/*- * Copyright (c) 2016, 2018 Robert N. M. Watson * All rights reserved. * * This software was developed by BAE Systems, the University of Cambridge * Computer Laboratory, and Memorial University under DARPA/AFRL contract * FA8650-15-C-7558 ("CADETS"), as part of the DARPA Transparent Computing * (TC) research program. * * 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 AND CONTRIBUTORS ``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 OR CONTRIBUTORS 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. */ #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /*- * Audit DTrace provider: allow DTrace to request that audit records be * generated for various audit events, and then expose those records (in * various forms) to probes. The model is that each event type has two * probes, which use the event's name to create the probe: * * - "commit" passes the kernel-internal (unserialised) kaudit_record * synchronously (from the originating thread) of the record as we prepare * to "commit" the record to the audit queue. * * - "bsm" also passes generated BSM, and executes asynchronously in the audit * worker thread, once it has been extracted from the audit queue. This is * the point at which an audit record would be enqueued to the trail on * disk, or to pipes. * * These probes support very different goals. The former executes in the * thread originating the record, making it easier to correlate other DTrace * probe activity with the event described in the record. The latter gives * access to BSM-formatted events (at a cost) allowing DTrace to extract BSM * directly an alternative mechanism to the formal audit trail and audit * pipes. * * To generate names for numeric event IDs, userspace will push the contents * of /etc/security/audit_event into the kernel during audit setup, much as it * does /etc/security/audit_class. We then create the probes for each of * those mappings. If one (or both) of the probes are enabled, then we cause * a record to be generated (as both normal audit preselection and audit pipes * do), and catch it on the way out during commit. There are suitable hook * functions in the audit code that this provider can register to catch * various events in the audit-record life cycle. * * Further ponderings: * * - How do we want to handle events for which there are not names -- perhaps * a catch-all probe for those events without mappings? * * - Should the evname code really be present even if DTrace isn't loaded...? * Right now, we arrange that it is so that userspace can usefully maintain * the list in case DTrace is later loaded (and to prevent userspace * confusion). * * - Should we add an additional set of audit:class::commit probes that use * event class names to match broader categories of events as specified in * /etc/security/event_class? * * - If we pursue that last point, we will want to pass the name of the event * into the probe explicitly (e.g., as arg0), since it would no longer be * available as the probe function name. */ static int dtaudit_unload(void); static void dtaudit_getargdesc(void *, dtrace_id_t, void *, dtrace_argdesc_t *); static void dtaudit_provide(void *, dtrace_probedesc_t *); static void dtaudit_destroy(void *, dtrace_id_t, void *); static void dtaudit_enable(void *, dtrace_id_t, void *); static void dtaudit_disable(void *, dtrace_id_t, void *); static void dtaudit_load(void *); static dtrace_pattr_t dtaudit_attr = { { DTRACE_STABILITY_EVOLVING, DTRACE_STABILITY_EVOLVING, DTRACE_CLASS_COMMON }, { DTRACE_STABILITY_PRIVATE, DTRACE_STABILITY_PRIVATE, DTRACE_CLASS_UNKNOWN }, { DTRACE_STABILITY_PRIVATE, DTRACE_STABILITY_PRIVATE, DTRACE_CLASS_UNKNOWN }, { DTRACE_STABILITY_EVOLVING, DTRACE_STABILITY_EVOLVING, DTRACE_CLASS_COMMON }, { DTRACE_STABILITY_EVOLVING, DTRACE_STABILITY_EVOLVING, DTRACE_CLASS_COMMON }, }; /* * Strings for the "module" and "name" portions of the probe. The