2009-12-20 22:31:03 +01:00
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/* Test46.c
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*
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* Test getgroups(...) and setgroups system calls
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*
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* Please note that getgroups is POSIX defined, but setgroups is not. Errors
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* related to setgroups are thus not POSIX conformance issues.
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <unistd.h>
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#include <errno.h>
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#include <string.h>
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#include <limits.h>
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#include <dirent.h>
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#include <sys/types.h>
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#include <sys/wait.h>
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#include <sys/stat.h>
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#include <fcntl.h>
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2012-03-24 16:16:34 +01:00
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void api_test(void);
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void e(int error_no);
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void group_test(void);
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void limit_test(void);
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void group_test_1(void);
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void group_test_2(void);
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void group_test_3(void);
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void group_test_4(void);
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void group_test_5(void);
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int dotest(void (*testfunc)(void));
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2009-12-20 22:31:03 +01:00
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2011-09-05 15:56:14 +02:00
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#define MAX_ERROR 5
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2009-12-20 22:31:03 +01:00
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#define IMAGINARY_GID 100
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#define IMAGINARY_GID_STR "100"
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#define IMAGINARY_UID 101
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#define IMAGINARY_UID_STR "101"
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#define SET_CREDENTIALS do { \
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setgid((IMAGINARY_GID) + 1 ); \
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setuid(IMAGINARY_UID); \
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} while(0)
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2011-09-05 15:56:14 +02:00
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#include "common.c"
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int subtest = -1, errorct = 0;
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2009-12-20 22:31:03 +01:00
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int main(int argc, char *argv[])
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{
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int superuser;
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2011-09-05 15:56:14 +02:00
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start(46);
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2009-12-20 22:31:03 +01:00
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superuser = (geteuid() == 0);
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if(!superuser) {
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if(!(setuid(0) || seteuid(0))) {
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printf("Test 46 has to be run as root; test aborted\n");
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exit(1);
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}
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}
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limit_test(); /* Perform some tests on POSIX limits */
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api_test(); /* Perform some very basic API tests */
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group_test(); /* Perform some tests that mimic actual use */
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2011-09-05 15:56:14 +02:00
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quit();
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2011-11-28 11:07:55 +01:00
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return(-1); /* Unreachable */
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2009-12-20 22:31:03 +01:00
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}
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void limit_test() {
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/* According to POSIX 2008 a process can have up to NGROUPS_MAX simultaneous
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* supplementary group IDs. The minimum acceptable value is _POSIX_NGROUPS_MAX.
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* In turn, _POSIX_NGROUPS_MAX is defined as 8. */
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subtest = 1;
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if (_POSIX_NGROUPS_MAX < 8) e(1);
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if (NGROUPS_MAX < _POSIX_NGROUPS_MAX) e(2);
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}
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void api_test() {
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/* int getgroups( int gidsetsize, gid_t grouplist[]);
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* int setgroups( int size_t size, const gid_t grouplist[]);
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*/
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/* The getgroups() function shall fill in the array grouplist with the current
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* supplementary group IDs of the calling process. It is implementation-
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* defined whether getgroups() also returns the effective group ID in the
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* grouplist array.
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* The gidsetsize argument specifies the number of elements in the array
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* grouplist. The actual number of group IDs stored in the array shall be
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* returned. The values of array entries with indices greater than or equal to
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* the value returned are undefined.
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* If gidsetsize is 0, getgroups shall return the number of group IDs that it
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* would otherwise return without modifying the array pointed to by grouplist.
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*
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* setgroups() sets the supplementary group IDs for the calling process. The
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* size argument specifies the number of supplementary group IDs in the buffer
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* pointed to by grouplist. setgroups() is a privileged operation.
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*/
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/* Minix does not return the effective group ID with the supplementary groups.
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* Use getegid() to get that value. In order to call setgroups, a process
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* must have super user privileges.
