INT_PTR BitmapIO_BMP::ConfigCtrlDlgProc(HWND hWnd,UINT message,WPARAM wParam,LPARAM lParam) { switch (message) { case WM_INITDIALOG: if (!mParams.saved) ReadCfg(); switch (mParams.outDepth) { case BMM_PALETTED: CheckDlgButton( hWnd, IDC_BMP_PALETTE, TRUE ); break; case BMM_NO_TYPE: case BMM_TRUE_24: CheckDlgButton( hWnd, IDC_BMP_RGB24, TRUE ); break; } break; case WM_COMMAND: switch (LOWORD(wParam)) { case IDOK: WriteCfg(); EndDialog(hWnd,1); break; case IDCANCEL: EndDialog(hWnd,0); break; case IDC_BMP_PALETTE: mParams.outDepth = BMM_PALETTED; break; case IDC_BMP_RGB24: mParams.outDepth = BMM_TRUE_24; break; } return TRUE; } return FALSE; }
int _main( ElfLoaderApp ela ) { UINT32 status = RESULT_OK; memcpy( ( void * )&FontServ, ( void * )&ela, sizeof( ElfLoaderApp ) ); status = APP_Register( &FontServ . evcode, 1, state_handling_table, HW_STATE_MAX, (void*)FontServStart ); //LoaderShowApp( &FontServ ); ReadCfg( ); FontTool_SetFont( ); DRM_SetResource( iTunes_EvCdResID, iTunes_Resource, sizeof( UINT32 ) * sizeof( iTunes_Resource ) ); DRM_SetResource( iTunes_NameResID, ( void * )u_app_name, APP_NAME_LEN * 2 ); DRM_SetResource( iTunes_IconResID, ( void * )FONT_TOOL_ICON, 2215 ); DRM_SetResource( iTunes_IcLsResID, ( void * )FONT_TOOL_ICON_LST, 1106 ); DRM_SetResource( iTunes_IcAnResID, ( void * )FONT_TOOL_ANI , 2529 ); return 1; }
UINT32 MainStateEnter( EVENT_STACK_T *ev_st, void *app, ENTER_STATE_TYPE_T type ) { if(type!=ENTER_STATE_ENTER) return RESULT_OK; ReadCfg( ); return Update( ev_st, app, 0 ); }
BMMRES BitmapIO_BMP::OpenOutput(BitmapInfo *fbi, Bitmap *map) { if (openMode != BMM_NOT_OPEN) return (ProcessImageIOError(&bi,BMMRES_INTERNALERROR)); if (!map) return (ProcessImageIOError(&bi,BMMRES_INTERNALERROR)); //-- Save Image Info Data if (!mParams.saved) ReadCfg(); bi.CopyImageInfo(fbi); bi.SetUpdateWindow(fbi->GetUpdateWindow()); this->map = map; openMode = BMM_OPEN_W; return (BMMRES_SUCCESS); }
int SearchCfg(const char *FileName, char *SectionName, char *VarName, void *DataPtr, enum CfgTypes VarType ) { struct CfgStruct MyVars[2]; MyVars[0].Name = VarName; MyVars[0].DataPtr = DataPtr; MyVars[0].VarType = VarType; MyVars[1].Name = MyVars[1].DataPtr = NULL; return ReadCfg(FileName, SectionName, MyVars); }
BMMRES BitmapIO_PNG::OpenOutput(BitmapInfo *fbi, Bitmap *map) { if(openMode != BMM_NOT_OPEN) return (ProcessImageIOError(fbi, BMMRES_INTERNALERROR)); if(!map) return (ProcessImageIOError(fbi,BMMRES_INTERNALERROR)); //-- Check for Default Configuration ----------------- if (!cfg.saved) ReadCfg(); //-- Save Image Info Data bi.CopyImageInfo(fbi); bi.SetUpdateWindow(fbi->GetUpdateWindow()); this->map = map; openMode = BMM_OPEN_W; return BMMRES_SUCCESS; }