name of the * audit event will be the "function" portion of the probe. All dtaudit * probes therefore take the form audit:event::commit. */ static char *dtaudit_module_str = "event"; static char *dtaudit_name_commit_str = "commit"; static char *dtaudit_name_bsm_str = "bsm"; static dtrace_pops_t dtaudit_pops = { .dtps_provide = dtaudit_provide, .dtps_provide_module = NULL, .dtps_enable = dtaudit_enable, .dtps_disable = dtaudit_disable, .dtps_suspend = NULL, .dtps_resume = NULL, .dtps_getargdesc = dtaudit_getargdesc, .dtps_getargval = NULL, .dtps_usermode = NULL, .dtps_destroy = dtaudit_destroy }; static dtrace_provider_id_t dtaudit_id; /* * Because looking up entries in the event-to-name mapping is quite expensive, * maintain a global flag tracking whether any dtaudit probes are enabled. If * not, don't bother doing all that work whenever potential queries about * events turn up during preselection or commit. * * NB: We used to maintain our own variable in dtaudit, but now use the * centralized audit_dtrace_enabled variable imported from the audit code. * * static uint_t dtaudit_probes_enabled; */ /* * Check dtaudit policy for the event to see whether this is an event we would * like to preselect (i.e., cause an audit record to be generated for). To * minimise probe effect when not used at all, we not only check for the probe * on the individual event, but also a global flag indicating that at least * one probe is enabled, before acquiring locks, searching lists, etc. * * If the event is selected, return an evname_elem reference to be stored in * the audit record, which we can use later to avoid further lookups. The * contents of the evname_elem must be sufficiently stable so as to not risk * race conditions here. * * Currently, we take an interest only in the 'event' argument, but in the * future might want to support other types of record selection tied to * additional probe types (e.g., event clases). * * XXXRW: Should we have a catch-all probe here for events without registered * names? */ static void * dtaudit_preselect(au_id_t auid, au_event_t event, au_class_t class) { struct evname_elem *ene; int probe_enabled; /* * NB: Lockless reads here may return a slightly stale value; this is * considered better than acquiring a lock, however. */ if (!audit_dtrace_enabled) return (NULL); ene = au_evnamemap_lookup(event); if (ene == NULL) return (NULL); /* * See if either of the two probes for the audit event are enabled. * * NB: Lock also not acquired here -- but perhaps it wouldn't matter * given that we've already used the list lock above? * * XXXRW: Alternatively, au_evnamemap_lookup() could return these * values while holding the list lock...? */ probe_enabled = ene->ene_commit_probe_enabled || ene->ene_bsm_probe_enabled; if (!probe_enabled) return (NULL); return ((void *)ene); } /* * Commit probe pre-BSM. Fires the probe but also checks to see if we should * ask the audit framework to call us again with BSM arguments in the audit * worker thread. * * XXXRW: Should we have a catch-all probe here for events without registered * names? */ static int dtaudit_commit(struct kaudit_record *kar, au_id_t auid, au_event_t event, au_class_t class, int sorf) { char ene_name_lower[EVNAMEMAP_NAME_SIZE]; struct evname_elem *ene; int i; ene = (struct evname_elem *)kar->k_dtaudit_state; if (ene == NULL) return (0); /* * Process a possibly registered commit probe. */ if (ene->ene_commit_probe_enabled) { /* * XXXRW: Lock ene to provide stability to the name string. A * bit undesirable! We may want another locking strategy * here. At least we don't run the DTrace probe under the * lock. * * XXXRW: We provide the struct audit_record pointer -- but * perhaps should provide the kaudit_record pointer? */ EVNAME_LOCK(ene); for (i = 0; i < sizeof(ene_name_lower); i++) ene_name_lower[i] = tolower(ene->ene_name[i]); EVNAME_UNLOCK(ene); dtrace_probe(ene->ene_commit_probe_id, (uintptr_t)ene_name_lower, (uintptr_t)&kar->k_ar, 