:" ) );
settings_flexgridsizer->Add( proxy_server_statictext, 0, wxALIGN_RIGHT|wxALIGN_CENTER_VERTICAL|wxALL, 5 );
m_proxy_server_textctrl = new wxTextCtrl( this, -1, wxT( ""), wxDefaultPosition, wxSize(290,-1), 0 );
settings_flexgridsizer->Add( m_proxy_server_textctrl, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
wxStaticText *proxy_port_statictext = new wxStaticText( this, -1, _( "Port:" ) );
settings_flexgridsizer->Add( proxy_port_statictext, 0, wxALIGN_RIGHT|wxALIGN_CENTER_VERTICAL|wxALL, 5 );
m_proxy_port_textctrl = new wxTextCtrl( this, -1, wxT( ""), wxDefaultPosition, wxSize(50,-1), 0 );
settings_flexgridsizer->Add( m_proxy_port_textctrl, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
wxStaticText *proxy_login_statictext = new wxStaticText( this, -1, _( "Proxy login:"******""), wxDefaultPosition, wxSize(150,-1), wxTE_PASSWORD );
settings_flexgridsizer->Add( m_proxy_login_textctrl, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
wxStaticText *proxy_password_statictext = new wxStaticText( this, -1, _( "Proxy password:"******""), wxDefaultPosition, wxSize(150,-1), wxTE_PASSWORD );
settings_flexgridsizer->Add( m_proxy_password_textctrl, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
settings_staticboxsizer->Add( settings_flexgridsizer, 0, wxGROW|wxALIGN_CENTER_VERTICAL, 0 );
m_proxy_password_prompt_checkbox = new wxCheckBox( this, ID_PROXY_PASSWORD_PROMPT_CHECKBOX, _( "Prompt for proxy password each time (more secure)" ) );
settings_staticboxsizer->Add( m_proxy_password_prompt_checkbox, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
root_flexgridsizer->Add( settings_staticboxsizer, 0, wxGROW|wxALIGN_CENTER_VERTICAL|wxTOP, 5 );
// Now that everything is added into the flexgrid sizer, send some commands to
// tell it calculate all the control sizes nicely to fill up the available space.
SetAutoLayout( TRUE );
SetSizer( root_flexgridsizer );
root_flexgridsizer->Fit( this );
root_flexgridsizer->SetSizeHints( this );
// Set up the initial values
read_configuration();
}
void in_received_handler(DictionaryIterator *received, void *context)
{
APP_LOG(APP_LOG_LEVEL_DEBUG, "in_received_handler");
Tuple *hh_in_bold_tuple = dict_find(received, MESSAGE_KEY_HH_IN_BOLD);
if (hh_in_bold_tuple)
{
app_log(APP_LOG_LEVEL_DEBUG,
__FILE__,
__LINE__,
"hh_in_bold=%s",
hh_in_bold_tuple->value->cstring);
if (strcmp(hh_in_bold_tuple->value->cstring, "0") == 0)
{
persist_write_bool(MESSAGE_KEY_HH_IN_BOLD, false);
}
else
{
persist_write_bool(MESSAGE_KEY_HH_IN_BOLD, true);
}
}
Tuple *mm_in_bold_tuple = dict_find(received, MESSAGE_KEY_MM_IN_BOLD);
if (mm_in_bold_tuple)
{
app_log(APP_LOG_LEVEL_DEBUG,
__FILE__,
__LINE__,
"mm_in_bold=%s",
mm_in_bold_tuple->value->cstring);
if (strcmp(mm_in_bold_tuple->value->cstring, "1") == 0)
{
persist_write_bool(MESSAGE_KEY_MM_IN_BOLD, true);
}
else
{
persist_write_bool(MESSAGE_KEY_MM_IN_BOLD, false);
}
}
Tuple *locale_tuple = dict_find(received, MESSAGE_KEY_LOCALE);
if (locale_tuple)
{
app_log(APP_LOG_LEVEL_DEBUG,
__FILE__,
__LINE__,
"locale=%s",
locale_tuple->value->cstring);
if (strcmp(locale_tuple->value->cstring, "default") == 0)
{
if (persist_exists(MESSAGE_KEY_LOCALE))
{
persist_delete(MESSAGE_KEY_LOCALE);
}
}
else if (strcmp(locale_tuple->value->cstring, "fr") == 0)
{
persist_write_int(MESSAGE_KEY_LOCALE, locale_fr);
}
else if (strcmp(locale_tuple->value->cstring, "de") == 0)
{
persist_write_int(MESSAGE_KEY_LOCALE, locale_de);
}
else if (strcmp(locale_tuple->value->cstring, "es") == 0)
{
persist_write_int(MESSAGE_KEY_LOCALE, locale_es);
}
else if (strcmp(locale_tuple->value->cstring, "it") == 0)
{
persist_write_int(MESSAGE_KEY_LOCALE, locale_it);
}
else
{
persist_write_int(MESSAGE_KEY_LOCALE, locale_en);
}
}
Tuple *hh_strip_zero_tuple = dict_find(received, MESSAGE_KEY_HH_STRIP_ZERO);
if (hh_strip_zero_tuple)
{
app_log(APP_LOG_LEVEL_DEBUG,
__FILE__,
__LINE__,
"hh_strip_zero=%s",
hh_strip_zero_tuple->value->cstring);
if (strcmp(hh_strip_zero_tuple->value->cstring, "0") == 0)
{
persist_write_bool(MESSAGE_KEY_HH_STRIP_ZERO, false);
}
else
{
persist_write_bool(MESSAGE_KEY_HH_STRIP_ZERO, true);
}
}
Tuple *time_sep_tuple = dict_find(received, MESSAGE_KEY_TIME_SEP);
if (time_sep_tuple)
{
app_log(APP_LOG_LEVEL_DEBUG,
__FILE__,
__LINE__,
"time_sep=%s",
time_sep_tuple->value->cstring);
if (strcmp(time_sep_tuple->value->cstring, "square") == 0)
{
persist_write_int(MESSAGE_KEY_TIME_SEP, time_sep_square);
}
else if (strcmp(time_sep_tuple->value->cstring, "round") == 0)
{
persist_write_int(MESSAGE_KEY_TIME_SEP, time_sep_round);
}
else if (strcmp(time_sep_tuple->value->cstring, "squareb") == 0)
{
persist_write_int(MESSAGE_KEY_TIME_SEP, time_sep_square_bold);
}
else if (strcmp(time_sep_tuple->value->cstring, "roundb") == 0)
{
persist_write_int(MESSAGE_KEY_TIME_SEP, time_sep_round_bold);
}
else
{
persist_write_int(MESSAGE_KEY_TIME_SEP, time_sep_none);
}
}
Tuple *repeat_vib_tuple = dict_find(received, MESSAGE_KEY_REPEAT_VIB);
if (repeat_vib_tuple)
{
app_log(APP_LOG_LEVEL_DEBUG,
__FILE__,
__LINE__,
"repeat_vib=%s",
repeat_vib_tuple->value->cstring);
if (strcmp(repeat_vib_tuple->value->cstring, "1") == 0)
{
persist_write_bool(MESSAGE_KEY_REPEAT_VIB, true);
}
else
{
persist_write_bool(MESSAGE_KEY_REPEAT_VIB, false);
}
}
read_configuration();
update_display();
}
/*
* main application method
*/
int main(int argc, char** argv)
{
// catch process signals
ibrcommon::SignalHandler sighandler(term);
sighandler.handle(SIGINT);
sighandler.handle(SIGTERM);
// read the configuration
read_configuration(argc, argv);
//initialize sighandler after possible exit call
sighandler.initialize();
if (_conf_workdir.length() > 0)
{
ibrcommon::File blob_path(_conf_workdir);
if (blob_path.exists())
{
ibrcommon::BLOB::changeProvider(new ibrcommon::FileBLOBProvider(blob_path), true);
}
}
// backoff for reconnect
unsigned int backoff = 2;
// loop, if no stop if requested
while (_running)
{
try {
// Create a stream to the server using TCP.
ibrcommon::vaddress addr("localhost", 4550);
ibrcommon::socketstream conn(new ibrcommon::tcpsocket(addr));
// set the connection globally
_conn = &conn;
// Initiate a client for synchronous receiving
dtn::api::Client client(_conf_name, conn);
// Connect to the server. Actually, this function initiate the
// stream protocol by starting the thread and sending the contact header.
