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/*
* $Id: bsd-cray.c,v 1.11 2003/05/18 14:13:38 djm Exp $
*
* bsd-cray.c
*
* Copyright (c) 2002, Cray Inc. (Wendy Palm <wendyp@cray.com>)
* Significant portions provided by
* Wayne Schroeder, SDSC <schroeder@sdsc.edu>
* William Jones, UTexas <jones@tacc.utexas.edu>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Created: Apr 22 16.34:00 2002 wp
*
* This file contains functions required for proper execution
* on UNICOS systems.
*
*/
#ifdef _UNICOS
#include <udb.h>
#include <tmpdir.h>
#include <unistd.h>
#include <sys/category.h>
#include <utmp.h>
#include <sys/jtab.h>
#include <signal.h>
#include <sys/priv.h>
#include <sys/secparm.h>
#include <sys/tfm.h>
#include <sys/usrv.h>
#include <sys/sysv.h>
#include <sys/sectab.h>
#include <sys/secstat.h>
#include <sys/stat.h>
#include <sys/session.h>
#include <stdlib.h>
#include <pwd.h>
#include <fcntl.h>
#include <errno.h>
#include <ia.h>
#include <urm.h>
#include "ssh.h"
#include "log.h"
#include "servconf.h"
#include "bsd-cray.h"
#define MAXACID 80
extern ServerOptions options;
char cray_tmpdir[TPATHSIZ + 1]; /* job TMPDIR path */
struct sysv sysv; /* system security structure */
struct usrv usrv; /* user security structure */
/*
* Functions.
*/
void cray_retain_utmp(struct utmp *, int);
void cray_delete_tmpdir(char *, int, uid_t);
void cray_init_job(struct passwd *);
void cray_set_tmpdir(struct utmp *);
void cray_login_failure(char *, int);
int cray_setup(uid_t, char *, const char *);
int cray_access_denied(char *);
void
cray_login_failure(char *username, int errcode)
{
struct udb *ueptr; /* UDB pointer for username */
ia_failure_t fsent; /* ia_failure structure */
ia_failure_ret_t fret; /* ia_failure return stuff */
struct jtab jtab; /* job table structure */
int jid = 0; /* job id */
if ((jid = getjtab(&jtab)) < 0)
debug("cray_login_failure(): getjtab error");
getsysudb();
if ((ueptr = getudbnam(username)) == UDB_NULL)
debug("cray_login_failure(): getudbname() returned NULL");
endudb();
memset(&fsent, '\0', sizeof(fsent));
fsent.revision = 0;
fsent.uname = username;
fsent.host = (char *)get_canonical_hostname(options.verify_reverse_mapping);
fsent.ttyn = "sshd";
fsent.caller = IA_SSHD;
fsent.flags = IA_INTERACTIVE;
fsent.ueptr = ueptr;
fsent.jid = jid;
fsent.errcode = errcode;
fsent.pwdp = NULL;
fsent.exitcode = 0; /* dont exit in ia_failure() */
fret.revision = 0;
fret.normal = 0;
/*
* Call ia_failure because of an login failure.
*/
ia_failure(&fsent, &fret);
}
/*
* Cray access denied
*/
int
cray_access_denied(char *username)
{
struct udb *ueptr; /* UDB pointer for username */
int errcode; /* IA errorcode */
errcode = 0;
getsysudb();
if ((ueptr = getudbnam(username)) == UDB_NULL)
debug("cray_login_failure(): getudbname() returned NULL");
endudb();
if (ueptr != NULL && ueptr->ue_disabled)
errcode = IA_DISABLED;
if (errcode)
cray_login_failure(username, errcode);
return (errcode);
}
/*
* record_failed_login: generic "login failed" interface function
*/
void
record_failed_login(const char *user, const char *ttyname)
{
cray_login_failure((char *)user, IA_UDBERR);
}
int
cray_setup (uid_t uid, char *username, const char *command)
{
extern struct udb *getudb();
extern char *setlimits();
int err; /* error return */
time_t system_time; /* current system clock */
time_t expiration_time; /* password expiration time */
int maxattempts; /* maximum no. of failed login attempts */
int SecureSys; /* unicos security flag */
int minslevel = 0; /* system minimum security level */
int i, j;
int valid_acct = -1; /* flag for reading valid acct */
char acct_name[MAXACID] = { "" }; /* used to read acct name */
struct jtab jtab; /* Job table struct */
struct udb ue; /* udb entry for logging-in user */
struct udb *up; /* pointer to UDB entry */
struct secstat secinfo; /* file security attributes */
struct servprov init_info; /* used for sesscntl() call */
int jid; /* job ID */
int pid; /* process ID */
char *sr; /* status return from setlimits() */
char *ttyn = NULL; /* ttyname or command name*/
char hostname[MAXHOSTNAMELEN];
/* passwd stuff for ia_user */
passwd_t pwdacm, pwddialup, pwdudb, pwdwal, pwddce;
ia_user_ret_t uret; /* stuff returned from ia_user */
ia_user_t usent /* ia_user main structure */
int ia_rcode; /* ia_user return code */
ia_failure_t fsent; /* ia_failure structure */
ia_failure_ret_t fret; /* ia_failure return stuff */
ia_success_t ssent; /* ia_success structure */
ia_success_ret_t sret; /* ia_success return stuff */
int ia_mlsrcode; /* ia_mlsuser return code */
int secstatrc; /* [f]secstat return code */
if (SecureSys = (int)sysconf(_SC_CRAY_SECURE_SYS)) {
getsysv(&sysv, sizeof(struct sysv));
minslevel = sysv.sy_minlvl;
if (getusrv(&usrv) < 0)
fatal("getusrv() failed, errno = %d", errno);
}
hostname[0] = '\0';
strlcpy(hostname,
(char *)get_canonical_hostname(options.verify_reverse_mapping),
MAXHOSTNAMELEN);
/*
* Fetch user's UDB entry.
