Mercurial > illumos > illumos-gate
view usr/src/lib/cfgadm_plugins/ib/common/cfga_ib.c @ 13779:bf40125f4b37
3063 many instances of unlike enum comparison
Reviewed by: Robert Mustacchi <rm@joyent.com>
Approved by: Garrett D'Amore <garrett@damore.org>
| author | Richard Lowe <richlowe@richlowe.net> |
|---|---|
| date | Sun, 08 Jul 2012 03:19:56 +0100 |
| parents | 115e6d42744b |
| children |
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/* * 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 "cfga_ib.h" /* * cfga_ib.c: * All cfgadm entry points that are defined in the config_admin(3X) * needed for InfiniBand support are described here. These cfgadm * interfaces issue ioctl(s) to the IB nexus driver. Attachment points * supported are - IOC, VPPA, Port, HCA_SVC and Pseudo dynamic ap_ids, * the HCA static ap_id, and the IB static ap_id. * * Given InfiniBand bus is fabric based, #of dynamic ap_ids present are * unknown at any given point of time. Hence this plugin uses a * packed nvlist data structure to hold ap_id related information. * The IB nexus driver allocates the nvlist data in the kernel * and this plugin processes the data (it is freed by IB nexus driver). */ /* function prototypes */ static int ib_get_link(di_devlink_t, void *); static icfga_ret_t ib_physpath_to_devlink(char *, char **, int *); static const char *ib_get_msg(uint_t, msgcvt_t *, uint_t); static void ib_set_msg(char **, ...); static cfga_err_t ib_err_msg(char **, cfga_ib_ret_t, const char *, int); static int ib_verify_valid_apid(const char *); static cfga_ib_ret_t ib_verify_params(const char *, const char *, char **); static void ib_cleanup_after_devctl_cmd(devctl_hdl_t, nvlist_t *); static cfga_ib_ret_t ib_setup_for_devctl_cmd(char *, boolean_t, devctl_hdl_t *, nvlist_t **); static cfga_ib_ret_t ib_device_configured(devctl_hdl_t, nvlist_t *, ap_rstate_t *); static cfga_ib_ret_t ib_device_connected(devctl_hdl_t, nvlist_t *, ap_ostate_t *); static cfga_ib_ret_t ib_do_control_ioctl(char *, uint_t, uint_t, uint_t, void **, size_t *); cfga_err_t cfga_change_state(cfga_cmd_t, const char *, const char *, struct cfga_confirm *, struct cfga_msg *, char **, cfga_flags_t); cfga_err_t cfga_private_func(const char *, const char *, const char *, struct cfga_confirm *, struct cfga_msg *, char **, cfga_flags_t); cfga_err_t cfga_test(const char *, const char *, struct cfga_msg *, char **, cfga_flags_t); static cfga_ib_ret_t ib_fill_static_apids(char *, cfga_list_data_t *); cfga_err_t cfga_list_ext(const char *, cfga_list_data_t **, int *, const char *, const char *, char **, cfga_flags_t); void cfga_msg(struct cfga_msg *, const char *); cfga_err_t cfga_help(struct cfga_msg *, const char *, cfga_flags_t); static int ib_confirm(struct cfga_confirm *, char *); static char *ib_get_devicepath(const char *); /* External function prototypes */ extern cfga_ib_ret_t ib_rcm_offline(const char *, char **, char *, cfga_flags_t); extern cfga_ib_ret_t ib_rcm_online(const char *, char **, char *, cfga_flags_t); extern cfga_ib_ret_t ib_rcm_remove(const char *, char **, char *, cfga_flags_t); extern int ib_add_service(char **); extern int ib_delete_service(char **); extern int ib_list_services(struct cfga_msg *, char **); /* Globals */ int cfga_version = CFGA_HSL_V2; /* Set the version number for */ /* the cfgadm library's use. */ static char *ib_help[] = { /* Help messages */ NULL, /* CFGA_IB_HELP_HEADER */ "IB specific commands:\n", /* CFGA_IB_HELP_CONFIG */ "cfgadm -c [configure|unconfigure] " "ap_id [ap_id...]\n", /* CFGA_IB_HELP_LIST */ "cfgadm -x list_clients hca_ap_id " "[hca_ap_id...]\n", /* CFGA_IB_HELP_UPD_PKEY */ "cfgadm -x update_pkey_tbls ib\n", /* CFGA_IB_HELP_CONF_FILE1 */ "cfgadm -o comm=[port|vppa|hca-svc]," "service=<name> -x [add_service|delete_service] ib\n", /* CFGA_IB_HELP_CONF_FILE2 */ "cfgadm -x list_services ib\n", /* CFGA_IB_HELP_UPD_IOC_CONF */ "cfgadm -x update_ioc_config " "[ib | ioc_apid]\n", /* CFGA_IB_HELP_UNCFG_CLNTS */ "cfgadm -x unconfig_clients hca_ap_id " "[hca_ap_id...]\n", /* CFGA_IB_HELP_UNKNOWN */ "\tunknown command or option: ", NULL }; static msgcvt_t ib_error_msgs[] = { /* Error messages */ /* CFGA_IB_OK */ { CVT, CFGA_OK, "ok" }, /* CFGA_IB_UNKNOWN */ { CVT, CFGA_LIB_ERROR, "Unknown message; internal error " }, /* CFGA_IB_INTERNAL_ERR */ { CVT, CFGA_LIB_ERROR, "Internal error " }, /* CFGA_IB_INVAL_ARG_ERR */ { CVT, CFGA_LIB_ERROR, "Invalid input args " }, /* CFGA_IB_OPTIONS_ERR */ { CVT, CFGA_ERROR, "Hardware specific options not supported " }, /* CFGA_IB_AP_ERR */ { CVT, CFGA_APID_NOEXIST, "" }, /* CFGA_IB_DEVCTL_ERR */ { CVT, CFGA_LIB_ERROR, "Cannot issue devctl to " }, /* CFGA_IB_NOT_CONNECTED */ { CVT, CFGA_INSUFFICENT_CONDITION, "No device connected to " }, /* CFGA_IB_NOT_CONFIGURED */ { CVT, CFGA_INSUFFICENT_CONDITION, "No device configured to " }, /* CFGA_IB_ALREADY_CONNECTED */ { CVT, CFGA_INSUFFICENT_CONDITION, "already connected; cannot connect again " }, /* CFGA_IB_ALREADY_CONFIGURED */ { CVT, CFGA_INSUFFICENT_CONDITION, "already configured " }, /* CFGA_IB_CONFIG_OP_ERR */ { CVT, CFGA_ERROR, "configure operation failed " }, /* CFGA_IB_UNCONFIG_OP_ERR */ { CVT, CFGA_ERROR, "unconfigure operation failed " }, /* CFGA_IB_OPEN_ERR */ { CVT, CFGA_LIB_ERROR, "Cannot open " }, /* CFGA_IB_IOCTL_ERR */ { CVT, CFGA_LIB_ERROR, "Driver ioctl failed " }, /* CFGA_IB_BUSY_ERR */ { CVT, CFGA_SYSTEM_BUSY, " " }, /* CFGA_IB_ALLOC_FAIL */ { CVT, CFGA_LIB_ERROR, "Memory allocation failure " }, /* CFGA_IB_OPNOTSUPP */ { CVT, CFGA_OPNOTSUPP, "Operation not supported " }, /* CFGA_IB_INVAL_APID_ERR */ { CVT, CFGA_LIB_ERROR, "Invalid ap_id supplied " }, /* CFGA_IB_DEVLINK_ERR */ { CVT, CFGA_LIB_ERROR, "Could not find /dev/cfg link for " }, /* CFGA_IB_PRIV_ERR */ { CVT, CFGA_PRIV, " " }, /* CFGA_IB_NVLIST_ERR */ { CVT, CFGA_ERROR, "Internal error (nvlist) " }, /* CFGA_IB_HCA_LIST_ERR */ { CVT, CFGA_ERROR, "Listing HCA's clients failed " }, /* CFGA_IB_HCA_UNCONFIG_ERR */ { CVT, CFGA_ERROR, "Unconfiguring HCA's clients failed " }, /* CFGA_IB_UPD_PKEY_TBLS_ERR */ { CVT, CFGA_ERROR, "Updating P_Key tables failed " }, /* CFGA_IB_RCM_HANDLE_ERR */ { CVT, CFGA_ERROR, "Opening ib.conf file failed " }, /* CFGA_IB_LOCK_FILE_ERR */ { CVT, CFGA_LIB_ERROR, "Locking ib.conf file failed " }, /* CFGA_IB_UNLOCK_FILE_ERR */ { CVT, CFGA_LIB_ERROR, "Unlocking ib.conf file failed " }, /* CFGA_IB_COMM_INVAL_ERR */ { CVT, CFGA_INVAL, "Communication type incorrectly specified " }, /* CFGA_IB_SVC_INVAL_ERR */ { CVT, CFGA_INVAL, "Service name incorrectly specified " }, /* CFGA_IB_SVC_LEN_ERR_ERR */ { CVT, CFGA_INVAL, "Service name len should be <= to 4, " }, /* CFGA_IB_SVC_EXISTS_ERR */ { CVT, CFGA_INVAL, " "}, /* CFGA_IB_SVC_NO_EXIST_ERR */ { CVT, CFGA_INVAL, " " }, /* CFGA_IB_UCFG_CLNTS_ERR */ { CVT, CFGA_INVAL, "unconfig_clients failed for HCA " }, /* CFGA_IB_INVALID_OP_ERR */ { CVT, CFGA_OPNOTSUPP, "on " }, /* CFGA_IB_RCM_HANDLE */ { CVT, CFGA_ERROR, "cannot get RCM