/* * 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) 2010, Oracle and/or its affiliates. All rights reserved. */ #include #include #include #include #include #include #include #include "libnwam_impl.h" #include #include /* * Internal implementation of libnwam in-memory objects and values. Objects * are nvlists. */ void nwam_value_free(nwam_value_t value) { uint_t i; if (value == NULL) return; switch (value->nwv_value_type) { case NWAM_VALUE_TYPE_BOOLEAN: free(value->nwv_values.nwv_boolean); break; case NWAM_VALUE_TYPE_INT64: free(value->nwv_values.nwv_int64); break; case NWAM_VALUE_TYPE_UINT64: free(value->nwv_values.nwv_uint64); break; case NWAM_VALUE_TYPE_STRING: for (i = 0; i < value->nwv_value_numvalues; i++) free(value->nwv_values.nwv_string[i]); free(value->nwv_values.nwv_string); break; } free(value); } nwam_error_t nwam_value_create(nwam_value_type_t value_type, void *values, uint_t numvalues, nwam_value_t *valuep) { nwam_value_t newvalue; boolean_t *values_boolean; int64_t *values_int64; uint64_t *values_uint64; char **values_string; int i, j; nwam_error_t err = NWAM_SUCCESS; *valuep = NULL; if ((newvalue = calloc(1, sizeof (struct nwam_value))) == NULL) return (NWAM_NO_MEMORY); newvalue->nwv_value_type = value_type; newvalue->nwv_value_numvalues = numvalues; switch (value_type) { case NWAM_VALUE_TYPE_BOOLEAN: values_boolean = values; if ((newvalue->nwv_values.nwv_boolean = calloc(numvalues, sizeof (boolean_t))) == NULL) { free(newvalue); return (NWAM_NO_MEMORY); } for (i = 0; i < numvalues; i++) newvalue->nwv_values.nwv_boolean[i] = values_boolean[i]; break; case NWAM_VALUE_TYPE_INT64: values_int64 = values; if ((newvalue->nwv_values.nwv_int64 = calloc(numvalues, sizeof (int64_t))) == NULL) { free(newvalue); return (NWAM_NO_MEMORY); } for (i = 0; i < numvalues; i++) newvalue->nwv_values.nwv_int64[i] = values_int64[i]; break; case NWAM_VALUE_TYPE_UINT64: values_uint64 = values; if ((newvalue->nwv_values.nwv_uint64 = calloc(numvalues, sizeof (uint64_t))) == NULL) { free(newvalue); return (NWAM_NO_MEMORY); } for (i = 0; i < numvalues; i++) newvalue->nwv_values.nwv_uint64[i] = values_uint64[i]; break; case NWAM_VALUE_TYPE_STRING: values_string = values; if ((newvalue->nwv_values.nwv_string = calloc(numvalues, sizeof (char *))) == NULL) { free(newvalue); return (NWAM_NO_MEMORY); } for (i = 0; i < numvalues; i++) { if (strnlen(values_string[i], NWAM_MAX_VALUE_LEN) == NWAM_MAX_VALUE_LEN) { err = NWAM_ENTITY_INVALID_VALUE; } else if ((newvalue->nwv_values.nwv_string[i] = strdup(values_string[i])) == NULL) { err = NWAM_NO_MEMORY; } if (err != NWAM_SUCCESS) { for (j = 0; j < i; j++) free( newvalue->nwv_values.nwv_string[i]); free(newvalue->nwv_values.nwv_string); free(newvalue); return (err); } } break; default: break; } *valuep = newvalue; return (NWAM_SUCCESS); } nwam_error_t nwam_value_copy(nwam_value_t old, nwam_value_t *newp) { void *values; assert(old != NULL && newp != NULL); switch (old->nwv_value_type) { case NWAM_VALUE_TYPE_BOOLEAN: values = old->nwv_values.nwv_boolean; break; case NWAM_VALUE_TYPE_INT64: values = old->nwv_values.nwv_int64; break; case NWAM_VALUE_TYPE_UINT64: values = old->nwv_values.nwv_uint64; break; case NWAM_VALUE_TYPE_STRING: values = old->nwv_values.nwv_string; break; default: return (NWAM_INVALID_ARG); } return (nwam_value_create(old->nwv_value_type, values, old->nwv_value_numvalues, newp)); } nwam_error_t nwam_value_create_boolean_array(boolean_t *values, uint_t numvalues, nwam_value_t *valuep) { return (nwam_value_create(NWAM_VALUE_TYPE_BOOLEAN, values, numvalues, valuep)); } nwam_error_t nwam_value_create_boolean(boolean_t value, nwam_value_t *valuep) { return (nwam_value_create_boolean_array(&value, 1, valuep)); } nwam_error_t nwam_value_create_int64_array(int64_t *values, uint_t numvalues, nwam_value_t *valuep) { return (nwam_value_create(NWAM_VALUE_TYPE_INT64, values, numvalues, valuep)); } nwam_error_t nwam_value_create_int64(int64_t value, nwam_value_t *valuep) { return (nwam_value_create_int64_array(&value, 1, valuep)); } nwam_error_t nwam_value_create_uint64_array(uint64_t *values, uint_t numvalues, nwam_value_t *valuep) { return (nwam_value_create(NWAM_VALUE_TYPE_UINT64, values, numvalues, valuep)); } nwam_error_t nwam_value_create_uint64(uint64_t value, nwam_value_t *valuep) { return (nwam_value_create_uint64_array(&value, 1, valuep)); } nwam_error_t nwam_value_create_string_array(char **values, uint_t numvalues, nwam_value_t *valuep) { return (nwam_value_create(NWAM_VALUE_TYPE_STRING, values, numvalues, valuep)); } nwam_error_t nwam_value_create_string(char *value, nwam_value_t *valuep) { return (nwam_value_create_string_array(&value, 1, valuep)); } nwam_error_t nwam_value_get_boolean_array(nwam_value_t value, boolean_t **valuesp, uint_t *numvaluesp) { assert(value != NULL && numvaluesp != NULL && valuesp != NULL); *numvaluesp = value->nwv_value_numvalues; *valuesp = value->nwv_values.nwv_boolean; return (NWAM_SUCCESS); } nwam_error_t nwam_value_get_boolean(nwam_value_t value, boolean_t *valuep) { uint_t numvalues; boolean_t *myvaluesp; nwam_error_t err; err = nwam_value_get_boolean_array(value, &myvaluesp, &numvalues); if (err != NWAM_SUCCESS) return (err); if (numvalues != 1) return (NWAM_ENTITY_MULTIPLE_VALUES); *valuep = myvaluesp[0]; return (NWAM_SUCCESS); } nwam_error_t nwam_value_get_int64_array(nwam_value_t value, int64_t **valuesp, uint_t *numvaluesp) { assert(value != NULL && numvaluesp != NULL && valuesp != NULL); *numvaluesp = value->nwv_value_numvalues; *valuesp = value->nwv_values.nwv_int64; return (NWAM_SUCCESS); } nwam_error_t nwam_value_get_int64(nwam_value_t value, int64_t *valuep) { uint_t numvalues; int64_t *myvaluesp; nwam_error_t err; err = nwam_value_get_int64_array(value, &myvaluesp, &numvalues); if (err != NWAM_SUCCESS) return (err); if (numvalues != 1) return (NWAM_ENTITY_MULTIPLE_VALUES); *valuep = myvaluesp[0]; return (NWAM_SUCCESS); } nwam_error_t nwam_value_get_uint64_array(nwam_value_t value, uint64_t **valuesp, uint_t *numvaluesp) { assert(value != NULL && numvaluesp != NULL && valuesp != NULL); *numvaluesp = value->nwv_value_numvalues; *valuesp = value->nwv_values.nwv_uint64; return (NWAM_SUCCESS); } nwam_error_t nwam_value_get_uint64(nwam_value_t value, uint64_t *valuep) { uint_t numvalues; uint64_t *myvaluesp; nwam_error_t err; err = nwam_value_get_uint64_array(value, &myvaluesp, &numvalues); if (err != NWAM_SUCCESS) return (err); if (numvalues != 1) return (NWAM_ENTITY_MULTIPLE_VALUES); *valuep = myvaluesp[0]; return (NWAM_SUCCESS); } nwam_error_t nwam_value_get_string_array(nwam_value_t value, char ***valuesp, uint_t *numvaluesp) { assert(value != NULL && numvaluesp != NULL && valuesp != NULL); *numvaluesp = value->nwv_value_numvalues; *valuesp = value->nwv_values.nwv_string; return (NWAM_SUCCESS); } nwam_error_t nwam_value_get_string(nwam_value_t value, char **valuep) { uint_t numvalues; char **myvaluesp; nwam_error_t err; err = nwam_value_get_string_array(value, &myvaluesp, &numvalues); if (err != NWAM_SUCCESS) return (err); if (numvalues != 1) return (NWAM_ENTITY_MULTIPLE_VALUES); *valuep = myvaluesp[0]; return (NWAM_SUCCESS); } nwam_error_t nwam_value_get_type(nwam_value_t value, nwam_value_type_t *typep) { *typep = value->nwv_value_type; return (NWAM_SUCCESS); } nwam_error_t nwam_value_get_numvalues(nwam_value_t value, uint_t *numvaluesp) { *numvaluesp = value->nwv_value_numvalues; return (NWAM_SUCCESS); } /* * Generic object data functions. We hide nvlist implementation * from NCP, ENM and location implementations. */ nwam_error_t nwam_alloc_object_list(void *list) { int nverr; assert(list != NULL); if ((nverr = nvlist_alloc((nvlist_t **)list, NV_UNIQUE_NAME, 0)) != 0) return (nwam_errno_to_nwam_error(nverr)); return (NWAM_SUCCESS); } void nwam_free_object_list(void *list) { if (list != NULL) nvlist_free(list); } nwam_error_t nwam_dup_object_list(void *oldlist, void *newlist) { int nverr; assert(oldlist != NULL && newlist != NULL); if ((nverr = nvlist_dup(oldlist, newlist, 0)) != 0) return (nwam_errno_to_nwam_error(nverr)); return (NWAM_SUCCESS); } /* Add child object list to parent object list using property name childname */ nwam_error_t nwam_object_list_add_object_list(void *parentlist, char *childname, void *childlist) { return (nwam_errno_to_nwam_error(nvlist_add_nvlist(parentlist, childname, childlist))); } /* Remove object list from parent object list */ nwam_error_t nwam_object_list_remove_object_list(void *parentlist, char *childname) { return (nwam_errno_to_nwam_error(nvlist_remove_all(parentlist, childname))); } /* * Get next object list (nvlist) after lastname. Used to walk NCUs, ENMs and * locations, each of which is internally represented as an nvlist. */ nwam_error_t nwam_next_object_list(void *parentlist, char *lastname, char **childnamep, void *childlistp) { nvpair_t *last = NULL, *next; int nverr; if (lastname != NULL) { if ((nverr = nvlist_lookup_nvpair(parentlist, lastname, &last)) != 0) return (nwam_errno_to_nwam_error(nverr)); } if ((next = nvlist_next_nvpair(parentlist, last)) == NULL) return (NWAM_LIST_END); *childnamep = nvpair_name(next); if (nvpair_type(next) != DATA_TYPE_NVLIST) return (NWAM_ERROR_INTERNAL); if ((nverr = nvpair_value_nvlist(next, childlistp)) != NWAM_SUCCESS) return (nwam_errno_to_nwam_error(nverr)); return (NWAM_SUCCESS); } /* * Pack nvlist into contiguous memory. If packed_listp is NULL, we just * return the size of the memory needed to do so. */ nwam_error_t nwam_pack_object_list(void *list, char **packed_listp, size_t *packed_sizep) { int nverr; assert(list != NULL && packed_sizep != NULL); if (packed_listp == NULL) { nverr = nvlist_size(list, packed_sizep, NV_ENCODE_XDR); } else { nverr = nvlist_pack(list, packed_listp, packed_sizep, NV_ENCODE_XDR, 0); } if (nverr != 0) return (nwam_errno_to_nwam_error(nverr)); return (NWAM_SUCCESS); } nwam_error_t nwam_unpack_object_list(char *packed_list, size_t packed_size, void *list) { int nverr; assert(packed_list != NULL && list != NULL); *((nvlist_t **)list) = NULL; nverr = nvlist_unpack(packed_list, packed_size, (nvlist_t **)list, 0); if (nverr != 0) return (nwam_errno_to_nwam_error(nverr)); return (NWAM_SUCCESS); } /* * Functions to walk, set and get properties in nvlist, translating * between nwam_value_t and nvlist/nvpair representations. */ nwam_error_t nwam_next_object_prop(void *list, char *lastname, char **namep, nwam_value_t *valuep) { nvpair_t *last = NULL, *next; int nverr; if (lastname != NULL) { if ((nverr = nvlist_lookup_nvpair(list, lastname, &last)) != 0) return (nwam_errno_to_nwam_error(nverr)); } if ((next = nvlist_next_nvpair(list, last)) == NULL) return (NWAM_LIST_END); *namep = nvpair_name(next); return (nwam_get_prop_value(list, (const char *)*namep, valuep)); } nwam_error_t nwam_get_prop_value(void *list, const char *name, nwam_value_t *valuep) { nvpair_t *prop; nwam_error_t err; int nverr; boolean_t *valbool; int64_t *valint64; uint64_t *valuint64; char **valstr; uint_t numvalues; assert(valuep != NULL); *valuep = NULL; if ((nverr = nvlist_lookup_nvpair(list, name, &prop)) != 0) { /* convert EINVAL to NOT_FOUND */ if (nverr == EINVAL) return (NWAM_ENTITY_NOT_FOUND); return (nwam_errno_to_nwam_error(nverr)); } switch (nvpair_type(prop)) { case DATA_TYPE_BOOLEAN_ARRAY: if ((nverr = nvpair_value_boolean_array(prop, &valbool, &numvalues)) != 0) return (nwam_errno_to_nwam_error(nverr)); if ((err = nwam_value_create_boolean_array(valbool, numvalues, valuep)) != NWAM_SUCCESS) return (err); break; case DATA_TYPE_INT64_ARRAY: if ((nverr = nvpair_value_int64_array(prop, &valint64, &numvalues)) != 0) return (nwam_errno_to_nwam_error(nverr)); if ((err = nwam_value_create_int64_array(valint64, numvalues, valuep)) != NWAM_SUCCESS) return (err); break; case DATA_TYPE_UINT64_ARRAY: if ((nverr = nvpair_value_uint64_array(prop, &valuint64, &numvalues)) != 0) return (nwam_errno_to_nwam_error(nverr)); if ((err = nwam_value_create_uint64_array(valuint64, numvalues, valuep)) != NWAM_SUCCESS) return (err); break; case DATA_TYPE_STRING_ARRAY: if ((nverr = nvpair_value_string_array(prop, &valstr, &numvalues)) != 0) return (nwam_errno_to_nwam_error(nverr)); if ((err = nwam_value_create_string_array(valstr, numvalues, valuep)) != NWAM_SUCCESS) return (err); break; default: /* Should not happen */ return (NWAM_ERROR_INTERNAL); } return (NWAM_SUCCESS); } nwam_error_t nwam_delete_prop(void *list, const char *name) { int nverr; if ((nverr = nvlist_remove_all(list, name)) != 0) return (nwam_errno_to_nwam_error(nverr)); return (NWAM_SUCCESS); } nwam_error_t nwam_set_prop_value(void *list, const char *propname, nwam_value_t value) { int nverr; nwam_error_t err; nwam_value_type_t type; uint_t numvalues; boolean_t *valbool; int64_t *valint64; uint64_t *valuint64; char **valstr; assert(list != NULL && value != NULL); if ((err = nwam_value_get_type(value, &type)) != NWAM_SUCCESS) return (err); switch (type) { case NWAM_VALUE_TYPE_BOOLEAN: if ((err = nwam_value_get_boolean_array(value, &valbool, &numvalues)) != NWAM_SUCCESS) return (err); if ((nverr = nvlist_add_boolean_array(list, propname, valbool, numvalues)) != 0) return (nwam_errno_to_nwam_error(nverr)); break; case NWAM_VALUE_TYPE_INT64: if ((err = nwam_value_get_int64_array(value, &valint64, &numvalues)) != NWAM_SUCCESS) return (err); if ((nverr = nvlist_add_int64_array(list, propname, valint64, numvalues)) != 0) return (nwam_errno_to_nwam_error(nverr)); break; case NWAM_VALUE_TYPE_UINT64: if ((err = nwam_value_get_uint64_array(value, &valuint64, &numvalues)) != NWAM_SUCCESS) return (err); if ((nverr = nvlist_add_uint64_array(list, propname, valuint64, numvalues)) != 0) return (nwam_errno_to_nwam_error(nverr)); break; case NWAM_VALUE_TYPE_STRING: if ((err = nwam_value_get_string_array(value, &valstr, &numvalues)) != NWAM_SUCCESS) return (err); if ((nverr = nvlist_add_string_array(list, propname, valstr, numvalues)) != 0) return (nwam_errno_to_nwam_error(nverr)); break; default: return (NWAM_INVALID_ARG); } return (NWAM_SUCCESS); } /* Map uint64 values to their string counterparts */ struct nwam_value_entry { const