client.connect();
// reset backoff if connected
backoff = 2;
// check the connection
while (_running)
{
// receive the bundle
dtn::data::Bundle b = client.getBundle();
if(!_conf_quiet)
std::cout << "received bundle: " << b.toString() << std::endl;
// get the reference to the blob
ibrcommon::BLOB::Reference ref = b.find<dtn::data::PayloadBlock>().getBLOB();
// write files into BLOB while it is locked
{
ibrcommon::BLOB::iostream stream = ref.iostream();
io::TarUtils::read(_conf_inbox, *stream);
}
}
// close the client connection
client.close();
// close the connection
conn.close();
// set the global connection to NULL
_conn = NULL;
} catch (const ibrcommon::socket_exception&) {
// set the global connection to NULL
_conn = NULL;
if (_running)
{
std::cout << "Connection to bundle daemon failed. Retry in " << backoff << " seconds." << std::endl;
ibrcommon::Thread::sleep(backoff * 1000);
// if backoff < 10 minutes
if (backoff < 600)
{
// set a new backoff
backoff = backoff * 2;
}
}
} catch (const ibrcommon::IOException&) {
// set the global connection to NULL
_conn = NULL;
if (_running)
{
std::cout << "Connection to bundle daemon failed. Retry in " << backoff << " seconds." << std::endl;
ibrcommon::Thread::sleep(backoff * 1000);
// if backoff < 10 minutes
if (backoff < 600)
{
// set a new backoff
backoff = backoff * 2;
}
}
} catch (const std::exception&) {
// set the global connection to NULL
_conn = NULL;
}
}
return (EXIT_SUCCESS);
}
int
main(int argc, const char *argv[])
{
#ifndef WIN32
struct sigaction act;
#endif
#ifdef ENABLE_LOCALE
#ifndef ENABLE_NLS
G_GNUC_UNUSED
#endif
const char *charset = NULL;
#endif
GIOChannel *keyboard_channel;
#ifdef ENABLE_LIRC
int lirc_socket;
GIOChannel *lirc_channel = NULL;
#endif
GIOChannel *sigwinch_channel = NULL;
#ifdef ENABLE_LOCALE
/* time and date formatting */
setlocale(LC_TIME,"");
/* care about sorting order etc */
setlocale(LC_COLLATE,"");
/* charset */
setlocale(LC_CTYPE,"");
/* initialize charset conversions */
charset = charset_init();
/* initialize i18n support */
#endif
#ifdef ENABLE_NLS
setlocale(LC_MESSAGES, "");
bindtextdomain(GETTEXT_PACKAGE, LOCALE_DIR);
#ifdef ENABLE_LOCALE
bind_textdomain_codeset(GETTEXT_PACKAGE, charset);
#endif
textdomain(GETTEXT_PACKAGE);
#endif
/* initialize options */
options_init();
/* parse command line options - 1 pass get configuration files */
options_parse(argc, argv);
#ifndef NCMPC_MINI
/* read configuration */
read_configuration();
/* check key bindings */
check_key_bindings(NULL, NULL, 0);
#endif
/* parse command line options - 2 pass */
options_parse(argc, argv);
#ifndef WIN32
/* setup signal behavior - SIGINT */
sigemptyset(&act.sa_mask);
act.sa_flags = 0;
act.sa_handler = catch_sigint;
if (sigaction(SIGINT, &act, NULL) < 0) {
perror("signal");
exit(EXIT_FAILURE);
}
/* setup signal behavior - SIGTERM */
act.sa_handler = catch_sigint;
if (sigaction(SIGTERM, &act, NULL) < 0) {
perror("sigaction()");
exit(EXIT_FAILURE);
}
/* setup signal behavior - SIGCONT */
act.sa_handler = catch_sigcont;
if (sigaction(SIGCONT, &act, NULL) < 0) {
perror("sigaction(SIGCONT)");
exit(EXIT_FAILURE);
}
/* setup signal behaviour - SIGHUP*/
act.sa_handler = catch_sigint;
if (sigaction(SIGHUP, &act, NULL) < 0) {
perror("sigaction(SIGHUP)");
exit(EXIT_FAILURE);
}
/* setup SIGWINCH */
act.sa_flags = SA_RESTART;
act.sa_handler = catch_sigwinch;
if (sigaction(SIGWINCH, &act, NULL) < 0) {
perror("sigaction(SIGWINCH)");
exit(EXIT_FAILURE);
}
/* ignore SIGPIPE */
act.sa_handler = SIG_IGN;
if (sigaction(SIGPIPE, &act, NULL) < 0) {
perror("sigaction(SIGPIPE)");
exit(EXIT_FAILURE);
}
#endif
ncu_init();
#ifdef ENABLE_LYRICS_SCREEN
lyrics_init();
#endif
/* create mpdclient instance */
mpd = mpdclient_new();
/* initialize curses */
screen_init(mpd);
/* the main loop */
main_loop = g_main_loop_new(NULL, FALSE);
/* watch out for keyboard input */
keyboard_channel = g_io_channel_unix_new(STDIN_FILENO);
g_io_add_watch(keyboard_channel, G_IO_IN, keyboard_event, NULL);
#ifdef ENABLE_LIRC
/* watch out for lirc input */
lirc_socket = ncmpc_lirc_open();
if (lirc_socket >= 0) {
lirc_channel = g_io_channel_unix_new(lirc_socket);
g_io_add_watch(lirc_channel, G_IO_IN, lirc_event, NULL);
}
#endif
#ifndef WIN32
if (!pipe(sigwinch_pipes) &&
!fcntl(sigwinch_pipes[1], F_SETFL, O_NONBLOCK)) {
sigwinch_channel = g_io_channel_unix_new(sigwinch_pipes[0]);
g_io_add_watch(sigwinch_channel, G_IO_IN, sigwinch_event, NULL);
}
else {
perror("sigwinch pipe creation failed");
exit(EXIT_FAILURE);
}
#endif
/* attempt to connect */
reconnect_source_id = g_timeout_add(1, timer_reconnect, NULL);
auto_update_timer();
#ifndef NCMPC_MINI
check_key_bindings_source_id = g_timeout_add(10000, timer_check_key_bindings, NULL);
#endif
screen_paint(mpd);
g_main_loop_run(main_loop);
/* cleanup */
cancel_seek_timer();
disable_update_timer();
if (reconnect_source_id != 0)
g_source_remove(reconnect_source_id);
#ifndef NCMPC_MINI
if (check_key_bindings_source_id != 0)
g_source_remove(check_key_bindings_source_id);
#endif
g_main_loop_unref(main_loop);
g_io_channel_unref(keyboard_channel);
g_io_channel_unref(sigwinch_channel);
close(sigwinch_pipes[0]);
close(sigwinch_pipes[1]);
#ifdef ENABLE_LIRC
if (lirc_socket >= 0)
g_io_channel_unref(lirc_channel);
ncmpc_lirc_close();
#endif
exit_and_cleanup();
#ifdef ENABLE_LYRICS_SCREEN
lyrics_deinit();
#endif
ncu_deinit();
options_deinit();
return 0;
}
int main(int argc, char * argv[])
{
server_configuration config;
bzero(&config, sizeof(config));
if(!network_subsystem_init())
{
fprintf(stderr, "Network subsystem init failed.\n");
return error_network_subsystem;
}
if(!read_configuration(argc, argv, &config))
{
fprintf(stderr, PROG_NAME ": configuration error! Exit.\n");
return error_config;
}
if(config.discover)
