OpenSolaris_b135/lib/fm/topo/libtopo/common/topo_prop.c
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2009 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#include <strings.h>
#include <assert.h>
#include <fm/libtopo.h>
#include <topo_prop.h>
#include <topo_string.h>
#include <topo_alloc.h>
#include <topo_error.h>
#include <topo_method.h>
/*
* Topology nodes are permitted to contain property information.
* Property information is organized according to property grouping.
* Each property group defines a name, a stability level for that name,
* a stability level for all underlying property data (name, type, values),
* a version for the property group definition and and a list of uniquely
* defined properties. Property group versions are incremented when one of
* the following changes occurs:
* - a property name changes
* - a property type changes
* - a property definition is removed from the group
* Compatible changes such as new property definitions in the group do
* not require version changes.
*
* Each property defines a unique (within the group) name, a type and
* a value. Properties may be statically defined as int32, uint32, int64,
* uint64, fmri, string or arrays of each type. Properties may also be
* dynamically exported via module registered methods. For example, a module
* may register a method to export an ASRU property that is dynamically
* contructed when a call to topo_node_fmri() is invoked for a particular
* topology node.
*
* Static properties are persistently attached to topology nodes during
* enumeration by an enumeration module or as part of XML statements in a
* toplogy map file using the topo_prop_set* family of routines. Similarly,
* property methods are registered during enumeration or as part of
* statements in topololgy map files. Set-up of property methods is performed
* by calling topo_prop_method_register().
*
* All properties, whether statically persisted in a snapshot or dynamically
* obtained, may be read via the topo_prop_get* family of interfaces.
* Callers wishing to receive all property groups and properties for a given
* node may use topo_prop_getall(). This routine returns a nested nvlist
* of all groupings and property (name, type, value) sets. Groupings
* are defined by TOPO_PROP_GROUP (name, data stability, name stability and
* version) and a nested nvlist of properties (TOPO_PROP_VAL). Each property
* value is defined by its name, type and value.
*/
static void topo_propval_destroy(topo_propval_t *);
static topo_pgroup_t *
pgroup_get(tnode_t *node, const char *pgname)
{
topo_pgroup_t *pg;
/*
* Check for an existing pgroup
*/
for (pg = topo_list_next(&node->tn_pgroups); pg != NULL;
pg = topo_list_next(pg)) {
if (strcmp(pg->tpg_info->tpi_name, pgname) == 0) {
return (pg);
}
}
return (NULL);
}
static topo_propval_t *
propval_get(topo_pgroup_t *pg, const char *pname)
{
topo_proplist_t *pvl;
if (pg == NULL)
return (NULL);
for (pvl = topo_list_next(&pg->tpg_pvals); pvl != NULL;
pvl = topo_list_next(pvl)) {
if (strcmp(pvl->tp_pval->tp_name, pname) == 0)
return (pvl->tp_pval);
}
return (NULL);
}
static int
method_geterror(nvlist_t *nvl, int err, int *errp)
{
if (nvl != NULL)
nvlist_free(nvl);
*errp = err;
return (-1);
}
static int
prop_method_get(tnode_t *node, topo_propval_t *pv, topo_propmethod_t *pm,
nvlist_t *pargs, int *err)
{
int ret;
nvlist_t *args, *nvl;
char *name;
topo_type_t type;
if (topo_hdl_nvalloc(pv->tp_hdl, &args, NV_UNIQUE_NAME) < 0 ||
nvlist_add_nvlist(args, TOPO_PROP_ARGS, pm->tpm_args) != 0)
return (method_geterror(NULL, ETOPO_PROP_NVL, err));
if (pargs != NULL)
if (nvlist_add_nvlist(args, TOPO_PROP_PARGS, pargs) != 0)
return (method_geterror(args, ETOPO_PROP_NVL, err));
/*
* Now, get the latest value
*
* Grab a reference to the property and then unlock the node. This will
* allow property methods to safely re-enter the prop_get codepath,
* making it possible for property methods to access other property
* values on the same node w\o causing a deadlock.
*/
topo_prop_hold(pv);
topo_node_unlock(node);
if (topo_method_call(node, pm->tpm_name, pm->tpm_version,
args, &nvl, err) < 0) {
topo_node_lock(node);
topo_prop_rele(pv);
return (method_geterror(args, *err, err));
}
topo_node_lock(node);
topo_prop_rele(pv);
nvlist_free(args);
/* Verify the property contents */
ret = nvlist_lookup_string(nvl, TOPO_PROP_VAL_NAME, &name);
if (ret != 0 || strcmp(name, pv->tp_name) != 0)
return (method_geterror(nvl, ETOPO_PROP_NAME, err));
ret = nvlist_lookup_uint32(nvl, TOPO_PROP_VAL_TYPE, (uint32_t *)&type);
if (ret != 0 || type != pv->tp_type)
return (method_geterror(nvl, ETOPO_PROP_TYPE, err));
/* Release the last value and re-assign to the new value */
