/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Driver-side functions for loading and unloading dmods. */ #include #include #include #include #include #include #include #include #include #include #include #include struct modctl *kdi_dmods; /* * When a load is attempted, a check is first made of the modules on the * kctl_dmods list. If a module is found, the load will not proceed. * kctl_dmods_lock must be held while traversing kctl_dmods, and while adding * to and subtracting from it. */ static struct modctl kctl_dmods; static kmutex_t kctl_dmods_lock; static kmdb_wr_path_t *kctl_dmod_path; /* * Used to track outstanding driver-initiated load notifications. These * notifications have been allocated by driver, and thus must be freed by the * driver in the event of an emergency unload. If we don't free them free * them ourselves, they'll leak. Granted, the world is probably melting down * at that point, but there's no reason why we shouldn't tidy up the deck * chairs before we go. */ static kmdb_wr_load_t *kctl_dmod_loads; static kmutex_t kctl_dmod_loads_lock; static int kctl_find_module(char *modname, char *fullname, size_t fullnamelen) { intptr_t fd; int i; /* If they gave us an absolute path, we don't need to search */ if (modname[0] == '/') { if (strlen(modname) + 1 > fullnamelen) { cmn_err(CE_WARN, "Can't load dmod %s - name too long\n", modname); return (0); } if ((fd = kobj_open(modname)) == -1) return (0); kobj_close(fd); strcpy(fullname, modname); return (1); } for (i = 0; kctl_dmod_path->dpth_path[i] != NULL; i++) { const char *path = kctl_dmod_path->dpth_path[i]; if (strlen(path) + 1 + strlen(modname) + 1 > fullnamelen) { kctl_dprintf("Can't load dmod from %s/%s - " "name too long", path, modname); continue; } (void) snprintf(fullname, fullnamelen, "%s/%s", path, modname); if ((fd = kobj_open(fullname)) == -1) continue; kobj_close(fd); kctl_dprintf("kobj_open %s found", fullname); /* Found it */ return (1); } /* No luck */ return (0); } static void kctl_dlr_free(kmdb_wr_load_t *dlr) { if (dlr->dlr_node.wn_flags & WNFLAGS_NOFREE) return; kctl_strfree(dlr->dlr_fname); kmem_free(dlr, sizeof (kmdb_wr_load_t)); } int kctl_dmod_load(kmdb_wr_load_t *dlr) { struct modctl *modp; char modpath[MAXPATHLEN]; const char *modname = kctl_basename(dlr->dlr_fname); int rc; mutex_enter(&kctl_dmods_lock); /* Have we already loaded this dmod? */ for (modp = kctl_dmods.mod_next; modp != &kctl_dmods; modp = modp->mod_next) { if (strcmp(modname, modp->mod_modname) == 0) { mutex_exit(&kctl_dmods_lock); dlr->dlr_errno = EEXIST; return (-1); } } /* * If we find something that looks like a dmod, create a modctl for it, * and add said modctl to our dmods list. This will allow us to drop * the dmods lock, while still preventing duplicate loads. If we aren't * able to actually load the dmod, we can always remove the modctl * later. */ if (!kctl_find_module(dlr->dlr_fname, modpath, sizeof (modpath))) { mutex_exit(&kctl_dmods_lock); dlr->dlr_errno = ENOENT; return (-1); } modp = kobj_zalloc(sizeof (struct modctl), KM_SLEEP); modp->mod_filename = kctl_strdup(modpath); modp->mod_modname = kctl_basename(modp->mod_filename); modp->mod_busy = 1; modp->mod_loadflags |= MOD_NOAUTOUNLOAD | MOD_NONOTIFY; modp->mod_next = &kctl_dmods; modp->mod_prev = kctl_dmods.mod_prev; modp->mod_prev->mod_next = modp; kctl_dmods.mod_prev = modp; mutex_exit(&kctl_dmods_lock); if (kctl.kctl_boot_ops == NULL) rc = kobj_load_module(modp, 0); else rc = kobj_load_primary_module(modp); if (rc != 0) { kctl_warn("failed to load dmod %s", modp->mod_modname); if (kctl.kctl_boot_ops == NULL) mod_release_requisites(modp); mutex_enter(&kctl_dmods_lock); modp->mod_next->mod_prev = modp->mod_prev; modp->mod_prev->mod_next = modp->mod_next; mutex_exit(&kctl_dmods_lock); kctl_strfree(modp->mod_filename); kobj_free(modp, sizeof (struct modctl)); dlr->dlr_errno = EMDB_NOMOD; return (-1); } /* * It worked! If the module has any CTF data, decompress it, and make a * note of the load. */ mutex_enter(&mod_lock); if ((rc = kctl_mod_decompress(modp)) != 0) { kctl_warn("failed to decompress CTF data for dmod %s: %s", modpath, ctf_errmsg(rc)); } mutex_exit(&mod_lock); kctl_dprintf("loaded dmod %s at %p", modpath, modp); modp->mod_ref = 1; modp->mod_loaded = 1; dlr->dlr_modctl = modp; return (0); } /* * Driver-initiated loads. Load the module and announce it to the debugger. */ void kctl_dmod_autoload(const char *fname) { kmdb_wr_load_t *dlr; dlr = kobj_zalloc(sizeof (kmdb_wr_load_t), KM_SLEEP); dlr->dlr_node.wn_task = WNTASK_DMOD_LOAD; dlr->dlr_fname = kctl_strdup(fname); /* * If we're loading at boot, the kmdb_wr_load_t will have been * "allocated" by krtld, and will thus not be under the control of * kmem. We need to ensure