/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2003 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * RCM module supporting multiplexed I/O controllers (MPxIO). */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "rcm_module.h" #define MPXIO_PROP_NAME "mpxio-component" #define MPXIO_PROP_CLIENT "client" #define CMD_GETINFO 0 #define CMD_OFFLINE 1 #define CMD_ONLINE 2 #define CMD_REMOVE 3 #define CACHE_NEW 0 #define CACHE_REFERENCED 1 #define CACHE_STALE 2 #define MPXIO_MSG_CACHEFAIL gettext("Internal analysis failure.") #define MPXIO_MSG_LASTPATH gettext("Last path to busy resources.") #define MPXIO_MSG_USAGE gettext("SCSI Multipathing PHCI (%s)") #define MPXIO_MSG_USAGEUNKNOWN gettext("SCSI Multipathing PHCI ()") typedef struct { char *path; di_path_state_t state; } phci_t; typedef struct phci_list { phci_t phci; int referenced; struct phci_list *next; } phci_list_t; typedef struct group { int offline; int nphcis; int nclients; phci_t *phcis; char **clients; struct group *next; } group_t; static int mpxio_register(rcm_handle_t *); static int mpxio_unregister(rcm_handle_t *); static int mpxio_getinfo(rcm_handle_t *, char *, id_t, uint_t, char **, char **, nvlist_t *, rcm_info_t **); static int mpxio_suspend(rcm_handle_t *, char *, id_t, timespec_t *, uint_t, char **, rcm_info_t **); static int mpxio_resume(rcm_handle_t *, char *, id_t, uint_t, char **, rcm_info_t **); static int mpxio_offline(rcm_handle_t *, char *, id_t, uint_t, char **, rcm_info_t **); static int mpxio_online(rcm_handle_t *, char *, id_t, uint_t, char **, rcm_info_t **); static int mpxio_remove(rcm_handle_t *, char *, id_t, uint_t, char **, rcm_info_t **); static int get_nclients(di_node_t, void *); static int build_groups(di_node_t, void *); static void refresh_regs(rcm_handle_t *); static int get_affected_clients(rcm_handle_t *, char *, int, int, char ***); static int detect_client_change(rcm_handle_t *, int, int, group_t *, char *); static int merge_clients(int *, char ***, group_t *); static phci_list_t *lookup_phci(char *); static int is_client(di_node_t); static char *get_rsrcname(di_node_t); static char *s_state(di_path_state_t); static int compare_phci(const void *, const void *); static void free_grouplist(); static void free_group(group_t *); static void free_clients(int, char **); static void free_phcis(int, phci_t *); static struct rcm_mod_ops mpxio_ops = { RCM_MOD_OPS_VERSION, mpxio_register, mpxio_unregister, mpxio_getinfo, mpxio_suspend, mpxio_resume, mpxio_offline, mpxio_online, mpxio_remove, NULL, NULL, NULL }; static group_t *group_list; static phci_list_t *reg_list; static mutex_t mpxio_lock; extern int errno; /* * Return the mod-ops vector for initialization. */ struct rcm_mod_ops * rcm_mod_init() { rcm_log_message(RCM_TRACE1, "MPXIO: rcm_mod_init()\n"); return (&mpxio_ops); } /* * Return name and version number for mod_info. */ const char * rcm_mod_info() { rcm_log_message(RCM_TRACE1, "MPXIO: rcm_mod_info()\n"); return (gettext("RCM MPxIO module %I%")); } /* * Destroy the cache and mutex lock when being unloaded. */ int rcm_mod_fini() { phci_list_t *reg; phci_list_t *next; rcm_log_message(RCM_TRACE1, "MPXIO: rcm_mod_fini()\n"); /* Free the cache of MPxIO group information */ free_grouplist(); /* Free the cache of registrants */ reg = reg_list; while (reg) { next = reg->next; free(reg->phci.path); free(reg); reg = next; } /* Destroy the mutex for locking the caches */ (void) mutex_destroy(&mpxio_lock); return (RCM_SUCCESS); } /* * During each register callback: totally rebuild the group list from a new * libdevinfo snapshot, and then update the registrants. */ static int mpxio_register(rcm_handle_t *hdl) { int nclients = 0; di_node_t devroot; rcm_log_message(RCM_TRACE1, "MPXIO: register()\n"); (void) mutex_lock(&mpxio_lock); /* Destroy the previous group list */ free_grouplist(); /* Get a current libdevinfo snapshot */ if ((devroot = di_init("/", DINFOCPYALL | DINFOPATH)) == DI_NODE_NIL) { rcm_log_message(RCM_ERROR, "MPXIO: libdevinfo initialization failed (%s).