/* * Copyright (c) 2008-11,16,19,2020 Andrew G. Morgan * * This is a multifunction shell wrapper tool that can be used to * launch capable files in various ways with a variety of settings. It * also supports some testing modes, which are used extensively as * part of the libcap build system. * * The --print option can be used as a quick test whether various * capability manipulations work as expected (or not). */ #ifndef _DEFAULT_SOURCE #define _DEFAULT_SOURCE #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef SHELL #define SHELL "/bin/bash" #endif /* ndef SHELL */ #define MAX_GROUPS 100 /* max number of supplementary groups for user */ static char *binary(unsigned long value) { static char string[8*sizeof(unsigned long) + 1]; unsigned i; i = sizeof(string); string[--i] = '\0'; do { string[--i] = (value & 1) ? '1' : '0'; value >>= 1; } while ((i > 0) && value); return string + i; } static void display_prctl_set(const char *name, int (*fn)(cap_value_t)) { unsigned cap; const char *sep; int set; printf("%s set =", name); for (sep = "", cap=0; (set = fn(cap)) >= 0; cap++) { char *ptr; if (!set) { continue; } ptr = cap_to_name(cap); if (ptr == NULL) { printf("%s%u", sep, cap); } else { printf("%s%s", sep, ptr); cap_free(ptr); } sep = ","; } if (!cap) { printf(" \n"); } else { printf("\n"); } } /* arg_print displays the current capability state of the process */ static void arg_print(void) { long set; int status, j; cap_t all; char *text; const char *sep; struct group *g; gid_t groups[MAX_GROUPS], gid; uid_t uid, euid; struct passwd *u, *eu; cap_iab_t iab; all = cap_get_proc(); text = cap_to_text(all, NULL); printf("Current: %s\n", text); cap_free(text); cap_free(all); display_prctl_set("Bounding", cap_get_bound); display_prctl_set("Ambient", cap_get_ambient); iab = cap_iab_get_proc(); text = cap_iab_to_text(iab); printf("Current IAB: %s\n", text); cap_free(text); cap_free(iab); set = cap_get_secbits(); if (set >= 0) { const char *b = binary(set); /* verilog convention for binary string */ printf("Securebits: 0%lo/0x%lx/%u'b%s (no-new-privs=%d)\n", set, set, (unsigned) strlen(b), b, prctl(PR_GET_NO_NEW_PRIVS, 0, 0, 0, 0, 0)); printf(" secure-noroot: %s (%s)\n", (set & SECBIT_NOROOT) ? "yes":"no", (set & SECBIT_NOROOT_LOCKED) ? "locked":"unlocked"); printf(" secure-no-suid-fixup: %s (%s)\n", (set & SECBIT_NO_SETUID_FIXUP) ? "yes":"no", (set & SECBIT_NO_SETUID_FIXUP_LOCKED) ? "locked":"unlocked"); printf(" secure-keep-caps: %s (%s)\n", (set & SECBIT_KEEP_CAPS) ? "yes":"no", (set & SECBIT_KEEP_CAPS_LOCKED) ? "locked":"unlocked"); if (CAP_AMBIENT_SUPPORTED()) { printf(" secure-no-ambient-raise: %s (%s)\n", (set & SECBIT_NO_CAP_AMBIENT_RAISE) ? "yes":"no", (set & SECBIT_NO_CAP_AMBIENT_RAISE_LOCKED) ? "locked":"unlocked"); } } else { printf("[Securebits ABI not supported]\n"); set = prctl(PR_GET_KEEPCAPS); if (set >= 0) { printf(" prctl-keep-caps: %s (locking not supported)\n", set ? "yes":"no"); } else { printf("[Keepcaps ABI not supported]\n"); } } uid = getuid(); u = getpwuid(uid); euid = geteuid(); eu = getpwuid(euid); printf("uid=%u(%s) euid=%u(%s)\n", uid, u ? u->pw_name : "???", euid, eu ? eu->pw_name : "???"); gid = getgid(); g = getgrgid(gid); printf("gid=%u(%s)\n", gid, g ? g->gr_name : "???"); printf("groups="); status = getgroups(MAX_GROUPS, groups); sep = ""; for (j=0; j < status; j++) { g = getgrgid(groups[j]); printf("%s%u(%s)", sep, groups[j], g ? g->gr_name : "???"); sep = ","; } printf("\n"); cap_mode_t mode = cap_get_mode(); printf("Guessed mode: %s (%d)\n", cap_mode_name(mode), mode); } static const cap_value_t raise_setpcap[1] = { CAP_SETPCAP }; static const cap_value_t raise_chroot[1] = { CAP_SYS_CHROOT }; static void push_pcap(cap_t *orig_p, cap_t *raised_for_setpcap_p) { /* * We need to do this here because --inh=XXX may have reset * orig and it isn't until we are within the --drop code that * we know what the prevailing (orig) pI value is. */ *orig_p = cap_get_proc(); if (NULL == *orig_p) { perror("Capabilities not available"); exit(1); } *raised_for_setpcap_p = cap_dup(*orig_p); if (NULL == *raised_for_setpcap_p) { fprintf(stderr, "modification requires CAP_SETPCAP\n"); exit(1); } if (cap_set_flag(*raised_for_setpcap_p, CAP_EFFECTIVE, 1, raise_setpcap, CAP_SET) != 0) { perror("unable to select CAP_SETPCAP"); exit(1); } } static void pop_pcap(cap_t orig, cap_t raised_for_setpcap) { cap_free(raised_for_setpcap); cap_free(orig); } static void arg_drop(const char *arg_names) { char *ptr; cap_t orig, raised_for_setpcap; char *names; push_pcap(&orig, &raised_for_setpcap); if (strcmp("all", arg_names) == 0) { unsigned j = 0; while (CAP_IS_SUPPORTED(j)) { int status; if (cap_set_proc(raised_for_setpcap) != 0) { perror("unable to raise CAP_SETPCAP for BSET changes"); exit(1); } status = cap_drop_bound(j); if (cap_set_proc(orig) != 0) { perror("unable to lower CAP_SETPCAP post BSET change"); exit(1); } if (status != 0) { char *name_ptr; name_ptr = cap_to_name(j); fprintf(stderr, "Unable to drop bounding capability [%s]\n", name_ptr); cap_free(name_ptr); exit(1); } j++; } pop_pcap(orig, raised_for_setpcap); return; } names = strdup(arg_names); if (NULL == names) { fprintf(stderr, "failed to allocate names\n"); exit(1); } for (ptr = names; (ptr = strtok(ptr, ",")); ptr = NULL) { /* find name for token */ cap_value_t cap; int status; if (cap_from_name(ptr, &cap) != 0) { fprintf(stderr, "capability [%s] is unknown to libcap\n", ptr); exit(1); } if (cap_set_proc(raised_for_setpcap) != 0) { perror("unable to raise CAP_SETPCAP for BSET changes"); exit(1); } status = cap_drop_bound(cap); if (cap_set_proc(orig) != 0) { perror("unable to lower CAP_SETPCAP post BSET change"); exit(1); } if (status != 0) { fprintf(stderr, "failed to drop [%s=%u]\n", ptr, cap); exit(1); } } pop_pcap(orig, raised_for_setpcap); free(names); } static void arg_change_amb(const char *arg_names, cap_flag_value_t set) { char *ptr; cap_t orig, raised_for_setpcap; char *names; push_pcap(&orig, &raised_for_setpcap); if (strcmp("all", arg_names) == 0) { unsigned j = 0; while (CAP_IS_SUPPORTED(j)) { int status; if (cap_set_proc(raised_for_setpcap) != 0) { perror("unable to raise CAP_SETPCAP for AMBIENT changes"); exit(1); } status = cap_set_ambient(j, set); if (cap_set_proc(orig) != 0) { perror("unable to lower CAP_SETPCAP post AMBIENT change"); exit(1); } if (status != 0) { char *name_ptr; name_ptr = cap_to_name(j); fprintf(stderr, "Unable to %s ambient capability [%s]\n", set == CAP_CLEAR ? "clear":"raise", name_ptr); cap_free(name_ptr); exit(1); } j++; } pop_pcap(orig, raised_for_setpcap); return; } names = strdup(arg_names); if (NULL == names) { fprintf(stderr, "failed to allocate names\n"); exit(1); } for (ptr = names; (ptr = strtok(ptr, ",")); ptr = NULL) { /* find name for token */ cap_value_t cap; int status; if (cap_from_name(ptr, &cap) != 0) { fprintf(stderr, "capability [%s] is unknown to libcap\n", ptr); exit(1); } if (cap_set_proc(raised_for_setpcap) != 0) { perror("unable to raise CAP_SETPCAP for AMBIENT changes"); exit(1); } status = cap_set_ambient(cap, set); if (cap_set_proc(orig) != 0) { perror("unable to lower CAP_SETPCAP post AMBIENT change"); exit(1); } if (status != 0) { fprintf(stderr, "failed to %s ambient [%s=%u]\n", set == CAP_CLEAR ? "clear":"raise", ptr, cap); exit(1); } } pop_pcap(orig, raised_for_setpcap); free(names); } /* * find_self locates and returns the full pathname of the named binary * that is running. Importantly, it looks in the context of the * prevailing CHROOT. Further, it does not fail over to invoking a * shell if the target binary looks like something other than a * executable. If an executable is not found, the function terminates * the program with an error. */ static char *find_self(const char *arg0) { int i; char *parts, *dir, *scratch; const char *path; for (i = strlen(arg0)-1; i >= 0 && arg0[i] != '/'; i--); if (i >= 0) { return strdup(arg0); } path = getenv("PATH"); if (path == NULL) { fprintf(stderr, "no PATH environment variable found for re-execing\n"); exit(1); } parts = strdup(path); scratch = malloc(2+strlen(path)+strlen(arg0)); if (parts == NULL || scratch == NULL) { fprintf(stderr, "insufficient memory for path building\n"); exit(1); } for (i=0; (dir = strtok(parts, ":")); parts = NULL) { sprintf(scratch, "%s/%s", dir, arg0); if (access(scratch, X_OK) == 0) { return scratch; } } fprintf(stderr, "unable to find executable '%s' in PATH\n", arg0); exit(1); } int main(int argc, char *argv[], char *envp[]) { pid_t child; unsigned i; const char *shell = SHELL; child = 0; char *temp_name = cap_to_name(cap_max_bits() - 1); if (temp_name[0] != 'c') { printf("WARNING: libcap needs an update (cap=%d should have a name).\n", cap_max_bits() - 1); } cap_free(temp_name); for (i=1; i 0) { fprintf(stderr, "cap[%s] raised in bounding vector\n", argv[i]+10); exit(1); } } else if (!strcmp("--has-ambient", argv[i])) { if (!CAP_AMBIENT_SUPPORTED()) { fprintf(stderr, "ambient set not supported\n"); exit(1); } } else if (!strncmp("--addamb=", argv[i], 9)) { arg_change_amb(argv[i]+9, CAP_SET); } else if (!strncmp("--delamb=", argv[i], 9)) { arg_change_amb(argv[i]+9, CAP_CLEAR); } else if (!strncmp("--noamb", argv[i], 7)) { if (cap_reset_ambient() != 0) { fprintf(stderr, "failed to reset ambient set\n"); exit(1); } } else if (!strncmp("--inh=", argv[i], 6)) { cap_t all, raised_for_setpcap; char *text; char *ptr; all = cap_get_proc(); if (all == NULL) { perror("Capabilities not available"); exit(1); } if (cap_clear_flag(all, CAP_INHERITABLE) != 0) { perror("libcap:cap_clear_flag() internal error"); exit(1); } raised_for_setpcap = cap_dup(all); if ((raised_for_setpcap != NULL) && (cap_set_flag(raised_for_setpcap, CAP_EFFECTIVE, 1, raise_setpcap, CAP_SET) != 0)) { cap_free(raised_for_setpcap); raised_for_setpcap = NULL; } text = cap_to_text(all, NULL); cap_free(all); if (text == NULL) { perror("Fatal error concerning process capabilities"); exit(1); } ptr = malloc(10 + strlen(argv[i]+6) + strlen(text)); if (ptr == NULL) { perror("Out of memory for inh set"); exit(1); } if (argv[i][6] && strcmp("none", argv[i]+6)) { sprintf(ptr, "%s %s+i", text, argv[i]+6); } else { strcpy(ptr, text); } all = cap_from_text(ptr); if (all == NULL) { perror("Fatal error internalizing capabilities"); exit(1); } cap_free(text); free(ptr); if (raised_for_setpcap != NULL) { /* * This is only for the case that pP does not contain * the requested change to pI.. Failing here is not * indicative of the cap_set_proc(all) failing (always). */ (void) cap_set_proc(raised_for_setpcap); cap_free(raised_for_setpcap); raised_for_setpcap = NULL; } if (cap_set_proc(all) != 0) { perror("Unable to set inheritable capabilities"); exit(1); } /* * Since status is based on orig, we don't want to restore * the previous value of 'all' again here! */ cap_free(all); } else if (!strncmp("--caps=", argv[i], 7)) { cap_t all, raised_for_setpcap; raised_for_setpcap = cap_get_proc(); if (raised_for_setpcap == NULL) { perror("Capabilities not available"); exit(1); } if ((raised_for_setpcap != NULL) && (cap_set_flag(raised_for_setpcap, CAP_EFFECTIVE, 1, raise_setpcap, CAP_SET) != 0)) { cap_free(raised_for_setpcap); raised_for_setpcap = NULL; } all = cap_from_text(argv[i]+7); if (all == NULL) { fprintf(stderr, "unable to interpret [%s]\n", argv[i]); exit(1); } if (raised_for_setpcap != NULL) { /* * This is only for the case that pP does not contain * the requested change to pI.. Failing here is not * indicative of the cap_set_proc(all) failing (always). */ (void) cap_set_proc(raised_for_setpcap); cap_free(raised_for_setpcap); raised_for_setpcap = NULL; } if (cap_set_proc(all) != 0) { fprintf(stderr, "Unable to set capabilities [%s]\n", argv[i]); exit(1); } /* * Since status is based on orig, we don't want to restore * the previous value of 'all' again here! */ cap_free(all); } else if (!strcmp("--modes", argv[i])) { cap_mode_t c; printf("Supported modes:"); for (c = 1; ; c++) { const char *m = cap_mode_name(c); if (strcmp("UNKNOWN", m) == 0) { break; } printf(" %s", m); } printf("\n"); } else if (!strncmp("--mode=", argv[i], 7)) { const char *target = argv[i]+7; cap_mode_t c; int found = 0; for (c = 1; ; c++) { const char *m = cap_mode_name(c); if (!strcmp("UNKNOWN", m)) { found = 0; break; } if (!strcmp(m, target)) { found = 1; break; } } if (!found) { printf("unsupported mode: %s\n", target); exit(1); } int ret = cap_set_mode(c); if (ret != 0) { printf("failed to set mode [%s]: %s\n", target, strerror(errno)); exit(1); } } else if (!strncmp("--inmode=", argv[i], 9)) { const char *target = argv[i]+9; cap_mode_t c = cap_get_mode(); const char *m = cap_mode_name(c); if (strcmp(m, target)) { printf("mismatched mode got=%s want=%s\n", m, target); exit(1); } } else if (!strncmp("--keep=", argv[i], 7)) { unsigned value; int set; value = strtoul(argv[i]+7, NULL, 0); set = prctl(PR_SET_KEEPCAPS, value); if (set < 0) { fprintf(stderr, "prctl(PR_SET_KEEPCAPS, %u) failed: %s\n", value, strerror(errno)); exit(1); } } else if (!strncmp("--chroot=", argv[i], 9)) { int status; cap_t