interfaces_discover(0);
if(config.print_header_offsets)
{
print_dhcp_header_offsets();
return 0;
}
if(!log_init(config.log_file_name,
(config.debug_mode ? LOG_DEBUG_FLAG : 0) |
(config.log_stdout ? LOG_STDOUT_FLAG : 0),
config.uid)
)
{
fprintf(stderr, "Can't open log file.\n");
return error_log;
}
log_wr(ILOG, "Program " PROG_NAME " " PROG_VERS " " PROG_DESC " started.");
struct sigaction sig_handler_s;
sig_handler_s.sa_handler = sig_handler;
sigemptyset(&sig_handler_s.sa_mask);
sig_handler_s.sa_flags = 0;
if(config.daemon)
daemonize();
/* Init DHCP cache */
if(config.cache_ttl && !dhcp_cache_init(config.cache_ttl))
{
log_wr(CLOG, "Can't init DHCP cache. Exit.");
return error_abnormal;
}
/* STARTING DATABASE CLIENTS */
/* Create array of childen threads */
request_handler_thread_t **handler_threads =
(request_handler_thread_t **) malloc(sizeof(request_handler_thread_t *) * config.db_clients_count);
CHECK_VALUE(handler_threads, "Can't allocate memory for array of children threads for connecting to DB.",
error_memory);
/* Create DHCP messages queue */
config.dhcp_queue = dhcp_queue_create("DHCP requests", YES, DEFAULT_QUEUE_MAX_SIZE);
CHECK_VALUE(config.dhcp_queue, "Can't create DHCP queue.", error_queue_init);
/* Running DB clients */
CHECK_VALUE(run_requests_handlers(handler_threads, &config), "", error_run_db_clients);
/* STARTING DHCP PROCESSES */
dhcp_proc_thread_t **dhcp_threads =
(dhcp_proc_thread_t**) malloc(sizeof(dhcp_proc_thread_t *) * config.if_count);
CHECK_VALUE(dhcp_threads, "Can't allocate memory for array of children threads for "
"processing DHCP clients.", error_run_dhcp_procs);
CHECK_VALUE(run_dhcp_threads(dhcp_threads, &config, handler_threads), "", error_run_dhcp_procs);
/* Set signal handlers */
if( sigaction(SIGINT, &sig_handler_s, NULL) ||
sigaction(SIGTERM, &sig_handler_s, NULL) ||
sigaction(SIGUSR1, &sig_handler_s, NULL))
{
log_wr(CLOG, "Can't set signal handlers: '%s'", strerror(errno));
return error_abnormal;
}
#ifndef _WIN32
if(config.uid)
{
log_wr(DLOG, "Set effective and real user ID to %u.", config.uid);
if(setreuid(config.uid, config.uid))
{
log_wr(CLOG, "Can't execute setreuid(%u): '%s'", config.uid, strerror(errno));
return 0;
}
}
else
log_wr(WLOG, "Running with uid 0 - it is not safe!!! Use configuration directive 'User' for set uid.");
#endif
int i;
for(i = 0; i < config.if_count; ++i)
pthread_join(dhcp_threads[i]->thread_id, 0);
log_wr(ILOG, "All DHCP threads finished");
for(i = 0; i < config.db_clients_count; ++i)
pthread_join(handler_threads[i]->thread_id, 0);
log_wr(ILOG, "All DB threads finished.");
/* Cleaning up */
/* TODO 30 Need gracefull cleanup database connections and free all allocated memory */
log_wr(ILOG, "Program exited.");
log_close();
return EXIT_SUCCESS;
}
int main(int argc, char *argv[])
{
char *configuration = NULL;
char *infile = NULL;
char *outfile = NULL;
char *verbose = NULL;
int version_opt = 0;
char *logdir = NULL;
char *logfile = NULL;
char *home = NULL;
int help_opt = 0;
int c;
static struct option long_options[] = {
{"configuration", required_argument, 0, 'c'},
{"silent", no_argument, 0, 1},
{"verbose", no_argument, 0, 'v'},
{"version", no_argument, 0, 'V'},
{"logdir", required_argument, 0, 'l'},
{"logfile", required_argument, 0, 'L'},
{"home", required_argument, 0, 2},
{"infile", required_argument, 0, 'i'},
{"outfile", required_argument, 0, 'o'},
{"help", no_argument, 0, 'h'},
{0, 0, 0, 0}
};
#ifdef XCP
int is_bash_exist = system("command -v bash");
if ( is_bash_exist != 0 )
{
fprintf(stderr, "Cannot find bash. Please ensure that bash is "
"installed and available in the PATH\n");
exit(2);
}
#endif
strcpy(progname, argv[0]);
init_var_hash();
while(1) {
int option_index = 0;
c = getopt_long(argc, argv, "i:o:c:vVl:L:h", long_options, &option_index);
if (c == -1)
break;
switch(c)
{
case 1:
verbose = "n";
break;
case 2:
if (home)
free (home);
home = strdup(optarg);
break;
case 'i':
if (infile)
free(infile);
infile = strdup(optarg);
break;
case 'o':
if (outfile)
free(outfile);
outfile = strdup(optarg);
break;
case 'v':
verbose = "y";
break;
case 'V':
version_opt = 1;
break;
case 'l':
if (logdir)
free(logdir);
logdir = strdup(optarg);
break;
case 'L':
if (logfile)
free(logfile);
logfile = strdup(optarg);
break;
case 'c':
if (configuration)
free(configuration);
configuration = strdup(optarg);
break;
case 'h':
help_opt = 1;
break;
default:
fprintf(stderr, "Invalid optin value, received code 0%o\n", c);
exit(1);
}
}
if (version_opt || help_opt)
{
if (version_opt)
print_version();
if (help_opt)
print_help();
exit(0);
}
setup_my_env(); /* Read $HOME/.pgxc_ctl */
build_pgxc_ctl_home(home);
if (infile)
reset_var_val(VAR_configFile, infile);
if (logdir)
reset_var_val(VAR_logDir, logdir);
if (logfile)
reset_var_val(VAR_logFile, logfile);
startLog(sval(VAR_logDir), sval(VAR_logFile));
prepare_pgxc_ctl_bash(pgxc_ctl_bash_path);
build_configuration_path(configuration);
read_configuration();
check_configuration();
/*
* Setop output
*/
if (outfile)
{
elog(INFO, "Output file: %s\n", outfile);
if ((outF = fopen(outfile, "w")))
dup2(fileno(outF),2);
else
elog(ERROR, "ERROR: Cannot open output file %s, %s\n", outfile, strerror(errno));
}
else
outF = stdout;
/*
* Startup Message
*/
elog(NOTICE, " ******** PGXC_CTL START ***************\n\n");
elog(NOTICE, "Current directory: %s\n", pgxc_ctl_home);
/*
* Setup input
*/
if (infile)
{
elog(INFO, "Input file: %s\n", infile);
inF = fopen(infile, "r");
if(inF == NULL)
{
elog(ERROR, "ERROR: Cannot open input file %s, %s\n", infile, strerror(errno));
exit(1);
}
}
else
inF = stdin;
/*
* If we have remaing arguments, they will be treated as a command to do. Do this
* first, then handle the input from input file specified by -i option.
* If it is not found, then exit.
