nrelease - fix/improve livecd

[dragonfly.git] / sys / libprop / prop_array.c

/*      $NetBSD: prop_array.c,v 1.20 2008/08/11 05:54:21 christos Exp $ */

/*-
 * Copyright (c) 2006, 2007 The NetBSD Foundation, Inc.
 * All rights reserved.
 *
 * This code is derived from software contributed to The NetBSD Foundation
 * by Jason R. Thorpe.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */

#include <libprop/prop_array.h>
#include "prop_object_impl.h"

#if !defined(_KERNEL) && !defined(_STANDALONE)
#include <errno.h>
#endif

struct _prop_array {
        struct _prop_object     pa_obj;
        _PROP_RWLOCK_DECL(pa_rwlock)
        prop_object_t *         pa_array;
        unsigned int            pa_capacity;
        unsigned int            pa_count;
        int                     pa_flags;

        uint32_t                pa_version;
};

#define PA_F_IMMUTABLE          0x01    /* array is immutable */

_PROP_POOL_INIT(_prop_array_pool, sizeof(struct _prop_array), "proparay");
_PROP_MALLOC_DEFINE(M_PROP_ARRAY, "prop array",
                    "property array container object")

static _prop_object_free_rv_t
                _prop_array_free(prop_stack_t, prop_object_t *);
static void     _prop_array_emergency_free(prop_object_t);
static bool     _prop_array_externalize(
                                struct _prop_object_externalize_context *,
                                void *);
static _prop_object_equals_rv_t
                _prop_array_equals(prop_object_t, prop_object_t,
                                   void **, void **,
                                   prop_object_t *, prop_object_t *);
static void     _prop_array_equals_finish(prop_object_t, prop_object_t);
static prop_object_iterator_t
                _prop_array_iterator_locked(prop_array_t);
static prop_object_t
                _prop_array_iterator_next_object_locked(void *);
static void     _prop_array_iterator_reset_locked(void *);

static const struct _prop_object_type _prop_object_type_array = {
        .pot_type               =       PROP_TYPE_ARRAY,
        .pot_free               =       _prop_array_free,
        .pot_emergency_free     =       _prop_array_emergency_free,
        .pot_extern             =       _prop_array_externalize,
        .pot_equals             =       _prop_array_equals,
        .pot_equals_finish      =       _prop_array_equals_finish,
};

#define prop_object_is_array(x)         \
        ((x) != NULL && (x)->pa_obj.po_type == &_prop_object_type_array)

#define prop_array_is_immutable(x) (((x)->pa_flags & PA_F_IMMUTABLE) != 0)

struct _prop_array_iterator {
        struct _prop_object_iterator pai_base;
        unsigned int            pai_index;
};

#define EXPAND_STEP             16

static _prop_object_free_rv_t
_prop_array_free(prop_stack_t stack, prop_object_t *obj)
{
        prop_array_t pa = *obj;
        prop_object_t po;

        _PROP_ASSERT(pa->pa_count <= pa->pa_capacity);
        _PROP_ASSERT((pa->pa_capacity == 0 && pa->pa_array == NULL) ||
                     (pa->pa_capacity != 0 && pa->pa_array != NULL));

        /* The easy case is an empty array, just free and return. */
        if (pa->pa_count == 0) {
                if (pa->pa_array != NULL)
                        _PROP_FREE(pa->pa_array, M_PROP_ARRAY);

                _PROP_RWLOCK_DESTROY(pa->pa_rwlock);

                _PROP_POOL_PUT(_prop_array_pool, pa);

                return (_PROP_OBJECT_FREE_DONE);
        }

        po = pa->pa_array[pa->pa_count - 1];
        _PROP_ASSERT(po != NULL);

        if (stack == NULL) {
                /*
                 * If we are in emergency release mode,
                 * just let caller recurse down.
                 */
                *obj = po;
                return (_PROP_OBJECT_FREE_FAILED);
        }

        /* Otherwise, try to push the current object on the stack. */
        if (!_prop_stack_push(stack, pa, NULL, NULL, NULL)) {
                /* Push failed, entering emergency release mode. */
                return (_PROP_OBJECT_FREE_FAILED);
        }
        /* Object pushed on stack, caller will release it. */
        --pa->pa_count;
        *obj = po;
        return (_PROP_OBJECT_FREE_RECURSE);
}

static void
_prop_array_emergency_free(prop_object_t obj)
{
        prop_array_t pa = obj;

