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Annotation of OpenXM/src/kan96xx/plugin/oxmisc.c, Revision 1.6

1.6     ! takayama    1: /*  $OpenXM: OpenXM/src/kan96xx/plugin/oxmisc.c,v 1.5 2000/03/20 01:53:47 takayama Exp $ */
1.1       maekawa     2: #include <stdio.h>
                      3: #include <sys/types.h>
                      4: #include <sys/stat.h>
                      5: #include <sys/socket.h>
                      6: #include <sys/time.h>
                      7: #include <netinet/in.h>
                      8: #include <netdb.h>
                      9: #include <fcntl.h>
                     10: #include <stdlib.h>
                     11: #include <unistd.h>
                     12: #include <signal.h>
                     13: #include <setjmp.h>
1.5       takayama   14: #define SET_MYERROROUT { if (MyErrorOut == NULL) MyErrorOut=stdout; }
                     15: /* It is also defined in oxmisc2.c */
                     16: FILE *MyErrorOut = NULL;
1.1       maekawa    17:
                     18: /* Include files to understand object */
                     19: #include "../Kan/datatype.h"
                     20: #include "../Kan/stackm.h"
                     21: #include "../Kan/extern.h"
                     22:
                     23: #include "ox_kan.h"
                     24:
                     25: #define READBUFSIZE 5000
                     26:
                     27: int OxVersion = 199909080;
                     28: int UseOXPacketSerial = 1;
                     29: int SerialOX = 1;
                     30: extern int Quiet;
                     31:
                     32: static char *OxPortFileName = ".ox.dummy";
                     33:
                     34:
                     35: int readOneByte(int fd)   /* blocking */
                     36: {
                     37:   static char data[1];
                     38:   int size;
                     39:   int ans;
                     40:   int watch = 1;
                     41:
1.5       takayama   42:   SET_MYERROROUT;
1.1       maekawa    43:   if (fd < 0) {
                     44:     fprintf(MyErrorOut,"readOneByte fd < 0 ??? .\n");
                     45:     return(-1);
                     46:   }
                     47:
                     48:   if (oxSocketSelect0(fd,-1)) { /* block */
                     49:     size = read(fd,data,1);
                     50:     if (size == 0) {
                     51:       fprintf(MyErrorOut,"oxSocketSelect0() returns 1, but there is no data. You peer may be killed.\n");
                     52:       return(-1);
                     53:     }
                     54:     return(data[0]);
                     55:   }else{
                     56:     fprintf(MyErrorOut,"readOneByte: select error in block mode. Retrying.\n");
                     57:     return(-1);
                     58:   }
                     59: }
                     60:
                     61: int readOneByte_org(int fd)   /* blocking */
                     62: {
                     63:   static char data[READBUFSIZE];
                     64:   static int thisFd = -1;
                     65:   static int from = 0;
                     66:   static int to = 0;
                     67:   int size;
                     68:   int ans;
                     69:   int watch = 1;
                     70:
1.5       takayama   71:   SET_MYERROROUT;
1.1       maekawa    72:   if ((thisFd == -1) && (fd >= 0)) {thisFd = fd;}
                     73:   if (fd < 0) {
                     74:     fprintf(MyErrorOut,"readOneByte fd < 0 ??? .\n");
                     75:     return(-1);
                     76:   }
                     77:
                     78:   if (fd != thisFd) {
                     79:     fprintf(MyErrorOut,"readOneByte can be used only for one fd.\n");
                     80:     fflush(NULL);
                     81:     return(-1);
                     82:   }
                     83:   if (to > from) {
                     84:     ans = data[from];
                     85:     from++;
                     86:     if (watch) {
                     87:       printf("%2x ",ans);
                     88:       fflush(stdout);
                     89:     }
                     90:     return(ans);
                     91:   }
                     92:
                     93:   while (1) {
                     94:     if (oxSocketSelect0(fd,-1)) { /* block */
                     95:       size = read(fd,data,READBUFSIZE-1);
                     96:       if (size == 0) {
                     97:        fprintf(MyErrorOut,"oxSocketSelect0() returns 1, but there is no data. You peer may be killed.\n");
                     98:        return(-1);
                     99:       }
                    100:       from = 0;
                    101:       to = size;
                    102:       return(readOneByte(fd));
                    103:     }else{
                    104:       fprintf(MyErrorOut,"readOneByte: select error in block mode. Retrying.\n");  }
                    105:   }
                    106: }
                    107:
                    108: int oxfdGetInt32(int fd)
                    109: {
                    110:   char d[4];
                    111:   int i;
                    112:   for (i=0; i<4; i++) {
                    113:     d[i] = readOneByte(fd);
                    114:   }
                    115:   return(ntohl(* ( (int *)d)));
                    116: }
                    117:
                    118: int oxGetInt32(ox_stream ostream)
                    119: {
                    120:   char d[4];
                    121:   int i;
                    122:   for (i=0; i<4; i++) {
                    123:     d[i] = fp2fgetc(ostream);
                    124:   }
                    125:   return(ntohl(* ( (int *)d)));
                    126: }
                    127: int oxGetCMOInt32(ox_stream ostream)
                    128: {
                    129:   int id;
1.5       takayama  130:   SET_MYERROROUT;
