/* * Copyright 2000, International Business Machines Corporation and others. * All Rights Reserved. * * This software has been released under the terms of the IBM Public * License. For details, see the LICENSE file in the top-level source * directory or online at http://www.openafs.org/dl/license10.html */ #include #include RCSID ("$Header$"); #include #include #ifdef UKERNEL #include "afs/sysincludes.h" #include "afsincludes.h" #else /* UKERNEL */ #include #ifdef AFS_NT40_ENV #include #include #include #include #else #include #include #include #include #include #ifdef AFS_AFSDB_ENV #include #ifdef HAVE_ARPA_NAMESER_COMPAT_H #include #endif #include #endif /* AFS_AFSDB_ENV */ #endif /* AFS_NT40_ENV */ #include #include #include #include #include #include #include #include #ifdef HAVE_STRING_H #include #else #ifdef HAVE_STRINGS_H #include #endif #endif #ifdef HAVE_UNISTD_H #include #endif #endif /* UKERNEL */ #include #include "cellconfig.h" #include "keys.h" #ifdef AFS_NT40_ENV #ifdef AFS_AFSDB_ENV /* cm_dns.h depends on cellconfig.h */ #include #endif /* AFS_AFSDB_ENV */ #endif static struct afsconf_servPair serviceTable[] = { {"afs", 7000,}, {"afscb", 7001,}, {"afsprot", 7002,}, {"afsvldb", 7003,}, {"afskauth", 7004,}, {"afsvol", 7005,}, {"afserror", 7006,}, {"afsnanny", 7007,}, {"afsupdate", 7008,}, {"afsrmtsys", 7009,}, {"afsres", 7010,}, /* residency database for MR-AFS */ {"afsremio", 7011,}, /* remote I/O interface for MR-AFS */ {0, 0} /* insert new services before this spot */ }; /* Prototypes */ static afs_int32 afsconf_FindService(register const char *aname); static int TrimLine(char *abuffer); #ifdef AFS_NT40_ENV static int IsClientConfigDirectory(const char *path); static int GetCellNT(struct afsconf_dir *adir); #endif static int afsconf_Check(register struct afsconf_dir *adir); static int afsconf_Touch(register struct afsconf_dir *adir); static int GetCellUnix(struct afsconf_dir *adir); static int afsconf_OpenInternal(register struct afsconf_dir *adir, char *cell, char clones[]); static int ParseHostLine(char *aline, register struct sockaddr_in *addr, char *aname, char *aclone); static int ParseCellLine(register char *aline, register char *aname, register char *alname); static int afsconf_CloseInternal(register struct afsconf_dir *adir); static int afsconf_Reopen(register struct afsconf_dir *adir); static int SaveKeys(struct afsconf_dir *adir); #ifndef T_AFSDB #define T_AFSDB 18 /* per RFC1183 section 1 */ #endif /* * Basic Rule: we touch "/CellServDB" every time we change anything, so * our code can tell if there is new info in the key files, the cell server db * files or any of the other files (and reopen the thing) if the date on * CellServDB changes. */ #if defined(AFS_SUN5_ENV) && !defined(__sparcv9) /* Solaris through 10 in 32 bit mode will return EMFILE if fopen can't get an fd <= 255. We allow the fileserver to claim more fds than that. This has always been a problem since pr_Initialize would have the same issue, but hpr_Initialize makes it more likely that we would see this. Work around it. This is not generic. It's coded with the needs of afsconf_* in mind only. http://www.opensolaris.org/os/community/onnv/flag-days/pages/2006042001/ */ #define BUFFER 4096 struct afsconf_iobuffer { int _file; char *buffer; char *ptr; char *endptr; }; typedef struct afsconf_iobuffer afsconf_FILE; static afsconf_FILE * afsconf_fopen(const char *fname, const char *fmode) { int fd; afsconf_FILE *iop; if ((fd = open(fname, O_RDONLY)) == -1) { return NULL; } iop = malloc(sizeof(struct afsconf_iobuffer)); if (iop == NULL) { (void) close(fd); errno = ENOMEM; return NULL; } iop->_file = fd; iop->buffer = malloc(BUFFER); if (iop->buffer == NULL) { (void) close(fd); free((void *) iop); errno = ENOMEM; return NULL; } iop->ptr = iop->buffer; iop->endptr = iop->buffer; return iop; } static int afsconf_fclose(afsconf_FILE *iop) { if (iop == NULL) { return 0; } close(iop->_file); free((void *)iop->buffer); free((void *)iop); return 0; } static char * afsconf_fgets(char *s, int n, afsconf_FILE *iop) { char *p; p = s; for (;;) { char c; if (iop->ptr == iop->endptr) { ssize_t len; if ((len = read(iop->_file, (void *)iop->buffer, BUFFER)) == -1) { return NULL; } if (len == 0) { *p = 0; if (s == p) { return NULL; } return s; } iop->ptr = iop->buffer; iop->endptr = iop->buffer + len; } c = *iop->ptr++; *p++ = c; if ((p - s) == (n - 1)) { *p = 0; return s; } if (c == '\n') { *p = 0; return s; } } } #define fopen afsconf_fopen #define fclose afsconf_fclose #define fgets afsconf_fgets #else #define afsconf_FILE FILE #endif /* AFS_SUN5_ENV && ! __sparcv9 */ /* return port number in network byte order in the low 16 bits of a long; return -1 if not found */ static afs_int32 afsconf_FindService(register const char *aname) { /* lookup a service name */ struct servent *ts; register struct afsconf_servPair *tsp; #if defined(AFS_OSF_ENV) ts = getservbyname(aname, ""); #else ts = getservbyname(aname, NULL); #endif if (ts) { /* we found it in /etc/services, so we use this value */ return ts->s_port; /* already in network byte order */ } /* not found in /etc/services, see if it is one of ours */ for (tsp = serviceTable;; tsp++) { if (tsp->name == NULL) return -1; if (!strcmp(tsp->name, aname)) return htons(tsp->port); } } static int TrimLine(char *abuffer) { char tbuffer[256]; register char *tp; register int tc; tp = abuffer; while ((tc = *tp)) { if (!isspace(tc)) break; tp++; } strcpy(tbuffer, tp); strcpy(abuffer, tbuffer); return 0; } #ifdef AFS_NT40_ENV /* * IsClientConfigDirectory() -- determine if path matches well-known * client configuration directory. */ static int IsClientConfigDirectory(const char *path) { const char *cdir = AFSDIR_CLIENT_ETC_DIRPATH; int i; for (i = 0; cdir[i] != '\0' && path[i] != '\0'; i++) { int cc = tolower(cdir[i]); int pc = tolower(path[i]); if (cc == '\\') { cc = '/'; } if (pc == '\\') { pc = '/'; } if (cc != pc) { return 0; } } /* hit end of one or both; allow mismatch in existence of trailing slash */ if (cdir[i] != '\0') { if ((cdir[i] != '\\' && cdir[i] != '/') || (cdir[i + 1] != '\0')) { return 0; } } if (path[i] != '\0') { if ((path[i] != '\\' && path[i] != '/') || (path[i + 1] != '\0')) { return 0; } } return 1; } #endif /* AFS_NT40_ENV */ static int afsconf_Check(register struct afsconf_dir *adir) { char tbuffer[256], *p; struct stat tstat; register afs_int32 code; #ifdef AFS_NT40_ENV /* NT client CellServDB has different file name than NT server or Unix */ if (IsClientConfigDirectory(adir->name)) { if (!afssw_GetClientCellServDBDir(&p)) { strcompose(tbuffer, sizeof(tbuffer), p, "/", AFSDIR_CELLSERVDB_FILE_NTCLIENT, NULL); free(p); } else { int len; strncpy(tbuffer, adir->name, sizeof(tbuffer)); len = (int)strlen(tbuffer); if (tbuffer[len - 1] != '\\' && tbuffer[len - 1] != '/') { strncat(tbuffer, "\\", sizeof(tbuffer)); } strncat(tbuffer, AFSDIR_CELLSERVDB_FILE_NTCLIENT, sizeof(tbuffer)); tbuffer[sizeof(tbuffer) - 1] = '\0'; } } else { strcompose(tbuffer, 256, adir->name, "/", AFSDIR_CELLSERVDB_FILE, NULL); } #else strcompose(tbuffer, 256, adir->name, "/", AFSDIR_CELLSERVDB_FILE, NULL); #endif /* AFS_NT40_ENV */ code = stat(tbuffer, &tstat); if (code < 0) { return code; } /* did file change? */ if (tstat.st_mtime == adir->timeRead) { return 0; } /* otherwise file has changed, so reopen it */ return afsconf_Reopen(adir); } /* set modtime on file */ static int afsconf_Touch(register struct afsconf_dir *adir) { char tbuffer[256], *p; #ifndef AFS_NT40_ENV struct timeval tvp[2]; #endif adir->timeRead = 0; /* just in case */ #ifdef AFS_NT40_ENV /* NT client CellServDB has different file name than NT server or Unix */ if (IsClientConfigDirectory(adir->name)) { if (!afssw_GetClientCellServDBDir(&p)) { strcompose(tbuffer, sizeof(tbuffer), p, "/", AFSDIR_CELLSERVDB_FILE_NTCLIENT, NULL); free(p); } else { int len = (int)strlen(tbuffer); if (tbuffer[len - 1] != '\\' && tbuffer[len - 1] != '/') { strncat(tbuffer, "\\", sizeof(tbuffer)); } strncat(tbuffer, AFSDIR_CELLSERVDB_FILE_NTCLIENT, sizeof(tbuffer)); tbuffer[sizeof(tbuffer) - 