/* * 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 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * Main door handler functions used by ipmgmtd to process the different door * call requests, issued by the library libipadm.so. */ #include #include #include #include #include #include #include #include #include #include #include #include "ipmgmt_impl.h" /* Handler declaration for each door command */ typedef void ipmgmt_door_handler_t(void *argp); static ipmgmt_door_handler_t ipmgmt_getaddr_handler, ipmgmt_getprop_handler, ipmgmt_getif_handler, ipmgmt_initif_handler, ipmgmt_aobjop_handler, ipmgmt_resetaddr_handler, ipmgmt_setif_handler, ipmgmt_resetif_handler, ipmgmt_resetprop_handler, ipmgmt_setaddr_handler, ipmgmt_setprop_handler; typedef struct ipmgmt_door_info_s { uint_t idi_cmd; boolean_t idi_set; ipmgmt_door_handler_t *idi_handler; } ipmgmt_door_info_t; /* maps door commands to door handler functions */ static ipmgmt_door_info_t i_ipmgmt_door_info_tbl[] = { { IPMGMT_CMD_SETPROP, B_TRUE, ipmgmt_setprop_handler }, { IPMGMT_CMD_SETIF, B_TRUE, ipmgmt_setif_handler }, { IPMGMT_CMD_SETADDR, B_TRUE, ipmgmt_setaddr_handler }, { IPMGMT_CMD_GETPROP, B_FALSE, ipmgmt_getprop_handler }, { IPMGMT_CMD_GETIF, B_FALSE, ipmgmt_getif_handler }, { IPMGMT_CMD_GETADDR, B_FALSE, ipmgmt_getaddr_handler }, { IPMGMT_CMD_RESETIF, B_TRUE, ipmgmt_resetif_handler }, { IPMGMT_CMD_RESETADDR, B_TRUE, ipmgmt_resetaddr_handler }, { IPMGMT_CMD_RESETPROP, B_TRUE, ipmgmt_resetprop_handler }, { IPMGMT_CMD_INITIF, B_TRUE, ipmgmt_initif_handler }, { IPMGMT_CMD_ADDROBJ_LOOKUPADD, B_TRUE, ipmgmt_aobjop_handler }, { IPMGMT_CMD_ADDROBJ_ADD, B_TRUE, ipmgmt_aobjop_handler }, { IPMGMT_CMD_AOBJNAME2ADDROBJ, B_FALSE, ipmgmt_aobjop_handler }, { IPMGMT_CMD_LIF2ADDROBJ, B_FALSE, ipmgmt_aobjop_handler }, { 0, 0, NULL }, }; /* * The main server procedure function that gets invoked for any of the incoming * door commands. Inside this function we identify the incoming command and * invoke the right door handler function. */ /* ARGSUSED */ void ipmgmt_handler(void *cookie, char *argp, size_t argsz, door_desc_t *dp, uint_t n_desc) { ipmgmt_door_info_t *infop = NULL; ipmgmt_retval_t retval; int i; uint_t err; ucred_t *cred = NULL; for (i = 0; i_ipmgmt_door_info_tbl[i].idi_cmd != 0; i++) { if (i_ipmgmt_door_info_tbl[i].idi_cmd == ((ipmgmt_arg_t *)(void *)argp)->ia_cmd) { infop = &i_ipmgmt_door_info_tbl[i]; break; } } if (infop == NULL) { ipmgmt_log(LOG_ERR, "Invalid door command specified"); err = EINVAL; goto fail; } /* check for solaris.network.interface.config authorization */ if (infop->idi_set) { uid_t uid; struct passwd pwd; char buf[1024]; if (door_ucred(&cred) != 0) { err = errno; ipmgmt_log(LOG_ERR, "Could not get user credentials."); goto fail; } uid = ucred_getruid(cred); if ((int)uid < 0) { err = errno; ipmgmt_log(LOG_ERR, "Could not get user id."); goto fail; } if (getpwuid_r(uid, &pwd, buf, sizeof (buf)) == NULL) { err = errno; ipmgmt_log(LOG_ERR, "Could not get password entry."); goto fail; } if (chkauthattr(NETWORK_INTERFACE_CONFIG_AUTH, pwd.pw_name) != 