\n", strerror(errno)); (void) mutex_unlock(&mpxio_lock); return (RCM_FAILURE); } /* * First count the total number of clients. This'll be a useful * upper bound when allocating client arrays within each group. */ (void) di_walk_node(devroot, DI_WALK_CLDFIRST, &nclients, get_nclients); rcm_log_message(RCM_TRACE2, gettext("MPXIO: found %d clients.\n"), nclients); /* * Then walk the libdevinfo snapshot, building up the new group list * along the way. Pass in the total number of clients (from above) to * assist in group construction. */ (void) di_walk_node(devroot, DI_WALK_CLDFIRST, &nclients, build_groups); /* Now with a new group list constructed, refresh the registrants */ refresh_regs(hdl); /* Free the libdevinfo snapshot */ di_fini(devroot); (void) mutex_unlock(&mpxio_lock); return (0); } /* * Unregister all PHCIs and mark the whole registrants list as stale. */ static int mpxio_unregister(rcm_handle_t *hdl) { phci_list_t *reg; rcm_log_message(RCM_TRACE1, "MPXIO: unregister()\n"); (void) mutex_lock(&mpxio_lock); for (reg = reg_list; reg != NULL; reg = reg->next) { (void) rcm_unregister_interest(hdl, reg->phci.path, 0); reg->referenced = CACHE_STALE; } (void) mutex_unlock(&mpxio_lock); return (RCM_SUCCESS); } /* * To return usage information, just lookup the PHCI in the cache and return * a string identifying that it's a PHCI and describing its cached MPxIO state. * Recurse with the cached list of disks if dependents are to be included. */ static int mpxio_getinfo(rcm_handle_t *hdl, char *rsrc, id_t id, uint_t flags, char **infostr, char **errstr, nvlist_t *props, rcm_info_t **infop) { size_t len; int rv = RCM_SUCCESS; char *buf = NULL; char **clients = NULL; phci_list_t *reg; char c; rcm_log_message(RCM_TRACE1, "MPXIO: getinfo(%s)\n", rsrc); *infostr = NULL; *errstr = NULL; (void) mutex_lock(&mpxio_lock); if ((reg = lookup_phci(rsrc)) == NULL) { *errstr = strdup(MPXIO_MSG_CACHEFAIL); (void) mutex_unlock(&mpxio_lock); return (RCM_FAILURE); } len = snprintf(&c, 1, MPXIO_MSG_USAGE, s_state(reg->phci.state)); buf = calloc(len + 1, sizeof (char)); if ((buf == NULL) || (snprintf(buf, len + 1, MPXIO_MSG_USAGE, s_state(reg->phci.state)) > len + 1)) { *infostr = strdup(MPXIO_MSG_USAGEUNKNOWN); *errstr = strdup(gettext("Cannot construct usage string.")); (void) mutex_unlock(&mpxio_lock); if (buf) free(buf); return (RCM_FAILURE); } *infostr = buf; if (flags & RCM_INCLUDE_DEPENDENT) { rcm_log_message(RCM_TRACE2, "MPXIO: getting clients\n"); if (get_affected_clients(hdl, rsrc, CMD_GETINFO, flags, &clients) < 0) { *errstr = strdup(gettext("Cannot lookup clients.")); (void) mutex_unlock(&mpxio_lock); return (RCM_FAILURE); } if (clients) { rv = rcm_get_info_list(hdl, clients, flags, infop); free(clients); } else { rcm_log_message(RCM_TRACE2, "MPXIO: none found\n"); } } (void) mutex_unlock(&mpxio_lock); return (rv); } /* * Nothing is implemented for suspend operations. */ static int mpxio_suspend(rcm_handle_t *hdl, char *rsrc, id_t id, timespec_t *interval, uint_t flags, char **errstr, rcm_info_t **infop) { rcm_log_message(RCM_TRACE1, "MPXIO: suspend(%s)\n", rsrc); return (RCM_SUCCESS); } /* * Nothing is implemented for resume operations. */ static int mpxio_resume(rcm_handle_t *hdl, char *rsrc, id_t id, uint_t flags, char **errstr, rcm_info_t **infop) { rcm_log_message(RCM_TRACE1, "MPXIO: resume(%s)\n", rsrc); return (RCM_SUCCESS); } /* * MPxIO has no policy against offlining. If disks will be affected, then * base the return value for this request on the results of offlining the * list of disks. Otherwise succeed. */ static int mpxio_offline(rcm_handle_t *hdl, char *rsrc, id_t id, uint_t flags, char **errstr, rcm_info_t **infop) { char **clients = NULL; int rv = RCM_SUCCESS; rcm_log_message(RCM_TRACE1, "MPXIO: offline(%s)\n", rsrc); (void) mutex_lock(&mpxio_lock); if (get_affected_clients(hdl, rsrc, CMD_OFFLINE, flags, &clients) < 0) { *errstr = strdup(gettext("Cannot lookup clients.")); (void) mutex_unlock(&mpxio_lock); return (RCM_FAILURE); } if (clients) { rv = rcm_request_offline_list(hdl, clients, flags, infop); if (rv != RCM_SUCCESS) *errstr = strdup(MPXIO_MSG_LASTPATH); free(clients); } (void) mutex_unlock(&mpxio_lock); return (rv); } /* * If disks are affected, then they are probably offline and we need to * propagate this online notification to them. */ static int mpxio_online(rcm_handle_t *hdl, char *rsrc, id_t id, uint_t flags, char **errstr, rcm_info_t **infop) { char **clients; int rv = RCM_SUCCESS; rcm_log_message(RCM_TRACE1, "MPXIO: online(%s)\n", rsrc); (void) mutex_lock(&mpxio_lock); if (get_affected_clients(hdl, rsrc, CMD_ONLINE, flags, &clients) < 0) { *errstr = strdup(gettext("Cannot lookup clients.")); (void) mutex_unlock(&mpxio_lock); return (RCM_FAILURE); } if (clients) { rv = rcm_notify_online_list(hdl, clients, flags, infop); free(clients); } (void) mutex_unlock(&mpxio_lock); return (rv); } /* * If clients are affected, then they are probably offline and we need to * propagate this removal notification to them. We can also remove the * cache entry for this PHCI. If that leaves its group empty, then the * group will be removed during the next register callback. */ static int mpxio_remove(rcm_handle_t *hdl, char *rsrc, id_t id, uint_t flags, char **errstr, rcm_info_t **infop) { char **clients; int rv = RCM_SUCCESS; rcm_log_message(RCM_TRACE1, "MPXIO: remove(%s)\n", rsrc); (void) mutex_lock(&mpxio_lock); if (get_affected_clients(hdl, rsrc, CMD_REMOVE, flags, &clients) < 0) { *errstr = strdup(gettext("Cannot lookup clients.")); (void) mutex_unlock(&mpxio_lock); return (RCM_FAILURE); } if (clients) { rv = rcm_notify_remove_list(hdl, clients, flags, infop); free(clients); } (void) mutex_unlock(&mpxio_lock); return (rv); } /* * Returns a string representation of a given libdevinfo path state. */ static char * s_state(di_path_state_t state) { switch (state) { case DI_PATH_STATE_ONLINE: return ("online"); case DI_PATH_STATE_OFFLINE: return ("offline"); case DI_PATH_STATE_STANDBY: return ("standby"); case DI_PATH_STATE_FAULT: return ("faulted"); default: return (""); } } static int get_affected_clients(rcm_handle_t *hdl, char *rsrc, int cmd, int flags, char ***clientsp) { int nclients = 0; phci_t phci; group_t *group; char **clients = NULL; /* Build a dummy phci_t for use with bsearch(). */ phci.path = rsrc; /* Analyze the effects upon each group. */ for (group = group_list; group != NULL; group = group->next) { /* If the PHCI isn't in the group, then no effects. Skip. */ if (bsearch(&phci, group->phcis, group->nphcis, sizeof (phci_t), compare_phci) == NULL) continue; /* * Merge in the clients. All clients are merged in for getinfo * operations. Otherwise it's contingent upon a state change * being transferred to the clients as a result of changing * the PHCI's state. */ if ((cmd == CMD_GETINFO) || detect_client_change(hdl, cmd, flags, group, rsrc)) { if (merge_clients(&nclients, &clients, group) < 0) { free_clients(nclients, clients); return (-1); } } } /* Return the array of affected disks */ *clientsp = clients; return (0); } /* * Iterates through the members of a PHCI list, returning the entry * corresponding to the named PHCI resource. Returns NULL when the lookup * fails. */ static phci_list_t * lookup_phci(char *rsrc) { phci_list_t *reg; for (reg = reg_list; reg != NULL; reg = reg->next) { if (strcmp(reg->phci.path, rsrc) == 0) return (reg); } return (NULL); } /* * Tests whether or not an operation on a specific PHCI resource would affect * the array of client devices attached to the PHCI's MPxIO group. * * Returns: 1 if clients would be affected, 0 if not. */ static int detect_client_change(rcm_handle_t *hdl, int cmd, int flags, group_t *group, char *rsrc) { int i; int state; /* * Perform a full set analysis on the set of redundant PHCIs. When * there are no unaffected and online PHCIs, then changing the state * of the named PHCI results in a client state change. */ for (i = 0; i < group->nphcis; i++) { /* Filter the named resource out of the analysis */ if (strcmp(group->phcis[i].path, rsrc) == 0) continue; /* * If we find a path that's in the ONLINE or STANDBY state * that would be left over in the system after completing * whatever DR or hotplugging operation is in progress, then * return a 0. */ if ((group->phcis[i].state == DI_PATH_STATE_ONLINE) || (group->phcis[i].state == DI_PATH_STATE_STANDBY)) { if (rcm_get_rsrcstate(hdl, group->phcis[i].path, &state) != RCM_SUCCESS) { rcm_log_message(RCM_ERROR, "MPXIO: Failed to query resource state\n"); continue; } rcm_log_message(RCM_TRACE2, "MPXIO: state of %s: %d\n", group->phcis[i].path, state); if (state == RCM_STATE_ONLINE) { return (0); } } } /* * The analysis above didn't find a redundant path to take over. So * report that the state of the client resources will change. */ return (1); } /* * Merges the client disks connected to a particular MPxIO group in with a * previous array of disk clients. The result is to adjust the 'nclients' * value with the new count of disks in the array, and to adjust the 'disks' * value to be a larger array of disks including its original contents along * with the current group's contents merged in. */ static int merge_clients(int *nclients, char ***clientsp, group_t *group) { int i; int old_nclients; char **clients_new; if (group->nclients) { old_nclients = *nclients; *nclients += group->nclients; clients_new = realloc(*clientsp, ((*nclients) + 1) * sizeof (char *)); if (clients_new == NULL) { rcm_log_message(RCM_ERROR, "MPXIO: cannot reallocate client array (%s).\n", strerror(errno)); return (-1); } for (i = old_nclients; i < (*nclients); i++) { /* * Don't allocate space for individual disks in the * merged list. Just make references to the previously * allocated strings in the group_t structs themselves. */ clients_new[i] = group->clients[i - old_nclients]; } clients_new[(*nclients)] = NULL; *clientsp = clients_new; } return (0); } /* * A libdevinfo di_walk_node() callback. It's passed an integer pointer as an * argument, and it increments the integer each time it encounters an MPxIO * client. By initializing the integer to zero and doing a libdevinfo walk with * this function, the total count of MPxIO clients in the system can be found. */ static int get_nclients(di_node_t dinode, void *arg) { int *nclients = arg; if (is_client(dinode)) (*nclients)++; return (DI_WALK_CONTINUE); } /* * Tests a libdevinfo node to determine if it's an MPxIO client. * * Returns: non-zero for true, 0 for false. */ static int is_client(di_node_t dinode) { return (di_path_next_phci(dinode, DI_PATH_NIL) != DI_PATH_NIL); } /* * After a new group_list has been constructed, this refreshes