1] = '\0'; } } else { strcompose(tbuffer, 256, adir->name, "/", AFSDIR_CELLSERVDB_FILE, NULL); } return _utime(tbuffer, NULL); #else strcompose(tbuffer, 256, adir->name, "/", AFSDIR_CELLSERVDB_FILE, NULL); gettimeofday(&tvp[0], NULL); tvp[1] = tvp[0]; return utimes(tbuffer, tvp); #endif /* AFS_NT40_ENV */ } struct afsconf_dir * afsconf_Open(register const char *adir) { register struct afsconf_dir *tdir; register afs_int32 code; LOCK_GLOBAL_MUTEX; /* zero structure and fill in name; rest is done by internal routine */ tdir = (struct afsconf_dir *)malloc(sizeof(struct afsconf_dir)); memset(tdir, 0, sizeof(struct afsconf_dir)); tdir->name = (char *)malloc(strlen(adir) + 1); strcpy(tdir->name, adir); code = afsconf_OpenInternal(tdir, 0, 0); if (code) { char *afsconf_path, afs_confdir[128]; free(tdir->name); /* Check global place only when local Open failed for whatever reason */ if (!(afsconf_path = getenv("AFSCONF"))) { /* The "AFSCONF" environment (or contents of "/.AFSCONF") will be typically set to something like "/afs//common/etc" where, by convention, the default files for "ThisCell" and "CellServDB" will reside; note that a major drawback is that a given afs client on that cell may NOT contain the same contents... */ char *home_dir; afsconf_FILE *fp; size_t len; if (!(home_dir = getenv("HOME"))) { /* Our last chance is the "/.AFSCONF" file */ fp = fopen("/.AFSCONF", "r"); if (fp == 0) { free(tdir); UNLOCK_GLOBAL_MUTEX; return (struct afsconf_dir *)0; } fgets(afs_confdir, 128, fp); fclose(fp); } else { char pathname[256]; sprintf(pathname, "%s/%s", home_dir, ".AFSCONF"); fp = fopen(pathname, "r"); if (fp == 0) { /* Our last chance is the "/.AFSCONF" file */ fp = fopen("/.AFSCONF", "r"); if (fp == 0) { free(tdir); UNLOCK_GLOBAL_MUTEX; return (struct afsconf_dir *)0; } } fgets(afs_confdir, 128, fp); fclose(fp); } len = strlen(afs_confdir); if (len == 0) { free(tdir); UNLOCK_GLOBAL_MUTEX; return (struct afsconf_dir *)0; } if (afs_confdir[len - 1] == '\n') { afs_confdir[len - 1] = 0; } afsconf_path = afs_confdir; } tdir->name = (char *)malloc(strlen(afsconf_path) + 1); strcpy(tdir->name, afsconf_path); code = afsconf_OpenInternal(tdir, 0, 0); if (code) { free(tdir->name); free(tdir); UNLOCK_GLOBAL_MUTEX; return (struct afsconf_dir *)0; } } UNLOCK_GLOBAL_MUTEX; return tdir; } static int GetCellUnix(struct afsconf_dir *adir) { int rc; char tbuffer[256]; int fd; strcompose(tbuffer, 256, adir->name, "/", AFSDIR_THISCELL_FILE, NULL); fd = open(tbuffer, O_RDONLY, 0); if (fd < 0) { return -1; } else { int sz; memset(tbuffer, 0, 256); sz = read(fd, tbuffer, 255); close(fd); if (sz > 0) { char *p = strchr(tbuffer, '\n'); if (p) *p = '\0'; adir->cellName = (char *)malloc(sz + 1); strncpy(adir->cellName, tbuffer, sz); } } return 0; } #ifdef AFS_NT40_ENV static int GetCellNT(struct afsconf_dir *adir) { if (IsClientConfigDirectory(adir->name)) { /* NT client config dir; ThisCell is in registry (no file). */ return afssw_GetClientCellName(&adir->cellName); } else { /* NT server config dir; works just like Unix */ return GetCellUnix(adir); } } #endif /* AFS_NT40_ENV */ static int afsconf_OpenInternal(register struct afsconf_dir *adir, char *cell, char clones[]) { afsconf_FILE *tf; register char *tp, *bp; register struct afsconf_entry *curEntry; struct afsconf_aliasentry *curAlias; register afs_int32 code; afs_int32 i; char tbuffer[256], tbuf1[256]; struct stat tstat; /* figure out the cell name */ #ifdef AFS_NT40_ENV i = GetCellNT(adir); #else i = GetCellUnix(adir); #endif #ifndef AFS_FREELANCE_CLIENT /* no local cell not fatal in freelance */ if (i) { return i; } #endif /* now parse the individual lines */ curEntry = 0; #ifdef AFS_NT40_ENV /* NT client/server have a CellServDB that is the same format as Unix. * However, the NT client uses a different file name */ if (IsClientConfigDirectory(adir->name)) { /* NT client config dir */ char *p; if (!afssw_GetClientCellServDBDir(&p)) { strcompose(tbuffer, sizeof(tbuffer), p, "/", AFSDIR_CELLSERVDB_FILE_NTCLIENT, NULL); free(p); } else { int len; strncpy(tbuffer, adir->name, sizeof(tbuffer)); len = (int)strlen(tbuffer); if (tbuffer[len - 1] != '\\' && tbuffer[len - 1] != '/') { strncat(tbuffer, "\\", sizeof(tbuffer)); } strncat(tbuffer, AFSDIR_CELLSERVDB_FILE_NTCLIENT, sizeof(tbuffer)); tbuffer[sizeof(tbuffer) - 1] = '\0'; } } else { /* NT server config dir */ strcompose(tbuffer, 256, adir->name, "/", AFSDIR_CELLSERVDB_FILE, NULL); } #else strcompose(tbuffer, 256, adir->name, "/", AFSDIR_CELLSERVDB_FILE, NULL); #endif /* AFS_NT40_ENV */ if (!stat(tbuffer, &tstat)) { adir->timeRead = tstat.st_mtime; } else { adir->timeRead = 0; } strcpy(tbuf1, tbuffer); tf = fopen(tbuffer, "r"); if (!tf) { return -1; } while (1) { tp = fgets(tbuffer, sizeof(tbuffer), tf); if (!tp) break; TrimLine(tbuffer); /* remove white space */ if (tbuffer[0] == 0 || tbuffer[0] == '\n') continue; /* empty line */ if (tbuffer[0] == '>') { char linkedcell[MAXCELLCHARS]; /* start new cell item */ if (curEntry) { /* thread this guy on the list */ curEntry->next = adir->entries; adir->entries = curEntry; curEntry = 0; } curEntry = (struct afsconf_entry *)malloc(sizeof(struct afsconf_entry)); memset(curEntry, 0, sizeof(struct afsconf_entry)); code = ParseCellLine(tbuffer, curEntry->cellInfo.name, linkedcell); if (code) { afsconf_CloseInternal(adir); fclose(tf); free(curEntry); return -1; } if (linkedcell[0] != '\0') { curEntry->cellInfo.linkedCell = (char *)malloc(strlen(linkedcell) + 1); strcpy(curEntry->cellInfo.linkedCell, linkedcell); } } else { /* new host in the current cell */ if (!curEntry) { afsconf_CloseInternal(adir); fclose(tf); return -1; } i = curEntry->cellInfo.numServers; if (cell && !strcmp(cell, curEntry->cellInfo.name)) code = ParseHostLine(tbuffer, &curEntry->cellInfo.hostAddr[i], curEntry->cellInfo.hostName[i], &clones[i]); else code = ParseHostLine(tbuffer, &curEntry->cellInfo.hostAddr[i], curEntry->cellInfo.hostName[i], 0); if (code) { if (code == AFSCONF_SYNTAX) { for (bp = tbuffer; *bp != '\n'; bp++) { /* Take out the from the buffer */ if (!*bp) break; } *bp = '\0'; fprintf(stderr, "Can't properly parse host line \"%s\" in configuration file %s\n", tbuffer, tbuf1); } free(curEntry); fclose(tf); afsconf_CloseInternal(adir); return -1; } curEntry->cellInfo.numServers = ++i; } } fclose(tf); /* close the file now */ /* end the last partially-completed cell */ if (curEntry) { curEntry->next = adir->entries; adir->entries = curEntry; } /* Read in the alias list */ strcompose(tbuffer, 256, adir->name, "/", AFSDIR_CELLALIAS_FILE, NULL); tf = fopen(tbuffer, "r"); while (tf) { char *aliasPtr; tp = fgets(tbuffer, sizeof(tbuffer), tf); if (!tp) break; TrimLine(tbuffer); /* remove white space */ if (tbuffer[0] == '\0' || tbuffer[0] == '\n' || tbuffer[0] == '#') continue; /* empty line */ tp = tbuffer; while (tp[0] != '\0' && tp[0] != ' ' && tp[0] != '\t') tp++; if (tp[0] == '\0') continue; /* invalid line */ while (tp[0] != '\0' && (tp[0] == ' ' || tp[0] == '\t')) 0[tp++] = '\0'; if (tp[0] == '\0') continue; /* invalid line */ aliasPtr = tp; while (tp[0] != '\0' && tp[0] != ' ' && tp[0] != '\t' && tp[0] != '\r' && tp[0] != '\n') tp++; tp[0] = '\0'; curAlias = malloc(sizeof(*curAlias)); memset(curAlias, 0, sizeof(*curAlias)); strcpy(curAlias->aliasInfo.aliasName, aliasPtr); strcpy(curAlias->aliasInfo.realName, tbuffer); curAlias->next = adir->alias_entries; adir->alias_entries = curAlias; } if (tf != NULL) fclose(tf); /* now read the fs keys, if possible */ adir->keystr = (struct afsconf_keys *)0; afsconf_IntGetKeys(adir); return 0; } /* parse a line of the form *"128.2.1.3 #hostname" or *"[128.2.1.3] #hostname" for clones * into the appropriate pieces. */ static int ParseHostLine(char *aline, register struct sockaddr_in *addr, char *aname, char *aclone) { int c1, c2, c3, c4; register afs_int32 code; register char *tp; if (*aline == '[') { if (aclone) *aclone = 1; /* FIXME: length of aname unknown here */ code = sscanf(aline, "[%d.