/* * SPDX-FileCopyrightText: 1989 - 1994, Julianne Frances Haugh * SPDX-FileCopyrightText: 1996 - 1997, Marek Michałkiewicz * SPDX-FileCopyrightText: 2005 , Tomasz Kłoczko * SPDX-FileCopyrightText: 2008 , Nicolas François * * SPDX-License-Identifier: BSD-3-Clause */ #include #ident "$Id$" #include #include #include #include "defines.h" #include "prototypes.h" #include "port.h" static FILE *ports; /* * portcmp - compare the name of a port to a /etc/porttime entry * * portcmp works like strcmp, except that if the last character * in a failing match is a '*', the match is considered to have * passed. The "*" match is suppressed whenever the port is "SU", * which is the token the "su" command uses to validate access. * A match returns 0, failure returns non-zero. */ static int portcmp (const char *pattern, const char *port) { const char *orig = port; while (('\0' != *pattern) && (*pattern == *port)) { pattern++; port++; } if (('\0' == *pattern) && ('\0' == *port)) { return 0; } if (('S' == orig[0]) && ('U' == orig[1]) && ('\0' == orig[2])) { return 1; } return (*pattern == '*') ? 0 : 1; } /* * setportent - open /etc/porttime file or rewind * * the /etc/porttime file is rewound if already open, or * opened for reading. */ static void setportent (void) { if (NULL != ports) { rewind (ports); } else { ports = fopen (PORTS, "r"); } } /* * endportent - close the /etc/porttime file * * the /etc/porttime file is closed and the ports variable set * to NULL to indicate that the /etc/porttime file is no longer * open. */ static void endportent (void) { if (NULL != ports) { (void) fclose (ports); } ports = (FILE *) 0; } /* * getportent - read a single entry from /etc/porttime * * the next line in /etc/porttime is converted to a (struct port) * and a pointer to a static (struct port) is returned to the * invoker. NULL is returned on either EOF or error. errno is * set to EINVAL on error to distinguish the two conditions. */ static struct port *getportent (void) { static struct port port; /* static struct to point to */ static char buf[BUFSIZ]; /* some space for stuff */ static char *ttys[PORT_TTY + 1]; /* some pointers to tty names */ static char *users[PORT_IDS + 1]; /* some pointers to user ids */ static struct pt_time ptimes[PORT_TIMES + 1]; /* time ranges */ char *cp; /* pointer into line */ int dtime; /* scratch time of day */ int i, j; int saveerr = errno; /* errno value on entry */ /* * If the ports file is not open, open the file. Do not rewind * since we want to search from the beginning each time. */ if (NULL == ports) { setportent (); } if (NULL == ports) { errno = saveerr; return 0; } /* * Common point for beginning a new line - * * - read a line, and NUL terminate * - skip lines which begin with '#' * - parse off the tty names * - parse off a list of user names * - parse off a list of days and times */ again: /* * Get the next line and remove the last character, which * is a '\n'. Lines which begin with '#' are all ignored. */ if (fgets (buf, (int) sizeof buf, ports) == 0) { errno = saveerr; return 0; } if ('#' == buf[0]) { goto again; } /* * Get the name of the TTY device. It is the first colon * separated field, and is the name of the TTY with no * leading "/dev". The entry '*' is used to specify all * TTY devices. */ buf[strlen (buf) - 1] = 0; port.pt_names = ttys; for (cp = buf, j = 0; j < PORT_TTY; j++) { port.pt_names[j] = cp; while (('\0' != *cp) && (':' != *cp) && (',' != *cp)) { cp++; } if ('\0' == *cp) { goto again; /* line format error */ } if (':' == *cp) { /* end of tty name list */ break; } if (',' == *cp) { /* end of current tty name */ *cp++ = '\0'; } } *cp = '\0'; cp++; port.pt_names[j + 1] = (char *) 0; /* * Get the list of user names. It is the second colon * separated field, and is a comma separated list of user * names. The entry '*' is used to specify all usernames. * The last entry in the list is a (char *) 0 pointer. */ if (':' != *cp) { port.pt_users = users; port.pt_users[0] = cp; for (j = 1; ':' != *cp; cp++) { if ((',' == *cp) && (j < PORT_IDS)) { *cp = '\0'; cp++; port.pt_users[j] = cp; j++; } } port.pt_users[j] = 0; } else { port.pt_users = 0; } if (':' != *cp) { goto again; } *cp = '\0'; cp++; /* * Get the list of valid times. The times field is the third * colon separated field and is a list of days of the week and * times during which this port may be used by this user. The * valid days are 'Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', and 'Sa'. * * In addition, the value 