common/src/linux_xarray.c

d96e5996SHans Petter Selasky/*-
d96e5996SHans Petter Selasky * Copyright (c) 2020 Mellanox Technologies, Ltd.
d96e5996SHans Petter Selasky * All rights reserved.
d96e5996SHans Petter Selasky *
d96e5996SHans Petter Selasky * Redistribution and use in source and binary forms, with or without
d96e5996SHans Petter Selasky * modification, are permitted provided that the following conditions
d96e5996SHans Petter Selasky * are met:
d96e5996SHans Petter Selasky * 1. Redistributions of source code must retain the above copyright
d96e5996SHans Petter Selasky *    notice unmodified, this list of conditions, and the following
d96e5996SHans Petter Selasky *    disclaimer.
d96e5996SHans Petter Selasky * 2. Redistributions in binary form must reproduce the above copyright
d96e5996SHans Petter Selasky *    notice, this list of conditions and the following disclaimer in the
d96e5996SHans Petter Selasky *    documentation and/or other materials provided with the distribution.
d96e5996SHans Petter Selasky *
d96e5996SHans Petter Selasky * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
d96e5996SHans Petter Selasky * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
d96e5996SHans Petter Selasky * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
d96e5996SHans Petter Selasky * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
d96e5996SHans Petter Selasky * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
d96e5996SHans Petter Selasky * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
d96e5996SHans Petter Selasky * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
d96e5996SHans Petter Selasky * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
d96e5996SHans Petter Selasky * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
d96e5996SHans Petter Selasky * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky#include <sys/cdefs.h>
d96e5996SHans Petter Selasky#include <linux/xarray.h>
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky#include <vm/vm_pageout.h>
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
*3102ea3bSJean-Sébastien Pédron * Linux' XArray allows to store a NULL pointer as a value. xa_load() would
*3102ea3bSJean-Sébastien Pédron * return NULL for both an unused index and an index set to NULL. But it
*3102ea3bSJean-Sébastien Pédron * impacts xa_alloc() which needs to find the next available index.
*3102ea3bSJean-Sébastien Pédron *
*3102ea3bSJean-Sébastien Pédron * However, our implementation relies on a radix tree (see `linux_radix.c`)
*3102ea3bSJean-Sébastien Pédron * which does not accept NULL pointers as values. I'm not sure this is a
*3102ea3bSJean-Sébastien Pédron * limitation or a feature, so to work around this, a NULL value is replaced by
*3102ea3bSJean-Sébastien Pédron * `NULL_VALUE`, an unlikely address, when we pass it to linux_radix.
*3102ea3bSJean-Sébastien Pédron */
*3102ea3bSJean-Sébastien Pédron#define	NULL_VALUE	(void *)0x1
*3102ea3bSJean-Sébastien Pédron
*3102ea3bSJean-Sébastien Pédron/*
d96e5996SHans Petter Selasky * This function removes the element at the given index and returns
d96e5996SHans Petter Selasky * the pointer to the removed element, if any.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskyvoid *
d96e5996SHans Petter Selasky__xa_erase(struct xarray *xa, uint32_t index)
d96e5996SHans Petter Selasky{
*3102ea3bSJean-Sébastien Pédron	void *retval;
*3102ea3bSJean-Sébastien Pédron
d96e5996SHans Petter Selasky	XA_ASSERT_LOCKED(xa);
d96e5996SHans Petter Selasky
*3102ea3bSJean-Sébastien Pédron	retval = radix_tree_delete(&xa->root, index);
*3102ea3bSJean-Sébastien Pédron	if (retval == NULL_VALUE)
*3102ea3bSJean-Sébastien Pédron		retval = NULL;
*3102ea3bSJean-Sébastien Pédron
*3102ea3bSJean-Sébastien Pédron	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selaskyvoid *
d96e5996SHans Petter Selaskyxa_erase(struct xarray *xa, uint32_t index)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	void *retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	xa_lock(xa);