/* * Read disk volumes. */ void ReadDiskVolumes( char *diskvols_name) /* NULL if default conf file name */ { extern char *program_name; int errors; int ret; DiskVolumeInfo_t *dv; fname = SAM_CONFIG_PATH"/diskvols.conf"; if (diskvols_name != NULL) { fname = diskvols_name; } DiskVolCount = 0; DiskVolClientCount = 0; if (diskVols.data != NULL) { SamFree(diskVols.data); diskVols.count = 0; diskVols.alloc = 0; diskVols.data = NULL; } errors = ReadCfg(fname, dirProcTable, dirname, token, ConfigFileMsg); if (errors != 0 && !(errors == -1) && diskvols_name == NULL) { /* Absence of the default diskvols conf file not an error. */ if (errors > 0) { errno = 0; } /* Read diskvols %s failed */ /* Problem with file system command file. */ FatalError(17230, fname); } }
int FTP::ProcessShortcutLine(char *Line) { char *m,*m1; char str[20]; //Hold single dec number - need not use of String if(!Line) return FALSE; ReadCfg(); if(StrCmp(Line,"FTP:",4) == 0) { /* FTP Host 1 AskLogin + 3 AsciiMode + 3 PassiveMode + 3 UseFirewall + 3 HostTable 1 User 1 Password 1 ExtCmdView + 3 IOBuffSize (atoi) 1 FFDup + '0' DecodeCmdLine + '0' 1 */ Line += 4; m = strchr(Line,'\x1'); if(!m || strlen(m) < 4) return FALSE; m++; Host.Init(); StrCpy(Host.Host, Line, Min((int)(m-Line), (int)ARRAYSIZE(Host.Host))); strcpy(Host.HostName, Host.Host); Host.AskLogin = *(m++) - '\x3'; if(*m == 0) return FALSE; Host.AsciiMode = *(m++) - '\x3'; if(*m == 0) return FALSE; Host.PassiveMode = *(m++) - '\x3'; if(*m == 0) return FALSE; Host.UseFirewall = *(m++) - '\x3'; if(*m == 0) return FALSE; m1 = m; m = strchr(m1,'\x1'); if(!m) return FALSE; StrCpy(str, m1, (int)(m-m1+1)); Host.ServerType = (WORD)atoi(str); m1 = m+1; m = strchr(m1,'\x1'); if(!m) return FALSE; StrCpy(Host.HostTable, m1, (int)(m-m1+1)); m1 = m+1; m = strchr(m1,'\x1'); if(!m) return FALSE; StrCpy(Host.User,m1,(int)(m-m1+1)); m1 = m+1; m = strchr(m1,'\x1'); if(!m) return FALSE; StrCpy(Host.Password,m1,(int)(m-m1+1)); do { Host.ExtCmdView = Opt.ExtCmdView; Host.IOBuffSize = Opt.IOBuffSize; Host.FFDup = Opt.FFDup; Host.DecodeCmdLine = TRUE; //IOBuffSize m1 = m+1; if(!m1[0]) break; Host.ExtCmdView = *(m1++) - '\x3'; m = strchr(m1,'\x1'); if(!m) return FALSE; StrCpy(str,m1,(int)(m-m1+1)); Host.IOBuffSize = Max(FTR_MINBUFFSIZE,(DWORD)atoi(str)); //FFDup m1 = m+1; if(!m1[0]) break; m = strchr(m1,'\x1'); if(!m) break; if(*m1 != '0' && *m1 != '1') break; Host.FFDup = *m1 - '0'; //DecodeCmdLine m1++; if(!m1[0] || (*m1 != '0' && *m1 != '1')) break; Host.DecodeCmdLine = *m1 - '0'; } while(0); return FullConnect(); } else if(StrCmp(Line,"HOST:",5) == 0) { Line += 5; strcpy(HostsPath,Line); return 1; } return 0; }
int OptLogInit() { int ret; int cfglen; int i; int j; setlinebuf(stdout); EngModePrintOn=0; ST_OptLogCfgData sval; ST_OptLogCfgInfo *cfginf = NULL; bzero(&sval,sizeof(sval)); Debug_print("%s\n",CONFIG_FILE); if (gendata.initlized) { Debug_print("The operation log has been initlized ,can not init again\n"); return 0; } ret = ReadCfg(CONFIG_FILE,&cfginf,&cfglen); if (ret < 0) { printf("read configuration file failed, use default set\n"); sval.curlevel = 3; sval.enflags |= PrtAllComp; if (!getcwd(sval.rcdpath,PATHLEN)) { perror("get current directory failed"); return -1; } } for (i=0;i<cfglen;i++) { Debug_print("key:%s\t val:%s\n",cfginf[i].key,cfginf[i].val); if (!strcmp(cfginf[i].key,"prtlevel")&&cfginf[i].val[0]!