void
darwin_init(pmdaInterface *dp)
{
if (_isDSO) {
int sep = __pmPathSeparator();
char helppath[MAXPATHLEN];
sprintf(helppath, "%s%c" "darwin" "%c" "help",
pmGetConfig("PCP_PMDAS_DIR"), sep, sep);
pmdaDSO(dp, PMDA_INTERFACE_3, "darwin DSO", helppath);
} else {
__pmSetProcessIdentity(username);
}
if (dp->status != 0)
return;
dp->version.two.instance = darwin_instance;
dp->version.two.fetch = darwin_fetch;
pmdaSetFetchCallBack(dp, darwin_fetchCallBack);
pmdaSetFlags(dp, PMDA_EXT_FLAG_DIRECT);
pmdaInit(dp, indomtab, sizeof(indomtab)/sizeof(indomtab[0]),
metrictab, sizeof(metrictab)/sizeof(metrictab[0]));
mach_host = mach_host_self();
host_page_size(mach_host, &mach_page_size);
mach_page_shift = ffs(mach_page_size) - 1;
if (refresh_hertz(&mach_hertz) != 0)
mach_hertz = 100;
init_network();
}
int init_netpaint(char* ip, char* port)
{
repaint_context_t *repaint_context = init_repaint_context();
int sfd;
if((sfd = init_network(ip, atoi(port))) < 0)
{
printf("ERROR! Could not initialize network!\n");
return -1;
}
if(ready_read(sfd, repaint_context) < 0)
{
printf("ERROR! Could not get the first canvas!\n");
return -1;
}
repaint_context->canvas = repaint_context->canvases[0];
repaint_context->sfd = sfd;
tool_contexts_t *tool_contexts = init_tool_contexts(repaint_context);
event_loop(sfd, repaint_context, tool_contexts);
XCloseDisplay(repaint_context->display);
(void) ip;
(void) port;
return 0;
}
static void init(void)
{
APP_LOG(APP_LOG_LEVEL_DEBUG, "init started");
window = window_create();
window_stack_push(window, true /* Animated */);
window_set_background_color(window, GColorBlack);
weather_data = malloc(sizeof(WeatherData));
init_network(weather_data);
// Setup our layers
time_layer_create(TIME_FRAME, window);
date_layer_create(DATE_FRAME, window);
weather_layer_create(WEATHER_FRAME, window);
debug_layer_create(DEBUG_FRAME, window);
battery_layer_create(BATTERY_FRAME, window);
load_persisted_values(weather_data);
// Kickoff our weather loading 'dot' animation
weather_animate(weather_data);
// Setup a timer incase we miss or don't receive js_ready to manually try ourselves
initial_jsready_timer = app_timer_register(MAX_JS_READY_WAIT, initial_jsready_callback, NULL);
// Update the screen right away
time_t now = time(NULL);
handle_tick(localtime(&now), MINUTE_UNIT | DAY_UNIT );
// And then every minute
tick_timer_service_subscribe(MINUTE_UNIT, handle_tick);
}
int
main(int argc, char **argv)
{
int loop_number = 0;
startup_win_network();
parse_parameters(argc, argv);
init_network();
signal(SIGINT, sig_handler);
if (!quiet)
{
fprintf(stderr, "listening on port %d for packets .... \n", port_num);
if (continuous)
fprintf(stderr, "looping tests.\n");
fprintf(stderr, "\n");
}
fprintf(stdout, "# run no., loss rate in %%, packets_sent, packets_received, payload_size\n");
do
{
loop_number++;
fprintf(stdout, "%2d. ", loop_number);
run_server();
}
while (continuous);
return 1;
}
BCubeTopology::BCubeTopology(Logfile* lg, EventList* ev,FirstFit * fit) {
logfile = lg;
eventlist = ev;
ff = fit;
init_network();
}
int main (int argc, char *argv[])
{
args_t args;
setbuf(stdout, NULL);
setbuf(stderr, NULL);
memset (&args, 0, sizeof(args));
// set default parameters
args.address = NULL;
args.ai_family = AF_INET;
args.port_nbr = DEFAULT_PORT;
printf ("\n[ server for PIC client v0.1\n");
parse_args(&args, argc, argv);
if (init_network(&args))
{
server(&args);
shutdown (args.s, SHUT_RDWR);
closesocket(args.s);
}
return 0;
}
void init (int argc,char *argv[])
{
struct lac *lac;
init_args (argc,argv);
rand_source = 0;
init_addr ();
if (init_config ())
{
log (LOG_CRIT, "%s: Unable to load config file\n", __FUNCTION__);
exit (1);
}
if (uname (&uts))
{
log (LOG_CRIT, "%s : Unable to determine host system\n",