if (pv->tp_val != NULL)
nvlist_free(pv->tp_val);
pv->tp_val = nvl;
return (0);
}
static topo_propval_t *
prop_get(tnode_t *node, const char *pgname, const char *pname, nvlist_t *pargs,
int *err)
{
topo_propval_t *pv = NULL;
if ((pv = propval_get(pgroup_get(node, pgname), pname)) == NULL) {
*err = ETOPO_PROP_NOENT;
return (NULL);
}
if (pv->tp_flag & TOPO_PROP_NONVOLATILE && pv->tp_val != NULL)
return (pv);
if (pv->tp_method != NULL) {
if (prop_method_get(node, pv, pv->tp_method, pargs, err) < 0)
return (NULL);
}
return (pv);
}
static int
get_properror(tnode_t *node, int *errp, int err)
{
topo_node_unlock(node);
*errp = err;
return (-1);
}
static int
prop_getval(tnode_t *node, const char *pgname, const char *pname, void *val,
topo_type_t type, uint_t *nelems, int *err)
{
int i, j, ret = 0;
topo_hdl_t *thp = node->tn_hdl;
topo_propval_t *pv;
topo_node_lock(node);
if ((pv = prop_get(node, pgname, pname, NULL, err))
== NULL)
return (get_properror(node, err, *err));
if (pv->tp_type != type)
return (get_properror(node, err, ETOPO_PROP_TYPE));
switch (type) {
case TOPO_TYPE_INT32:
ret = nvlist_lookup_int32(pv->tp_val, TOPO_PROP_VAL_VAL,
(int32_t *)val);
break;
case TOPO_TYPE_UINT32:
ret = nvlist_lookup_uint32(pv->tp_val,
TOPO_PROP_VAL_VAL, (uint32_t *)val);
break;
case TOPO_TYPE_INT64:
ret = nvlist_lookup_int64(pv->tp_val, TOPO_PROP_VAL_VAL,
(int64_t *)val);
break;
case TOPO_TYPE_UINT64:
ret = nvlist_lookup_uint64(pv->tp_val,
TOPO_PROP_VAL_VAL, (uint64_t *)val);
break;
case TOPO_TYPE_DOUBLE:
ret = nvlist_lookup_double(pv->tp_val,
TOPO_PROP_VAL_VAL, (double *)val);
break;
case TOPO_TYPE_STRING: {
char *str;
ret = nvlist_lookup_string(pv->tp_val,
TOPO_PROP_VAL_VAL, &str);
if (ret == 0) {
char *s2;
if ((s2 = topo_hdl_strdup(thp, str)) == NULL)
ret = -1;
else
*(char **)val = s2;
}
break;
}
case TOPO_TYPE_FMRI: {
nvlist_t *nvl;
ret = nvlist_lookup_nvlist(pv->tp_val,
TOPO_PROP_VAL_VAL, &nvl);
if (ret == 0)
ret = topo_hdl_nvdup(thp, nvl,
(nvlist_t **)val);
break;
}
case TOPO_TYPE_INT32_ARRAY: {
int32_t *a1, *a2;
if ((ret = nvlist_lookup_int32_array(pv->tp_val,
TOPO_PROP_VAL_VAL, &a2, nelems)) != 0)
break;
if ((a1 = topo_hdl_alloc(thp, sizeof (int32_t) *
*nelems)) == NULL) {
ret = ETOPO_NOMEM;
break;
}
for (i = 0; i < *nelems; ++i)
a1[i] = a2[i];
*(int32_t **)val = a1;
break;
}
case TOPO_TYPE_UINT32_ARRAY: {
uint32_t *a1, *a2;
if ((ret = nvlist_lookup_uint32_array(pv->tp_val,
TOPO_PROP_VAL_VAL, &a2, nelems)) != 0)
break;
if ((a1 = topo_hdl_alloc(thp, sizeof (uint32_t) *
*nelems)) == NULL) {
ret = ETOPO_NOMEM;
break;
}
for (i = 0; i < *nelems; ++i)
a1[i] = a2[i];
*(uint32_t **)val = a1;
break;
}
case TOPO_TYPE_INT64_ARRAY: {
int64_t *a1, *a2;
if ((ret = nvlist_lookup_int64_array(pv->tp_val,
TOPO_PROP_VAL_VAL, &a2, nelems)) != 0)
break;
if ((a1 = topo_hdl_alloc(thp, sizeof (int64_t) *
*nelems)) == NULL) {
ret = ETOPO_NOMEM;
break;
}
for (i = 0; i < *nelems; ++i)
a1[i] = a2[i];
*(int64_t **)val = a1;
break;
}
case TOPO_TYPE_UINT64_ARRAY: {
uint64_t *a1, *a2;
if ((ret = nvlist_lookup_uint64_array(pv->tp_val,
TOPO_PROP_VAL_VAL, &a2, nelems)) != 0)
break;
if ((a1 = topo_hdl_alloc(thp, sizeof (uint64_t) *
*nelems)) == NULL) {
ret = ETOPO_NOMEM;
break;
}
for (i = 0; i < *nelems; ++i)
a1[i] = a2[i];
*(uint64_t **)val = a1;
break;
}
case TOPO_TYPE_STRING_ARRAY: {
char **a1, **a2;
if ((ret = nvlist_lookup_string_array(pv->tp_val,
TOPO_PROP_VAL_VAL, &a2, nelems)) != 0)
break;
if ((a1 = topo_hdl_alloc(thp, sizeof (char *) *
*nelems)) == NULL) {
ret = ETOPO_NOMEM;
break;
}
for (i = 0; i < *nelems; ++i) {
if ((a1[i] = topo_hdl_strdup(thp, a2[i]))
== NULL) {
for (j = 0; j < i; ++j)
topo_hdl_free(thp, a1[j],
sizeof (char *));
topo_hdl_free(thp, a1,
sizeof (char *) * *nelems);
break;
}
}
*(char ***)val = a1;
break;
}
case TOPO_TYPE_FMRI_ARRAY: {
nvlist_t **a1, **a2;
if ((ret = nvlist_lookup_nvlist_array(pv->tp_val,
TOPO_PROP_VAL_VAL, &a2, nelems)) != 0)
break;
if ((a1 = topo_hdl_alloc(thp, sizeof (nvlist_t *) *
*nelems)) == NULL) {
ret = ETOPO_NOMEM;
break;
}
for (i = 0; i < *nelems; ++i) {
if (topo_hdl_nvdup(thp, a2[i], &a1[i]) < 0) {
for (j = 0; j < i; ++j)
nvlist_free(a1[j]);
topo_hdl_free(thp, a1,
sizeof (nvlist_t *) * *nelems);
break;
}
}
*(nvlist_t ***)val = a1;
break;
}
default:
ret = ETOPO_PROP_NOENT;
}
if (ret != 0)
if (ret == ENOENT)
return (get_properror(node, err, ETOPO_PROP_NOENT));
else if (ret < ETOPO_UNKNOWN)
return (get_properror(node, err, ETOPO_PROP_NVL));
else
return (get_properror(node, err, ret));
topo_node_unlock(node);
return (0);
}
int
topo_prop_get_int32(tnode_t *node, const char *pgname, const char *pname,
int32_t *val, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val, TOPO_TYPE_INT32,
NULL, err));
}
int