*/
#if 0
print_vars();
#endif
if (optind < argc)
{
char orgBuf[MAXLINE + 1];
char wkBuf[MAXLINE + 1];
orgBuf[0] = 0;
while (optind < argc)
{
strncat(orgBuf, argv[optind++], MAXLINE);
strncat(orgBuf, " ", MAXLINE);
}
strncpy(wkBuf, orgBuf, MAXLINE);
do_singleLine(orgBuf, wkBuf);
if (infile)
do_command(inF, outF);
}
else
do_command(inF, outF);
exit(0);
}
static void
handle_option(int c, const char *arg)
{
switch (c) {
case '?': /* --help */
display_help();
exit(EXIT_SUCCESS);
case 'V': /* --version */
puts(PACKAGE " version: " VERSION "\n"
"build options:"
#ifdef NCMPC_MINI
" mini"
#endif
#ifndef NDEBUG
" debug"
#endif
#ifdef ENABLE_MULTIBYTE
" multibyte"
#endif
#ifdef HAVE_CURSES_ENHANCED
" wide"
#endif
#ifdef ENABLE_LOCALE
" locale"
#endif
#ifdef ENABLE_NLS
" nls"
#endif
#ifdef ENABLE_COLORS
" colors"
#else
" no-colors"
#endif
#ifdef ENABLE_LIRC
" lirc"
#endif
#ifdef HAVE_GETMOUSE
" getmouse"
#endif
#ifdef ENABLE_ARTIST_SCREEN
" artist-screen"
#endif
#ifdef ENABLE_HELP_SCREEN
" help-screen"
#endif
#ifdef ENABLE_SEARCH_SCREEN
" search-screen"
#endif
#ifdef ENABLE_SONG_SCREEN
" song-screen"
#endif
#ifdef ENABLE_KEYDEF_SCREEN
" key-screen"
#endif
#ifdef ENABLE_LYRICS_SCREEN
" lyrics-screen"
#endif
#ifdef ENABLE_OUTPUTS_SCREEN
" outputs-screen"
#endif
"\n");
#ifndef NCMPC_MINI
{
char *user_conf = build_user_conf_filename();
char *system_conf = build_system_conf_filename();
printf("configuration files:\n %s\n %s\n\n",
user_conf, system_conf);
g_free(user_conf);
g_free(system_conf);
}
if (strcmp("translator-credits", _("translator-credits")) != 0)
/* To translators: these credits are shown
when ncmpc is started with "--version" */
printf("\n%s\n", _("translator-credits"));
#endif
exit(EXIT_SUCCESS);
case 'c': /* --colors */
#ifdef ENABLE_COLORS
options.enable_colors = true;
#endif
break;
case 'C': /* --no-colors */
#ifdef ENABLE_COLORS
options.enable_colors = false;
#endif
break;
case 'm': /* --mouse */
#ifdef HAVE_GETMOUSE
options.enable_mouse = true;
#endif
break;
case 'M': /* --no-mouse */
#ifdef HAVE_GETMOUSE
options.enable_mouse = false;
#endif
break;
case 'e': /* --exit */
/* deprecated */
break;
case 'p': /* --port */
options.port = atoi(arg);
break;
case 'h': /* --host */
g_free(options.host);
options.host = g_strdup(arg);
break;
case 'P': /* --password */
g_free(options.password);
options.password = locale_to_utf8(arg);
break;
case 'f': /* --config */
g_free(options.config_file);
options.config_file = g_strdup(arg);
break;
case 'k': /* --key-file */
g_free(options.key_file);
options.key_file = g_strdup(arg);
break;
#if !defined(NDEBUG) && !defined(NCMPC_MINI)
case 'K': /* --dump-keys */
read_configuration();
write_key_bindings(stdout, KEYDEF_WRITE_ALL | KEYDEF_COMMENT_ALL);
exit(EXIT_SUCCESS);
break;
#endif
default:
fprintf(stderr,"Unknown Option %c = %s\n", c, arg);
break;
}
}
limits_wizardpage::limits_wizardpage( wxWizard *parent, const wxString& channel_section,
wxBitmap bitmap )
: wxWizardPageSimple( parent )
{
wxLogDebug( "Entering limits_wizardpage constructor" );
// To set a custom bitmap in a derived wxWizardPageSimple, you just have to
// set the wxWizardPageSimple m_bitmap member in the derived constructor.
// ( see wx examples ). .
m_bitmap = bitmap;
wxFlexGridSizer *root_flexgridsizer = new wxFlexGridSizer( 1, 0, 0 );
root_flexgridsizer->AddGrowableCol( 0 );
root_flexgridsizer->AddGrowableRow( 4 );
// Add a Insruction message and add to boxsizer
wxStaticText *maxdepth_instructions_statictext = new wxStaticText( this, -1,
_( "Enter the depth of pages that you want to retrieve (1=retrieve starting page only):" ) );
root_flexgridsizer->Add( maxdepth_instructions_statictext, 0, wxALIGN_CENTER_VERTICAL|wxTOP|wxBOTTOM, 5 );
// Add the maxdepth controls
wxStaticBox *maxdepth_staticbox = new wxStaticBox( this, -1, _( "Maximum depth" ) );
wxStaticBoxSizer *maxdepth_staticboxsizer = new wxStaticBoxSizer( maxdepth_staticbox, wxHORIZONTAL );
wxStaticText *maxdepth1_statictext = new wxStaticText( this, -1,
_( "Retreive linked pages to a depth of" ) );
maxdepth_staticboxsizer->Add( maxdepth1_statictext, 0, wxALIGN_CENTRE|wxALL, 5 );
m_maxdepth_spinctrl = new wxSpinCtrl( this, -1, "2", wxDefaultPosition, wxSize(70,-1), 0, 1, 100000, 2 );
maxdepth_staticboxsizer->Add( m_maxdepth_spinctrl, 0, wxALIGN_CENTRE|wxALL, 5 );
wxStaticText *maxdepth2_statictext = new wxStaticText( this, -1,
_( "from the starting page" ) );
maxdepth_staticboxsizer->Add( maxdepth2_statictext, 0, wxALIGN_CENTRE|wxALL, 5 );
root_flexgridsizer->Add( maxdepth_staticboxsizer, 0, wxGROW|wxALIGN_CENTER_VERTICAL|wxALL, 0 );
// Add a spacer
root_flexgridsizer->Add( 20, 10, 0, wxALIGN_CENTRE|wxLEFT|wxRIGHT, 0 );
// Add the stayonhost/stayondomain controls
wxStaticText *stayonhost_stayondomain_instructions = new wxStaticText( this, -1,
_( "Enter whether you want to exclude linked pages that are not on the server:" ) );
root_flexgridsizer->Add( stayonhost_stayondomain_instructions, 0,
wxALIGN_CENTER_VERTICAL|wxTOP|wxBOTTOM, 5 );
wxStaticBox *stayonhost_stayondomain_staticbox = new wxStaticBox( this, -1,
_( "'Stay on host' / 'Stay on domain' filters" ) );
wxStaticBoxSizer *stayonhost_stayondomain_staticboxsizer = new wxStaticBoxSizer( stayonhost_stayondomain_staticbox, wxVERTICAL );
m_stayonhost_stayondomain_checkbox = new wxCheckBox( this, ID_LIMITS_WIZARDPAGE_STAYONHOST_STAYONDOMAIN_CHECKBOX,
_( "Ignore links to a server that is different from starting page's server" ) );
stayonhost_stayondomain_staticboxsizer->Add( m_stayonhost_stayondomain_checkbox, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
wxBoxSizer *stayonhost_boxsizer = new wxBoxSizer( wxHORIZONTAL );
stayonhost_boxsizer->Add( 10, 10, 0, wxALIGN_CENTRE|wxALL, 5 );
m_stayonhost_radiobutton = new wxRadioButton( this, -1,
_( "Limit to the exact server only" ),
wxDefaultPosition, wxDefaultSize, wxRB_GROUP );
stayonhost_boxsizer->Add( m_stayonhost_radiobutton, 0, wxALIGN_CENTRE|wxLEFT|wxRIGHT|wxBOTTOM, 5 );
stayonhost_stayondomain_staticboxsizer->Add( stayonhost_boxsizer, 0, wxGROW|wxALIGN_CENTER_VERTICAL, 5 );
wxBoxSizer *stayondomain_boxsizer = new wxBoxSizer( wxHORIZONTAL );
stayondomain_boxsizer->Add( 10, 10, 0, wxALIGN_CENTRE|wxALL, 5 );
m_stayondomain_radiobutton = new wxRadioButton( this, -1,
_( "Only restrict to domain (eg allow www.plkr.org and www2.plkr.org)" ) );
stayondomain_boxsizer->Add( m_stayondomain_radiobutton, 0, wxALIGN_CENTRE|wxLEFT|wxRIGHT, 5 );
stayonhost_stayondomain_staticboxsizer->Add( stayondomain_boxsizer, 0, wxGROW|wxALIGN_CENTER_VERTICAL, 5 );
// Add the stayonhost/stayondomain controls to root boxizer
root_flexgridsizer->Add( stayonhost_stayondomain_staticboxsizer, 0, wxGROW|wxALIGN_CENTER_VERTICAL|wxALL, 0 );
// Set the default values
read_configuration( channel_section );
// Now that everything is added into the boxsizer, send some commands to
// tell it calculate all the control sizes nicely to fill up the available space.
