/* * Copyright (c) 1999,2007 Andrew G. Morgan * * The purpose of this module is to enforce inheritable capability sets * for a specified user. */ /* #define DEBUG */ #include #include #include #include #include #include #include #include #include #define USER_CAP_FILE "/etc/security/capability.conf" #define CAP_FILE_BUFFER_SIZE 4096 #define CAP_FILE_DELIMITERS " \t\n" #define CAP_COMBINED_FORMAT "%s all-i %s+i" #define CAP_DROP_ALL "%s all-i" struct pam_cap_s { int debug; const char *user; const char *conf_filename; }; /* obtain the inheritable capabilities for the current user */ static char *read_capabilities_for_user(const char *user, const char *source) { char *cap_string = NULL; char buffer[CAP_FILE_BUFFER_SIZE], *line; FILE *cap_file; cap_file = fopen(source, "r"); if (cap_file == NULL) { D(("failed to open capability file")); return NULL; } while ((line = fgets(buffer, CAP_FILE_BUFFER_SIZE, cap_file))) { int found_one = 0; const char *cap_text; cap_text = strtok(line, CAP_FILE_DELIMITERS); if (cap_text == NULL) { D(("empty line")); continue; } if (*cap_text == '#') { D(("comment line")); continue; } while ((line = strtok(NULL, CAP_FILE_DELIMITERS))) { if (strcmp("*", line) == 0) { D(("wildcard matched")); found_one = 1; cap_string = strdup(cap_text); break; } if (strcmp(user, line) == 0) { D(("exact match for user")); found_one = 1; cap_string = strdup(cap_text); break; } D(("user is not [%s] - skipping", line)); } cap_text = NULL; line = NULL; if (found_one) { D(("user [%s] matched - caps are [%s]", user, cap_string)); break; } } fclose(cap_file); memset(buffer, 0, CAP_FILE_BUFFER_SIZE); return cap_string; } /* * Set capabilities for current process to match the current * permitted+executable sets combined with the configured inheritable * set. */ static int set_capabilities(struct pam_cap_s *cs) { cap_t cap_s; ssize_t length = 0; char *conf_icaps; char *proc_epcaps; char *combined_caps; int ok = 0; cap_s = cap_get_proc(); if (cap_s == NULL) { D(("your kernel is capability challenged - upgrade: %s", strerror(errno))); return 0; } conf_icaps = read_capabilities_for_user(cs->user, cs->conf_filename ? cs->conf_filename:USER_CAP_FILE ); if (conf_icaps == NULL) { D(("no capabilities found for user [%s]", cs->user)); goto cleanup_cap_s; } proc_epcaps = cap_to_text(cap_s, &length); if (proc_epcaps == NULL) { D(("unable to convert process capabilities to text")); goto cleanup_icaps; } /* * This is a pretty inefficient way to combine * capabilities. However, it seems to be the most straightforward * one, given the limitations of the POSIX.1e draft spec. The spec * is optimized for applications that know the capabilities they * want to manipulate at compile time. */ combined_caps = malloc(1+strlen(CAP_COMBINED_FORMAT) +strlen(proc_epcaps)+strlen(conf_icaps)); if (combined_caps == NULL) { D(("unable to combine capabilities into one string - no memory")); goto cleanup_epcaps; } if (!strcmp(conf_icaps, "none")) { sprintf(combined_caps, CAP_DROP_ALL, proc_epcaps); } else if (!strcmp(conf_icaps, "all")) { /* no change */ sprintf(combined_caps, "%s", proc_epcaps); } else { sprintf(combined_caps, CAP_COMBINED_FORMAT, proc_epcaps, conf_icaps); } D(("combined_caps=[%s]", combined_caps)); cap_free(cap_s); cap_s = cap_from_text(combined_caps); _pam_overwrite(combined_caps); _pam_drop(combined_caps); #ifdef DEBUG { char *temp = cap_to_text(cap_s, NULL); D(("abbreviated caps for process will be [%s]", temp)); cap_free(temp); } #endif /* DEBUG */ if (cap_s == NULL) { D(("no capabilies to set")); } else if (cap_set_proc(cap_s) == 0) { D(("capabilities were set correctly")); ok = 1; } else { D(("failed to set specified capabilities: %s", strerror(errno))); } cleanup_epcaps: cap_free(proc_epcaps); cleanup_icaps: _pam_overwrite(conf_icaps); _pam_drop(conf_icaps); cleanup_cap_s: if (cap_s) { cap_free(cap_s); cap_s = NULL; } return ok; } /* log errors */ static void _pam_log(int err, const char *format, ...) { va_list args; va_start(args, format); openlog("pam_cap", LOG_CONS|LOG_PID, LOG_AUTH); vsyslog(err, format, args); va_end(args); closelog(); } static void parse_args(int argc, const char **argv, struct pam_cap_s *pcs) { int ctrl=0; /* step through arguments */ for (ctrl=0; argc-- > 0; ++argv) { if (!strcmp(*argv, "debug")) { pcs->debug = 1; } else if (!memcmp(*argv, "config=", 7)) { pcs->conf_filename = 7 + *argv; } else { _pam_log(LOG_ERR, "unknown option; %s", *argv); } } } int pam_sm_authenticate(pam_handle_t *pamh, int flags, int argc, const char **argv) { int retval; struct pam_cap_s pcs; char *conf_icaps; memset(&pcs, 0, sizeof(pcs)); parse_args(argc, argv, &pcs); retval = pam_get_user(pamh, &pcs.user, NULL); if (retval == PAM_CONV_AGAIN) { D(("user conversation is not available yet")); memset(&pcs, 0, sizeof(pcs)); return PAM_INCOMPLETE; } if (retval != PAM_SUCCESS) { D(("pam_get_user failed: %s", pam_strerror(pamh, retval))); memset(&pcs, 0, sizeof(pcs)); return PAM_AUTH_ERR; } conf_icaps = read_capabilities_for_user(pcs.user, pcs.conf_filename ? pcs.conf_filename:USER_CAP_FILE ); memset(&pcs, 0, sizeof(pcs)); if (conf_icaps) { D(("it appears that there are capabilities for this user [%s]", conf_icaps)); /* We could also store this as a pam_[gs]et_data item for use by the setcred call to follow. As it is, there is a small race associated with a redundant read. Oh well, if you care, send me a patch.. */ _pam_overwrite(conf_icaps); _pam_drop(conf_icaps); return PAM_SUCCESS; } else { D(("there are no capabilities restrctions on this user")); return PAM_IGNORE; } } int pam_sm_setcred(pam_handle_t *pamh, int flags, int argc, const char **argv) { int retval; struct pam_cap_s pcs; if (!(flags & PAM_ESTABLISH_CRED)) { D(("we don't handle much in the way of credentials")); return PAM_IGNORE; } memset(&pcs, 0, sizeof(pcs)); parse_args(argc, argv, &pcs); retval = pam_get_item(pamh, PAM_USER, (const void **)&pcs.user); if ((retval != PAM_SUCCESS) || (pcs.user == NULL) || !(pcs.user[0])) { D(("user's name is not set")); return PAM_AUTH_ERR; } retval = set_capabilities(&pcs); memset(&pcs, 0, sizeof(pcs)); return (retval ? PAM_SUCCESS:PAM_IGNORE ); }