/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2003 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include "defs.h" #include "tables.h" /* * Parse the config file which consists of entries of the form: * ifdefault [ ]* * prefixdefault [ ]* * if [ ]* * prefix / [ ]* * * All "ifdefault" and "prefixdefault" entries must preceed any * "if" and "prefix" entries. * * Values (such as expiry dates) which contain white space * can be quoted with single or double quotes. */ /* maximum length of messages we send to syslog */ #define NDPD_LOGMSGSIZE 1024 typedef boolean_t (*pfb_t)(char *, uint_t *); struct configinfo { char *ci_name; uint_t ci_min; /* 0: no min check */ uint_t ci_max; /* ~0U: no max check */ uint_t ci_default; uint_t ci_index; /* Into result array */ pfb_t ci_parsefunc; /* Parse function returns -1 on failure */ }; enum config_type { CONFIG_IF, CONFIG_PREFIX}; typedef enum config_type config_type_t; static void set_protocol_defaults(void); static void print_defaults(void); static void parse_var_value(config_type_t, struct configinfo *, char *, char *, struct confvar *); static void parse_default(config_type_t, struct configinfo *, char **, int, struct confvar *); static void parse_if(struct configinfo *, char **, int); static void parse_prefix(struct configinfo *, char **, int); static boolean_t parse_onoff(char *, uint_t *); /* boolean */ static boolean_t parse_int(char *, uint_t *); /* integer */ static boolean_t parse_ms(char *, uint_t *); /* milliseconds */ static boolean_t parse_s(char *, uint_t *); /* seconds */ static boolean_t parse_date(char *, uint_t *); /* date format */ static void conferr(char *fmt, ...); static FILE *open_conffile(char *filename); static int parse_line(char *line, char *argvec[], int argcount); static int readline(FILE *fp, char *line, int length); static int parse_addrprefix(char *strin, struct in6_addr *in6); /* * Per interface configuration variables. * Min, max, and default values are from RFC 2461. */ static struct configinfo iflist[] = { /* Name, Min, Max, Default, Index */ { "DupAddrDetectTransmits", 0, 100, 1, I_DupAddrDetectTransmits, parse_int }, { "AdvSendAdvertisements", 0, 1, 0, I_AdvSendAdvertisements, parse_onoff }, { "MaxRtrAdvInterval", 4, 1800, 600, I_MaxRtrAdvInterval, parse_s }, { "MinRtrAdvInterval", 3, 1350, 200, I_MinRtrAdvInterval, parse_s }, /* * No greater than .75 * MaxRtrAdvInterval. * Default: 0.33 * MaxRtrAdvInterval */ { "AdvManagedFlag", 0, 1, 0, I_AdvManagedFlag, parse_onoff }, { "AdvOtherConfigFlag", 0, 1, 0, I_AdvOtherConfigFlag, parse_onoff }, { "AdvLinkMTU", IPV6_MIN_MTU, 65535, 0, I_AdvLinkMTU, parse_int }, { "AdvReachableTime", 0, 3600000, 0, I_AdvReachableTime, parse_ms }, { "AdvRetransTimer", 0, ~0U, 0, I_AdvRetransTimer, parse_ms }, { "AdvCurHopLimit", 0, 255, 0, I_AdvCurHopLimit, parse_int }, { "AdvDefaultLifetime", 0, 9000, 1800, I_AdvDefaultLifetime, parse_s }, /* * MUST be either zero or between MaxRtrAdvInterval and 9000 seconds. * Default: 3 * MaxRtrAdvInterval */ { "StatelessAddrConf", 0, 1, 1, I_StatelessAddrConf, parse_onoff }, /* * Tmp* variables from RFC 3041, where defaults are defined. */ { "TmpAddrsEnabled", 0, 1, 0, I_TmpAddrsEnabled, parse_onoff }, { "TmpValidLifetime", 0, ~0U, 604800, I_TmpValidLifetime, parse_s }, { "TmpPreferredLifetime", 0, ~0U, 86400, I_TmpPreferredLifetime, parse_s }, { "TmpRegenAdvance", 0, 60, 5, I_TmpRegenAdvance, parse_s }, { "TmpMaxDesyncFactor", 0, 600, 600, I_TmpMaxDesyncFactor, parse_s }, { NULL, 0, 0, 0, 0 } }; /* * Per prefix: AdvPrefixList configuration variables. * Min, max, and default values are from RFC 2461. */ static struct configinfo prefixlist[] = { /* Name, Min, Max, Default, Index */ { "AdvValidLifetime", 0, ~0U, 2592000, I_AdvValidLifetime, parse_s }, { "AdvOnLinkFlag", 0, 1, 1, I_AdvOnLinkFlag, parse_onoff }, { "AdvPreferredLifetime", 0, ~0U, 604800, I_AdvPreferredLifetime, parse_s}, { "AdvAutonomousFlag", 0, 1, 1, I_AdvAutonomousFlag, parse_onoff }, { "AdvValidExpiration", 0, ~0U, 0, I_AdvValidExpiration, parse_date }, { "AdvPreferredExpiration", 0, ~0U, 0, I_AdvPreferredExpiration, parse_date}, { NULL, 0, 0, 0, 0 }, }; /* * Data structures used to merge above protocol defaults * with defaults specified in the configuration file. * ifdefault is not static because new interfaces can be * created outside of the configuration context. */ struct confvar ifdefaults[I_IFSIZE]; static struct confvar prefixdefaults[I_PREFIXSIZE]; static char conf_filename[MAXPATHLEN]; static int lineno; /* * Checks for violations of section 5.5.3 (c) of RFC 2462. */ static void check_var_consistency(struct confvar *cv, void *save, int size) { boolean_t rollback = _B_FALSE; int prefl, prefe, valid; prefl = cv[I_AdvPreferredLifetime].cf_value; prefe = cv[I_AdvPreferredExpiration].cf_value; valid = cv[I_AdvValidLifetime].cf_value; if (prefl > valid) { conferr("AdvPreferredLifetime (%u) is greater than " "valid lifetime (%u)\n", prefl, valid); rollback = _B_TRUE; } if (prefe > valid) { conferr("AdvPreferredExpiration (%u) is greater than " "valid lifetime (%u)\n", prefe, valid); rollback = _B_TRUE; } if (rollback) { (void) memcpy(cv, save, size); } } /* * Check for invalid lifetime values for RFC3041 addresses */ static void check_if_var_consistency(struct confvar *cv, void *save, int size) { boolean_t rollback = _B_FALSE; int tpref, tvalid, tdesync, tregen; tpref = cv[I_TmpPreferredLifetime].cf_value; tvalid = cv[I_TmpValidLifetime].cf_value; tdesync = cv[I_TmpMaxDesyncFactor].cf_value; tregen = cv[I_TmpRegenAdvance].cf_value; /* * Only need to do this if tmp addrs are enabled. */ if (cv[I_TmpAddrsEnabled].cf_value == 0) return; if (tdesync > tpref) { conferr("TmpDesyncFactor (%u) is greater than " "TmpPreferredLifetime (%u)\n", tdesync, tpref); rollback = _B_TRUE; } if (tpref > tvalid) { conferr("TmpPreferredLifetime (%u) is greater than " "TmpValidLifetime (%u)\n", tpref, tvalid); rollback = _B_TRUE; } if (tregen > tvalid) { conferr("TmpRegenAdvance (%u) is greater than " "TmpValidLifetime (%u)\n", tregen, tvalid); rollback = _B_TRUE; } if (rollback) { (void) memcpy(cv, save, size); } } int parse_config(char *config_file, boolean_t file_required) { FILE *fp; char line[MAXLINELEN]; char pline[MAXLINELEN]; int argcount; char *argvec[MAXARGSPERLINE]; int defaultdone = 0; /* Set when first non-default command found */ if (debug & D_CONFIG) logmsg(LOG_DEBUG, "parse_config()\n"); set_protocol_defaults(); if (debug & D_DEFAULTS) print_defaults(); fp = open_conffile(config_file); if (fp == NULL) { if (errno == ENOENT && !file_required) return (0); logperror(config_file); return (-1); } while (readline(fp, line, sizeof (line)) != 0) { (void) strncpy(pline, line, sizeof (pline)); pline[sizeof (pline) - 1] = '\0'; /* NULL terminate */ argcount = parse_line(pline, argvec, sizeof (argvec) / sizeof (argvec[0])); if (debug & D_PARSE) { int i; logmsg(LOG_DEBUG, "scanned %d args\n", argcount); for (i = 0; i < argcount; i++) logmsg(LOG_DEBUG, "arg[%d]: %s\n", i, argvec[i]); } if (argcount == 0) { /* Empty line - or comment only line */ continue; } if (strcmp(argvec[0], "ifdefault") == 0) { char save[sizeof (ifdefaults)]; if (defaultdone) { conferr("ifdefault after non-default " "command\n"); continue; } /* * Save existing values in case what we read is * invalid and we need to restore previous settings. */ (void) memcpy(save, ifdefaults, sizeof (ifdefaults)); parse_default(CONFIG_IF, iflist, argvec+1, argcount-1, ifdefaults); check_if_var_consistency(ifdefaults, save, sizeof (save)); } else if (strcmp(argvec[0], "prefixdefault") == 0) { char save[sizeof (prefixdefaults)]; if (defaultdone) { conferr("prefixdefault after non-default " "command\n"); continue; } /* * Save existing values in case what we read is * invalid and we need to restore previous settings. */ (void) memcpy(save, prefixdefaults, sizeof (prefixdefaults)); parse_default(CONFIG_PREFIX, prefixlist, argvec+1, argcount-1, prefixdefaults); check_var_consistency(prefixdefaults, save, sizeof (save)); } else if (strcmp(argvec[0], "if") == 0) { defaultdone = 1; parse_if(iflist, argvec+1, argcount-1); } else if (strcmp(argvec[0], "prefix") == 0) { defaultdone = 1; parse_prefix(prefixlist, argvec+1, argcount-1); } else { conferr("Unknown command: %s\n", argvec[0]); } } (void) fclose(fp); if (debug & D_DEFAULTS) print_defaults(); return (0); } /* * Extract the defaults from the configinfo tables to initialize * the ifdefaults and prefixdefaults arrays. * The arrays are needed to track which defaults have been changed * by the config file. */ static void set_protocol_defaults(void) { struct configinfo *cip; if (debug & D_DEFAULTS) logmsg(LOG_DEBUG, "extract_protocol_defaults\n"); for (cip = iflist; cip->ci_name != NULL; cip++) { ifdefaults[cip->ci_index].cf_value = cip->ci_default; ifdefaults[cip->ci_index].cf_notdefault = _B_FALSE; } for (cip = prefixlist; cip->ci_name != NULL; cip++) { prefixdefaults[cip->ci_index].cf_value = cip->ci_default; prefixdefaults[cip->ci_index].cf_notdefault = _B_FALSE; } } void print_iflist(struct confvar *confvar) { struct configinfo *cip; for (cip = iflist; cip->ci_name != NULL; cip++) { logmsg(LOG_DEBUG, "\t%s min %u max %u def %u value %u set %d\n", cip->ci_name, cip->ci_min, cip->ci_max, cip->ci_default, confvar[cip->ci_index].cf_value, confvar[cip->ci_index].cf_notdefault); } } void print_prefixlist(struct confvar *confvar) { struct configinfo *cip; for (cip = prefixlist; cip->ci_name != NULL; cip++) { logmsg(LOG_DEBUG, "\t%s min %u max %u def %u value %u set %d\n", cip->ci_name, cip->ci_min, cip->ci_max, cip->ci_default, confvar[cip->ci_index].cf_value, confvar[cip->ci_index].cf_notdefault); } } static void print_defaults(void) { logmsg(LOG_DEBUG, "Default interface variables:\n"); print_iflist(ifdefaults); logmsg(LOG_DEBUG, "Default prefix variables:\n"); print_prefixlist(prefixdefaults); } /* * Read from fp. Handle \ at the end of the line by joining lines together. * Return 0 on EOF. */ static int readline(FILE *fp, char *line, int length) { int got = 0; retry: errno = 0; if (fgets(line, length, fp) == NULL) { if (errno == EINTR) goto retry; if (got != 0) return (1); else return (0); } lineno++; got = strlen(line); /* Look for trailing \. Note that fgets includes the linefeed. */ if (got >= 2 && line[got-2] == '\\') { /* Skip \ and LF */ line += got - 2; length -= got - 2; goto retry; } /* Remove the trailing linefeed */ if (got > 0) line[got-1] = '\0'; return (1); } /* * Parse a line splitting it off at whitspace characters. * Modifies the content of the string by inserting NULLs. * If more arguments than fits in argvec/argcount then ignore the last. * Returns argcount. * Handles single quotes and double quotes. */ static int parse_line(char *line, char *argvec[], int argcount) { int i = 0; char *cp; boolean_t insingle_quote = _B_FALSE; boolean_t indouble_quote = _B_FALSE; /* Truncate at the beginning of a comment */ cp = strchr(line, '#'); if (cp != NULL) *cp = '\0'; for (;;) { /* Skip any whitespace */ while (isspace(*line) && *line != '\0') line++; if (*line == '\'') { line++; if (*line == '\0') return (i); insingle_quote = _B_TRUE; } else if (*line == '"') { line++; if (*line == '\0') return (i); indouble_quote = _B_TRUE; } argvec[i] = line; if (*line == '\0') return (i); i++; /* Skip until next whitespace or end of quoted text */ if (insingle_quote) { while (*line != '\'' && *line != '\0') line++; if (*line == '\'') { *line = ' '; } else { /* Handle missing quote at end */ i--; conferr("Missing end quote - ignoring <%s>\n", argvec[i]); return (i); } insingle_quote = _B_FALSE; } else if (indouble_quote) { while (*line != '"' && *line != '\0') line++; if (*line == '"') { *line = ' '; } else { /* Handle missing quote at end */ i--; conferr("Missing end quote - ignoring <%s>\n", argvec[i]); return (i); } indouble_quote = _B_FALSE; } else { while (!isspace(*line) && *line != '\0') line++; } if (*line != '\0') { /* Break off argument */ *line++ = '\0'; } if (i > argcount) return (argcount); } /* NOTREACHED */ } static void parse_var_value(config_type_t type, struct configinfo *list, char *varstr, char *valstr, struct confvar *confvar) { struct configinfo *cip; uint_t val; if (debug & D_CONFIG) { logmsg(LOG_DEBUG, "parse_var_value(%d, %s, %s)\n", (int)type, varstr, valstr); } for (cip = list; cip->ci_name != NULL; cip++) { if (strcasecmp(cip->ci_name, varstr) == 0) break; } if (cip->ci_name == NULL) { conferr("Unknown variable: <%s>\n", varstr); return; } if (!