/* * 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 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include /* * Socket Parameters * * Socket parameter (struct sockparams) entries represent the socket types * available on the system. * * Flags (sp_flags): * * SOCKPARAMS_EPHEMERAL: A temporary sockparams entry that will be deleted * as soon as its' ref count drops to zero. In addition, ephemeral entries will * never be hooked onto the global sockparams list. Ephemeral entries are * created when application requests to create a socket using an application * supplied device path, or when a socket is falling back to TPI. * * Lock order: * The lock order is splist_lock -> sp_lock. * The lock order is sp_ephem_lock -> sp_lock. */ extern int kobj_path_exists(char *, int); extern void nl7c_init(void); extern int sockfs_defer_nl7c_init; static int sockparams_sdev_init(struct sockparams *, char *, int); static void sockparams_sdev_fini(struct sockparams *); /* * Global sockparams list (populated via soconfig(1M)). */ static list_t sphead; static krwlock_t splist_lock; /* * List of ephemeral sockparams. */ static list_t sp_ephem_list; static krwlock_t sp_ephem_lock; void sockparams_init(void) { list_create(&sphead, sizeof (struct sockparams), offsetof(struct sockparams, sp_node)); list_create(&sp_ephem_list, sizeof (struct sockparams), offsetof(struct sockparams, sp_node)); rw_init(&splist_lock, NULL, RW_DEFAULT, NULL); rw_init(&sp_ephem_lock, NULL, RW_DEFAULT, NULL); } /* * sockparams_create(int family, int type, int protocol, char *modname, * char *devpath, int devpathlen, int flags, int kmflags, int *errorp) * * Create a new sockparams entry. * * Arguments: * family, type, protocol: specifies the socket type * modname: Name of the module associated with the socket type. The * module can be NULL if a device path is given, in which * case the TPI module is used. * devpath: Path to the STREAMS device. May be NULL for non-STREAMS * based transports, or those transports that do not provide * the capability to fallback to STREAMS. * devpathlen: Length of the devpath string. The argument can be 0, * indicating that devpath was allocated statically, and should * not be freed when the sockparams entry is destroyed. * * flags : SOCKPARAMS_EPHEMERAL is the only flag that is allowed. * kmflags: KM_{NO,}SLEEP * errorp : Value-return argument, set when an error occurs. * * Returns: * On success a new sockparams entry is returned, and *errorp is set * to 0. On failure NULL is returned and *errorp is set to indicate the * type of error that occured. * * Notes: * devpath and modname are freed upon failure. */ struct sockparams * sockparams_create(int family, int type, int protocol, char *modname, char *devpath, int devpathlen, int flags, int kmflags, int *errorp) { struct sockparams *sp = NULL; size_t size; ASSERT((flags & ~SOCKPARAMS_EPHEMERAL) == 0); if (flags & ~SOCKPARAMS_EPHEMERAL) { *errorp = EINVAL; goto error; } /* either a module or device must be given */ if (modname == NULL && devpath == NULL) { *errorp = EINVAL; goto error; } sp = kmem_zalloc(sizeof (*sp), kmflags); if (sp == NULL) { *errorp = ENOMEM; goto error; } sp->sp_family = family; sp->sp_type = type; sp->sp_protocol = protocol; sp->sp_refcnt = 0; sp->sp_flags = flags; if (modname != NULL) { sp->sp_smod_name = modname; } else { size = strlen(SOTPI_SMOD_NAME) + 1; modname = kmem_zalloc(size, kmflags); if (modname == NULL) { *errorp = ENOMEM; goto error; } sp->sp_smod_name = modname; (void) sprintf(sp->sp_smod_name, "%s", SOTPI_SMOD_NAME); } if (devpath != NULL) { /* Set up the device entry. */ *errorp = sockparams_sdev_init(sp, devpath, devpathlen); if (*errorp != 0) goto error; } mutex_init(&sp->sp_lock, NULL, MUTEX_DEFAULT, NULL); *errorp = 0; return (sp); error: ASSERT(*errorp != 0); if (modname != NULL) kmem_free(modname, strlen(modname) + 1); if (devpathlen != 0) kmem_free(devpath, devpathlen); if (sp != NULL) kmem_free(sp, sizeof (*sp)); return (NULL); } /* * Initialize