SetAutoLayout( TRUE );
SetSizer( root_flexgridsizer );
root_flexgridsizer->Fit( this );
root_flexgridsizer->SetSizeHints( this );
}
int main( int argc, char *argv[] ) {
char sectype_code = '_';
MarFS_SecType marfs_sectype;
char compType_code = '_';
MarFS_CompType marfs_comptype;
char comptype_code = '_';
MarFS_CorrectType marfs_correcttype;
char code;
int ret_val;
MarFS_Namespace_Ptr namespacePtr;
MarFS_Repo_Ptr repoPtr;
INIT_LOG();
fprintf( stdout, "\n" );
if (read_configuration()) {
fprintf( stderr, "ERROR: Reading MarFS configuration failed.\n" );
return 1;
}
fprintf( stdout, "CORRECT: The members of the MarFS config structure are:\n" );
fprintf( stdout, "\tconfig name : %s\n", marfs_config->name );
fprintf( stdout, "\tconfig version : %d.%d\n", marfs_config->version_major, marfs_config->version_minor );
fprintf( stdout, "\tconfig mnt-top : %s\n", marfs_config->mnt_top );
// fprintf( stdout, "\tconfig namespace count : %lu\n", marfs_config->namespace_count );
fprintf( stdout, "\n" );
ret_val = free_configuration();
if ( ! ret_val ) {
fprintf( stdout, "CORRECT: free_configuration returned %d\n", ret_val );
if ( marfs_config == NULL ) {
fprintf( stdout, "CORRECT: We freed the MarFS configuration and it is now NULL.\n" );
} else {
fprintf( stderr, "ERROR: free_configuration did not set the MarFS configuration to NULL.\n" );
}
} else {
fprintf( stderr, "ERROR: free_configuration returned %d\n", ret_val );
}
fprintf( stdout, "\n" );
fprintf( stdout, "Re-reading the configuration to continue testing...\n" );
read_configuration();
if ( marfs_config == NULL ) {
fprintf( stderr, "ERROR: Reading MarFS configuration failed.\n" );
return 1;
}
fprintf( stdout, "\n" );
if ( lookup_sectype( "none", &marfs_sectype )) {
fprintf( stderr, "ERROR: Invalid sectype value of \"%s\".\n", "none" );
} else {
fprintf( stdout, "CORRECT: SecType value of \"%s\" translates to %d.\n", "none", marfs_sectype );
}
if ( encode_sectype( SECTYPE_NONE, &code )) {
fprintf( stderr, "ERROR: Invalid enumeration value of %d.\n", SECTYPE_NONE );
} else {
fprintf( stdout, "CORRECT: Encode value of %d is \"%c\".\n", SECTYPE_NONE, code );
}
if ( decode_sectype( '_', &marfs_sectype )) {
fprintf( stderr, "ERROR: Invalid code of \"%c\".\n", '_' );
} else {
fprintf( stdout, "CORRECT: Decode code of \"%c\" is %d.\n", '_',marfs_sectype );
}
fprintf( stdout, "\n" );
if ( lookup_comptype( "none", &marfs_comptype )) {
fprintf( stderr, "ERROR: Invalid comptype value of \"%s\".\n", "none" );
} else {
fprintf( stdout, "CORRECT: CompType value of \"%s\" translates to %d.\n", "none", marfs_comptype );
}
if ( encode_comptype( COMPTYPE_NONE, &code )) {
fprintf( stderr, "ERROR: Invalid enumeration value of %d.\n", COMPTYPE_NONE );
} else {
fprintf( stdout, "CORRECT: Encode value of %d is \"%c\".\n", COMPTYPE_NONE, code );
}
if ( decode_comptype( '_', &marfs_comptype )) {
fprintf( stderr, "ERROR: Invalid code of \"%c\".\n", '_' );
} else {
fprintf( stdout, "CORRECT: Decode code of \"%c\" is %d.\n", '_',marfs_comptype );
}
fprintf( stdout, "\n" );
if ( lookup_correcttype( "none", &marfs_correcttype )) {
fprintf( stderr, "ERROR: Invalid correcttype value of \"%s\".\n", "none" );
} else {
fprintf( stdout, "CORRECT: CorrectType value of \"%s\" translates to %d.\n", "none", marfs_correcttype );
}
if ( encode_correcttype( CORRECTTYPE_NONE, &code )) {
fprintf( stderr, "ERROR: Invalid enumeration value of %d.\n", CORRECTTYPE_NONE );
} else {
fprintf( stdout, "CORRECT: Encode value of %d is \"%c\".\n", CORRECTTYPE_NONE, code );
}
if ( decode_correcttype( '_', &marfs_correcttype )) {
fprintf( stderr, "ERROR: Invalid code of \"%c\".\n", '_' );
} else {
fprintf( stdout, "CORRECT: Decode code of \"%c\" is %d.\n", '_',marfs_correcttype );
}
fprintf( stdout, "\n" );
namespacePtr = find_namespace_by_name( "BoGuS" );
if ( namespacePtr == NULL ) {
fprintf( stdout, "CORRECT: Namespace \"BoGuS\" does not exist.\n" );
} else {
fprintf( stderr, "ERROR: Namespace \"BoGuS\" does not exist and was found.\n" );
}
fprintf( stdout, "\n" );
namespacePtr = find_namespace_by_name( "s3" );
if ( namespacePtr != NULL ) {
fprintf( stdout, "CORRECT: Namespace \"s3\" does exist and has mnt_path \"%s\".\n", namespacePtr->mnt_path );
} else {
fprintf( stderr, "ERROR: Namespace \"s3\" does exist and was not found.\n" );
}
fprintf( stdout, "\n" );
namespacePtr = find_namespace_by_mnt_path( "/BoGuS" );
if ( namespacePtr == NULL ) {
fprintf( stdout, "CORRECT: Mntpath \"/BoGuS\" does not exist.\n" );
} else {
fprintf( stderr, "ERROR: Mntpath \"/BoGuS\" does not exist and was found.\n" );
}
fprintf( stdout, "\n" );
namespacePtr = find_namespace_by_mnt_path( "/s3" );
if ( namespacePtr != NULL ) {
fprintf( stdout, "CORRECT: Mntpath \"/s3\" does exist and has name \"%s\".\n", namespacePtr->name );
} else {
fprintf( stderr, "ERROR: Mntpath \"/s3\" does exist and was not found.\n" );
}
repoPtr = find_repo_by_range( namespacePtr, 38 );
if ( repoPtr != NULL ) {
fprintf( stdout, "CORRECT: Namespace \"%s\" has a repo \"%s\" for files of size 38.\n",
namespacePtr->name,
repoPtr->name );
} else {
fprintf( stderr, "ERROR: Namespace \"%s\" should have a repo for files of size 38.\n",
namespacePtr->name );
}
fprintf( stdout, "\n" );
namespacePtr = find_namespace_by_mnt_path( "/" );
if ( namespacePtr != NULL ) {
fprintf( stdout, "CORRECT: Mntpath \"/\" does exist and has name \"%s\".\n", namespacePtr->name );
} else {
fprintf( stderr, "ERROR: Mntpath \"/\" does exist and was not found.\n" );
}
fprintf( stdout, "\n" );
/*
* Since the file_size argument is size_t, that is unsigned and negative numbers
* are not allowed.
