/* ** mod_std.c - Standard w3-msql library module ** ** ** Copyright (c) 1995-96 Hughes Technologies Pty Ltd ** ** Permission to use, copy, and distribute for non-commercial purposes, ** is hereby granted without fee, providing that the above copyright ** notice appear in all copies and that both the copyright notice and this ** permission notice appear in supporting documentation. ** ** The software may be modified for your own purposes, but modified versions ** may not be distributed. ** ** This software is provided "as is" without any expressed or implied warranty. ** */ #include #include #include #include #include #include #include #include #include #include #include #include "lite.h" #include "regexp/regexp.h" #include typedef struct fdtab_s { int fd, type, mark, len; char buf[4096]; FILE *fp; struct fdtab_s *next; } fdtab_t; #define NORMAL 1 #define PIPE 2 #define FIFO 3 fdtab_t *fdtab = NULL; extern sym_t *externReturn; #ifndef HAVE_SYS_ERRLIST extern char *sys_errlist[]; #endif char *sigmap[NSIG]; void checkContentType(); static char errBuf[160]; /**************************************************************************** ** _formatPrintf ** ** Purpose : The engine behind the *printf routines ** Args : usual printf args in a param list ** Returns : char * output ** Notes : uses static buf for output */ static char *formatPrintf(params) plist_t *params; { plist_t *cur; char *fmt, *icp, *ocp, *idx, rJust, zeroPad, *tbp, tmpBuf[5 * 1024], *tmp, *cp; static char buf[5 * 1024]; sym_t *sym, var; int fieldWidth, dataWidth, widthDiff, precision, foundPeriod = 0; if (!params) return(NULL); (void)bzero(buf,sizeof(buf)); fmt = params->sym->val; if (!fmt) return(NULL); cur = params->next; icp = fmt; ocp = buf; while(*icp) { switch(*icp) { case '%': icp++; rJust = 1; if (*icp == '-') { rJust = 0; icp++; } zeroPad=0; if (*icp == '0') { zeroPad = 1; icp++; } fieldWidth = 0; dataWidth = 0; precision = -1; while(isdigit(*icp)) { fieldWidth *= 10; fieldWidth += *icp - '0'; icp++; } if (*icp == '.') { icp++; precision = 0; while(isdigit(*icp)) { precision *= 10; precision += *icp - '0'; icp++; } } bzero(tmpBuf,sizeof(tmpBuf)); tbp = tmpBuf; switch(*icp) { char *tcp; case 's': if (!cur) { *tbp++ = 's'; break; } if (cur->sym->type != TYPE_CHAR) { runError("Bad value type in printf"); exit(1); } tcp = symUnpackSymbol(cur->sym); strcpy(tbp,tcp); free(tcp); cur = cur->next; break; case 'd': if (!cur) { *tbp++ = 'd'; break; } if (cur->sym->type != TYPE_INT) { runError("Bad value type in printf"); exit(1); } tcp = symUnpackSymbol(cur->sym); cp = (char *)index(tcp,'.'); if (cp) *cp = 0; strcpy(tbp,tcp); free(tcp); cur = cur->next; break; case 'f': if (precision < 0) precision = 6; if (!cur) { *tbp++ = 'f'; break; } if (cur->sym->type != TYPE_REAL) { runError("Bad value type in printf"); exit(1); } tcp = symUnpackSymbol(cur->sym); cp = (char *)index(tcp,'.'); if (cp) { cp++; foundPeriod=1; while (precision&&*cp) { cp++; precision--; } if (cp) *cp = 0; } strcpy(tbp,tcp); free(tcp); if (!foundPeriod) { strcat(tbp,"."); if (precision <1) strcat(tbp,"0"); } while (precision > 0) { strcat(tbp, "0"); precision--; } cur=cur->next; break; default: *tbp++ = *icp; } dataWidth = strlen(tmpBuf); widthDiff = fieldWidth - dataWidth; if (widthDiff < 1) { strcat(ocp,tmpBuf); while(*ocp) ocp++; break; } if(rJust || zeroPad) { while(widthDiff) { if (zeroPad) *ocp++ = '0'; else *ocp++ = ' '; widthDiff--; } } strcat(ocp,tmpBuf); while(*ocp) ocp++; if(!rJust) { while(widthDiff) { *ocp++ = ' '; widthDiff--; } } break; case '\\': icp++; switch(*icp) { case 'n': *ocp = '\n'; break; case 't': *ocp = '\t'; break; case 'r': *ocp = '\r'; break; default: *ocp = *icp; } ocp++; break; default: *ocp++ = *icp; } icp++; } return(buf); } /**************************************************************************** ** _doPrintf ** ** Purpose : printf front-end ** Args : printf args as param list (passed on) ** Returns : nothing ** Notes : */ void doPrintf(params) plist_t *params; { char *outbuf; checkContentType(); outbuf = formatPrintf(params); (void)write(fileno(stdout),outbuf,strlen(outbuf)); } /**************************************************************************** ** _doFprintf ** ** Purpose : printf front-end for file IO ** Args : printf args as param list (passed on) ** Returns : nothing ** Notes : */ void doFprintf(params) plist_t *params; { int fd; char *outbuf; fdtab_t *cur; fd = (int) * (int *)params->sym->val; cur = fdtab; while(cur) { if(cur->fd == fd) break; cur = cur->next; } if (!cur) { sprintf(errBuf,"Bad file descriptor (%d).",fd); runError(errBuf); exit(1); } outbuf = formatPrintf(params->next); (void)write(fd,outbuf,strlen(outbuf)); } void doEcho(params) plist_t *params; { checkContentType(); printf("%s",params->sym->val); } void initStandardModule() { fdtab_t *new; int fd; for (fd = 0; fd < 3; fd++) { new = (fdtab_t *)malloc(sizeof(fdtab_t)); new->fd = fd; new->mark = new->len = 0; new->type = NORMAL; new->next = fdtab; fdtab = new; } } /**************************************************************************** ** _doOpen ** ** Purpose : Open the specified file/pipe/process ** Args : path,mode ** Returns : nothing ** Notes : Updates internal file descriptor table */ void doOpen(params) plist_t *params; { char *path, *mode; int fd, *res; FILE *pfile; fdtab_t *new; path = (char *)params->sym->val; mode = params->next->sym->val; new = (fdtab_t *)malloc(sizeof(fdtab_t)); switch(*mode) { case '>': switch(*(mode+1)) { case 'P': /* Write named pipe */ fd = mknod(path,S_IFIFO | 0777, 0); if (fd < 0) { setError(sys_errlist[errno]); externReturn = createIntSymbol(-1); return; } fd = open(path,O_WRONLY|O_CREAT, 0777); new->type = FIFO; break; case '\0': /* Write mode */ fd = open(path,O_WRONLY|O_CREAT|O_TRUNC, 0777); if (fd < 0) { setError(sys_errlist[errno]); externReturn = createIntSymbol(-1); return; } new->type = NORMAL; break; case '>': /* Append mode */ fd = open(path,O_WRONLY | O_APPEND | O_CREAT, 0777); if (fd < 0) { setError(sys_errlist[errno]); externReturn = createIntSymbol(-1); return; } new->type = NORMAL; break; case '<': /* Read write mode */ fd = open(path,O_RDWR | O_CREAT, 0777); if (fd < 0) { setError(sys_errlist[errno]); externReturn = createIntSymbol(-1); return; } new->type = NORMAL; break; case '|': /* Write pipe mode */ pfile = popen(path,"w"); if (pfile) fd = fileno(pfile); else { setError(sys_errlist[errno]); externReturn = createIntSymbol(-1); return; } new->type = PIPE; new->fp = pfile; break; default: sprintf(errBuf,"Bad file open mode '%s'" , mode); runError(errBuf); exit(1); break; } break; case '<': switch(*(mode+1)) { case 'P': /* Write named pipe */ fd = mknod(path,S_IFIFO, 0); if (fd < 0) { setError(sys_errlist[errno]); externReturn = createIntSymbol(-1); return; } fd = open(path,O_RDONLY); new->type = FIFO; break; case '\0': /* Read mode */ fd = open(path,O_RDONLY); if (fd < 0) { setError(sys_errlist[errno]); externReturn = createIntSymbol(-1); return; } new->type = NORMAL; break; case '|': /* Read pipe mode */ pfile = popen(path,"r"); if (pfile) fd = fileno(pfile); else { setError(sys_errlist[errno]); externReturn = createIntSymbol(-1); return; } new->type = PIPE; new->fp = pfile; break; case '>': /* Read write mode */ fd = open(path,O_RDWR|O_CREAT,0777); if (fd < 0) { setError(sys_errlist[errno]); externReturn = createIntSymbol(-1); return; } new->type = NORMAL; break; default: sprintf(errBuf,"Bad file open mode '%s'" , mode); runError(errBuf); exit(1); break; } break; default: sprintf(errBuf,"Bad file open mode '%s'", mode); runError(errBuf); exit(1); break; } new->fd = fd; new->mark = new->len = 0; new->next = fdtab; fdtab = new; externReturn = createIntSymbol(fd); } /**************************************************************************** ** _doClose ** ** Purpose : Close an fd and free it's internal struct ** Args : fd ** Returns : nothing ** Notes : */ void doClose(params) plist_t *params; { fdtab_t *cur, *prev = NULL; int fd; fd = (int) * (int *)params->sym->val; cur = fdtab; while(cur) { if(cur->fd == fd) break; prev = cur; cur = cur->next; } if (!cur) { sprintf(errBuf,"Bad file descriptor (%d).",fd); runError(errBuf); exit(1); } switch(cur->type) { case NORMAL: case FIFO: (void)close(cur->fd); break; case PIPE: (void)pclose(cur->fp); break; } if (!prev) { fdtab = fdtab->next; } else { prev->next = cur->next; } cur = (fdtab_t *)free(cur); } /**************************************************************************** ** _bufRead ** ** Purpose : The file IO engine ** Args : Read buffered IO for the given fd ** Returns : a single character ** Notes : Buffer maintained */ char *bufRead(tab) fdtab_t *tab; { static char cb; if (tab->mark == tab->len) { tab->len = read(tab->fd,tab->buf,4096); if(tab->len < 1) { tab->mark = tab->len = 0; return(NULL); } tab->mark = 0; } cb = *(tab->buf + tab->mark++); return(&cb); } /**************************************************************************** ** _tokRead ** ** Purpose : Toekn based file IO engine ** Args : fd, token ** Returns : read data ** Notes : */ char *tokRead(fd,tok) int fd; char *tok; { int count, bail; static char buf[1024]; char *newChar; register char *cp, *tp; fdtab_t *cur; cur = fdtab; while(cur) { if(cur->fd == fd) break; cur = cur->next; } if (!cur) { sprintf(errBuf,"Bad file descriptor (%d).",fd); runError(errBuf); exit(1); } (void)bzero(buf,sizeof(buf)); cp = buf; count = 0; bail = 0; while(count < sizeof(buf)) { newChar = bufRead(cur); if (newChar) { count++; tp = tok; while(*tp) { if (*newChar == *tp) { bail = 1; break; } tp++; } *cp++ = *newChar; } else bail = 1; if (bail) break; } if (!count) { return(NULL); } else return(buf); } /**************************************************************************** ** _doReadLn ** ** Purpose : Read a line of text from the given fd ** Args : fd and buflen as param list ** Returns : nothing ** Notes : Uses tokread for the dirty work */ void doReadLn(params) plist_t *params; { int fd; char *buf; fd = (int) * (int *)params->sym->val; buf = tokRead(fd,"\n"); if (!buf) { externReturn = createCharSymbol(""); } else { externReturn = createCharSymbol(buf); } } /**************************************************************************** ** _doReadTok ** ** Purpose : Read from a file till a token is found ** Args : fd, token (as param list) ** Returns : nothing ** Notes : uses tokRead */ void doReadTok(params) plist_t *params; { int fd; char *tok, *buf; fd = (int) * (int *)params->sym->val; tok = params->next->sym->val; tok = tok; buf = tokRead(fd,tok); if (!buf) { externReturn = createCharSymbol(""); } else { externReturn = createCharSymbol(buf); } } /**************************************************************************** ** _doRead ** ** Purpose : Straight read from the fd ** Args : fd and buf length ** Returns : nothing ** Notes : Still uses internal buffering */ void doRead(params) plist_t *params; { int fd, bufLen, count; char *buf, *newChar, *cp; fdtab_t *cur; fd = (int) * (int *)params->sym->val; bufLen = (int) * (int *)params->next->sym->val; cur = fdtab; while(cur) { if(cur->fd == fd) break; cur = cur->next; } if (!cur) { sprintf(errBuf,"Bad file descriptor (%d).",fd); runError(errBuf); exit(1); } buf = (char *)malloc(bufLen+1); (void)bzero(buf,bufLen+1); cp = buf; count = 0; while(count < bufLen) { newChar = bufRead(cur); if (newChar) *cp++ = *newChar; else break; count++; } if (!count) externReturn = createCharSymbol(""); else externReturn = createCharSymbol(buf); } /**************************************************************************** ** _doExit ** ** Purpose : Interface to exit(2) ** Args : exit code ** Returns : Nothing ** Notes : */ void doExit(params) plist_t *params; { sendFooter(); exit((int) *(int *)params->sym->val); } /**************************************************************************** ** _doUnlink ** ** Purpose : Interface to unlink(2) ** Args : path ** Returns : nothing ** Notes : */ void doUnlink(params) plist_t *params; { int res; res = unlink(params->sym->val); if (res < 0) setError(sys_errlist[errno]); externReturn = createIntSymbol(res); } /**************************************************************************** ** _doCrypt ** ** Purpose : Interface to crypt() ** Args : value and salt ** Returns : crypt value ** Notes : */ void doCrypt(params) plist_t *params; { char *res, *pw, *salt; pw = params->sym->val; res = (char *)fcrypt(pw,params->next->sym->val); externReturn = createCharSymbol(res); } /**************************************************************************** ** _doUmask ** ** Purpose : Interface to umask(2) ** Args : mask ** Returns : nothing ** Notes : */ void doUmask(params) plist_t *params; { int mask, *res; mask = (int) * (int *)params->sym->val; mask = umask(mask); externReturn = createIntSymbol(mask); } /**************************************************************************** ** _doChmod ** ** Purpose : Interface to chmod(2) ** Args : mode ** Returns : nothing ** Notes : */ void doChmod(params) plist_t *params; { int mode, result; char *path; path = params->sym->val; mode = (int) * (int *)params->next->sym->val; result = chmod(path,mode); externReturn = createIntSymbol(result); } /**************************************************************************** ** _doSleep ** ** Purpose : Interface to sleep(2) ** Args : sleep time ** Returns : Nothing ** Notes : */ void doSleep(params) plist_t *params; { int time; time = (int) * (int *)params->sym->val; sleep(time); } void doSystem(params) plist_t *params; { char *command; int res; sym_t *sym; command = params->sym->val; res = system(command); sym = createIntSymbol(res); externReturn = sym; } /**************************************************************************** ** _doGetpid ** ** Purpose : Interface to getpid(2) ** Args : Nothing ** Returns : Nothing ** Notes : */ void doGetpid(params) plist_t *params; { int pid, *res; pid = getpid(); externReturn = createIntSymbol(pid); } /**************************************************************************** ** _doGetppid ** ** Purpose : Interface to getppid(2) ** Args : Nothing ** Returns : Nothing ** Notes : */ void doGetppid(params) plist_t *params; { int pid, *res; pid = getppid(); externReturn = createIntSymbol(pid); } /**************************************************************************** ** _doChdir ** ** Purpose : Interface to chdir() ** Args : ** Returns : ** Notes : */ void doChdir(params) plist_t *params; { int result; char *path; path = params->sym->val; result = chdir(path); if (result < 0) setError(sys_errlist[errno]); externReturn = createIntSymbol(result); } /**************************************************************************** ** _doMkdir ** ** Purpose : Interface to mkdir() ** Args : ** Returns : ** Notes : */ void doMkdir(params) plist_t *params; { int result, *res; char *path; path = params->sym->val; result = mkdir(path,0777); if (result < 0) setError(sys_errlist[errno]); externReturn = createIntSymbol(result); } /**************************************************************************** ** _doSplit ** ** Purpose : Split a string on a given token into an array ** Args : text string and token ** Returns : Nothint ** Notes : */ void doSplit(params) plist_t *params; { char *data, sep, *cp, *cp1; sym_t *array, *sym; int index = 0; data = params->sym->val; sep = *(params->next->sym->val); array = createArray(); cp1 = cp = data; while(*cp) { if (*cp == sep) { *cp++ = 0; sym = createCharSymbol(cp1); symSetArrayElement(array,index,sym); cp1=cp; index++; } else cp++; } sym = createCharSymbol(cp1); symSetArrayElement(array,index,sym); externReturn = array; } void doStrSeg(params) plist_t *params; { char *str, *new; int start, end, length; str = params->sym->val; start = (int) * (int *)params->next->sym->val; end = (int) * (int *)params->next->next->sym->val; if ( (end > strlen(str) - 1) || (start < 0) || (start > end) ) { setError("Bad string index"); return; } length = end - start + 1; new = (char *)malloc(length+1); (void)bzero(new, length+1); strncpy(new, str + start, length); externReturn = createCharSymbol(new); free(new); } void doChop(params) plist_t *params; { char *str, *new; str = params->sym->val; new = (char *)strdup(str); new[strlen(new) - 1]=0; externReturn = createCharSymbol(new); free(new); } static char *trSpec(spec) char *spec; { char res[1024]; register char *cp1, *cp2, c; bzero(res,1024); cp1 = spec; cp2 = res; while(*cp1) { if (*cp1 == '-') { if (cp1 == spec) { setError("Bad TR format"); return(NULL); } if (*(cp1+1) < (*cp1-1)) { setError("Bad TR format"); return(NULL); } c = *(cp1-1); while(c < *(cp1+1)) { *cp2++ = c; c++; } cp1+=2; continue; } *cp2++ = *cp1++; } return((char *)strdup(res)); } void doSub(params) plist_t *params; { char *spec1, *spec2, *str, *buf, *oldBuf; register char *cpb, *cp; int len, curLen, spec1Len, spec2Len; str = params->sym->val; spec1 = params->next->sym->val; spec2 = params->next->next->sym->val; curLen = strlen(str); spec1Len = strlen(spec1); spec2Len = strlen(spec2); len = 0; buf = (char *)malloc(curLen+1); (void)bzero(buf,curLen); cpb = buf; cp = str; while (*cp) { if (*cp != *spec1) { *cpb++ = *cp++; len++; continue; } if (strncmp(cp,spec1,spec1Len) != 0) { *cpb++ = *cp++; len++; continue; } len += spec2Len ; if (spec2Len > spec1Len) { oldBuf = buf; buf = (char *)realloc(buf, curLen + (spec2Len-spec1Len)+1); cpb = buf + (cpb - oldBuf); } strcpy(cpb,spec2); cpb += spec2Len; cp += spec1Len; } *cpb = 0; externReturn = createCharSymbol(buf); free(buf); } void doTr(params) plist_t *params; { char *trans1, *trans2, *spec1, *spec2, *str; register char *cps, *cp; str = params->sym->val; spec1 = params->next->sym->val; spec2 = params->next->next->sym->val; if((trans1 = trSpec(spec1)) == NULL) return; if((trans2 = trSpec(spec2)) == NULL) { free(trans1); return; } cps = str; while(*cps) { cp = trans1; while(*cp) { if (*cp == *cps) { *cps = *(char *)(trans2 + (cp-trans1)); break; } cp++; } cps++; } externReturn = createCharSymbol(str); free(trans1); free(trans2); } /**************************************************************************** ** _doTest ** ** Purpose : Functionaility like the shell's test ** Args : test and filename ** Returns : nothing ** Notes : */ void doTest(params) plist_t *params; { char *filename, test; struct stat buf; int result; test = *(params->sym->val); filename = params->next->sym->val; if (stat(filename,&buf) < 0) result = 0; else { switch(test) { case 'b': result = S_ISBLK(buf.st_mode); break; case 'c': result = S_ISCHR(buf.st_mode); break; case 'd': result = S_ISDIR(buf.st_mode); break; case 'f': result = S_ISREG(buf.st_mode); break; case 'p': result = S_ISFIFO(buf.st_mode); break; case 's': result = S_ISREG(buf.st_mode) && (buf.st_size > 0); break; case 'u': result = buf.st_mode & S_ISUID; break; case 'g': result = buf.st_mode & S_ISGID; break; default: runError("Bad test passed to test()"); } } externReturn = createIntSymbol(result); } void doKill(params) plist_t *params; { int sig, pid, res; pid = (int) * (int *)params->sym->val; sig = (int) * (int *)params->next->sym->val; if (sig < 0 || sig > NSIG-1) { externReturn = createIntSymbol(-1); setError("Bad signal number"); return; } res = kill(pid,sig); if (res < 0) { externReturn = createIntSymbol(-1); setError(sys_errlist[errno]); return; } externReturn = createIntSymbol(0); } void doStat(params) plist_t *params; { struct stat buf; char *path, txtbuf[80]; sym_t *array, *sym; int index; path = params->sym->val; if (stat(path,&buf) < 0) { setError(sys_errlist[errno]); return; } index = 0; array = createArray(); sym = createIntSymbol(buf.st_ino); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_mode & 