handle "}, /* CFGA_IB_RCM_ONLINE_ERR */ { CVT, CFGA_SYSTEM_BUSY, "failed to online: "}, /* CFGA_IB_RCM_OFFLINE_ERR */ { CVT, CFGA_SYSTEM_BUSY, "failed to offline: "} }; /* * these are the only valid sub-options for services. */ static char *ib_service_subopts[] = { "comm", "service", NULL }; /* Communication Service name : "port" or "vppa" or "hca-svc" */ static char *comm_name = NULL; char *service_name = NULL; /* service name */ ib_service_type_t service_type = IB_NONE; /* service type */ /* ========================================================================= */ /* * The next two funcs are imported from cfgadm_scsi. * ib_physpath_to_devlink is the only func directly used by cfgadm_ib. * ib_get_link supports it. */ /* * Function: * ib_get_link * Input: * devlink - devlink for the device path * arg - argument passed to this "walker" function * Output: * NONE * Returns: * Continue "walking" or not * Description: * Routine to search the /dev directory or a subtree of /dev. */ static int ib_get_link(di_devlink_t devlink, void *arg) { walk_link_t *larg = (walk_link_t *)arg; /* * When path is specified, it's the node path without minor * name. Therefore, the ../.. prefixes needs to be stripped. */ if (larg->path) { char *content = (char *)di_devlink_content(devlink); char *start = strstr(content, "/devices/"); /* line content must have minor node */ if (start == NULL || strncmp(start, larg->path, larg->len) != 0 || start[larg->len] != ':') { return (DI_WALK_CONTINUE); } } *(larg->linkpp) = strdup(di_devlink_path(devlink)); return (DI_WALK_TERMINATE); } /* * Function: * ib_physpath_to_devlink * Input: * node_path - Physical path of the ap_id node * Output: * logpp - Logical path to the ap_id node * l_errnop - "errno" * Returns: * ICFGA_OK if everything was fine; otherwise an error with * l_errnop set. * Description: * Given a physical path to an ap_id ensure that it exists */ /* ARGSUSED */ static icfga_ret_t ib_physpath_to_devlink(char *node_path, char **logpp, int *l_errnop) { char *minor_path; walk_link_t larg; di_devlink_handle_t hdl; if ((hdl = di_devlink_init(NULL, 0)) == NULL) { *l_errnop = errno; return (ICFGA_LIB_ERR); } *logpp = NULL; larg.linkpp = logpp; minor_path = (char *)node_path + strlen("/devices"); larg.path = NULL; larg.len = 0; (void) di_devlink_walk(hdl, "^cfg/", minor_path, DI_PRIMARY_LINK, (void *)&larg, ib_get_link); di_devlink_fini(&hdl); if (*logpp == NULL) { *l_errnop = errno; return (ICFGA_LIB_ERR); } return (ICFGA_OK); } /* ========================================================================= */ /* Utilities */ /* * Function: * ib_get_msg * Input: * msg_index - Index into the message table * msg_tbl - the message table * tbl_size - size of the message table * Output: * NONE * Returns: * Message string if valid, otherwise an error * Description: * Given the index into a table (msgcvt_t) of messages, * get the message string, converting it to the proper * locale if necessary. * * NOTE: See cfga_ib.h */ static const char * ib_get_msg(uint_t msg_index, msgcvt_t *msg_tbl, uint_t tbl_size) { if (msg_index >= tbl_size) { DPRINTF("get_error_msg: bad error msg index: %d\n", msg_index); msg_index = CFGA_IB_UNKNOWN; } return ((msg_tbl[msg_index].intl) ? dgettext(TEXT_DOMAIN, msg_tbl[msg_index].msgstr) : msg_tbl[msg_index].msgstr); } /* * Function: * ib_set_msg * Input: * NONE * Output: * ret_str - Returned "message" string. * Returns: * NONE * Description: * Allocates and creates a message string (in *ret_str), * by concatenating all the (char *) args together, in order. * Last arg MUST be NULL. */ static void ib_set_msg(char **ret_str, ...) { char *str; size_t total_len, ret_str_len; va_list valist; va_start(valist, ret_str); total_len = (*ret_str == NULL) ? 0 : strlen(*ret_str); while ((str = va_arg(valist, char *)) != NULL) { size_t len = strlen(str); char *old_str = *ret_str; ret_str_len = total_len + len + 1; *ret_str = (char *)realloc(*ret_str, ret_str_len); if (*ret_str == NULL) { free(old_str); DPRINTF("ib_set_msg: realloc failed.\n"); va_end(valist); return; } (void) strlcpy(*ret_str + total_len, str, ret_str_len); total_len += len; } va_end(valist); } /* * Function: * ib_err_msg * Input: * ap_id - The attachment point of an IB fabric * Output: * errstring - Fill in the error msg string * l_errno - The "errno" to be filled in. * Returns: * CFGA_IB_OK if we are able to fill in error msg; * otherwise emit an error. * Description: * Error message handling. * * For the rv passed in, looks up the corresponding error message * string(s), internationalized it if necessary, and concatenates * it into a new memory buffer, and points *errstring to it. * Note not all "rv"s will result in an error message return, as * not all error conditions warrant a IB-specific error message. * * Some messages may display ap_id or errno, which is why they are * passed in. */ static cfga_err_t ib_err_msg(char **errstring, cfga_ib_ret_t rv, const char *ap_id, int l_errno) { char *errno_str; if (errstring == NULL) { return (ib_error_msgs[rv].cfga_err); } /* Generate the appropriate IB-specific error message(s) (if any). */ switch (rv) { case CFGA_IB_OK: /* Special case - do nothing. */ break; case CFGA_IB_AP_ERR: case CFGA_IB_UNKNOWN: case CFGA_IB_INTERNAL_ERR: case CFGA_IB_OPTIONS_ERR: case CFGA_IB_ALLOC_FAIL: /* These messages require no additional strings passed. */ ib_set_msg(errstring, ERR_STR(rv), NULL); break; case CFGA_IB_NOT_CONNECTED: case CFGA_IB_NOT_CONFIGURED: case CFGA_IB_ALREADY_CONNECTED: case CFGA_IB_ALREADY_CONFIGURED: case CFGA_IB_CONFIG_OP_ERR: case CFGA_IB_UNCONFIG_OP_ERR: case CFGA_IB_BUSY_ERR: case CFGA_IB_DEVLINK_ERR: case CFGA_IB_RCM_HANDLE_ERR: case CFGA_IB_RCM_ONLINE_ERR: case CFGA_IB_RCM_OFFLINE_ERR: case CFGA_IB_DEVCTL_ERR: case CFGA_IB_COMM_INVAL_ERR: case CFGA_IB_SVC_INVAL_ERR: case CFGA_IB_SVC_LEN_ERR: case CFGA_IB_SVC_EXISTS_ERR: case CFGA_IB_SVC_NO_EXIST_ERR: case CFGA_IB_LOCK_FILE_ERR: case CFGA_IB_CONFIG_FILE_ERR: case CFGA_IB_UNLOCK_FILE_ERR: case CFGA_IB_UCFG_CLNTS_ERR: case CFGA_IB_INVALID_OP_ERR: /* These messages also print ap_id. */ ib_set_msg(errstring, ERR_STR(rv), "ap_id: ", ap_id, "", NULL); break; case CFGA_IB_IOCTL_ERR: /* These messages also print errno. */ case CFGA_IB_NVLIST_ERR: errno_str = l_errno ? strerror(l_errno) : ""; ib_set_msg(errstring, ERR_STR(rv), errno_str, l_errno ? "\n" : "", NULL); break; case CFGA_IB_OPEN_ERR: /* This messages also prints apid and errno. */ case CFGA_IB_PRIV_ERR: case CFGA_IB_HCA_LIST_ERR: case CFGA_IB_OPNOTSUPP: case CFGA_IB_INVAL_ARG_ERR: case CFGA_IB_INVAL_APID_ERR: case CFGA_IB_HCA_UNCONFIG_ERR: case CFGA_IB_UPD_PKEY_TBLS_ERR: errno_str = l_errno ? strerror(l_errno) : ""; ib_set_msg(errstring, ERR_STR(rv), "ap_id: ", ap_id, "\n", errno_str, l_errno ? "\n" : "", NULL); break; default: DPRINTF("ib_err_msg: Unrecognized message index: %d\n", rv); ib_set_msg(errstring, ERR_STR(CFGA_IB_INTERNAL_ERR), NULL); } /* * Determine the proper error