topo_prop_get_uint32(tnode_t *node, const char *pgname, const char *pname,
uint32_t *val, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val, TOPO_TYPE_UINT32,
NULL, err));
}
int
topo_prop_get_int64(tnode_t *node, const char *pgname, const char *pname,
int64_t *val, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val, TOPO_TYPE_INT64,
NULL, err));
}
int
topo_prop_get_uint64(tnode_t *node, const char *pgname, const char *pname,
uint64_t *val, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val, TOPO_TYPE_UINT64,
NULL, err));
}
int
topo_prop_get_double(tnode_t *node, const char *pgname, const char *pname,
double *val, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val, TOPO_TYPE_DOUBLE,
NULL, err));
}
int
topo_prop_get_string(tnode_t *node, const char *pgname, const char *pname,
char **val, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val, TOPO_TYPE_STRING,
NULL, err));
}
int
topo_prop_get_fmri(tnode_t *node, const char *pgname, const char *pname,
nvlist_t **val, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val, TOPO_TYPE_FMRI,
NULL, err));
}
int
topo_prop_get_int32_array(tnode_t *node, const char *pgname, const char *pname,
int32_t **val, uint_t *nelem, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val,
TOPO_TYPE_INT32_ARRAY, nelem, err));
}
int
topo_prop_get_uint32_array(tnode_t *node, const char *pgname, const char *pname,
uint32_t **val, uint_t *nelem, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val,
TOPO_TYPE_UINT32_ARRAY, nelem, err));
}
int
topo_prop_get_int64_array(tnode_t *node, const char *pgname, const char *pname,
int64_t **val, uint_t *nelem, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val,
TOPO_TYPE_INT64_ARRAY, nelem, err));
}
int
topo_prop_get_uint64_array(tnode_t *node, const char *pgname, const char *pname,
uint64_t **val, uint_t *nelem, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val,
TOPO_TYPE_UINT64_ARRAY, nelem, err));
}
int
topo_prop_get_string_array(tnode_t *node, const char *pgname, const char *pname,
char ***val, uint_t *nelem, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val,
TOPO_TYPE_STRING_ARRAY, nelem, err));
}
int
topo_prop_get_fmri_array(tnode_t *node, const char *pgname, const char *pname,
nvlist_t ***val, uint_t *nelem, int *err)
{
return (prop_getval(node, pgname, pname, (void *)val,
TOPO_TYPE_FMRI_ARRAY, nelem, err));
}
static topo_propval_t *
set_seterror(tnode_t *node, topo_proplist_t *pvl, int *errp, int err)
{
topo_hdl_t *thp = node->tn_hdl;
topo_propval_t *pv;
if (pvl != NULL) {
pv = pvl->tp_pval;
topo_propval_destroy(pv);
topo_hdl_free(thp, pvl, sizeof (topo_proplist_t));
}
topo_node_unlock(node);
*errp = err;
return (NULL);
}
static topo_propval_t *
prop_create(tnode_t *node, const char *pgname, const char *pname,
topo_type_t type, int flag, int *err)
{
topo_hdl_t *thp = node->tn_hdl;
topo_pgroup_t *pg;
topo_propval_t *pv;
topo_proplist_t *pvl;
/*
* Replace existing prop value with new one
*/
if ((pg = pgroup_get(node, pgname)) == NULL) {
topo_node_unlock(node);
*err = ETOPO_PROP_NOENT;
return (NULL);
}
if ((pv = propval_get(pg, pname)) != NULL) {
if (pv->tp_type != type)
return (set_seterror(node, NULL, err, ETOPO_PROP_TYPE));
else if (! (pv->tp_flag & TOPO_PROP_MUTABLE))
return (set_seterror(node, NULL, err, ETOPO_PROP_DEFD));
nvlist_free(pv->tp_val);
pv->tp_val = NULL;
} else {
if ((pvl = topo_hdl_zalloc(thp, sizeof (topo_proplist_t)))
== NULL)
return (set_seterror(node, NULL, err, ETOPO_NOMEM));
if ((pv = topo_hdl_zalloc(thp, sizeof (topo_propval_t)))
== NULL)
return (set_seterror(node, pvl, err, ETOPO_NOMEM));
pv->tp_hdl = thp;
pvl->tp_pval = pv;
if ((pv->tp_name = topo_hdl_strdup(thp, pname))
== NULL)
return (set_seterror(node, pvl, err, ETOPO_NOMEM));
pv->tp_flag = flag;
pv->tp_type = type;
topo_prop_hold(pv);
topo_list_append(&pg->tpg_pvals, pvl);
}
return (pv);
}
static int
topo_prop_set(tnode_t *node, const char *pgname, const char *pname,
topo_type_t type, int flag, void *val, int nelems, int *err)
{
int ret;
topo_hdl_t *thp = node->tn_hdl;
nvlist_t *nvl;
if (topo_hdl_nvalloc(thp, &nvl, NV_UNIQUE_NAME) < 0) {
*err = ETOPO_PROP_NVL;
return (-1);
}
ret = nvlist_add_string(nvl, TOPO_PROP_VAL_NAME, pname);
ret |= nvlist_add_uint32(nvl, TOPO_PROP_VAL_TYPE, type);
switch (type) {
case TOPO_TYPE_INT32:
ret |= nvlist_add_int32(nvl, TOPO_PROP_VAL_VAL,
*(int32_t *)val);
break;
case TOPO_TYPE_UINT32:
ret |= nvlist_add_uint32(nvl, TOPO_PROP_VAL_VAL,
*(uint32_t *)val);
break;
case TOPO_TYPE_INT64:
ret |= nvlist_add_int64(nvl, TOPO_PROP_VAL_VAL,
*(int64_t *)val);
break;
case TOPO_TYPE_UINT64:
ret |= nvlist_add_uint64(nvl, TOPO_PROP_VAL_VAL,
*(uint64_t *)val);
break;
case TOPO_TYPE_DOUBLE:
ret |= nvlist_add_double(nvl, TOPO_PROP_VAL_VAL,
*(double *)val);
break;
case TOPO_TYPE_STRING:
ret |= nvlist_add_string(nvl, TOPO_PROP_VAL_VAL,
(char *)val);
break;
case TOPO_TYPE_FMRI:
ret |= nvlist_add_nvlist(nvl, TOPO_PROP_VAL_VAL,
(nvlist_t *)val);
break;
case TOPO_TYPE_INT32_ARRAY:
ret |= nvlist_add_int32_array(nvl,
TOPO_PROP_VAL_VAL, (int32_t *)val, nelems);
break;
case TOPO_TYPE_UINT32_ARRAY:
ret |= nvlist_add_uint32_array(nvl,
TOPO_PROP_VAL_VAL, (uint32_t *)val, nelems);
break;
case TOPO_TYPE_INT64_ARRAY:
ret |= nvlist_add_int64_array(nvl,
TOPO_PROP_VAL_VAL, (int64_t *)val, nelems);
break;
case TOPO_TYPE_UINT64_ARRAY:
ret |= nvlist_add_uint64_array(nvl,
TOPO_PROP_VAL_VAL, (uint64_t *)val, nelems);
break;
case TOPO_TYPE_STRING_ARRAY:
ret |= nvlist_add_string_array(nvl,
TOPO_PROP_VAL_VAL, (char **)val, nelems);
break;
case TOPO_TYPE_FMRI_ARRAY:
ret |= nvlist_add_nvlist_array(nvl,
TOPO_PROP_VAL_VAL, (nvlist_t **)val, nelems);
break;
default:
*err = ETOPO_PROP_TYPE;
return (-1);
}
if (ret != 0) {
nvlist_free(nvl);
if (ret == ENOMEM) {
*err = ETOPO_PROP_NOMEM;
return (-1);
} else {
*err = ETOPO_PROP_NVL;
return (-1);
}
}
if (topo_prop_setprop(node, pgname, nvl, flag, nvl, err) != 0) {
nvlist_free(nvl);
return (-1); /* err set */
}
nvlist_free(nvl);
return (ret);
}
int
topo_prop_set_int32(tnode_t *node, const char *pgname, const char *pname,
int flag, int32_t val, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_INT32, flag,
&val, 1, err));
}
int
topo_prop_set_uint32(tnode_t *node, const char *pgname, const char *pname,
int flag, uint32_t val, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_UINT32, flag,
&val, 1, err));
}
int
topo_prop_set_int64(tnode_t *node, const char *pgname, const char *pname,
int flag, int64_t val, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_INT64, flag,
&val, 1, err));
}
int
topo_prop_set_uint64(tnode_t *node, const char *pgname, const char *pname,
int flag, uint64_t val, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_UINT64, flag,
&val, 1, err));
}
int
topo_prop_set_double(tnode_t *node, const char *pgname, const char *pname,
int flag, double val, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_DOUBLE, flag,
&val, 1, err));
}
int
topo_prop_set_string(tnode_t *node, const char *pgname, const char *pname,
int flag, const char *val, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_STRING, flag,
(void *)val, 1, err));
}
int
topo_prop_set_fmri(tnode_t *node, const char *pgname, const char *pname,
int flag, const nvlist_t *fmri, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_FMRI, flag,
(void *)fmri, 1, err));
}
int
topo_prop_set_int32_array(tnode_t *node, const char *pgname, const char *pname,
int flag, int32_t *val, uint_t nelems, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_INT32_ARRAY, flag,
val, nelems, err));
}
int
topo_prop_set_uint32_array(tnode_t *node, const char *pgname, const char *pname,
int flag, uint32_t *val, uint_t nelems, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_UINT32_ARRAY, flag,
val, nelems, err));
}
int
topo_prop_set_int64_array(tnode_t *node, const char *pgname, const char *pname,
int flag, int64_t *val, uint_t nelems, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_INT64_ARRAY, flag,
val, nelems, err));
}
int
topo_prop_set_uint64_array(tnode_t *node, const char *pgname, const char *pname,
int flag, uint64_t *val, uint_t nelems, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_UINT64_ARRAY, flag,
val, nelems, err));
}
int
topo_prop_set_string_array(tnode_t *node, const char *pgname, const char *pname,
int flag, const char **val, uint_t nelems, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_STRING_ARRAY, flag,
(void *)val, nelems, err));
}
int
topo_prop_set_fmri_array(tnode_t *node, const char *pgname, const char *pname,
int flag, const nvlist_t **fmri, uint_t nelems, int *err)
{
return (topo_prop_set(node, pgname, pname, TOPO_TYPE_FMRI_ARRAY, flag,
(void *)fmri, nelems, err));
}
/*
* topo_prop_setprop() is a private project function for fmtopo
*/
int
topo_prop_setprop(tnode_t *node, const char *pgname, nvlist_t *prop,
int flag, nvlist_t *pargs, int *err)
{
int ret;
topo_hdl_t *thp = node->tn_hdl;
topo_propval_t *pv;
nvlist_t *nvl, *args;
char *name;
topo_type_t type;
if (nvlist_lookup_string(prop, TOPO_PROP_VAL_NAME, &name) != 0) {
*err = ETOPO_PROP_NAME;
return (-1);
}
if (nvlist_lookup_uint32(prop, TOPO_PROP_VAL_TYPE, (uint32_t *)&type)
!= 0) {
*err = ETOPO_PROP_TYPE;
return (-1);
}
topo_node_lock(node);
if ((pv = prop_create(node, pgname, name, type, flag, err)) == NULL)
return (-1); /* unlocked and err set */
/*
* Set by method or set to new prop value. If we fail, leave
* property in list with old value.