%d.%d.%d] #%s", &c1, &c2, &c3, &c4, aname); } else { if (aclone) *aclone = 0; /* FIXME: length of aname unknown here */ code = sscanf(aline, "%d.%d.%d.%d #%s", &c1, &c2, &c3, &c4, aname); } if (code != 5) return AFSCONF_SYNTAX; addr->sin_family = AF_INET; addr->sin_port = 0; #ifdef STRUCT_SOCKADDR_HAS_SA_LEN addr->sin_len = sizeof(struct sockaddr_in); #endif tp = (char *)&addr->sin_addr; *tp++ = c1; *tp++ = c2; *tp++ = c3; *tp++ = c4; return 0; } /* parse a line of the form * ">cellname [linkedcellname] [#comments]" * into the appropriate pieces. */ static int ParseCellLine(register char *aline, register char *aname, register char *alname) { register int code; /* FIXME: length of aname, alname unknown here */ code = sscanf(aline, ">%s %s", aname, alname); if (code == 1) *alname = '\0'; if (code == 2) { if (*alname == '#') { *alname = '\0'; } } return (code > 0 ? 0 : AFSCONF_SYNTAX); } /* call aproc(entry, arock, adir) for all cells. Proc must return 0, or we'll stop early and return the code it returns */ int afsconf_CellApply(struct afsconf_dir *adir, int (*aproc) (struct afsconf_cell * cell, char *arock, struct afsconf_dir * dir), char *arock) { register struct afsconf_entry *tde; register afs_int32 code; LOCK_GLOBAL_MUTEX; for (tde = adir->entries; tde; tde = tde->next) { code = (*aproc) (&tde->cellInfo, arock, adir); if (code) { UNLOCK_GLOBAL_MUTEX; return code; } } UNLOCK_GLOBAL_MUTEX; return 0; } /* call aproc(entry, arock, adir) for all cell aliases. * Proc must return 0, or we'll stop early and return the code it returns */ int afsconf_CellAliasApply(struct afsconf_dir *adir, int (*aproc) (struct afsconf_cellalias * alias, char *arock, struct afsconf_dir * dir), char *arock) { register struct afsconf_aliasentry *tde; register afs_int32 code; LOCK_GLOBAL_MUTEX; for (tde = adir->alias_entries; tde; tde = tde->next) { code = (*aproc) (&tde->aliasInfo, arock, adir); if (code) { UNLOCK_GLOBAL_MUTEX; return code; } } UNLOCK_GLOBAL_MUTEX; return 0; } afs_int32 afsconf_SawCell = 0; int afsconf_GetExtendedCellInfo(struct afsconf_dir *adir, char *acellName, char *aservice, struct afsconf_cell *acellInfo, char clones[]) { afs_int32 code; char *cell; code = afsconf_GetCellInfo(adir, acellName, aservice, acellInfo); if (code) return code; if (acellName) cell = acellName; else cell = (char *)&acellInfo->name; code = afsconf_OpenInternal(adir, cell, clones); return code; } #ifdef AFS_AFSDB_ENV #if !defined(AFS_NT40_ENV) int afsconf_GetAfsdbInfo(char *acellName, char *aservice, struct afsconf_cell *acellInfo) { afs_int32 code; int tservice, i, len; unsigned char answer[1024]; unsigned char *p; char *dotcellname; int cellnamelength; char realCellName[256]; char host[256]; int server_num = 0; int minttl = 0; /* The resolver isn't always MT-safe.. Perhaps this ought to be * replaced with a more fine-grained lock just for the resolver * operations. */ if ( ! strchr(acellName,'.') ) { cellnamelength=strlen(acellName); dotcellname=malloc(cellnamelength+2); memcpy(dotcellname,acellName,cellnamelength); dotcellname[cellnamelength]='.'; dotcellname[cellnamelength+1]=0; LOCK_GLOBAL_MUTEX; len = res_search(dotcellname, C_IN, T_AFSDB, answer, sizeof(answer)); if ( len < 0 ) { len = res_search(acellName, C_IN, T_AFSDB, answer, sizeof(answer)); } UNLOCK_GLOBAL_MUTEX; free(dotcellname); } else { LOCK_GLOBAL_MUTEX; len = res_search(acellName, C_IN, T_AFSDB, answer, sizeof(answer)); UNLOCK_GLOBAL_MUTEX; } if (len < 0) return AFSCONF_NOTFOUND; p = answer + sizeof(HEADER); /* Skip header */ code = dn_expand(answer, answer + len, p, host, sizeof(host)); if (code < 0) return AFSCONF_NOTFOUND; p += code + QFIXEDSZ; /* Skip name */ while (p < answer + len) { int type, ttl, size; code = dn_expand(answer, answer + len, p, host, sizeof(host)); if (code < 0) return AFSCONF_NOTFOUND; p += code; /* Skip the name */ type = (p[0] << 8) | p[1]; p += 4; /* Skip type and class */ ttl = (p[0] << 24) | (p[1] << 16) | (p[2] << 8) | p[3]; p += 4; /* Skip