0, 0, 0); } /* * Return the state of the BSM probe to the caller. */ return (ene->ene_bsm_probe_enabled); } /* * Commit probe post-BSM. * * XXXRW: Should we have a catch-all probe here for events without registered * names? */ static void dtaudit_bsm(struct kaudit_record *kar, au_id_t auid, au_event_t event, au_class_t class, int sorf, void *bsm_data, size_t bsm_len) { char ene_name_lower[EVNAMEMAP_NAME_SIZE]; struct evname_elem *ene; int i; ene = (struct evname_elem *)kar->k_dtaudit_state; if (ene == NULL) return; if (!(ene->ene_bsm_probe_enabled)) return; /* * XXXRW: Lock ene to provide stability to the name string. A bit * undesirable! We may want another locking strategy here. At least * we don't run the DTrace probe under the lock. * * XXXRW: We provide the struct audit_record pointer -- but perhaps * should provide the kaudit_record pointer? */ EVNAME_LOCK(ene); for (i = 0; i < sizeof(ene_name_lower); i++) ene_name_lower[i] = tolower(ene->ene_name[i]); EVNAME_UNLOCK(ene); dtrace_probe(ene->ene_bsm_probe_id, (uintptr_t)ene_name_lower, (uintptr_t)&kar->k_ar, (uintptr_t)bsm_data, (uintptr_t)bsm_len, 0); } /* * A very simple provider: argument types are identical across all probes: the * kaudit_record, plus a BSM pointer and length. */ static void dtaudit_getargdesc(void *arg, dtrace_id_t id, void *parg, dtrace_argdesc_t *desc) { struct evname_elem *ene; const char *p; ene = (struct evname_elem *)parg; p = NULL; switch (desc->dtargd_ndx) { case 0: /* Audit event name. */ p = "char *"; break; case 1: /* In-kernel audit record. */ p = "struct audit_record *"; break; case 2: /* BSM data, if present. */ if (id == ene->ene_bsm_probe_id) p = "const void *"; else desc->dtargd_ndx = DTRACE_ARGNONE; break; case 3: /* BSM length, if present. */ if (id == ene->ene_bsm_probe_id) p = "size_t"; else desc->dtargd_ndx = DTRACE_ARGNONE; break; default: desc->dtargd_ndx = DTRACE_ARGNONE; break; } if (p != NULL) strlcpy(desc->dtargd_native, p, sizeof(desc->dtargd_native)); } /* * Callback from the event-to-name mapping code when performing * evname_foreach(). Note that we may update the entry, so the foreach code * must have a write lock. However, as the synchronisation model is private * to the evname code, we cannot easily assert it here. * * XXXRW: How do we want to handle event rename / collision issues here -- * e.g., if userspace was using a name to point to one event number, and then * changes it so that the name points at another? For now, paper over this by * skipping event numbers that are already registered, and likewise skipping * names that are already registered. However, this could lead to confusing * behaviour so possibly needs to be resolved in the longer term. */ static void dtaudit_au_evnamemap_callback(struct evname_elem *ene) { char ene_name_lower[EVNAMEMAP_NAME_SIZE]; int i; /* * DTrace, by convention, has lower-case probe names. However, the * in-kernel event-to-name mapping table must maintain event-name case * as submitted by userspace. Create a temporary lower-case version * here, away from the fast path, to use when exposing the event name * to DTrace as part of the name of a probe. * * NB: Convert the entire array, including the terminating nul, * because these strings are short and it's more work not to. If they * become long, we might feel more guilty about this sloppiness! */ for (i = 0; i < sizeof(ene_name_lower); i++) ene_name_lower[i] = tolower(ene->ene_name[i]); /* * Don't register a new probe if this event number already has an * associated commit probe -- or if another event has already * registered this name. * * XXXRW: There is an argument that if multiple numeric events match * a single name, they should all be exposed to the same named probe. * In particular, we should perhaps use a probe ID returned by this * lookup and just stick that in