*/
getsysudb();
if ((up = getudbnam(username)) == UDB_NULL)
fatal("cannot fetch user's UDB entry");
/*
* Prevent any possible fudging so perform a data
* safety check and compare the supplied uid against
* the udb's uid.
*/
if (up->ue_uid != uid)
fatal("IA uid missmatch");
endudb();
if ((jid = getjtab(&jtab)) < 0) {
debug("getjtab");
return(-1);
}
pid = getpid();
ttyn = ttyname(0);
if (SecureSys) {
if (ttyn != NULL)
secstatrc = secstat(ttyn, &secinfo);
else
secstatrc = fsecstat(1, &secinfo);
if (secstatrc == 0)
debug("[f]secstat() successful");
else
fatal("[f]secstat() error, rc = %d", secstatrc);
}
if ((ttyn == NULL) && ((char *)command != NULL))
ttyn = (char *)command;
/*
* Initialize all structures to call ia_user
*/
usent.revision = 0;
usent.uname = username;
usent.host = hostname;
usent.ttyn = ttyn;
usent.caller = IA_SSHD;
usent.pswdlist = &pwdacm;
usent.ueptr = &ue;
usent.flags = IA_INTERACTIVE | IA_FFLAG;
pwdacm.atype = IA_SECURID;
pwdacm.pwdp = NULL;
pwdacm.next = &pwdudb;
pwdudb.atype = IA_UDB;
pwdudb.pwdp = NULL;
pwdudb.next = &pwddce;
pwddce.atype = IA_DCE;
pwddce.pwdp = NULL;
pwddce.next = &pwddialup;
pwddialup.atype = IA_DIALUP;
pwddialup.pwdp = NULL;
/* pwddialup.next = &pwdwal; */
pwddialup.next = NULL;
pwdwal.atype = IA_WAL;
pwdwal.pwdp = NULL;
pwdwal.next = NULL;
uret.revision = 0;
uret.pswd = NULL;
uret.normal = 0;
ia_rcode = ia_user(&usent, &uret);
switch (ia_rcode) {
/*
* These are acceptable return codes from ia_user()
*/
case IA_UDBWEEK: /* Password Expires in 1 week */
expiration_time = ue.ue_pwage.time + ue.ue_pwage.maxage;
printf ("WARNING - your current password will expire %s\n",
ctime((const time_t *)&expiration_time));
break;
case IA_UDBEXPIRED:
if (ttyname(0) != NULL) {
/* Force a password change */
printf("Your password has expired; Choose a new one.\n");
execl("/bin/passwd", "passwd", username, 0);
exit(9);
}
break;
case IA_NORMAL: /* Normal Return Code */
break;
case IA_BACKDOOR:
/* XXX: can we memset it to zero here so save some of this */
strlcpy(ue.ue_name, "root", sizeof(ue.ue_name));
strlcpy(ue.ue_dir, "/", sizeof(ue.ue_dir));
strlcpy(ue.ue_shell, "/bin/sh", sizeof(ue.ue_shell));
ue.ue_passwd[0] = '\0';
ue.ue_age[0] = '\0';
ue.ue_comment[0] = '\0';
ue.ue_loghost[0] = '\0';
ue.ue_logline[0] = '\0';
ue.ue_uid = -1;
ue.ue_nice[UDBRC_INTER] = 0;
for (i = 0; i < MAXVIDS; i++)
ue.ue_gids[i] = 0;
ue.ue_logfails = 0;
ue.ue_minlvl = ue.ue_maxlvl = ue.ue_deflvl = minslevel;
ue.ue_defcomps = 0;
ue.ue_comparts = 0;
ue.ue_permits = 0;
ue.ue_trap = 0;
ue.ue_disabled = 0;