the TTL */ size = (p[0] << 8) | p[1]; p += 2; /* Skip the size */ if (type == T_AFSDB) { struct hostent *he; short afsdb_type; afsdb_type = (p[0] << 8) | p[1]; if (afsdb_type == 1) { /* * We know this is an AFSDB record for our cell, of the * right AFSDB type. Write down the true cell name that * the resolver gave us above. */ strcpy(realCellName, host); } code = dn_expand(answer, answer + len, p + 2, host, sizeof(host)); if (code < 0) return AFSCONF_NOTFOUND; if ((afsdb_type == 1) && (server_num < MAXHOSTSPERCELL) && /* Do we want to get TTL data for the A record as well? */ (he = gethostbyname(host))) { afs_int32 ipaddr; memcpy(&ipaddr, he->h_addr, he->h_length); acellInfo->hostAddr[server_num].sin_addr.s_addr = ipaddr; strncpy(acellInfo->hostName[server_num], host, sizeof(acellInfo->hostName[server_num])); server_num++; if (!minttl || ttl < minttl) minttl = ttl; } } p += size; } if (server_num == 0) /* No AFSDB records */ return AFSCONF_NOTFOUND; /* Convert the real cell name to lowercase */ for (p = (unsigned char *)realCellName; *p; p++) *p = tolower(*p); strncpy(acellInfo->name, realCellName, sizeof(acellInfo->name)); acellInfo->numServers = server_num; if (aservice) { tservice = afsconf_FindService(aservice); if (tservice < 0) return AFSCONF_NOTFOUND; /* service not found */ for (i = 0; i < acellInfo->numServers; i++) { acellInfo->hostAddr[i].sin_port = tservice; } } acellInfo->timeout = minttl ? (time(0) + minttl) : 0; return 0; } #else /* windows */ int afsconf_GetAfsdbInfo(char *acellName, char *aservice, struct afsconf_cell *acellInfo) { register afs_int32 i; int tservice; struct afsconf_entry DNSce; afs_int32 cellHostAddrs[AFSMAXCELLHOSTS]; char cellHostNames[AFSMAXCELLHOSTS][MAXHOSTCHARS]; int numServers; int rc; int ttl; DNSce.cellInfo.numServers = 0; DNSce.next = NULL; rc = getAFSServer(acellName, cellHostAddrs, cellHostNames, &numServers, &ttl); /* ignore the ttl here since this code is only called by transitory programs * like klog, etc. */ if (rc < 0) return -1; if (numServers == 0) return -1; for (i = 0; i < numServers; i++) { memcpy(&acellInfo->hostAddr[i].sin_addr.s_addr, &cellHostAddrs[i], sizeof(long)); memcpy(acellInfo->hostName[i], cellHostNames[i], MAXHOSTCHARS); acellInfo->hostAddr[i].sin_family = AF_INET; /* sin_port supplied by connection code */ } acellInfo->numServers = numServers; strcpy(acellInfo->name, acellName); if (aservice) { LOCK_GLOBAL_MUTEX; tservice = afsconf_FindService(aservice); UNLOCK_GLOBAL_MUTEX; if (tservice < 0) { return AFSCONF_NOTFOUND; /* service not found */ } for (i = 0; i < acellInfo->numServers; i++) { acellInfo->hostAddr[i].sin_port = tservice; } } acellInfo->linkedCell = NULL; /* no linked cell */ acellInfo->flags = 0; return 0; } #endif /* windows */ #endif /* AFS_AFSDB_ENV */ int afsconf_GetCellInfo(struct afsconf_dir *adir, char *acellName, char *aservice, struct afsconf_cell *acellInfo) { register struct afsconf_entry *tce; struct afsconf_aliasentry *tcae; struct afsconf_entry *bestce; register afs_int32 i; int tservice; char *tcell; int cnLen; int ambig; char tbuffer[64]; LOCK_GLOBAL_MUTEX; if (adir) afsconf_Check(adir); if (acellName) { tcell = acellName; cnLen = (int)(strlen(tcell) + 1); lcstring(tcell, tcell, cnLen); afsconf_SawCell = 1; /* will ignore the AFSCELL switch on future */ /* call to afsconf_GetLocalCell: like klog */ } else { i = afsconf_GetLocalCell(adir, tbuffer, sizeof(tbuffer)); if (i) { UNLOCK_GLOBAL_MUTEX; return i; } tcell = tbuffer; } cnLen = strlen(tcell); bestce = (struct afsconf_entry *)0; ambig = 0; if (!adir) { UNLOCK_GLOBAL_MUTEX; return 0; } /* Look through the list of aliases */ for (tcae = adir->alias_entries; tcae; tcae = tcae->next) { if (strcasecmp(tcae->aliasInfo.aliasName, tcell) == 0) { tcell = tcae->aliasInfo.realName; break; } } for (tce = adir->entries; tce; tce = tce->next) { if (strcasecmp(tce->cellInfo.name, tcell) == 0) { /* found our cell */ bestce = tce; ambig = 0; break; } if (strlen(tce->cellInfo.name) < cnLen) continue; /* clearly