__FUNCTION__);
exit (1);
}
init_tunnel_list (&tunnels);
if (init_network ())
exit (1);
if (gconfig.daemon)
daemonize ();
signal (SIGTERM, &death_handler);
signal (SIGINT, &death_handler);
signal (SIGCHLD, &child_handler);
signal (SIGUSR1, &status_handler);
signal (SIGHUP, &null_handler);
init_scheduler ();
mkfifo (CONTROL_PIPE, 0600);
control_fd = open (CONTROL_PIPE, O_RDONLY | O_NONBLOCK, 0600);
if (control_fd < 0)
{
log (LOG_CRIT, "%s: Unable to open " CONTROL_PIPE " for reading.",
__FUNCTION__);
exit (1);
}
log (LOG_LOG, "l2tpd version " SERVER_VERSION " started on %s PID:%d\n",
hostname, getpid ());
log (LOG_LOG,
"Written by Mark Spencer, Copyright (C) 1998, Adtran, Inc.\n");
log (LOG_LOG, "Forked by Scott Balmos and David Stipp, (C) 2001\n");
log (LOG_LOG, "Inhereted by Jeff McAdams, (C) 2002\n");
log (LOG_LOG, "%s version %s on a %s, port %d\n", uts.sysname,
uts.release, uts.machine, gconfig.port);
lac = laclist;
while (lac)
{
if (lac->autodial)
{
#ifdef DEBUG_MAGIC
log (LOG_DEBUG, "%s: Autodialing '%s'\n", __FUNCTION__,
lac->entname[0] ? lac->entname : "(unnamed)");
#endif
lac->active = -1;
switch_io = 1; /* If we're a LAC, autodials will be ICRQ's */
magic_lac_dial (lac);
}
lac = lac->next;
}
}
int start_connect(void)
{
struct user_data client;
socklen_t len;
int result = init_sqlite3_db(); // 初始化数据库
if (result != LINKC_SUCCESS)
{
printf ("DB Init error!\n");
exit(EXIT_FAILURE);
}
int sockfd = init_network(PORT); // 初始化网络模块
if (sockfd == -1)
{
printf ("network_init error!\n");
exit(EXIT_FAILURE);
}
len = sizeof (client.addr);
pthread_t pid;
while (1)
{
#if DEBUG
sleep (1);
printf ("Server is waiting for connect!\n");
#endif
client.sockfd = accept (sockfd,(struct sockaddr *)&client.addr,(socklen_t *)&len);
pthread_create (&pid,NULL,(void*)*keep_connect,&(client));
}
}
static void init(void) {
window = window_create();
window_stack_push(window, true /* Animated */);
window_set_background_color(window, GColorBlack);
weather_data = malloc(sizeof(WeatherData));
init_network(weather_data);
font_date = fonts_load_custom_font(resource_get_handle(RESOURCE_ID_FUTURA_18));
font_time = fonts_load_custom_font(resource_get_handle(RESOURCE_ID_FUTURA_CONDENSED_53));
time_layer = text_layer_create(TIME_FRAME);
text_layer_set_text_color(time_layer, GColorWhite);
text_layer_set_background_color(time_layer, GColorClear);
text_layer_set_font(time_layer, font_time);
text_layer_set_text_alignment(time_layer, GTextAlignmentCenter);
layer_add_child(window_get_root_layer(window), text_layer_get_layer(time_layer));
date_layer = text_layer_create(DATE_FRAME);
text_layer_set_text_color(date_layer, GColorWhite);
text_layer_set_background_color(date_layer, GColorClear);
text_layer_set_font(date_layer, font_date);
text_layer_set_text_alignment(date_layer, GTextAlignmentCenter);
layer_add_child(window_get_root_layer(window), text_layer_get_layer(date_layer));
// Add weather layer
weather_layer = weather_layer_create(GRect(0, 90, 144, 80));
layer_add_child(window_get_root_layer(window), weather_layer);
// Update the screen right away
time_t now = time(NULL);
handle_tick(localtime(&now), SECOND_UNIT | MINUTE_UNIT | HOUR_UNIT | DAY_UNIT );
// And then every second
tick_timer_service_subscribe(SECOND_UNIT, handle_tick);
}
bool init()
{
if (initialized)
return true;
initialized = init_network();
return initialized;
}
CollabSocket::CollabSocket(Dispatcher disp) {
_disp = disp;
thread = 0;
init_network();
conn = (_SOCKET)INVALID_SOCKET;
connected = false;
drt = new disp_request_t(_disp);
}
StarTopology::StarTopology(Logfile* lg, EventList* ev,FirstFit * fit) {
logfile = lg;
eventlist = ev;
ff = fit;
N = NSRV;
init_network();
}
/*
* Initialize variables.