        _PROP_ASSERT(pa->pa_count != 0);
        --pa->pa_count;
}

static bool
_prop_array_externalize(struct _prop_object_externalize_context *ctx,
                        void *v)
{
        prop_array_t pa = v;
        struct _prop_object *po;
        prop_object_iterator_t pi;
        unsigned int i;
        bool rv = false;

        _PROP_RWLOCK_RDLOCK(pa->pa_rwlock);

        if (pa->pa_count == 0) {
                _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);
                return (_prop_object_externalize_empty_tag(ctx, "array"));
        }

        /* XXXJRT Hint "count" for the internalize step? */
        if (_prop_object_externalize_start_tag(ctx, "array") == false ||
            _prop_object_externalize_append_char(ctx, '\n') == false)
                goto out;

        pi = _prop_array_iterator_locked(pa);
        if (pi == NULL)
                goto out;

        ctx->poec_depth++;
        _PROP_ASSERT(ctx->poec_depth != 0);

        while ((po = _prop_array_iterator_next_object_locked(pi)) != NULL) {
                if ((*po->po_type->pot_extern)(ctx, po) == false) {
                        prop_object_iterator_release(pi);
                        goto out;
                }
        }

        prop_object_iterator_release(pi);

        ctx->poec_depth--;
        for (i = 0; i < ctx->poec_depth; i++) {
                if (_prop_object_externalize_append_char(ctx, '\t') == false)
                        goto out;
        }
        if (_prop_object_externalize_end_tag(ctx, "array") == false)
                goto out;

        rv = true;

 out:
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);
        return (rv);
}

/* ARGSUSED */
static _prop_object_equals_rv_t
_prop_array_equals(prop_object_t v1, prop_object_t v2,
    void **stored_pointer1, void **stored_pointer2,
    prop_object_t *next_obj1, prop_object_t *next_obj2)
{
        prop_array_t array1 = v1;
        prop_array_t array2 = v2;
        uintptr_t idx;
        _prop_object_equals_rv_t rv = _PROP_OBJECT_EQUALS_FALSE;

        if (array1 == array2)
                return (_PROP_OBJECT_EQUALS_TRUE);

        _PROP_ASSERT(*stored_pointer1 == *stored_pointer2);
        idx = (uintptr_t)*stored_pointer1;

        /* For the first iteration, lock the objects. */
        if (idx == 0) {
                if ((uintptr_t)array1 < (uintptr_t)array2) {
                        _PROP_RWLOCK_RDLOCK(array1->pa_rwlock);
                        _PROP_RWLOCK_RDLOCK(array2->pa_rwlock);
                } else {
                        _PROP_RWLOCK_RDLOCK(array2->pa_rwlock);
                        _PROP_RWLOCK_RDLOCK(array1->pa_rwlock);
                }
        }

        if (array1->pa_count != array2->pa_count)
                goto out;
        if (idx == array1->pa_count) {
                rv = _PROP_OBJECT_EQUALS_TRUE;
                goto out;
        }
        _PROP_ASSERT(idx < array1->pa_count);

        *stored_pointer1 = (void *)(idx + 1);
        *stored_pointer2 = (void *)(idx + 1);

        *next_obj1 = array1->pa_array[idx];
        *next_obj2 = array2->pa_array[idx];

        return (_PROP_OBJECT_EQUALS_RECURSE);

 out:
        _PROP_RWLOCK_UNLOCK(array1->pa_rwlock);
        _PROP_RWLOCK_UNLOCK(array2->pa_rwlock);
        return (rv);
}

static void
_prop_array_equals_finish(prop_object_t v1, prop_object_t v2)
{
        _PROP_RWLOCK_UNLOCK(((prop_array_t)v1)->pa_rwlock);
        _PROP_RWLOCK_UNLOCK(((prop_array_t)v2)->pa_rwlock);
}

static prop_array_t
_prop_array_alloc(unsigned int capacity)
{
        prop_array_t pa;
        prop_object_t *array;

        if (capacity != 0) {
                array = _PROP_CALLOC(capacity * sizeof(prop_object_t),
                                     M_PROP_ARRAY);
                if (array == NULL)
                        return (NULL);
        } else
                array = NULL;

        pa = _PROP_POOL_GET(_prop_array_pool);
        if (pa != NULL) {
                _prop_object_init(&pa->pa_obj, &_prop_object_type_array);
                pa->pa_obj.po_type = &_prop_object_type_array;