code to send back to the cfgadm library. */ return (ib_error_msgs[rv].cfga_err); } /* * Function: * ib_verify_valid_apid * Input: * ap_id - The attachment point of an IB fabric * Output: * NONE * Returns: * 0 if ap_id is valid; otherwise -1 * Description: * Check if ap_id is valid or not. * Ensure the ap_id passed is in the correct (physical ap_id) form: * path/device:xx[.xx]+ * where xx is a one or two-digit number. * * Note the library always calls the plugin with a physical ap_id. * Called by ib_verify_params(). */ static int ib_verify_valid_apid(const char *ap_id) { char *l_ap_id; if (ap_id == NULL) { return (-1); } l_ap_id = strchr(ap_id, *MINOR_SEP); l_ap_id++; /* fabric apids */ if (strstr((char *)ap_id, IBNEX_FABRIC) != NULL) { DPRINTF("ib_valid_apid: l_apid = %s\n", l_ap_id); /* if the ap_id is "ib::" then report an error */ if ((strlen(l_ap_id) == strlen(IBNEX_FABRIC) + 1) || (strlen(l_ap_id) == strlen(IBNEX_FABRIC) + 2)) { return (-1); } if (strstr(l_ap_id, "...") != NULL) { return (-1); } } else { /* HCA ap_ids */ /* ap_id has 1..2 or more than 2 dots */ if (strstr(l_ap_id, "..") != NULL) { return (-1); } } return (0); } /* * Function: * ib_verify_params * Input: * ap_id - The attachment point of an IB fabric * options - command options passed by the cfgadm(1M) * errstring - This contains error msg if command fails * Output: * NONE * Returns: * CFGA_IB_OK if parameters are valid; otherwise emit an error. * Description: * Check if "options" and "errstring" are valid and if ap_id is * valid or not. */ static cfga_ib_ret_t ib_verify_params(const char *ap_id, const char *options, char **errstring) { if (errstring != NULL) { *errstring = NULL; } if (options != NULL) { DPRINTF("ib_verify_params: h/w-specific options not " "supported.\n"); return (CFGA_IB_OPTIONS_ERR); } if (ib_verify_valid_apid(ap_id) != 0) { DPRINTF("ib_verify_params: not an IB ap_id.\n"); return (CFGA_IB_AP_ERR); } return (CFGA_IB_OK); } /* * Function: * ib_cleanup_after_devctl_cmd * Input: * devctl_hdl - Handler to devctl * user_nvlistp - Name-value-pair list pointer * Output: * NONE * Returns: * NONE * Description: * Cleanup an initialization/setup done in the next function i.e. * ib_setup_for_devctl_cmd(). */ static void ib_cleanup_after_devctl_cmd(devctl_hdl_t devctl_hdl, nvlist_t *user_nvlist) { if (user_nvlist != NULL) { nvlist_free(user_nvlist); } if (devctl_hdl != NULL) { devctl_release(devctl_hdl); } } /* * Function: * ib_setup_for_devctl_cmd * Input: * ap_id - Attachment point for the IB device in question * use_static_ap_id - Whether to use static ap_id or not flag * Output: * devctl_hdl - Handler to devctl * user_nvlistp - Name-value-pair list pointer * Returns: * CFGA_IB_OK if it succeeds or an appropriate error. * Description: * For any IB device that is doing a cfgadm operation this function * sets up a devctl_hdl and allocates a nvlist_t. The devctl_hdl * is acquired using libdevice APIs. The nvlist_t is filled up with * the ap_id (as a string). This nvlist_t is looked up in the kernel * to figure out which ap_id we are currently dealing with. * * "use_static_ap_id" flag tells if one should do a devctl_ap_acquire * with IB_STATIC_APID or not. NOTE: We need an actual file-system * vnode to do a devctl_ap_acquire. * * NOTE: always call ib_cleanup_after_devctl_cmd() after this function. */ static cfga_ib_ret_t ib_setup_for_devctl_cmd(char *ap_id, boolean_t use_static_ap_id, devctl_hdl_t *devctl_hdl, nvlist_t **user_nvlistp) { char *apid = (use_static_ap_id == B_TRUE) ? IB_STATIC_APID : ap_id; /* Get a handle to the ap */ if ((*devctl_hdl = devctl_ap_acquire(apid, NULL)) == NULL) { DPRINTF("ib_setup_for_devctl_cmd: devctl_ap_acquire " "errno: %d\n", errno); ib_cleanup_after_devctl_cmd(*devctl_hdl, *user_nvlistp); return (CFGA_IB_DEVCTL_ERR); } /* Set up to pass dynamic ap_id down to driver */ if (nvlist_alloc(user_nvlistp, NV_UNIQUE_NAME_TYPE, NULL) != 0) { DPRINTF("ib_setup_for_devctl: nvlist_alloc errno: %d\n", errno); *user_nvlistp = NULL; /* Prevent possible incorrect free in */ /* ib_cleanup_after_devctl_cmd */ ib_cleanup_after_devctl_cmd(*devctl_hdl, *user_nvlistp); return (CFGA_IB_NVLIST_ERR); } /* create a "string" entry */ if (nvlist_add_string(*user_nvlistp, IB_APID, ap_id) == -1) { DPRINTF("ib_setup_for_devctl_cmd: nvlist_add_string failed. " "errno: %d\n", errno); ib_cleanup_after_devctl_cmd(*devctl_hdl, *user_nvlistp); return (CFGA_IB_NVLIST_ERR); } return (CFGA_IB_OK); } /* * Function: * ib_device_configured * Input: * hdl - Handler to devctl * nvl - Name-value-pair list pointer * Output: * rstate - Receptacle state for the apid * Returns: * CFGA_IB_OK if it succeeds or an appropriate error. * Description: * Checks if there is a device actually configured to the ap? If so, * issues a "devctl" to get the Receptacle state for that ap_id. * If the ap_id is already configured it returns CFGA_IB_OK. * Otherwise it returns a failure. */ static cfga_ib_ret_t ib_device_configured(devctl_hdl_t hdl, nvlist_t *nvl, ap_rstate_t *rstate) { cfga_ib_ret_t rv; devctl_ap_state_t devctl_ap_state; /* get ap_id's "devctl_ap_state" first */ if (devctl_ap_getstate(hdl, nvl, &devctl_ap_state) == -1) { DPRINTF("ib_device_configured failed, errno: %d\n", errno); return (CFGA_IB_DEVCTL_ERR); } rv = CFGA_IB_ALREADY_CONFIGURED; *rstate = devctl_ap_state.ap_rstate; if (devctl_ap_state.ap_ostate != AP_OSTATE_CONFIGURED) { return (CFGA_IB_NOT_CONFIGURED); } return (rv); } /* * Function: * ib_device_connected * Input: * hdl - Handler to devctl * nvl - Name-value-pair list pointer * Output: * ostate - Occupant state for the apid * Returns: * CFGA_IB_OK if it succeeds or an appropriate error. * Description: * Checks if there is a device actually connected to the ap? If so, * issues a "devctl" to get the Occupant state for that ap_id. * If the ap_id is already connected it returns CFGA_IB_OK. * Otherwise it returns a failure. */ static cfga_ib_ret_t ib_device_connected(devctl_hdl_t hdl, nvlist_t *list, ap_ostate_t *ostate) { cfga_ib_ret_t rv = CFGA_IB_ALREADY_CONNECTED; devctl_ap_state_t devctl_ap_state; if (devctl_ap_getstate(hdl, list, &devctl_ap_state) == -1) { DPRINTF("ib_device_connected failed, errno: %d\n", errno); return (CFGA_IB_DEVCTL_ERR); } *ostate = devctl_ap_state.ap_ostate; if (devctl_ap_state.ap_rstate != AP_RSTATE_CONNECTED) { return (CFGA_IB_NOT_CONNECTED); } return (rv); } /* * Function: * ib_do_control_ioctl * Input: * ap_id - The dynamic attachment point of an IB device * sub_cmd1 - Sub Command 1 to DEVCTL_AP_CONTROL devctl * sub_cmd2 - Sub Command 2 to DEVCTL_AP_CONTROL devctl * (Mandatory except for IBNEX_NUM_HCA_NODES, * IBNEX_NUM_DEVICE_NODES, * IBNEX_UPDATE_PKEY_TBLS & * IBNEX_UPDATE_IOC_CONF) * misc_arg - optional arguments to DEVCTL_AP_CONTROL devctl * Output: * descrp - Buffer containing data back from kernel * sizep - Length of the buffer back from kernel * Returns: * CFGA_IB_OK if it succeeds or an appropriate error. * Description: * Issues DEVCTL_AP_CONTROL devctl with sub_cmd1 first which actually * queries the IBNEX module in the kernel on the size of the data to * be returned. * * Next issues DEVCTL_AP_CONTROL devctl with a buffer of that much * size and gets the actual data back. * Passes the data and the size back to caller. */ static cfga_ib_ret_t ib_do_control_ioctl(char *ap_id, uint_t sub_cmd1, uint_t sub_cmd2, uint_t misc_arg, void **descrp, size_t *sizep) { int fd = -1; uint32_t local_size = 0; cfga_ib_ret_t rv = CFGA_IB_OK; struct ibnex_ioctl_data ioctl_data; /* try to open the ONLY static ap_id */ if ((fd = open(IB_STATIC_APID, O_RDONLY)) == -1) { DPRINTF("ib_do_control_ioctl: open failed: " "errno = %d\n", errno); /* Provides a more useful error msg */ rv = (errno == EBUSY) ? CFGA_IB_BUSY_ERR : CFGA_IB_OPEN_ERR; return (rv); } /* * Find out first how large a buffer is needed? * NOTE: Ioctls only accept/return a 32-bit int for a get_size * to avoid 32/64 and BE/LE issues. */ ioctl_data.cmd = sub_cmd1; ioctl_data.misc_arg = (uint_t)misc_arg; ioctl_data.buf = (caddr_t)&local_size; ioctl_data.bufsiz = sizeof (local_size); /* Pass "ap_id" up for all other commands */ if (sub_cmd1 != IBNEX_NUM_DEVICE_NODES && sub_cmd1 != IBNEX_NUM_HCA_NODES && sub_cmd1 != IBNEX_UPDATE_PKEY_TBLS) { ioctl_data.ap_id = (caddr_t)ap_id; ioctl_data.ap_id_len = strlen(ap_id); } else { ioctl_data.ap_id = NULL; ioctl_data.ap_id_len = 0; } if (ioctl(fd, DEVCTL_AP_CONTROL, &ioctl_data) != 0) { DPRINTF("ib_do_control_ioctl: size ioctl ERR, errno: %d\n", errno); (void) close(fd); rv = (errno == EBUSY) ? CFGA_IB_BUSY_ERR : CFGA_IB_IOCTL_ERR; return (rv); } *sizep = local_size; /* * Don't do the second ioctl only in these cases * (NOTE: the data is returned in the first ioctl itself; if any) */ if (sub_cmd1 == IBNEX_NUM_DEVICE_NODES || sub_cmd1 == IBNEX_NUM_HCA_NODES || sub_cmd1 == IBNEX_UPDATE_PKEY_TBLS || sub_cmd1 == IBNEX_UPDATE_IOC_CONF) { (void) close(fd); return (rv); } if (local_size == 0 || (*descrp = malloc(*sizep)) == NULL) { DPRINTF("ib_do_control_ioctl: malloc failed\n"); (void) close(fd); return (CFGA_IB_ALLOC_FAIL); } /* Get the data */ ioctl_data.cmd = sub_cmd2; ioctl_data.buf = (caddr_t)*descrp; ioctl_data.bufsiz = *sizep; if (ioctl(fd, DEVCTL_AP_CONTROL, &ioctl_data) != 0) { DPRINTF("ib_do_control_ioctl: ioctl failed: errno:%d\n", errno); if (*descrp != NULL) { free(*descrp); *descrp = NULL; } rv = (errno == EBUSY) ? CFGA_IB_BUSY_ERR : CFGA_IB_IOCTL_ERR; } (void) close(fd); return (rv); } /* ========================================================================== */ /* Entry points */ /* * Function: * cfga_change_state * Input: * state_change_cmd - Argument to the cfgadm -c command * ap_id - The attachment point of an IB fabric * options - State Change command options passed by the cfgadm(1M) * confp - Whether this command requires confirmation? * msgp - cfgadm error message for this plugin * errstring - This contains error msg if command fails * flags - Cfgadm(1m) flags * Output: * NONE * Returns: * If the command succeeded perform the cfgadm -c <cmd>; * otherwise emit an error * Description: * Do cfgadm -c <cmd> */ /*ARGSUSED*/ cfga_err_t cfga_change_state(cfga_cmd_t state_change_cmd, const char *ap_id, const char *options, struct cfga_confirm *confp, struct cfga_msg *msgp, char **errstring, cfga_flags_t flags) { int ret; char *devpath; nvlist_t *nvl = NULL; boolean_t static_ap_id = B_TRUE; ap_rstate_t rstate; ap_ostate_t ostate; devctl_hdl_t hdl = NULL; cfga_ib_ret_t rv = CFGA_IB_OK; if ((rv = ib_verify_params(ap_id, options, errstring)) != CFGA_IB_OK) { (void) cfga_help(msgp, options, flags); return (ib_err_msg(errstring, CFGA_IB_INVAL_APID_ERR, ap_id, errno)); } /* * All subcommands which can change state of device require * root privileges. */ if (geteuid() != 0) { return (ib_err_msg(errstring, CFGA_IB_PRIV_ERR, ap_id, errno)); } if (strstr((char *)ap_id, IB_FABRIC_APID_STR) == NULL) static_ap_id = B_FALSE; if ((rv = ib_setup_for_devctl_cmd((char *)ap_id, static_ap_id, &hdl, &nvl)) != CFGA_IB_OK) { ib_cleanup_after_devctl_cmd(hdl, nvl); return (ib_err_msg(errstring, rv, ap_id, errno)); } switch (state_change_cmd) { case CFGA_CMD_CONFIGURE: rv = ib_device_connected(hdl, nvl, &ostate); if (rv != CFGA_IB_ALREADY_CONNECTED) { ret = (rv != CFGA_IB_NOT_CONNECTED) ? CFGA_IB_CONFIG_OP_ERR : rv; ib_cleanup_after_devctl_cmd(hdl, nvl); return (ib_err_msg(errstring, ret, ap_id, errno)); } if (rv == CFGA_IB_ALREADY_CONNECTED) { /* * special case handling for * SLM based cfgadm disconnects */ if (ostate == AP_OSTATE_CONFIGURED) { ib_cleanup_after_devctl_cmd(hdl, nvl); return (ib_err_msg(errstring, CFGA_IB_ALREADY_CONFIGURED, ap_id, errno)); } } rv = CFGA_IB_OK; /* Other status don't matter */ if (devctl_ap_configure(hdl, nvl) != 0) { DPRINTF("cfga_change_state: devctl_ap_configure " "failed. errno: %d\n", errno); rv = CFGA_IB_CONFIG_OP_ERR; break; } devpath = ib_get_devicepath(ap_id); if (devpath == NULL) { int i; /* * try for some time as IB hotplug thread * takes a while to create the path * and then eventually give up */ for (i = 0; i < IB_RETRY_DEVPATH && (devpath == NULL); i++) { sleep(IB_MAX_DEVPATH_DELAY); devpath = ib_get_devicepath(ap_id); } if (devpath == NULL) { DPRINTF("cfga_change_state: get device " "path failed i = %d\n", i); rv = CFGA_IB_CONFIG_OP_ERR; break; } } S_FREE(devpath); break; case CFGA_CMD_UNCONFIGURE: if ((rv = ib_device_connected(hdl, nvl, &ostate)) != CFGA_IB_ALREADY_CONNECTED) { ib_cleanup_after_devctl_cmd(hdl, nvl); if (rv == CFGA_IB_DEVCTL_ERR) rv = CFGA_IB_INVALID_OP_ERR; return (ib_err_msg(errstring, rv, ap_id, errno)); } /* check if it is already unconfigured */ if ((rv = ib_device_configured(hdl, nvl, &rstate)) == CFGA_IB_NOT_CONFIGURED) { ib_cleanup_after_devctl_cmd(hdl, nvl); return (ib_err_msg(errstring, rv, ap_id, errno)); } rv = CFGA_IB_OK; /* Other statuses don't matter */ if (!ib_confirm(confp, IB_CONFIRM1)) { ib_cleanup_after_devctl_cmd(hdl, nvl); return (CFGA_NACK); } devpath = ib_get_devicepath(ap_id); if (devpath == NULL) { DPRINTF("cfga_change_state: get device path failed\n"); rv = CFGA_IB_UNCONFIG_OP_ERR; break; } if ((rv = ib_rcm_offline(ap_id, errstring, devpath, flags)) != CFGA_IB_OK) { S_FREE(devpath); break; } ret = devctl_ap_unconfigure(hdl, nvl); if (ret != 0) { DPRINTF("cfga_change_state: devctl_ap_unconfigure " "failed with errno: %d\n", errno); rv = CFGA_IB_UNCONFIG_OP_ERR; if (errno == EBUSY) { rv = CFGA_IB_BUSY_ERR; } (void) ib_rcm_online(ap_id, errstring, devpath, flags); } else { (void) ib_rcm_remove(ap_id, errstring, devpath, flags); } S_FREE(devpath); break; case CFGA_CMD_LOAD: case CFGA_CMD_UNLOAD: case CFGA_CMD_CONNECT: case CFGA_CMD_DISCONNECT: (void) cfga_help(msgp, options, flags); rv = CFGA_IB_OPNOTSUPP; break; case CFGA_CMD_NONE: default: (void) cfga_help(msgp, options, flags); rv = CFGA_IB_INTERNAL_ERR; } ib_cleanup_after_devctl_cmd(hdl, nvl); return (ib_err_msg(errstring, rv, ap_id, errno)); } /* * Function: * cfga_private_func * Input: * func - The private function (passed w/ -x option) * ap_id - The attachment point of an IB fabric * options - Private function command options passed * by the cfgadm(1M) * confp - Whether this command requires confirmation? * msgp - cfgadm error message for this plugin * errstring - This contains error msg if command fails * flags - Cfgadm(1m) flags * Output: * NONE * Returns: * If the command succeeded perform the 'cfgadm -x <func>'; otherwise * return failure. * Description: * Do cfgadm -x <func> */ /*ARGSUSED*/ cfga_err_t cfga_private_func(const char *func, const char *ap_id, const char *options, struct cfga_confirm *confp, struct cfga_msg *msgp, char **errstring, cfga_flags_t flags) { int len, ret, count = 0; char *clnt_name = NULL, *alt_hca = NULL; char *clnt_apid = NULL, *clnt_devpath = NULL; char *name, *msg = NULL; char *fab_apid = strstr((char *)ap_id, IBNEX_FABRIC); size_t info_len = 0; uchar_t *info = NULL; nvlist_t *nvl; nvpair_t *nvp = NULL; ap_rstate_t rstate; devctl_hdl_t hdl = NULL; cfga_ib_ret_t rv; if ((rv = ib_verify_params(ap_id, NULL, errstring)) != CFGA_IB_OK) { DPRINTF("cfga_private_func: ib_verify_params " "failed with rv: %d\n", rv); return (ib_err_msg(errstring, rv, ap_id, errno)); } if (func == NULL) { DPRINTF("cfga_private_func: func is NULL\n"); return (ib_err_msg(errstring, CFGA_IB_INVAL_ARG_ERR, ap_id, errno)); } /* * check first if IB static ap_id is "configured" for use */ if (fab_apid != NULL) { if ((rv = ib_setup_for_devctl_cmd(fab_apid, B_TRUE, &hdl, &nvl)) != CFGA_IB_OK) { ib_cleanup_after_devctl_cmd(hdl, nvl); return (ib_err_msg(errstring, rv, ap_id, errno)); } if ((rv = ib_device_configured(hdl, nvl, &rstate)) == CFGA_IB_NOT_CONFIGURED) { return (ib_err_msg(errstring, rv, ap_id, errno)); } ib_cleanup_after_devctl_cmd(hdl, nvl); } rv = CFGA_IB_OK; DPRINTF("cfga_private_func: func is %s\n", func); if (strcmp(func, IB_LIST_HCA_CLIENTS) == 0) { /* -x list_clients */ /* only supported on HCA ap_ids */ if (fab_apid != NULL) { DPRINTF("cfga_private_func: fabric apid supplied\n"); return (ib_err_msg(errstring, CFGA_IB_INVALID_OP_ERR, ap_id, errno)); } if ((msg = (char *)calloc(256, 1)) == NULL) { DPRINTF("cfga_private_func: malloc for msg failed. " "errno: %d\n", errno); return (ib_err_msg(errstring, CFGA_IB_ALLOC_FAIL, ap_id, errno)); } if ((rv = ib_do_control_ioctl((char *)ap_id, IBNEX_HCA_LIST_SZ, IBNEX_HCA_LIST_INFO, 0, (void **)&info, &info_len)) != 0) { DPRINTF("cfga_private_func: " "ib_do_control_ioctl list failed :%d\n", rv); S_FREE(msg); return (ib_err_msg(errstring, CFGA_IB_HCA_LIST_ERR, ap_id, errno)); } if (nvlist_unpack((char *)info, info_len, &nvl, 0)) { DPRINTF("cfga_private_func: " "nvlist_unpack 2 failed %p\n", info); S_FREE(info); S_FREE(msg); return (ib_err_msg(errstring, CFGA_IB_NVLIST_ERR, ap_id, errno)); } (void) snprintf(msg, 256, "Ap_Id\t\t\t IB Client\t\t " "Alternate HCA\n"); cfga_msg(msgp, msg); /* Walk the NVPAIR data */ while (nvp = nvlist_next_nvpair(nvl, nvp)) { name = nvpair_name(nvp); if (strcmp(name, "Client") == 0) { (void) nvpair_value_string(nvp, &clnt_name); ++count; } else if (strcmp(name, "Alt_HCA") == 0) { (void) nvpair_value_string(nvp, &alt_hca); ++count; } else if (strcmp(name, "ApID") == 0) { (void) nvpair_value_string(nvp, &clnt_apid); ++count; } /* check at the end; print message per client found */ if (count == 3) { count = 0; (void) snprintf(msg, 256, "%-30s %-25s %s\n", clnt_apid, clnt_name, alt_hca); cfga_msg(msgp, msg); } } /* end of while */ S_FREE(info); S_FREE(msg); nvlist_free(nvl); /* -x unconfig_clients */ } else if (strcmp(func, IB_UNCONFIG_HCA_CLIENTS) == 0) { /* * -x unconfig_clients changes state by calling into RCM. * It needs root privileges. */ if (geteuid() != 0) { return (ib_err_msg(errstring, CFGA_IB_PRIV_ERR, ap_id, errno)); } /* only supported on HCA ap_ids */ if (fab_apid != NULL) { DPRINTF("cfga_private_func: fabric apid supplied\n"); return (ib_err_msg(errstring, CFGA_IB_INVALID_OP_ERR, ap_id, errno)); } /* * Check w/ user if it is ok to do this operation * If the user fails to confirm, bailout */ if (!ib_confirm(confp, IB_CONFIRM3)) return (CFGA_NACK); /* Get device-paths of all the IOC/Port/Pseudo devices */ rv = ib_do_control_ioctl((char *)ap_id, IBNEX_UNCFG_CLNTS_SZ, IBNEX_UNCFG_CLNTS_INFO, 0, (void **)&info, &info_len); if (rv != 0) { DPRINTF("cfga_private_func: ib_do_control_ioctl " "failed :%d\n", rv); return (ib_err_msg(errstring, CFGA_IB_HCA_UNCONFIG_ERR, ap_id, errno)); } if (nvlist_unpack((char *)info, info_len, &nvl, 0)) { DPRINTF("cfga_private_func: nvlist_unpack failed %p\n", info); S_FREE(info); return (ib_err_msg(errstring, CFGA_IB_NVLIST_ERR, ap_id, errno)); } ret = 0; /* Call RCM Offline on all device paths */ while (nvp = nvlist_next_nvpair(nvl, nvp)) { name = nvpair_name(nvp); if (strcmp(name, "devpath") == 0) { (void) nvpair_value_string(nvp, &clnt_devpath); ++count; } else if (strcmp(name, "ApID") == 0) { (void) nvpair_value_string(nvp, &clnt_apid); ++count; } /* handle the client unconfigure now */ if (count == 2) { count = 0; /* reset count */ DPRINTF("cfga_private_func: client apid = %s, " "DevPath = %s\n", clnt_apid, clnt_devpath); if ((rv = ib_setup_for_devctl_cmd(clnt_apid, B_TRUE, &hdl, &nvl)) != CFGA_IB_OK) { ib_cleanup_after_devctl_cmd(hdl, nvl); return (ib_err_msg(errstring, rv, clnt_apid, errno)); } if ((rv = ib_device_configured(hdl, nvl, &rstate)) == CFGA_IB_NOT_CONFIGURED) continue; if ((rv = ib_rcm_offline(clnt_apid, errstring, clnt_devpath, flags)) != CFGA_IB_OK) { DPRINTF("cfga_private_func: client rcm " "offline failed for %s, with %d\n", clnt_devpath, rv); ret = rv; continue; } if (devctl_ap_unconfigure(hdl, nvl) != 0) { DPRINTF("cfga_private_func: client " "unconfigure failed: errno %d\n", errno); ret = CFGA_IB_UNCONFIG_OP_ERR; if (errno == EBUSY) ret = CFGA_IB_BUSY_ERR; (void) ib_rcm_online(clnt_apid, errstring, clnt_devpath, flags); continue; } else { (void) ib_rcm_remove(clnt_apid, errstring, clnt_devpath, flags); } ib_cleanup_after_devctl_cmd(hdl, nvl); } /* end of if count == 2 */ } /* end of while */ S_FREE(info); nvlist_free(nvl); if (ret) { DPRINTF("cfga_private_func: unconfig_clients of %s " "failed with %d\n", ap_id, ret); return (ib_err_msg(errstring, CFGA_IB_UCFG_CLNTS_ERR, ap_id, errno)); } /* -x update_pkey_tbls */ } else if (strcmp(func, IB_UPDATE_PKEY_TBLS) == 0) { /* * Check for root privileges. */ if (geteuid() != 0) { return (ib_err_msg(errstring, CFGA_IB_PRIV_ERR, ap_id, errno)); } /* CHECK: Only supported on fabric ap_ids */ if (fab_apid == NULL || strcmp(fab_apid, IBNEX_FABRIC) != 0) { DPRINTF("cfga_private_func: fabric apid needed\n"); return (ib_err_msg(errstring, CFGA_IB_INVALID_OP_ERR, ap_id, errno)); } /* Check w/ user if it is ok to do this operation */ len = strlen(IB_CONFIRM4) + 10; if ((msg = (char *)calloc(len, 1)) != NULL) { (void) snprintf(msg, len, "%s\nContinue", IB_CONFIRM4); } /* If