*/
void
tninit(void)
{
init_terminal();
init_network();
init_telnet();
init_sys();
}
void test1() {
std::cout << "socketHandlerTest test 1" << std::endl;
int sockfd;
init_network(sockfd);
if (fork() == 0) {
// child process
sleep(1);
client();
} else {
server(sockfd);
}
}
int
main (int argc, char *argv[])
{
global_option_type global_option; //!< Application global options
global_option.server_port = DEFAULT_SERVER_PORT;
global_option.number_player = MAX_NUMBER_PLAYER;
global_option.type_server = LAN_PROTOCOL_TYPE;
#if defined(DEBUG)
fprintf (stderr, "DEBUG mode is ON\n");
#endif
if (read_arguments (argc, argv, &global_option) != 0)
{
fprintf (stderr, "Error reading arguments\n");
return 2;
}
if (SDL_Init (0) == -1)
{
fprintf (stderr, "SDL_Init: %s\n", SDL_GetError ());
return 1;
}
if (init_network () != 0)
{
fprintf (stderr, "Error initializing network\n");
return 1;
}
#if defined(GTK)
if (argc == 1)
{
// No option given starts the GUI
build_gtk_interface(argc, argv);
return;
}
#endif
serve_dispatch (&global_option);
shutdown_network ();
SDL_Quit();
return 0;
}
int main()
{
int ret=init_network();
if( ret!=0 )
{
LLOG(L_ERROR, "init_network error. ");
return -1;
}
Spider_Config::instance().load();
Spider_Seed spider_seed;
if( 0!=spider_seed.load() )
{
return -1;
}
Spider_Cookie::instance().login();
Spider_Storage::instance().initialize();
Spider_Executor::instance().initialize();
Spider_Url_Rinse::instance().initialize();
while(true)
{
Seed* seed=NULL;
std::string site_name;
spider_seed.get_seed(site_name,&seed);
if ( seed!=NULL )
{
LLOG(L_DEBUG, "load seed %s", site_name.c_str());
Spider_WebSite* website=Spider_WebSite_Factory::create_website(site_name);
website->initialize(site_name.c_str(), seed);
website->begin_process(); //处理seed节点
}
else
{
LLOG(L_DEBUG, "load all seed.");
break;
}
Sleep(1000); //1s
}
Spider_Executor::instance().execute_loop(); //循环等待完成
Spider_Url_Rinse::instance().uninitialize();
Spider_Executor::instance().uninitialize();
Spider_Storage::instance().uninitialize();
uninit_network();
return 0;
};
/*
* Initialize variables.
*/
void
tninit()
{
init_terminal();
init_network();
init_telnet();
init_sys();
#if defined(TN3270)
init_3270();
#endif
}
/*
* Initialize variables.
*/
void
tninit(void)
{
init_terminal();
init_network();
init_telnet();
init_sys();
#ifdef TN3270
init_3270();
#endif
}
int main(int ac, char **av)
{
int ret;
struct ospfd *ospfd;
int ev_flags = 0;
ospfd = alloc_ospfd();
ret = parse_cli_options(ospfd, ac, av);
if (ret != SUCCESS)
err_msg_die(EXIT_FAILURE, "Can't parse command line");
msg(ospfd, GENTLE, PROGRAMNAME " - " VERSIONSTRING);
/* seed pseudo number randon generator */
init_pnrg(ospfd);
/* initialize event subsystem. In this case this belongs
* to open a epoll filedescriptor */
ospfd->ev = ev_new();
if (!ospfd->ev)
err_msg_die(EXIT_FAILURE, "Can't initialize event subsystem");
ret = parse_rc_file(ospfd);
if (ret != SUCCESS)
err_msg_die(EXIT_FAILURE, "Can't parse configuration file");
ret = init_network(ospfd);
if (ret != SUCCESS)
err_msg_die(EXIT_FAILURE, "Can't initialize network subsystem");
/* and branch into the main loop
* This loop will never return (with the exception of SIGINT or failure
* condition) */
ret = ev_loop(ospfd->ev, ev_flags);
if (ret != SUCCESS)
err_msg_die(EXIT_FAILURE, "Main loop returned unexpected - exiting now");
fini_network(ospfd);
free_options(ospfd);
ev_free(ospfd->ev);
free_ospfd(ospfd);
return EXIT_SUCCESS;
}
/*
* Open and configure the specified interface with the provided info.