*/
if (pv->tp_method != NULL) {
topo_propmethod_t *pm = pv->tp_method;
if (topo_hdl_nvalloc(pv->tp_hdl, &args, NV_UNIQUE_NAME) < 0) {
topo_node_unlock(node);
*err = ETOPO_PROP_NOMEM;
return (-1);
}
ret = nvlist_add_nvlist(args, TOPO_PROP_ARGS, pm->tpm_args);
if (pargs != NULL)
ret |= nvlist_add_nvlist(args, TOPO_PROP_PARGS, pargs);
if (ret != 0) {
topo_node_unlock(node);
nvlist_free(args);
*err = ETOPO_PROP_NVL;
return (-1);
}
/*
*
* Grab a reference to the property and then unlock the node.
* This will allow property methods to safely re-enter the
* prop_get codepath, making it possible for property methods
* to access other property values on the same node w\o causing
* a deadlock.
*
* We don't technically need this now, since this interface is
* currently only used by fmtopo (which is single-threaded), but
* we may make this interface available to other parts of
* libtopo in the future, so best to make it MT-safe now.
*/
topo_prop_hold(pv);
topo_node_unlock(node);
ret = topo_method_call(node, pm->tpm_name, pm->tpm_version,
args, &nvl, err);
topo_node_lock(node);
topo_prop_rele(pv);
nvlist_free(args);
} else {
if ((ret = topo_hdl_nvdup(thp, prop, &nvl)) != 0)
*err = ETOPO_PROP_NOMEM;
}
if (ret != 0) {
topo_node_unlock(node);
return (-1);
}
pv->tp_val = nvl;
topo_node_unlock(node);
return (0);
}
static int
register_methoderror(tnode_t *node, topo_propmethod_t *pm, int *errp, int l,
int err)
{
topo_hdl_t *thp = node->tn_hdl;
if (pm != NULL) {
if (pm->tpm_name != NULL)
topo_hdl_strfree(thp, pm->tpm_name);
if (pm->tpm_args != NULL)
nvlist_free(pm->tpm_args);
topo_hdl_free(thp, pm, sizeof (topo_propmethod_t));
}
*errp = err;
if (l != 0)
topo_node_unlock(node);
return (-1);
}
int
prop_method_register(tnode_t *node, const char *pgname, const char *pname,
topo_type_t ptype, const char *mname, topo_version_t version,
const nvlist_t *args, int *err)
{
topo_hdl_t *thp = node->tn_hdl;
topo_propmethod_t *pm = NULL;
topo_propval_t *pv = NULL;
if ((pm = topo_hdl_zalloc(thp, sizeof (topo_propmethod_t))) == NULL)
return (register_methoderror(node, pm, err, 1,
ETOPO_PROP_NOMEM));
if ((pm->tpm_name = topo_hdl_strdup(thp, mname)) == NULL)
return (register_methoderror(node, pm, err, 1,
ETOPO_PROP_NOMEM));
pm->tpm_version = version;
if (topo_hdl_nvdup(thp, (nvlist_t *)args, &pm->tpm_args) != 0)
return (register_methoderror(node, pm, err, 1,
ETOPO_PROP_NOMEM));
/*
* It's possible the property may already exist. However we still want
* to allow the method to be registered. This is to handle the case
* where we specify a prop method in an xml map to override the value
* that was set by the enumerator.
*
* By default, propmethod-backed properties are not MUTABLE. This is
* done to simplify the programming model for modules that implement
* property methods as most propmethods tend to only support get
* operations. Enumerator modules can override this by calling
* topo_prop_setmutable(). Propmethods that are registered via XML can
* be set as mutable via the optional "mutable" attribute, which will
* result in the xml parser calling topo_prop_setflags() after
* registering the propmethod.
*/
if ((pv = propval_get(pgroup_get(node, pgname), pname)) == NULL)
if ((pv = prop_create(node, pgname, pname, ptype,
TOPO_PROP_IMMUTABLE, err)) == NULL) {
/* node unlocked */
return (register_methoderror(node, pm, err, 0, *err));
}
if (pv->tp_method != NULL)
return (register_methoderror(node, pm, err, 1,
ETOPO_METHOD_DEFD));
if (pv->tp_val != NULL) {
nvlist_free(pv->tp_val);
pv->tp_val = NULL;
}
pv->tp_method = pm;
topo_node_unlock(node);
return (0);
}
int
topo_prop_method_register(tnode_t *node, const char *pgname, const char *pname,
topo_type_t ptype, const char *mname, const nvlist_t *args, int *err)
{
topo_imethod_t *mp;
topo_node_lock(node);
if ((mp = topo_method_lookup(node, mname)) == NULL)
return (register_methoderror(node, NULL, err, 1,
ETOPO_METHOD_NOTSUP)); /* node unlocked */
topo_node_lock(node);
return (prop_method_register(node, pgname, pname, ptype, mname,
mp->tim_version, args, err)); /* err set and node unlocked */
}
int
topo_prop_method_version_register(tnode_t *node, const char *pgname,