(*cip->ci_parsefunc)(valstr, &val)) { conferr("Bad value: <%s>\n", valstr); return; } if (cip->ci_min != 0 && val < cip->ci_min) { conferr("Value %s is below minimum %u for %s\n", valstr, cip->ci_min, varstr); return; } if (cip->ci_max != ~0U && val > cip->ci_max) { conferr("Value %s is above maximum %u for %s\n", valstr, cip->ci_max, varstr); return; } /* Check against dynamic/relative limits */ if (type == CONFIG_IF) { if (cip->ci_index == I_MinRtrAdvInterval && confvar[I_MaxRtrAdvInterval].cf_notdefault && val > confvar[I_MaxRtrAdvInterval].cf_value * 0.75) { conferr("MinRtrAdvInterval exceeds .75 * " "MaxRtrAdvInterval (%u)\n", confvar[I_MaxRtrAdvInterval].cf_value); return; } if (cip->ci_index == I_MaxRtrAdvInterval && confvar[I_MinRtrAdvInterval].cf_notdefault && confvar[I_MinRtrAdvInterval].cf_value > val * 0.75) { conferr("MinRtrAdvInterval (%u) exceeds .75 * " "MaxRtrAdvInterval\n", confvar[I_MinRtrAdvInterval].cf_value); return; } if (cip->ci_index == I_AdvDefaultLifetime && confvar[I_MaxRtrAdvInterval].cf_notdefault && val != 0 && val < confvar[I_MaxRtrAdvInterval].cf_value) { conferr("AdvDefaultLifetime is not between " "MaxRtrAdrInterval (%u) and 9000 seconds\n", confvar[I_MaxRtrAdvInterval].cf_value); return; } if (cip->ci_index == I_MaxRtrAdvInterval && confvar[I_AdvDefaultLifetime].cf_notdefault && confvar[I_AdvDefaultLifetime].cf_value < val) { conferr("AdvDefaultLifetime (%u) is not between " "MaxRtrAdrInterval and 9000 seconds\n", confvar[I_AdvDefaultLifetime].cf_value); return; } } confvar[cip->ci_index].cf_value = val; confvar[cip->ci_index].cf_notdefault = _B_TRUE; /* Derive dynamic/relative variables based on this one */ if (type == CONFIG_IF) { if (cip->ci_index == I_MaxRtrAdvInterval && !confvar[I_MinRtrAdvInterval].cf_notdefault) confvar[I_MinRtrAdvInterval].cf_value = val / 3; if (cip->ci_index == I_MaxRtrAdvInterval && !confvar[I_AdvDefaultLifetime].cf_notdefault) confvar[I_AdvDefaultLifetime].cf_value = 3 * val; } } /* * Split up the line into pairs */ static void parse_default(config_type_t type, struct configinfo *list, char *argvec[], int argcount, struct confvar *defaults) { if (debug & D_CONFIG) logmsg(LOG_DEBUG, "parse_default: argc %d\n", argcount); while (argcount >= 2) { parse_var_value(type, list, argvec[0], argvec[1], defaults); argcount -= 2; argvec += 2; } if (argcount != 0) conferr("Trailing text <%s> ignored\n", argvec[0]); } /* * Returns true if ok; otherwise false. */ static void parse_if(struct configinfo *list, char *argvec[], int argcount) { char *ifname; struct phyint *pi; char save[sizeof (pi->pi_config)]; if (debug & D_CONFIG) logmsg(LOG_DEBUG, "parse_if: argc %d\n", argcount); if (argcount < 1) { conferr("Missing interface name\n"); return; } ifname = argvec[0]; argvec++; argcount--; pi = phyint_lookup(ifname); if (pi == NULL) { /* * Create the physical interface structure. * Note, phyint_create() sets the interface * defaults in pi_config. */ pi = phyint_create(ifname); if (pi == NULL) { conferr("Unable to use interface %s\n", ifname); return; } } (void) memcpy(save, pi->pi_config, sizeof (save)); while (argcount >= 2) { parse_var_value(CONFIG_IF, list, argvec[0], argvec[1], pi->pi_config); argcount -= 2; argvec += 2; } if (argcount != 0) logmsg(LOG_ERR, "Trailing text <%s> ignored\n", argvec[0]); check_if_var_consistency(pi->pi_config, save, sizeof (save)); } static void parse_prefix(struct configinfo *list, char *argvec[], int argcount) { char *ifname, *prefix; struct