orig, raised_for_chroot; orig = cap_get_proc(); if (orig == NULL) { perror("Capabilities not available"); exit(1); } raised_for_chroot = cap_dup(orig); if (raised_for_chroot == NULL) { perror("Unable to duplicate capabilities"); exit(1); } if (cap_set_flag(raised_for_chroot, CAP_EFFECTIVE, 1, raise_chroot, CAP_SET) != 0) { perror("unable to select CAP_SET_SYS_CHROOT"); exit(1); } if (cap_set_proc(raised_for_chroot) != 0) { perror("unable to raise CAP_SYS_CHROOT"); exit(1); } cap_free(raised_for_chroot); status = chroot(argv[i]+9); if (cap_set_proc(orig) != 0) { perror("unable to lower CAP_SYS_CHROOT"); exit(1); } /* * Given we are now in a new directory tree, its good practice * to start off in a sane location */ status = chdir("/"); cap_free(orig); if (status != 0) { fprintf(stderr, "Unable to chroot/chdir to [%s]", argv[i]+9); exit(1); } } else if (!strncmp("--secbits=", argv[i], 10)) { unsigned value; int status; value = strtoul(argv[i]+10, NULL, 0); status = cap_set_secbits(value); if (status < 0) { fprintf(stderr, "failed to set securebits to 0%o/0x%x\n", value, value); exit(1); } } else if (!strncmp("--forkfor=", argv[i], 10)) { unsigned value; if (child != 0) { fprintf(stderr, "already forked\n"); exit(1); } value = strtoul(argv[i]+10, NULL, 0); if (value == 0) { goto usage; } child = fork(); if (child < 0) { perror("unable to fork()"); } else if (!child) { sleep(value); exit(0); } } else if (!strncmp("--killit=", argv[i], 9)) { int retval, status; pid_t result; unsigned value; value = strtoul(argv[i]+9, NULL, 0); if (!child) { fprintf(stderr, "no forked process to kill\n"); exit(1); } retval = kill(child, value); if (retval != 0) { perror("Unable to kill child process"); exit(1); } result = waitpid(child, &status, 0); if (result != child) { fprintf(stderr, "waitpid didn't match child: %u != %u\n", child, result); exit(1); } if (WTERMSIG(status) != value) { fprintf(stderr, "child terminated with odd signal (%d != %d)\n" , value, WTERMSIG(status)); exit(1); } child = 0; } else if (!strncmp("--uid=", argv[i], 6)) { unsigned value; int status; value = strtoul(argv[i]+6, NULL, 0); status = setuid(value); if (status < 0) { fprintf(stderr, "Failed to set uid=%u: %s\n", value, strerror(errno)); exit(1); } } else if (!strncmp("--cap-uid=", argv[i], 10)) { unsigned value; int status; value = strtoul(argv[i]+10, NULL, 0); status = cap_setuid(value); if (status < 0) { fprintf(stderr, "Failed to cap_setuid(%u): %s\n", value, strerror(errno)); exit(1); } } else if (!strncmp("--gid=", argv[i], 6)) { unsigned value; int status; value = strtoul(argv[i]+6, NULL, 0); status = setgid(value); if (status < 0) { fprintf(stderr, "Failed to set gid=%u: %s\n", value, strerror(errno)); exit(1); } } else if (!strncmp("--groups=", argv[i], 9)) { char *ptr, *buf; long length, max_groups; gid_t *group_list; int g_count; length = sysconf(_SC_GETGR_R_SIZE_MAX); buf = calloc(1, length); if (NULL == buf) { fprintf(stderr, "No memory for [%s] operation\n", argv[i]); exit(1); } max_groups = sysconf(_SC_NGROUPS_MAX); group_list = calloc(max_groups, sizeof(gid_t)); if (NULL == group_list) { fprintf(stderr, "No memory for gid list\n"); exit(1); } g_count = 0; for (ptr = argv[i] + 9; (ptr = strtok(ptr, ",")); ptr = NULL, g_count++) { if (max_groups <= g_count) { fprintf(stderr, "Too many groups specified (%d)\n", g_count); exit(1); } if (!isdigit(*ptr)) { struct group *g, grp; getgrnam_r(ptr, &grp, buf, length, &g); if (NULL == g) { fprintf(stderr, "Failed to identify gid for group [%s]\n", ptr); exit(1); } group_list[g_count] = g->gr_gid; } else { group_list[g_count] = strtoul(ptr, NULL, 0); } } free(buf); if (setgroups(g_count, group_list) != 0) { fprintf(stderr, "Failed to setgroups.