d96e5996SHans Petter Selasky	retval = __xa_erase(xa, index);
d96e5996SHans Petter Selasky	xa_unlock(xa);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This function returns the element pointer at the given index. A
d96e5996SHans Petter Selasky * value of NULL is returned if the element does not exist.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskyvoid *
d96e5996SHans Petter Selaskyxa_load(struct xarray *xa, uint32_t index)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	void *retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	xa_lock(xa);
d96e5996SHans Petter Selasky	retval = radix_tree_lookup(&xa->root, index);
d96e5996SHans Petter Selasky	xa_unlock(xa);
d96e5996SHans Petter Selasky
*3102ea3bSJean-Sébastien Pédron	if (retval == NULL_VALUE)
*3102ea3bSJean-Sébastien Pédron		retval = NULL;
*3102ea3bSJean-Sébastien Pédron
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This is an internal function used to sleep until more memory
d96e5996SHans Petter Selasky * becomes available.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskystatic void
d96e5996SHans Petter Selaskyxa_vm_wait_locked(struct xarray *xa)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	xa_unlock(xa);
d96e5996SHans Petter Selasky	vm_wait(NULL);
d96e5996SHans Petter Selasky	xa_lock(xa);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This function iterates the xarray until it finds a free slot where
d96e5996SHans Petter Selasky * it can insert the element pointer to by "ptr". It starts at the
d96e5996SHans Petter Selasky * index pointed to by "pindex" and updates this value at return. The
d96e5996SHans Petter Selasky * "mask" argument defines the maximum index allowed, inclusivly, and
d96e5996SHans Petter Selasky * must be a power of two minus one value. The "gfp" argument
d96e5996SHans Petter Selasky * basically tells if we can wait for more memory to become available
d96e5996SHans Petter Selasky * or not. This function returns zero upon success or a negative error
d96e5996SHans Petter Selasky * code on failure. A typical error code is -ENOMEM which means either
d96e5996SHans Petter Selasky * the xarray is full, or there was not enough internal memory
d96e5996SHans Petter Selasky * available to complete the radix tree insertion.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskyint
d96e5996SHans Petter Selasky__xa_alloc(struct xarray *xa, uint32_t *pindex, void *ptr, uint32_t mask, gfp_t gfp)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	int retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	XA_ASSERT_LOCKED(xa);
d96e5996SHans Petter Selasky
e705066cSVladimir Kondratyev	/* mask should allow to allocate at least one item */
b0c1600aSJohn Baldwin	MPASS(mask > ((xa->flags & XA_FLAGS_ALLOC1) != 0 ? 1 : 0));
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	/* mask can be any power of two value minus one */
d96e5996SHans Petter Selasky	MPASS((mask & (mask + 1)) == 0);
d96e5996SHans Petter Selasky
e705066cSVladimir Kondratyev	*pindex = (xa->flags & XA_FLAGS_ALLOC1) != 0 ? 1 : 0;
*3102ea3bSJean-Sébastien Pédron	if (ptr == NULL)
*3102ea3bSJean-Sébastien Pédron		ptr = NULL_VALUE;
d96e5996SHans Petter Selaskyretry:
d96e5996SHans Petter Selasky	retval = radix_tree_insert(&xa->root, *pindex, ptr);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	switch (retval) {
d96e5996SHans Petter Selasky	case -EEXIST:
d96e5996SHans Petter Selasky		if (likely(*pindex != mask)) {
d96e5996SHans Petter Selasky			(*pindex)++;
d96e5996SHans Petter Selasky			goto retry;
d96e5996SHans Petter Selasky		}
d96e5996SHans Petter Selasky		retval = -ENOMEM;
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	case -ENOMEM:
d96e5996SHans Petter Selasky		if (likely(gfp & M_WAITOK)) {
d96e5996SHans Petter Selasky			xa_vm_wait_locked(xa);
d96e5996SHans Petter Selasky			goto retry;
d96e5996SHans Petter Selasky		}
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	default:
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	}
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selaskyint