='0') { sval.enflags |= EnLevel; continue; } if (!strcmp(cfginf[i].key,"prtfilename")&&cfginf[i].val[0]!='0') { sval.enflags|= EnFName; continue; } if (!strcmp(cfginf[i].key,"prtfuncname")&&cfginf[i].val[0]!='0') { sval.enflags|= EnFcName; continue; } if (!strcmp(cfginf[i].key,"prtlinenum")&&cfginf[i].val[0]!='0') { sval.enflags|= EnLine; continue; } if (!strcmp(cfginf[i].key,"prttime")&&cfginf[i].val[0]!='0') { sval.enflags|= EnTime; continue; } if (!strcmp(cfginf[i].key,"prtinfile")&&cfginf[i].val[0]!='0') { sval.enflags|= EnFRcd; continue; } if (!strcmp(cfginf[i].key,"recordpath")&&cfginf[i].val[0]!=0) { int slen; slen = strlen(cfginf[i].val); if (cfginf[i].val[slen-1] == '/') { cfginf[i].val[slen-1] = 0; } strncpy(sval.rcdpath,cfginf[i].val,PATHLEN); continue; } if (!strcmp(cfginf[i].key,"level")&&cfginf[i].val[0]!=0) { sval.curlevel = atoi(cfginf[i].val); continue; } if (!strcmp(cfginf[i].key,"componentlist")&&cfginf[i].val[0]!=0) { if (GetComps(cfginf[i].val,&sval) < 0) { Debug_print("get components list failed\n"); } else { for (j=0;j<sval.compnum;j++) Debug_print("component name:%s\n",sval.comp[j]); } continue; } } if (cfginf) { free(cfginf); } Debug_print("enflag:%x\tpath:%s\n",sval.enflags,sval.rcdpath); //create shared memory and init semaphore gendata.shmid = shmget(IPC_KEY,sizeof(ST_OptLogCfgData),0666); if (gendata.shmid == -1) { Debug_print("shared memory does not exist,need create\n"); gendata.shmid = shmget(IPC_KEY,sizeof(ST_OptLogCfgData),0666|IPC_CREAT); if (gendata.shmid < 0) { perror("create shared memory failed"); return -1; } Debug_print("create shared memory success\n"); } else { sval.enflags |= SMemExist; } Debug_print("get shared memory success\n"); gendata.cfg = (ST_OptLogCfgData *)shmat(gendata.shmid,NULL,0); if (gendata.cfg == (void *)-1) { perror("get shared memory address failed"); shmctl(gendata.shmid,IPC_RMID,NULL); gendata.cfg = NULL; return -1; } //bzero(gendata.cfg,4096*65); Debug_print("get shared memory address success\n"); gendata.semid = semget(SEM_KEY,0,0666); if (gendata.semid < 0) { Debug_print("semaphore is not created, need create\n"); gendata.semid = semget(SEM_KEY,1,0666|IPC_CREAT); if (gendata.semid < 0) { perror("create semaphore failed"); return -1; } Debug_print("create semaphore success\n"); if (init_sem(gendata.semid,1) < 0) { printf("init semaphore failed\n"); del_sem(gendata.semid); return -1; } Debug_print("init semaphore success\n"); } Debug_print("get semaphore success\n"); if(pthread_mutex_init(&gendata.filemutex,NULL) != 0) { perror("create file mutex failed"); return -1; } if(pthread_mutex_init(&gendata.pathmutex,NULL) != 0) { perror("create path mutex failed"); return -1; } #ifdef READ_CFG if (1) #else if (!(sval.enflags&SMemExist)) #endif { Debug_print("shared memory does not exists need to set value to memory\n"); Debug_print("curlevel:%d\trcdpath:%s\tcomnum:%d\tenflags:%x\n",sval.curlevel,\ sval.rcdpath,sval.compnum,sval.enflags); OptLogSet(&sval); } gendata.initlized = 1; return 0; }