*/
int
start_conf_network_eifstart(int ifn, const char *eif_addr, const char *eif_mask)
{
const char *eif_name;
int nif, err;
if (eif_addr == 0 || eif_mask == 0)
return OSKIT_EINVAL;
nif = init_network();
if (ifn >= nif)
return OSKIT_EINVAL;
eif_name = start_conf_network_eifname(ifn);
if (eif_name == 0)
return OSKIT_EINVAL;
#if VERBOSITY > 1
printf("Configuring ether dev %d as %s\n", ifn, eif_name);
#endif
/*
* Open the underlying ether device and configure it.
*/
#if VERBOSITY > 2
printf(" open %s\n", eif_name);
#endif
err = start_conf_network_open_eif(edev[ifn], &eif[ifn]);
if (err == 0) {
#if VERBOSITY > 2
printf(" ifconfig %s as %s (mask %s)\n",
eif_name, eif_addr, eif_mask);
#endif
err = start_conf_network_eifconfig(eif[ifn], eif_name,
eif_addr, eif_mask);
}
#if VERBOSITY > 2
if (err != 0)
printf(" start_conf_network_single(%d) FAILED (err=%x)\n",
ifn, err);
#endif
return err;
}
KPROXY_API f8_bool kproxy_init(int leakDetect)
{
ITcpAdapter *a;
_CrtSetDbgFlag(_CRTDBG_ALLOC_MEM_DF | _CRTDBG_LEAK_CHECK_DF);
_CrtSetBreakAlloc(leakDetect);
/* initialize and start kernel */
ex_init();
/* KERN_F_ENABLE_INPUT */
x_buffer = (char *)__malloc__(LARGE_BUF_SIZE);
x_buf_len = LARGE_BUF_SIZE;
b_ShellExit = __false;
__new__(ITcpAdapter, a);
proxy_adapter = __ucast__(ITcpAdapter, IKAdapter, a);
sections = ke_get_blk(proxy_adapter->kernel, 0);
assert(sections->uuid == BLK_ID_ROOT);
create_resource(§ions->uuid);
create_f8_uuid(§ions->h.uuid);
create_resource(§ions->h.uuid);
memset(fileName, 0 , sizeof(fileName));
g_shell = shell_create(commands);
reset_reg_map();
init_blklib();
init_clipboard();
g_bDirty = __false;
init_network(RTK_INIT_AS_SERVER, 0);
vbus = connect_vbus(0xf8, VBUS_CONNECT_AS_SERVER, sr, 0);
return __true;
}
/**
* @brief Initialize everything.
*
* @param stop_early 0: do some initialization, 1: no initialization.