*
fprintf( stdout, "\n" );
repoPtr = find_repo_by_range( namespacePtr, -2 );
if ( repoPtr == NULL ) {
fprintf( stdout, "CORRECT: Namespace \"%s\" should not have a repo for files of size -2.\n",
namespacePtr->name );
} else {
fprintf( stderr, "ERROR: Namespace \"%s\" incorrectly has a repo \"%s\" for files of size -2.\n",
namespacePtr->name,
repoPtr->repo_name );
}
*/
fprintf( stdout, "\n" );
repoPtr = find_repo_by_range( NULL, 38 );
if ( repoPtr == NULL ) {
fprintf( stdout, "CORRECT: A NULL namespace should not have a repo for files of size 38.\n" );
} else {
fprintf( stderr, "ERROR: A NULL namespace incorrectly has a repo \"%s\" for files of size 38.\n",
repoPtr->name );
}
fprintf( stdout, "\n" );
repoPtr = find_repo_by_name( "BoGuS" );
if ( repoPtr == NULL ) {
fprintf( stdout, "CORRECT: Repo name \"BoGuS\" does not exist.\n" );
} else {
fprintf( stderr, "ERROR: Repo name \"BoGuS\" does not exist and was found.\n" );
}
fprintf( stdout, "\n" );
repoPtr = find_repo_by_name( "emcS3_00" );
if ( repoPtr != NULL ) {
fprintf( stdout, "CORRECT: Repo name \"emcS3_00\" does exist and has host \"%s\".\n", repoPtr->host );
} else {
fprintf( stderr, "ERROR: Repo name \"emcS3_00\" does exist and was not found.\n" );
}
fprintf( stdout, "\n" );
// --- show contents of all repos
RepoIterator rit = repo_iterator();
while (( repoPtr = repo_next( &rit )) != NULL ) {
debug_repo(repoPtr);
fprintf(stdout, "\n");
}
fprintf(stdout, "\n");
// --- show contents of all namespaces
NSIterator nit = namespace_iterator();
while (( namespacePtr = namespace_next( &nit )) != NULL ) {
debug_namespace(namespacePtr);
fprintf(stdout, "\n");
}
fprintf( stdout, "\n" );
return 0;
}
void WindowManager::init_internals(int argc, char* argv[])
{
DBG("starting window manager");
fl_open_display();
XSetErrorHandler(xerror_handler);
XShapeQueryExtension(fl_display, &XShapeEventBase, &XShapeErrorBase);
wm_area.set(0, 0/*22*/, Fl::w(), Fl::h()/*-22*/);
// TODO: make this part of class
program_name = fl_file_filename(argv[0]);
int i;
if(Fl::args(argc, argv, i, arg) < argc)
Fl::error("options are:\n"
" -d[isplay] host:#.#\tX display & screen to use\n"
" -v[isual] #\t\tvisual to use\n"
" -g[eometry] WxH+X+Y\tlimits windows to this area\n"
" -x\t\t\tmenu says Exit instead of logout\n"
" -bg color\t\tFrame color\n"
" -fg color\t\tLabel color\n"
" -bg2 color\t\tText field color\n"
" -cfg color\t\tCursor color\n"
" -cbg color\t\tCursor outline color" );
// Init started
is_init = false;
Fl::add_handler(wm_event_handler);
// intern atoms
init_atoms();
read_configuration();
read_xset_configuration();
// Set XID now
show();
set_default_cursor();
ICCCM::set_iconsizes(this);
MWM::set_motif_info(this);
register_protocols(fl_xid(this));
Grab_Hotkeys(this);
XSync(fl_display, 0);
init_desktops(this);
//Init done
is_init = true;
// find all the windows and create a Frame for each:
Frame *f=0;
unsigned int n;
Window w1, w2, *wins;
XWindowAttributes attr;
XQueryTree(fl_display, fl_xid(this), &w1, &w2, &wins, &n);
for (i = 0; i < (int)n; ++i)
{
XGetWindowAttributes(fl_display, wins[i], &attr);
if(attr.override_redirect) continue;
if(!attr.map_state)
{
if(getIntProperty(wins[i], _XA_WM_STATE, _XA_WM_STATE, 0) != IconicState)
continue;
}
f = new Frame(wins[i], &attr);
}
XFree((void *)wins);
// Activate last one
for(uint n=0; n<map_order.size(); n++)
{
Frame *f = map_order[n];
if(f->desktop()==Desktop::current())
{
f->activate();
f->raise();
break;
}
}
update_workarea(true);
is_running = true;
}
/*
* main application method
*/
int main( int argc, char** argv )
{
// catch process signals
ibrcommon::SignalHandler sighandler(sighandler_func);
sighandler.handle(SIGINT);
sighandler.handle(SIGTERM);
#ifndef __WIN32__
sighandler.handle(SIGUSR1);
#endif
// configration object
config_t conf;
// read the configuration
read_configuration(argc, argv, conf);
init_logger(conf);
// initialize sighandler after possible exit call
sighandler.initialize();
// init working directory
if (conf.workdir.length() > 0)
{
ibrcommon::File blob_path(conf.workdir);
if (blob_path.exists())
{
ibrcommon::BLOB::changeProvider(new ibrcommon::FileBLOBProvider(blob_path), true);
}
}
// backoff for reconnect
unsigned int backoff = 2;
ibrcommon::File outbox_file(conf.outbox);
// create new file lists
fileset new_files, prev_files, deleted_files, files_to_send;
filelist observed_files;
hashlist sent_hashes;
// observed root file
io::ObservedFile root(ibrcommon::File("/"));
#ifdef HAVE_LIBTFFS
io::FatImageReader *imagereader = NULL;
#endif
if (outbox_file.exists() && !outbox_file.isDirectory())
{
#ifdef HAVE_LIBTFFS
conf.fat = true;
imagereader = new io::FatImageReader(conf.outbox);
const io::FATFile fat_root(*imagereader, conf.path);
root = io::ObservedFile(fat_root);
#else
IBRCOMMON_LOGGER_TAG(TAG,error) << "ERROR: image-file provided, but this tool has been compiled without libtffs support!" << IBRCOMMON_LOGGER_ENDL;
return -1;
#endif
}
else
{
if (!outbox_file.exists()) {
ibrcommon::File::createDirectory(outbox_file);
}
root = io::ObservedFile(outbox_file);
}
IBRCOMMON_LOGGER_TAG(TAG,info) << "-- dtnoutbox --" << IBRCOMMON_LOGGER_ENDL;
// loop, if no stop if requested
while (_running)
{
try
{
// Create a stream to the server using TCP.
ibrcommon::vaddress addr("localhost", 4550);
ibrcommon::socketstream conn(new ibrcommon::tcpsocket(addr));
// Initiate a client for synchronous receiving
dtn::api::Client client(conf.name, conn, dtn::api::Client::MODE_SENDONLY);
// Connect to the server. Actually, this function initiate the
// stream protocol by starting the thread and sending the contact header.
client.connect();
// reset backoff if connected
backoff = 2;
// check the connection
while (_running)
{
// get all files
fileset current_files;
root.findFiles(current_files);
// determine deleted files
fileset deleted_files;
std::set_difference(prev_files.begin(), prev_files.end(), current_files.begin(), current_files.end(), std::inserter(deleted_files, deleted_files.begin()));
// remove deleted files from observation
for (fileset::const_iterator iter = deleted_files.begin(); iter != deleted_files.end(); ++iter)
{
const io::ObservedFile &deletedFile = (*iter);
// remove references in the sent_hashes
for (hashlist::iterator hash_it = sent_hashes.begin(); hash_it != sent_hashes.end(); /* blank */) {
if ((*hash_it).getPath() == deletedFile.getFile().getPath()) {
sent_hashes.erase(hash_it++);
} else {
++hash_it;
}
}
// remove from observed files
observed_files.remove(deletedFile);
// output
IBRCOMMON_LOGGER_TAG(TAG,info) << "file removed: " << deletedFile.getFile().getBasename() << IBRCOMMON_LOGGER_ENDL;
}
// determine new files
fileset new_files;