'Al' represents all 7 days, and 'Wk' * represents the 5 weekdays. * * Times are given as HHMM-HHMM. The ending time may be before * the starting time. Days are presumed to wrap at 0000. */ if ('\0' == *cp) { port.pt_times = 0; return &port; } port.pt_times = ptimes; /* * Get the next comma separated entry */ for (j = 0; ('\0' != *cp) && (j < PORT_TIMES); j++) { /* * Start off with no days of the week */ port.pt_times[j].t_days = 0; /* * Check each two letter sequence to see if it is * one of the abbreviations for the days of the * week or the other two values. */ for (i = 0; ('\0' != cp[i]) && ('\0' != cp[i + 1]) && isalpha (cp[i]); i += 2) { switch ((cp[i] << 8) | (cp[i + 1])) { case ('S' << 8) | 'u': port.pt_times[j].t_days |= 01; break; case ('M' << 8) | 'o': port.pt_times[j].t_days |= 02; break; case ('T' << 8) | 'u': port.pt_times[j].t_days |= 04; break; case ('W' << 8) | 'e': port.pt_times[j].t_days |= 010; break; case ('T' << 8) | 'h': port.pt_times[j].t_days |= 020; break; case ('F' << 8) | 'r': port.pt_times[j].t_days |= 040; break; case ('S' << 8) | 'a': port.pt_times[j].t_days |= 0100; break; case ('W' << 8) | 'k': port.pt_times[j].t_days |= 076; break; case ('A' << 8) | 'l': port.pt_times[j].t_days |= 0177; break; default: errno = EINVAL; return 0; } } /* * The default is 'Al' if no days were seen. */ if (0 == i) { port.pt_times[j].t_days = 0177; } /* * The start and end times are separated from each * other by a '-'. The times are four digit numbers * representing the times of day. */ for (dtime = 0; ('\0' != cp[i]) && isdigit (cp[i]); i++) { dtime = dtime * 10 + cp[i] - '0'; } if (('-' != cp[i]) || (dtime > 2400) || ((dtime % 100) > 59)) { goto again; } port.pt_times[j].t_start = dtime; cp = cp + i + 1; for (dtime = 0, i = 0; ('\0' != cp[i]) && isdigit (cp[i]); i++) { dtime = dtime * 10 + cp[i] - '0'; } if ( ((',' != cp[i]) && ('\0' != cp[i])) || (dtime > 2400) || ((dtime % 100) > 59)) { goto again; } port.pt_times[j].t_end = dtime; cp = cp + i + 1; } /* * The end of the list is indicated by a pair of -1's for the * start and end times. */ port.pt_times[j].t_start = port.pt_times[j].t_end = -1; return &port; } /* * getttyuser - get ports information for user and tty * * getttyuser() searches the ports file for an entry with a TTY * and user field both of which match the supplied TTY and * user name. The file is searched from the beginning, so the * entries are treated as an ordered list. */ static struct port *getttyuser (const char *tty, const char *user) { int i, j; struct port *port; setportent (); while ((port = getportent ()) != NULL) { if ( (0 == port->pt_names) || (0 == port->pt_users)) { continue; } for (i = 0; NULL != port->pt_names[i]; i++) { if (portcmp (port->pt_names[i], tty) == 0) { break; } } if (port->pt_names[i] == 0) { continue; } for (j = 0; NULL != port->pt_users[j]; j++) { if ( (strcmp (user, port->pt_users[j]) == 0) || (strcmp (port->pt_users[j], "*") == 0)) { break; } } if (port->pt_users[j] != 0) { break; } } endportent (); return port; } /* * isttytime - tell if a given user may login at a particular time * * isttytime searches the ports file for an entry which matches * the user name and TTY given. */ bool isttytime (const char *id, const char *port, time_t when) { int i; int dtime; struct port *pp; struct tm *tm; /* * Try to find a matching entry for this user. Default to * letting the user in - there are plenty of ways to have an * entry to match all users. */ pp = getttyuser (port, id); if (NULL == pp) { return true; } /* * The entry is there, but has no time entries - don't * ever let them login. */ if (0 == pp->pt_times) { return false; } /* * The current time is converted to HHMM format for * comparison against the time values in the TTY entry. */ tm = localtime (&when); dtime = tm->tm_hour * 100 + tm->tm_min; /* * Each time entry is compared against the current * time. For entries with the start after the end time, * the comparison is made so that the time is between * midnight and either the start or end time. */ for (i = 0; pp->pt_times[i].t_start != -1; i++) { if (!(pp->pt_times[i].t_days & PORT_DAY (tm->tm_wday))) { continue; } if (pp->pt_times[i].t_start <= pp->pt_times[i].t_end) { if ( (dtime >= pp->pt_times[i].t_start) && (dtime <= pp->pt_times[i].t_end)) { return true; } } else { if ( (dtime >= pp->pt_times[i].t_start) || (dtime <= pp->pt_times[i].t_end)) { return true; } } } /* * No matching time entry was found, user shouldn't * be let in right now. */ return false; }