const char *pname, topo_type_t ptype, const char *mname,
topo_version_t version, const nvlist_t *args, int *err)
{
topo_imethod_t *mp;
topo_node_lock(node);
if ((mp = topo_method_lookup(node, mname)) == NULL)
return (register_methoderror(node, NULL, err, 1,
ETOPO_METHOD_NOTSUP)); /* node unlocked */
topo_node_lock(node);
if (version < mp->tim_version)
return (register_methoderror(node, NULL, err, 1,
ETOPO_METHOD_VEROLD));
if (version > mp->tim_version)
return (register_methoderror(node, NULL, err, 1,
ETOPO_METHOD_VERNEW));
return (prop_method_register(node, pgname, pname, ptype, mname,
version, args, err)); /* err set and node unlocked */
}
void
topo_prop_method_unregister(tnode_t *node, const char *pgname,
const char *pname)
{
topo_propval_t *pv;
topo_pgroup_t *pg;
topo_proplist_t *pvl;
topo_hdl_t *thp = node->tn_hdl;
topo_node_lock(node);
for (pg = topo_list_next(&node->tn_pgroups); pg != NULL;
pg = topo_list_next(pg)) {
if (strcmp(pg->tpg_info->tpi_name, pgname) == 0) {
break;
}
}
if (pg == NULL) {
topo_node_unlock(node);
return;
}
for (pvl = topo_list_next(&pg->tpg_list); pvl != NULL;
pvl = topo_list_next(pvl)) {
pv = pvl->tp_pval;
if (strcmp(pv->tp_name, pname) == 0) {
topo_list_delete(&pg->tpg_pvals, pvl);
assert(pv->tp_refs == 1);
topo_prop_rele(pv);
topo_hdl_free(thp, pvl, sizeof (topo_proplist_t));
break;
}
}
topo_node_unlock(node);
}
int
topo_prop_setmutable(tnode_t *node, const char *pgname, const char *pname,
int *err)
{
topo_propval_t *pv = NULL;
topo_node_lock(node);
if ((pv = propval_get(pgroup_get(node, pgname), pname)) == NULL) {
topo_node_unlock(node);
*err = ETOPO_PROP_NOENT;
return (-1);
}
/*
* If the property is being inherited then we don't want to allow a
* change from IMMUTABLE to MUTABLE.
*/
if (pv->tp_refs > 1) {
topo_node_unlock(node);
*err = ETOPO_PROP_DEFD;
return (-1);
}
pv->tp_flag |= TOPO_PROP_MUTABLE;
topo_node_unlock(node);
return (0);
}
int
topo_prop_setnonvolatile(tnode_t *node, const char *pgname, const char *pname,
int *err)
{
topo_propval_t *pv = NULL;
topo_node_lock(node);
if ((pv = propval_get(pgroup_get(node, pgname), pname)) == NULL) {
topo_node_unlock(node);
*err = ETOPO_PROP_NOENT;
return (-1);
}
pv->tp_flag |= TOPO_PROP_NONVOLATILE;
topo_node_unlock(node);
return (0);
}
static int
inherit_seterror(tnode_t *node, int *errp, int err)
{
topo_node_unlock(node);
topo_node_unlock(node->tn_parent);
*errp = err;
return (-1);
}
int
topo_prop_inherit(tnode_t *node, const char *pgname, const char *name, int *err)
{
topo_hdl_t *thp = node->tn_hdl;
tnode_t *pnode = node->tn_parent;
topo_pgroup_t *pg;
topo_propval_t *pv;
topo_proplist_t *pvl;
topo_node_lock(pnode);
topo_node_lock(node);
/*
* Check if the requested property group and prop val are already set
* on the node.
*/
if (propval_get(pgroup_get(node, pgname), name) != NULL)
return (inherit_seterror(node, err, ETOPO_PROP_DEFD));
/*
* Check if the requested property group and prop val exists on the
* parent node
*/
if ((pv = propval_get(pgroup_get(pnode, pgname), name)) == NULL)
return (inherit_seterror(node, err, ETOPO_PROP_NOENT));
/*
* Can this propval be inherited?
*/
if (pv->tp_flag & TOPO_PROP_MUTABLE)
return (inherit_seterror(node, err, ETOPO_PROP_NOINHERIT));
/*
* Property group should already exist: bump the ref count for this
* propval and add it to the node's property group
*/
if ((pg = pgroup_get(node, pgname)) == NULL)
return (inherit_seterror(node, err, ETOPO_PROP_NOENT));
if ((pvl = topo_hdl_zalloc(thp, sizeof (topo_proplist_t)))
== NULL)
return (inherit_seterror(node, err, ETOPO_NOMEM));
topo_prop_hold(pv);
pvl->tp_pval = pv;
topo_list_append(&pg->tpg_pvals, pvl);
topo_node_unlock(node);
topo_node_unlock(pnode);
return (0);
}
topo_pgroup_info_t *
topo_pgroup_info(tnode_t *node, const char *pgname, int *err)
{
topo_hdl_t *thp = node->tn_hdl;
topo_pgroup_t *pg;
topo_ipgroup_info_t *pip;
topo_pgroup_info_t *info;
topo_node_lock(node);
for (pg = topo_list_next(&node->tn_pgroups); pg != NULL;
pg = topo_list_next(pg)) {
if (strcmp(pgname, pg->tpg_info->tpi_name) == 0) {
if ((info = topo_hdl_alloc(thp,
sizeof (topo_pgroup_info_t))) == NULL)
return (NULL);
pip = pg->tpg_info;
if ((info->tpi_name =