std::set_difference(current_files.begin(), current_files.end(), prev_files.begin(), prev_files.end(), std::inserter(new_files, new_files.begin()));
// add new files to observation
for (fileset::const_iterator iter = new_files.begin(); iter != new_files.end(); ++iter)
{
const io::ObservedFile &of = (*iter);
int reg_ret = regexec(&conf.regex, of.getFile().getBasename().c_str(), 0, NULL, 0);
if (!reg_ret && !conf.invert)
continue;
if (reg_ret && conf.invert)
continue;
// print error message, if regex error occurs
if (reg_ret && reg_ret != REG_NOMATCH)
{
char msgbuf[100];
regerror(reg_ret,&conf.regex,msgbuf,sizeof(msgbuf));
IBRCOMMON_LOGGER_TAG(TAG,info) << "ERROR: regex match failed : " << std::string(msgbuf) << IBRCOMMON_LOGGER_ENDL;
}
// add new file to the observed set
observed_files.push_back(of);
// log output
IBRCOMMON_LOGGER_TAG(TAG, info) << "file found: " << of.getFile().getBasename() << IBRCOMMON_LOGGER_ENDL;
}
// store current files for the next round
prev_files.clear();
prev_files.insert(current_files.begin(), current_files.end());
IBRCOMMON_LOGGER_TAG(TAG, notice)
<< "file statistics: "
<< observed_files.size() << " observed, "
<< deleted_files.size() << " deleted, "
<< new_files.size() << " new"
<< IBRCOMMON_LOGGER_ENDL;
// find files to send, create std::list
files_to_send.clear();
IBRCOMMON_LOGGER_TAG(TAG, notice) << "updating observed files:" << IBRCOMMON_LOGGER_ENDL;
for (filelist::iterator iter = observed_files.begin(); iter != observed_files.end(); ++iter)
{
io::ObservedFile &of = (*iter);
// tick and update all files
of.update();
if (of.getStableCounter() > conf.rounds)
{
if (sent_hashes.find(of.getHash()) == sent_hashes.end())
{
sent_hashes.insert(of.getHash());
files_to_send.insert(*iter);
}
}
IBRCOMMON_LOGGER_TAG(TAG, notice)
<< "\t"
<< of.getFile().getBasename() << ": "
<< of.getStableCounter()
<< IBRCOMMON_LOGGER_ENDL;
}
if (!files_to_send.empty())
{
std::stringstream ss;
for (fileset::const_iterator it = files_to_send.begin(); it != files_to_send.end(); ++it) {
ss << (*it).getFile().getBasename() << " ";
}
IBRCOMMON_LOGGER_TAG("dtnoutbox",info) << "files sent: " << ss.str() << IBRCOMMON_LOGGER_ENDL;
try {
// create a blob
ibrcommon::BLOB::Reference blob = ibrcommon::BLOB::create();
// write files into BLOB while it is locked
{
ibrcommon::BLOB::iostream stream = blob.iostream();
io::TarUtils::write(*stream, root, files_to_send);
}
// create a new bundle
dtn::data::EID destination = EID(conf.destination);
// create a new bundle
dtn::data::Bundle b;
// set destination
b.destination = destination;
// add payload block using the blob
b.push_back(blob);
// set destination address to non-singleton, if configured
if (conf.bundle_group)
b.set(dtn::data::PrimaryBlock::DESTINATION_IS_SINGLETON, false);
// send the bundle
client << b;
client.flush();
} catch (const ibrcommon::IOException &e) {
IBRCOMMON_LOGGER_TAG(TAG,error) << "send failed: " << e.what() << IBRCOMMON_LOGGER_ENDL;
}
}
// wait defined seconds
ibrcommon::MutexLock l(_wait_cond);
IBRCOMMON_LOGGER_TAG(TAG, notice) << conf.interval <<" ms wait" << IBRCOMMON_LOGGER_ENDL;
while (!_wait_abort && _running) {
_wait_cond.wait(conf.interval);
}
_wait_abort = false;
}
// clean up regex
regfree(&conf.regex);
// close the client connection
client.close();
// close the connection
conn.close();
}
catch (const ibrcommon::socket_exception&)
{
if (_running)
{
IBRCOMMON_LOGGER_TAG(TAG,error) << "Connection to bundle daemon failed. Retry in " << backoff << " seconds." << IBRCOMMON_LOGGER_ENDL;
ibrcommon::Thread::sleep(backoff * 1000);
// if backoff < 10 minutes
if (backoff < 600)
{
// set a new backoff
backoff = backoff * 2;
}
}
}
catch (const ibrcommon::IOException&)
{
if (_running)
{
IBRCOMMON_LOGGER_TAG(TAG,error) << "Connection to bundle daemon failed. Retry in " << backoff << " seconds." << IBRCOMMON_LOGGER_ENDL;
ibrcommon::Thread::sleep(backoff * 1000);
// if backoff < 10 minutes
if (backoff < 600)
{
// set a new backoff
backoff = backoff * 2;
}
}
}
catch (const std::exception&) { };
}
// clear observed files
observed_files.clear();
#ifdef HAVE_LIBTFFS
// clean-up
if (imagereader != NULL) delete imagereader;
#endif
return (EXIT_SUCCESS);
}
static void mail_tick(char *sysname)
{
DIR *dirp;
FILE *fp;
char line[1024];
char spooldir[80];
char tmp1[1024];
char tmp2[1024];
char tmp3[1024];
int clients;
int cnt;
struct dirent *dp;
struct mailjob mj, *jp, *tail;
struct mailsys *sp;
struct stat statbuf;
struct filelist {
struct filelist *next;
char name[16];
} *filelist, *p, *q;
if (!*UUCP_DIR) return;
start_timer(&Mail_timer);
read_configuration();
for (clients = 0, sp = Systems; sp; sp = sp->next)
if (sp->state >= MS_TRYING) clients++;
for (sp = Systems; sp && clients < Maxclients; sp = sp->next) {
if (sysname && !strcmp(sp->sysname, sysname)) sp->nexttime = 0;
if (sp->state >= MS_TRYING || sp->nexttime > secclock()) continue;
sprintf(spooldir, "%s/%s", UUCP_DIR, sp->sysname);
if (!(dirp = opendir(spooldir))) continue;
filelist = 0;
cnt = 0;
for (dp = readdir(dirp); dp; dp = readdir(dirp)) {
if (*dp->d_name != 'C') continue;
p = (struct filelist *) malloc(sizeof(struct filelist));
strcpy(p->name, dp->d_name);
if (!filelist || strcmp(p->name, filelist->name) < 0) {
p->next = filelist;
filelist = p;
} else {
for (q = filelist; q->next && strcmp(p->name, q->next->name) > 0; q = q->next) ;
p->next = q->next;
q->next = p;
}
if (++cnt > MAXJOBS) {
for (q = 0, p = filelist; p->next; q = p, p = p->next) ;
q->next = 0;
free(p);
cnt--;
}
}
closedir(dirp);
tail = 0;
for (; (p = filelist); filelist = p->next, free(p)) {
memset(&mj, 0, sizeof(mj));
sprintf(mj.cfile, "%s/%s", spooldir, p->name);
if (!(fp = fopen(mj.cfile, "r"))) continue;
while (fgets(line, sizeof(line), fp)) {
if (*line == 'E' && sscanf(line, "%*s %*s %*s %*s %*s %s %*s %*s %*s %s %s", tmp1, tmp2, tmp3) == 3 && *tmp1 == 'D' && !strcmp(tmp2, "rmail")) {
sprintf(mj.dfile, "%s/%s", spooldir, tmp1);
sprintf(mj.to, "%s!%s", sp->sysname, tmp3);
strtrim(mj.to);
}
if (*line == 'S' && sscanf(line, "%*s %*s %s %*s %*s %s", tmp1, tmp2) == 2 && *tmp1 == 'D')
sprintf(mj.dfile, "%s/%s", spooldir, tmp2);
if (*line == 'S' && sscanf(line, "%*s %*s %s %*s %*s %s", tmp1, tmp2) == 2 && *tmp1 == 'X')
sprintf(mj.xfile, "%s/%s", spooldir, tmp2);
}
fclose(fp);
if (!*mj.dfile) continue;
if (*mj.xfile) {
if (!(fp = fopen(mj.xfile, "r"))) continue;
while (fgets(line, sizeof(line), fp))
if (!strncmp(line, "C rmail ", 8)) {
sprintf(mj.to, "%s!%s", sp->sysname, line + 8);
strtrim(mj.to);
break;
}
fclose(fp);
}
if (!*mj.to) continue;
if (!(fp = fopen(mj.dfile, "r"))) continue;
if (fscanf(fp, "%*s %s", tmp1) == 1) {
if (!strcmp(tmp1, "MAILER-DAEMON") || !strcmp(tmp1, "!"))