phyint *pi; struct adv_prefix *adv_pr; struct in6_addr in6; int prefixlen; char save[sizeof (adv_pr->adv_pr_config)]; if (debug & D_CONFIG) logmsg(LOG_DEBUG, "parse_prefix: argc %d\n", argcount); if (argcount < 2) { conferr("Missing prefix and/or interface name\n"); return; } prefix = argvec[0]; ifname = argvec[1]; argvec += 2; argcount -= 2; prefixlen = parse_addrprefix(prefix, &in6); if (prefixlen == -1) { conferr("Bad prefix %s\n", prefix); return; } pi = phyint_lookup(ifname); if (pi == NULL) { /* * Create the physical interface structure. * Note, phyint_create() sets the interface * defaults in pi_config. */ pi = phyint_create(ifname); if (pi == NULL) { conferr("Unable to use interface %s\n", ifname); return; } } adv_pr = adv_prefix_lookup(pi, in6, prefixlen); if (adv_pr == NULL) { int i; adv_pr = adv_prefix_create(pi, in6, prefixlen); if (adv_pr == NULL) { conferr("Unable to create prefix %s\n", prefix); return; } /* * Copy the defaults from the default array. */ for (i = 0; i < I_PREFIXSIZE; i++) { adv_pr->adv_pr_config[i].cf_value = prefixdefaults[i].cf_value; adv_pr->adv_pr_config[i].cf_notdefault = prefixdefaults[i].cf_notdefault; } } (void) memcpy(save, adv_pr->adv_pr_config, sizeof (save)); while (argcount >= 2) { parse_var_value(CONFIG_PREFIX, list, argvec[0], argvec[1], adv_pr->adv_pr_config); argcount -= 2; argvec += 2; } check_var_consistency(adv_pr->adv_pr_config, save, sizeof (save)); if (argcount != 0) logmsg(LOG_ERR, "Trailing text <%s> ignored\n", argvec[0]); } /* * Returns true if ok (and *resp updated) and false if failed. */ static boolean_t parse_onoff(char *str, uint_t *resp) { if (strcasecmp(str, "on") == 0) { *resp = 1; return (_B_TRUE); } if (strcasecmp(str, "off") == 0) { *resp = 0; return (_B_TRUE); } if (strcasecmp(str, "true") == 0) { *resp = 1; return (_B_TRUE); } if (strcasecmp(str, "false") == 0) { *resp = 0; return (_B_TRUE); } if (parse_int(str, resp)) { if (*resp == 0 || *resp == 1) return (_B_TRUE); } return (_B_FALSE); } /* * Returns true if ok (and *resp updated) and false if failed. */ static boolean_t parse_int(char *str, uint_t *resp) { char *end; int res; res = strtoul(str, &end, 0); if (end == str) return (_B_FALSE); *resp = res; return (_B_TRUE); } /* * Parse something with a unit of millseconds. * Regognizes the suffixes "ms", "s", "m", "h", and "d". * * Returns true if ok (and *resp updated) and false if failed. */ static boolean_t parse_ms(char *str, uint_t *resp) { /* Look at the last and next to last character */ char *cp, *last, *nlast; char str2[BUFSIZ]; /* For local modification */ int multiplier = 1; (void) strncpy(str2, str, sizeof (str2)); str2[sizeof (str2) - 1] = '\0'; last = str2; nlast = NULL; for (cp = str2; *cp != '\0'; cp++) { nlast = last; last = cp; } if (debug & D_PARSE) { logmsg(LOG_DEBUG, "parse_ms: last <%c> nlast <%c>\n", (last != NULL ? *last : ' '), (nlast != NULL ? *nlast : ' ')); } switch (*last) { case 'd': multiplier *= 24; /* FALLTHRU */ case 'h': multiplier *= 60; /* FALLTHRU */ case 'm': multiplier *= 60; *last = '\0'; multiplier *= 1000; /* Convert to milliseconds */ break; case 's': /* Could be "ms" or "s" */ if (nlast != NULL && *nlast == 'm') { /* "ms" */ *nlast = '\0'; } else { *last = '\0'; multiplier *= 1000; /* Convert to milliseconds */ } break; } if (!parse_int(str2, resp)) return (_B_FALSE); *resp *= multiplier; return (_B_TRUE); } /* * Parse something with a unit of seconds. * Regognizes the suffixes "s", "m", "h", and "d". * * Returns true if ok (and *resp updated) and false if failed. */ static boolean_t parse_s(char *str, uint_t *resp) { /* Look at the last character */ char *cp, *last; char str2[BUFSIZ]; /* For local modification */ int multiplier = 1; (void) strncpy(str2, str, sizeof (str2)); str2[sizeof (str2) - 1] = '\0'; last = str2; for (cp = str2; *cp != '\0'; cp++) { last = cp; } if (debug & D_PARSE) { logmsg(LOG_DEBUG, "parse_s: last <%c>\n", (last != NULL ? *last : ' ')); } switch (*last) { case 'd': multiplier *= 24; /* FALLTHRU */ case 'h': multiplier *= 60; /* FALLTHRU */ case 'm': multiplier *= 60; /* FALLTHRU */ case 's': *last = '\0'; break; } if (!parse_int(str2, resp)) return (_B_FALSE); *resp *= multiplier; return (_B_TRUE); } /* * Return prefixlen (0 to 128) if ok; -1 if failed. */ static int parse_addrprefix(char *strin, struct in6_addr *in6) { char str[BUFSIZ]; /* Local copy for modification */ int prefixlen; char *cp; char *end; (void) strncpy(str, strin, sizeof (str)); str[sizeof (str) - 1] = '\0'; cp = strchr(str, '/'); if (cp == NULL) return (-1); *cp = '\0'; cp++; prefixlen = strtol(cp, &end, 10); if (cp == end) return (-1); if (prefixlen < 0 || prefixlen > IPV6_ABITS) return (-1); if (inet_pton(AF_INET6, str, in6) != 1) return (-1); return (prefixlen); } /* * Parse an absolute date using a datemsk config file. * Return the difference (measured in seconds) between that date/time and * the current date/time. * If the date has passed return zero. * * Returns true if ok (and *resp updated) and false if failed. * XXX Due to getdate limitations can not exceed year 2038. */ static boolean_t parse_date(char *str, uint_t *resp) { struct tm *tm; struct timeval tvs; time_t time, ntime; if (getenv("DATEMSK") == NULL) { (void) putenv("DATEMSK=/etc/inet/datemsk.ndpd"); } if (gettimeofday(&tvs, NULL) < 0) { logperror("gettimeofday"); return (_B_FALSE); } time = tvs.tv_sec; tm = getdate(str); if (tm == NULL) { logmsg(LOG_ERR, "Bad date <%s> (error %d)\n", str, getdate_err); return (_B_FALSE); } ntime = mktime(tm); if (debug & D_PARSE) { char buf[BUFSIZ]; (void) strftime(buf, sizeof (buf), "%Y-%m-%d %R %Z", tm); logmsg(LOG_DEBUG, "parse_date: <%s>, delta %ld seconds\n", buf, ntime - time); } if (ntime < time) { conferr("Date in the past <%s>\n", str); *resp = 0; return (_B_TRUE); } *resp = (ntime - time); return (_B_TRUE); } /* PRINTFLIKE1 */ static void conferr(char *fmt, ...) { char msg[NDPD_LOGMSGSIZE]; size_t slen; va_list ap; va_start(ap, fmt); (void) snprintf(msg, NDPD_LOGMSGSIZE, "%s line %d: ", conf_filename, lineno); slen = strlen(msg); (void) vsnprintf(msg + slen, NDPD_LOGMSGSIZE - slen, fmt, ap); logmsg(LOG_ERR, "%s", msg); va_end(ap); } static FILE * open_conffile(char *filename) { if (strlcpy(conf_filename, filename, MAXPATHLEN) >= MAXPATHLEN) { logmsg(LOG_ERR, "config file pathname is too long\n"); return (NULL); } lineno = 0; return (fopen(filename, "r")); }