the user fails to confirm, return */ if (!ib_confirm(confp, msg)) { free(msg); return (CFGA_NACK); } free(msg); /* Update P_Key tables for all ports of all HCAs */ rv = ib_do_control_ioctl((char *)ap_id, IBNEX_UPDATE_PKEY_TBLS, 0, 0, 0, &info_len); if (rv != 0) { DPRINTF("cfga_private_func: ib_do_control_ioctl " "failed :%d\n", rv); return (ib_err_msg(errstring, CFGA_IB_UPD_PKEY_TBLS_ERR, ap_id, errno)); } /* -x [add_service|delete_service] */ } else if ((strncmp(func, IB_ADD_SERVICE, 12) == 0) || (strncmp(func, IB_DELETE_SERVICE, 15) == 0)) { char *subopts, *val; uint8_t cmd; /* check: Only supported on fabric ap_ids */ if (fab_apid == NULL || strcmp(fab_apid, IBNEX_FABRIC) != 0) { DPRINTF("cfga_private_func: fabric apid needed\n"); return (ib_err_msg(errstring, CFGA_IB_INVALID_OP_ERR, ap_id, errno)); } /* Check for root privileges. */ if (geteuid() != 0) { return (ib_err_msg(errstring, CFGA_IB_PRIV_ERR, ap_id, errno)); } /* return error if no options are specified */ subopts = (char *)options; if (subopts == (char *)NULL) { DPRINTF("cfga_private_func: no sub-options\n"); (void) cfga_help(msgp, options, flags); return (ib_err_msg(errstring, CFGA_IB_INVAL_ARG_ERR, ap_id, errno)); } /* parse options specified */ while (*subopts != '\0') { switch (getsubopt(&subopts, ib_service_subopts, &val)) { case 0: /* comm */ if (val == NULL) { (void) cfga_help(msgp, options, flags); S_FREE(service_name); return (ib_err_msg(errstring, CFGA_IB_INVAL_ARG_ERR, ap_id, errno)); } else { comm_name = strdup(val); if (comm_name == NULL) { DPRINTF("comm sub-opt invalid " "arg\n"); S_FREE(service_name); return (ib_err_msg(errstring, CFGA_IB_COMM_INVAL_ERR, ap_id, errno)); } } break; case 1: /* service */ if (val == NULL) { (void) cfga_help(msgp, options, flags); S_FREE(comm_name); return (ib_err_msg(errstring, CFGA_IB_INVAL_ARG_ERR, ap_id, errno)); } else { /* service can be upto 4 long */ if (strlen(val) == 0 || strlen(val) > 4) { DPRINTF("comm sub-opt invalid " "service passed\n"); S_FREE(comm_name); return (ib_err_msg(errstring, CFGA_IB_SVC_LEN_ERR, ap_id, errno)); } service_name = strdup(val); if (service_name == NULL) { DPRINTF("comm sub-opt " "internal error\n"); S_FREE(comm_name); return (ib_err_msg(errstring, CFGA_IB_SVC_INVAL_ERR, ap_id, errno)); } } break; default: (void) cfga_help(msgp, options, flags); S_FREE(comm_name); S_FREE(service_name); return (ib_err_msg(errstring, CFGA_IB_INVAL_ARG_ERR, ap_id, errno)); } } /* figure out the "operation" */ if (strncasecmp(func, IB_ADD_SERVICE, 11) == 0) cmd = IBCONF_ADD_ENTRY; else if (strncasecmp(func, IB_DELETE_SERVICE, 14) == 0) cmd = IBCONF_DELETE_ENTRY; DPRINTF("Service = %s, Comm = %s, Operation = %s\n", service_name, comm_name, func); if (strncasecmp(comm_name, IBNEX_PORT_STR, 4) == 0) service_type = IB_PORT_SERVICE; else if (strncasecmp(comm_name, IBNEX_VPPA_STR, 4) == 0) service_type = IB_VPPA_SERVICE; else if (strncasecmp(comm_name, IBNEX_HCASVC_STR, 4) == 0) service_type = IB_HCASVC_SERVICE; else { (void) cfga_help(msgp, options, flags); S_FREE(comm_name); S_FREE(service_name); return (ib_err_msg(errstring, CFGA_IB_INVAL_ARG_ERR, ap_id, errno)); } /* do the add/delete entry to the service */ if (cmd == IBCONF_ADD_ENTRY) { if ((rv = ib_add_service(errstring)) != CFGA_IB_OK) DPRINTF("cfga_private_func: add failed\n"); } else if (cmd == IBCONF_DELETE_ENTRY) { if ((rv = ib_delete_service(errstring)) != CFGA_IB_OK) DPRINTF("cfga_private_func: delete failed\n"); } S_FREE(comm_name); S_FREE(service_name); return (ib_err_msg(errstring, rv, ap_id, errno)); } else if (strncmp(func, IB_LIST_SERVICES, 13) == 0) { /* check: Only supported on fabric ap_ids */ if (fab_apid == NULL || strcmp(fab_apid, IBNEX_FABRIC) != 0) { DPRINTF("cfga_private_func: fabric apid needed\n"); return (ib_err_msg(errstring, CFGA_IB_INVALID_OP_ERR, ap_id, errno)); } /* do the list services */ rv = ib_list_services(msgp, errstring); if (rv != CFGA_IB_OK) { DPRINTF("cfga_private_func: ib_list_services failed\n"); return (ib_err_msg(errstring, rv, ap_id, errno)); } /* -x update_ioc_conf */ } else if (strncmp(func, IB_UPDATE_IOC_CONF, 17) == 0) { uint_t misc_arg; /* Supported only with root privilege */ if (geteuid() != 0) { return (ib_err_msg(errstring, CFGA_IB_PRIV_ERR, ap_id, errno)); } /* * check: Only supported on fabric ap_id or IOC APID * IOC APID does not have any commas in it. */ if (fab_apid == NULL || (fab_apid != NULL && strstr(fab_apid, ",") != NULL)) { DPRINTF("cfga_private_func: fabric/IOC apid needed\n"); return (ib_err_msg(errstring, CFGA_IB_INVALID_OP_ERR, ap_id, errno)); } /* Check w/ user if it is ok to do this operation */ len = strlen(IB_CONFIRM5) + 10; if ((msg = (char *)calloc(len, 1)) != NULL) { (void) snprintf(msg, len, "%s\nContinue", IB_CONFIRM5); } /* If the user fails to confirm, return */ if (!ib_confirm(confp, msg)) { free(msg); return (CFGA_NACK); } free(msg); misc_arg = (strcmp(fab_apid, IBNEX_FABRIC) == 0) ? IBNEX_BASE_APID : IBNEX_DYN_APID; /* Reprobe and update IOC(s) configuration */ rv = ib_do_control_ioctl((char *)ap_id, IBNEX_UPDATE_IOC_CONF, 0, misc_arg, 0, &info_len); if (rv != 0) { DPRINTF("cfga_private_func: ib_do_control_ioctl " "failed :%d\n", rv); return (ib_err_msg(errstring, CFGA_IB_DEVCTL_ERR, ap_id, errno)); } } else { DPRINTF("cfga_private_func: unrecognized command.\n"); (void) cfga_help(msgp, options, flags); errno = EINVAL; return (CFGA_INVAL); } return (ib_err_msg(errstring, rv, ap_id, errno)); } /* * Function: * cfga_test * Input: * ap_id - The attachment point of an IB fabric * options - Test command options passed by the cfgadm(1M) * msgp - cfgadm error message for this plugin * errstring - This contains error msg if command fails * flags - Cfgadm(1m) flags * Output: * NONE * Returns: * CFGA_OPNOTSUPP * Description: * Do "cfgadm -t" */ /*ARGSUSED*/ cfga_err_t cfga_test(const char *ap_id, const char *options, struct cfga_msg *msgp, char **errstring, cfga_flags_t flags) { (void) cfga_help(msgp, options, flags); return (CFGA_OPNOTSUPP); } /* * Function: * ib_fill_static_apids * Input: * ap_id - The static attachment point of an IB device * clp - The returned "list" information array * Output: * NONE * Returns: * Fills up the "list" information array for the static attachment point * Description: * IB fabric supports two types of static attachment points. * One is fabric and other is for the HCAs. This fills up * "cfga_list_data_t" for static attachment points. */ static cfga_ib_ret_t ib_fill_static_apids(char *ap_id, cfga_list_data_t *clp) { int rv, l_err; char *ap_id_log = NULL; /* Get /dev/cfg path to corresponding to the physical ap_id */ /* Remember ap_id_log must be freed */ if (ib_physpath_to_devlink(ap_id, &ap_id_log, &l_err) != ICFGA_OK) { DPRINTF("ib_fill_static_apids: " "ib_physpath_to_devlink failed\n"); return (CFGA_IB_DEVLINK_ERR); } assert(ap_id_log != NULL); /* Get logical ap-id corresponding to the physical */ if (strstr(ap_id_log, CFGA_DEV_DIR) == NULL) { DPRINTF("ib_fill_static_apids: devlink doesn't contain " "/dev/cfg\n"); free(ap_id_log); return (CFGA_IB_DEVLINK_ERR); } clp->ap_cond = CFGA_COND_OK; clp->ap_r_state = CFGA_STAT_CONNECTED; clp->ap_o_state = CFGA_STAT_CONFIGURED; clp->ap_class[0] = '\0'; /* Filled by libcfgadm */ clp->ap_busy = 0; clp->ap_status_time = (time_t)-1; (void) snprintf(clp->ap_log_id, sizeof (clp->ap_log_id), "%s", /* Strip off /dev/cfg/ */ ap_id_log + strlen(CFGA_DEV_DIR) + 1); (void) strlcpy(clp->ap_phys_id, ap_id, sizeof (clp->ap_phys_id)); /* Static IB apid */ if (strstr((char *)ap_id, IB_FABRIC_APID_STR) != NULL) { (void) strlcpy(clp->ap_type, IB_FABRIC_TYPE, sizeof (clp->ap_type)); /* Fill in type */ (void) strlcpy(clp->ap_info, IB_FABRIC_INFO, sizeof (clp->ap_info)); } else { /* Static HCA apid */ size_t size = 0; uchar_t *data = NULL; (void) strlcpy(clp->ap_type, IB_HCA_TYPE, sizeof (clp->ap_type)); /* Fill in type */ rv = ib_do_control_ioctl(ap_id, IBNEX_HCA_VERBOSE_SZ, IBNEX_HCA_VERBOSE_INFO, 0, (void **)&data, &size); if (rv != 0) { DPRINTF("ib_fill_static_apids: ib_do_control_ioctl " "failed :%d\n", rv); free(ap_id_log); S_FREE(data); return (CFGA_IB_IOCTL_ERR); } (void) strlcpy(clp->ap_info, (char *)data, sizeof (clp->ap_info)); S_FREE(data); } free(ap_id_log); return (CFGA_IB_OK); } /* * Function: * cfga_list_ext * Input: * ap_id - The attachment point of an IB fabric * ap_id_list - The returned "list" information array * nlistp - Number of elements in the "list" information array * options - List command options passed by the cfgadm(1M) * listopts - "-s" specific options * errstring - This contains error msg if command fails * flags - Cfgadm(1m) flags * Output: * NONE * Returns: * If the command succeeded, cfgadm -l output otherwise an error * Description: * Do cfgadm -l */ /*ARGSUSED*/ cfga_err_t cfga_list_ext(const char *ap_id, cfga_list_data_t **ap_id_list, int *nlistp, const char *options, const char *listopts, char **errstring, cfga_flags_t flags) { int expand = 0; int i, index, count; int show_dynamic = 0; size_t num_devices = 0; size_t num_hcas = 0; size_t snap_size = 0; uchar_t *snap_data = NULL; nvpair_t *nvp = NULL; /* for lint purposes */ nvlist_t *nvl = NULL; boolean_t apid_matched = B_FALSE; /* for valid ap_id */ cfga_ib_ret_t rv = CFGA_IB_OK; cfga_list_data_t *clp = NULL; if ((rv = ib_verify_params(ap_id, options, errstring)) != CFGA_IB_OK) { (void) cfga_help(NULL, options, flags); return (ib_err_msg(errstring, rv, ap_id, errno)); } /* make sure we have a valid ap_id_list */ if (ap_id_list == NULL || nlistp == NULL) { DPRINTF("cfga_list_ext: list = NULL or nlistp = NULL\n"); (void) cfga_help(NULL, options, flags); return (ib_err_msg(errstring, CFGA_IB_INVAL_ARG_ERR, ap_id, errno)); } DPRINTF("cfga_list_ext: ap_id = %s\n", ap_id); if ((flags & CFGA_FLAG_LIST_ALL) == CFGA_FLAG_LIST_ALL) { expand = 1; /* -a flag passed */ } if (GET_DYN(ap_id) != NULL) { show_dynamic = 1; } if ((expand == 1) && /* -a option passed */ (strstr((char *)ap_id, IB_FABRIC_APID_STR) != NULL)) { /* * Figure out how many IOC/Port/Pseudo * devices exist in the system? */ if ((rv = ib_do_control_ioctl((char *)ap_id, IBNEX_NUM_DEVICE_NODES, 0, 0, 0, &num_devices)) != CFGA_IB_OK) { DPRINTF("cfga_list_ext: ib_do_control_ioctl " "IBNEX_NUM_DEVICE_NODES failed :%d\n", rv); if (errno == ENOENT) return (CFGA_APID_NOEXIST); return (ib_err_msg(errstring, rv, ap_id, errno)); } DPRINTF("cfga_list_ext: num_devices = %d\n", num_devices); } /* Figure out how many HCA nodes exist in the system. */ if ((rv = ib_do_control_ioctl((char *)ap_id, IBNEX_NUM_HCA_NODES, 0, 0, 0, &num_hcas)) != CFGA_IB_OK) { DPRINTF("cfga_list_ext: ib_do_control_ioctl " "IBNEX_NUM_HCA_NODES failed :%d\n", rv); if (errno == ENOENT) return (CFGA_APID_NOEXIST); return (ib_err_msg(errstring, rv, ap_id, errno)); } DPRINTF("cfga_list_ext: num_hcas = %d\n", num_hcas); /* * No HCAs or IOC/VPPA/Port/HCA_SVC/Pseudo devices seen (non-IB system) */ if (!(num_hcas || num_devices)) { DPRINTF("cfga_list_ext: no IB devices found\n"); return (CFGA_APID_NOEXIST); } /* * *nlistp contains to how many APIDs to show w/ cfgadm -l. * If ap_id is "fabric" then * *nlistp is all Dynamic Apids + One more for "fabric" * If ap_id is "HCA" ap_id then * *nlistp is 1 * Note that each HCA is a static APID, so nlistp will be 1 always * and this function will be called N times for each of the N HCAs * in the host. */ if (strstr((char *)ap_id, IB_FABRIC_APID_STR) != NULL) { *nlistp = num_devices + 1; } else { /* Assume it as a HCA ap_id */ *nlistp = 1; } /* Allocate storage for passing "list" info back */ if ((*ap_id_list = (cfga_list_data_t *)calloc(*nlistp, sizeof (cfga_list_data_t))) == NULL) { DPRINTF("cfga_list_ext: malloc for cfga_list_data_t failed. " "errno: %d\n", errno); return (ib_err_msg(errstring, CFGA_IB_ALLOC_FAIL, ap_id, errno)); } /* * Only static ap_id is ib_fabric: * If -a options isn't specified then only show the static ap_id. */ if (!show_dynamic) { clp = &(*ap_id_list[0]); if ((rv = ib_fill_static_apids((char *)ap_id, clp)) != CFGA_IB_OK) { S_FREE(*ap_id_list); return (ib_err_msg(errstring, rv, ap_id, errno)); } apid_matched = B_TRUE; } /* * No -a specified * No HCAs or IOC/VPPA/HCA_SVC/Port/Pseudo devices seen (non-IB system) */ if (!expand || (!num_hcas && !num_devices)) { if (!show_dynamic) return (CFGA_OK); } if (strstr((char *)ap_id, IB_FABRIC_APID_STR) != NULL) { rv = ib_do_control_ioctl((char *)ap_id, IBNEX_SNAPSHOT_SIZE, IBNEX_GET_SNAPSHOT, IBNEX_DONOT_PROBE_FLAG, (void **)&snap_data, &snap_size); if (rv != 0) { DPRINTF("cfga_list_ext: ib_do_control_ioctl " "failed :%d\n", rv); S_FREE(*ap_id_list); S_FREE(snap_data); return (ib_err_msg(errstring, rv, ap_id, errno)); } if (nvlist_unpack((char *)snap_data, snap_size, &nvl, 0)) { DPRINTF("cfga_list_ext: nvlist_unpack 1 failed %p\n", snap_data); S_FREE(*ap_id_list); S_FREE(snap_data); return (ib_err_msg(errstring, CFGA_IB_NVLIST_ERR, ap_id, errno)); } /* * In kernel a nvlist is build per ap_id which contains * information that is displayed using cfgadm -l. * For IB devices only these 6 items are shown: * ap_id, type, occupant, receptacle, condition and info * * In addition, one could specify a dynamic ap_id from * command-line. Then cfgadm -l should show only that * ap_id and skip rest. */ index = 1; count = 0; while (nvp = nvlist_next_nvpair(nvl, nvp)) { int32_t intval = 0; int32_t node_type; char *info; char *nv_apid; char *name = nvpair_name(nvp); /* start of with next device */ if (count == IB_NUM_NVPAIRS) { count = 0; ++index; } /* * Check if the index doesn't go beyond the * device number. If it goes, stop the loop * here not to cause the heap corruption. */ if (show_dynamic == 0 && index > num_devices) break; /* fill up data into "clp" */ clp = (show_dynamic != 0) ? &(*ap_id_list[0]) : &(ap_id_list[0][index]); /* First nvlist entry is "ap_id" always */ if (strcmp(name, IBNEX_NODE_APID_NVL) == 0) { (void) nvpair_value_string(nvp, &nv_apid); DPRINTF("cfga_list_ext: Name = %s, apid = %s\n", name, nv_apid); /* * If a dynamic ap_id is specified in the * command-line, skip all entries until * the one needed matches. */ if (show_dynamic && strstr(ap_id, nv_apid) == NULL) { DPRINTF("cfga_list_ext: NO MATCH\n"); /* * skip rest of the entries of this * device. */ for (i = 0; i < IB_NUM_NVPAIRS - 1; i++) nvp = nvlist_next_nvpair(nvl, nvp); count = 0; /* reset it */ continue; } apid_matched = B_TRUE; /* build the physical ap_id */ if (strstr(ap_id, DYN_SEP) == NULL) { (void) snprintf(clp->ap_phys_id, sizeof (clp->ap_phys_id), "%s%s%s", ap_id, DYN_SEP, nv_apid); } else { (void) snprintf(clp->ap_phys_id, sizeof (clp->ap_phys_id), "%s", ap_id); } /* ensure that this is a valid apid */ if (ib_verify_valid_apid(clp->ap_phys_id) != 0) { DPRINTF("cfga_list_ext: " "not a valid IB ap_id\n"); S_FREE(*ap_id_list); S_FREE(snap_data); nvlist_free(nvl); return (ib_err_msg(errstring, CFGA_IB_AP_ERR, ap_id, errno)); } /* build the logical ap_id */ (void) snprintf(clp->ap_log_id, sizeof (clp->ap_log_id), "ib%s%s", DYN_SEP, nv_apid); DPRINTF("cfga_list_ext: ap_pi = %s, ap_li = %s," "\nap_info = %s\n", clp->ap_phys_id, clp->ap_log_id, clp->ap_info); ++count; } else if (strcmp(name, IBNEX_NODE_INFO_NVL) == 0) { (void) nvpair_value_string(nvp, &info); DPRINTF("cfga_list_ext: Name = %s, info = %s\n", name, info); (void) snprintf(clp->ap_info, sizeof (clp->ap_info), "%s", info); ++count; } else if (strcmp(name, IBNEX_NODE_TYPE_NVL) == 0) { (void) nvpair_value_int32(nvp, &node_type); if (node_type == IBNEX_PORT_NODE_TYPE) { (void) snprintf(clp->ap_type, sizeof (clp->ap_type), "%s", IB_PORT_TYPE); } else if (node_type == IBNEX_VPPA_NODE_TYPE) { (void) snprintf(clp->ap_type, sizeof (clp->ap_type), "%s", IB_VPPA_TYPE); } else if (node_type == IBNEX_HCASVC_NODE_TYPE) { (void) snprintf(clp->ap_type, sizeof (clp->ap_type), "%s", IB_HCASVC_TYPE); } else if (node_type == IBNEX_IOC_NODE_TYPE) { (void) snprintf(clp->ap_type, sizeof (clp->ap_type), "%s", IB_IOC_TYPE); } else if (node_type == IBNEX_PSEUDO_NODE_TYPE) { (void) snprintf(clp->ap_type, sizeof (clp->ap_type), "%s", IB_PSEUDO_TYPE); } DPRINTF("cfga_list_ext: Name = %s, type = %x\n", name, intval); ++count; } else if (strcmp(name, IBNEX_NODE_RSTATE_NVL) == 0) { (void) nvpair_value_int32(nvp, &intval); if (intval == AP_RSTATE_EMPTY) clp->ap_r_state = CFGA_STAT_EMPTY; else if (intval == AP_RSTATE_DISCONNECTED) clp->ap_r_state = CFGA_STAT_DISCONNECTED; else if (intval == AP_RSTATE_CONNECTED) clp->ap_r_state = CFGA_STAT_CONNECTED; DPRINTF("cfga_list_ext: Name = %s, " "rstate = %x\n", name, intval); ++count; } else if (strcmp(name, IBNEX_NODE_OSTATE_NVL) == 0) { (void) nvpair_value_int32(nvp, &intval); if (intval == AP_OSTATE_CONFIGURED) clp->ap_o_state = CFGA_STAT_CONFIGURED; else if (intval == AP_OSTATE_UNCONFIGURED) clp->ap_o_state = CFGA_STAT_UNCONFIGURED; DPRINTF("cfga_list_ext: Name = %s, " "ostate = %x\n", name, intval); ++count; } else if (strcmp(name, IBNEX_NODE_COND_NVL) == 0) { (void) nvpair_value_int32(nvp, &intval); if (intval == AP_COND_OK) clp->ap_cond = CFGA_COND_OK; else if (intval == AP_COND_FAILING) clp->ap_cond = CFGA_COND_FAILING; else if (intval == AP_COND_FAILED) clp->ap_cond = CFGA_COND_FAILED; else if (intval == AP_COND_UNUSABLE) clp->ap_cond = CFGA_COND_UNUSABLE; else if (intval == AP_COND_UNKNOWN) clp->ap_cond = CFGA_COND_UNKNOWN; DPRINTF("cfga_list_ext: Name = %s, " "condition = %x\n", name, intval); ++count; } clp->ap_class[0] = '\0'; /* Filled by libcfgadm */ clp->ap_busy = 0; clp->ap_status_time = (time_t)-1; } /* end of while */ } S_FREE(snap_data); if (nvl) nvlist_free(nvl); /* * if a cmdline specified ap_id doesn't match the known list of ap_ids * then report an error right away */ rv = (apid_matched == B_TRUE) ? CFGA_IB_OK : CFGA_IB_AP_ERR; return (ib_err_msg(errstring, rv, ap_id, errno)); } /* * Function: * cfga_msg * Input: * msgp - cfgadm error message for this plugin * str - string to be passed on to the message * Output: * NONE * Returns: * NONE * Description: * This routine accepts a variable number of message IDs and * constructs a corresponding error string which is printed * via the message print routine argument. */ void cfga_msg(struct cfga_msg *msgp, const char *str) { int len; char *q; if (msgp == NULL || msgp->message_routine == NULL) { DPRINTF("cfga_msg: msg\n"); return; } if ((len = strlen(str)) == 0) { DPRINTF("cfga_msg: null str\n"); return; } if ((q = (char *)calloc(len + 1, 1)) == NULL) { DPRINTF("cfga_msg: null q\n"); return; } (void) strlcpy(q, str, len + 1); (*msgp->message_routine)(msgp->appdata_ptr, q); free(q); } /* * Function: * cfga_help * Input: * msgp - Help message passed on to cfgadm(1M) * options - Help message options passed on to cfgadm(1M) * flags - Cfgadm(1m) flags * Output: * NONE * Returns: * Were we able to print cfgadm help or not for this plugin * Description: * Print cfgadm help for this plugin */ /* ARGSUSED */ cfga_err_t cfga_help(struct cfga_msg *msgp, const char *options, cfga_flags_t flags) { DPRINTF("cfga_help:\n"); if (options) { cfga_msg(msgp, dgettext(TEXT_DOMAIN, ib_help[ CFGA_IB_HELP_UNKNOWN])); cfga_msg(msgp, options); } /* Print messages array */ cfga_msg(msgp, dgettext(TEXT_DOMAIN, ib_help[CFGA_IB_HELP_HEADER])); cfga_msg(msgp, ib_help[CFGA_IB_HELP_CONFIG]); cfga_msg(msgp, ib_help[CFGA_IB_HELP_LIST]); cfga_msg(msgp, ib_help[CFGA_IB_HELP_UPD_PKEY]); cfga_msg(msgp, ib_help[CFGA_IB_HELP_CONF_FILE1]); cfga_msg(msgp, ib_help[CFGA_IB_HELP_CONF_FILE2]); cfga_msg(msgp, ib_help[CFGA_IB_HELP_UPD_IOC_CONF]); cfga_msg(msgp, ib_help[CFGA_IB_HELP_UNCFG_CLNTS]); return (CFGA_OK); } /* * Function: * ib_confirm * Input: * confp - The "cfga" structure that confirms a cfgadm query * msg - The message that needs confirmation * Output: * None * Returns: * If a user entered YES or NO * Description: * Queries a user if it is ok to proceed with an operation or not. * Returns user's response. */ static int ib_confirm(struct cfga_confirm *confp, char *msg) { int rval; /* check that "confirm" function exists */ if (confp == NULL || confp->confirm == NULL) { return (0); } /* Call cfgadm provided "confirm" function */ rval = (*confp->confirm)(confp->appdata_ptr, msg); DPRINTF("ib_confirm: %d\n", rval); return (rval); } /* * Function: * ib_get_devicepath * Input: * ap_id - The dynamic attachment point of an IB device * Output: * None * Returns: * devpath if it exists; otherwise NULL * Description: * Returns the devicepath for a dynamic attachment point of an IB device */ static char * ib_get_devicepath(const char *ap_id) { char *devpath = NULL; size_t size; /* Get device path sizes */ if (ib_do_control_ioctl((char *)ap_id, IBNEX_DEVICE_PATH_SZ, IBNEX_GET_DEVICE_PATH, 0, (void **)&devpath, &size) == CFGA_IB_OK) { DPRINTF("ib_get_devicepath: get device path ioctl ok\n"); return (devpath); } else { DPRINTF("ib_get_devicepath: get device path ioctl failed\n"); return ((char *)NULL); } }