1.1       maekawa   131:   id = oxGetInt32(ostream);
                    132:   if (id != CMO_INT32) {
                    133:     fprintf(MyErrorOut,"It is not CMO_INT32.\n");
                    134:     return(0);
                    135:   }
                    136:   return(oxGetInt32(ostream));
                    137: }
                    138: char *oxGetCMOString(ox_stream ostream) {
                    139:   int id;
                    140:   int size;
                    141:   char *r;
                    142:   int i;
1.5       takayama  143:   SET_MYERROROUT;
1.1       maekawa   144:   id = oxGetInt32(ostream);
                    145:   if (id != CMO_STRING) {
                    146:     fprintf(MyErrorOut,"It is not CMO_STRING.\n");
                    147:     return(NULL);
                    148:   }
                    149:   size = oxGetInt32(ostream);
                    150:   if (size <0) {
                    151:     return(NULL);
                    152:   }else{
                    153:     r = (char *)mymalloc(size+1);
                    154:     for (i=0; i<size; i++) {
                    155:       r[i] = fp2fgetc(ostream);
                    156:     }
                    157:     r[size] = '\0';
                    158:     return(r);
                    159:   }
                    160: }
                    161:
                    162: void oxfdSendSyncBall(int fd)
                    163: {
                    164:   oxfdSendOXheader(fd,OX_SYNC_BALL,SerialOX++);
                    165: }
                    166:
                    167: void oxSendSyncBall(ox_stream os)
                    168: {
                    169:   oxSendOXheader(os,OX_SYNC_BALL,SerialOX++);
                    170: }
                    171:
                    172: int oxWaitSyncBall(ox_stream ostream)
                    173: {
                    174:   int sss;
                    175:   int mtag;
                    176:   while ((mtag = oxGetOXheader(ostream,&sss)) != OX_SYNC_BALL) {
                    177:     fprintf(stderr,"Looking for the next message tag. mtag=%d\n",mtag);
                    178:           /* or stdout */
                    179:     fflush(NULL);
                    180:   }
                    181: }
                    182:
                    183: int oxWaitSyncBall_org(ox_stream ostream)
                    184: {
                    185:   int mtag;
                    186:   char data[4];
                    187:   int c;
1.5       takayama  188:   SET_MYERROROUT;
1.1       maekawa   189:   data[0] = data[1] = data[2] = data[3] = 0xff;
                    190:   while (1) {
                    191:     /* This part should be revised so that this part understands
                    192:        the cmo format.
                    193:        */
                    194:
                    195:     if ((c = fp2fgetc(ostream)) < 0) {
                    196:       /* never use read directory. readOneByte() is buffers every thing. */
                    197:       fprintf(MyErrorOut,"End of file.\n");
                    198:       return(-1);
                    199:     }
                    200:     data[0] = data[1];
                    201:     data[1] = data[2];
                    202:     data[2] = data[3];
                    203:     data[3] = (char)c;
                    204:     mtag = ntohl(*((int *)(data)));
                    205:     if (mtag == OX_SYNC_BALL) {
                    206:       printf("Found the OX_SYNC_BALL. \n");
                    207:       fflush(NULL);
                    208:       return(mtag);
                    209:     }
                    210:     fprintf(stderr,"Looking for the next message tag.. %2x, mtag=%d\n",c,mtag);
                    211:           /* or stdout */
                    212:     fflush(NULL);
                    213:   }
                    214: }
                    215:
                    216:
                    217: void oxfdSendCmoNull(int fd)
                    218: {
                    219:   char data[4];
                    220:   *((int *)&data[0]) = htonl(CMO_NULL);
                    221:   write(fd,data,4);
                    222:   fflush((FILE *)NULL);
                    223: }
                    224: void oxSendCmoNull(ox_stream os)
                    225: {
                    226:   char data[4];
                    227:   *((int *)&data[0]) = htonl(CMO_NULL);
                    228:   fp2write(os,data,4);
                    229:   fp2fflush(os);
                    230: }
                    231:
                    232: void oxSendCmoError(ox_stream os)
                    233: {
                    234:   char data[4];
                    235:   *((int *)&data[0]) = htonl(CMO_ERROR);
                    236:   fp2write(os,data,4);
                    237:   fp2fflush(os);
                    238: }
                    239:
                    240: void oxSendCmoError2(ox_stream os,char *s)
                    241: {
                    242:   char data[4];
                    243:   *((int *)&data[0]) = htonl(CMO_ERROR2);
                    244:   fp2write(os,data,4);
                    245:   fp2fflush(os);
                    246:   oxSendCmoString(os,s);
                    247: }
                    248:
                    249: void oxfdSendInt32(int fd,int k)
                    250: {
                    251:   char data[4];
                    252:   *((int *)&data[0]) = htonl(k);
                    253:   write(fd,data,4);
                    254:   fflush((FILE *)NULL);
                    255: }
                    256: void oxSendInt32(ox_stream os,int k)
                    257: {
                    258:   char data[4];
                    259:   *((int *)&data[0]) = htonl(k);
                    260:   fp2write(os,data,4);
                    261:   fp2fflush(os);
                    262: }
                    263:
                    264: void oxfdSendCmoInt32(int fd,int k)
                    265: {
                    266:   char data[4*2];