topo_hdl_strdup(thp, pip->tpi_name)) == NULL) {
*err = ETOPO_PROP_NOMEM;
topo_hdl_free(thp, info,
sizeof (topo_pgroup_info_t));
topo_node_unlock(node);
return (NULL);
}
info->tpi_namestab = pip->tpi_namestab;
info->tpi_datastab = pip->tpi_datastab;
info->tpi_version = pip->tpi_version;
topo_node_unlock(node);
return (info);
}
}
*err = ETOPO_PROP_NOENT;
topo_node_unlock(node);
return (NULL);
}
static int
pgroup_seterr(tnode_t *node, topo_pgroup_t *pg, topo_ipgroup_info_t *pip,
int *err)
{
topo_hdl_t *thp = node->tn_hdl;
if (pip != NULL) {
if (pip->tpi_name != NULL)
topo_hdl_strfree(thp, (char *)pip->tpi_name);
topo_hdl_free(thp, pip, sizeof (topo_ipgroup_info_t));
}
topo_hdl_free(thp, pg, sizeof (topo_pgroup_t));
*err = ETOPO_NOMEM;
topo_node_unlock(node);
return (-1);
}
int
topo_pgroup_create(tnode_t *node, const topo_pgroup_info_t *pinfo, int *err)
{
topo_pgroup_t *pg;
topo_ipgroup_info_t *pip;
topo_hdl_t *thp = node->tn_hdl;
*err = 0;
topo_node_lock(node);
/*
* Check for an existing pgroup
*/
for (pg = topo_list_next(&node->tn_pgroups); pg != NULL;
pg = topo_list_next(pg)) {
if (strcmp(pg->tpg_info->tpi_name, pinfo->tpi_name) == 0) {
*err = ETOPO_PROP_DEFD;
topo_node_unlock(node);
return (-1);
}
}
if ((pg = topo_hdl_zalloc(thp, sizeof (topo_pgroup_t))) == NULL) {
*err = ETOPO_NOMEM;
topo_node_unlock(node);
return (-1);
}
if ((pip = topo_hdl_zalloc(thp, sizeof (topo_ipgroup_info_t)))
== NULL)
return (pgroup_seterr(node, pg, pip, err));
if ((pip->tpi_name = topo_hdl_strdup(thp, pinfo->tpi_name))
== NULL)
return (pgroup_seterr(node, pg, pip, err));
pip->tpi_namestab = pinfo->tpi_namestab;
pip->tpi_datastab = pinfo->tpi_datastab;
pip->tpi_version = pinfo->tpi_version;
pg->tpg_info = pip;
topo_list_append(&node->tn_pgroups, pg);
topo_node_unlock(node);
return (0);
}
void
topo_pgroup_destroy(tnode_t *node, const char *pname)
{
topo_hdl_t *thp = node->tn_hdl;
topo_pgroup_t *pg;
topo_proplist_t *pvl;
topo_ipgroup_info_t *pip;
topo_node_lock(node);
for (pg = topo_list_next(&node->tn_pgroups); pg != NULL;
pg = topo_list_next(pg)) {
if (strcmp(pg->tpg_info->tpi_name, pname) == 0) {
break;
}
}
if (pg == NULL) {
topo_node_unlock(node);
return;
}
while ((pvl = topo_list_next(&pg->tpg_list)) != NULL) {
topo_list_delete(&pg->tpg_pvals, pvl);
topo_prop_rele(pvl->tp_pval);
topo_hdl_free(thp, pvl, sizeof (topo_proplist_t));
}
topo_list_delete(&node->tn_pgroups, pg);
topo_node_unlock(node);
pip = pg->tpg_info;
if (pip != NULL) {
if (pip->tpi_name != NULL)
topo_hdl_strfree(thp, (char *)pip->tpi_name);
topo_hdl_free(thp, pip, sizeof (topo_ipgroup_info_t));
}
topo_hdl_free(thp, pg, sizeof (topo_pgroup_t));
}
void
topo_pgroup_destroy_all(tnode_t *node)
{
topo_hdl_t *thp = node->tn_hdl;
topo_pgroup_t *pg;
topo_proplist_t *pvl;
topo_ipgroup_info_t *pip;
topo_node_lock(node);
while ((pg = topo_list_next(&node->tn_pgroups)) != NULL) {
while ((pvl = topo_list_next(&pg->tpg_pvals)) != NULL) {
topo_list_delete(&pg->tpg_pvals, pvl);
topo_prop_rele(pvl->tp_pval);
topo_hdl_free(thp, pvl, sizeof (topo_proplist_t));
}
topo_list_delete(&node->tn_pgroups, pg);
pip = pg->tpg_info;
if (pip != NULL) {
if (pip->tpi_name != NULL)
topo_hdl_strfree(thp, (char *)pip->tpi_name);
topo_hdl_free(thp, pip, sizeof (topo_pgroup_info_t));
}
topo_hdl_free(thp, pg, sizeof (topo_pgroup_t));
}
topo_node_unlock(node);
}
static void
propmethod_destroy(topo_hdl_t *thp, topo_propval_t *pv)
{
topo_propmethod_t *pm;
pm = pv->tp_method;
if (pm != NULL) {
if (pm->tpm_name != NULL)
topo_hdl_strfree(thp, pm->tpm_name);
if (pm->tpm_args != NULL)
nvlist_free(pm->tpm_args);
topo_hdl_free(thp, pm, sizeof (topo_propmethod_t));
pv->tp_method = NULL;
}
}
static void
topo_propval_destroy(topo_propval_t *pv)
{
topo_hdl_t *thp;
if (pv == NULL)
return;
thp = pv->tp_hdl;
if (pv->tp_name != NULL)
topo_hdl_strfree(thp, pv->tp_name);
if (pv->tp_val != NULL)
nvlist_free(pv->tp_val);
propmethod_destroy(thp, pv);
topo_hdl_free(thp, pv, sizeof (topo_propval_t));
}
void
topo_prop_hold(topo_propval_t *pv)
{
pv->tp_refs++;
}
void
topo_prop_rele(topo_propval_t *pv)
{
pv->tp_refs--;
assert(pv->tp_refs >= 0);
if (pv->tp_refs == 0)
topo_propval_destroy(pv);
}