1023); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_nlink); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_uid); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_gid); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_size); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_atime); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_mtime); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_ctime); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_blksize); symSetArrayElement(array,index++,sym); sym = createIntSymbol(buf.st_blocks); symSetArrayElement(array,index++,sym); externReturn = array; } void doRmdir(params) plist_t *params; { char *path; int res; path = params->sym->val; res = rmdir(path); if (res < 0) setError(sys_errlist[errno]); externReturn = createIntSymbol(res); } void doRename(params) plist_t *params; { char *old, *new; int res; old = params->sym->val; new = params->next->sym->val; res = rename(old,new); if (res < 0) setError(sys_errlist[errno]); externReturn = createIntSymbol(res); } void doTruncate(params) plist_t *params; { char *path; int length, res; path = params->sym->val; length = (int) * (int *)params->next->sym->val; res = truncate(path,length); if (res < 0) setError(sys_errlist[errno]); externReturn = createIntSymbol(res); } void doLink(params) plist_t *params; { char *path, *new; int res; path = params->sym->val; new = params->next->sym->val; res = link(path,new); if (res < 0) setError(sys_errlist[errno]); externReturn = createIntSymbol(res); } void doSymlink(params) plist_t *params; { char *path, *new; int res; path = params->sym->val; new = params->next->sym->val; #ifdef HAVE_SYMLINK res = symlink(path,new); if (res < 0) setError(sys_errlist[errno]); externReturn = createIntSymbol(res); #else setError("Symbolic links not available!"); externReturn = createIntSymbol(-1); #endif } void doSubStr(params) plist_t *params; { char *reg, *source, *sub, buf[1024]; regexp *prog; source = params->sym->val; reg = params->next->sym->val; sub = params->next->next->sym->val; prog = regcomp(reg); regexec(prog,source); (void)bzero(buf,sizeof(buf)); regsub(prog,sub,buf); externReturn = createCharSymbol(buf); } void doGetHostByName(params) plist_t *params; { char *hostname; struct hostent *hp; sym_t *array, *sym; int index; hostname = params->sym->val; hp = gethostbyname(hostname); if (!hp) { setError("Host unknown"); return; } index = 0; array = createArray(); sym = createCharSymbol((char *)hp->h_name); symSetArrayElement(array,index++,sym); sym = createCharSymbol(inet_ntoa(*(struct in_addr*)*(hp->h_addr_list))); symSetArrayElement(array,index++,sym); externReturn = array; } void doGetHostByAddr(params) plist_t *params; { char *hostAddr; struct hostent *hp; struct sockaddr_in addr; sym_t *array, *sym; int index; u_long laddr; hostAddr = params->sym->val; (void)bzero(&addr, sizeof(addr)); addr.sin_family = AF_INET; laddr = inet_addr(hostAddr); if (laddr < 0) { setError("Bad IP Address Format"); return; } addr.sin_addr.s_addr = laddr; hp = gethostbyaddr((char *)&(addr.sin_addr),sizeof(addr.sin_addr), AF_INET); if (!hp) { setError("Host unknown"); return; } index = 0; array = createArray(); sym = createCharSymbol((char *)hp->h_name); symSetArrayElement(array,index++,sym); sym = createCharSymbol(inet_ntoa(*(struct in_addr*)*(hp->h_addr_list))); symSetArrayElement(array,index++,sym); externReturn = array; } void doTime(params) plist_t *params; { time_t res; time(&res); if (res < 0) setError(sys_errlist[errno]); externReturn = createIntSymbol(res); } void doSrandom(params) plist_t *params; { u_int seed; seed = (u_int) * (u_int *)params->sym->val; srandom(seed); } void doRandom(params) plist_t *params; { int res; res = random(); externReturn = createIntSymbol(res); } void doCTime(params) plist_t *params; { time_t time; char *res; time = (time_t) * (int *)params->sym->val; res = (char *)ctime(&time); if (res == NULL) { setError(sys_errlist[errno]); } else { externReturn = createCharSymbol(res); } } char *contentType = NULL; void doSetContentType(params) plist_t *params; { contentType = (char *)strdup(params->sym->val); } void doIncludeFile(params) plist_t *params; { char *filename, buf[1024]; int fd, numBytes; checkContentType(); filename = params->sym->val; fd = open(filename,O_RDONLY,0); if (fd < 0) { externReturn = createIntSymbol(-1); setError(sys_errlist[errno]); return; } while ((numBytes = read(fd,buf,1024)) > 0) { write(fileno(stdout),buf,numBytes); } close(fd); externReturn = createIntSymbol(0); } /* ** Extended time/date functions */ void doTime2UnixTime(params) plist_t *params; { int sec, min, hour, day, mon, year; time_t res; sec = (int) * (int *)params->sym->val; min = (int) * (int *)params->next->sym->val; hour = (int) * (int *)params->next->next->sym->val; day = (int) * (int *)params->next->next->next->sym->val; mon = (int) * (int *)params->next->next->next->next->sym->val; year = (int) * (int *)params->next->next->next->next->next->sym->val; res = gregorian_to_unix(sec, min, hour, day, mon, year); externReturn = createIntSymbol(res); } void doUnixTime2Year(params) plist_t *params; { int year, time; time = (int) * (int *)params->sym->val; year = unix_to_gregorian_year(time); externReturn = createIntSymbol(year); } void doUnixTime2Month(params) plist_t *params; { int month, time; time = (int) * (int *)params->sym->val; month = unix_to_gregorian_month(time); externReturn = createIntSymbol(month); } void doUnixTime2Day(params) plist_t *params; { int day, time; time = (int) * (int *)params->sym->val; day = unix_to_gregorian_day(time); externReturn = createIntSymbol(day); } void doUnixTime2Hour(params) plist_t *params; { int hour, time; time = (int) * (int *)params->sym->val; hour = unix_to_hour(time); externReturn = createIntSymbol(hour); } void doUnixTime2Min(params) plist_t *params; { int min, time; time = (int) * (int *)params->sym->val; min = unix_to_minute(time); externReturn = createIntSymbol(min); } void doUnixTime2Sec(params) plist_t *params; { int sec, time; time = (int) * (int *)params->sym->val; sec = unix_to_second(time); externReturn = createIntSymbol(sec); } void doStrftime(params) plist_t *params; { time_t time; char *fmt; static char buf[1024]; fmt = (char *)params->sym->val; time = (int) * (int *)params->next->sym->val; strftime(buf, 1024, fmt, localtime(&time)); externReturn = createCharSymbol(buf); } void doGetPwNam(params) plist_t *params; { struct passwd *pwe; sym_t *array, *sym; int index; pwe = getpwnam(params->sym->val); if (!pwe) { externReturn = createCharSymbol(""); return; } array = createArray(); index=0; sym = createCharSymbol(pwe->pw_name); symSetArrayElement(array,index++,sym); sym = createCharSymbol(pwe->pw_passwd); symSetArrayElement(array,index++,sym); sym = createIntSymbol(pwe->pw_uid); symSetArrayElement(array,index++,sym); sym = createIntSymbol(pwe->pw_gid); symSetArrayElement(array,index++,sym); sym = createCharSymbol(pwe->pw_gecos); symSetArrayElement(array,index++,sym); sym = createCharSymbol(pwe->pw_dir); symSetArrayElement(array,index++,sym); sym = createCharSymbol(pwe->pw_shell); symSetArrayElement(array,index++,sym); externReturn = array; } void doGetPwUid(params) plist_t *params; { struct passwd *pwe; sym_t *array, *sym; int index, uid; uid = (int) * (int *)params->sym->val; pwe = getpwuid(uid); if (!pwe) { externReturn = createCharSymbol(""); return; } array = createArray(); index=0; sym = createCharSymbol(pwe->pw_name); symSetArrayElement(array,index++,sym); sym = createCharSymbol(pwe->pw_passwd); symSetArrayElement(array,index++,sym); sym = createIntSymbol(pwe->pw_uid); symSetArrayElement(array,index++,sym); sym = createIntSymbol(pwe->pw_gid); symSetArrayElement(array,index++,sym); sym = createCharSymbol(pwe->pw_gecos); symSetArrayElement(array,index++,sym); sym = createCharSymbol(pwe->pw_dir); symSetArrayElement(array,index++,sym); sym = createCharSymbol(pwe->pw_shell); symSetArrayElement(array,index++,sym); externReturn = array; }