ue.ue_logtime = 0;
break;
case IA_CONSOLE: /* Superuser not from Console */
case IA_TRUSTED: /* Trusted user */
if (options.permit_root_login > PERMIT_NO)
break; /* Accept root login */
default:
/*
* These are failed return codes from ia_user()
*/
switch (ia_rcode)
{
case IA_BADAUTH:
printf("Bad authorization, access denied.\n");
break;
case IA_DISABLED:
printf("Your login has been disabled. Contact the system ");
printf("administrator for assistance.\n");
break;
case IA_GETSYSV:
printf("getsysv() failed - errno = %d\n", errno);
break;
case IA_MAXLOGS:
printf("Maximum number of failed login attempts exceeded.\n");
printf("Access denied.\n");
break;
case IA_UDBPWDNULL:
if (SecureSys)
printf("NULL Password not allowed on MLS systems.\n");
break;
default:
break;
}
/*
* Authentication failed.
*/
printf("sshd: Login incorrect, (0%o)\n",
ia_rcode-IA_ERRORCODE);
/*
* Initialize structure for ia_failure
* which will exit.
*/
fsent.revision = 0;
fsent.uname = username;
fsent.host = hostname;
fsent.ttyn = ttyn;
fsent.caller = IA_SSHD;
fsent.flags = IA_INTERACTIVE;
fsent.ueptr = &ue;
fsent.jid = jid;
fsent.errcode = ia_rcode;
fsent.pwdp = uret.pswd;
fsent.exitcode = 1;
fret.revision = 0;
fret.normal = 0;
/*
* Call ia_failure because of an IA failure.
* There is no return because ia_failure exits.
*/
ia_failure(&fsent, &fret);
exit(1);
}
ia_mlsrcode = IA_NORMAL;
if (SecureSys) {
debug("calling ia_mlsuser()");
ia_mlsrcode = ia_mlsuser(&ue, &secinfo, &usrv, NULL, 0);
}
if (ia_mlsrcode != IA_NORMAL) {
printf("sshd: Login incorrect, (0%o)\n",
ia_mlsrcode-IA_ERRORCODE);
/*
* Initialize structure for ia_failure
* which will exit.
*/
fsent.revision = 0;
fsent.uname = username;
fsent.host = hostname;
fsent.ttyn = ttyn;
fsent.caller = IA_SSHD;
fsent.flags = IA_INTERACTIVE;
fsent.ueptr = &ue;
fsent.jid = jid;
fsent.errcode = ia_mlsrcode;
fsent.pwdp = uret.pswd;
fsent.exitcode = 1;
fret.revision = 0;
fret.normal = 0;
/*
* Call ia_failure because of an IA failure.
* There is no return because ia_failure exits.
*/
ia_failure(&fsent,&fret);
exit(1);
}
/* Provide login status information */
if (options.print_lastlog && ue.ue_logtime != 0) {
printf("Last successful login was : %.*s ", 19,
(char *)ctime(&ue.ue_logtime));
if (*ue.ue_loghost != '\0') {
printf("from %.*s\n", sizeof(ue.ue_loghost),
ue.ue_loghost);
} else {
printf("on %.*s\n", sizeof(ue.ue_logline),
ue.ue_logline);
}
if (SecureSys && (ue.ue_logfails != 0)) {
printf(" followed by %d failed attempts\n",
ue.ue_logfails);
}
}
/*
* Call ia_success to process successful I/A.