char *value_string; uint64_t value; }; struct nwam_value_entry prop_activation_mode_value_entries[] = { { NWAM_ACTIVATION_MODE_MANUAL_STRING, NWAM_ACTIVATION_MODE_MANUAL }, { NWAM_ACTIVATION_MODE_SYSTEM_STRING, NWAM_ACTIVATION_MODE_SYSTEM }, { NWAM_ACTIVATION_MODE_CONDITIONAL_ANY_STRING, NWAM_ACTIVATION_MODE_CONDITIONAL_ANY }, { NWAM_ACTIVATION_MODE_CONDITIONAL_ALL_STRING, NWAM_ACTIVATION_MODE_CONDITIONAL_ALL }, { NWAM_ACTIVATION_MODE_PRIORITIZED_STRING, NWAM_ACTIVATION_MODE_PRIORITIZED }, { NULL, 0 } }; struct nwam_value_entry ncu_prop_type_entries[] = { { NWAM_NCU_TYPE_LINK_STRING, NWAM_NCU_TYPE_LINK }, { NWAM_NCU_TYPE_INTERFACE_STRING, NWAM_NCU_TYPE_INTERFACE }, { NULL, 0 } }; struct nwam_value_entry ncu_prop_class_entries[] = { { NWAM_NCU_CLASS_PHYS_STRING, NWAM_NCU_CLASS_PHYS }, { NWAM_NCU_CLASS_IP_STRING, NWAM_NCU_CLASS_IP }, { NULL, 0 } }; struct nwam_value_entry ncu_prop_ip_version_entries[] = { { NWAM_IP_VERSION_IPV4_STRING, IPV4_VERSION }, { NWAM_IP_VERSION_IPV6_STRING, IPV6_VERSION }, { NULL, 0 } }; struct nwam_value_entry ncu_prop_ipv4_addrsrc_entries[] = { { NWAM_ADDRSRC_DHCP_STRING, NWAM_ADDRSRC_DHCP }, { NWAM_ADDRSRC_STATIC_STRING, NWAM_ADDRSRC_STATIC }, { NULL, 0 } }; struct nwam_value_entry ncu_prop_ipv6_addrsrc_entries[] = { { NWAM_ADDRSRC_DHCP_STRING, NWAM_ADDRSRC_DHCP }, { NWAM_ADDRSRC_STATIC_STRING, NWAM_ADDRSRC_STATIC }, { NWAM_ADDRSRC_AUTOCONF_STRING, NWAM_ADDRSRC_AUTOCONF }, { NULL, 0 } }; struct nwam_value_entry ncu_prop_priority_mode_entries[] = { { NWAM_PRIORITY_MODE_EXCLUSIVE_STRING, NWAM_PRIORITY_MODE_EXCLUSIVE }, { NWAM_PRIORITY_MODE_SHARED_STRING, NWAM_PRIORITY_MODE_SHARED }, { NWAM_PRIORITY_MODE_ALL_STRING, NWAM_PRIORITY_MODE_ALL }, { NULL, 0 } }; struct nwam_value_entry loc_prop_nameservices_entries[] = { { NWAM_NAMESERVICES_DNS_STRING, NWAM_NAMESERVICES_DNS }, { NWAM_NAMESERVICES_FILES_STRING, NWAM_NAMESERVICES_FILES }, { NWAM_NAMESERVICES_NIS_STRING, NWAM_NAMESERVICES_NIS }, { NWAM_NAMESERVICES_LDAP_STRING, NWAM_NAMESERVICES_LDAP }, { NULL, 0 } }; struct nwam_value_entry loc_prop_nameservice_configsrc_entries[] = { { NWAM_CONFIGSRC_MANUAL_STRING, NWAM_CONFIGSRC_MANUAL }, { NWAM_CONFIGSRC_DHCP_STRING, NWAM_CONFIGSRC_DHCP }, { NULL, 0 } }; struct nwam_value_entry known_wlan_prop_security_mode_entries[] = { { "none", DLADM_WLAN_SECMODE_NONE }, { "wep", DLADM_WLAN_SECMODE_WEP }, { "wpa", DLADM_WLAN_SECMODE_WPA }, { NULL, 0 } }; struct nwam_prop_value_entry { const char *prop_name; struct nwam_value_entry *value_entries; } prop_value_entry_table[] = { { NWAM_NCU_PROP_ACTIVATION_MODE, prop_activation_mode_value_entries }, { NWAM_NCU_PROP_TYPE, ncu_prop_type_entries }, { NWAM_NCU_PROP_CLASS, ncu_prop_class_entries }, { NWAM_NCU_PROP_IP_VERSION, ncu_prop_ip_version_entries }, { NWAM_NCU_PROP_IPV4_ADDRSRC, ncu_prop_ipv4_addrsrc_entries }, { NWAM_NCU_PROP_IPV6_ADDRSRC, ncu_prop_ipv6_addrsrc_entries }, { NWAM_NCU_PROP_PRIORITY_MODE, ncu_prop_priority_mode_entries }, { NWAM_ENM_PROP_ACTIVATION_MODE, prop_activation_mode_value_entries }, { NWAM_LOC_PROP_ACTIVATION_MODE, prop_activation_mode_value_entries }, { NWAM_LOC_PROP_NAMESERVICES, loc_prop_nameservices_entries }, { NWAM_LOC_PROP_DNS_NAMESERVICE_CONFIGSRC, loc_prop_nameservice_configsrc_entries }, { NWAM_LOC_PROP_NIS_NAMESERVICE_CONFIGSRC, loc_prop_nameservice_configsrc_entries }, { NWAM_LOC_PROP_LDAP_NAMESERVICE_CONFIGSRC, loc_prop_nameservice_configsrc_entries }, { NWAM_KNOWN_WLAN_PROP_SECURITY_MODE, known_wlan_prop_security_mode_entries }, { NULL, NULL } }; /* * Convert uint64 values