*/
static int
init_openvassd (struct arglist *options, int first_pass, int stop_early,
int dont_fork)
{
int isck = -1;
struct arglist *preferences = NULL;
int scanner_port = GPOINTER_TO_SIZE (arg_get_value (options, "scanner_port"));
char *config_file = arg_get_value (options, "config_file");
struct addrinfo *addr = arg_get_value (options, "addr");
preferences_init (config_file, &preferences);
log_init (arg_get_value (preferences, "logfile"));
if (dont_fork == FALSE)
setup_legacy_log_handler (log_vwrite);
if (!stop_early)
{
if (first_pass != 0)
init_network (scanner_port, &isck, *addr);
}
if (first_pass && !stop_early)
{
openvas_signal (SIGSEGV, sighandler);
openvas_signal (SIGCHLD, sighand_chld);
openvas_signal (SIGTERM, sighandler);
openvas_signal (SIGINT, sighandler);
openvas_signal (SIGHUP, sighup);
openvas_signal (SIGUSR1, sighandler); /* openvassd dies, not its sons */
openvas_signal (SIGPIPE, SIG_IGN);
}
arg_replace_value (options, "isck", ARG_INT, sizeof (gpointer),
GSIZE_TO_POINTER (isck));
arg_replace_value (options, "preferences", ARG_ARGLIST, -1, preferences);
set_globals_from_preferences (preferences);
return 0;
}
int main(int argc, char *argv[])
{
L = luaL_newstate();
luaL_openlibs(L);
const char *cfg_file_name = "config.cfg";
if (argc > 1)
cfg_file_name = argv[1];
if (read_config(L, cfg_file_name) != 0) {
fprintf(stderr, "config read failed %s", lua_tostring(L, -1));
return -1;
}
EV_Base = event_base_new();
init_network(L, EV_Base);
preload(L);
load_service(L);
event_base_dispatch(EV_Base);
lua_close(L);
return 0;
}
int
main(void)
{
int err;
init_network();
if((err = g_log.initLog("./", true, "cp2msg", "log")) != 0){
printf("启动日志模块失败,程序终止\n");
return err;
}
g_log.writeLog(LOG_TYPE_INFO, "日志模块启动成功");
if((err = start_srv_mode()) != 0){
g_log.writeLog(LOG_TYPE_ERROR,
"启动srv模块失败[%u:%u]",
GET_SYS_ERR(err), GET_USER_ERR(err));
return err;
}
g_log.writeLog(LOG_TYPE_INFO, "启动srv模块成功");
if((err = start_deliver_mode()) != 0){
g_log.writeLog(LOG_TYPE_ERROR,
"启动DELIVER模块失败[%u:%u]",
GET_SYS_ERR(err), GET_USER_ERR(err));
return err;
}
g_log.writeLog(LOG_TYPE_INFO, "启动DELIVER模块成功");
/* 在主线程中敲任意键,发Deliver */
while((err = getc(stdin)) != EOF){
if(g_cli_queue.GetRandSock(err) == true)
if(g_deliver_que.Insert(0, NULL, err) != true)
assert(0);
}
return 0;
}
void system_init_network(void)
{
// Structure pour l'adresse MAC du système
unsigned char mac_address[6] = {0x00, 0x18, 0x3e, 0x00, 0x00, 0x54};
u8 ip_adr[4] = {132, 207, 89, 54}; // Structure pour l'adresse IP local
u8 subnet_mask[4] = {255, 255, 255, 0}; // Structure pour le masque de sous-réseau
u8 gateway[4] = {132, 207, 89, 1}; // Structure pour l'adresse de la passerelle par default
/*xil_printf("Démarrage du client avec les adresse :\n");
xil_printf("Adresse local : %d.%d.%d.%d\n", ip_adr[0], ip_adr[1],
ip_adr[2], ip_adr[3]);
xil_printf("Masque de sous-réseau employé : %d.%d.%d.%d\n", subnet_mask[0],
subnet_mask[1], subnet_mask[2], subnet_mask[3]);
xil_printf("Passerelle employé : %d.%d.%d.%d\n", gateway[0], gateway[1],
gateway[2], gateway[3]);*/
netif = &allocated_netif;
init_network(netif, mac_address, ip_adr, subnet_mask, gateway);
enable_network(netif);
connection_init();
}
void init (int argc,char *argv[])
{
struct lac *lac;
struct in_addr listenaddr;
int myRet=0;
init_args (argc,argv);
srand( time(NULL) );
rand_source = 0;
init_addr ();
if (init_config ())
{
log (LOG_CRIT, "%s: Unable to load config file\n", __FUNCTION__);
exit (1);
}
init_tunnel_list (&tunnels);
if (init_network ())
exit (1);
//if (gconfig.daemon)
//daemonize ();
signal (SIGTERM, &death_handler);