                    267:   *((int *)&data[0]) = htonl(CMO_INT32);
                    268:   *((int *)&data[4]) = htonl(k);
                    269:   write(fd,data,4*2);
                    270:   fflush((FILE *)NULL);
                    271: }
                    272: void oxSendCmoInt32(ox_stream os,int k)
                    273: {
                    274:   char data[4*2];
                    275:   *((int *)&data[0]) = htonl(CMO_INT32);
                    276:   *((int *)&data[4]) = htonl(k);
                    277:   fp2write(os,data,4*2);
                    278:   fp2fflush(os);
                    279: }
                    280: void oxfdSendCmoString(int fd,char *s)
                    281: {
                    282:   char data[4*2];
                    283:   int n;
                    284:   if (s == NULL) n = 0;
                    285:   else {
                    286:     n = strlen(s);
                    287:   }
                    288:   *((int *)&data[0]) = htonl(CMO_STRING);
                    289:   *((int *)&data[4]) = htonl(n);
                    290:   write(fd,data,4*2);
                    291:   if (s != NULL) {
                    292:     write(fd,s,n);
                    293:   }
                    294:   fflush((FILE *)NULL);
                    295: }
                    296:
                    297: void oxSendCmoString(ox_stream os,char *s)
                    298: {
                    299:   char data[4*2];
                    300:   int n;
                    301:   if (s == NULL) n = 0;
                    302:   else {
                    303:     n = strlen(s);
                    304:   }
                    305:   *((int *)&data[0]) = htonl(CMO_STRING);
                    306:   *((int *)&data[4]) = htonl(n);
                    307:   fp2write(os,data,4*2);
                    308:   if (s != NULL) {
                    309:     fp2write(os,s,n);
                    310:   }
                    311:   fp2fflush(os);
                    312: }
                    313:
                    314:
                    315:
                    316: void oxReqPushString(ox_stream os, char *s)
                    317: {
                    318:   oxSendOXheader(os,OX_DATA,SerialOX++);
                    319:   oxSendCmoString(os,s);
                    320: }
                    321:
                    322: void oxSendResultOfControlInt32(int fd,int i)
                    323: {
                    324:   char data[4*2];
                    325:   oxfdSendOXheader(fd,OX_DATA,SerialOX++);
                    326:   *((int *)&data[0]) = htonl(CMO_INT32);
                    327:   *((int *)&data[4]) = htonl(i);
                    328:   write(fd,data,4*2);
                    329:   fflush((FILE *)NULL);
                    330: }
                    331:
                    332: void oxSendResultOfControl(int fd)
                    333: {
                    334:   char data[4*1];
                    335:   oxfdSendOXheader(fd,OX_DATA,SerialOX++);
                    336:   *((int *)&data[0]) = htonl(CMO_NULL);
                    337:   write(fd,data,4*1);
                    338:   fflush((FILE *)NULL);
                    339: }
                    340:
                    341:
                    342:
                    343: void oxSendMathCap(ox_stream os,struct mathCap *mathcap)
                    344: {
1.4       takayama  345:   int i,n,infosize,ncmo;
1.1       maekawa   346:   struct object mathinfo;
                    347:   /* printf("ox sending mathcap\n"); fflush(stdout); */
                    348:   mathinfo = *((struct object *)(mathcap->infop));
                    349:   infosize = getoaSize(mathinfo);
                    350:
                    351:   oxSendInt32(os,CMO_MATHCAP);
                    352:
                    353:   oxSendInt32(os,CMO_LIST);
                    354:   oxSendInt32(os,3);
                    355:
                    356:   /* [0] */
                    357:   oxSendInt32(os,CMO_LIST);
                    358:   oxSendInt32(os,infosize);
                    359:   oxSendCmoInt32(os,KopInteger(getoa(mathinfo,0)));
                    360:   for (i=1; i<infosize; i++) {
                    361:     oxSendCmoString(os,KopString(getoa(mathinfo,i)));
                    362:   }
                    363:
                    364:   /* [1]  */
                    365:   oxSendInt32(os,CMO_LIST);
                    366:   oxSendInt32(os,mathcap->smSize);
                    367:   n = mathcap->smSize;
                    368:   for (i=0; i<n; i++) {
                    369:     oxSendCmoInt32(os,(mathcap->sm)[i]);
                    370:   }
                    371:
                    372:   /* [2] */
                    373:   oxSendInt32(os,CMO_LIST);
1.4       takayama  374:   n = mathcap->oxSize;
                    375:   oxSendInt32(os,n);
1.1       maekawa   376:
                    377:   oxSendInt32(os,CMO_LIST);
1.4       takayama  378:   oxSendInt32(os,2);
1.1       maekawa   379:   for (i=0; i<n; i++) {
1.4       takayama  380:     /* OX_DATA_xxx */
1.1       maekawa   381:     oxSendCmoInt32(os,(mathcap->ox)[i]);
1.4       takayama  382:     /* OX_DATA_xxx tags. In case of CMO, it is CMO tags. */
                    383:     oxSendInt32(os,CMO_LIST);
                    384:     oxSendInt32(os,mathcap->n);
                    385:     ncmo = mathcap->n;
                    386:     for (i=0; i<ncmo; i++) {
                    387:       oxSendCmoInt32(os,(mathcap->cmo)[i]);
                    388:       /* printf("i=%d %d, ",i,(mathcap->cmo)[i]); */
                    389:     }
1.1       maekawa   390:   }
                    391:   /* printf("\n"); fflush(stdout); */
                    392: }
                    393:
                    394: void oxReqMathCap(ox_stream os) {
                    395:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    396:   oxSendInt32(os,SM_mathcap);
                    397:   fp2fflush(os);
                    398: }
                    399:
