/* text2atm.c - Converts textual representation of ATM address to binary encoding */ /* Written 1995-2000 by Werner Almesberger, EPFL-LRC/ICA */ #if HAVE_CONFIG_H #include <config.h> #endif #include <stdio.h> #include <ctype.h> #include <string.h> #include <limits.h> #include "atm.h" #include "atmsap.h" #include "atmres.h" static int try_pvc(const char *text,struct sockaddr_atmpvc *addr,int flags) { int part[3]; int i; part[0] = part[1] = part[2] = 0; i = 0; while (1) { if (!*text) return FATAL; /* empty or ends with a dot */ if (i == 3) return TRY_OTHER; /* too long */ if (isdigit(*text)) { if (*text == '0' && isdigit(text[1])) return TRY_OTHER; /* no leading zeroes */ do { if (part[i] > INT_MAX/10) return TRY_OTHER;/* number too big */ part[i] = part[i]*10+*text++-'0'; } while (isdigit(*text)); i++; if (!*text) break; if (*text++ != '.') return TRY_OTHER; /* non-PVC character */ continue; } if (*text == '*') { if (!(flags & T2A_WILDCARD)) return FATAL; /* not allowed */ part[i++] = ATM_ITF_ANY; /* all *_ANY have the same value */ } else { if (*text != '?') return TRY_OTHER; /* invalid character */ if (!(flags & T2A_UNSPEC)) return FATAL; /* not allowed */ part[i++] = ATM_VPI_UNSPEC; /* all *_UNSPEC have the same value */ } if (!*++text) break; if (*text++ != '.') return FATAL; /* dot required */ } if (i < 2) return TRY_OTHER; /* no dots */ if (i == 2) { part[2] = part[1]; part[1] = part[0]; part[0] = 0; /* default interface */ } if (part[0] > SHRT_MAX || part[2] > ATM_MAX_VCI) return TRY_OTHER; /* too big */ if (part[1] > (flags & T2A_NNI ? ATM_MAX_VPI_NNI : ATM_MAX_VPI)) return TRY_OTHER; /* too big */ if (part[0] == ATM_VPI_UNSPEC) return FATAL; /* bad */ addr->sap_family = AF_ATMPVC; addr->sap_addr.itf = part[0]; addr->sap_addr.vpi = part[1]; addr->sap_addr.vci = part[2]; return 0; } static int do_try_nsap(const char *text,struct sockaddr_atmsvc *addr,int flags) { const char *walk; int count,pos,dot; int offset,len; char value; count = dot = 0; for (walk = text; *walk; walk++) if (isdigit(*walk)) { if (count++ == 15) break; dot = 1; } else if (*text != '.') break; else if (!dot) return FATAL; /* two dots in a row */ else dot = 0; if (*walk != ':') { pos = 0; offset = 0; } else { if (!dot || *text == '0') return FATAL; addr->sas_addr.prv[0] = ATM_AFI_E164; addr->sas_addr.prv[1] = 0; memset(addr->sas_addr.prv+1,0,8); for (pos = 18-count-1; *text; text++) { if (*text == '.') continue; if (*text == ':') break; else { if (pos & 1) addr->sas_addr.prv[pos >> 1] |= *text-'0'; else addr->sas_addr.prv[pos >> 1] = (*text-'0') << 4; pos++; } } addr->sas_addr.prv[8] |= 0xf; text++; pos++; offset = 72; } for (dot = 0; *text; text++) if (isxdigit(*text)) { if (pos == ATM_ESA_LEN*2) return TRY_OTHER; /* too long */ value = isdigit(*text) ? *text-'0' : (islower(*text) ? toupper(*text) : *text)-'A'+10; if (pos & 1) addr->sas_addr.prv[pos >> 1] |= value; else addr->sas_addr.prv[pos >> 1] = value << 4; pos++; dot = 1; } else if (*text == '/' && (flags & T2A_WILDCARD)) break; else if (*text != '.') return TRY_OTHER; else { if (!dot) return FATAL; /* two dots in a row */ dot = 0; } if (!dot) return FATAL; if (pos > 1 && !*addr->sas_addr.prv) return TRY_OTHER; /* no leading zeroes */ if (!*text) return pos != ATM_ESA_LEN*2 ? TRY_OTHER : ATM_ESA_LEN*2; /* handle bad length */ len = 0; while (*++text) { if (!isdigit(*text)) return -1; /* non-digit in length */ if (len >= pos*4) return -1; /* too long */ len = len*10+*text-'0'; } if (len > 7 && addr->sas_addr.prv[0] != ATM_AFI_E164) offset = 72; if (len < offset) return FATAL; return len > pos*4 ? TRY_OTHER : len; } static int try_nsap(const char *text,struct sockaddr_atmsvc *addr,int flags) { int result; result = do_try_nsap(text,addr,flags); if (result < 0) return result; addr->sas_family = AF_ATMSVC; *addr->sas_addr.pub = 0; return result; } static int try_e164(const char *text,struct sockaddr_atmsvc *addr,int flags) { int i,dot,result; if (*text == ':' || *text == '+') text++; for (i = dot = 0; *text; text++) if (isdigit(*text)) { if (i == ATM_E164_LEN) return TRY_OTHER; /* too long */ addr->sas_addr.pub[i++] = *text; dot = 1; } else if (*text != '.') break; else { if (!dot) return TRY_OTHER; /* two dots in a row */ dot = 0; } if (!dot) return TRY_OTHER; addr->sas_addr.pub[i] = 0; *addr->sas_addr.prv = 0; result = 0; if (*text) { if (*text++ != '+') return TRY_OTHER; else { result = do_try_nsap(text,addr,flags); if (result < 0) return FATAL; } } addr->sas_family = AF_ATMSVC; return result; } static int search(FILE *file,const char *text,struct sockaddr *addr,int length, int flags) { char line[MAX_ATM_NAME_LEN+1]; const char *here; int result; while (fgets(line,MAX_ATM_NAME_LEN,file)) { if (!strtok(line,"\t\n ")) continue; while ((here = strtok(NULL,"\t\n "))) if (!strcasecmp(here,text)) { here = strtok(line,"\t\n "); result = text2atm(here,addr,length,flags); if (result >= 0) return result; } } return TRY_OTHER; } static int try_name(const char *text,struct sockaddr *addr,int length, int flags) { FILE *file; int result; if (!(file = fopen(HOSTS_ATM,"r"))) return TRY_OTHER; result = search(file,text,addr,length,flags); (void) fclose(file); return result; } int text2atm(const char *text,struct sockaddr *addr,int length,int flags) { int result; if (!*text) return -1; if (!(flags & (T2A_PVC | T2A_SVC))) flags |= T2A_PVC | T2A_SVC; if (length < sizeof(struct sockaddr_atmpvc)) return -1; if (flags & T2A_PVC) { result = try_pvc(text,(struct sockaddr_atmpvc *) addr,flags); if (result != TRY_OTHER) return result; } if ((flags & T2A_SVC) && length >= sizeof(struct sockaddr_atmsvc)) { result = try_nsap(text,(struct sockaddr_atmsvc *) addr,flags); if (result != TRY_OTHER) return result; result = try_e164(text,(struct sockaddr_atmsvc *) addr,flags); if (result != TRY_OTHER) return result; } if (!(flags & T2A_NAME)) return -1; result = try_name(text,addr,length,flags & ~T2A_NAME); if (result == TRY_OTHER && !(flags & T2A_LOCAL)) result = ans_byname(text,(struct sockaddr_atmsvc *) addr,length,flags); if (result != TRY_OTHER) return result; return -1; }