\n"); exit(1); } free(group_list); } else if (!strncmp("--user=", argv[i], 7)) { struct passwd *pwd; const char *user; gid_t groups[MAX_GROUPS]; int status, ngroups; user = argv[i] + 7; pwd = getpwnam(user); if (pwd == NULL) { fprintf(stderr, "User [%s] not known\n", user); exit(1); } ngroups = MAX_GROUPS; status = getgrouplist(user, pwd->pw_gid, groups, &ngroups); if (status < 1) { perror("Unable to get group list for user"); exit(1); } status = cap_setgroups(pwd->pw_gid, ngroups, groups); if (status != 0) { perror("Unable to set group list for user"); exit(1); } status = cap_setuid(pwd->pw_uid); if (status < 0) { fprintf(stderr, "Failed to set uid=%u(user=%s): %s\n", pwd->pw_uid, user, strerror(errno)); exit(1); } } else if (!strncmp("--decode=", argv[i], 9)) { unsigned long long value; unsigned cap; const char *sep = ""; /* Note, if capabilities become longer than 64-bits we'll need to fixup the following code.. */ value = strtoull(argv[i]+9, NULL, 16); printf("0x%016llx=", value); for (cap=0; (cap < 64) && (value >> cap); ++cap) { if (value & (1ULL << cap)) { char *ptr; ptr = cap_to_name(cap); if (ptr != NULL) { printf("%s%s", sep, ptr); cap_free(ptr); } else { printf("%s%u", sep, cap); } sep = ","; } } printf("\n"); } else if (!strncmp("--supports=", argv[i], 11)) { cap_value_t cap; if (cap_from_name(argv[i] + 11, &cap) < 0) { fprintf(stderr, "cap[%s] not recognized by library\n", argv[i] + 11); exit(1); } if (!CAP_IS_SUPPORTED(cap)) { fprintf(stderr, "cap[%s=%d] not supported by kernel\n", argv[i] + 11, cap); exit(1); } } else if (!strcmp("--print", argv[i])) { arg_print(); } else if ((!strcmp("--", argv[i])) || (!strcmp("==", argv[i]))) { if (argv[i][0] == '=') { argv[i] = find_self(argv[0]); } else { argv[i] = strdup(shell); } argv[argc] = NULL; execve(argv[i], argv+i, envp); fprintf(stderr, "execve '%s' failed!\n", argv[i]); exit(1); } else if (!strncmp("--shell=", argv[i], 8)) { shell = argv[i]+8; } else if (!strncmp("--has-p=", argv[i], 8)) { cap_value_t cap; cap_flag_value_t enabled; cap_t orig; if (cap_from_name(argv[i]+8, &cap) < 0) { fprintf(stderr, "cap[%s] not recognized by library\n", argv[i] + 8); exit(1); } orig = cap_get_proc(); if (cap_get_flag(orig, cap, CAP_PERMITTED, &enabled) || !enabled) { fprintf(stderr, "cap[%s] not permitted\n", argv[i]+8); exit(1); } cap_free(orig); } else if (!strncmp("--has-i=", argv[i], 8)) { cap_value_t cap; cap_flag_value_t enabled; cap_t orig; if (cap_from_name(argv[i]+8, &cap) < 0) { fprintf(stderr, "cap[%s] not recognized by library\n", argv[i] + 8); exit(1); } orig = cap_get_proc(); if (cap_get_flag(orig, cap, CAP_INHERITABLE, &enabled) || !enabled) { fprintf(stderr, "cap[%s] not inheritable\n", argv[i]+8); exit(1); } cap_free(orig); } else if (!strncmp("--has-a=", argv[i], 8)) { cap_value_t cap; if (cap_from_name(argv[i]+8, &cap) < 