strcpy(tmp1, Hostname);
sprintf(mj.from, "%s!%s", Hostname, tmp1);
strtrim(mj.from);
while (fgets(line, sizeof(line), fp))
if (!strncmp(line, "Subject: ", 9)) {
strcpy(mj.subject, line + 9);
strtrim(mj.subject);
break;
}
}
fclose(fp);
if (!*mj.from) continue;
if (stat(mj.cfile, &statbuf)) continue;
if (statbuf.st_mtime + RETURNTIME < secclock()) {
sprintf(mj.return_reason, "520 %s... Cannot connect for %ld days\n", sp->sysname, RETURNTIME / (60L*60*24));
mail_return(&mj);
} else {
jp = (struct mailjob *) malloc(sizeof(struct mailjob));
*jp = mj;
if (!sp->jobs)
sp->jobs = jp;
else
tail->next = jp;
tail = jp;
}
}
if (sp->jobs) {
sp->state = MS_TRYING;
clients++;
(*sp->mailer->func)(sp);
}
}
}
int dosmtp(int argc, char *argv[], void *p)
{
read_configuration();
return subcmd(Mail_cmds, argc, argv, p);
}
int main(void) {
/* Early system initialisation */
early_board_init();
system_init_early();
leds_init();
set_busy_led(1);
set_dirty_led(0);
/* Due to an erratum in the LPC17xx chips anything that may change */
/* peripheral clock scalers must come before system_init_late() */
uart_init();
#ifndef SPI_LATE_INIT
spi_init(SPI_SPEED_SLOW);
#endif
timer_init();
i2c_init();
/* Second part of system initialisation, switches to full speed on ARM */
system_init_late();
enable_interrupts();
/* Prompt software name and version string */
uart_puts_P(PSTR("\r\nNODISKEMU " VERSION "\r\n"));
/* Internal-only initialisation, called here because it's faster */
buffers_init();
buttons_init();
/* Anything that does something which needs the system clock */
/* should be placed after system_init_late() */
rtc_init(); // accesses I2C
disk_init(); // accesses card
read_configuration(); // restores configuration, may change device address
filesystem_init(0);
// FIXME: change_init();
#ifdef CONFIG_REMOTE_DISPLAY
/* at this point all buffers should be free, */
/* so just use the data area of the first to build the string */
uint8_t *strbuf = buffers[0].data;
ustrcpy_P(strbuf, versionstr);
ustrcpy_P(strbuf+ustrlen(strbuf), longverstr);
if (display_init(ustrlen(strbuf), strbuf)) {
display_address(device_address);
display_current_part(0);
}
#endif
set_busy_led(0);
#if defined(HAVE_SD)
/* card switch diagnostic aid - hold down PREV button to use */
if (menu_system_enabled && get_key_press(KEY_PREV))
board_diagnose();
#endif
if (menu_system_enabled)
lcd_splashscreen();
bus_interface_init();
bus_init();
read_configuration();
late_board_init();
for (;;) {
if (menu_system_enabled)
lcd_refresh();
else {
lcd_clear();
lcd_printf("#%d", device_address);
}
/* Unit number may depend on hardware and stored settings */
/* so present it here at last */
printf("#%02d\r\n", device_address);
bus_mainloop();
bus_interface_init();
bus_init(); // needs delay, inits device address with HW settings
}
}
int main(void) {
/* Early system initialisation */
board_init();
system_init_early();
leds_init();
set_busy_led(1);
set_dirty_led(0);
/* Due to an erratum in the LPC17xx chips anything that may change */
/* peripheral clock scalers must come before system_init_late() */
uart_init();
#ifndef SPI_LATE_INIT
spi_init(SPI_SPEED_SLOW);
#endif
timer_init();
bus_interface_init();
i2c_init();
/* Second part of system initialisation, switches to full speed on ARM */
system_init_late();
enable_interrupts();
/* Internal-only initialisation, called here because it's faster */
buffers_init();
buttons_init();
/* Anything that does something which needs the system clock */
/* should be placed after system_init_late() */
bus_init(); // needs delay
rtc_init(); // accesses I2C
disk_init(); // accesses card
read_configuration();
fatops_init(0);
change_init();
uart_puts_P(PSTR("\r\nsd2iec " VERSION " #"));
uart_puthex(device_address);
uart_putcrlf();
#ifdef CONFIG_REMOTE_DISPLAY
/* at this point all buffers should be free, */
/* so just use the data area of the first to build the string */
uint8_t *strbuf = buffers[0].data;
ustrcpy_P(strbuf, versionstr);
ustrcpy_P(strbuf+ustrlen(strbuf), longverstr);
if (display_init(ustrlen(strbuf), strbuf)) {
display_address(device_address);
display_current_part(0);
}
#endif
set_busy_led(0);
#if defined(HAVE_SD) && BUTTON_PREV != 0
/* card switch diagnostic aid - hold down PREV button to use */
if (!(buttons_read() & BUTTON_PREV)) {
while (buttons_read() & BUTTON_NEXT) {
set_dirty_led(sdcard_detect());
# ifndef SINGLE_LED
set_busy_led(sdcard_wp());
# endif
}
reset_key(0xff);
}
#endif
bus_mainloop();
while (1);
}
int main(int argc, char **argv)
{
int rc = 1;
int opt, longind;
char *config_file = "/etc/freight-agent/config";
char *mode = NULL;
char *rpm = NULL;
struct db_api *api;
char *list = "all";
char *name = NULL;
int verbose = 0;
/*
* Parse command line options
*/
#ifdef HAVE_GETOPT_LONG
while ((opt = getopt_long(argc, argv, "hc:m:r:l:vn:", lopts, &longind)) != -1) {
#else
while ((opt = getopt(argc, argv, "hc:m:r:l:vn:") != -1) {
#endif
switch(opt) {
case '?':
/* FALLTHROUGH */
case 'h':
usage(argv);
goto out;
/* NOTREACHED */
break;
case 'c':
config_file = optarg;
break;
case 'm':
mode = optarg;
break;
case 'n':
name = optarg;
break;
case 'r':
rpm = optarg;
break;
case 'l':
list = optarg;
break;
case 'v':
verbose = 1;
break;
}
}
if (strcmp(list, "all") &&
strcmp(list, "local") &&
strcmp(list, "running")) {
LOG(ERROR, "list option must be all,running or local\n");
goto out;
}
/*
* Read in the configuration file
*/
rc = read_configuration(config_file, &config);
if (rc)
goto out_release;
config.cmdline.verbose = verbose;
/*
* Sanity checks
*/
if (!mode) {
LOG(ERROR, "You must specify a mode\n");
goto out_release;
}
if (streq(mode, "node"))
config.cmdline.mode = OP_MODE_NODE;
else if (streq(mode, "init"))
config.cmdline.mode = OP_MODE_INIT;
else if (streq(mode, "clean"))
config.cmdline.mode = OP_MODE_CLEAN;
else if (streq(mode, "install"))
config.cmdline.mode = OP_MODE_INSTALL;
else if (streq(mode, "uninstall"))
config.cmdline.mode = OP_MODE_UNINSTALL;
else if (streq(mode, "list"))
config.cmdline.mode = OP_MODE_LIST;
else if (streq(mode, "exec"))
config.cmdline.mode = OP_MODE_EXEC;
else {
LOG(ERROR, "Invalid mode spcified\n");
goto out_release;
}
if (!config.node.container_root) {
LOG(ERROR, "Mode requires a container_root specification\n");
goto out_release;
}
api = get_db_api(&config);
if (!api) {
LOG(ERROR, "No DB configuration selected\n");
goto out_release;
}
if (db_init(api, &config)) {
LOG(ERROR, "Unable to initalize DB subsystem\n");
goto out_release;
}
if (db_connect(api, &config))
goto out_cleanup_db;
/*
* Enter the appropriate function loop based on mode
* Note, for all modes other than node mode (in which we
* monitor the database for mutiple tennant requests, all the modes
* here are for the local user only, meaning everything goes to the
* 'local' tennant
*/
switch (config.cmdline.mode) {
case OP_MODE_INIT:
rc = init_container_root(api, &config);
if (rc) {
LOG(ERROR, "Init of container root failed: %s\n",
strerror(rc));
goto out_disconnect;
}
break;
case OP_MODE_CLEAN:
LOG(INFO, "Removing container root %s\n",
config.node.container_root);
clean_container_root(api, &config);
break;
case OP_MODE_INSTALL:
if (!rpm) {
LOG(ERROR, "Must specify a container name or rpm with "
"-r option in install mode\n");
goto out_disconnect;
}
rc = local_install_container(rpm, &config);
if (rc) {
LOG(ERROR, "Failed to install container: %s\n",
strerror(rc));
goto out_disconnect;
}
break;
case OP_MODE_UNINSTALL:
if (!rpm) {
LOG(ERROR, "Must specify the container name with -r\n");
goto out_disconnect;
}
rc = local_uninstall_container(rpm, &config);
if (rc) {
LOG(ERROR, "Uninstall of container %s failed: %s\n",
rpm, strerror(rc));
goto out_disconnect;
}
break;
case OP_MODE_LIST:
local_list_containers(list, &config);
break;
case OP_MODE_EXEC:
if (!rpm) {
LOG(ERROR, "Must specify the container name with -r\n");
goto out_disconnect;
}
if (!name) {
LOG(ERROR, "Must specify a container instance name with -n\n");
goto out_disconnect;
}
rc = local_exec_container(rpm, name, &config);
if (rc) {
LOG(ERROR, "Exec of container %s failed: %s\n",
rpm, strerror(rc));
goto out_disconnect;
}
case OP_MODE_NODE:
rc = enter_mode_loop(api, &config);
if (rc) {
LOG(ERROR, "Mode operation terminated abnormally: %s\n",
strerror(rc));
goto out_disconnect;
}
break;
}
rc = 0;
out_disconnect:
db_disconnect(api, &config);
out_cleanup_db:
db_cleanup(api, &config);
out_release:
release_configuration(&config);
out:
return rc;
}