the RCM * registrations and the reg_list contents. It uses a clock like algorithm * with reference bits in the reg_list to know which registrants are new or * old. */ static void refresh_regs(rcm_handle_t *hdl) { int i; group_t *group; phci_list_t *reg; phci_list_t *prev_reg; /* * First part of the clock-like algorithm: clear reference bits. */ for (reg = reg_list; reg != NULL; reg = reg->next) reg->referenced = CACHE_STALE; /* * Second part of the clock-like algorithm: set the reference bits * on every registrant that's still active. (Also add new list nodes * for new registrants.) */ for (group = group_list; group != NULL; group = group->next) { for (i = 0; i < group->nphcis; i++) { /* * If already stale in the registrants list, just set * its reference bit to REFERENCED and update its state. */ if ((reg = lookup_phci(group->phcis[i].path)) != NULL) { if (reg->referenced == CACHE_STALE) reg->referenced = CACHE_REFERENCED; reg->phci.state = group->phcis[i].state; continue; } /* * Otherwise, build a new list node and mark it NEW. */ reg = (phci_list_t *)calloc(1, sizeof (*reg)); if (reg == NULL) { rcm_log_message(RCM_ERROR, "MPXIO: cannot allocate phci_list (%s).\n", strerror(errno)); continue; } reg->phci.path = strdup(group->phcis[i].path); if (reg->phci.path == NULL) { free(reg); rcm_log_message(RCM_ERROR, "MPXIO: cannot allocate phci path (%s).\n", strerror(errno)); continue; } reg->phci.state = group->phcis[i].state; reg->referenced = CACHE_NEW; /* Link it at the head of reg_list */ reg->next = reg_list; reg_list = reg; } } /* * Final part of the clock algorithm: unregister stale entries, and * register new entries. Stale entries get removed from the list. */ reg = reg_list; prev_reg = NULL; while (reg) { /* Unregister and remove stale entries. */ if (reg->referenced == CACHE_STALE) { (void) rcm_unregister_interest(hdl, reg->phci.path, 0); free(reg->phci.path); if (prev_reg == NULL) { reg_list = reg->next; free(reg); reg = reg_list; } else { prev_reg->next = reg->next; free(reg); reg = prev_reg->next; } continue; } /* Register new entries. */ if (reg->referenced == CACHE_NEW) { if (rcm_register_interest(hdl, reg->phci.path, 0, NULL) != RCM_SUCCESS) { rcm_log_message(RCM_ERROR, "MPXIO: failed to register %s (%s).\n", reg->phci.path, strerror(errno)); } } prev_reg = reg; reg = reg->next; } } /* * A libdevinfo di_walk_node() callback that builds up the MPxIO group list. * * Every node encountered that's a client node is added into a group's client * list. Whenever a group doesn't already exist with a matching set of * related PHCIs, then a new group is constructed and put at the head of the * group list. */ static int build_groups(di_node_t dinode, void *arg) { int i = 0; int nphcis = 0; int *nclients = (int *)arg; phci_t *phcis; group_t *group; di_node_t phcinode; di_path_t dipath = DI_PATH_NIL; /* Safety check */ if (nclients == NULL) return (DI_WALK_TERMINATE); /* * Build a sorted array of PHCIs pertaining to the client. */ while ((dipath = di_path_next_phci(dinode, dipath)) != DI_PATH_NIL) nphcis++; /* Skip non-clients. */ if (nphcis == 0) return (DI_WALK_CONTINUE); if ((phcis = (phci_t *)calloc(nphcis, sizeof (phci_t))) == NULL) { rcm_log_message(RCM_ERROR, "MPXIO: failed to allocate client's PHCIs (%s).\n", strerror(errno)); return (DI_WALK_TERMINATE); } while ((dipath = di_path_next_phci(dinode, dipath)) != DI_PATH_NIL) { phcinode = di_path_phci_node(dipath); if (phcinode == DI_NODE_NIL) { free_phcis(i, phcis); /* free preceeding PHCIs */ rcm_log_message(RCM_ERROR, "MPXIO: client appears to have no PHCIs.