                    400: void oxReqSetMathCap(ox_stream os,struct mathCap *mathcap) {
                    401:   oxSendOXheader(os,OX_DATA,SerialOX++);
                    402:   oxSendMathCap(os,mathcap);
                    403:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    404:   oxSendInt32(os,SM_setMathCap);
                    405:   fp2fflush(os);
                    406: }
                    407: void oxReqPops(ox_stream os,int n) {
                    408:   oxSendOXheader(os,OX_DATA,SerialOX++);
                    409:   oxSendCmoInt32(os,n);
                    410:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    411:   oxSendInt32(os,SM_pops);
                    412:   fp2fflush(os);
                    413: }
                    414: void oxReqSetName(ox_stream os,char *s) {
                    415:   oxSendOXheader(os,OX_DATA,SerialOX++);
                    416:   oxSendCmoString(os,s);
                    417:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    418:   oxSendInt32(os,SM_setName);
                    419:   fp2fflush(os);
                    420: }
                    421: void oxReqEvalName(ox_stream os,char *s) {
                    422:   oxSendOXheader(os,OX_DATA,SerialOX++);
                    423:   oxSendCmoString(os,s);
                    424:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    425:   oxSendInt32(os,SM_evalName);
                    426:   fp2fflush(os);
                    427: }
                    428:
                    429: void oxReqExecuteStringByLocalParser(ox_stream os,char *s)
                    430: {
                    431:   oxSendOXheader(os,OX_DATA,SerialOX++);
                    432:   oxSendCmoString(os,s);
                    433:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    434:   oxSendInt32(os,SM_executeStringByLocalParser);
                    435:   fp2fflush(os);
                    436: }
                    437:
                    438: void oxReqExecuteFunction(ox_stream os,char *s)
                    439: {
                    440:   oxSendOXheader(os,OX_DATA,SerialOX++);
                    441:   oxSendCmoString(os,s);
                    442:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    443:   oxSendInt32(os,SM_executeFunction);
                    444:   fp2fflush(os);
                    445: }
                    446:
                    447:
                    448: void oxReqPopString(ox_stream os)
                    449: {
                    450:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    451:   oxSendInt32(os,SM_popString);
                    452:   fp2fflush(os);
                    453: }
                    454:
                    455: void oxReqSingleOperand(ox_stream os,int smtag)
                    456: {
                    457:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    458:   oxSendInt32(os,smtag);
                    459:   fp2fflush(os);
                    460: }
                    461:
                    462:
                    463: void oxReqControlResetConnection(int fd) {
                    464:   oxfdSendOXheader(fd,OX_COMMAND,SerialOX++);
                    465:   oxfdSendInt32(fd,SM_control_reset_connection);
                    466:   fflush(NULL);
                    467: }
                    468:
                    469: void oxReqControlKill(int fd) {
                    470:   oxfdSendOXheader(fd,OX_COMMAND,SerialOX++);
                    471:   oxfdSendInt32(fd,SM_control_kill);
                    472:   fflush(NULL);
                    473: }
                    474:
                    475: void oxReqPopCMO(ox_stream os) {
                    476:   oxSendOXheader(os,OX_COMMAND,SerialOX++);
                    477:   oxSendInt32(os,SM_popCMO);
                    478:   fp2fflush(os);
                    479: }
                    480:
                    481:
                    482: int oxGetResultOfControlInt32(int fd) {
                    483:   int k; int sss;
1.5       takayama  484:   SET_MYERROROUT;
1.1       maekawa   485:   k = oxfdGetOXheader(fd,&sss);
                    486:   if (k != OX_DATA) {
                    487:     fprintf(MyErrorOut,"oxGetResultOfControlInt32: wrong header.");
                    488:     return(-1);
                    489:   }
                    490:   k = oxfdGetInt32(fd); /* CMO_INT32 */
                    491:   k = oxfdGetInt32(fd);
                    492:   return(k);
                    493: }
                    494:
                    495: int oxclientMultiSelect(oxclientp clients[],int dataready[],
                    496:                        int controlready[], int size, int t)
                    497: {
                    498:   int i, ddd;
                    499:   int fd;
                    500:   int humanfd = 0;
                    501:   fd_set readfds;
                    502:   struct timeval timeout;
                    503:   extern int errno;
                    504:
1.5       takayama  505:   SET_MYERROROUT;
1.1       maekawa   506:   /** printf("(1)"); fflush(NULL); */
                    507:   FD_ZERO(&readfds);
                    508:   timeout.tv_sec = 0;
                    509:   timeout.tv_usec = (long) t;
                    510:
                    511:   ddd = 0;  fd = 0;
                    512:   for (i=0; i<size; i++) {
                    513:     dataready[i] = controlready[i] = 0;
                    514:   }
                    515:   for (i=0; i<size; i++) {
                    516:     if (clients[i]->humanio) {
                    517:       fd = (fd<humanfd?humanfd:fd);
                    518:       FD_SET(humanfd,&readfds);
                    519:       if (oxSocketSelect0(humanfd,0)) {
                    520:        ddd = dataready[i] = 1; controlready[i] = 0;
                    521:       }else{
                    522:        dataready[i] = 0; controlready[i] = 0;
                    523:       }
                    524:     }else{
                    525:       fd = (fd<clients[i]->controlfd?clients[i]->controlfd:fd);