d96e5996SHans Petter Selaskyxa_alloc(struct xarray *xa, uint32_t *pindex, void *ptr, uint32_t mask, gfp_t gfp)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	int retval;
d96e5996SHans Petter Selasky
*3102ea3bSJean-Sébastien Pédron	if (ptr == NULL)
*3102ea3bSJean-Sébastien Pédron		ptr = NULL_VALUE;
*3102ea3bSJean-Sébastien Pédron
d96e5996SHans Petter Selasky	xa_lock(xa);
d96e5996SHans Petter Selasky	retval = __xa_alloc(xa, pindex, ptr, mask, gfp);
d96e5996SHans Petter Selasky	xa_unlock(xa);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This function works the same like the "xa_alloc" function, except
d96e5996SHans Petter Selasky * it wraps the next index value to zero when there are no entries
d96e5996SHans Petter Selasky * left at the end of the xarray searching for a free slot from the
d96e5996SHans Petter Selasky * beginning of the array. If the xarray is full -ENOMEM is returned.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskyint
d96e5996SHans Petter Selasky__xa_alloc_cyclic(struct xarray *xa, uint32_t *pindex, void *ptr, uint32_t mask,
d96e5996SHans Petter Selasky    uint32_t *pnext_index, gfp_t gfp)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	int retval;
d96e5996SHans Petter Selasky	int timeout = 1;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	XA_ASSERT_LOCKED(xa);
d96e5996SHans Petter Selasky
e705066cSVladimir Kondratyev	/* mask should allow to allocate at least one item */
b0c1600aSJohn Baldwin	MPASS(mask > ((xa->flags & XA_FLAGS_ALLOC1) != 0 ? 1 : 0));
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	/* mask can be any power of two value minus one */
d96e5996SHans Petter Selasky	MPASS((mask & (mask + 1)) == 0);
d96e5996SHans Petter Selasky
e705066cSVladimir Kondratyev	*pnext_index = (xa->flags & XA_FLAGS_ALLOC1) != 0 ? 1 : 0;
*3102ea3bSJean-Sébastien Pédron	if (ptr == NULL)
*3102ea3bSJean-Sébastien Pédron		ptr = NULL_VALUE;
d96e5996SHans Petter Selaskyretry:
d96e5996SHans Petter Selasky	retval = radix_tree_insert(&xa->root, *pnext_index, ptr);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	switch (retval) {
d96e5996SHans Petter Selasky	case -EEXIST:
d96e5996SHans Petter Selasky		if (unlikely(*pnext_index == mask) && !timeout--) {
d96e5996SHans Petter Selasky			retval = -ENOMEM;
d96e5996SHans Petter Selasky			break;
d96e5996SHans Petter Selasky		}
d96e5996SHans Petter Selasky		(*pnext_index)++;
d96e5996SHans Petter Selasky		(*pnext_index) &= mask;
e705066cSVladimir Kondratyev		if (*pnext_index == 0 && (xa->flags & XA_FLAGS_ALLOC1) != 0)
e705066cSVladimir Kondratyev			(*pnext_index)++;
d96e5996SHans Petter Selasky		goto retry;
d96e5996SHans Petter Selasky	case -ENOMEM:
d96e5996SHans Petter Selasky		if (likely(gfp & M_WAITOK)) {
d96e5996SHans Petter Selasky			xa_vm_wait_locked(xa);
d96e5996SHans Petter Selasky			goto retry;
d96e5996SHans Petter Selasky		}
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	default:
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	}
d96e5996SHans Petter Selasky	*pindex = *pnext_index;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selaskyint
d96e5996SHans Petter Selaskyxa_alloc_cyclic(struct xarray *xa, uint32_t *pindex, void *ptr, uint32_t mask,
d96e5996SHans Petter Selasky    uint32_t *pnext_index, gfp_t gfp)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	int retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	xa_lock(xa);
d96e5996SHans Petter Selasky	retval = __xa_alloc_cyclic(xa, pindex, ptr, mask, pnext_index, gfp);
d96e5996SHans Petter Selasky	xa_unlock(xa);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This function tries to insert an element at the given index. The
d96e5996SHans Petter Selasky * "gfp" argument basically decides of this function can sleep or not
d96e5996SHans Petter Selasky * trying to allocate internal memory for its radix tree.  The
d96e5996SHans Petter Selasky * function returns an error code upon failure. Typical error codes
d96e5996SHans Petter Selasky * are element exists (-EEXIST) or out of memory (-ENOMEM).