that we don't attempt to free it when * we get it back from the debugger. */ if (kctl.kctl_boot_ops != NULL) dlr->dlr_node.wn_flags |= WNFLAGS_NOFREE; if (kctl_dmod_load(dlr) < 0) { kctl_dlr_free(dlr); return; } /* * Add to the list of open driver-initiated loads. We need to track * these so we can free them (and thus avoid leaks) in the event that * the debugger needs to be blown away before it can return them. */ mutex_enter(&kctl_dmod_loads_lock); dlr->dlr_next = kctl_dmod_loads; if (kctl_dmod_loads != NULL) kctl_dmod_loads->dlr_prev = dlr; kctl_dmod_loads = dlr; mutex_exit(&kctl_dmod_loads_lock); kmdb_wr_debugger_notify(dlr); } void kctl_dmod_load_all(void) { /* * The standard list of modules isn't populated until the tail end of * kobj_init(). Prior to that point, the only available list is that of * primaries. We'll use that if the normal list isn't ready yet. */ if (modules.mod_mp == NULL) { /* modules hasn't been initialized yet -- use primaries */ struct modctl_list *ml; for (ml = kobj_linkmaps[KOBJ_LM_PRIMARY]; ml != NULL; ml = ml->modl_next) kctl_dmod_autoload(ml->modl_modp->mod_modname); } else { struct modctl *modp = &modules; do { if (modp->mod_mp != NULL) kctl_dmod_autoload(modp->mod_modname); } while ((modp = modp->mod_next) != &modules); } } void kctl_dmod_load_ack(kmdb_wr_load_t *dlr) { /* Remove from the list of open driver-initiated requests */ mutex_enter(&kctl_dmod_loads_lock); if (dlr->dlr_prev == NULL) kctl_dmod_loads = dlr->dlr_next; else dlr->dlr_prev->dlr_next = dlr->dlr_next; if (dlr->dlr_next != NULL) dlr->dlr_next->dlr_prev = dlr->dlr_prev; mutex_exit(&kctl_dmod_loads_lock); kctl_dlr_free(dlr); } static int kctl_dmod_unload_common(struct modctl *modp) { struct modctl *m; kctl_dprintf("unloading dmod %s", modp->mod_modname); mutex_enter(&kctl_dmods_lock); for (m = kctl_dmods.mod_next; m != &kctl_dmods; m = m->mod_next) { if (m == modp) break; } mutex_exit(&kctl_dmods_lock); if (m != modp) return (ENOENT); /* Found it */ modp->mod_ref = 0; modp->mod_loaded = 0; kobj_unload_module(modp); mod_release_requisites(modp); /* Remove it from our dmods list */ mutex_enter(&kctl_dmods_lock); modp->mod_next->mod_prev = modp->mod_prev; modp->mod_prev->mod_next = modp->mod_next; mutex_exit(&kctl_dmods_lock); kctl_strfree(modp->mod_filename); kmem_free(modp, sizeof (struct modctl)); return (0); } void kctl_dmod_unload(kmdb_wr_unload_t *dur) { int rc; if ((rc = kctl_dmod_unload_common(dur->dur_modctl)) != 0) { cmn_err(CE_WARN, "unexpected dmod unload failure: %d\n", rc); dur->dur_errno = rc; } } /* * This will be called during shutdown. The debugger has been stopped, we're * off the module notification list, and we've already processed everything in * the driver's work queue. We should have received (and processed) unload * requests for each of the dmods we've loaded. To be safe, however, we'll * double-check. * * If we're doing an emergency shutdown, there may be outstanding * driver-initiated messages that haven't been returned to us. The debugger is * dead, so it's not going to be returning them. We'll leak them unless we * find and free them ourselves. */ void kctl_dmod_unload_all(void) { kmdb_wr_load_t *dlr; struct modctl *modp; while ((modp = kctl_dmods.mod_next) != &kctl_dmods) (void) kctl_dmod_unload_common(modp); while ((dlr = kctl_dmod_loads) != NULL) { kctl_dmod_loads = dlr->dlr_next; kctl_dprintf("freed orphan load notification for %s", dlr->dlr_fname); kctl_dlr_free(dlr); } } kmdb_wr_path_t * kctl_dmod_path_set(kmdb_wr_path_t *pth) { kmdb_wr_path_t *opth; if (kctl.kctl_flags & KMDB_F_DRV_DEBUG) { if (pth != NULL) { int i; kctl_dprintf("changing dmod path to: %p", pth); for (i = 0; pth->dpth_path[i] != NULL; i++) kctl_dprintf(" %s", pth->dpth_path[i]); } else { kctl_dprintf("changing dmod path to NULL"); } } opth = kctl_dmod_path; kctl_dmod_path = pth; return (opth); } void kctl_dmod_path_reset(void) { kmdb_wr_path_t *pth; if ((pth = kctl_dmod_path_set(NULL)) != NULL) { WR_ACK(pth); kmdb_wr_debugger_notify(pth); } } void kctl_dmod_sync(void) { struct modctl *modp; /* * kobj_sync() has no visibility into our dmods, so we need to * explicitly tell krtld to export the portions of our dmods that were * allocated using boot scratch memory. */ for (modp = kctl_dmods.mod_next; modp != &kctl_dmods; modp = modp->mod_next) kobj_export_module(modp->mod_mp); } void kctl_dmod_init(void) { mutex_init(&kctl_dmod_loads_lock, NULL, MUTEX_DRIVER, NULL); mutex_init(&kctl_dmods_lock, NULL, MUTEX_DRIVER, NULL); bzero(&kctl_dmods, sizeof (struct modctl)); kctl_dmods.mod_next = kctl_dmods.mod_prev = &kctl_dmods; kdi_dmods = &kctl_dmods; } void kctl_dmod_fini(void) { mutex_destroy(&kctl_dmods_lock); mutex_destroy(&kctl_dmod_loads_lock); kdi_dmods = NULL; }