                    526:       FD_SET(clients[i]->controlfd,&readfds);
                    527:       if (oxSocketSelect0(clients[i]->controlfd,0)) {
                    528:        ddd = controlready[i] = 1;
                    529:       }else{
                    530:        controlready[i] = 0;
                    531:       }
                    532:       if (clients[i]->datafp2 != NULL) {
                    533:        fd = (fd<clients[i]->datafp2->fd?clients[i]->datafp2->fd:fd);
                    534:        FD_SET(clients[i]->datafp2->fd,&readfds);
                    535:        if (fp2select(clients[i]->datafp2,0)) {
                    536:          ddd = dataready[i] = 1;
                    537:        }else{
                    538:          dataready[i] = 0;
                    539:        }
                    540:       }else{
                    541:        dataready[i] = 0;
                    542:       }
                    543:     }
                    544:   }
                    545:   if (t > 0 ) {
                    546:     if (ddd) return(1);
                    547:     if (select(fd+1,&readfds,(fd_set *)NULL,(fd_set *)NULL,&timeout)<0) {
                    548:       fprintf(MyErrorOut,"error");
                    549:       return(-1);
                    550:     }
                    551:     return(oxclientMultiSelect(clients, dataready, controlready,size,0));
                    552:   }else if (t == 0) {
                    553:     return(ddd);
                    554:   }else {
                    555:     /** printf("(2)"); fflush(NULL); */
                    556:     if (select(fd+1,&readfds,(fd_set *)NULL,(fd_set *)NULL,(struct timeval *)NULL)<0) {
                    557:       fprintf(MyErrorOut,"error");
                    558:       return(-1);
                    559:     }
                    560:     /** printf("(3)"); fflush(NULL); */
                    561:     return(oxclientMultiSelect(clients, dataready, controlready,size,0));
                    562:   }
                    563: }
                    564:
                    565: int oxGetControl(oxclientp client)
                    566: /* synchronized. */
                    567: {
                    568:   int ans;
                    569:   ox_stream os;
                    570:   switch (client->cstate) {
                    571:   case 1:
                    572:     ans = oxGetResultOfControlInt32(client->controlfd);
                    573:     client->cstate = 0;
                    574:     return(ans);
                    575:   default:
                    576:     fprintf(MyErrorOut,"oxGet: unknown cstate.\n");
                    577:     client->cstate = -1;
                    578:     return(-1);
                    579:   }
                    580:
                    581:   return(-1);
                    582: }
                    583:
                    584: int oxInitClient(oxclientp client)
                    585: {
                    586:   client->datafp2 = NULL;
                    587:   client->dataport = 0;
                    588:   client->controlport = 0;
                    589:   client->controlfd = 0;
                    590:   client->humanio = 0;
                    591:   client->dstate = 0;
                    592:   client->cstate = 0;
                    593:   client->id = -1;
                    594:   client->mathcapObjp = NULL;
                    595:   client->controlByteOrder = OX_BYTE_NETWORK_BYTE_ORDER;
                    596:   client->engineByteOrder = OX_BYTE_NETWORK_BYTE_ORDER;
                    597:   return(0);
                    598: }
                    599:
                    600: int oxIsThereErrorClient(oxclientp client) {
                    601:   if (client == NULL) return(1);
                    602:   if (client->dstate == -1) return(1);
                    603:   if (client->cstate == -1) return(1);
                    604:   return(0);
                    605: }
                    606:
                    607: oxclientp oxCreateClient(char *sname,int portStream,int portControl)
                    608:   /* you also need to change oxCreateClient2. */
                    609: {
                    610:   static int clnum = 0;
                    611:   int v = 0;
                    612:   int fdControl = -1;
                    613:   int fdStream = -1;
                    614:   oxclientp client;
                    615:   int controlByteOrder, engineByteOrder;
                    616:   v = !Quiet;
                    617:   if (portControl != -1) {
                    618:     fdControl = socketConnect(sname,portControl);
                    619:     if (v) fprintf(stderr,"\nControl port %d : Connected.\n",portControl);
                    620:   }
                    621:   if (portStream != -1) {
                    622:     sleep(1); /* wait */
                    623:     fdStream = socketConnect(sname,portStream);
                    624:     if (v) fprintf(stderr,"\nStream port %d : Connected.\n",portStream);
                    625:   }
                    626:
                    627:   if (fdStream == -1 || fdControl == -1) {
                    628:     fprintf(stderr,"\nOpen error in oxCreateClient.\n");
                    629:     return(NULL);
                    630:   }
                    631:
                    632:   controlByteOrder = oxSetByteOrder(fdControl);
                    633:   if (v) fprintf(stderr,"Byte order for control process is %s.\n",
                    634:                 (controlByteOrder == 0? "network byte order":
                    635:                  (controlByteOrder == 1? "little indican":
                    636:                   "big indian")));
                    637:   engineByteOrder = oxSetByteOrder(fdStream);
                    638:   if (v) fprintf(stderr,"Byte order for engine process is %s.\n",
                    639:                 (engineByteOrder == 0? "network byte order":
                    640:                  (engineByteOrder == 1? "little indican":