wrong */ if (strncasecmp(tce->cellInfo.name, tcell, cnLen) == 0) { if (bestce) ambig = 1; /* ambiguous unless we get exact match */ bestce = tce; } } if (!ambig && bestce && bestce->cellInfo.numServers) { *acellInfo = bestce->cellInfo; /* structure assignment */ if (aservice) { tservice = afsconf_FindService(aservice); if (tservice < 0) { UNLOCK_GLOBAL_MUTEX; return AFSCONF_NOTFOUND; /* service not found */ } for (i = 0; i < acellInfo->numServers; i++) { acellInfo->hostAddr[i].sin_port = tservice; } } acellInfo->timeout = 0; UNLOCK_GLOBAL_MUTEX; return 0; } else { UNLOCK_GLOBAL_MUTEX; #ifdef AFS_AFSDB_ENV return afsconf_GetAfsdbInfo(tcell, aservice, acellInfo); #else return AFSCONF_NOTFOUND; #endif /* AFS_AFSDB_ENV */ } } int afsconf_GetLocalCell(register struct afsconf_dir *adir, char *aname, afs_int32 alen) { static int afsconf_showcell = 0; char *afscell_path; afs_int32 code = 0; LOCK_GLOBAL_MUTEX; /* * If a cell switch was specified in a command, then it should override the * AFSCELL variable. If a cell was specified, then the afsconf_SawCell flag * is set and the cell name in the adir structure is used. * Read the AFSCELL var each time: in case it changes (unsetenv AFSCELL). */ if (!afsconf_SawCell && (afscell_path = getenv("AFSCELL"))) { if (!afsconf_showcell) { fprintf(stderr, "Note: Operation is performed on cell %s\n", afscell_path); afsconf_showcell = 1; } strncpy(aname, afscell_path, alen); } else { afsconf_Check(adir); if (adir->cellName) { strncpy(aname, adir->cellName, alen); } else code = AFSCONF_UNKNOWN; } UNLOCK_GLOBAL_MUTEX; return (code); } int afsconf_Close(struct afsconf_dir *adir) { LOCK_GLOBAL_MUTEX; afsconf_CloseInternal(adir); if (adir->name) free(adir->name); free(adir); UNLOCK_GLOBAL_MUTEX; return 0; } static int afsconf_CloseInternal(register struct afsconf_dir *adir) { register struct afsconf_entry *td, *nd; struct afsconf_aliasentry *ta, *na; register char *tname; tname = adir->name; /* remember name, since that's all we preserve */ /* free everything we can find */ if (adir->cellName) free(adir->cellName); for (td = adir->entries; td; td = nd) { nd = td->next; if (td->cellInfo.linkedCell) free(td->cellInfo.linkedCell); free(td); } for (ta = adir->alias_entries; ta; ta = na) { na = ta->next; free(ta); } if (adir->keystr) free(adir->keystr); /* reinit */ memset(adir, 0, sizeof(struct afsconf_dir)); adir->name = tname; /* restore it */ return 0; } static int afsconf_Reopen(register struct afsconf_dir *adir) { register afs_int32 code; code = afsconf_CloseInternal(adir); if (code) return code; code = afsconf_OpenInternal(adir, 0, 0); return code; } /* called during opening of config file */ int afsconf_IntGetKeys(struct afsconf_dir *adir) { char tbuffer[256]; register int fd; struct afsconf_keys *tstr; register afs_int32 code; #ifdef AFS_NT40_ENV /* NT client config dir has no KeyFile; don't risk attempting open * because there might be a random file of this name if dir is shared. */ if (IsClientConfigDirectory(adir->name)) { adir->keystr = ((struct afsconf_keys *) malloc(sizeof(struct afsconf_keys))); adir->keystr->nkeys = 0; return 0; } #endif /* AFS_NT40_ENV */ LOCK_GLOBAL_MUTEX; /* compute the key name and other setup */ strcompose(tbuffer, 256, adir->name, "/", AFSDIR_KEY_FILE, NULL); tstr = (struct afsconf_keys *)malloc(sizeof(struct afsconf_keys)); adir->keystr = tstr; /* read key file */ fd = open(tbuffer, O_RDONLY); if (fd < 0) { tstr->nkeys = 0; UNLOCK_GLOBAL_MUTEX; return 0; } code = read(fd, tstr, sizeof(struct afsconf_keys)); close(fd); if (code < sizeof(afs_int32)) { tstr->nkeys = 0; UNLOCK_GLOBAL_MUTEX; return 0; } /* convert key structure to host order */ tstr->nkeys = ntohl(tstr->nkeys); if (code < sizeof(afs_int32) + (tstr->nkeys*sizeof(struct afsconf_key))) { tstr->nkeys = 0; UNLOCK_GLOBAL_MUTEX; return 0; } for (fd = 0; fd < tstr->nkeys; fd++) tstr->key[fd].kvno = ntohl(tstr->key[fd].kvno); UNLOCK_GLOBAL_MUTEX; return 0; } /* get keys structure */ int afsconf_GetKeys(struct afsconf_dir *adir, struct afsconf_keys *astr) { register afs_int32 code; LOCK_GLOBAL_MUTEX; code = afsconf_Check(adir); if (code) { UNLOCK_GLOBAL_MUTEX; return AFSCONF_FAILURE; } memcpy(astr, adir->keystr, sizeof(struct afsconf_keys)); UNLOCK_GLOBAL_MUTEX; return 0; } /* get latest key */ afs_int32 afsconf_GetLatestKey(struct afsconf_dir * adir, afs_int32 * avno, char *akey) { register int i; int maxa; register struct afsconf_key *tk; register afs_int32 best; struct afsconf_key *bestk; register afs_int32 code; LOCK_GLOBAL_MUTEX; code = afsconf_Check(adir); if (code) { UNLOCK_GLOBAL_MUTEX; return AFSCONF_FAILURE; } maxa = adir->keystr->nkeys; best = -1; /* highest kvno we've seen yet */ bestk = (struct afsconf_key *)0; /* ptr to structure providing best */ for (tk = adir->keystr->key, i = 0; i < maxa; i++, tk++) { if (tk->kvno == 999) continue; /* skip bcrypt keys */ if (tk->kvno > best) { best = tk->kvno; bestk = tk; } } if (bestk) { /* found any */ if (akey) memcpy(akey, bestk->key, 8); /* copy out latest key */ if (avno) *avno = bestk->kvno; /* and kvno to caller */ UNLOCK_GLOBAL_MUTEX; return 0; } UNLOCK_GLOBAL_MUTEX; return AFSCONF_NOTFOUND; /* didn't find any keys */ } /* get a particular key */ int afsconf_GetKey(struct afsconf_dir *adir, afs_int32 avno, char *akey) { register int i, maxa; register struct afsconf_key *tk; register afs_int32 code; LOCK_GLOBAL_MUTEX; code = afsconf_Check(adir); if (code) { UNLOCK_GLOBAL_MUTEX; return AFSCONF_FAILURE; } maxa = adir->keystr->nkeys; for (tk = adir->keystr->key, i = 0; i < maxa; i++, tk++) { if (tk->kvno == avno) { memcpy(akey, tk->key, 8); UNLOCK_GLOBAL_MUTEX; return 0; } } UNLOCK_GLOBAL_MUTEX; return AFSCONF_NOTFOUND; } /* save the key structure in the appropriate file */ static int SaveKeys(struct afsconf_dir *adir) { struct afsconf_keys tkeys; register int fd; register afs_int32 i; char tbuffer[256]; memcpy(&tkeys, adir->keystr, sizeof(struct afsconf_keys)); /* convert it to net byte order */ for (i = 0; i < tkeys.nkeys; i++) tkeys.key[i].kvno = htonl(tkeys.key[i].kvno); tkeys.nkeys = htonl(tkeys.nkeys); /* rewrite keys file */ strcompose(tbuffer, 256, adir->name, "/", AFSDIR_KEY_FILE, NULL); fd = open(tbuffer, O_RDWR | O_CREAT | O_TRUNC, 0600); if (fd < 0) return AFSCONF_FAILURE; i = write(fd, &tkeys, sizeof(tkeys)); if (i != sizeof(tkeys)) { close(fd); return AFSCONF_FAILURE; } if (close(fd) < 0) return AFSCONF_FAILURE; return 0; } int afsconf_AddKey(struct afsconf_dir *adir, afs_int32 akvno, char akey[8], afs_int32 overwrite) { register struct afsconf_keys *tk; register struct afsconf_key *tkey; register afs_int32 i; int foundSlot; LOCK_GLOBAL_MUTEX; tk = adir->keystr; if (akvno != 999) { if (akvno < 0 || akvno > 255) { UNLOCK_GLOBAL_MUTEX; return ERANGE; } } foundSlot = 0; for (i = 0, tkey = tk->key; i < tk->nkeys; i++, tkey++) { if (tkey->kvno == akvno) { if (!overwrite) { UNLOCK_GLOBAL_MUTEX; return AFSCONF_KEYINUSE; } foundSlot = 1; break; } } if (!foundSlot) { if (tk->nkeys >= AFSCONF_MAXKEYS) { UNLOCK_GLOBAL_MUTEX; return AFSCONF_FULL; } tkey = &tk->key[tk->nkeys++]; } tkey->kvno = akvno; memcpy(tkey->key, akey, 8); i = SaveKeys(adir); afsconf_Touch(adir); UNLOCK_GLOBAL_MUTEX; return i; } /* this proc works by sliding the other guys down, rather than using a funny kvno value, so that callers can count on getting a good key in key[0]. */ int afsconf_DeleteKey(struct afsconf_dir *adir, afs_int32 akvno) { register struct afsconf_keys *tk; register struct afsconf_key *tkey; register int i; int foundFlag = 0; LOCK_GLOBAL_MUTEX; tk = adir->keystr; for (i = 0, tkey = tk->key; i < tk->nkeys; i++, tkey++) { if (tkey->kvno == akvno) { foundFlag = 1; break; } } if (!foundFlag) { UNLOCK_GLOBAL_MUTEX; return AFSCONF_NOTFOUND; } /* otherwise slide the others down. i and tkey point at the guy to delete */ for (; i < tk->nkeys - 1; i++, tkey++) { tkey->kvno = (tkey + 1)->kvno; memcpy(tkey->key, (tkey + 1)->key, 8); } tk->nkeys--; i = SaveKeys(adir); afsconf_Touch(adir); UNLOCK_GLOBAL_MUTEX; return i; }