\n"); return (DI_WALK_TERMINATE); } if ((phcis[i].path = get_rsrcname(phcinode)) == NULL) { free_phcis(i, phcis); return (DI_WALK_TERMINATE); } phcis[i].state = di_path_state(dipath); i++; } qsort(phcis, nphcis, sizeof (phci_t), compare_phci); /* * Compare that PHCI set to each existing group's set. We just add * the client to the group and exit successfully once a match is made. * Falling out of this loop means no match was found. */ for (group = group_list; group != NULL; group = group->next) { /* There is no match if the number of PHCIs is inequal */ if (nphcis != group->nphcis) continue; /* Compare the PHCIs linearly (which is okay; they're sorted) */ for (i = 0; i < nphcis; i++) if (strcmp(phcis[i].path, group->phcis[i].path) != 0) break; /* * If the loop above completed, we have a match. Add the client * to the group's disk array in that case, and return * successfully. */ if (i == nphcis) { free_phcis(nphcis, phcis); if ((group->clients[group->nclients] = get_rsrcname(dinode)) == NULL) return (DI_WALK_TERMINATE); group->nclients++; return (DI_WALK_CONTINUE); } } /* The loop above didn't find a match. So build a new group. */ if ((group = (group_t *)calloc(1, sizeof (*group))) == NULL) { rcm_log_message(RCM_ERROR, "MPXIO: failed to allocate PHCI group (%s).\n", strerror(errno)); free_phcis(nphcis, phcis); return (DI_WALK_TERMINATE); } if ((group->clients = (char **)calloc(*nclients, sizeof (char *))) == NULL) { free(group); free_phcis(nphcis, phcis); return (DI_WALK_TERMINATE); } group->nphcis = nphcis; group->phcis = phcis; if ((group->clients[0] = get_rsrcname(dinode)) == NULL) { free_group(group); return (DI_WALK_TERMINATE); } group->nclients = 1; /* Link the group into the group list and return successfully. */ group->next = group_list; group_list = group; return (DI_WALK_CONTINUE); } /* * For bsearch() and qsort(). Returns the results of a strcmp() on the names * of two phci_t's. */ static int compare_phci(const void *arg1, const void *arg2) { phci_t *p1 = (phci_t *)arg1; phci_t *p2 = (phci_t *)arg2; if ((p1 == NULL) || (p2 == NULL)) { if (p1 != NULL) return (-1); else if (p2 != NULL) return (1); return (0); } return (strcmp(p1->path, p2->path)); } /* * Free the whole list of group's in the global group_list. */ static void free_grouplist() { group_t *group = group_list; group_t *next; while (group) { next = group->next; free_group(group); group = next; } group_list = NULL; } /* * Free the contents of a single group_t. */ static void free_group(group_t *group) { if (group) { free_phcis(group->nphcis, group->phcis); free_clients(group->nclients, group->clients); free(group); } } /* * Free an array of clients. */ static void free_clients(int nclients, char **clients) { int i; if (clients != NULL) { if (nclients > 0) { for (i = 0; i < nclients; i++) if (clients[i]) free(clients[i]); } free(clients); } } /* * Free an array of phci_t's. */ static void free_phcis(int nphcis, phci_t *phcis) { int i; if ((phcis != NULL) && (nphcis > 0)) { for (i = 0; i < nphcis; i++) if (phcis[i].path) free(phcis[i].path); free(phcis); } } /* * Converts a libdevinfo node into a /devices path. Caller must free results. */ static char * get_rsrcname(di_node_t dinode) { int len; char *rsrcname; char *devfspath; char name[MAXPATHLEN]; if ((devfspath = di_devfs_path(dinode)) == NULL) { rcm_log_message(RCM_ERROR, "MPXIO: resource has null path.\n"); return (NULL); } len = snprintf(name, sizeof (name), "/devices%s", devfspath); di_devfs_path_free(devfspath); if (len >= sizeof (name)) { rcm_log_message(RCM_ERROR, "MPXIO: resource path too long.\n"); return (NULL); } if ((rsrcname = strdup(name)) == NULL) rcm_log_message(RCM_ERROR, "MPXIO: failed to allocate resource name (%s).\n", strerror(errno)); return (rsrcname); }