/* * Read disk volumes. */ int parse_diskvols_conf( char *file, /* path at which to read the diskvols.conf */ diskvols_cfg_t **cfg) /* malloced return value */ { int errors; char *first_err; Trace(TR_OPRMSG, "parsing diskvols file %s", Str(file)); if (ISNULL(file, cfg)) { Trace(TR_OPRMSG, "parsing diskvols file failed: %s", samerrmsg); return (-1); } if (init_static_variables() != 0) { Trace(TR_OPRMSG, "parsing diskvols file failed: %s", samerrmsg); return (-1); } if (strcmp(DISKVOL_CFG, file) != 0) { file_required = B_TRUE; } dv_cfg = mallocer(sizeof (diskvols_cfg_t)); if (dv_cfg == NULL) { Trace(TR_OPRMSG, "parsing diskvols file failed: %s", samerrmsg); return (-1); } memset(dv_cfg, 0, sizeof (diskvols_cfg_t)); dv_cfg->disk_vol_list = lst_create(); if (dv_cfg->disk_vol_list == NULL) { free_diskvols_cfg(dv_cfg); *cfg = NULL; Trace(TR_OPRMSG, "parsing diskvols file failed: %s", samerrmsg); return (-1); } dv_cfg->client_list = lst_create(); if (dv_cfg->client_list == NULL) { free_diskvols_cfg(dv_cfg); *cfg = NULL; Trace(TR_OPRMSG, "parsing diskvols file failed: %s", samerrmsg); return (-1); } dv_cfg->read_time = time(0); *cfg = dv_cfg; errors = ReadCfg(file, dirProcTable, dir_name, token, read_cfg_msg); if (errors != 0 && !(errors == -1 && !file_required)) { /* The absence of a command file is not an error */ if (errors == -1) { if (no_cmd_file) { /* * The absence of a command file * is not an error */ Trace(TR_OPRMSG, "parsing diskvols, no file present"); return (0); } free_diskvols_cfg(*cfg); *cfg = NULL; /* other access errors are an error */ samerrno = SE_CFG_OPEN_FAILED; /* open failed for %s: %s */ snprintf(samerrmsg, MAX_MSG_LEN, GetCustMsg(SE_CFG_OPEN_FAILED), file, open_error); Trace(TR_OPRMSG, "parsing diskvols file failed: %s", samerrmsg); return (-1); } else if (errors == 1 && empty_cmd_file) { Trace(TR_OPRMSG, "parsing diskvols, empty file"); return (0); } free_diskvols_cfg(*cfg); *cfg = NULL; if (error_list != NULL && error_list->head != NULL) { first_err = ((parsing_error_t *)error_list->head->data)->msg; } else { first_err = "NULL"; } /* %s contains %d error(s) first:%s */ samerrno = SE_CONFIG_ERROR; snprintf(samerrmsg, MAX_MSG_LEN, GetCustMsg(SE_CONFIG_ERROR), file, errors, first_err); Trace(TR_OPRMSG, "parsing diskvols file failed: %s", samerrmsg); return (-1); } Trace(TR_OPRMSG, "parsed diskvols file"); return (0); }
SDComCfg * CConfigDlg::GetConfig() { ReadCfg(); return &m_sDComCfgReal; }
void print_list (FILE * in, int flag, int non_priv) { DbCtlLimitAttr cpu_def, read_def, write_def; char val = 'M'; if (flag == 1) val = 'K'; else if ( flag == 2 ) val = ' '; non_priv = 1; if (access(CONFIG_PATH, R_OK) == 0){ non_priv = 0; } ReadCfg ((non_priv?DUPLICATE_CONFIG_PATH:CONFIG_PATH), "default"); if (flag) printf (" user\tcpu(%%)\tread(%cB/s)\twrite(%cB/s)\n", val, val); else printf (" user cpu(%%) read(%cB/s) write(%cB/s)\n", val, val); GetDefault (GetCfg (), flag); DbCtlFoundTag *found_tag_ = g_ptr_array_index (GetCfg (), 0); strncpy (cpu_def.l_current, GetLimitAttr (found_tag_->limit_attr, "cpu", "current"), sizeof (cpu_def.l_current) - 