the saved probe ID? */ if ((ene->ene_commit_probe_id == 0) && (dtrace_probe_lookup(dtaudit_id, dtaudit_module_str, ene_name_lower, dtaudit_name_commit_str) == 0)) { /* * Create the commit probe. * * NB: We don't declare any extra stack frames because stack() * will just return the path to the audit commit code, which * is not really interesting anyway. * * We pass in the pointer to the evnam_elem entry so that we * can easily change its enabled flag in the probe * enable/disable interface. */ ene->ene_commit_probe_id = dtrace_probe_create(dtaudit_id, dtaudit_module_str, ene_name_lower, dtaudit_name_commit_str, 0, ene); } /* * Don't register a new probe if this event number already has an * associated bsm probe -- or if another event has already * registered this name. * * XXXRW: There is an argument that if multiple numeric events match * a single name, they should all be exposed to the same named probe. * In particular, we should perhaps use a probe ID returned by this * lookup and just stick that in the saved probe ID? */ if ((ene->ene_bsm_probe_id == 0) && (dtrace_probe_lookup(dtaudit_id, dtaudit_module_str, ene_name_lower, dtaudit_name_bsm_str) == 0)) { /* * Create the bsm probe. * * NB: We don't declare any extra stack frames because stack() * will just return the path to the audit commit code, which * is not really interesting anyway. * * We pass in the pointer to the evnam_elem entry so that we * can easily change its enabled flag in the probe * enable/disable interface. */ ene->ene_bsm_probe_id = dtrace_probe_create(dtaudit_id, dtaudit_module_str, ene_name_lower, dtaudit_name_bsm_str, 0, ene); } } static void dtaudit_provide(void *arg, dtrace_probedesc_t *desc) { /* * Walk all registered number-to-name mapping entries, and ensure each * is properly registered. */ au_evnamemap_foreach(dtaudit_au_evnamemap_callback); } static void dtaudit_destroy(void *arg, dtrace_id_t id, void *parg) { } static void dtaudit_enable(void *arg, dtrace_id_t id, void *parg) { struct evname_elem *ene; ene = parg; KASSERT(ene->ene_commit_probe_id == id || ene->ene_bsm_probe_id == id, ("%s: probe ID mismatch (%u, %u != %u)", __func__, ene->ene_commit_probe_id, ene->ene_bsm_probe_id, id)); if (id == ene->ene_commit_probe_id) ene->ene_commit_probe_enabled = 1; else ene->ene_bsm_probe_enabled = 1; refcount_acquire(&audit_dtrace_enabled); audit_syscalls_enabled_update(); } static void dtaudit_disable(void *arg, dtrace_id_t id, void *parg) { struct evname_elem *ene; ene = parg; KASSERT(ene->ene_commit_probe_id == id || ene->ene_bsm_probe_id == id, ("%s: probe ID mismatch (%u, %u != %u)", __func__, ene->ene_commit_probe_id, ene->ene_bsm_probe_id, id)); if (id == ene->ene_commit_probe_id) ene->ene_commit_probe_enabled = 0; else ene->ene_bsm_probe_enabled = 0; (void)refcount_release(&audit_dtrace_enabled); audit_syscalls_enabled_update(); } static void dtaudit_load(void *dummy) { if (dtrace_register("audit", &dtaudit_attr, DTRACE_PRIV_USER, NULL, &dtaudit_pops, NULL, &dtaudit_id) != 0) return; dtaudit_hook_preselect = dtaudit_preselect; dtaudit_hook_commit = dtaudit_commit; dtaudit_hook_bsm = dtaudit_bsm; } static int dtaudit_unload(void) { int error; dtaudit_hook_preselect = NULL; dtaudit_hook_commit = NULL; dtaudit_hook_bsm = NULL; if ((error = dtrace_unregister(dtaudit_id)) != 0) return (error); return (0); } static int dtaudit_modevent(module_t mod __unused, int type, void *data __unused) { int error = 0; switch (type) { case MOD_LOAD: case MOD_UNLOAD: case MOD_SHUTDOWN: break; default: error = EOPNOTSUPP; break; } return (error); } SYSINIT(dtaudit_load, SI_SUB_DTRACE_PROVIDER, SI_ORDER_ANY, dtaudit_load, NULL); SYSUNINIT(dtaudit_unload, SI_SUB_DTRACE_PROVIDER, SI_ORDER_ANY, dtaudit_unload, NULL); DEV_MODULE(dtaudit, dtaudit_modevent, NULL); MODULE_VERSION(dtaudit, 1); MODULE_DEPEND(dtaudit, dtrace, 1, 1, 1); MODULE_DEPEND(dtaudit, opensolaris, 1, 1, 1);