                    641:                   "big indian")));
                    642:
                    643:   client = (oxclientp) mymalloc(sizeof(oxclient));
                    644:   oxInitClient(client);
                    645:   client->datafp2 = fp2open(fdStream);
                    646:   if (client->datafp2 == NULL) {
                    647:     fprintf(stderr,"oxCreateClient(): fp2open(fd) failed.\n");
                    648:     return(NULL);
                    649:   }
                    650:   client->dataport = portStream;
                    651:   client->controlport = portControl;
                    652:   client->controlfd = fdControl;
                    653:   client->id = clnum; clnum++;
                    654:   client->type = CLIENT_SOCKET; /* socket */
                    655:   client->engineByteOrder = engineByteOrder;
                    656:   client->controlByteOrder = controlByteOrder;
                    657:   return(client);
                    658: }
                    659:
                    660: oxclientp oxCreateClientFile(char *fname,char *mode,char *controlName,char *cmode)
                    661: {
                    662:   static int clnum = 0x8000;
                    663:   int v = 0;
                    664:   int fdControl = -1;
                    665:   int fdStream = -1;
                    666:   oxclientp client;
                    667:   v = 1;
                    668:   if (strcmp(mode,"w") == 0) {
                    669:     fdStream = creat(fname,S_IWRITE|S_IREAD|S_IRGRP|S_IROTH);
                    670:     if (fdStream < 0) {
                    671:       fprintf(stderr,"\nCreat failed for %s\n",fname); return(NULL);
                    672:     }
                    673:   }else if (strcmp(mode,"r")==0) {
                    674:     fdStream = open(fname,O_RDONLY);
                    675:     if (fdStream < 0) {
                    676:       fprintf(stderr,"\nOpen failed for %s\n",fname); return(NULL);
                    677:     }
                    678:   }else {
                    679:     fprintf(stderr,"\nThe mode %s is not supported.\n",mode); return(NULL);
                    680:   }
                    681:
                    682:   if (strcmp(cmode,"w") == 0) {
                    683:     fdControl = creat(controlName,S_IWRITE|S_IREAD|S_IRGRP|S_IROTH);
                    684:     if (fdControl < 0) {
                    685:       fprintf(stderr,"\nCreat failed for %s\n",controlName); return(NULL);
                    686:     }
                    687:   }else if (strcmp(cmode,"r")==0) {
                    688:     fdControl = open(controlName,O_RDONLY);
                    689:     if (fdControl < 0) {
                    690:       fprintf(stderr,"\nOpen failed for %s\n",controlName); return(NULL);
                    691:     }
                    692:   }else if (strcmp(cmode,"rw")==0) {
                    693:     fdControl = open(controlName,O_RDWR);
                    694:     if (fdControl < 0) {
                    695:       fprintf(stderr,"\nOpen failed for %s\n",controlName); return(NULL);
                    696:     }
                    697:   }else {
                    698:     fprintf(stderr,"\nThe mode %s is not supported.\n",cmode); return(NULL);
                    699:   }
                    700:
                    701:
                    702:   client = (oxclientp) mymalloc(sizeof(oxclient));
                    703:   oxInitClient(client);
                    704:   client->datafp2 = fp2open(fdStream);
                    705:   if (client->datafp2 == NULL) {
                    706:     fprintf(stderr,"oxCreateClientFile(): fp2open(fd) failed.\n");
                    707:     return(NULL);
                    708:   }
                    709:   client->dataport = 0;
                    710:   client->controlport = 0;
                    711:   client->controlfd = fdControl;
                    712:   client->id = clnum; clnum++;
                    713:   client->type = CLIENT_FILE;
                    714:   client->engineByteOrder = OX_BYTE_NETWORK_BYTE_ORDER;
                    715:   client->controlByteOrder = OX_BYTE_NETWORK_BYTE_ORDER;
                    716:   return(client);
                    717: }
                    718:
                    719: void oxSendOXheader_generic(int type,int fd,ox_stream ox,
                    720:                            int k,int serial)
                    721: {
                    722:   static int ss = 0;
                    723:   extern int UseOXPacketSerial;
                    724:   if (serial >= 0) ss = serial;
                    725:   else ss++;
                    726:   if (ss < 0) ss=0;
                    727:   if (type == 0) { /* fd */
                    728:     oxfdSendInt32(fd,k);
                    729:     if (UseOXPacketSerial) oxfdSendInt32(fd,ss);
                    730:   }else {
                    731:     oxSendInt32(ox,k);
                    732:     if (UseOXPacketSerial) oxSendInt32(ox,ss);
                    733:   }
                    734: }
                    735: void oxSendOXheader(ox_stream ostream,int k,int serial) {
                    736:   oxSendOXheader_generic(1,-1,ostream,k,serial);
                    737: }
                    738: void oxfdSendOXheader(int fd,int k,int serial) {
                    739:   oxSendOXheader_generic(0,fd,(ox_stream) NULL,k,serial);
                    740: }
                    741:
                    742: int oxfdGetOXheader(int fd,int *sss)
                    743: {
                    744:   char d[4];
                    745:   int i;
                    746:   int m;
                    747:
                    748:   for (i=0; i<4; i++) {
                    749:     d[i] = readOneByte(fd);
                    750:   }
                    751:   m = ntohl(* ( (int *)d));
                    752:   *sss = -1;
                    753:   if (UseOXPacketSerial) {
                    754:     for (i=0; i<4; i++) {
