/* * 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 (c) 2004, 2010, Oracle and/or its affiliates. All rights reserved. */ #include "libscf_impl.h" #include #include #include #include #include #include #include #include #include #include "midlevel_impl.h" #include "lowlevel_impl.h" #ifndef NDEBUG #define bad_error(func, err) { \ uu_warn("%s:%d: %s failed with unexpected error %d. Aborting.\n", \ __FILE__, __LINE__, func, err); \ abort(); \ } #else #define bad_error(func, err) abort() #endif /* Path to speedy files area must end with a slash */ #define SMF_SPEEDY_FILES_PATH "/etc/svc/volatile/" void scf_simple_handle_destroy(scf_simple_handle_t *simple_h) { if (simple_h == NULL) return; scf_pg_destroy(simple_h->running_pg); scf_pg_destroy(simple_h->editing_pg); scf_snapshot_destroy(simple_h->snap); scf_instance_destroy(simple_h->inst); scf_handle_destroy(simple_h->h); uu_free(simple_h); } /* * Given a base service FMRI and the names of a property group and property, * assemble_fmri() merges them into a property FMRI. Note that if the base * FMRI is NULL, assemble_fmri() gets the base FMRI from scf_myname(). */ static char * assemble_fmri(scf_handle_t *h, const char *base, const char *pg, const char *prop) { size_t fmri_sz, pglen; ssize_t baselen; char *fmri_buf; if (prop == NULL) { (void) scf_set_error(SCF_ERROR_INVALID_ARGUMENT); return (NULL); } if (pg == NULL) pglen = strlen(SCF_PG_APP_DEFAULT); else pglen = strlen(pg); if (base == NULL) { if ((baselen = scf_myname(h, NULL, 0)) == -1) return (NULL); } else { baselen = strlen(base); } fmri_sz = baselen + sizeof (SCF_FMRI_PROPERTYGRP_PREFIX) - 1 + pglen + sizeof (SCF_FMRI_PROPERTY_PREFIX) - 1 + strlen(prop) + 1; if ((fmri_buf = malloc(fmri_sz)) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); return (NULL); } if (base == NULL) { if (scf_myname(h, fmri_buf, fmri_sz) == -1) { free(fmri_buf); return (NULL); } } else { (void) strcpy(fmri_buf, base); } (void) strcat(fmri_buf, SCF_FMRI_PROPERTYGRP_PREFIX); if (pg == NULL) (void) strcat(fmri_buf, SCF_PG_APP_DEFAULT); else (void) strcat(fmri_buf, pg); (void) strcat(fmri_buf, SCF_FMRI_PROPERTY_PREFIX); (void) strcat(fmri_buf, prop); return (fmri_buf); } /* * Given a property, this function allocates and fills an scf_simple_prop_t * with the data it contains. */ static scf_simple_prop_t * fill_prop(scf_property_t *prop, const char *pgname, const char *propname, scf_handle_t *h) { scf_simple_prop_t *ret; scf_iter_t *iter; scf_value_t *val; int iterret, i; ssize_t valsize, numvals; union scf_simple_prop_val *vallist = NULL, *vallist_backup = NULL; if ((ret = malloc(sizeof (*ret))) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); return (NULL); } ret->pr_next = NULL; ret->pr_pg = NULL; ret->pr_iter = 0; if (pgname == NULL) ret->pr_pgname = strdup(SCF_PG_APP_DEFAULT); else ret->pr_pgname = strdup(pgname); if (ret->pr_pgname == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); free(ret); return (NULL); } if ((ret->pr_propname = strdup(propname)) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); free(ret->pr_pgname); free(ret); return (NULL); } if (scf_property_type(prop, &ret->pr_type) == -1) goto error3; if ((iter = scf_iter_create(h)) == NULL) goto error3; if ((val = scf_value_create(h)) == NULL) { scf_iter_destroy(iter); goto error3; } if (scf_iter_property_values(iter, prop) == -1) goto error1; for (numvals = 0; (iterret = scf_iter_next_value(iter, val)) == 1; numvals++) { vallist_backup = vallist; if ((vallist = realloc(vallist, (numvals + 1) * sizeof (*vallist))) == NULL) { vallist = vallist_backup; goto error1; } switch (ret->pr_type) { case SCF_TYPE_BOOLEAN: if (scf_value_get_boolean(val, &vallist[numvals].pv_bool) == -1) goto error1; break; case SCF_TYPE_COUNT: if (scf_value_get_count(val, &vallist[numvals].pv_uint) == -1) goto error1; break; case SCF_TYPE_INTEGER: if (scf_value_get_integer(val, &vallist[numvals].pv_int) == -1) goto error1; break; case SCF_TYPE_TIME: if (scf_value_get_time(val, &vallist[numvals].pv_time.t_sec, &vallist[numvals].pv_time.t_nsec) == -1) goto error1; break; case SCF_TYPE_ASTRING: vallist[numvals].pv_str = NULL; if ((valsize = scf_value_get_astring(val, NULL, 0)) == -1) goto error1; if ((vallist[numvals].pv_str = malloc(valsize+1)) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); goto error1; } if (scf_value_get_astring(val, vallist[numvals].pv_str, valsize+1) == -1) { free(vallist[numvals].pv_str); goto error1; } break; case SCF_TYPE_USTRING: case SCF_TYPE_HOST: case SCF_TYPE_HOSTNAME: case SCF_TYPE_NET_ADDR: case SCF_TYPE_NET_ADDR_V4: case SCF_TYPE_NET_ADDR_V6: case SCF_TYPE_URI: case SCF_TYPE_FMRI: vallist[numvals].pv_str = NULL; if ((valsize = scf_value_get_ustring(val, NULL, 0)) == -1) goto error1; if ((vallist[numvals].pv_str = malloc(valsize+1)) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); goto error1; } if (scf_value_get_ustring(val, vallist[numvals].pv_str, valsize+1) == -1) { free(vallist[numvals].pv_str); goto error1; } break; case SCF_TYPE_OPAQUE: vallist[numvals].pv_opaque.o_value = NULL; if ((valsize = scf_value_get_opaque(val, NULL, 0)) == -1) goto error1; if ((vallist[numvals].pv_opaque.o_value = malloc(valsize)) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); goto error1; } vallist[numvals].pv_opaque.o_size = valsize; if (scf_value_get_opaque(val, vallist[numvals].pv_opaque.o_value, valsize) == -1) { free(vallist[numvals].pv_opaque.o_value); goto error1; } break; default: (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } } if (iterret == -1) { int err = scf_error(); if (err != SCF_ERROR_CONNECTION_BROKEN && err != SCF_ERROR_PERMISSION_DENIED) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } ret->pr_vallist = vallist; ret->pr_numvalues = numvals; scf_iter_destroy(iter); (void) scf_value_destroy(val); return (ret); /* * Exit point for a successful call. Below this line are exit points * for failures at various stages during the function. */ error1: if (vallist == NULL) goto error2; switch (ret->pr_type) { case SCF_TYPE_ASTRING: case SCF_TYPE_USTRING: case SCF_TYPE_HOST: case SCF_TYPE_HOSTNAME: case SCF_TYPE_NET_ADDR: case SCF_TYPE_NET_ADDR_V4: case SCF_TYPE_NET_ADDR_V6: case SCF_TYPE_URI: case SCF_TYPE_FMRI: { for (i = 0; i < numvals; i++) { free(vallist[i].pv_str); } break; } case SCF_TYPE_OPAQUE: { for (i = 0; i < numvals; i++) { free(vallist[i].pv_opaque.o_value); } break; } default: break; } free(vallist); error2: scf_iter_destroy(iter); (void) scf_value_destroy(val); error3: free(ret->pr_pgname); free(ret->pr_propname); free(ret); return (NULL); } /* * insert_app_props iterates over a property iterator, getting all the * properties from a property group, and adding or overwriting them into * a simple_app_props_t. This is used by scf_simple_app_props_get to provide * service/instance composition while filling the app_props_t. * insert_app_props iterates over a single property group. */ static int insert_app_props(scf_iter_t *propiter, char *pgname, char *propname, struct scf_simple_pg *thispg, scf_property_t *prop, size_t namelen, scf_handle_t *h) { scf_simple_prop_t *thisprop, *prevprop, *newprop; uint8_t found; int propiter_ret; while ((propiter_ret = scf_iter_next_property(propiter, prop)) == 1) { if (scf_property_get_name(prop, propname, namelen) < 0) { if (scf_error() == SCF_ERROR_NOT_SET) (void) scf_set_error(SCF_ERROR_INTERNAL); return (-1); } thisprop = thispg->pg_proplist; prevprop = thispg->pg_proplist; found = 0; while ((thisprop != NULL) && (!found)) { if (strcmp(thisprop->pr_propname, propname) == 0) { found = 1; if ((newprop = fill_prop(prop, pgname, propname, h)) == NULL) return (-1); if (thisprop == thispg->pg_proplist) thispg->pg_proplist = newprop; else prevprop->pr_next = newprop; newprop->pr_pg = thispg; newprop->pr_next = thisprop->pr_next; scf_simple_prop_free(thisprop); thisprop = NULL; } else { if (thisprop != thispg->pg_proplist) prevprop = prevprop->pr_next; thisprop = thisprop->pr_next; } } if (!found) { if ((newprop = fill_prop(prop, pgname, propname, h)) == NULL) return (-1); if (thispg->pg_proplist == NULL) thispg->pg_proplist = newprop; else prevprop->pr_next = newprop; newprop->pr_pg = thispg; } } if (propiter_ret == -1) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error(SCF_ERROR_INTERNAL); return (-1); } return (0); } /* * Sets up e in tx to set pname's values. Returns 0 on success or -1 on * failure, with scf_error() set to * SCF_ERROR_HANDLE_MISMATCH - tx & e are derived from different handles * SCF_ERROR_INVALID_ARGUMENT - pname or ty are invalid * SCF_ERROR_NOT_BOUND - handle is not bound * SCF_ERROR_CONNECTION_BROKEN - connection was broken * SCF_ERROR_NOT_SET - tx has not been started * SCF_ERROR_DELETED - the pg tx was started on was deleted */ static int transaction_property_set(scf_transaction_t *tx, scf_transaction_entry_t *e, const char *pname, scf_type_t ty) { for (;;) { if (scf_transaction_property_change_type(tx, e, pname, ty) == 0) return (0); switch (scf_error()) { case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_INVALID_ARGUMENT: case SCF_ERROR_NOT_BOUND: case SCF_ERROR_CONNECTION_BROKEN: case SCF_ERROR_NOT_SET: case SCF_ERROR_DELETED: default: return (-1); case SCF_ERROR_NOT_FOUND: break; } if (scf_transaction_property_new(tx, e, pname, ty) == 0) return (0); switch (scf_error()) { case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_INVALID_ARGUMENT: case SCF_ERROR_NOT_BOUND: case SCF_ERROR_CONNECTION_BROKEN: case SCF_ERROR_NOT_SET: case SCF_ERROR_DELETED: default: return (-1); case SCF_ERROR_EXISTS: break; } } } static int get_inst_enabled(const scf_instance_t *inst, const char *pgname) { scf_propertygroup_t *gpg = NULL; scf_property_t *eprop = NULL; scf_value_t *v = NULL; scf_handle_t *h = NULL; uint8_t enabled; int ret = -1; if ((h = scf_instance_handle(inst)) == NULL) return (-1); if ((gpg = scf_pg_create(h)) == NULL || (eprop = scf_property_create(h)) == NULL || (v = scf_value_create(h)) == NULL) goto out; if (scf_instance_get_pg(inst, pgname, gpg) || scf_pg_get_property(gpg, SCF_PROPERTY_ENABLED, eprop) || scf_property_get_value(eprop, v) || scf_value_get_boolean(v, &enabled)) goto out; ret = enabled; out: scf_pg_destroy(gpg); scf_property_destroy(eprop); scf_value_destroy(v); return (ret); } /* * set_inst_enabled() is a "master" enable/disable call that takes the * instance and the desired state for the enabled bit in the instance's * named property group. If the group doesn't exist, it's created with the * given flags. Called by smf_{dis,en}able_instance(). */ static int set_inst_enabled(const scf_instance_t *inst, uint8_t desired, const char *pgname, uint32_t pgflags) { scf_transaction_t *tx = NULL; scf_transaction_entry_t *ent = NULL; scf_propertygroup_t *gpg = NULL; scf_property_t *eprop = NULL; scf_value_t *v = NULL; scf_handle_t *h = NULL; int ret = -1; int committed; uint8_t b; if ((h = scf_instance_handle(inst)) == NULL) return (-1); if ((gpg = scf_pg_create(h)) == NULL || (eprop = scf_property_create(h)) == NULL || (v = scf_value_create(h)) == NULL || (tx = scf_transaction_create(h)) == NULL || (ent = scf_entry_create(h)) == NULL) goto out; general_pg_get: if (scf_instance_get_pg(inst, SCF_PG_GENERAL, gpg) == -1) { if (scf_error() != SCF_ERROR_NOT_FOUND) goto out; if (scf_instance_add_pg(inst, SCF_PG_GENERAL, SCF_GROUP_FRAMEWORK, SCF_PG_GENERAL_FLAGS, gpg) == -1) { if (scf_error() != SCF_ERROR_EXISTS) goto out; goto general_pg_get; } } if (strcmp(pgname, SCF_PG_GENERAL) != 0) { get: if (scf_instance_get_pg(inst, pgname, gpg) == -1) { if (scf_error() != SCF_ERROR_NOT_FOUND) goto out; if (scf_instance_add_pg(inst, pgname, SCF_GROUP_FRAMEWORK, pgflags, gpg) == -1) { if (scf_error() != SCF_ERROR_EXISTS) goto out; goto get; } } } if (scf_pg_get_property(gpg, SCF_PROPERTY_ENABLED, eprop) == -1) { if (scf_error() != SCF_ERROR_NOT_FOUND) goto out; else goto set; } /* * If it's already set the way we want, forgo the transaction. */ if (scf_property_get_value(eprop, v) == -1) { switch (scf_error()) { case SCF_ERROR_CONSTRAINT_VIOLATED: case SCF_ERROR_NOT_FOUND: /* Misconfigured, so set anyway. */ goto set; default: goto out; } } if (scf_value_get_boolean(v, &b) == -1) { if (scf_error() != SCF_ERROR_TYPE_MISMATCH) goto out; goto set; } if (b == desired) { ret = 0; goto out; } set: do { if (scf_transaction_start(tx, gpg) == -1) goto out; if (transaction_property_set(tx, ent, SCF_PROPERTY_ENABLED, SCF_TYPE_BOOLEAN) != 0) { switch (scf_error()) { case SCF_ERROR_CONNECTION_BROKEN: case SCF_ERROR_DELETED: default: goto out; case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_INVALID_ARGUMENT: case SCF_ERROR_NOT_BOUND: case SCF_ERROR_NOT_SET: bad_error("transaction_property_set", scf_error()); } } scf_value_set_boolean(v, desired); if (scf_entry_add_value(ent, v) == -1) goto out; committed = scf_transaction_commit(tx); if (committed == -1) goto out; scf_transaction_reset(tx); if (committed == 0) { /* out-of-sync */ if (scf_pg_update(gpg) == -1) goto out; } } while (committed == 0); ret = 0; out: scf_value_destroy(v); scf_entry_destroy(ent); scf_transaction_destroy(tx); scf_property_destroy(eprop); scf_pg_destroy(gpg); return (ret); } static int delete_inst_enabled(const scf_instance_t *inst, const char *pgname) { scf_transaction_t *tx = NULL; scf_transaction_entry_t *ent = NULL; scf_propertygroup_t *gpg = NULL; scf_handle_t *h = NULL; int ret = -1; int committed; if ((h = scf_instance_handle(inst)) == NULL) return (-1); if ((gpg = scf_pg_create(h)) == NULL || (tx = scf_transaction_create(h)) == NULL || (ent = scf_entry_create(h)) == NULL) goto out; if (scf_instance_get_pg(inst, pgname, gpg) != 0) goto error; do { if (scf_transaction_start(tx, gpg) == -1 || scf_transaction_property_delete(tx, ent, SCF_PROPERTY_ENABLED) == -1 || (committed = scf_transaction_commit(tx)) == -1) goto error; scf_transaction_reset(tx); if (committed == 0 && scf_pg_update(gpg) == -1) goto error; } while (committed == 0); ret = 0; goto out; error: switch (scf_error()) { case SCF_ERROR_DELETED: case SCF_ERROR_NOT_FOUND: /* success */ ret = 0; } out: scf_entry_destroy(ent); scf_transaction_destroy(tx); scf_pg_destroy(gpg); return (ret); } /* * Returns 0 on success or -1 on failure. On failure leaves scf_error() set to * SCF_ERROR_HANDLE_DESTROYED - inst's handle has been destroyed * SCF_ERROR_NOT_BOUND - inst's handle is not bound * SCF_ERROR_CONNECTION_BROKEN - the repository connection was broken * SCF_ERROR_NOT_SET - inst is not set * SCF_ERROR_DELETED - inst was deleted * SCF_ERROR_PERMISSION_DENIED * SCF_ERROR_BACKEND_ACCESS * SCF_ERROR_BACKEND_READONLY */ static int set_inst_action_inst(scf_instance_t *inst, const char *action) { scf_handle_t *h; scf_transaction_t *tx = NULL; scf_transaction_entry_t *ent = NULL; scf_propertygroup_t *pg = NULL; scf_property_t *prop = NULL; scf_value_t *v = NULL; int trans, ret = -1; int64_t t; hrtime_t timestamp; if ((h = scf_instance_handle(inst)) == NULL || (pg = scf_pg_create(h)) == NULL || (prop = scf_property_create(h)) == NULL || (v = scf_value_create(h)) == NULL || (tx = scf_transaction_create(h)) == NULL || (ent = scf_entry_create(h)) == NULL) goto out; get: if (scf_instance_get_pg(inst, SCF_PG_RESTARTER_ACTIONS, pg) == -1) { switch (scf_error()) { case SCF_ERROR_NOT_BOUND: case SCF_ERROR_CONNECTION_BROKEN: case SCF_ERROR_NOT_SET: case SCF_ERROR_DELETED: default: goto out; case SCF_ERROR_NOT_FOUND: break; case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_INVALID_ARGUMENT: bad_error("scf_instance_get_pg", scf_error()); } /* Try creating the restarter_actions property group. */ add: if (scf_instance_add_pg(inst, SCF_PG_RESTARTER_ACTIONS, SCF_PG_RESTARTER_ACTIONS_TYPE, SCF_PG_RESTARTER_ACTIONS_FLAGS, pg) == -1) { switch (scf_error()) { case SCF_ERROR_NOT_BOUND: case SCF_ERROR_CONNECTION_BROKEN: case SCF_ERROR_NOT_SET: case SCF_ERROR_DELETED: case SCF_ERROR_PERMISSION_DENIED: case SCF_ERROR_BACKEND_ACCESS: case SCF_ERROR_BACKEND_READONLY: default: goto out; case SCF_ERROR_EXISTS: goto get; case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_INVALID_ARGUMENT: bad_error("scf_instance_add_pg", scf_error()); } } } for (;;) { timestamp = gethrtime(); if (scf_pg_get_property(pg, action, prop) != 0) { switch (scf_error()) { case SCF_ERROR_CONNECTION_BROKEN: default: goto out; case SCF_ERROR_DELETED: goto add; case SCF_ERROR_NOT_FOUND: break; case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_INVALID_ARGUMENT: case SCF_ERROR_NOT_BOUND: case SCF_ERROR_NOT_SET: bad_error("scf_pg_get_property", scf_error()); } } else if (scf_property_get_value(prop, v) != 0) { switch (scf_error()) { case