/*
* topo_prop_getprop() and topo_prop_getprops() are private project functions
* for fmtopo
*/
int
topo_prop_getprop(tnode_t *node, const char *pgname, const char *pname,
nvlist_t *args, nvlist_t **prop, int *err)
{
topo_hdl_t *thp = node->tn_hdl;
topo_propval_t *pv;
topo_node_lock(node);
if ((pv = prop_get(node, pgname, pname, args, err)) == NULL) {
(void) get_properror(node, err, *err);
return (-1);
}
if (topo_hdl_nvdup(thp, pv->tp_val, prop) != 0) {
(void) get_properror(node, err, ETOPO_NOMEM);
return (-1);
}
topo_node_unlock(node);
return (0);
}
static int
prop_val_add(tnode_t *node, nvlist_t **nvl, topo_propval_t *pv, int *err)
{
if (pv->tp_method != NULL)
if (prop_method_get(node, pv, pv->tp_method, NULL, err) < 0)
return (-1);
if (pv->tp_val == NULL) {
*err = ETOPO_PROP_NOENT;
return (-1);
}
if (topo_hdl_nvdup(pv->tp_hdl, pv->tp_val, nvl) != 0) {
*err = ETOPO_PROP_NOMEM;
return (-1);
}
return (0);
}
static int
get_pgrp_seterror(tnode_t *node, nvlist_t *nvl, int *errp, int err)
{
topo_node_unlock(node);
if (nvl != NULL)
nvlist_free(nvl);
*errp = err;
return (-1);
}
int
topo_prop_getpgrp(tnode_t *node, const char *pgname, nvlist_t **pgrp,
int *err)
{
int ret;
topo_hdl_t *thp = node->tn_hdl;
nvlist_t *nvl, *pvnvl;
topo_pgroup_t *pg;
topo_propval_t *pv;
topo_proplist_t *pvl;
if (topo_hdl_nvalloc(thp, &nvl, 0) != 0) {
*err = ETOPO_NOMEM;
return (-1);
}
topo_node_lock(node);
for (pg = topo_list_next(&node->tn_pgroups); pg != NULL;
pg = topo_list_next(pg)) {
if (strcmp(pgname, pg->tpg_info->tpi_name) != 0)
continue;
if (nvlist_add_string(nvl, TOPO_PROP_GROUP_NAME,
pg->tpg_info->tpi_name) != 0 ||
nvlist_add_string(nvl, TOPO_PROP_GROUP_NSTAB,
topo_stability2name(pg->tpg_info->tpi_namestab)) != 0 ||
nvlist_add_string(nvl, TOPO_PROP_GROUP_DSTAB,
topo_stability2name(pg->tpg_info->tpi_datastab)) != 0 ||
nvlist_add_int32(nvl, TOPO_PROP_GROUP_VERSION,
pg->tpg_info->tpi_version) != 0)
return (get_pgrp_seterror(node, nvl, err,
ETOPO_PROP_NVL));
for (pvl = topo_list_next(&pg->tpg_pvals); pvl != NULL;
pvl = topo_list_next(pvl)) {
pv = pvl->tp_pval;
if (prop_val_add(node, &pvnvl, pv, err) < 0) {
return (get_pgrp_seterror(node, nvl, err,
*err));
}
if ((ret = nvlist_add_nvlist(nvl, TOPO_PROP_VAL,
pvnvl)) != 0) {
nvlist_free(pvnvl);
return (get_pgrp_seterror(node, nvl, err, ret));
}
nvlist_free(pvnvl);
}
topo_node_unlock(node);
*pgrp = nvl;
return (0);
}
topo_node_unlock(node);
*err = ETOPO_PROP_NOENT;
return (-1);
}
static nvlist_t *
get_all_seterror(tnode_t *node, nvlist_t *nvl, int *errp, int err)
{
topo_node_unlock(node);
if (nvl != NULL)
nvlist_free(nvl);
*errp = err;
return (NULL);
}
nvlist_t *
topo_prop_getprops(tnode_t *node, int *err)
{
int ret;
topo_hdl_t *thp = node->tn_hdl;
nvlist_t *nvl, *pgnvl, *pvnvl;
topo_pgroup_t *pg;
topo_propval_t *pv;
topo_proplist_t *pvl;
topo_node_lock(node);
if (topo_hdl_nvalloc(thp, &nvl, 0) != 0) {
return (get_all_seterror(node, NULL, err, ETOPO_NOMEM));
}
for (pg = topo_list_next(&node->tn_pgroups); pg != NULL;
pg = topo_list_next(pg)) {
if (topo_hdl_nvalloc(thp, &pgnvl, 0) != 0)
return (get_all_seterror(node, nvl, err, ETOPO_NOMEM));
if (nvlist_add_string(pgnvl, TOPO_PROP_GROUP_NAME,
pg->tpg_info->tpi_name) != 0 ||
nvlist_add_string(pgnvl, TOPO_PROP_GROUP_NSTAB,
topo_stability2name(pg->tpg_info->tpi_namestab)) != 0 ||
nvlist_add_string(pgnvl, TOPO_PROP_GROUP_DSTAB,
topo_stability2name(pg->tpg_info->tpi_datastab)) != 0 ||
nvlist_add_int32(pgnvl, TOPO_PROP_GROUP_VERSION,
pg->tpg_info->tpi_version) != 0)
return (get_all_seterror(node, nvl, err,
ETOPO_PROP_NVL));
for (pvl = topo_list_next(&pg->tpg_pvals); pvl != NULL;
pvl = topo_list_next(pvl)) {
pv = pvl->tp_pval;
if (prop_val_add(node, &pvnvl, pv, err) < 0) {
nvlist_free(pgnvl);
return (get_all_seterror(node, nvl, err, *err));
}
if ((ret = nvlist_add_nvlist(pgnvl, TOPO_PROP_VAL,
pvnvl)) != 0) {
nvlist_free(pgnvl);
nvlist_free(pvnvl);
return (get_all_seterror(node, nvl, err, ret));
}
nvlist_free(pvnvl);
}
if ((ret = nvlist_add_nvlist(nvl, TOPO_PROP_GROUP, pgnvl))
!= 0) {
nvlist_free(pgnvl);
return (get_all_seterror(node, nvl, err, ret));
}
nvlist_free(pgnvl);
}
topo_node_unlock(node);
return (nvl);
}