0) { fprintf(stderr, "cap[%s] not recognized by library\n", argv[i] + 8); exit(1); } if (!cap_get_ambient(cap)) { fprintf(stderr, "cap[%s] not in ambient vector\n", argv[i]+8); exit(1); } } else if (!strncmp("--is-uid=", argv[i], 9)) { unsigned value; uid_t uid; value = strtoul(argv[i]+9, NULL, 0); uid = getuid(); if (uid != value) { fprintf(stderr, "uid: got=%d, want=%d\n", uid, value); exit(1); } } else if (!strncmp("--is-gid=", argv[i], 9)) { unsigned value; gid_t gid; value = strtoul(argv[i]+9, NULL, 0); gid = getgid(); if (gid != value) { fprintf(stderr, "gid: got=%d, want=%d\n", gid, value); exit(1); } } else if (!strncmp("--iab=", argv[i], 6)) { cap_iab_t iab = cap_iab_from_text(argv[i]+6); if (iab == NULL) { fprintf(stderr, "iab: '%s' malformed\n", argv[i]+6); exit(1); } if (cap_iab_set_proc(iab)) { perror("unable to set IAP vectors"); exit(1); } cap_free(iab); } else if (!strcmp("--no-new-privs", argv[i])) { if (prctl(PR_SET_NO_NEW_PRIVS, 1, 0, 0, 0, 0) != 0) { perror("unable to set no-new-privs"); exit(1); } } else if (!strcmp("--has-no-new-privs", argv[i])) { if (prctl(PR_GET_NO_NEW_PRIVS, 0, 0, 0, 0, 0) != 1) { fprintf(stderr, "no-new-privs not set\n"); exit(1); } } else if (!strcmp("--license", argv[i])) { printf( "%s has a you choose license: BSD 3-clause or GPL2\n" "Copyright (c) 2008-11,16,19,2020 Andrew G. Morgan" " \n", argv[0]); exit(0); } else { usage: printf("usage: %s [args ...]\n" " --has-a=xxx exit 1 if capability xxx not ambient\n" " --has-ambient exit 1 unless ambient vector supported\n" " --addamb=xxx add xxx,... capabilities to ambient set\n" " --cap-uid= use libcap cap_setuid() to change uid\n" " --caps=xxx set caps as per cap_from_text()\n" " --chroot=path chroot(2) to this path\n" " --decode=xxx decode a hex string to a list of caps\n" " --delamb=xxx remove xxx,... capabilities from ambient\n" " --forkfor= fork and make child sleep for sec\n" " --gid= set gid to (hint: id )\n" " --groups=g,... set the supplemental groups\n" " --has-p=xxx exit 1 if capability xxx not permitted\n" " --has-i=xxx exit 1 if capability xxx not inheritable\n" " --has-no-new-privs exit 1 if privs not limited\n" " --help, -h this message (or try 'man capsh')\n" " --iab=... use cap_iab_from_text() to set iab\n" " --inh=xxx set xxx,.. inheritable set\n" " --inmode= exit 1 if current mode is not \n" " --is-uid= exit 1 if uid != \n" " --is-gid= exit 1 if gid != \n" " --keep= set keep-capability bit to \n" " --killit= send signal(n) to child\n" " --license display license info\n" " --modes list libcap named capability modes\n" " --mode= set capability mode to \n" " --no-new-privs set sticky process privilege limiter\n" " --noamb reset (drop) all ambient capabilities\n" " --print display capability relevant state\n" " --secbits= write a new value for securebits\n" " --shell=/xx/yy use /xx/yy instead of " SHELL " for --\n" " --supports=xxx exit 1 if capability xxx unsupported\n" " --uid= set uid to (hint: id )\n" " --user= set uid,gid and groups to that of user\n" " == re-exec(capsh) with args as for --\n" " -- remaining arguments are for " SHELL "\n" " (without -- [%s] will simply exit(0))\n", argv[0], argv[0]); if (strcmp("--help", argv[1]) && strcmp("-h", argv[1])) { exit(1); } exit(0); } } exit(0); }