*/
ssent.revision = 0;
ssent.uname = username;
ssent.host = hostname;
ssent.ttyn = ttyn;
ssent.caller = IA_SSHD;
ssent.flags = IA_INTERACTIVE;
ssent.ueptr = &ue;
ssent.jid = jid;
ssent.errcode = ia_rcode;
ssent.us = NULL;
ssent.time = 1; /* Set ue_logtime */
sret.revision = 0;
sret.normal = 0;
ia_success(&ssent, &sret);
/*
* Query for account, iff > 1 valid acid & askacid permbit
*/
if (((ue.ue_permbits & PERMBITS_ACCTID) ||
(ue.ue_acids[0] >= 0) && (ue.ue_acids[1] >= 0)) &&
ue.ue_permbits & PERMBITS_ASKACID) {
if (ttyname(0) != NULL) {
debug("cray_setup: ttyname true case, %.100s", ttyname);
while (valid_acct == -1) {
printf("Account (? for available accounts)"
" [%s]: ", acid2nam(ue.ue_acids[0]));
fgets(acct_name, MAXACID, stdin);
switch (acct_name[0]) {
case EOF:
exit(0);
break;
case '\0':
valid_acct = ue.ue_acids[0];
strlcpy(acct_name, acid2nam(valid_acct), MAXACID);
break;
case '?':
/* Print the list 3 wide */
for (i = 0, j = 0; i < MAXVIDS; i++) {
if (ue.ue_acids[i] == -1) {
printf("\n");
break;
}
if (++j == 4) {
j = 1;
printf("\n");
}
printf(" %s",
acid2nam(ue.ue_acids[i]));
}
if (ue.ue_permbits & PERMBITS_ACCTID) {
printf("\"acctid\" permbit also allows"
" you to select any valid "
"account name.\n");
}
printf("\n");
break;
default:
valid_acct = nam2acid(acct_name);
if (valid_acct == -1) {
printf(
"Account id not found for"
" account name \"%s\"\n\n",
acct_name);
break;
}
/*
* If an account was given, search the user's
* acids array to verify they can use this account.
*/
if ((valid_acct != -1) &&
!(ue.ue_permbits & PERMBITS_ACCTID)) {
for (i = 0; i < MAXVIDS; i++) {
if (ue.ue_acids[i] == -1)
break;
if (valid_acct == ue.ue_acids[i])
break;
}
if (i == MAXVIDS ||
ue.ue_acids[i] == -1) {
fprintf(stderr, "Cannot set"
" account name to "
"\"%s\", permission "
"denied\n\n", acct_name);
valid_acct = -1;
}
}
}
} else {
/*
* The client isn't connected to a terminal and can't
* respond to an acid prompt. Use default acid.
*/
debug("cray_setup: ttyname false case, %.100s",
ttyname);
valid_acct = ue.ue_acids[0];
}
} else {
/*
* The user doesn't have the askacid permbit set or
* only has one valid account to use.
*/
valid_acct = ue.ue_acids[0];
}
if (acctid(0, valid_acct) < 0) {
printf ("Bad account id: %d\n", valid_acct);
exit(1);
}
/*
* Now set shares, quotas, limits, including CPU time for the
* (interactive) job and process, and set up permissions
* (for chown etc), etc.
*/
if (setshares(ue.ue_uid, valid_acct, printf, 0, 0)) {
printf("Unable to give %d shares to <%s>(%d/%d)\n",
ue.ue_shares, ue.ue_name, ue.ue_uid, valid_acct);
exit(1);
}
sr = setlimits(username, C_PROC, pid, UDBRC_INTER);
if (sr != NULL) {
debug("%.200s", sr);
exit(1);
}
sr = setlimits(username, C_JOB, jid, UDBRC_INTER);
if (sr != NULL) {
debug("%.200s", sr);
exit(1);
}
/*
* Place the service provider information into
* the session table (Unicos) or job table (Unicos/mk).
* There exist double defines for the job/session table in
* unicos/mk (jtab.h) so no need for a compile time switch.
*/
memset(&init_info, '\0', sizeof(init_info));
init_info.s_sessinit.si_id = URM_SPT_LOGIN;
init_info.s_sessinit.si_pid = getpid();
init_info.s_sessinit.si_sid = jid;
sesscntl(0, S_SETSERVPO, (int)&init_info);
/*
* Set user and controlling tty security attributes.
*/
if (SecureSys) {
if (setusrv(&usrv) == -1) {
debug("setusrv() failed, errno = %d",errno);
exit(1);
}
}
return (0);
}
/*
* The rc.* and /etc/sdaemon methods of starting a program on unicos/unicosmk
* can have pal privileges that sshd can inherit which
* could allow a user to su to root with out a password.
* This subroutine clears all privileges.
*/
void
drop_cray_privs()
{
#if defined(_SC_CRAY_PRIV_SU)
priv_proc_t *privstate;
int result;
extern int priv_set_proc();
extern priv_proc_t *priv_init_proc();
/*
* If ether of theses two flags are not set
* then don't allow this version of ssh to run.