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*/
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2011-11-14 11:07:49 +01:00
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int i;
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2009-12-20 22:31:03 +01:00
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gid_t *grouplist, *grouplist2;
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long ngroups_max;
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subtest = 2;
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/* Ask the system how many groups we're allowed to set */
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ngroups_max = sysconf(_SC_NGROUPS_MAX);
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grouplist = malloc(ngroups_max *sizeof(gid_t));
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grouplist2 = malloc(ngroups_max *sizeof(gid_t));
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/* Let's invent some imaginary groups */
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#define START_GID 20001
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2011-09-05 15:56:14 +02:00
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for (i = 0; i < ngroups_max; i++)
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grouplist[i] = i + START_GID;
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2009-12-20 22:31:03 +01:00
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/* Normal usage */
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if (setgroups(ngroups_max, grouplist) != 0) e(1);
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/* Try one less than max supported groups */
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if (setgroups(ngroups_max - 1, grouplist) != 0) e(2);
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/* Try just one group */
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if (setgroups(1, grouplist) != 0) e(3);
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/* Unset all supplementary groups */
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if (setgroups(0, grouplist) != 0) e(4);
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/* Should not be allowed to use a negative set size */
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if (setgroups(-1, grouplist) == 0) e(5);
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else if(errno != EINVAL) e(6); /* error must be EINVAL */
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/* Should not be allowed to set more groups than supported by the system */
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if (setgroups(ngroups_max + 1, grouplist) == 0) e(7);
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else if(errno != EINVAL) e(8); /* error must be EINVAL */
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/* Should not be allowed to provide an invalid grouplist address */
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if (setgroups(ngroups_max, NULL) == 0) e(9);
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else if(errno != EFAULT) e(10); /* error must be EFAULT */
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/* The last time we called setgroups with proper parameters, we effectively
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* cleared the list. Verify that with getgroups(). */
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if (getgroups(ngroups_max, grouplist2) != 0) e(11);
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/* Repopulate grouplist with values and read them back */
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if (setgroups(ngroups_max, grouplist) != 0) e(12);
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if (getgroups(0, grouplist2) != ngroups_max) e(13);
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if (getgroups(ngroups_max, grouplist2) != ngroups_max) e(14);
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for (i = 0; i < ngroups_max; i++) {
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if(grouplist[i] != grouplist2[i]) {
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e(15);
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break; /* One error message should be enough here */
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}
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}
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/* Should not be able to read less groups than are actually stored. */
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if (getgroups(ngroups_max - 1, grouplist2) != -1) e(16);
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/* Repopulate grouplist with only half the groups and read them back */
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memset(grouplist2, 0, ngroups_max * sizeof(gid_t)); /* Clear array */
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#define HALF_LIST_SIZE ngroups_max / 2
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if (setgroups(HALF_LIST_SIZE, grouplist) != 0) e(17);
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if (getgroups(0, grouplist2) != HALF_LIST_SIZE) e(18);
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if (getgroups(HALF_LIST_SIZE, grouplist2) != HALF_LIST_SIZE) e(19);
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for (i = 0; i < HALF_LIST_SIZE; i++) {
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if(grouplist[i] != grouplist2[i]) {
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e(20);
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break; /* Also here one message ought to be enough */
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}
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}
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/* Try to read more groups than we have set */
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memset(grouplist2, 0, ngroups_max * sizeof(gid_t)); /* Clear array */
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if (getgroups(ngroups_max, grouplist2) != HALF_LIST_SIZE) e(21);
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for (i = 0; i < HALF_LIST_SIZE; i++) {
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/* Anything above indices 'HALF_LIST_SIZE' is undefined */
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if(grouplist[i] != grouplist2[i]) {
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e(22);
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break;
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}
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}
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2011-09-05 15:56:14 +02:00
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/* Try to set too high a group ID */
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grouplist2[0] = GID_MAX + 1; /* Out of range */
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if (setgroups(1, grouplist2) == 0) e(23);
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if (errno != EINVAL) e(24);
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2009-12-20 22:31:03 +01:00
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free(grouplist);
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free(grouplist2);
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}
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void group_test() {
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/* To test supplemental group support we're going to create a temporary
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* directory that can only be accessed (x bit) by members of our imaginary
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* group, read from (r bit) and written to (w bit).
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* Then we're going to create a file in that directory that's only readable and
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* writable by the owner, also readable, writable, and both (in that order) by
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* the imaginary group, and readable, writable, and both by everyone else (2).