                    755:       d[i] = readOneByte(fd);
                    756:     }
                    757:     *sss = ntohl(* ( (int *)d));
                    758:   }
                    759:   return(m);
                    760: }
                    761:
                    762: int oxGetOXheader(ox_stream ostream,int *sss)
                    763: {
                    764:   char d[4];
                    765:   int m;
                    766:   int i;
                    767:
                    768:   unlockCtrlCForOx();  /* temporary unlock */
                    769:   while (fp2select(ostream,1000) == 0) ;
                    770:   restoreLockCtrlCForOx();
                    771:
                    772:   for (i=0; i<4; i++) {
                    773:     d[i] = fp2fgetc(ostream);
                    774:   }
                    775:   m = ntohl(* ( (int *)d));
                    776:   *sss = -1;
                    777:   if (UseOXPacketSerial) {
                    778:     for (i=0; i<4; i++) {
                    779:       d[i] = fp2fgetc(ostream);
                    780:     }
                    781:     *sss = ntohl(* ( (int *)d));
                    782:   }
                    783:   return(m);
                    784: }
                    785:
                    786:
                    787: oxWritePortFile(int func,int port,char *fname) {
                    788:   char name[1024];
                    789:   FILE *fp;
                    790:   strcpy(name,fname);
                    791:   if (func == 0) {
                    792:     strcat(name,".control");
                    793:     fp = fopen(name,"w");
                    794:     fprintf(fp,"%05d\n",port);
                    795:     fclose(fp);
                    796:   }else {
                    797:     strcat(name,".data");
                    798:     fp = fopen(name,"w");
                    799:     fprintf(fp,"%05d\n",port);
                    800:     fclose(fp);
                    801:   }
                    802: }
                    803: oxReadPortFile(int func,char *fname) {
                    804:   int port = 0;
                    805:   char name[1024];
                    806:   FILE *fp;
                    807:   strcpy(name,fname);
                    808:   if (func == 0) {
                    809:     strcat(name,".control");
                    810:     fp = fopen(name,"r");
                    811:     fscanf(fp,"%d",&port);
                    812:     fclose(fp);
                    813:   }else {
                    814:     strcat(name,".data");
                    815:     fp = fopen(name,"r");
                    816:     fscanf(fp,"%d",&port);
                    817:     fclose(fp);
                    818:   }
                    819:   return(port);
                    820: }
                    821: char *oxGenPortFile(void) {
                    822:   char *fname;
                    823:   time_t tt;
                    824:   char sstime[512];
                    825:
                    826:   fname = (char *)malloc(1024*sizeof(char));
                    827:   strcpy(fname,getenv("HOME"));
                    828:   strcat(fname,"/.ox.");
                    829:   tt = time(NULL);
                    830:   sprintf(sstime,"%ld",(long) tt);
                    831:   strcat(fname,sstime);
                    832:   if (fname[strlen(fname)-1] == '\n') {
                    833:     fname[strlen(fname)-1] = '\0';
                    834:   }
                    835:   /* fprintf(stderr,"OxPortFileName=%s\n",fname); */
                    836:   OxPortFileName = fname;
                    837:   return(fname);
                    838: }
                    839: int oxRemovePortFile(void) {
                    840:   char fname[1024];
                    841:   FILE *fp;
1.5       takayama  842:   SET_MYERROROUT;
1.1       maekawa   843:   strcpy(fname,OxPortFileName);
                    844:   strcat(fname,".control");
                    845:   if ((fp=fopen(fname,"r")) == NULL) {
                    846:   }{
                    847:     fclose(fp);
                    848:     if (unlink(fname)) {
                    849:       fprintf(MyErrorOut,"fail unlink.\n");
                    850:     }
                    851:
                    852:   }
                    853:   strcpy(fname,OxPortFileName);
                    854:   strcat(fname,".data");
                    855:   if ((fp=fopen(fname,"r")) == NULL) {
                    856:   }{
                    857:     fclose(fp);
                    858:     if (unlink(fname)) {
                    859:       fprintf(MyErrorOut,"fail unlink.\n");
                    860:     }
                    861:   }
                    862: }
                    863:
                    864: char *oxGenPass(void) {
1.3       takayama  865:   static int seed = 0;
1.1       maekawa   866:   long p;
                    867:   char *s;
1.3       takayama  868:   int i;
                    869:   if (seed == 0) {
                    870:     seed = (int) time(NULL) + (int) &p;
                    871:     srandom((unsigned int) seed);
                    872:   }
                    873:   for (i=0; i < ((int) &p) % 100 ; i++) random();
1.1       maekawa   874:   p = random();
                    875:   s = (char *)malloc(128*sizeof(char));
                    876:   sprintf(s,"%ld",p);
                    877:   return(s);
                    878: }
                    879:
                    880:
                    881: static void cancelConnection() {
                    882:   extern jmp_buf MyEnv_oxmisc;
                    883:   signal(SIGALRM,SIG_IGN);
                    884:   fprintf(stderr,"Time out in TCP/IP connection.\n");
                    885:   longjmp(MyEnv_oxmisc,1);
                    886: }
                    887:
                    888: oxclientp oxCreateClient2(int fdstream,int portStream,
                    889:                          int fdcontrol,int portControl,int ipmask,char *pass)