*/
if (!sysconf(_SC_CRAY_PRIV_SU))
fatal("Not PRIV_SU system.");
if (!sysconf(_SC_CRAY_POSIX_PRIV))
fatal("Not POSIX_PRIV.");
debug("Setting MLS labels.");;
if (sysconf(_SC_CRAY_SECURE_MAC)) {
usrv.sv_minlvl = SYSLOW;
usrv.sv_actlvl = SYSHIGH;
usrv.sv_maxlvl = SYSHIGH;
} else {
usrv.sv_minlvl = sysv.sy_minlvl;
usrv.sv_actlvl = sysv.sy_minlvl;
usrv.sv_maxlvl = sysv.sy_maxlvl;
}
usrv.sv_actcmp = 0;
usrv.sv_valcmp = sysv.sy_valcmp;
usrv.sv_intcat = TFM_SYSTEM;
usrv.sv_valcat |= (TFM_SYSTEM | TFM_SYSFILE);
if (setusrv(&usrv) < 0) {
fatal("%s(%d): setusrv(): %s", __FILE__, __LINE__,
strerror(errno));
}
if ((privstate = priv_init_proc()) != NULL) {
result = priv_set_proc(privstate);
if (result != 0 ) {
fatal("%s(%d): priv_set_proc(): %s",
__FILE__, __LINE__, strerror(errno));
}
priv_free_proc(privstate);
}
debug ("Privileges should be cleared...");
#else
/* XXX: do this differently */
# error Cray systems must be run with _SC_CRAY_PRIV_SU on!
#endif
}
/*
* Retain utmp/wtmp information - used by cray accounting.
*/
void
cray_retain_utmp(struct utmp *ut, int pid)
{
int fd;
struct utmp utmp;
if ((fd = open(UTMP_FILE, O_RDONLY)) != -1) {
/* XXX use atomicio */
while (read(fd, (char *)&utmp, sizeof(utmp)) == sizeof(utmp)) {
if (pid == utmp.ut_pid) {
ut->ut_jid = utmp.ut_jid;
strncpy(ut->ut_tpath, utmp.ut_tpath, sizeof(utmp.ut_tpath));
strncpy(ut->ut_host, utmp.ut_host, sizeof(utmp.ut_host));
strncpy(ut->ut_name, utmp.ut_name, sizeof(utmp.ut_name));
break;
}
}
close(fd);
} else
fatal("Unable to open utmp file");
}
/*
* tmpdir support.
*/
/*
* find and delete jobs tmpdir.
*/
void
cray_delete_tmpdir(char *login, int jid, uid_t uid)
{
static char jtmp[TPATHSIZ];
struct stat statbuf;
int child, c, wstat;
for (c = 'a'; c <= 'z'; c++) {
snprintf(jtmp, TPATHSIZ, "%s/jtmp.%06d%c", JTMPDIR, jid, c);
if (stat(jtmp, &statbuf) == 0 && statbuf.st_uid == uid)
break;
}
if (c > 'z')
return;
if ((child = fork()) == 0) {
execl(CLEANTMPCMD, CLEANTMPCMD, login, jtmp, (char *)NULL);
fatal("cray_delete_tmpdir: execl of CLEANTMPCMD failed");
}
while (waitpid(child, &wstat, 0) == -1 && errno == EINTR)
;
}
/*
* Remove tmpdir on job termination.
*/
void
cray_job_termination_handler(int sig)
{
int jid;
char *login = NULL;
struct jtab jtab;
debug("received signal %d",sig);
if ((jid = waitjob(&jtab)) == -1 ||
(login = uid2nam(jtab.j_uid)) == NULL)
return;
cray_delete_tmpdir(login, jid, jtab.j_uid);
}
/*
* Set job id and create tmpdir directory.
*/
void
cray_init_job(struct passwd *pw)
{
int jid;
int c;
jid = setjob(pw->pw_uid, WJSIGNAL);
if (jid < 0)
fatal("System call setjob failure");
for (c = 'a'; c <= 'z'; c++) {
snprintf(cray_tmpdir, TPATHSIZ, "%s/jtmp.%06d%c", JTMPDIR, jid, c);
if (mkdir(cray_tmpdir, JTMPMODE) != 0)
continue;
if (chown(cray_tmpdir, pw->pw_uid, pw->pw_gid) != 0) {
rmdir(cray_tmpdir);
continue;
}
break;
}
if (c > 'z')
cray_tmpdir[0] = '\0';
}
void
cray_set_tmpdir(struct utmp *ut)
{
int jid;
struct jtab jbuf;
if ((jid = getjtab(&jbuf)) < 0)
return;
/*
* Set jid and tmpdir in utmp record.
*/
ut->ut_jid = jid;
strncpy(ut->ut_tpath, cray_tmpdir, TPATHSIZ);
}
#endif