                _PROP_RWLOCK_INIT(pa->pa_rwlock);
                pa->pa_array = array;
                pa->pa_capacity = capacity;
                pa->pa_count = 0;
                pa->pa_flags = 0;

                pa->pa_version = 0;
        } else if (array != NULL)
                _PROP_FREE(array, M_PROP_ARRAY);

        return (pa);
}

static bool
_prop_array_expand(prop_array_t pa, unsigned int capacity)
{
        prop_object_t *array, *oarray;

        /*
         * Array must be WRITE-LOCKED.
         */

        oarray = pa->pa_array;

        array = _PROP_CALLOC(capacity * sizeof(*array), M_PROP_ARRAY);
        if (array == NULL)
                return (false);
        if (oarray != NULL)
                memcpy(array, oarray, pa->pa_capacity * sizeof(*array));
        pa->pa_array = array;
        pa->pa_capacity = capacity;

        if (oarray != NULL)
                _PROP_FREE(oarray, M_PROP_ARRAY);

        return (true);
}

static prop_object_t
_prop_array_iterator_next_object_locked(void *v)
{
        struct _prop_array_iterator *pai = v;
        prop_array_t pa = pai->pai_base.pi_obj;
        prop_object_t po = NULL;

        _PROP_ASSERT(prop_object_is_array(pa));

        if (pa->pa_version != pai->pai_base.pi_version)
                goto out;       /* array changed during iteration */

        _PROP_ASSERT(pai->pai_index <= pa->pa_count);

        if (pai->pai_index == pa->pa_count)
                goto out;       /* we've iterated all objects */

        po = pa->pa_array[pai->pai_index];
        pai->pai_index++;

 out:
        return (po);
}

static prop_object_t
_prop_array_iterator_next_object(void *v)
{
        struct _prop_array_iterator *pai = v;
        prop_array_t pa = pai->pai_base.pi_obj;
        prop_object_t po;

        _PROP_ASSERT(prop_object_is_array(pa));

        _PROP_RWLOCK_RDLOCK(pa->pa_rwlock);
        po = _prop_array_iterator_next_object_locked(pai);
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);
        return (po);
}

static void
_prop_array_iterator_reset_locked(void *v)
{
        struct _prop_array_iterator *pai = v;
        prop_array_t pa = pai->pai_base.pi_obj;

        _PROP_ASSERT(prop_object_is_array(pa));

        pai->pai_index = 0;
        pai->pai_base.pi_version = pa->pa_version;
}

static void
_prop_array_iterator_reset(void *v)
{
        struct _prop_array_iterator *pai = v;
        prop_array_t pa = pai->pai_base.pi_obj;

        _PROP_ASSERT(prop_object_is_array(pa));

        _PROP_RWLOCK_RDLOCK(pa->pa_rwlock);
        _prop_array_iterator_reset_locked(pai);
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);
}

/*
 * prop_array_create --
 *      Create an empty array.
 */
prop_array_t
prop_array_create(void)
{

        return (_prop_array_alloc(0));
}

/*
 * prop_array_create_with_capacity --
 *      Create an array with the capacity to store N objects.
 */
prop_array_t
prop_array_create_with_capacity(unsigned int capacity)
{

        return (_prop_array_alloc(capacity));
}

/*
 * prop_array_copy --
 *      Copy an array.  The new array has an initial capacity equal to
 *      the number of objects stored in the original array.  The new
 *      array contains references to the original array's objects, not
 *      copies of those objects (i.e. a shallow copy).
 */
prop_array_t
prop_array_copy(prop_array_t opa)
{
        prop_array_t pa;
        prop_object_t po;
        unsigned int idx;

        if (! prop_object_is_array(opa))
                return (NULL);