signal (SIGINT, &death_handler);
signal (SIGCHLD, &child_handler);
signal (SIGUSR1, &status_handler);
signal (SIGHUP, &null_handler);
init_scheduler ();
unlink (gconfig.controlfile);
myRet=mkfifo (gconfig.controlfile, 0600);
// log (LOG_LOG,"gconfig.controlfile=%s, myRet=%d,errno=%d",gconfig.controlfile,myRet,errno);//Added for test
if(myRet<0)
{
log (LOG_CRIT, "%s: Unable to mkfifo %s.",__FUNCTION__, gconfig.controlfile);
exit (1);
}
control_fd = open (gconfig.controlfile, O_RDONLY | O_NONBLOCK, 0600);
if (control_fd < 0)
{
log (LOG_CRIT, "%s: Unable to open %s for reading.",
__FUNCTION__, gconfig.controlfile);
exit (1);
}
log (LOG_LOG, "l2tpd version " SERVER_VERSION " started on %s PID:%d\n",
hostname, getpid ());
log (LOG_LOG,
"Written by Mark Spencer, Copyright (C) 1998, Adtran, Inc.\n");
log (LOG_LOG, "Forked by Scott Balmos and David Stipp, (C) 2001\n");
log (LOG_LOG, "Inherited by Jeff McAdams, (C) 2002\n");
listenaddr.s_addr = gconfig.listenaddr;
log (LOG_LOG, "Listening on IP address %s, port %d\n",
inet_ntoa(listenaddr), gconfig.port);
lac = laclist;
while (lac)
{
if (lac->autodial)
{
#ifdef DEBUG_MAGIC
log (LOG_DEBUG, "%s: Autodialing '%s'\n", __FUNCTION__,
lac->entname[0] ? lac->entname : "(unnamed)");
#endif
lac->active = -1;
switch_io = 1; /* If we're a LAC, autodials will be ICRQ's */
magic_lac_dial (lac);
}
lac = lac->next;
}
}
PROXY_API __bool PMC_API init_proxy(HWND hWnd, __uint flags)
{
char * szWarning = "没有找到软件狗,进入演示状态,数据库最大规模32点";
if(!_g_InitLock){
_g_InitLock = new CLock;
}
g_InitLock.Lock();
if(g_iInitCount){
g_iInitCount++;
g_InitLock.UnLock();
return __true;
}
g_iInitCount++;
g_iInitFlag = flags;
_load_settings(__false);
g_DBDispatchTable.OnAddNode = _on_add_node;
g_DBDispatchTable.OnDropNode = _on_del_node;
hook_rtdb_events(&g_DBDispatchTable);
if(!(g_iInitFlag & PROXY_INIT_AS_SERVER)){
unsigned char run, dev;
int runLevel, devLevel;
init_key();
get_key(&run, &runLevel, &dev, &devLevel);
if(!dev){
/* no dog is attached*/
/* create_group(0x12345678,xxx) is a loophole */
create_group((RTK_CURSOR)0x12345678, (PRTK_GROUP)32);
if(!(flags & PROXY_SILENT)){
MessageBox(
hWnd,
szWarning,
"PMC Error",
MB_OK
);
}
}else{
/* yes, dog is attached, set database limit */
create_group((RTK_CURSOR)0x12345678, (PRTK_GROUP)devLevel);
}
}
init_powermgr();
init_network(0);
init_rtdb();
connect_vbus(BUSID_RTDB, 0, _on_rtdb, default_client_filter);
connect_vbus(BUSID_CONFIG, 0, _on_config, default_client_filter);
connect_vbus(BUSID_ALARM, 0, _on_alarm, default_client_filter);
connect_vbus(BUSID_SYSTEM, 0, _on_system, default_client_filter);
connect_vbus(BUSID_OPERATION, 0, 0, default_client_filter);
if(flags & PROXY_ENABLE_DISPATCHER){
start_dispatcher();
}
g_Worker = new CProxyWorker(flags);
if(!g_Worker){
g_InitLock.UnLock();
return __false;
}
g_Worker->start();
#if defined(_WIN32) && 1
SetThreadPriority(g_Worker->handle(), THREAD_PRIORITY_BELOW_NORMAL);
#endif
g_InitLock.UnLock();
return __true;
}
void start(){
initscr();
srand(time(0));
init_background(0,0);
refresh();
keypad(stdscr,TRUE);
pthread_t keyboard; //键盘监听线程
int err = init_network(); //初始化网络模块
if(err!=0){
mvprintw(5,60,"Network model init failed!");
}
start:
initpanel(); //把两个panel清空
initblock(b1);initblock(b2);
printpanel(PANELSTARTX,PANELSTARTY);
err = pthread_create(&keyboard,NULL,keylistener,NULL);
if(err !=0){
printf("can't create thread keyboard listener!");
exit(1);
}
//main thread make the block moving down until the gameover
while(!over){
movemid();
if(caninput(b1)){ //可以放下当前块说明游戏未结束
while( canmovedown() ){ //直到不能下落位置
//继续下落
goahead();
//显示一次
printpanel(PANELSTARTX,PANELSTARTY);