1) { err = EPERM; ipmgmt_log(LOG_ERR, "Not authorized for operation."); goto fail; } ucred_free(cred); } /* individual handlers take care of calling door_return */ infop->idi_handler((void *)argp); return; fail: ucred_free(cred); retval.ir_err = err; (void) door_return((char *)&retval, sizeof (retval), NULL, 0); } /* * Handles the door command IPMGMT_CMD_GETPROP. It retrieves the persisted * property value for the given property. */ static void ipmgmt_getprop_handler(void *argp) { ipmgmt_prop_arg_t *pargp = argp; ipmgmt_getprop_rval_t rval, *rvalp = &rval; assert(pargp->ia_cmd == IPMGMT_CMD_GETPROP); rvalp->ir_err = ipmgmt_db_walk(ipmgmt_db_getprop, pargp, IPADM_DB_READ); if (rvalp->ir_err == 0) (void) strlcpy(rvalp->ir_pval, pargp->ia_pval, sizeof (rvalp->ir_pval)); (void) door_return((char *)rvalp, sizeof (*rvalp), NULL, 0); } /* * Handles the door command IPMGMT_CMD_SETPROP. It persists the property value * for the given property in the DB. */ static void ipmgmt_setprop_handler(void *argp) { ipmgmt_prop_arg_t *pargp = argp; ipmgmt_retval_t rval; ipadm_dbwrite_cbarg_t cb; nvlist_t *nvl = NULL; int err; assert(pargp->ia_cmd == IPMGMT_CMD_SETPROP); if ((err = nvlist_alloc(&nvl, NV_UNIQUE_NAME, 0)) != 0) goto fail; if (pargp->ia_module[0] != '\0' && (err = nvlist_add_string(nvl, IPADM_NVP_PROTONAME, pargp->ia_module)) != 0) { goto fail; } if (pargp->ia_ifname[0] != '\0' && (err = nvlist_add_string(nvl, IPADM_NVP_IFNAME, pargp->ia_ifname)) != 0) goto fail; if (pargp->ia_aobjname[0] != '\0' && (err = nvlist_add_string(nvl, IPADM_NVP_AOBJNAME, pargp->ia_aobjname)) != 0) goto fail; if ((err = nvlist_add_string(nvl, pargp->ia_pname, pargp->ia_pval)) != 0) goto fail; cb.dbw_nvl = nvl; cb.dbw_flags = pargp->ia_flags; err = ipmgmt_db_walk(ipmgmt_db_update, &cb, IPADM_DB_WRITE); fail: nvlist_free(nvl); rval.ir_err = err; (void) door_return((char *)&rval, sizeof (rval), NULL, 0); } /* * Helper function for ipmgmt_setaddr_handler(). * It converts the nvlist_t, `nvl', to aobjmap node `nodep'. */ static int i_ipmgmt_nvl2aobjnode(nvlist_t *nvl, ipmgmt_aobjmap_t *nodep) { char *aobjname = NULL, *ifname = NULL; int32_t lnum; nvlist_t *nvladdr; struct sockaddr_storage addr; uint_t n; sa_family_t af = AF_UNSPEC; ipadm_addr_type_t addrtype = IPADM_ADDR_NONE; int err = 0; /* * Retrieve all the information needed to build '*nodep' from * nvlist_t nvl. */ if ((err = nvlist_lookup_string(nvl, IPADM_NVP_AOBJNAME, &aobjname)) != 0 || (err = nvlist_lookup_string(nvl, IPADM_NVP_IFNAME, &ifname)) != 0 || (err = nvlist_lookup_int32(nvl, IPADM_NVP_LIFNUM, &lnum)) != 0) { return (err); } if (nvlist_exists(nvl, IPADM_NVP_IPV4ADDR)) { af = AF_INET; addrtype = IPADM_ADDR_STATIC; } else if (nvlist_exists(nvl, IPADM_NVP_DHCP)) { af = AF_INET; addrtype = IPADM_ADDR_DHCP; } else if (nvlist_exists(nvl, IPADM_NVP_IPV6ADDR)) { af = AF_INET6; addrtype = IPADM_ADDR_STATIC; } else if (nvlist_lookup_nvlist(nvl, IPADM_NVP_INTFID, &nvladdr) == 0) { struct sockaddr_in6 *sin6 = (struct sockaddr_in6 *)&addr; uint8_t *addr6; uint32_t plen; af = AF_INET6; addrtype = IPADM_ADDR_IPV6_ADDRCONF; if (nvlist_lookup_uint32(nvladdr, IPADM_NVP_PREFIXLEN, &plen) != 0) return (EINVAL); if (plen != 0) { if (nvlist_lookup_uint8_array(nvladdr, IPADM_NVP_IPNUMADDR, &addr6, &n) != 0) return (EINVAL); bcopy(addr6, &sin6->sin6_addr, n); } else { bzero(&sin6->sin6_addr, sizeof (sin6->sin6_addr)); } } /* * populate the `*nodep' with retrieved values. */ (void) strlcpy(nodep->am_ifname, ifname, sizeof (nodep->am_ifname)); (void) strlcpy(nodep->am_aobjname, aobjname, sizeof (nodep->am_aobjname)); nodep->am_lnum = lnum; nodep->am_family = af; nodep->am_atype = addrtype; if (addrtype == IPADM_ADDR_IPV6_ADDRCONF) { nodep->am_linklocal = B_TRUE; nodep->am_ifid = addr; } nodep->am_next = NULL; /* * Do not store logical interface number in persistent store as it * takes different value on reboot. So remove it from `nvl'. */ if (nvlist_exists(nvl, IPADM_NVP_LIFNUM)) (void) nvlist_remove(nvl, IPADM_NVP_LIFNUM, DATA_TYPE_INT32); return (0); } /* * Handles the door command IPMGMT_CMD_SETADDR. It adds a new address object * node to the list `aobjmap' and then persists the address information in the * DB. */ static void ipmgmt_setaddr_handler(void *argp) { ipmgmt_setaddr_arg_t *sargp = argp; ipmgmt_retval_t rval; ipmgmt_aobjmap_t node; nvlist_t *nvl = NULL; char *nvlbuf; size_t nvlsize = sargp->ia_nvlsize; uint32_t flags = sargp->ia_flags; int err = 0; nvlbuf = (char *)argp + sizeof (ipmgmt_setaddr_arg_t); if ((err = nvlist_unpack(nvlbuf, nvlsize, &nvl, NV_ENCODE_NATIVE)) != 0) goto ret; if (flags & (IPMGMT_ACTIVE|IPMGMT_INIT)) { if ((err = i_ipmgmt_nvl2aobjnode(nvl, &node)) != 0) goto ret; if (flags & IPMGMT_INIT) node.am_flags = (IPMGMT_ACTIVE|IPMGMT_PERSIST); else node.am_flags = flags; if ((err = ipmgmt_aobjmap_op(&node, ADDROBJ_ADD)) != 0) goto ret; } if (flags & IPMGMT_PERSIST) { ipadm_dbwrite_cbarg_t cb; cb.dbw_nvl = nvl; cb.dbw_flags = 0; err = ipmgmt_db_walk(ipmgmt_db_add, &cb, IPADM_DB_WRITE); } ret: nvlist_free(nvl); rval.ir_err = err; (void) door_return((char *)&rval, sizeof (rval), NULL, 0); } /* * Handles the door commands that modify the `aobjmap' structure. * * IPMGMT_CMD_ADDROBJ_LOOKUPADD - places a stub address object in `aobjmap' * after ensuring that the namespace is not taken. If required, also * generates an `aobjname' for address object for the library to use. * IPMGMT_CMD_ADDROBJ_ADD - add/update address object in `aobjmap' * IPMGMT_CMD_LIF2ADDROBJ - given a logical interface, return address object * associated with that logical interface. * IPMGMT_CMD_AOBJNAME2ADDROBJ - given an address object name return logical * interface associated with that address object. */ static void ipmgmt_aobjop_handler(void *argp) { ipmgmt_aobjop_arg_t *largp = argp; ipmgmt_retval_t rval; ipmgmt_aobjop_rval_t aobjrval; void *rvalp; size_t rsize; ipmgmt_aobjmap_t node; int err = 0; char *ifname = largp->ia_ifname; char *aobjname = largp->ia_aobjname; int32_t lnum = largp->ia_lnum; sa_family_t af = largp->ia_family; ipadm_addr_type_t atype = largp->ia_atype; ipmgmt_aobjmap_t *head; switch (largp->ia_cmd) { case