        _PROP_RWLOCK_RDLOCK(opa->pa_rwlock);

        pa = _prop_array_alloc(opa->pa_count);
        if (pa != NULL) {
                for (idx = 0; idx < opa->pa_count; idx++) {
                        po = opa->pa_array[idx];
                        prop_object_retain(po);
                        pa->pa_array[idx] = po;
                }
                pa->pa_count = opa->pa_count;
                pa->pa_flags = opa->pa_flags;
        }
        _PROP_RWLOCK_UNLOCK(opa->pa_rwlock);
        return (pa);
}

/*
 * prop_array_copy_mutable --
 *      Like prop_array_copy(), but the resulting array is mutable.
 */
prop_array_t
prop_array_copy_mutable(prop_array_t opa)
{
        prop_array_t pa;

        pa = prop_array_copy(opa);
        if (pa != NULL)
                pa->pa_flags &= ~PA_F_IMMUTABLE;

        return (pa);
}

/*
 * prop_array_capacity --
 *      Return the capacity of the array.
 */
unsigned int
prop_array_capacity(prop_array_t pa)
{
        unsigned int rv;

        if (! prop_object_is_array(pa))
                return (0);

        _PROP_RWLOCK_RDLOCK(pa->pa_rwlock);
        rv = pa->pa_capacity;
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);

        return (rv);
}

/*
 * prop_array_count --
 *      Return the number of objects stored in the array.
 */
unsigned int
prop_array_count(prop_array_t pa)
{
        unsigned int rv;

        if (! prop_object_is_array(pa))
                return (0);

        _PROP_RWLOCK_RDLOCK(pa->pa_rwlock);
        rv = pa->pa_count;
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);

        return (rv);
}

/*
 * prop_array_ensure_capacity --
 *      Ensure that the array has the capacity to store the specified
 *      total number of objects (inluding the objects already stored
 *      in the array).
 */
bool
prop_array_ensure_capacity(prop_array_t pa, unsigned int capacity)
{
        bool rv;

        if (! prop_object_is_array(pa))
                return (false);

        _PROP_RWLOCK_WRLOCK(pa->pa_rwlock);
        if (capacity > pa->pa_capacity)
                rv = _prop_array_expand(pa, capacity);
        else
                rv = true;
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);

        return (rv);
}

static prop_object_iterator_t
_prop_array_iterator_locked(prop_array_t pa)
{
        struct _prop_array_iterator *pai;

        if (! prop_object_is_array(pa))
                return (NULL);

        pai = _PROP_CALLOC(sizeof(*pai), M_TEMP);
        if (pai == NULL)
                return (NULL);
        pai->pai_base.pi_next_object = _prop_array_iterator_next_object;
        pai->pai_base.pi_reset = _prop_array_iterator_reset;
        prop_object_retain(pa);
        pai->pai_base.pi_obj = pa;
        _prop_array_iterator_reset_locked(pai);

        return (&pai->pai_base);
}

/*
 * prop_array_iterator --
 *      Return an iterator for the array.  The array is retained by
 *      the iterator.
 */
prop_object_iterator_t
prop_array_iterator(prop_array_t pa)
{
        prop_object_iterator_t pi;

        _PROP_RWLOCK_RDLOCK(pa->pa_rwlock);
        pi = _prop_array_iterator_locked(pa);
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);
        return (pi);
}

/*
 * prop_array_make_immutable --
 *      Make the array immutable.
 */
void
prop_array_make_immutable(prop_array_t pa)
{

        _PROP_RWLOCK_WRLOCK(pa->pa_rwlock);
        if (prop_array_is_immutable(pa) == false)
                pa->pa_flags |= PA_F_IMMUTABLE;
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);
}

/*
 * prop_array_mutable --
 *      Returns true if the array is mutable.
 */
bool
prop_array_mutable(prop_array_t pa)
{
        bool rv;

        _PROP_RWLOCK_RDLOCK(pa->pa_rwlock);
        rv = prop_array_is_immutable(pa) == false;
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);

        return (rv);
}

/*
 * prop_array_get --
 *      Return the object stored at the specified array index.
 */
prop_object_t
prop_array_get(prop_array_t pa, unsigned int idx)
{
        prop_object_t po = NULL;

        if (! prop_object_is_array(pa))
                return (NULL);