usleep(sleeptime);
}
//save temp panel to preview panel and create new block
savetoprev();
printpanel(PANELSTARTX,PANELSTARTY);
//停止下落后要消除
eliminate();
//把下一个块替换上来
nextblock();
}
else
over=true;
}
attrset(COLOR_PAIR(7));
mvprintw(21,37,"YOU DEAD!Try again?(y/n):");
int input;
int quit = 1;
while(quit){
input=getch(); //判断用户还要不要玩下去
switch(input){
case 'y':
over = 0;
attrset(COLOR_PAIR(0));
mvprintw(21,37," ");
goto start; //重新开始
break;
case 'n': endwin();quit = 0;break;
default:
mvprintw(21,37,"YOU DEAD!Try again?(y/n):");
}
}
}
int main (int argc, char *argv[])
{
args_t args;
struct stat st;
#ifdef WIN
//
PVOID OldValue=NULL;
WSADATA wsa;
Wow64DisableWow64FsRedirection (&OldValue);
WSAStartup(MAKEWORD(2,0), &wsa);
#endif
setbuf(stdout, NULL);
setbuf(stderr, NULL);
memset (&args, 0, sizeof(args));
// set default parameters
args.address = NULL;
args.file = NULL;
args.ai_family = AF_INET;
args.port = DEFAULT_PORT;
args.port_nbr = atoi(args.port);
args.mode = -1;
args.tx_mode = -1;
args.sim = 0;
args.dbg = 0;
printf ("\n[ run shellcode v0.1\n");
parse_args(&args, argc, argv);
// check if we have file parameter and it accessible
if (args.file!=NULL) {
if (stat (args.file, &st)) {
printf ("[ unable to access %s\n", args.file);
return 0;
} else {
if (st.st_size > MAX_BUFSIZ) {
printf ("[ %s exceeds MAX_BUFSIZ of %i bytes\n", args.file, MAX_BUFSIZ);
return 0;
}
}
}
// if mode is executing
if (args.mode==RSC_EXEC) {
if (args.file!=NULL) {
xfile(&args);
return 0;
} else {
printf ("\n[ you've used -x without supplying file with -f");
return 0;
}
}
if (init_network(&args))
{
// if no file specified, we receive and execute data
args.tx_mode = (args.file==NULL) ? RSC_RECV : RSC_SEND;
// if mode is -1, we listen for incoming connections
if (args.mode == -1) {
args.mode=RSC_SERVER;
}
// if no file specified, set to receive one
if (args.tx_mode == -1) {
args.tx_mode=RSC_RECV;
}
if (args.mode==RSC_SERVER) {
ssr (&args);
} else {
csr (&args);
}
}
return 0;
}
int main(int argc, char* argv[]) {
char q[512];
MYSQL_ROW row;
MYSQL_RES* res;
int err = init_network();
if (err) {
return err;
}
for (int year = 1990; year <= 2011; year++) {
std::cout << "Querying " << year << "\n";
snprintf(q, 512, "select count(value) from entries where year=%d and inserted>(select updated from visualizations where name='GAP2' and year=%d)", year, year);
if (mysql_query(mysql, q)) {
std::cerr << mysql_error(mysql) << "\n";
return -2;
}
res = mysql_use_result(mysql);
if ((row = mysql_fetch_row(res)) == 0 || atoi(row[0]) == 0) {
mysql_free_result(res);
continue;
}
mysql_free_result(res);
err = read_network(year);
if (err) {
return err;
}
std::cout << "Calculating " << year << "\n";
Basetype* in_flow = create_array(0);
Basetype* out_flow = create_array(0);
int regions_size = regions.size();
Basetype* total_output = new Basetype[regions_size];
for (int r = 0; r < regions_size; r++) {
total_output[r] = 0;
}
for (int v = 0; v < network_size; v++) {
for (int w = 0; w < network_size; w++) {
in_flow[v] += flows[w][v];
out_flow[v] += flows[v][w];
}
total_output[get_region(v)] += out_flow[v];
}
int sectors_size = sectors.size();
Basetype** in_flow_by_sector = new Basetype*[sectors_size];
for (int i = 0; i < sectors_size; i++) {
in_flow_by_sector[i] = create_array(0);
}
for (int v = 0; v < network_size; v++) {
for (int w = 0; w < network_size; w++) {
in_flow_by_sector[get_sector(v)][w] += flows[v][w];
}
}
snprintf(q, 512, "delete from visualization_data where visualization in (select id from visualizations where (name='GAP1' or name='GAP2') and year=%d)", year);
if (mysql_query(mysql, q)) {