1); strncpy (cpu_def.l_short, GetLimitAttr (found_tag_->limit_attr, "cpu", "short"), sizeof (cpu_def.l_short) - 1); strncpy (cpu_def.l_mid, GetLimitAttr (found_tag_->limit_attr, "cpu", "mid"), sizeof (cpu_def.l_mid) - 1); strncpy (cpu_def.l_long, GetLimitAttr (found_tag_->limit_attr, "cpu", "long"), sizeof (cpu_def.l_long) - 1); strncpy (read_def.l_current, GetLimitAttr (found_tag_->limit_attr, "read", "current"), sizeof (read_def.l_current) - 1); strncpy (read_def.l_short, GetLimitAttr (found_tag_->limit_attr, "read", "short"), sizeof (read_def.l_short) - 1); strncpy (read_def.l_mid, GetLimitAttr (found_tag_->limit_attr, "read", "mid"), sizeof (read_def.l_mid) - 1); strncpy (read_def.l_long, GetLimitAttr (found_tag_->limit_attr, "read", "long"), sizeof (read_def.l_long) - 1); strncpy (write_def.l_current, GetLimitAttr (found_tag_->limit_attr, "write", "current"), sizeof (write_def.l_current) - 1); strncpy (write_def.l_short, GetLimitAttr (found_tag_->limit_attr, "write", "short"), sizeof (write_def.l_short) - 1); strncpy (write_def.l_mid, GetLimitAttr (found_tag_->limit_attr, "write", "mid"), sizeof (write_def.l_mid) - 1); strncpy (write_def.l_long, GetLimitAttr (found_tag_->limit_attr, "write", "long"), sizeof (write_def.l_long) - 1); FreeCfg (); DbCtlLimitAttr limit_attr_def; ReadCfg ((non_priv?DUPLICATE_CONFIG_PATH:CONFIG_PATH), "user"); GPtrArray *tags = addMemoryUser (in, GetCfg ()); GetDefaultForUsers (tags, &cpu_def, &read_def, &write_def, flag); FreeCfg (); }
main() { char Line[INI_LINESIZE]; int Int; long Long; double Double; Boolean_T Bool; struct CfgStruct this_var; FILE* tst; long prices[2]; /* ** First work with a test file */ tst = cant("test.ini", "w"); fputs("[Section 1]\n", tst); fputs("[Section 2]\n", tst); fputs("[Section 3]\n", tst); fputs("[Section 4]\n", tst); fputs("[Section 5]\n", tst); fputs("[Section 6]\n", tst); fclose(tst); puts("Updating the test configuration file"); puts("Updating section 1"); UpdateCfg("test.ini", "Section 1", "string #1", "section 1 test"); puts("Updating section 2"); UpdateCfg("test.ini", "Section 2", "short #2", "2"); puts("Updating section 3"); UpdateCfg("test.ini", "Section 3", "long #3", "3"); UpdateCfg("test.ini", "Section 4", "double #4", "4.4"); UpdateCfg("test.ini", "Section 5", "boolean #5", "Y"); UpdateCfg("test.ini", "Section 6", "boolean #6", "N"); UpdateCfg("test.ini", "", "global string", "\"Hello, world!\" ;Comment"); puts("I've finished the updates, now to try to get the data back"); this_var.Name = "global string"; this_var.DataPtr = Line; this_var.VarType = Cfg_String; printf("ReadCfg(0) returned %d; Line=\n", ReadCfg("test.ini", "", &this_var)); puts(Line); this_var.Name = "string #1"; this_var.DataPtr = Line; this_var.VarType = Cfg_String; printf("ReadCfg(1) returned %d; Line=\n", ReadCfg("test.ini", "Section 1", &this_var)); puts(Line); this_var.Name = "short #2"; this_var.DataPtr = ∬ this_var.VarType = Cfg_Short; printf("ReadCfg(2) returned %d; Value= ", ReadCfg("test.ini", "Section 2", &this_var)); printf("%d\n", Int); this_var.Name = "long #3"; this_var.DataPtr = &Long; this_var.VarType = Cfg_Long; printf("ReadCfg(3) returned %d; Value = ", ReadCfg("test.ini", "Section 3", &this_var)); printf("%ld\n", Long); this_var.Name = "double #4"; this_var.DataPtr = &Double; this_var.VarType = Cfg_Double; printf("ReadCfg(4) returned %d; Value = ", ReadCfg("test.ini", "Section 4", &this_var)); printf("%f\n", Double); this_var.Name = "boolean #5"; this_var.DataPtr = &Bool; this_var.VarType = Cfg_Boolean; printf("ReadCfg(5) returned %d; Value = ", ReadCfg("test.ini", "Section 5", &this_var)); printf("%c\n", Bool ? 'T' : 'F'); this_var.Name = "boolean #6"; this_var.DataPtr = &Bool; this_var.VarType = Cfg_Boolean; printf("ReadCfg(6) returned %d; Value = ", ReadCfg("test.ini", "Section 6", &this_var)); printf("%c\n", Bool ? 'T' : 'F'); /* ** Look for non-existant sections and/or variables */ Line[0] = NUL; this_var.Name = "string #99"; this_var.DataPtr = Line; this_var.VarType = Cfg_String; printf("ReadCfg(99) returned %d; Line=\n", ReadCfg("test.ini", "Section 99", &this_var)); puts(Line); Line[0] = NUL; this_var.Name = "string #99"; this_var.DataPtr = Line; this_var.VarType = Cfg_String; printf("ReadCfg(0/99) returned %d; Line=\n", ReadCfg("test.ini", "", &this_var)); puts(Line); Line[0] = NUL; this_var.Name = "string #99"; this_var.DataPtr = Line; this_var.VarType = Cfg_String; printf("ReadCfg(1/99) returned %d; Line=\n", ReadCfg("test.ini", "Section 1", &this_var)); puts(Line); Line[0] = NUL; this_var.Name = "string #1"; this_var.DataPtr = Line; this_var.VarType = Cfg_String; printf("ReadCfg(1/100) returned %d; Line=\n", ReadCfg("test.ini", "Section 100", &this_var)); puts(Line); /* ** Next, add a section and new variables */ UpdateCfg("test.ini", "", "new global variable", "abc"); UpdateCfg("test.ini", "Section -1", "new variable", "xyz"); /* ** Next work with a sample real PRICES.INI file */ this_var.Name = "Price of #1"; this_var.DataPtr = &prices[0]; this_var.VarType = Cfg_Long; printf("ReadCfg(1) returned %d; Value = ", ReadCfg(PINI_fname, "", &this_var)); printf("%ld\n", prices[0]); this_var.Name = "Price of #2"; this_var.DataPtr = &prices[1]; this_var.VarType = Cfg_Long; printf("ReadCfg(2) returned %d; Value = ", ReadCfg(PINI_fname, "", &this_var)); printf("%ld\n", prices[1]); UpdateCfg("prices.ini", "", "Price of #2", "999"); this_var.Name = "Price of #2"; this_var.DataPtr = &prices[1]; this_var.VarType = Cfg_Long; printf("ReadCfg(2) returned %d; Value = ", ReadCfg(PINI_fname, "", &this_var)); printf("%ld\n", prices[1]); UpdateCfg(PINI_fname, "", "Price of #2", "389"); this_var.Name = "Price of #2"; this_var.DataPtr = &prices[1]; this_var.VarType = Cfg_Long; printf("ReadCfg(2) returned %d; Value = ", ReadCfg(PINI_fname, "", &this_var)); printf("%ld\n", prices[1]); /* ** Finally, try an invalid file name */ this_var.Name = "global string"; this_var.DataPtr = Line; this_var.VarType = Cfg_String; printf("ReadCfg(0) returned %d; Line=\n", ReadCfg("none.ini", "", &this_var)); puts(Line); return EXIT_SUCCESS; }