                    890: {
                    891:   static int clnum = 0;
                    892:   int v = 0;
                    893:   int fdControl = -1;
                    894:   int fdStream = -1;
                    895:   int m;
                    896:
                    897:   char *s;
                    898:   oxclientp client;
                    899:   extern jmp_buf MyEnv_oxmisc ;
                    900:   int controlByteOrder, engineByteOrder;
                    901:
                    902:   v = !Quiet;
                    903:   if (setjmp(MyEnv_oxmisc)) {
                    904:     return(NULL);
                    905:   }else{
                    906:   }
                    907:   alarm((unsigned int) 10);  /* setup timeout. */
                    908:   signal(SIGALRM,cancelConnection);
                    909:
                    910:   switch(ipmask) {
                    911:   case 0:/* only local */
                    912:     fdControl = socketAcceptLocal(fdcontrol);
                    913:     fdStream  = socketAcceptLocal(fdstream);
                    914:     break;
                    915:   default:/* any */
                    916:     fdControl = socketAccept(fdcontrol);
                    917:     fdStream  = socketAccept(fdstream);
                    918:     break;
                    919:   }
                    920:   if (v) fprintf(stderr,"\nControl port %d : Connected.\n",portControl);
                    921:   if (v) fprintf(stderr,"\nStream port %d : Connected.\n",portStream);
                    922:
                    923:   if (fdStream == -1 || fdControl == -1) {
                    924:     fprintf(stderr,"\nOpen error in oxCreateClient.\n");
                    925:     return(NULL);
                    926:   }
                    927:
1.6     ! takayama  928:   /* Authentication by password. */
1.1       maekawa   929:   m = strlen(pass);
                    930:   s = (char *)mymalloc(sizeof(char)*(m+1));
1.2       takayama  931:   read(fdControl,s,m+1); s[m] = '\0';
1.1       maekawa   932:   if (strcmp(s,pass) != 0) {
1.6     ! takayama  933:     fprintf(stderr,"oxCreateClient2(): password authentication failed for control channel.\n");
1.1       maekawa   934:     close(fdControl);
                    935:     return(NULL);
                    936:   }
1.2       takayama  937:   read(fdStream,s,m+1); s[m] = '\0';
1.1       maekawa   938:   if (strcmp(s,pass) != 0) {
1.6     ! takayama  939:     fprintf(stderr,"oxCreateClient2(): password authentication failed for data channel.\n");
1.1       maekawa   940:     close(fdStream);
                    941:     return(NULL);
                    942:   }
                    943:   signal(SIGALRM,SIG_IGN);
                    944:
                    945:   controlByteOrder = oxSetByteOrder(fdControl);
                    946:   if (v) fprintf(stderr,"Byte order for control process is %s.\n",
                    947:                 (controlByteOrder == 0? "network byte order":
                    948:                  (controlByteOrder == 1? "little indican":
                    949:                   "big indian")));
                    950:   engineByteOrder = oxSetByteOrder(fdStream);
                    951:   if (v) fprintf(stderr,"Byte order for engine process is %s.\n",
                    952:                 (engineByteOrder == 0? "network byte order":
                    953:                  (engineByteOrder == 1? "little indican":
                    954:                   "big indian")));
                    955:
                    956:
                    957:   client = (oxclientp) mymalloc(sizeof(oxclient));
                    958:   oxInitClient(client);
                    959:   client->datafp2 = fp2open(fdStream);
                    960:   if (client->datafp2 == NULL) {
                    961:     fprintf(stderr,"oxCreateClient2(): fp2open(fd) failed.\n");
                    962:     return(NULL);
                    963:   }
                    964:   client->dataport = portStream;
                    965:   client->controlport = portControl;
                    966:   client->controlfd = fdControl;
                    967:   client->id = clnum; clnum++;
                    968:   client->type = CLIENT_SOCKET; /* socket */
                    969:   client->engineByteOrder = engineByteOrder;
                    970:   client->controlByteOrder = controlByteOrder;
                    971:   return(client);
                    972: }
                    973:
                    974: int oxSetByteOrder(int fd) {
                    975:   char data[1];
                    976:   int peertype;
                    977:   /* It is for client. read and next write. */
                    978:   /* oxSocketSelect0(fd,10);  wait. */
                    979:   read(fd,data,1);
                    980:   peertype = (unsigned char) data[0];
                    981:
                    982:   /* We support only Network byte order */
                    983:   data[0] = OX_BYTE_NETWORK_BYTE_ORDER;
                    984:   write(fd,data,1);
                    985:
                    986:   return(OX_BYTE_NETWORK_BYTE_ORDER);
                    987: }
                    988:
                    989: int oxTellMyByteOrder(int fd) {
                    990:   char data[1];
                    991:   int peertype;
                    992:   /* It is for server. read and next write. */
                    993:
                    994:   /* We support only Network byte order */
                    995:   data[0] = OX_BYTE_NETWORK_BYTE_ORDER;
                    996:   write(fd,data,1);
                    997:   fsync(fd);  /* returns 0 if normal. Does it work for socket? */
                    998:
                    999:   read(fd,data,1);
                   1000:
                   1001:   return(OX_BYTE_NETWORK_BYTE_ORDER);
                   1002: }
                   1003:
                   1004:
                   1005:

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