for property propname into a string representing * that value. Used by enum values. */ nwam_error_t nwam_uint64_get_value_string(const char *propname, uint64_t val, const char **valstrp) { int i, j; int max = 0; /* largest enum value seen so far */ struct nwam_value_entry *value_entries; assert(propname != NULL && valstrp != NULL); for (i = 0; prop_value_entry_table[i].prop_name != NULL; i++) { if (strcmp(prop_value_entry_table[i].prop_name, propname) != 0) continue; value_entries = prop_value_entry_table[i].value_entries; for (j = 0; value_entries[j].value_string != NULL; j++) { if (value_entries[j].value == val) { *valstrp = value_entries[j].value_string; return (NWAM_SUCCESS); } max = value_entries[j].value > max ? value_entries[j].value : max; } /* * If trying to get the string for an enum value that doesn't * exist, return NWAM_LIST_END. Otherwise, the input enum * value doesn't exist for the given property. */ if (val > max) return (NWAM_LIST_END); else return (NWAM_ENTITY_INVALID_VALUE); } return (NWAM_INVALID_ARG); } /* * Convert string to appropriate uint64 value. */ nwam_error_t nwam_value_string_get_uint64(const char *propname, const char *valstr, uint64_t *valp) { int i, j; struct nwam_value_entry *value_entries; assert(propname != NULL && valstr != NULL && valp != NULL); for (i = 0; prop_value_entry_table[i].prop_name != NULL; i++) { if (strcmp(prop_value_entry_table[i].prop_name, propname) != 0) continue; value_entries = prop_value_entry_table[i].value_entries; for (j = 0; value_entries[j].value_string != NULL; j++) { if (strcasecmp(value_entries[j].value_string, valstr) == 0) { *valp = value_entries[j].value; return (NWAM_SUCCESS); } } return (NWAM_ENTITY_INVALID_VALUE); } return (NWAM_INVALID_ARG); } /* Conditional activation functions */ nwam_error_t nwam_condition_to_condition_string(nwam_condition_object_type_t object_type, nwam_condition_t condition, const char *object_name, char **stringp) { char *object_type_string, *condition_string; char *string; assert(stringp != NULL); *stringp = NULL; switch (object_type) { case NWAM_CONDITION_OBJECT_TYPE_NCP: object_type_string = NWAM_CONDITION_OBJECT_TYPE_NCP_STRING; break; case NWAM_CONDITION_OBJECT_TYPE_NCU: object_type_string = NWAM_CONDITION_OBJECT_TYPE_NCU_STRING; break; case NWAM_CONDITION_OBJECT_TYPE_ENM: object_type_string = NWAM_CONDITION_OBJECT_TYPE_ENM_STRING; break; case NWAM_CONDITION_OBJECT_TYPE_LOC: object_type_string = NWAM_CONDITION_OBJECT_TYPE_LOC_STRING; break; case NWAM_CONDITION_OBJECT_TYPE_IP_ADDRESS: object_type_string = NWAM_CONDITION_OBJECT_TYPE_IP_ADDRESS_STRING; break; case NWAM_CONDITION_OBJECT_TYPE_ADV_DOMAIN: object_type_string = NWAM_CONDITION_OBJECT_TYPE_ADV_DOMAIN_STRING; break; case NWAM_CONDITION_OBJECT_TYPE_SYS_DOMAIN: object_type_string = NWAM_CONDITION_OBJECT_TYPE_SYS_DOMAIN_STRING; break; case NWAM_CONDITION_OBJECT_TYPE_ESSID: object_type_string = NWAM_CONDITION_OBJECT_TYPE_ESSID_STRING; break; case NWAM_CONDITION_OBJECT_TYPE_BSSID: object_type_string = NWAM_CONDITION_OBJECT_TYPE_BSSID_STRING; break; default: return (NWAM_INVALID_ARG); } switch (condition) { case NWAM_CONDITION_IS: condition_string = NWAM_CONDITION_IS_STRING; break; case NWAM_CONDITION_IS_NOT: condition_string = NWAM_CONDITION_IS_NOT_STRING; break; case NWAM_CONDITION_CONTAINS: if (object_type != NWAM_CONDITION_OBJECT_TYPE_SYS_DOMAIN && object_type != NWAM_CONDITION_OBJECT_TYPE_ADV_DOMAIN && object_type != NWAM_CONDITION_OBJECT_TYPE_ESSID) return (NWAM_INVALID_ARG); condition_string = NWAM_CONDITION_CONTAINS_STRING; break; case NWAM_CONDITION_DOES_NOT_CONTAIN: if (object_type != NWAM_CONDITION_OBJECT_TYPE_SYS_DOMAIN && object_type != NWAM_CONDITION_OBJECT_TYPE_ADV_DOMAIN && object_type != NWAM_CONDITION_OBJECT_TYPE_ESSID) return (NWAM_INVALID_ARG); condition_string = NWAM_CONDITION_DOES_NOT_CONTAIN_STRING; break; case NWAM_CONDITION_IS_IN_RANGE: if (object_type != NWAM_CONDITION_OBJECT_TYPE_IP_ADDRESS) return (NWAM_INVALID_ARG); condition_string = NWAM_CONDITION_IS_IN_RANGE_STRING; break; case NWAM_CONDITION_IS_NOT_IN_RANGE: if (object_type != NWAM_CONDITION_OBJECT_TYPE_IP_ADDRESS) return (NWAM_INVALID_ARG); condition_string = NWAM_CONDITION_IS_NOT_IN_RANGE_STRING; break; default: return (NWAM_INVALID_ARG); break; } if ((string = malloc(NWAM_MAX_VALUE_LEN)) == NULL) return (NWAM_NO_MEMORY); switch (object_type) { case NWAM_CONDITION_OBJECT_TYPE_NCP: case NWAM_CONDITION_OBJECT_TYPE_NCU: case NWAM_CONDITION_OBJECT_TYPE_ENM: case NWAM_CONDITION_OBJECT_TYPE_LOC: (void) snprintf(string, NWAM_MAX_VALUE_LEN, "%s %s %s active", object_type_string, object_name, condition_string); *stringp = string; break; case NWAM_CONDITION_OBJECT_TYPE_IP_ADDRESS: case NWAM_CONDITION_OBJECT_TYPE_ADV_DOMAIN: case NWAM_CONDITION_OBJECT_TYPE_SYS_DOMAIN: case NWAM_CONDITION_OBJECT_TYPE_ESSID: case NWAM_CONDITION_OBJECT_TYPE_BSSID: (void) snprintf(string, NWAM_MAX_VALUE_LEN, "%s %s %s", object_type_string, condition_string, object_name); *stringp = string; break; default: free(string); return (NWAM_INVALID_ARG); } return (NWAM_SUCCESS); } nwam_error_t nwam_condition_string_to_condition(const char *string, nwam_condition_object_type_t *object_typep, nwam_condition_t *conditionp, char **object_namep) { char *copy, *lasts; char *object_type_string, *object_name; char *condition_string, *active_string; assert(string != NULL && object_typep != NULL && conditionp != NULL && object_namep != NULL); if ((copy = strdup(string)) == NULL) return (NWAM_NO_MEMORY); if ((object_type_string = strtok_r(copy, " \t", &lasts)) == NULL) { free(copy); return (NWAM_INVALID_ARG); } if (strcmp(object_type_string, NWAM_CONDITION_OBJECT_TYPE_NCP_STRING) == 0) *object_typep = NWAM_CONDITION_OBJECT_TYPE_NCP; else if (strcmp(object_type_string, NWAM_CONDITION_OBJECT_TYPE_NCU_STRING) == 0) *object_typep = NWAM_CONDITION_OBJECT_TYPE_NCU; else if (strcmp(object_type_string, NWAM_CONDITION_OBJECT_TYPE_ENM_STRING) == 0) *object_typep = NWAM_CONDITION_OBJECT_TYPE_ENM; else if (strcmp(object_type_string, NWAM_CONDITION_OBJECT_TYPE_LOC_STRING) == 0) *object_typep = NWAM_CONDITION_OBJECT_TYPE_LOC; else if (strcmp(object_type_string, NWAM_CONDITION_OBJECT_TYPE_IP_ADDRESS_STRING) == 0) *object_typep = NWAM_CONDITION_OBJECT_TYPE_IP_ADDRESS; else if (strcmp(object_type_string, NWAM_CONDITION_OBJECT_TYPE_ADV_DOMAIN_STRING) == 0) *object_typep = NWAM_CONDITION_OBJECT_TYPE_ADV_DOMAIN; else if (strcmp(object_type_string, NWAM_CONDITION_OBJECT_TYPE_SYS_DOMAIN_STRING) == 0) *object_typep = NWAM_CONDITION_OBJECT_TYPE_SYS_DOMAIN; else if (strcmp(object_type_string, NWAM_CONDITION_OBJECT_TYPE_ESSID_STRING) == 0) *object_typep = NWAM_CONDITION_OBJECT_TYPE_ESSID; else if (strcmp(object_type_string, NWAM_CONDITION_OBJECT_TYPE_BSSID_STRING) == 0) *object_typep = NWAM_CONDITION_OBJECT_TYPE_BSSID; else { free(copy); return (NWAM_INVALID_ARG); } if (*object_typep == NWAM_CONDITION_OBJECT_TYPE_NCP || *object_typep == NWAM_CONDITION_OBJECT_TYPE_NCU || *object_typep == NWAM_CONDITION_OBJECT_TYPE_ENM || *object_typep == NWAM_CONDITION_OBJECT_TYPE_LOC) { if ((object_name = strtok_r(NULL, " \t", &lasts)) == NULL) { free(copy); return (NWAM_INVALID_ARG); } if ((*object_namep = strdup(object_name)) == NULL) { free(copy); return (NWAM_NO_MEMORY); } } if ((condition_string = strtok_r(NULL, " \t", &lasts)) == NULL) { free(copy); if (*object_namep != NULL) free(*object_namep); return (NWAM_INVALID_ARG); } if (strcmp(condition_string, NWAM_CONDITION_IS_STRING) == 0) *conditionp = NWAM_CONDITION_IS; else if (strcmp(condition_string, NWAM_CONDITION_IS_NOT_STRING) == 0) *conditionp = NWAM_CONDITION_IS_NOT; else if (strcmp(condition_string, NWAM_CONDITION_CONTAINS_STRING) == 0) *conditionp = NWAM_CONDITION_CONTAINS; else if (strcmp(condition_string, NWAM_CONDITION_DOES_NOT_CONTAIN_STRING) == 0) *conditionp = NWAM_CONDITION_DOES_NOT_CONTAIN; else if (strcmp(condition_string, NWAM_CONDITION_IS_IN_RANGE_STRING) == 0) *conditionp = NWAM_CONDITION_IS_IN_RANGE; else if (strcmp(condition_string, NWAM_CONDITION_IS_NOT_IN_RANGE_STRING) == 0) *conditionp = NWAM_CONDITION_IS_NOT_IN_RANGE; else { free(copy); if (*object_namep != NULL) free(*object_namep); return (NWAM_INVALID_ARG); } if (*object_typep == NWAM_CONDITION_OBJECT_TYPE_NCP || *object_typep == NWAM_CONDITION_OBJECT_TYPE_NCU || *object_typep == NWAM_CONDITION_OBJECT_TYPE_ENM || *object_typep == NWAM_CONDITION_OBJECT_TYPE_LOC) { if ((*conditionp != NWAM_CONDITION_IS && *conditionp != NWAM_CONDITION_IS_NOT) || (active_string = strtok_r(NULL, " \t", &lasts)) == NULL || strcmp(active_string, NWAM_CONDITION_ACTIVE_STRING) != 0) { free(copy); free(*object_namep); return (NWAM_INVALID_ARG); } } else { switch (*conditionp) { case NWAM_CONDITION_CONTAINS: case NWAM_CONDITION_DOES_NOT_CONTAIN: if (*object_typep != NWAM_CONDITION_OBJECT_TYPE_ADV_DOMAIN && *object_typep != NWAM_CONDITION_OBJECT_TYPE_SYS_DOMAIN && *object_typep != NWAM_CONDITION_OBJECT_TYPE_ESSID) { free(copy); free(*object_namep); return (NWAM_INVALID_ARG); } break; case NWAM_CONDITION_IS_IN_RANGE: case NWAM_CONDITION_IS_NOT_IN_RANGE: if (*object_typep != NWAM_CONDITION_OBJECT_TYPE_IP_ADDRESS) { free(copy); free(*object_namep); return (NWAM_INVALID_ARG); } break; } if ((object_name = strtok_r(NULL, " \t", &lasts)) == NULL) { free(copy); free(*object_namep); return (NWAM_INVALID_ARG); } if ((*object_namep = strdup(object_name)) == NULL) { free(copy); free(*object_namep); return (NWAM_NO_MEMORY); } } free(copy); return (NWAM_SUCCESS); } nwam_error_t nwam_condition_rate(nwam_condition_object_type_t object_type, nwam_condition_t condition, uint64_t *ratep) { assert(ratep != NULL); *ratep = 0; switch (object_type) { case NWAM_CONDITION_OBJECT_TYPE_NCP: case NWAM_CONDITION_OBJECT_TYPE_NCU: case NWAM_CONDITION_OBJECT_TYPE_ENM: case NWAM_CONDITION_OBJECT_TYPE_LOC: (*ratep)++; /* FALLTHRU */ case NWAM_CONDITION_OBJECT_TYPE_SYS_DOMAIN: (*ratep)++; /* FALLTHRU */ case NWAM_CONDITION_OBJECT_TYPE_ADV_DOMAIN: (*ratep)++; /* FALLTHRU */ case NWAM_CONDITION_OBJECT_TYPE_IP_ADDRESS: (*ratep)++; /* FALLTHRU */ case NWAM_CONDITION_OBJECT_TYPE_BSSID: (*ratep)++; /* FALLTHRU */ case NWAM_CONDITION_OBJECT_TYPE_ESSID: (*ratep)++; break; default: return (NWAM_INVALID_ARG); } switch (condition) { case NWAM_CONDITION_IS: (*ratep)++; /* FALLTHRU */ case NWAM_CONDITION_CONTAINS: case NWAM_CONDITION_IS_IN_RANGE: (*ratep)++; /* FALLTHRU */ case NWAM_CONDITION_DOES_NOT_CONTAIN: case NWAM_CONDITION_IS_NOT_IN_RANGE: (*ratep)++; /* FALLTHRU */ case NWAM_CONDITION_IS_NOT: (*ratep)++; break; default: return (NWAM_INVALID_ARG); } return (NWAM_SUCCESS); }