SCF_ERROR_CONNECTION_BROKEN: default: goto out; case SCF_ERROR_DELETED: goto add; case SCF_ERROR_CONSTRAINT_VIOLATED: case SCF_ERROR_NOT_FOUND: break; case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_NOT_BOUND: case SCF_ERROR_NOT_SET: bad_error("scf_property_get_value", scf_error()); } } else if (scf_value_get_integer(v, &t) != 0) { bad_error("scf_value_get_integer", scf_error()); } else if (t > timestamp) { break; } if (scf_transaction_start(tx, pg) == -1) { switch (scf_error()) { case SCF_ERROR_NOT_BOUND: case SCF_ERROR_CONNECTION_BROKEN: case SCF_ERROR_PERMISSION_DENIED: case SCF_ERROR_BACKEND_ACCESS: case SCF_ERROR_BACKEND_READONLY: default: goto out; case SCF_ERROR_DELETED: goto add; case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_NOT_SET: case SCF_ERROR_IN_USE: bad_error("scf_transaction_start", scf_error()); } } if (transaction_property_set(tx, ent, action, SCF_TYPE_INTEGER) != 0) { switch (scf_error()) { case SCF_ERROR_NOT_BOUND: case SCF_ERROR_CONNECTION_BROKEN: case SCF_ERROR_DELETED: default: goto out; case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_INVALID_ARGUMENT: case SCF_ERROR_NOT_SET: bad_error("transaction_property_set", scf_error()); } } scf_value_set_integer(v, timestamp); if (scf_entry_add_value(ent, v) == -1) bad_error("scf_entry_add_value", scf_error()); trans = scf_transaction_commit(tx); if (trans == 1) break; if (trans != 0) { switch (scf_error()) { case SCF_ERROR_CONNECTION_BROKEN: case SCF_ERROR_PERMISSION_DENIED: case SCF_ERROR_BACKEND_ACCESS: case SCF_ERROR_BACKEND_READONLY: default: goto out; case SCF_ERROR_DELETED: scf_transaction_reset(tx); goto add; case SCF_ERROR_INVALID_ARGUMENT: case SCF_ERROR_NOT_BOUND: case SCF_ERROR_NOT_SET: bad_error("scf_transaction_commit", scf_error()); } } scf_transaction_reset(tx); if (scf_pg_update(pg) == -1) { switch (scf_error()) { case SCF_ERROR_CONNECTION_BROKEN: default: goto out; case SCF_ERROR_DELETED: goto add; case SCF_ERROR_NOT_SET: case SCF_ERROR_NOT_BOUND: bad_error("scf_pg_update", scf_error()); } } } ret = 0; out: scf_value_destroy(v); scf_entry_destroy(ent); scf_transaction_destroy(tx); scf_property_destroy(prop); scf_pg_destroy(pg); return (ret); } static int set_inst_action(const char *fmri, const char *action) { scf_handle_t *h; scf_instance_t *inst; int ret = -1; h = _scf_handle_create_and_bind(SCF_VERSION); if (h == NULL) return (-1); inst = scf_instance_create(h); if (inst != NULL) { if (scf_handle_decode_fmri(h, fmri, NULL, NULL, inst, NULL, NULL, SCF_DECODE_FMRI_EXACT) == 0) { ret = set_inst_action_inst(inst, action); if (ret == -1 && scf_error() == SCF_ERROR_DELETED) (void) scf_set_error(SCF_ERROR_NOT_FOUND); } else { switch (scf_error()) { case SCF_ERROR_CONSTRAINT_VIOLATED: (void) scf_set_error( SCF_ERROR_INVALID_ARGUMENT); break; case SCF_ERROR_DELETED: (void) scf_set_error(SCF_ERROR_NOT_FOUND); break; } } scf_instance_destroy(inst); } scf_handle_destroy(h); return (ret); } /* * get_inst_state() gets the state string from an instance, and returns * the SCF_STATE_* constant that coincides with the instance's current state. */ static int get_inst_state(scf_instance_t *inst, scf_handle_t *h) { scf_propertygroup_t *pg = NULL; scf_property_t *prop = NULL; scf_value_t *val = NULL; char state[MAX_SCF_STATE_STRING_SZ]; int ret = -1; if (((pg = scf_pg_create(h)) == NULL) || ((prop = scf_property_create(h)) == NULL) || ((val = scf_value_create(h)) == NULL)) goto out; /* Pull the state property from the instance */ if (scf_instance_get_pg(inst, SCF_PG_RESTARTER, pg) == -1 || scf_pg_get_property(pg, SCF_PROPERTY_STATE, prop) == -1 || scf_property_get_value(prop, val) == -1) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error(SCF_ERROR_INTERNAL); goto out; } if (scf_value_get_astring(val, state, sizeof (state)) <= 0) { (void) scf_set_error(SCF_ERROR_INTERNAL); goto out; } if (strcmp(state, SCF_STATE_STRING_UNINIT) == 0) { ret = SCF_STATE_UNINIT; } else if (strcmp(state, SCF_STATE_STRING_MAINT) == 0) { ret = SCF_STATE_MAINT; } else if (strcmp(state, SCF_STATE_STRING_OFFLINE) == 0) { ret = SCF_STATE_OFFLINE; } else if (strcmp(state, SCF_STATE_STRING_DISABLED) == 0) { ret = SCF_STATE_DISABLED; } else if (strcmp(state, SCF_STATE_STRING_ONLINE) == 0) { ret = SCF_STATE_ONLINE; } else if (strcmp(state, SCF_STATE_STRING_DEGRADED) == 0) { ret = SCF_STATE_DEGRADED; } out: scf_pg_destroy(pg); scf_property_destroy(prop); (void) scf_value_destroy(val); return (ret); } /* * Sets an instance to be enabled or disabled after reboot, using the * temporary (overriding) general_ovr property group to reflect the * present state, if it is different. */ static int set_inst_enabled_atboot(scf_instance_t *inst, uint8_t desired) { int enabled; int persistent; int ret = -1; if ((persistent = get_inst_enabled(inst, SCF_PG_GENERAL)) < 0) { if (scf_error() != SCF_ERROR_NOT_FOUND) goto out; persistent = B_FALSE; } if ((enabled = get_inst_enabled(inst, SCF_PG_GENERAL_OVR)) < 0) { enabled = persistent; if (persistent != desired) { /* * Temporarily store the present enabled state. */ if (set_inst_enabled(inst, persistent, SCF_PG_GENERAL_OVR, SCF_PG_GENERAL_OVR_FLAGS)) goto out; } } if (persistent != desired) if (set_inst_enabled(inst, desired, SCF_PG_GENERAL, SCF_PG_GENERAL_FLAGS)) goto out; if (enabled == desired) ret = delete_inst_enabled(inst, SCF_PG_GENERAL_OVR); else ret = 0; out: return (ret); } static int set_inst_enabled_flags(const char *fmri, int flags, uint8_t desired) { int ret = -1; scf_handle_t *h; scf_instance_t *inst; if (flags & ~(SMF_TEMPORARY | SMF_AT_NEXT_BOOT) || flags & SMF_TEMPORARY && flags & SMF_AT_NEXT_BOOT) { (void) scf_set_error(SCF_ERROR_INVALID_ARGUMENT); return (ret); } if ((h = _scf_handle_create_and_bind(SCF_VERSION)) == NULL) return (ret); if ((inst = scf_instance_create(h)) == NULL) { scf_handle_destroy(h); return (ret); } if (scf_handle_decode_fmri(h, fmri, NULL, NULL, inst, NULL, NULL, SCF_DECODE_FMRI_EXACT) == -1) { if (scf_error() == SCF_ERROR_CONSTRAINT_VIOLATED) (void) scf_set_error(SCF_ERROR_INVALID_ARGUMENT); goto out; } if (flags & SMF_AT_NEXT_BOOT) { ret = set_inst_enabled_atboot(inst, desired); } else { if (set_inst_enabled(inst, desired, flags & SMF_TEMPORARY ? SCF_PG_GENERAL_OVR : SCF_PG_GENERAL, flags & SMF_TEMPORARY ? SCF_PG_GENERAL_OVR_FLAGS : SCF_PG_GENERAL_FLAGS)) goto out; /* * Make the persistent value effective by deleting the * temporary one. */ if (flags & SMF_TEMPORARY) ret = 0; else ret = delete_inst_enabled(inst, SCF_PG_GENERAL_OVR); } out: scf_instance_destroy(inst); scf_handle_destroy(h); if (ret == -1 && scf_error() == SCF_ERROR_DELETED) (void) scf_set_error(SCF_ERROR_NOT_FOUND); return (ret); } /* * Create and return a pg from the instance associated with the given handle. * This function is only called in scf_transaction_setup and * scf_transaction_restart where the h->rh_instance pointer is properly filled * in by scf_general_setup_pg(). */ static scf_propertygroup_t * get_instance_pg(scf_simple_handle_t *simple_h) { scf_propertygroup_t *ret_pg = scf_pg_create(simple_h->h); char *pg_name; ssize_t namelen; if (ret_pg == NULL) { return (NULL); } namelen = scf_limit(SCF_LIMIT_MAX_NAME_LENGTH) + 1; assert(namelen > 0); if ((pg_name = malloc(namelen)) == NULL) { if (scf_error() == SCF_ERROR_NOT_SET) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); } return (NULL); } if (scf_pg_get_name(simple_h->running_pg, pg_name, namelen) < 0) { if (scf_error() == SCF_ERROR_NOT_SET) { (void) scf_set_error(SCF_ERROR_INTERNAL); } return (NULL); } /* Get pg from instance */ if (scf_instance_get_pg(simple_h->inst, pg_name, ret_pg) == -1) { return (NULL); } return (ret_pg); } int smf_enable_instance(const char *fmri, int flags) { return (set_inst_enabled_flags(fmri, flags, B_TRUE)); } int smf_disable_instance(const char *fmri, int flags) { return (set_inst_enabled_flags(fmri, flags, B_FALSE)); } int _smf_refresh_instance_i(scf_instance_t *inst) { return (set_inst_action_inst(inst, SCF_PROPERTY_REFRESH)); } int _smf_refresh_all_instances(scf_service_t *s) { scf_handle_t *h = scf_service_handle(s); scf_instance_t *i = scf_instance_create(h); scf_iter_t *it = scf_iter_create(h); int err, r = -1; if (h == NULL || i == NULL || it == NULL) goto error; if (scf_iter_service_instances(it, s) != 0) goto error; while ((err = scf_iter_next_instance(it, i)) == 1) if (_smf_refresh_instance_i(i) != 0) goto error; if (err == -1) goto error; r = 0; error: scf_instance_destroy(i); scf_iter_destroy(it); return (r); } int smf_refresh_instance(const char *instance) { return (set_inst_action(instance, SCF_PROPERTY_REFRESH)); } int smf_restart_instance(const char *instance) { return (set_inst_action(instance, SCF_PROPERTY_RESTART)); } int smf_maintain_instance(const char *instance, int flags) { if (flags & SMF_TEMPORARY) return (set_inst_action(instance, (flags & SMF_IMMEDIATE) ? SCF_PROPERTY_MAINT_ON_IMMTEMP : SCF_PROPERTY_MAINT_ON_TEMPORARY)); else return (set_inst_action(instance, (flags & SMF_IMMEDIATE) ? SCF_PROPERTY_MAINT_ON_IMMEDIATE : SCF_PROPERTY_MAINT_ON)); } int smf_degrade_instance(const char *instance, int flags) { scf_simple_prop_t *prop; const char *state_str; if (flags & SMF_TEMPORARY) return (scf_set_error(SCF_ERROR_INVALID_ARGUMENT)); if ((prop = scf_simple_prop_get(NULL, instance, SCF_PG_RESTARTER, SCF_PROPERTY_STATE)) == NULL) return (SCF_FAILED); if ((state_str = scf_simple_prop_next_astring(prop)) == NULL) { scf_simple_prop_free(prop); return (SCF_FAILED); } if (strcmp(state_str, SCF_STATE_STRING_ONLINE) != 0) { scf_simple_prop_free(prop); return (scf_set_error(SCF_ERROR_CONSTRAINT_VIOLATED)); } scf_simple_prop_free(prop); return (set_inst_action(instance, (flags & SMF_IMMEDIATE) ? SCF_PROPERTY_DEGRADE_IMMEDIATE : SCF_PROPERTY_DEGRADED)); } int smf_restore_instance(const char *instance) { scf_simple_prop_t *prop; const char *state_str; int ret; if ((prop = scf_simple_prop_get(NULL, instance, SCF_PG_RESTARTER, SCF_PROPERTY_STATE)) == NULL) return (SCF_FAILED); if ((state_str = scf_simple_prop_next_astring(prop)) == NULL) { scf_simple_prop_free(prop); return (SCF_FAILED); } if (strcmp(state_str, SCF_STATE_STRING_MAINT) == 0) { ret = set_inst_action(instance, SCF_PROPERTY_MAINT_OFF); } else if (strcmp(state_str, SCF_STATE_STRING_DEGRADED) == 0) { ret = set_inst_action(instance, SCF_PROPERTY_RESTORE); } else { ret = scf_set_error(SCF_ERROR_CONSTRAINT_VIOLATED); } scf_simple_prop_free(prop); return (ret); } char * smf_get_state(const char *instance) { scf_simple_prop_t *prop; const char *state_str; char *ret; if ((prop = scf_simple_prop_get(NULL, instance, SCF_PG_RESTARTER, SCF_PROPERTY_STATE)) == NULL) return (NULL); if ((state_str = scf_simple_prop_next_astring(prop)) == NULL) { scf_simple_prop_free(prop); return (NULL); } if ((ret = strdup(state_str)) == NULL) (void) scf_set_error(SCF_ERROR_NO_MEMORY); scf_simple_prop_free(prop); return (ret); } /* * scf_general_pg_setup(fmri, pg_name) * Create a scf_simple_handle_t and fill in the instance, snapshot, and * property group fields associated with the given fmri and property group * name. * Returns: * Handle on success * Null on error with scf_error set to: * SCF_ERROR_HANDLE_MISMATCH, * SCF_ERROR_INVALID_ARGUMENT, * SCF_ERROR_CONSTRAINT_VIOLATED, * SCF_ERROR_NOT_FOUND, * SCF_ERROR_NOT_SET, * SCF_ERROR_DELETED, * SCF_ERROR_NOT_BOUND, * SCF_ERROR_CONNECTION_BROKEN, * SCF_ERROR_INTERNAL, * SCF_ERROR_NO_RESOURCES, * SCF_ERROR_BACKEND_ACCESS */ scf_simple_handle_t * scf_general_pg_setup(const char *fmri, const char *pg_name) { scf_simple_handle_t *ret; ret = uu_zalloc(sizeof (*ret)); if (ret == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); return (NULL); } else { ret->h = _scf_handle_create_and_bind(SCF_VERSION); ret->inst = scf_instance_create(ret->h); ret->snap = scf_snapshot_create(ret->h); ret->running_pg = scf_pg_create(ret->h); } if ((ret->h == NULL) || (ret->inst == NULL) || (ret->snap == NULL) || (ret->running_pg == NULL)) { goto out; } if (scf_handle_decode_fmri(ret->h, fmri, NULL, NULL, ret->inst, NULL, NULL, NULL) == -1) { goto out; } if ((scf_instance_get_snapshot(ret->inst, "running", ret->snap)) != 0) { goto out; } if (scf_instance_get_pg_composed(ret->inst, ret->snap, pg_name, ret->running_pg) != 0) { goto out; } return (ret); out: scf_simple_handle_destroy(ret); return (NULL); } /* * scf_transaction_setup(h) * creates and starts the transaction * Returns: * transaction on success * NULL on failure with scf_error set to: * SCF_ERROR_NO_MEMORY, * SCF_ERROR_INVALID_ARGUMENT, * SCF_ERROR_HANDLE_DESTROYED, * SCF_ERROR_INTERNAL, * SCF_ERROR_NO_RESOURCES, * SCF_ERROR_NOT_BOUND, * SCF_ERROR_CONNECTION_BROKEN, * SCF_ERROR_NOT_SET, * SCF_ERROR_DELETED, * SCF_ERROR_CONSTRAINT_VIOLATED, * SCF_ERROR_HANDLE_MISMATCH, * SCF_ERROR_BACKEND_ACCESS, * SCF_ERROR_IN_USE */ scf_transaction_t * scf_transaction_setup(scf_simple_handle_t *simple_h) { scf_transaction_t *tx = NULL; if ((tx = scf_transaction_create(simple_h->h)) == NULL) { return (NULL); } if ((simple_h->editing_pg = get_instance_pg(simple_h)) == NULL) { return (NULL); } if (scf_transaction_start(tx, simple_h->editing_pg) == -1) { scf_pg_destroy(simple_h->editing_pg); simple_h->editing_pg = NULL; return (NULL); } return (tx); } int scf_transaction_restart(scf_simple_handle_t *simple_h, scf_transaction_t *tx) { scf_transaction_reset(tx); if (scf_pg_update(simple_h->editing_pg) == -1) { return (SCF_FAILED); } if (scf_transaction_start(tx, simple_h->editing_pg) == -1) { return (SCF_FAILED); } return (SCF_SUCCESS); } /* * scf_read_count_property(scf_simple_handle_t *simple_h, char *prop_name, * uint64_t *ret_count) * * For the given property name, return the count value. * RETURNS: * SCF_SUCCESS * SCF_FAILED on failure with scf_error() set to: * SCF_ERROR_HANDLE_DESTROYED * SCF_ERROR_INTERNAL * SCF_ERROR_NO_RESOURCES * SCF_ERROR_NO_MEMORY * SCF_ERROR_HANDLE_MISMATCH * SCF_ERROR_INVALID_ARGUMENT * SCF_ERROR_NOT_BOUND * SCF_ERROR_CONNECTION_BROKEN * SCF_ERROR_NOT_SET * SCF_ERROR_DELETED * SCF_ERROR_BACKEND_ACCESS * SCF_ERROR_CONSTRAINT_VIOLATED * SCF_ERROR_TYPE_MISMATCH */ int scf_read_count_property( scf_simple_handle_t *simple_h, char *prop_name, uint64_t *ret_count) { scf_property_t *prop = scf_property_create(simple_h->h); scf_value_t *val = scf_value_create(simple_h->h); int ret = SCF_FAILED; if ((val == NULL) || (prop == NULL)) { goto out; } /* * Get the property struct that goes with this property group and * property name. */ if (scf_pg_get_property(simple_h->running_pg, prop_name, prop) != 0) { goto out; } /* Get the value structure */ if (scf_property_get_value(prop, val) == -1) { goto out; } /* * Now get the count value. */ if (scf_value_get_count(val, ret_count) == -1) { goto out; } ret = SCF_SUCCESS; out: scf_property_destroy(prop); scf_value_destroy(val); return (ret); } /* * scf_trans_add_count_property(trans, propname, count, create_flag) * * Set a count property transaction entry into the pending SMF transaction. * The transaction is created and committed outside of this function. * Returns: * SCF_SUCCESS * SCF_FAILED on failure with scf_error() set to: * SCF_ERROR_HANDLE_DESTROYED, * SCF_ERROR_INVALID_ARGUMENT, * SCF_ERROR_NO_MEMORY, * SCF_ERROR_HANDLE_MISMATCH, * SCF_ERROR_NOT_SET, * SCF_ERROR_IN_USE, * SCF_ERROR_NOT_FOUND, * SCF_ERROR_EXISTS, * SCF_ERROR_TYPE_MISMATCH, * SCF_ERROR_NOT_BOUND, * SCF_ERROR_CONNECTION_BROKEN, * SCF_ERROR_INTERNAL, * SCF_ERROR_DELETED, * SCF_ERROR_NO_RESOURCES, * SCF_ERROR_BACKEND_ACCESS */ int scf_set_count_property( scf_transaction_t *trans, char *propname, uint64_t count, boolean_t create_flag) { scf_handle_t *handle = scf_transaction_handle(trans); scf_value_t *value = scf_value_create(handle); scf_transaction_entry_t *entry = scf_entry_create(handle); if ((value == NULL) || (entry == NULL)) { return (SCF_FAILED); } /* * Property must be set in transaction and won't take * effect until the transaction is committed. * * Attempt to change the current value. However, create new property * if it doesn't exist and the create flag is set. */ if (scf_transaction_property_change(trans, entry, propname, SCF_TYPE_COUNT) == 0) { scf_value_set_count(value, count); if (scf_entry_add_value(entry, value) == 0) { return (SCF_SUCCESS); } } else { if ((create_flag == B_TRUE) && (scf_error() == SCF_ERROR_NOT_FOUND)) { if (scf_transaction_property_new(trans, entry, propname, SCF_TYPE_COUNT) == 0) { scf_value_set_count(value, count); if (scf_entry_add_value(entry, value) == 0) { return (SCF_SUCCESS); } } } } /* * cleanup if there were any errors that didn't leave these * values where they would be cleaned up later. */ if (value != NULL) scf_value_destroy(value); if (entry != NULL) scf_entry_destroy(entry); return (SCF_FAILED); } int scf_simple_walk_instances(uint_t state_flags, void *private, int (*inst_callback)(scf_handle_t *, scf_instance_t *, void *)) { scf_scope_t *scope = NULL; scf_service_t *svc = NULL; scf_instance_t *inst = NULL; scf_iter_t *svc_iter = NULL, *inst_iter = NULL; scf_handle_t *h = NULL; int ret = SCF_FAILED; int svc_iter_ret, inst_iter_ret; int inst_state; if ((h = _scf_handle_create_and_bind(SCF_VERSION)) == NULL) return (ret); if (((scope = scf_scope_create(h)) == NULL) || ((svc = scf_service_create(h)) == NULL) || ((inst = scf_instance_create(h)) == NULL) || ((svc_iter = scf_iter_create(h)) == NULL) || ((inst_iter = scf_iter_create(h)) == NULL)) goto out; /* * Get the local scope, and set up nested iteration through every * local service, and every instance of every service. */ if ((scf_handle_get_local_scope(h, scope) != SCF_SUCCESS) || (scf_iter_scope_services(svc_iter, scope) != SCF_SUCCESS)) goto out; while ((svc_iter_ret = scf_iter_next_service(svc_iter, svc)) > 0) { if ((scf_iter_service_instances(inst_iter, svc)) != SCF_SUCCESS) goto out; while ((inst_iter_ret = scf_iter_next_instance(inst_iter, inst)) > 0) { /* * If get_inst_state fails from an internal error, * IE, being unable to get the property group or * property containing the state of the instance, * we continue instead of failing, as this might just * be an improperly configured instance. */ if ((inst_state = get_inst_state(inst, h)) == -1) { if (scf_error() == SCF_ERROR_INTERNAL) { continue; } else { goto out; } } if ((uint_t)inst_state & state_flags) { if (inst_callback(h, inst, private) != SCF_SUCCESS) { (void) scf_set_error( SCF_ERROR_CALLBACK_FAILED); goto out; } } } if (inst_iter_ret == -1) goto out; scf_iter_reset(inst_iter); } if (svc_iter_ret != -1) ret = SCF_SUCCESS; out: scf_scope_destroy(scope); scf_service_destroy(svc); scf_instance_destroy(inst); scf_iter_destroy(svc_iter); scf_iter_destroy(inst_iter); scf_handle_destroy(h); return (ret); } scf_simple_prop_t * scf_simple_prop_get(scf_handle_t *hin, const char *instance, const char *pgname, const char *propname) { char *fmri_buf, *svcfmri = NULL; ssize_t fmri_sz; scf_property_t *prop = NULL; scf_service_t *svc = NULL; scf_simple_prop_t *ret; scf_handle_t *h = NULL; boolean_t local_h = B_TRUE; /* If the user passed in a handle, use it. */ if (hin != NULL) { h = hin; local_h = B_FALSE; } if (local_h && ((h = _scf_handle_create_and_bind(SCF_VERSION)) == NULL)) return (NULL); if ((fmri_buf = assemble_fmri(h, instance, pgname, propname)) == NULL) { if (local_h) scf_handle_destroy(h); return (NULL); } if ((svc = scf_service_create(h)) == NULL || (prop = scf_property_create(h)) == NULL) goto error1; if (scf_handle_decode_fmri(h, fmri_buf, NULL, NULL, NULL, NULL, prop, SCF_DECODE_FMRI_REQUIRE_INSTANCE) == -1) { switch (scf_error()) { /* * If the property isn't found in the instance, we grab the * underlying service, create an FMRI out of it, and then * query the datastore again at the service level for the * property. */ case SCF_ERROR_NOT_FOUND: if (scf_handle_decode_fmri(h, fmri_buf, NULL, svc, NULL, NULL, NULL, SCF_DECODE_FMRI_TRUNCATE) == -1) goto error1; fmri_sz = scf_limit(SCF_LIMIT_MAX_FMRI_LENGTH) + 1; assert(fmri_sz > 0); if (scf_service_to_fmri(svc, fmri_buf, fmri_sz) == -1) goto error1; if ((svcfmri = assemble_fmri(h, fmri_buf, pgname, propname)) == NULL) goto error1; if (scf_handle_decode_fmri(h, svcfmri, NULL, NULL, NULL, NULL, prop, 0) == -1) { free(svcfmri); goto error1; } free(svcfmri); break; case SCF_ERROR_CONSTRAINT_VIOLATED: (void) scf_set_error(SCF_ERROR_INVALID_ARGUMENT); default: goto error1; } } /* * At this point, we've successfully pulled the property from the * datastore, and simply need to copy its innards into an * scf_simple_prop_t. */ if ((ret = fill_prop(prop, pgname, propname, h)) == NULL) goto error1; scf_service_destroy(svc); scf_property_destroy(prop); free(fmri_buf); if (local_h) scf_handle_destroy(h); return (ret); /* * Exit point for a successful call. Below this line are exit points * for failures at various stages during the function. */ error1: scf_service_destroy(svc); scf_property_destroy(prop); error2: free(fmri_buf); if (local_h) scf_handle_destroy(h); return (NULL); } void scf_simple_prop_free(scf_simple_prop_t *prop) { int i; if (prop == NULL) return; free(prop->pr_propname); free(prop->pr_pgname); switch (prop->pr_type) { case SCF_TYPE_OPAQUE: { for (i = 0; i < prop->pr_numvalues; i++) { free(prop->pr_vallist[i].pv_opaque.o_value); } break; } case SCF_TYPE_ASTRING: case SCF_TYPE_USTRING: case SCF_TYPE_HOST: case SCF_TYPE_HOSTNAME: case SCF_TYPE_NET_ADDR: case SCF_TYPE_NET_ADDR_V4: case SCF_TYPE_NET_ADDR_V6: case SCF_TYPE_URI: case SCF_TYPE_FMRI: { for (i = 0; i < prop->pr_numvalues; i++) { free(prop->pr_vallist[i].pv_str); } break; } default: break; } free(prop->pr_vallist); free(prop); } scf_simple_app_props_t * scf_simple_app_props_get(scf_handle_t *hin, const char *inst_fmri) { scf_instance_t *inst = NULL; scf_service_t *svc = NULL; scf_propertygroup_t *pg = NULL; scf_property_t *prop = NULL; scf_simple_app_props_t *ret = NULL; scf_iter_t *pgiter = NULL, *propiter = NULL; struct scf_simple_pg *thispg = NULL, *nextpg; scf_simple_prop_t *thisprop, *nextprop; scf_handle_t *h = NULL; int pgiter_ret, propiter_ret; ssize_t namelen; char *propname = NULL, *pgname = NULL, *sys_fmri; uint8_t found; boolean_t local_h = B_TRUE; /* If the user passed in a handle, use it. */ if (hin != NULL) { h = hin; local_h = B_FALSE; } if (local_h && ((h = _scf_handle_create_and_bind(SCF_VERSION)) == NULL)) return (NULL); if (inst_fmri == NULL) { if ((namelen = scf_myname(h, NULL, 0)) == -1) { if (local_h) scf_handle_destroy(h); return (NULL); } if ((sys_fmri = malloc(namelen + 1)) == NULL) { if (local_h) scf_handle_destroy(h); (void) scf_set_error(SCF_ERROR_NO_MEMORY); return (NULL); } if (scf_myname(h, sys_fmri, namelen + 1) == -1) { if (local_h) scf_handle_destroy(h); free(sys_fmri); return (NULL); } } else { if ((sys_fmri = strdup(inst_fmri)) == NULL) { if (local_h) scf_handle_destroy(h); (void) scf_set_error(SCF_ERROR_NO_MEMORY); return (NULL); } } namelen = scf_limit(SCF_LIMIT_MAX_NAME_LENGTH) + 1; assert(namelen > 0); if ((inst = scf_instance_create(h)) == NULL || (svc = scf_service_create(h)) == NULL || (pgiter = scf_iter_create(h)) == NULL || (propiter = scf_iter_create(h)) == NULL || (pg = scf_pg_create(h)) == NULL || (prop = scf_property_create(h)) == NULL) goto error2; if (scf_handle_decode_fmri(h, sys_fmri, NULL, svc, inst, NULL, NULL, SCF_DECODE_FMRI_REQUIRE_INSTANCE) == -1) { if (scf_error() == SCF_ERROR_CONSTRAINT_VIOLATED) (void) scf_set_error(SCF_ERROR_INVALID_ARGUMENT); goto error2; } if ((ret = malloc(sizeof (*ret))) == NULL || (thispg = malloc(sizeof (*thispg))) == NULL || (propname = malloc(namelen)) == NULL || (pgname = malloc(namelen)) == NULL) { free(thispg); free(ret); (void) scf_set_error(SCF_ERROR_NO_MEMORY); goto error2; } ret->ap_fmri = sys_fmri; thispg->pg_name = NULL; thispg->pg_proplist = NULL; thispg->pg_next = NULL; ret->ap_pglist = thispg; if (scf_iter_service_pgs_typed(pgiter, svc, SCF_GROUP_APPLICATION) != 0) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } while ((pgiter_ret = scf_iter_next_pg(pgiter, pg)) == 1) { if (thispg->pg_name != NULL) { if ((nextpg = malloc(sizeof (*nextpg))) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); goto error1; } nextpg->pg_name = NULL; nextpg->pg_next = NULL; nextpg->pg_proplist = NULL; thispg->pg_next = nextpg; thispg = nextpg; } else { /* This is the first iteration */ nextpg = thispg; } if ((nextpg->pg_name = malloc(namelen)) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); goto error1; } if (scf_pg_get_name(pg, nextpg->pg_name, namelen) < 0) { if (scf_error() == SCF_ERROR_NOT_SET) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } thisprop = NULL; scf_iter_reset(propiter); if (scf_iter_pg_properties(propiter, pg) != 0) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } while ((propiter_ret = scf_iter_next_property(propiter, prop)) == 1) { if (scf_property_get_name(prop, propname, namelen) < 0) { if (scf_error() == SCF_ERROR_NOT_SET) (void) scf_set_error( SCF_ERROR_INTERNAL); goto error1; } if (thisprop != NULL) { if ((nextprop = fill_prop(prop, nextpg->pg_name, propname, h)) == NULL) goto error1; thisprop->pr_next = nextprop; thisprop = nextprop; } else { /* This is the first iteration */ if ((thisprop = fill_prop(prop, nextpg->pg_name, propname, h)) == NULL) goto error1; nextpg->pg_proplist = thisprop; nextprop = thisprop; } nextprop->pr_pg = nextpg; nextprop->pr_next = NULL; } if (propiter_ret == -1) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } } if (pgiter_ret == -1) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } /* * At this point, we've filled the scf_simple_app_props_t with all the * properties at the service level. Now we iterate over all the * properties at the instance level, overwriting any duplicate * properties, in order to provide service/instance composition. */ scf_iter_reset(pgiter); scf_iter_reset(propiter); if (scf_iter_instance_pgs_typed(pgiter, inst, SCF_GROUP_APPLICATION) != 0) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } while ((pgiter_ret = scf_iter_next_pg(pgiter, pg)) == 1) { thispg = ret->ap_pglist; found = 0; /* * Find either the end of the list, so we can append the * property group, or an existing property group that matches * it, so we can insert/overwrite its properties. */ if (scf_pg_get_name(pg, pgname, namelen) < 0) { if (scf_error() == SCF_ERROR_NOT_SET) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } while ((thispg != NULL) && (thispg->pg_name != NULL)) { if (strcmp(thispg->pg_name, pgname) == 0) { found = 1; break; } if (thispg->pg_next == NULL) break; thispg = thispg->pg_next; } scf_iter_reset(propiter); if (scf_iter_pg_properties(propiter, pg) != 0) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } if (found) { /* * insert_app_props inserts or overwrites the * properties in thispg. */ if (insert_app_props(propiter, pgname, propname, thispg, prop, namelen, h) == -1) goto error1; } else { /* * If the property group wasn't found, we're adding * a newly allocated property group to the end of the * list. */ if ((nextpg = malloc(sizeof (*nextpg))) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); goto error1; } nextpg->pg_next = NULL; nextpg->pg_proplist = NULL; thisprop = NULL; if ((nextpg->pg_name = strdup(pgname)) == NULL) { (void) scf_set_error(SCF_ERROR_NO_MEMORY); free(nextpg); goto error1; } if (thispg->pg_name == NULL) { free(thispg); ret->ap_pglist = nextpg; } else { thispg->pg_next = nextpg; } while ((propiter_ret = scf_iter_next_property(propiter, prop)) == 1) { if (scf_property_get_name(prop, propname, namelen) < 0) { if (scf_error() == SCF_ERROR_NOT_SET) (void) scf_set_error( SCF_ERROR_INTERNAL); goto error1; } if (thisprop != NULL) { if ((nextprop = fill_prop(prop, pgname, propname, h)) == NULL) goto error1; thisprop->pr_next = nextprop; thisprop = nextprop; } else { /* This is the first iteration */ if ((thisprop = fill_prop(prop, pgname, propname, h)) == NULL) goto error1; nextpg->pg_proplist = thisprop; nextprop = thisprop; } nextprop->pr_pg = nextpg; nextprop->pr_next = NULL; } if (propiter_ret == -1) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error( SCF_ERROR_INTERNAL); goto error1; } } } if (pgiter_ret == -1) { if (scf_error() != SCF_ERROR_CONNECTION_BROKEN) (void) scf_set_error(SCF_ERROR_INTERNAL); goto error1; } scf_iter_destroy(pgiter); scf_iter_destroy(propiter); scf_pg_destroy(pg); scf_property_destroy(prop); scf_instance_destroy(inst); scf_service_destroy(svc); free(propname); free(pgname); if (local_h) scf_handle_destroy(h); if (ret->ap_pglist->pg_name == NULL) return (NULL); return (ret); /* * Exit point for a successful call. Below this line are exit points * for failures at various stages during the function. */ error1: scf_simple_app_props_free(ret); error2: scf_iter_destroy(pgiter); scf_iter_destroy(propiter); scf_pg_destroy(pg); scf_property_destroy(prop); scf_instance_destroy(inst); scf_service_destroy(svc); free(propname); free(pgname); if (local_h) scf_handle_destroy(h); return (NULL); } void scf_simple_app_props_free(scf_simple_app_props_t *propblock) { struct scf_simple_pg *pgthis, *pgnext; scf_simple_prop_t *propthis, *propnext; if ((propblock == NULL) || (propblock->ap_pglist == NULL)) return; for (pgthis = propblock->ap_pglist; pgthis != NULL; pgthis = pgnext) { pgnext = pgthis->pg_next; propthis = pgthis->pg_proplist; while (propthis != NULL) { propnext = propthis->pr_next; scf_simple_prop_free(propthis); propthis = propnext; } free(pgthis->pg_name); free(pgthis); } free(propblock->ap_fmri); free(propblock); } const scf_simple_prop_t * scf_simple_app_props_next(const scf_simple_app_props_t *propblock, scf_simple_prop_t *last) { struct scf_simple_pg *this; if (propblock == NULL) { (void) scf_set_error(SCF_ERROR_NOT_SET); return (NULL); } this = propblock->ap_pglist; /* * We're looking for the first property in this block if last is * NULL */ if (last == NULL) { /* An empty pglist is legal, it just means no properties */ if (this == NULL) { (void) scf_set_error(SCF_ERROR_NONE); return (NULL); } /* * Walk until we find a pg with a property in it, or we run * out of property groups. */ while ((this->pg_proplist == NULL) && (this->pg_next != NULL)) this = this->pg_next; if (this->pg_proplist == NULL) { (void) scf_set_error(SCF_ERROR_NONE); return (NULL); } return (this->pg_proplist); } /* * If last isn't NULL, then return the next prop in the property group, * or walk the property groups until we find another property, or * run out of property groups. */ if (last->pr_next != NULL) return (last->pr_next); if (last->pr_pg->pg_next == NULL) { (void) scf_set_error(SCF_ERROR_NONE); return (NULL); } this = last->pr_pg->pg_next; while ((this->pg_proplist == NULL) && (this->pg_next != NULL)) this = this->pg_next; if (this->pg_proplist == NULL) { (void) scf_set_error(SCF_ERROR_NONE); return (NULL); } return (this->pg_proplist); } const scf_simple_prop_t * scf_simple_app_props_search(const scf_simple_app_props_t *propblock, const char *pgname, const char *propname) { struct scf_simple_pg *pg; scf_simple_prop_t *prop; if ((propblock == NULL) || (propname == NULL)) { (void) scf_set_error(SCF_ERROR_NOT_SET); return (NULL); } pg = propblock->ap_pglist; /* * If pgname is NULL, we're searching the default application * property group, otherwise we look for the specified group. */ if (pgname == NULL) { while ((pg != NULL) && (strcmp(SCF_PG_APP_DEFAULT, pg->pg_name) != 0)) pg = pg->pg_next; } else { while ((pg != NULL) && (strcmp(pgname, pg->pg_name) != 0)) pg = pg->pg_next; } if (pg == NULL) { (void) scf_set_error(SCF_ERROR_NOT_FOUND); return (NULL); } prop = pg->pg_proplist; while ((prop != NULL) && (strcmp(propname, prop->pr_propname) != 0)) prop = prop->pr_next; if (prop == NULL) { (void) scf_set_error(SCF_ERROR_NOT_FOUND); return (NULL); } return (prop); } void scf_simple_prop_next_reset(scf_simple_prop_t *prop) { if (prop == NULL) return; prop->pr_iter = 0; } ssize_t scf_simple_prop_numvalues(const scf_simple_prop_t *prop) { if (prop == NULL) return (scf_set_error(SCF_ERROR_NOT_SET)); return (prop->pr_numvalues); } scf_type_t scf_simple_prop_type(const scf_simple_prop_t *prop) { if (prop == NULL) return (scf_set_error(SCF_ERROR_NOT_SET)); return (prop->pr_type); } char * scf_simple_prop_name(const scf_simple_prop_t *prop) { if ((prop == NULL) || (prop->pr_propname == NULL)) { (void) scf_set_error(SCF_ERROR_NOT_SET); return (NULL); } return (prop->pr_propname); } char * scf_simple_prop_pgname(const scf_simple_prop_t *prop) { if ((prop == NULL) || (prop->pr_pgname == NULL)) { (void) scf_set_error(SCF_ERROR_NOT_SET); return (NULL); } return (prop->pr_pgname); } static union scf_simple_prop_val * scf_next_val(scf_simple_prop_t *prop, scf_type_t type) { if (prop == NULL) { (void) scf_set_error(SCF_ERROR_NOT_SET); return (NULL); } switch (prop->pr_type) { case SCF_TYPE_USTRING: case SCF_TYPE_HOST: case SCF_TYPE_HOSTNAME: case SCF_TYPE_NET_ADDR: case SCF_TYPE_NET_ADDR_V4: case SCF_TYPE_NET_ADDR_V6: case SCF_TYPE_URI: case SCF_TYPE_FMRI: { if (type != SCF_TYPE_USTRING) { (void) scf_set_error(SCF_ERROR_TYPE_MISMATCH); return (NULL); } break; } default: { if (type != prop->pr_type) { (void) scf_set_error(SCF_ERROR_TYPE_MISMATCH); return (NULL); } break; } } if (prop->pr_iter >= prop->pr_numvalues) { (void) scf_set_error(SCF_ERROR_NONE); return (NULL); } return (&prop->pr_vallist[prop->pr_iter++]); } uint8_t * scf_simple_prop_next_boolean(scf_simple_prop_t *prop) { union scf_simple_prop_val *ret; ret = scf_next_val(prop, SCF_TYPE_BOOLEAN); if (ret == NULL) return (NULL); return (&ret->pv_bool); } uint64_t * scf_simple_prop_next_count(scf_simple_prop_t *prop) { union scf_simple_prop_val *ret; ret = scf_next_val(prop, SCF_TYPE_COUNT); if (ret == NULL) return (NULL); return (&ret->pv_uint); } int64_t * scf_simple_prop_next_integer(scf_simple_prop_t *prop) { union scf_simple_prop_val *ret; ret = scf_next_val(prop, SCF_TYPE_INTEGER); if (ret == NULL) return (NULL); return (&ret->pv_int); } int64_t * scf_simple_prop_next_time(scf_simple_prop_t *prop, int32_t *nsec) { union scf_simple_prop_val *ret; ret = scf_next_val(prop, SCF_TYPE_TIME); if (ret == NULL) return (NULL); if (nsec != NULL) *nsec = ret->pv_time.t_nsec; return (&ret->pv_time.t_sec); } char * scf_simple_prop_next_astring(scf_simple_prop_t *prop) { union scf_simple_prop_val *ret; ret = scf_next_val(prop, SCF_TYPE_ASTRING); if (ret == NULL) return (NULL); return (ret->pv_str); } char * scf_simple_prop_next_ustring(scf_simple_prop_t *prop) { union scf_simple_prop_val *ret; ret = scf_next_val(prop, SCF_TYPE_USTRING); if (ret == NULL) return (NULL); return (ret->pv_str); } void * scf_simple_prop_next_opaque(scf_simple_prop_t *prop, size_t *length) { union scf_simple_prop_val *ret; ret = scf_next_val(prop, SCF_TYPE_OPAQUE); if (ret == NULL) { *length = 0; return (NULL); } *length = ret->pv_opaque.o_size; return (ret->pv_opaque.o_value); } /* * Generate a filename based on the fmri and the given name and return * it in the buffer of MAXPATHLEN provided by the caller. * If temp_filename is non-zero, also generate a temporary, unique filename * and return it in the temp buffer of MAXPATHLEN provided by the caller. * The path to the generated pathname is also created. * Given fmri should begin with a scheme such as "svc:". * Returns * 0 on success * -1 if filename would exceed MAXPATHLEN or * -2 if unable to create directory to filename path */ int gen_filenms_from_fmri(const char *fmri, const char *name, char *filename, char *temp_filename) { int len; len = strlen(SMF_SPEEDY_FILES_PATH); len += strlen(fmri); len += 2; /* for slash and null */ len += strlen(name); len += 6; /* For X's needed for mkstemp */ if (len > MAXPATHLEN) return (-1); /* Construct directory name first - speedy path ends in slash */ (void) strcpy(filename, SMF_SPEEDY_FILES_PATH); (void) strcat(filename, fmri); if (mkdirp(filename, 0755) == -1) { /* errno is set */ if (errno != EEXIST) return (-2); } (void) strcat(filename, "/"); (void) strcat(filename, name); if (temp_filename) { (void) strcpy(temp_filename, filename); (void) strcat(temp_filename, "XXXXXX"); } return (0); } scf_type_t scf_true_base_type(scf_type_t type) { scf_type_t base = type; do { type = base; (void) scf_type_base_type(type, &base); } while (base != type); return (base); } /* * Convenience routine which frees all strings and opaque data * allocated by scf_read_propvec. * * Like free(3C), this function preserves the value of errno. */ void scf_clean_propvec(scf_propvec_t *propvec) { int saved_errno = errno; scf_propvec_t *prop; for (prop = propvec; prop->pv_prop != NULL; prop++) { assert(prop->pv_type != SCF_TYPE_INVALID); if (prop->pv_type == SCF_TYPE_OPAQUE) { scf_opaque_t *o = prop->pv_ptr; if (o->so_addr != NULL) free(o->so_addr); } else if (scf_true_base_type(prop->pv_type) == SCF_TYPE_ASTRING) { if (*(char **)prop->pv_ptr != NULL) free(*(char **)prop->pv_ptr); } } errno = saved_errno; } static int count_props(scf_propvec_t *props) { int count = 0; for (; props->pv_prop != NULL; props++) count++; return (count); } /* * Reads a vector of properties from the specified fmri/property group. * If 'running' is true, reads from the running snapshot instead of the * editing snapshot. * * For string types, a buffer is allocated using malloc(3C) to hold the * zero-terminated string, a pointer to which is stored in the * caller-provided char **. It is the caller's responsbility to free * this string. To simplify error handling, unread strings are * initialized to NULL. * * For opaque types, a buffer is allocated using malloc(3C) to hold the * opaque data. A pointer to this buffer and its size are stored in * the caller-provided scf_opaque_t. It is the caller's responsibility * to free this buffer. To simplify error handling, the address fields * for unread opaque data are initialized to NULL. * * All other data is stored directly in caller-provided variables or * structures. * * If this function fails to read a specific property, *badprop is set * to point at that property's entry in the properties array. * * On all failures, all memory allocated by this function is freed. */ int scf_read_propvec(const char *fmri, const char *pgname, boolean_t running, scf_propvec_t *properties, scf_propvec_t **badprop) { scf_handle_t *h = _scf_handle_create_and_bind(SCF_VERSION); scf_service_t *s = scf_service_create(h); scf_instance_t *i = scf_instance_create(h); scf_snapshot_t *snap = running ? scf_snapshot_create(h) : NULL; scf_propertygroup_t *pg = scf_pg_create(h); scf_property_t *p = scf_property_create(h); scf_value_t *v = scf_value_create(h); boolean_t instance = B_TRUE; scf_propvec_t *prop; int error = 0; if (h == NULL || s == NULL || i == NULL || (running && snap == NULL) || pg == NULL || p == NULL || v == NULL) goto scferror; if (scf_handle_decode_fmri(h, fmri, NULL, s, i, NULL, NULL, 0) == -1) goto scferror; if (scf_instance_to_fmri(i, NULL, 0) == -1) { if (scf_error() != SCF_ERROR_NOT_SET) goto scferror; instance = B_FALSE; } if (running) { if (!instance) { error = SCF_ERROR_TYPE_MISMATCH; goto out; } if (scf_instance_get_snapshot(i, "running", snap) != SCF_SUCCESS) goto scferror; } if ((instance ? scf_instance_get_pg_composed(i, snap, pgname, pg) : scf_service_get_pg(s, pgname, pg)) == -1) goto scferror; for (prop = properties; prop->pv_prop != NULL; prop++) { if (prop->pv_type == SCF_TYPE_OPAQUE) ((scf_opaque_t *)prop->pv_ptr)->so_addr = NULL; else if (scf_true_base_type(prop->pv_type) == SCF_TYPE_ASTRING) *((char **)prop->pv_ptr) = NULL; } for (prop = properties; prop->pv_prop != NULL; prop++) { int ret = 0; if (scf_pg_get_property(pg, prop->pv_prop, p) == -1 || scf_property_get_value(p, v) == -1) { *badprop = prop; goto scferror; } switch (prop->pv_type) { case SCF_TYPE_BOOLEAN: { uint8_t b; ret = scf_value_get_boolean(v, &b); if (ret == -1) break; if (prop->pv_aux != 0) { uint64_t *bits = prop->pv_ptr; *bits = b ? (*bits | prop->pv_aux) : (*bits & ~prop->pv_aux); } else { boolean_t *bool = prop->pv_ptr; *bool = b ? B_TRUE : B_FALSE; } break; } case SCF_TYPE_COUNT: ret = scf_value_get_count(v, prop->pv_ptr); break; case SCF_TYPE_INTEGER: ret = scf_value_get_integer(v, prop->pv_ptr); break; case SCF_TYPE_TIME: { scf_time_t *time = prop->pv_ptr; ret = scf_value_get_time(v, &time->t_seconds, &time->t_ns); break; } case SCF_TYPE_OPAQUE: { scf_opaque_t *opaque = prop->pv_ptr; ssize_t size = scf_value_get_opaque(v, NULL, 0); if (size == -1) { *badprop = prop; goto scferror; } if ((opaque->so_addr = malloc(size)) == NULL) { error = SCF_ERROR_NO_MEMORY; goto out; } opaque->so_size = size; ret = scf_value_get_opaque(v, opaque->so_addr, size); break; } default: { char *s; ssize_t size; assert(scf_true_base_type(prop->pv_type) == SCF_TYPE_ASTRING); size = scf_value_get_astring(v, NULL, 0); if (size == -1) { *badprop = prop; goto scferror; } if ((s = malloc(++size)) == NULL) { error = SCF_ERROR_NO_MEMORY; goto out; } ret = scf_value_get_astring(v, s, size); *(char **)prop->pv_ptr = s; } if (ret == -1) { *badprop = prop; goto scferror; } } } goto out; scferror: error = scf_error(); scf_clean_propvec(properties); out: scf_value_destroy(v); scf_property_destroy(p); scf_pg_destroy(pg); scf_snapshot_destroy(snap); scf_instance_destroy(i); scf_service_destroy(s); scf_handle_destroy(h); if (error != 0) { (void) scf_set_error(error); return (SCF_FAILED); } return (SCF_SUCCESS); } /* * Writes a vector of properties to the specified fmri/property group. * * If this function fails to write a specific property, *badprop is set * to point at that property's entry in the properties array. * * One significant difference between this function and