        _PROP_RWLOCK_RDLOCK(pa->pa_rwlock);
        if (idx >= pa->pa_count)
                goto out;
        po = pa->pa_array[idx];
        _PROP_ASSERT(po != NULL);
 out:
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);
        return (po);
}

static bool
_prop_array_add(prop_array_t pa, prop_object_t po)
{

        /*
         * Array must be WRITE-LOCKED.
         */

        _PROP_ASSERT(pa->pa_count <= pa->pa_capacity);

        if (prop_array_is_immutable(pa) ||
            (pa->pa_count == pa->pa_capacity &&
            _prop_array_expand(pa, pa->pa_capacity + EXPAND_STEP) == false))
                return (false);

        prop_object_retain(po);
        pa->pa_array[pa->pa_count++] = po;
        pa->pa_version++;

        return (true);
}

/*
 * prop_array_set --
 *      Store a reference to an object at the specified array index.
 *      This method is not allowed to create holes in the array; the
 *      caller must either be setting the object just beyond the existing
 *      count or replacing an already existing object reference.
 */
bool
prop_array_set(prop_array_t pa, unsigned int idx, prop_object_t po)
{
        prop_object_t opo;
        bool rv = false;

        if (! prop_object_is_array(pa))
                return (false);

        _PROP_RWLOCK_WRLOCK(pa->pa_rwlock);

        if (prop_array_is_immutable(pa))
                goto out;

        if (idx == pa->pa_count) {
                rv = _prop_array_add(pa, po);
                goto out;
        }

        _PROP_ASSERT(idx < pa->pa_count);

        opo = pa->pa_array[idx];
        _PROP_ASSERT(opo != NULL);

        prop_object_retain(po);
        pa->pa_array[idx] = po;
        pa->pa_version++;

        prop_object_release(opo);

        rv = true;

 out:
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);
        return (rv);
}

/*
 * prop_array_add --
 *      Add a reference to an object to the specified array, appending
 *      to the end and growing the array's capacity, if necessary.
 */
bool
prop_array_add(prop_array_t pa, prop_object_t po)
{
        bool rv;

        if (! prop_object_is_array(pa))
                return (false);

        _PROP_RWLOCK_WRLOCK(pa->pa_rwlock);
        rv = _prop_array_add(pa, po);
        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);

        return (rv);
}

/*
 * prop_array_remove --
 *      Remove the reference to an object from an array at the specified
 *      index.  The array will be compacted following the removal.
 */
void
prop_array_remove(prop_array_t pa, unsigned int idx)
{
        prop_object_t po;

        if (! prop_object_is_array(pa))
                return;

        _PROP_RWLOCK_WRLOCK(pa->pa_rwlock);

        _PROP_ASSERT(idx < pa->pa_count);

        /* XXX Should this be a _PROP_ASSERT()? */
        if (prop_array_is_immutable(pa)) {
                _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);
                return;
        }

        po = pa->pa_array[idx];
        _PROP_ASSERT(po != NULL);

        for (++idx; idx < pa->pa_count; idx++)
                pa->pa_array[idx - 1] = pa->pa_array[idx];
        pa->pa_count--;
        pa->pa_version++;

        _PROP_RWLOCK_UNLOCK(pa->pa_rwlock);

        prop_object_release(po);
}

/*
 * prop_array_equals --
 *      Return true if the two arrays are equivalent.  Note we do a
 *      by-value comparison of the objects in the array.
 */
bool
prop_array_equals(prop_array_t array1, prop_array_t array2)
{
        if (!prop_object_is_array(array1) || !prop_object_is_array(array2))
                return (false);

        return (prop_object_equals(array1, array2));
}

/*
 * prop_array_externalize --
 *      Externalize an array, return a NUL-terminated buffer
 *      containing the XML-style representation.  The buffer is allocated
 *      with the M_TEMP memory type.
 */
char *
prop_array_externalize(prop_array_t pa)
{
        struct _prop_object_externalize_context *ctx;
        char *cp;

        ctx = _prop_object_externalize_context_alloc();
        if (ctx == NULL)
                return (NULL);