the STREAMS device aspect of the sockparams entry. */ static int sockparams_sdev_init(struct sockparams *sp, char *devpath, int devpathlen) { vnode_t *vp = NULL; int error; ASSERT(devpath != NULL); if ((error = sogetvp(devpath, &vp, UIO_SYSSPACE)) != 0) { dprint(0, ("sockparams_sdev_init: vp %s failed with %d\n", devpath, error)); return (error); } ASSERT(vp != NULL); sp->sp_sdev_info.sd_vnode = vp; sp->sp_sdev_info.sd_devpath = devpath; sp->sp_sdev_info.sd_devpathlen = devpathlen; return (0); } /* * sockparams_destroy(struct sockparams *sp) * * Releases all the resources associated with the sockparams entry, * and frees the sockparams entry. * * Arguments: * sp: the sockparams entry to destroy. * * Returns: * Nothing. * * Locking: * The sp_lock of the entry can not be held. */ void sockparams_destroy(struct sockparams *sp) { ASSERT(sp->sp_refcnt == 0); ASSERT(!list_link_active(&sp->sp_node)); sockparams_sdev_fini(sp); if (sp->sp_smod_info != NULL) SMOD_DEC_REF(sp, sp->sp_smod_info); kmem_free(sp->sp_smod_name, strlen(sp->sp_smod_name) + 1); sp->sp_smod_name = NULL; sp->sp_smod_info = NULL; mutex_destroy(&sp->sp_lock); kmem_free(sp, sizeof (*sp)); } /* * Clean up the STREAMS device part of the sockparams entry. */ static void sockparams_sdev_fini(struct sockparams *sp) { sdev_info_t sd; /* * if the entry does not have a STREAMS device, then there * is nothing to do. */ if (!SOCKPARAMS_HAS_DEVICE(sp)) return; sd = sp->sp_sdev_info; if (sd.sd_vnode != NULL) VN_RELE(sd.sd_vnode); if (sd.sd_devpathlen != 0) kmem_free(sd.sd_devpath, sd.sd_devpathlen); sp->sp_sdev_info.sd_vnode = NULL; sp->sp_sdev_info.sd_devpath = NULL; } /* * Look for a matching sockparams entry on the given list. * The caller must hold the associated list lock. */ static struct sockparams * sockparams_find(list_t *list, int family, int type, int protocol, boolean_t by_devpath, const char *name) { struct sockparams *sp; for (sp = list_head(list); sp != NULL; sp = list_next(list, sp)) { if (sp->sp_family == family && sp->sp_type == type) { if (sp->sp_protocol == protocol) { if (name == NULL) break; else if (by_devpath && sp->sp_sdev_info.sd_devpath != NULL && strcmp(sp->sp_sdev_info.sd_devpath, name) == 0) break; else if (strcmp(sp->sp_smod_name, name) == 0) break; } } } return (sp); } /* * sockparams_hold_ephemeral() * * Returns an ephemeral sockparams entry of the requested family, type and * protocol. The entry is returned held, and the caller is responsible for * dropping the reference using SOCKPARAMS_DEC_REF() once done. * * All ephemeral entries are on list (sp_ephem_list). If there is an * entry on the list that match the search criteria, then a reference is * placed on that entry. Otherwise, a new entry is created and inserted * in the list. The entry is removed from the list when the last reference * is dropped. * * The tpi flag is used to determine whether name refers to a device or * module name. */ static struct sockparams * sockparams_hold_ephemeral(int family, int type, int protocol, const char *name, boolean_t by_devpath, int kmflag, int *errorp) { struct sockparams *sp = NULL; *errorp = 0; /* * First look for an existing entry */ rw_enter(&sp_ephem_lock, RW_READER); sp = sockparams_find(&sp_ephem_list, family, type, protocol, by_devpath, name); if (sp != NULL) { SOCKPARAMS_INC_REF(sp); rw_exit(&sp_ephem_lock); return (sp); } else { struct sockparams *newsp = NULL; char *namebuf = NULL; int namelen = 0; rw_exit(&sp_ephem_lock); namelen = strlen(name) + 1; namebuf = kmem_alloc(namelen, kmflag); if (namebuf == NULL) { *errorp = ENOMEM; return (NULL); } (void *)strncpy(namebuf, name, namelen); if (by_devpath) { newsp = sockparams_create(family, type, protocol, NULL, namebuf, namelen, SOCKPARAMS_EPHEMERAL, kmflag, errorp); } else { newsp = sockparams_create(family, type, protocol, namebuf, NULL, 0, SOCKPARAMS_EPHEMERAL, kmflag, errorp); } if (newsp == NULL) { ASSERT(*errorp != 0); return (NULL); } /* * Time to load the socket module. */ ASSERT(newsp->sp_smod_info == NULL); newsp->sp_smod_info = smod_lookup_byname(newsp->sp_smod_name); if (newsp->sp_smod_info == NULL) { /* Failed to load */ sockparams_destroy(newsp); *errorp = ENXIO; return (NULL); } /* * The sockparams entry was created, now try to add it * to the list. We need to hold the lock as a WRITER. */ rw_enter(&sp_ephem_lock, RW_WRITER); sp = sockparams_find(&sp_ephem_list, family, type, protocol, by_devpath, name); if (sp != NULL) { /* * Someone has requested a matching entry, so just * place a hold on it and release the entry we alloc'ed. */ SOCKPARAMS_INC_REF(sp); rw_exit(&sp_ephem_lock); sockparams_destroy(newsp); } else { SOCKPARAMS_INC_REF(newsp); list_insert_tail(&sp_ephem_list, newsp); rw_exit(&sp_ephem_lock); sp = newsp; } ASSERT(*errorp == 0); return (sp); } } struct sockparams * sockparams_hold_ephemeral_bydev(int family, int type, int protocol, const char *dev, int kmflag, int *errorp) { return (sockparams_hold_ephemeral(family, type, protocol, dev, B_TRUE, kmflag, errorp)); } struct sockparams * sockparams_hold_ephemeral_bymod(int family, int type, int protocol, const char *mod, int kmflag, int *errorp) { return (sockparams_hold_ephemeral(family, type, protocol, mod, B_FALSE, kmflag, errorp)); } /* * Called when the last socket using the ephemeral entry is dropping * its' reference. To maintain lock order we must drop the sockparams * lock before calling this function. As a result, a new reference * might be placed on the entry, in which case there is nothing to * do. However, if ref count goes to zero, we delete the entry. */ void sockparams_ephemeral_drop_last_ref(struct sockparams *sp) { ASSERT(sp->sp_flags & SOCKPARAMS_EPHEMERAL); ASSERT(MUTEX_NOT_HELD(&sp->sp_lock)); rw_enter(&sp_ephem_lock, RW_WRITER); mutex_enter(&sp->sp_lock); if (--sp->sp_refcnt == 0) { list_remove(&sp_ephem_list, sp); mutex_exit(&sp->sp_lock); rw_exit(&sp_ephem_lock); sockparams_destroy(sp); } else { mutex_exit(&sp->sp_lock); rw_exit(&sp_ephem_lock); } } /* * sockparams_add(struct sockparams *sp) * * Tries to add the given sockparams entry to the global list. * * Arguments: * sp: the sockparms entry to add * * Returns: * On success 0, but if an entry already exists, then EEXIST * is returned. * * Locking: * The caller can not be holding splist_lock. */ static int sockparams_add(struct sockparams *sp) { ASSERT(!(sp->sp_flags & SOCKPARAMS_EPHEMERAL)); rw_enter(&splist_lock, RW_WRITER); if (sockparams_find(&sphead, sp->sp_family, sp->sp_type, sp->sp_protocol, B_TRUE, NULL) != 0) { rw_exit(&splist_lock); return (EEXIST); } else { list_insert_tail(&sphead, sp); rw_exit(&splist_lock); return (0); } } /* * sockparams_delete(int family, int type, int protocol) * * Marks the sockparams entry for a specific family, type and protocol * for deletion. The entry is removed from the list and destroyed * if no one is holding a reference to it. * * Arguments: * family, type, protocol: the socket type that should be removed. * * Returns: * On success 0, otherwise ENXIO. * * Locking: * Caller can not be holding splist_lock or the sp_lock of * any sockparams entry. */ static int sockparams_delete(int family, int type, int protocol) { struct sockparams *sp; rw_enter(&splist_lock, RW_WRITER); sp = sockparams_find(&sphead, family, type, protocol, B_TRUE, NULL); if (sp != NULL) { /* * If no one is holding a reference to the entry, then * we go ahead and remove it from the list and then * destroy it. */ mutex_enter(&sp->sp_lock); if (sp->sp_refcnt != 0) { mutex_exit(&sp->sp_lock); rw_exit(&splist_lock); return (EBUSY); } mutex_exit(&sp->sp_lock); /* Delete the sockparams entry. */ list_remove(&sphead, sp); rw_exit(&splist_lock); sockparams_destroy(sp); return (0); } else { rw_exit(&splist_lock); return (ENXIO); } } /* * soconfig(int family, int type, int protocol, * char *devpath, int devpathlen, char *module) * * Add or delete an entry to the sockparams table. * When devpath and module both are NULL, it will delete an entry. * * Arguments: * family, type, protocol: the tuple in question * devpath: STREAMS device path. Can be NULL for module based sockets. * module : Name of the socket module. Can be NULL for STREAMS * based sockets. * devpathlen: length of the devpath string, or 0 if devpath * was statically allocated. * * Note: * This routine assumes that the caller has kmem_alloced * devpath (if devpathlen > 0) and module for this routine to * consume. */ int soconfig(int family, int type, int protocol, char *devpath, int devpathlen, char *module) { struct sockparams *sp; int error = 0; dprint(0, ("soconfig(%d,%d,%d,%s,%d,%s)\n", family, type, protocol, devpath, devpathlen, module == NULL ? "NULL" : module)); if (sockfs_defer_nl7c_init) { nl7c_init(); sockfs_defer_nl7c_init = 0; } if (devpath == NULL && module == NULL) { /* * Delete existing entry, * both socket module and STEAMS device. */ ASSERT(module == NULL); error = sockparams_delete(family, type, protocol); } else { /* * Adding an entry * sockparams_create frees mod name and devpath upon failure. */ sp = sockparams_create(family, type, protocol, module, devpath, devpathlen, 0, KM_SLEEP, &error); if (sp != NULL) { error = sockparams_add(sp); if (error != 0) sockparams_destroy(sp); } } return (error); } /* * solookup(int family, int type, int protocol, struct sockparams **spp) * * Lookup an entry in the sockparams list based on the triple. The returned * entry either exactly match the given tuple, or it is the 'default' entry * for the given . A default entry is on with a protocol * value of zero. * * Arguments: * family, type, protocol: tuple to search for * spp: Value-return argument * * Returns: * If an entry is found, 0 is returned and *spp is set to point to the * entry. In case an entry is not found, *spp is set to NULL, and an * error code is returned. The errors are (in decreasing precedence): * EAFNOSUPPORT - address family not in list * EPROTONOSUPPORT - address family supported but not protocol. * EPROTOTYPE - address family and protocol supported but not socket type. * * TODO: should use ddi_modopen()/ddi_modclose() */ int solookup(int family, int type, int protocol, struct sockparams **spp) { struct sockparams *sp = NULL; int error = 0; *spp = NULL; rw_enter(&splist_lock, RW_READER); /* * Search the sockparams list for an appropiate entry. * Hopefully we find an entry that match the exact family, * type and protocol specified by the user, in which case * we return that entry. However, we also keep track of * the default entry for a specific family and type, the * entry of which would have a protocol value of 0. */ sp = sockparams_find(&sphead, family, type, protocol, B_TRUE, NULL); if (sp == NULL) { int found = 0; /* Determine correct error code */ for (sp = list_head(&sphead); sp != NULL; sp = list_next(&sphead, sp)) { if (sp->sp_family == family && found < 1) found = 1; if (sp->sp_family == family && sp->sp_protocol == protocol && found < 2) found = 2; } rw_exit(&splist_lock); switch (found) { case 0: error = EAFNOSUPPORT; break; case 1: error = EPROTONOSUPPORT; break; case 2: error = EPROTOTYPE; break; } return (error); } /* * An entry was found. * * We put a hold on the entry early on, so if the * sockmod is not loaded, and we have to exit * splist_lock to call modload(), we know that the * sockparams entry wont go away. That way we don't * have to look up the entry once we come back from * modload(). */ SOCKPARAMS_INC_REF(sp); rw_exit(&splist_lock); if (sp->sp_smod_info == NULL) { sp->sp_smod_info = smod_lookup_byname(sp->sp_smod_name); if (sp->sp_smod_info == NULL) { /* * We put a hold on the sockparams entry * earlier, hoping everything would work out. * That obviously did not happen, so release * the hold here. */ SOCKPARAMS_DEC_REF(sp); /* * We should probably mark the sockparams as * "bad", and redo the lookup skipping the * "bad" entries. I.e., sp->sp_mod_state |= BAD, * return (solookup(...)) */ return (ENXIO); } } /* * Alright, we have a valid sockparams entry. */ *spp = sp; return (0); }