the * scf_read_propvec function is that for string types, pv_ptr is a * char *, not a char **. This means that you can't write a propvec * you just read, but makes other uses (hopefully the majority) simpler. */ int scf_write_propvec(const char *fmri, const char *pgname, scf_propvec_t *properties, scf_propvec_t **badprop) { scf_handle_t *h = _scf_handle_create_and_bind(SCF_VERSION); scf_service_t *s = scf_service_create(h); scf_instance_t *inst = scf_instance_create(h); scf_snapshot_t *snap = scf_snapshot_create(h); scf_propertygroup_t *pg = scf_pg_create(h); scf_property_t *p = scf_property_create(h); scf_transaction_t *tx = scf_transaction_create(h); scf_value_t **v = NULL; scf_transaction_entry_t **e = NULL; boolean_t instance = B_TRUE; int i, n; scf_propvec_t *prop; int error = 0, ret; n = count_props(properties); v = calloc(n, sizeof (scf_value_t *)); e = calloc(n, sizeof (scf_transaction_entry_t *)); if (v == NULL || e == NULL) { error = SCF_ERROR_NO_MEMORY; goto out; } if (h == NULL || s == NULL || inst == NULL || pg == NULL || p == NULL || tx == NULL) goto scferror; for (i = 0; i < n; i++) { v[i] = scf_value_create(h); e[i] = scf_entry_create(h); if (v[i] == NULL || e[i] == NULL) goto scferror; } if (scf_handle_decode_fmri(h, fmri, NULL, s, inst, NULL, NULL, 0) != SCF_SUCCESS) goto scferror; if (scf_instance_to_fmri(inst, NULL, 0) == -1) { if (scf_error() != SCF_ERROR_NOT_SET) goto scferror; instance = B_FALSE; } if ((instance ? scf_instance_get_pg(inst, pgname, pg) : scf_service_get_pg(s, pgname, pg)) == -1) goto scferror; top: if (scf_transaction_start(tx, pg) == -1) goto scferror; for (prop = properties, i = 0; prop->pv_prop != NULL; prop++, i++) { ret = scf_transaction_property_change(tx, e[i], prop->pv_prop, prop->pv_type); if (ret == -1 && scf_error() == SCF_ERROR_NOT_FOUND) ret = scf_transaction_property_new(tx, e[i], prop->pv_prop, prop->pv_type); if (ret == -1) { *badprop = prop; goto scferror; } switch (prop->pv_type) { case SCF_TYPE_BOOLEAN: { boolean_t b = (prop->pv_aux != 0) ? (*(uint64_t *)prop->pv_ptr & prop->pv_aux) != 0 : *(boolean_t *)prop->pv_ptr; scf_value_set_boolean(v[i], b ? 1 : 0); break; } case SCF_TYPE_COUNT: scf_value_set_count(v[i], *(uint64_t *)prop->pv_ptr); break; case SCF_TYPE_INTEGER: scf_value_set_integer(v[i], *(int64_t *)prop->pv_ptr); break; case SCF_TYPE_TIME: { scf_time_t *time = prop->pv_ptr; ret = scf_value_set_time(v[i], time->t_seconds, time->t_ns); break; } case SCF_TYPE_OPAQUE: { scf_opaque_t *opaque = prop->pv_ptr; ret = scf_value_set_opaque(v[i], opaque->so_addr, opaque->so_size); break; } case SCF_TYPE_ASTRING: ret = scf_value_set_astring(v[i], (const char *)prop->pv_ptr); break; default: ret = scf_value_set_from_string(v[i], prop->pv_type, (const char *)prop->pv_ptr); } if (ret == -1 || scf_entry_add_value(e[i], v[i]) == -1) { *badprop = prop; goto scferror; } } ret = scf_transaction_commit(tx); if (ret == 1) goto out; if (ret == 0 && scf_pg_update(pg) != -1) { scf_transaction_reset(tx); goto top; } scferror: error = scf_error(); out: if (v != NULL) { for (i = 0; i < n; i++) scf_value_destroy(v[i]); free(v); } if (e != NULL) { for (i = 0; i < n; i++) scf_entry_destroy(e[i]); free(e); } scf_transaction_destroy(tx); scf_property_destroy(p); scf_pg_destroy(pg); scf_snapshot_destroy(snap); scf_instance_destroy(inst); scf_service_destroy(s); scf_handle_destroy(h); if (error != 0) { (void) scf_set_error(error); return (SCF_FAILED); } return (SCF_SUCCESS); } /* * Returns * 0 - success * ECONNABORTED - repository connection broken * ECANCELED - inst was deleted * EPERM * EACCES * EROFS * ENOMEM */ int scf_instance_delete_prop(scf_instance_t *inst, const char *pgname, const char *pname) { scf_handle_t *h; scf_propertygroup_t *pg; scf_transaction_t *tx; scf_transaction_entry_t *e; int error = 0, ret = 1, r; h = scf_instance_handle(inst); if ((pg = scf_pg_create(h)) == NULL) { return (ENOMEM); } if (scf_instance_get_pg(inst, pgname, pg) != 0) { error = scf_error(); scf_pg_destroy(pg); switch (error) { case SCF_ERROR_NOT_FOUND: return (SCF_SUCCESS); case SCF_ERROR_DELETED: return (ECANCELED); case SCF_ERROR_CONNECTION_BROKEN: default: return (ECONNABORTED); case SCF_ERROR_NOT_SET: bad_error("scf_instance_get_pg", scf_error()); } } tx = scf_transaction_create(h); e = scf_entry_create(h); if (tx == NULL || e == NULL) { ret = ENOMEM; goto out; } for (;;) { if (scf_transaction_start(tx, pg) != 0) { goto scferror; } if (scf_transaction_property_delete(tx, e, pname) != 0) { goto scferror; } if ((r = scf_transaction_commit(tx)) == 1) { ret = 0; goto out; } if (r == -1) { goto scferror; } scf_transaction_reset(tx); if (scf_pg_update(pg) == -1) { goto scferror; } } scferror: switch (scf_error()) { case SCF_ERROR_DELETED: case SCF_ERROR_NOT_FOUND: ret = 0; break; case SCF_ERROR_PERMISSION_DENIED: ret = EPERM; break; case SCF_ERROR_BACKEND_ACCESS: ret = EACCES; break; case SCF_ERROR_BACKEND_READONLY: ret = EROFS; break; case SCF_ERROR_CONNECTION_BROKEN: default: ret = ECONNABORTED; break; case SCF_ERROR_HANDLE_MISMATCH: case SCF_ERROR_INVALID_ARGUMENT: case SCF_ERROR_NOT_BOUND: case SCF_ERROR_NOT_SET: bad_error("scf_instance_delete_prop", scf_error()); } out: scf_transaction_destroy(tx); scf_entry_destroy(e); scf_pg_destroy(pg); return (ret); } /* * Check the "application/auto_enable" property for the passed FMRI. * scf_simple_prop_get() should find the property on an instance * or on the service FMRI. The routine returns: * -1: inconclusive (likely no such property or FMRI) * 0: auto_enable is false * 1: auto_enable is true */ static int is_auto_enabled(char *fmri) { scf_simple_prop_t *prop; int retval = -1; uint8_t *ret; prop = scf_simple_prop_get(NULL, fmri, SCF_GROUP_APPLICATION, "auto_enable"); if (!prop) return (retval); ret = scf_simple_prop_next_boolean(prop); retval = (*ret != 0); scf_simple_prop_free(prop); return (retval); } /* * Check an array of services and enable any that don't have the * "application/auto_enable" property set to "false", which is * the interface to turn off this behaviour (see PSARC 2004/739). */ void _check_services(char **svcs) { char *s; for (; *svcs; svcs++) { if (is_auto_enabled(*svcs) == 0) continue; if ((s = smf_get_state(*svcs)) != NULL) { if (strcmp(SCF_STATE_STRING_DISABLED, s) == 0) (void) smf_enable_instance(*svcs, SMF_TEMPORARY); free(s); } } } /*ARGSUSED*/ static int str_compare(const char *s1, const char *s2, size_t n) { return (strcmp(s1, s2)); } static int str_n_compare(const char *s1, const char *s2, size_t n) { return (strncmp(s1, s2, n)); } int32_t state_from_string(const char *state, size_t l) { int (*str_cmp)(const char *, const char *, size_t); if (l == 0) str_cmp = str_compare; else str_cmp = str_n_compare; if (str_cmp(SCF_STATE_STRING_UNINIT, state, l) == 0) return (SCF_STATE_UNINIT); else if (str_cmp(SCF_STATE_STRING_MAINT, state, l) == 0) return (SCF_STATE_MAINT); else if (str_cmp(SCF_STATE_STRING_OFFLINE, state, l) == 0) return (SCF_STATE_OFFLINE); else if (str_cmp(SCF_STATE_STRING_DISABLED, state, l) == 0) return (SCF_STATE_DISABLED); else if (str_cmp(SCF_STATE_STRING_ONLINE, state, l) == 0) return (SCF_STATE_ONLINE); else if (str_cmp(SCF_STATE_STRING_DEGRADED, state, l) == 0) return (SCF_STATE_DEGRADED); else if (str_cmp("all", state, l) == 0) return (SCF_STATE_ALL); else return (-1); } /* * int32_t smf_state_from_string() * return the value of the macro SCF_STATE_* for the corresponding state * it returns SCF_STATE_ALL if "all" is passed. -1 if the string passed doesn't * correspond to any valid state. */ int32_t smf_state_from_string(const char *state) { return (state_from_string(state, 0)); } /* * smf_state_to_string() * Takes an int32_t representing an SMF state and returns * the corresponding string. The string is read only and need not to be * freed. * returns NULL on invalid input. */ const char * smf_state_to_string(int32_t s) { switch (s) { case SCF_STATE_UNINIT: return (SCF_STATE_STRING_UNINIT); case SCF_STATE_MAINT: return (SCF_STATE_STRING_MAINT); case SCF_STATE_OFFLINE: return (SCF_STATE_STRING_OFFLINE); case SCF_STATE_DISABLED: return (SCF_STATE_STRING_DISABLED); case SCF_STATE_ONLINE: return (SCF_STATE_STRING_ONLINE); case SCF_STATE_DEGRADED: return (SCF_STATE_STRING_DEGRADED); case SCF_STATE_ALL: return ("all"); default: return (NULL); } }