IPMGMT_CMD_ADDROBJ_LOOKUPADD: rsize = sizeof (ipmgmt_aobjop_rval_t); rvalp = &aobjrval; bzero(&node, sizeof (node)); (void) strlcpy(node.am_aobjname, aobjname, sizeof (node.am_aobjname)); (void) strlcpy(node.am_ifname, ifname, sizeof (node.am_ifname)); node.am_family = af; /* no logical number is associated with this addrobj yet */ node.am_lnum = -1; /* The address object is not persisted yet. */ node.am_flags = IPMGMT_ACTIVE; err = ipmgmt_aobjmap_op(&node, ADDROBJ_LOOKUPADD); if (err == 0) { (void) strlcpy(aobjrval.ir_aobjname, node.am_aobjname, sizeof (aobjrval.ir_aobjname)); } break; case IPMGMT_CMD_ADDROBJ_ADD: rsize = sizeof (ipmgmt_retval_t); rvalp = &rval; if (aobjname[0] == '\0' || ifname[0] == '\0' || lnum == -1 || af == AF_UNSPEC) { err = EINVAL; break; } bzero(&node, sizeof (node)); (void) strlcpy(node.am_aobjname, aobjname, sizeof (node.am_aobjname)); (void) strlcpy(node.am_ifname, ifname, sizeof (node.am_ifname)); node.am_atype = atype; node.am_lnum = lnum; node.am_family = af; /* The address object is not persisted. */ node.am_flags = IPMGMT_ACTIVE; err = ipmgmt_aobjmap_op(&node, ADDROBJ_ADD); break; case IPMGMT_CMD_AOBJNAME2ADDROBJ: rsize = sizeof (ipmgmt_aobjop_rval_t); rvalp = &aobjrval; bzero(&aobjrval, sizeof (aobjrval)); if (aobjname[0] == '\0') { err = EINVAL; break; } (void) pthread_rwlock_rdlock(&aobjmap.aobjmap_rwlock); head = aobjmap.aobjmap_head; for (; head; head = head->am_next) { if (strcmp(head->am_aobjname, aobjname) != 0) continue; /* * For an auto-configured interface, return * the lifnum that has the link-local on it. * Other logical interfaces were created for * prefixes and dhcpv6 addresses and do not * have am_ifid set. */ if (head->am_atype != IPADM_ADDR_IPV6_ADDRCONF || head->am_linklocal) { break; } } if (head == NULL) { err = ENOENT; (void) pthread_rwlock_unlock(&aobjmap.aobjmap_rwlock); break; } (void) strlcpy(aobjrval.ir_ifname, head->am_ifname, sizeof (aobjrval.ir_ifname)); aobjrval.ir_lnum = head->am_lnum; aobjrval.ir_family = head->am_family; aobjrval.ir_flags = head->am_flags; aobjrval.ir_atype = head->am_atype; if (head->am_atype == IPADM_ADDR_IPV6_ADDRCONF && head->am_linklocal) aobjrval.ir_ifid = head->am_ifid; (void) pthread_rwlock_unlock(&aobjmap.aobjmap_rwlock); break; case IPMGMT_CMD_LIF2ADDROBJ: rsize = sizeof (ipmgmt_aobjop_rval_t); rvalp = &aobjrval; bzero(&aobjrval, sizeof (aobjrval)); if (ifname[0] == '\0') { err = EINVAL; break; } (void) pthread_rwlock_rdlock(&aobjmap.aobjmap_rwlock); head = aobjmap.aobjmap_head; for (; head; head = head->am_next) { if (strcmp(head->am_ifname, ifname) == 0 && head->am_lnum == lnum && head->am_family == af) { break; } } if (head == NULL) { err = ENOENT; (void) pthread_rwlock_unlock(&aobjmap.aobjmap_rwlock); break; } (void) strlcpy(aobjrval.ir_aobjname, head->am_aobjname, sizeof (aobjrval.ir_aobjname)); aobjrval.ir_atype = head->am_atype; aobjrval.ir_flags = head->am_flags; (void) pthread_rwlock_unlock(&aobjmap.aobjmap_rwlock); break; default: rsize = sizeof (ipmgmt_retval_t); rvalp = &rval; err = EINVAL; } ((ipmgmt_retval_t *)rvalp)->ir_err = err; (void) door_return((char *)rvalp, rsize, NULL, 0); } /* * Given an interface name and family, deletes all the address objects * associated with it. */ void i_ipmgmt_delif_aobjs(char *ifname, sa_family_t af, uint32_t flags) { ipmgmt_aobjmap_t *head, *next, *prev; ipadm_db_op_t db_op; prev = NULL; (void) pthread_rwlock_wrlock(&aobjmap.aobjmap_rwlock); head = aobjmap.aobjmap_head; for (; head; head = next) { next = head->am_next; if (strcmp(head->am_ifname, ifname) != 0 || head->am_family != af) { prev = head; continue; } if (head->am_flags == (IPMGMT_ACTIVE|IPMGMT_PERSIST) && flags == IPMGMT_ACTIVE) { /* * If the addres is present in both active and * persistent store, and if we are performing * a temporary delete, we update the node to * indicate that the address is only present in * persistent store and we proceed. Otherwise * we always delete the node from aobjmap. */ head->am_flags &= ~IPMGMT_ACTIVE; head->am_lnum = -1; db_op = IPADM_DB_WRITE; } else { db_op = IPADM_DB_DELETE; if (prev == NULL) aobjmap.aobjmap_head = next; else prev->am_next = next; } (void) ipmgmt_persist_aobjmap(head, db_op); if (db_op == IPADM_DB_DELETE) free(head); } (void) pthread_rwlock_unlock(&aobjmap.aobjmap_rwlock); } /* * Handles the door command IPMGMT_CMD_SETIF. It persists the interface * information in the DB. */ static void ipmgmt_setif_handler(void *argp) { ipmgmt_if_arg_t *sargp = argp; ipmgmt_retval_t rval; ipadm_dbwrite_cbarg_t cb; uint32_t flags = sargp->ia_flags; nvlist_t *nvl = NULL; int err = 0; char strval[IPMGMT_STRSIZE]; if (!(flags & IPMGMT_PERSIST) || sargp->ia_family == AF_UNSPEC || sargp->ia_ifname[0] == '\0') { err = EINVAL; goto ret; } if ((err = nvlist_alloc(&nvl, NV_UNIQUE_NAME, 0)) != 0) goto ret; if ((err = nvlist_add_string(nvl, IPADM_NVP_IFNAME, sargp->ia_ifname)) != 0) goto ret; (void) snprintf(strval, IPMGMT_STRSIZE, "%d", sargp->ia_family); if ((err = nvlist_add_string(nvl, IPADM_NVP_FAMILY, strval)) != 0) goto ret; cb.dbw_nvl = nvl; cb.dbw_flags = 0; err = ipmgmt_db_walk(ipmgmt_db_add, &cb, IPADM_DB_WRITE); ret: rval.ir_err = err; nvlist_free(nvl); (void) door_return((char *)&rval, sizeof (rval), NULL, 0); } /* * Handles the door command IPMGMT_CMD_RESETIF. For the given interface, * deletes all the persisted interface configuration. It also deletes, from * `aobjmap', all the address objects configured on the given interface. */ static void ipmgmt_resetif_handler(void *argp) { ipmgmt_if_arg_t *rargp = argp; ipmgmt_retval_t rval; ipmgmt_if_cbarg_t cbarg; uint32_t flags = rargp->ia_flags; int err = 0; cbarg.cb_family = rargp->ia_family; cbarg.cb_ifname = rargp->ia_ifname; if (flags & IPMGMT_PERSIST) err = ipmgmt_db_walk(ipmgmt_db_resetif, &cbarg, IPADM_DB_DELETE); if (flags & IPMGMT_ACTIVE) i_ipmgmt_delif_aobjs(rargp->ia_ifname, rargp->ia_family, flags); rval.ir_err = err; (void) door_return((char *)&rval, sizeof (rval), NULL, 0); } /* * Handles the door command IPMGMT_CMD_RESETADDR. For the given addrobj * deletes all the persisted addrobj configuration. It also deletes the * corresponding