std::cerr << mysql_error(mysql) << "\n";
return -2;
}
snprintf(q, 512, "select id from visualizations where name='GAP1' and year=%d", year);
if (mysql_query(mysql, q)) {
std::cerr << mysql_error(mysql) << "\n";
return -2;
}
res = mysql_use_result(mysql);
row = mysql_fetch_row(res);
int id1 = atoi(row[0]);
mysql_free_result(res);
snprintf(q, 512, "select id from visualizations where name='GAP2' and year=%d", year);
if (mysql_query(mysql, q)) {
std::cerr << mysql_error(mysql) << "\n";
return -2;
}
res = mysql_use_result(mysql);
row = mysql_fetch_row(res);
int id2 = atoi(row[0]);
mysql_free_result(res);
for (int r = 0; r < regions_size; r++) {
Basetype* damage1 = create_array(0);
Basetype* damage2 = create_array(0);
int js;
#pragma omp parallel default(shared) private(js)
{
#pragma omp for schedule(guided) nowait
for (js = 0; js < network_size; js++) {
if (get_region(js) == r) {
damage1[js] = 1;
} else {
for (int i = 0; i < sectors_size; i++) {
Basetype damage = flows[get_index(i, r)][js] / in_flow_by_sector[i][js];
if (damage1[js] < damage) {
damage1[js] = damage;
}
}
}
}
}
#pragma omp parallel default(shared) private(js)
{
#pragma omp for schedule(guided) nowait
for (js = 0; js < network_size; js++) {
if (get_region(js) == r) {
damage2[js] = 1;
} else {
for (int i = 0; i < sectors_size; i++) {
Basetype damage = 0;
for (int r = 0; r < regions_size; r++) {
int ir = get_index(i, r);
damage += damage1[ir] * flows[ir][js] / in_flow_by_sector[i][js];
}
if (damage2[js] < damage) {
damage2[js] = damage;
}
}
}
}
}
Basetype* region_damage1 = new Basetype[regions_size];
Basetype* region_damage2 = new Basetype[regions_size];
for (int r = 0; r < regions_size; r++) {
region_damage1[r] = 0;
region_damage2[r] = 0;
}
for (int js = 0; js < network_size; js++) {
int s = get_region(js);
if (total_output[s] > 0) {
region_damage1[s] += damage1[js] * out_flow[js] / total_output[s];
region_damage2[s] += damage2[js] * out_flow[js] / total_output[s];
}
}
delete[] damage1;
delete[] damage2;
std::stringstream query1("insert into visualization_data (visualization, region_from, region_to, value) values ", std::ios_base::app | std::ios_base::out);
bool first1 = true;
std::stringstream query2("insert into visualization_data (visualization, region_from, region_to, value) values ", std::ios_base::app | std::ios_base::out);
bool first2 = true;
for (int s = 0; s < regions_size; s++) {
region_damage1[s] = round(region_damage1[s] * 1000) / 1000;
if (region_damage1[s] > 0) {
if (first1) {
first1 = false;
} else {
query1 << ",";
}
query1 << "(" << id1 << ",'" << regions[r] << "','" << regions[s] << "'," << region_damage1[s] << ")";
}
region_damage2[s] = round(region_damage2[s] * 1000) / 1000;
if (region_damage2[s] > 0) {
if (first2) {
first2 = false;
} else {
query2 << ",";
}
query2 << "(" << id2 << ",'" << regions[r] << "','" << regions[s] << "'," << region_damage2[s] << ")";
}
}
if (!first1) {
if (mysql_query(mysql, query1.str().c_str())) {
std::cerr << mysql_error(mysql) << "\n";
return -2;
}
}
if (!first2) {
if (mysql_query(mysql, query2.str().c_str())) {
std::cerr << mysql_error(mysql) << "\n";
return -2;
}
}
delete[] region_damage1;
delete[] region_damage2;
}
delete[] in_flow;
delete[] out_flow;
free_double_array(flows);
for (int i = 0; i < sectors_size; i++) {
delete[] in_flow_by_sector[i];
}
delete[] in_flow_by_sector;
delete[] total_output;
snprintf(q, 512, "update visualizations set updated=now() where (name='GAP1' or name='GAP2') and year=%d", year);
if (mysql_query(mysql, q)) {
std::cerr << mysql_error(mysql) << "\n";
return -2;
}
}
return disconnect();
}