        if (_prop_object_externalize_header(ctx) == false ||
            (*pa->pa_obj.po_type->pot_extern)(ctx, pa) == false ||
            _prop_object_externalize_footer(ctx) == false) {
                /* We are responsible for releasing the buffer. */
                _PROP_FREE(ctx->poec_buf, M_TEMP);
                _prop_object_externalize_context_free(ctx);
                return (NULL);
        }

        cp = ctx->poec_buf;
        _prop_object_externalize_context_free(ctx);

        return (cp);
}

/*
 * _prop_array_internalize --
 *      Parse an <array>...</array> and return the object created from the
 *      external representation.
 */
static bool _prop_array_internalize_body(prop_stack_t, prop_object_t *,
    struct _prop_object_internalize_context *);

bool
_prop_array_internalize(prop_stack_t stack, prop_object_t *obj,
    struct _prop_object_internalize_context *ctx)
{
        /* We don't currently understand any attributes. */
        if (ctx->poic_tagattr != NULL)
                return (true);

        *obj = prop_array_create();
        /*
         * We are done if the create failed or no child elements exist.
         */
        if (*obj == NULL || ctx->poic_is_empty_element)
                return (true);

        /*
         * Opening tag is found, now continue to the first element.
         */
        return (_prop_array_internalize_body(stack, obj, ctx));
}

static bool
_prop_array_internalize_continue(prop_stack_t stack,
    prop_object_t *obj,
    struct _prop_object_internalize_context *ctx,
    void *data, prop_object_t child)
{
        prop_array_t array;

        _PROP_ASSERT(data == NULL);

        if (child == NULL)
                goto bad; /* Element could not be parsed. */

        array = *obj;

        if (prop_array_add(array, child) == false) {
                prop_object_release(child);
                goto bad;
        }
        prop_object_release(child);

        /*
         * Current element is processed and added, look for next.
         */
        return (_prop_array_internalize_body(stack, obj, ctx));

 bad:
        prop_object_release(*obj);
        *obj = NULL;
        return (true);
}

static bool
_prop_array_internalize_body(prop_stack_t stack, prop_object_t *obj,
    struct _prop_object_internalize_context *ctx)
{
        prop_array_t array = *obj;

        _PROP_ASSERT(array != NULL);

        /* Fetch the next tag. */
        if (_prop_object_internalize_find_tag(ctx, NULL,
                                _PROP_TAG_TYPE_EITHER) == false)
                goto bad;

        /* Check to see if this is the end of the array. */
        if (_PROP_TAG_MATCH(ctx, "array") &&
            ctx->poic_tag_type == _PROP_TAG_TYPE_END) {
                /* It is, so don't iterate any further. */
                return (true);
        }

        if (_prop_stack_push(stack, array,
                             _prop_array_internalize_continue, NULL, NULL))
                return (false);

 bad:
        prop_object_release(array);
        *obj = NULL;
        return (true);
}

/*
 * prop_array_internalize --
 *      Create an array by parsing the XML-style representation.
 */
prop_array_t
prop_array_internalize(const char *xml)
{
        return _prop_generic_internalize(xml, "array");
}

#if !defined(_KERNEL) && !defined(_STANDALONE)
/*
 * prop_array_externalize_to_file --
 *      Externalize an array to the specified file.
 */
bool
prop_array_externalize_to_file(prop_array_t array, const char *fname)
{
        char *xml;
        bool rv;
        int save_errno = 0;     /* XXXGCC -Wuninitialized [mips, ...] */

        xml = prop_array_externalize(array);
        if (xml == NULL)
                return (false);
        rv = _prop_object_externalize_write_file(fname, xml, strlen(xml));
        if (rv == false)
                save_errno = errno;
        _PROP_FREE(xml, M_TEMP);
        if (rv == false)
                errno = save_errno;

        return (rv);
}

/*
 * prop_array_internalize_from_file --
 *      Internalize an array from a file.
 */
prop_array_t
prop_array_internalize_from_file(const char *fname)
{
        struct _prop_object_internalize_mapped_file *mf;
        prop_array_t array;

        mf = _prop_object_internalize_map_file(fname);
        if (mf == NULL)
                return (NULL);
        array = prop_array_internalize(mf->poimf_xml);
        _prop_object_internalize_unmap_file(mf);

        return (array);
}
#endif /* _KERNEL && !_STANDALONE */