node, from `aobjmap'. */ static void ipmgmt_resetaddr_handler(void *argp) { ipmgmt_addr_arg_t *rargp = argp; ipmgmt_retval_t rval; ipmgmt_aobjmap_t node; uint32_t flags = rargp->ia_flags; int err = 0; ipmgmt_resetaddr_cbarg_t cbarg; cbarg.cb_aobjname = rargp->ia_aobjname; if (flags & IPMGMT_PERSIST) err = ipmgmt_db_walk(ipmgmt_db_resetaddr, &cbarg, IPADM_DB_DELETE); if (flags & IPMGMT_ACTIVE) { bzero(&node, sizeof (node)); (void) strlcpy(node.am_aobjname, rargp->ia_aobjname, sizeof (node.am_aobjname)); /* * am_lnum is used only for IPv6 autoconf case, since there * can be multiple nodes with the same aobjname. */ node.am_lnum = rargp->ia_lnum; node.am_flags = flags; (void) ipmgmt_aobjmap_op(&node, ADDROBJ_DELETE); } rval.ir_err = err; (void) door_return((char *)&rval, sizeof (rval), NULL, 0); } /* * Handles the door command IPMGMT_CMD_GETADDR. It retrieves the persisted * address for a given `gargp->ia_aobjname'. If it is not defined then it * retrieves all the addresses configured on `gargp->ia_ifname'. The * "ipadm show-addr addrobj" or "ipadm show-addr /\*" will call this * handler through library. */ static void ipmgmt_getaddr_handler(void *argp) { size_t buflen, onvlsize; char *buf, *onvlbuf; ipmgmt_getaddr_arg_t *gargp = argp; ipmgmt_getaddr_cbarg_t cbarg; ipmgmt_get_rval_t rval, *rvalp = &rval; int err = 0; cbarg.cb_ifname = gargp->ia_ifname; cbarg.cb_aobjname = gargp->ia_aobjname; cbarg.cb_ocnt = 0; if (nvlist_alloc(&cbarg.cb_onvl, NV_UNIQUE_NAME, 0) != 0) goto fail; err = ipmgmt_db_walk(ipmgmt_db_getaddr, &cbarg, IPADM_DB_READ); if (err == ENOENT && cbarg.cb_ocnt > 0) { /* * If there is atleast one entry in the nvlist, * do not return error. */ err = 0; } if (err != 0) goto fail; if ((err = nvlist_size(cbarg.cb_onvl, &onvlsize, NV_ENCODE_NATIVE)) != 0) { goto fail; } buflen = onvlsize + sizeof (ipmgmt_get_rval_t); /* * We cannot use malloc() here because door_return never returns, and * memory allocated by malloc() would get leaked. Use alloca() instead. */ buf = alloca(buflen); onvlbuf = buf + sizeof (ipmgmt_get_rval_t); if ((err = nvlist_pack(cbarg.cb_onvl, &onvlbuf, &onvlsize, NV_ENCODE_NATIVE, 0)) != 0) { goto fail; } nvlist_free(cbarg.cb_onvl); rvalp = (ipmgmt_get_rval_t *)(void *)buf; rvalp->ir_err = 0; rvalp->ir_nvlsize = onvlsize; (void) door_return(buf, buflen, NULL, 0); return; fail: nvlist_free(cbarg.cb_onvl); rvalp->ir_err = err; (void) door_return((char *)rvalp, sizeof (*rvalp), NULL, 0); } /* * Handles the door command IPMGMT_CMD_RESETPROP. It deletes the property line * from the DB. */ static void ipmgmt_resetprop_handler(void *argp) { ipmgmt_prop_arg_t *pargp = argp; ipmgmt_retval_t rval; assert(pargp->ia_cmd == IPMGMT_CMD_RESETPROP); rval.ir_err = ipmgmt_db_walk(ipmgmt_db_resetprop, pargp, IPADM_DB_DELETE); (void) door_return((char *)&rval, sizeof (rval), NULL, 0); } /* * Handles the door command IPMGMT_CMD_GETIF. It retrieves the name of all the * persisted interfaces and the IP protocols (IPv4 or IPv6) they support. */ static void ipmgmt_getif_handler(void *argp) { ipmgmt_getif_arg_t *getif = argp; ipmgmt_getif_rval_t *rvalp; ipmgmt_retval_t rval; ipmgmt_getif_cbarg_t cbarg; ipadm_if_info_t *ifp, *rifp, *curifp; int i, err = 0, count = 0; size_t rbufsize; assert(getif->ia_cmd == IPMGMT_CMD_GETIF); bzero(&cbarg, sizeof (cbarg)); cbarg.cb_ifname = getif->ia_ifname; err = ipmgmt_db_walk(ipmgmt_db_getif, &cbarg, IPADM_DB_READ); if (err == ENOENT && cbarg.cb_ifinfo) { /* * If there is atleast one entry in the nvlist, * do not return error. */ err = 0; } if (err != 0) { rval.ir_err = err; (void) door_return((char *)&rval, sizeof (rval), NULL, 0); return; } /* allocate sufficient buffer to return the interface info */ for (ifp = cbarg.cb_ifinfo; ifp != NULL; ifp = ifp->ifi_next) ++count; rbufsize = sizeof (*rvalp) + count * sizeof (*ifp); rvalp = alloca(rbufsize); bzero(rvalp, rbufsize); rvalp->ir_ifcnt = count; rifp = rvalp->ir_ifinfo; ifp = cbarg.cb_ifinfo; /* * copy the interface info to buffer allocated on stack. The reason * we do this is to avoid memory leak, as door_return() would never * return */ for (i = 0; i < count; i++) { rifp = rvalp->ir_ifinfo + i; (void) bcopy(ifp, rifp, sizeof (*rifp)); rifp->ifi_next = NULL; curifp = ifp->ifi_next; free(ifp); ifp = curifp; } rvalp->ir_err = err; (void) door_return((char *)rvalp, rbufsize, NULL, 0); } /* * Handles the door command IPMGMT_CMD_INITIF. It retrieves all the persisted * interface configuration (interface properties and addresses), for all those * interfaces that need to be initialized. */ static void ipmgmt_initif_handler(void *argp) { ipmgmt_initif_arg_t *initif = argp; size_t buflen, nvlsize; char *buf = NULL, *onvlbuf, *invlbuf; ipmgmt_get_rval_t rval, *rvalp = &rval; ipmgmt_initif_cbarg_t cbarg; int err; assert(initif->ia_cmd == IPMGMT_CMD_INITIF); bzero(&cbarg, sizeof (cbarg)); invlbuf = (char *)argp + sizeof (ipmgmt_initif_arg_t); nvlsize = initif->ia_nvlsize; err = nvlist_unpack(invlbuf, nvlsize, &cbarg.cb_invl, NV_ENCODE_NATIVE); if (err != 0) goto fail; cbarg.cb_family = initif->ia_family; if (nvlist_alloc(&cbarg.cb_onvl, NV_UNIQUE_NAME, 0) != 0) goto fail; err = ipmgmt_db_walk(ipmgmt_db_initif, &cbarg, IPADM_DB_READ); if (err == ENOENT && cbarg.cb_ocnt > 0) { /* * If there is atleast one entry in the nvlist, * do not return error. */ err = 0; } if (err != 0) goto fail; if ((err = nvlist_size(cbarg.cb_onvl, &nvlsize, NV_ENCODE_NATIVE)) != 0) goto fail; buflen = nvlsize + sizeof (ipmgmt_get_rval_t); /* * We cannot use malloc() here because door_return never returns, and * memory allocated by malloc() would get leaked. Use alloca() instead. */ buf = alloca(buflen); onvlbuf = buf + sizeof (ipmgmt_get_rval_t); if ((err = nvlist_pack(cbarg.cb_onvl, &onvlbuf, &nvlsize, NV_ENCODE_NATIVE, 0)) != 0) { goto fail; } nvlist_free(cbarg.cb_invl); nvlist_free(cbarg.cb_onvl); rvalp = (ipmgmt_get_rval_t *)(void *)buf; rvalp->ir_err = 0; rvalp->ir_nvlsize = nvlsize; (void) door_return(buf, buflen, NULL, 0); return; fail: nvlist_free(cbarg.cb_invl); nvlist_free(cbarg.cb_onvl); rvalp->ir_err = err; (void) door_return((char *)rvalp, sizeof (*rvalp), NULL, 0); }