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*/
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2011-11-14 11:07:49 +01:00
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int i, round;
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2009-12-20 22:31:03 +01:00
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gid_t *grouplist;
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long ngroups_max;
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#define ROUNDS 8
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subtest = 3;
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ngroups_max = sysconf(_SC_NGROUPS_MAX);
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grouplist = malloc(ngroups_max *sizeof(gid_t));
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/* Let's invent imaginary groups and user id */
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grouplist = malloc(ngroups_max * sizeof(gid_t));
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/* Now loop a few tests while using different group set sizes */
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for(round = 0; round < ROUNDS; round++) {
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grouplist[round] = IMAGINARY_GID;
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for(i = 0; i < ngroups_max; i++) {
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if(i == round) continue;
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grouplist[i] = IMAGINARY_GID + i + ngroups_max;
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}
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setgroups(round+1, grouplist);
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2012-01-16 11:46:14 +01:00
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system("rm -rf DIR_046 > /dev/null 2>&1");
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2009-12-20 22:31:03 +01:00
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system("mkdir DIR_046");
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system("chmod u=rwx,g=,o= DIR_046"); /* Only access for superuser */
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system("chgrp "IMAGINARY_GID_STR" DIR_046"); /* Make imaginary group
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* owner */
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/* Test group access on directories */
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if(dotest(group_test_1) != 0) e(1);
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system("chmod g+r DIR_046"); /* Allow group read access */
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if(dotest(group_test_1) == 0) e(2);
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system("chmod g= DIR_046");
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if(dotest(group_test_2) != 0) e(3);
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system("chmod g+x DIR_046"); /* Allow 'search' (i.e., inode data)
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* access */
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if(dotest(group_test_2) == 0) e(4);
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if(dotest(group_test_3) != 0) e(5);
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system("chmod g+w DIR_046"); /* Allow group write access */
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if(dotest(group_test_3) == 0) e(6);
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system("chmod g-wx DIR_046"); /* Remove write and 'search' permission */
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if(dotest(group_test_4) != 0) e(7);
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system("chmod g+w DIR_046"); /* Add write permission */
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if(dotest(group_test_4) != 0) e(8);
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system("chmod g+x DIR_046"); /* Add 'search' permission */
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if(dotest(group_test_4) == 0) e(9);
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/* Subdirectories */
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system("mkdir -p DIR_046/sub");
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system("chmod u=rwx,g=,o= DIR_046");
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system("chmod u=rwx,g=,o= DIR_046/sub");
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system("chgrp "IMAGINARY_GID_STR" DIR_046/sub");
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if(dotest(group_test_1) != 0) e(10);
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if(dotest(group_test_5) != 0) e(11);
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system("chmod g+r DIR_046");
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if(dotest(group_test_1) == 0) e(12);
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if(dotest(group_test_5) != 0) e(13);
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system("chmod g= DIR_046");
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if(dotest(group_test_5) != 0) e(14);
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system("chmod g+r DIR_046/sub");
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if(dotest(group_test_5) != 0) e(15); /* We need search permission for
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* sub directory DIR_046 to be
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* able to read the contents of
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* DIR_046/sub */
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system("chmod g+x DIR_046");
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if(dotest(group_test_1) != 0) e(16);
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if(dotest(group_test_5) == 0) e(17);
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system("chmod g+r DIR_046");
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if(dotest(group_test_5) == 0) e(18);
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}
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2012-01-16 11:46:14 +01:00
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system("rm -rf DIR_046");
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2009-12-20 22:31:03 +01:00
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free(grouplist);
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}
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int dotest( void (*func)(void) ) {
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int test_result;
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if(fork() == 0) (*func)();
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else wait(&test_result);
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return(test_result);
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}
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void group_test_1() {
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/* Test x bit for group access. Exit value is 1 when we were able to read from
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* the directory and 0 otherwise. */
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DIR *dirp = NULL;
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SET_CREDENTIALS;
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dirp = opendir("DIR_046");
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exit(dirp != NULL); /* If not NULL, we were able to access it */
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}
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void group_test_2() {
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/* Test x bit for group access. Exit value is 1 when we were able to access
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* inode data of the directory and 0 otherwise. */
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struct stat buf;
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int res;
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SET_CREDENTIALS;
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res = stat("DIR_046/.", &buf);
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exit(res == 0);
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}
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void group_test_3() {
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/* Test wx bits for group access. Exit value is 1 when we were able to write to
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* the directory and 0 otherwise. */
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int fd;
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SET_CREDENTIALS;
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fd = open("DIR_046/writetest", O_WRONLY|O_CREAT);
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exit(fd != -1);
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}
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void group_test_4() {
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/* Test w bit for group access. Exit value is 1 when we were able to rename a
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* the directory and 0 otherwise. */
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int res;
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SET_CREDENTIALS;
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res = rename("DIR_046/writetest", "DIR_046/renametest");
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exit(res == 0);
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}
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void group_test_5() {
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/* Test x bit for group access. Exit value is 1 when we were able to read from
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* the directory and 0 otherwise. */
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DIR *dirp = NULL;
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SET_CREDENTIALS;
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dirp = opendir("DIR_046/sub");
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exit(dirp != NULL); /* If not NULL, we were able to access it */
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}
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