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskyint
d96e5996SHans Petter Selasky__xa_insert(struct xarray *xa, uint32_t index, void *ptr, gfp_t gfp)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	int retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	XA_ASSERT_LOCKED(xa);
*3102ea3bSJean-Sébastien Pédron	if (ptr == NULL)
*3102ea3bSJean-Sébastien Pédron		ptr = NULL_VALUE;
d96e5996SHans Petter Selaskyretry:
d96e5996SHans Petter Selasky	retval = radix_tree_insert(&xa->root, index, ptr);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	switch (retval) {
d96e5996SHans Petter Selasky	case -ENOMEM:
d96e5996SHans Petter Selasky		if (likely(gfp & M_WAITOK)) {
d96e5996SHans Petter Selasky			xa_vm_wait_locked(xa);
d96e5996SHans Petter Selasky			goto retry;
d96e5996SHans Petter Selasky		}
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	default:
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	}
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selaskyint
d96e5996SHans Petter Selaskyxa_insert(struct xarray *xa, uint32_t index, void *ptr, gfp_t gfp)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	int retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	xa_lock(xa);
d96e5996SHans Petter Selasky	retval = __xa_insert(xa, index, ptr, gfp);
d96e5996SHans Petter Selasky	xa_unlock(xa);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This function updates the element at the given index and returns a
d96e5996SHans Petter Selasky * pointer to the old element. The "gfp" argument basically decides of
d96e5996SHans Petter Selasky * this function can sleep or not trying to allocate internal memory
d96e5996SHans Petter Selasky * for its radix tree. The function returns an XA_ERROR() pointer code
d96e5996SHans Petter Selasky * upon failure. Code using this function must always check if the
d96e5996SHans Petter Selasky * return value is an XA_ERROR() code before using the returned value.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskyvoid *
d96e5996SHans Petter Selasky__xa_store(struct xarray *xa, uint32_t index, void *ptr, gfp_t gfp)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	int retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	XA_ASSERT_LOCKED(xa);
*3102ea3bSJean-Sébastien Pédron	if (ptr == NULL)
*3102ea3bSJean-Sébastien Pédron		ptr = NULL_VALUE;
d96e5996SHans Petter Selaskyretry:
d96e5996SHans Petter Selasky	retval = radix_tree_store(&xa->root, index, &ptr);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	switch (retval) {
d96e5996SHans Petter Selasky	case 0:
*3102ea3bSJean-Sébastien Pédron		if (ptr == NULL_VALUE)
*3102ea3bSJean-Sébastien Pédron			ptr = NULL;
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	case -ENOMEM:
d96e5996SHans Petter Selasky		if (likely(gfp & M_WAITOK)) {
d96e5996SHans Petter Selasky			xa_vm_wait_locked(xa);
d96e5996SHans Petter Selasky			goto retry;
d96e5996SHans Petter Selasky		}
d96e5996SHans Petter Selasky		ptr = XA_ERROR(retval);
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	default:
d96e5996SHans Petter Selasky		ptr = XA_ERROR(retval);
d96e5996SHans Petter Selasky		break;
d96e5996SHans Petter Selasky	}
d96e5996SHans Petter Selasky	return (ptr);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selaskyvoid *
d96e5996SHans Petter Selaskyxa_store(struct xarray *xa, uint32_t index, void *ptr, gfp_t gfp)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	void *retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	xa_lock(xa);
d96e5996SHans Petter Selasky	retval = __xa_store(xa, index, ptr, gfp);
d96e5996SHans Petter Selasky	xa_unlock(xa);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This function initialize an xarray structure.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskyvoid
d96e5996SHans Petter Selaskyxa_init_flags(struct xarray *xa, uint32_t flags)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	memset(xa, 0, sizeof(*xa));
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	mtx_init(&xa->mtx, "lkpi-xarray", NULL, MTX_DEF | MTX_RECURSE);
d96e5996SHans Petter Selasky	xa->root.gfp_mask = GFP_NOWAIT;
e705066cSVladimir Kondratyev	xa->flags = flags;
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This function destroys an xarray structure and all its internal
d96e5996SHans Petter Selasky * memory and locks.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskyvoid
d96e5996SHans Petter Selaskyxa_destroy(struct xarray *xa)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	struct radix_tree_iter iter;
d96e5996SHans Petter Selasky	void **ppslot;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	radix_tree_for_each_slot(ppslot, &xa->root, &iter, 0)
d96e5996SHans Petter Selasky		radix_tree_iter_delete(&xa->root, &iter, ppslot);
d96e5996SHans Petter Selasky	mtx_destroy(&xa->mtx);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This function checks if an xarray is empty or not.
d96e5996SHans Petter Selasky * It returns true if empty, else false.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskybool
d96e5996SHans Petter Selasky__xa_empty(struct xarray *xa)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	struct radix_tree_iter iter = {};
d96e5996SHans Petter Selasky	void **temp;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	XA_ASSERT_LOCKED(xa);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	return (!radix_tree_iter_find(&xa->root, &iter, &temp));
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selaskybool
d96e5996SHans Petter Selaskyxa_empty(struct xarray *xa)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	bool retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	xa_lock(xa);
d96e5996SHans Petter Selasky	retval = __xa_empty(xa);
d96e5996SHans Petter Selasky	xa_unlock(xa);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky/*
d96e5996SHans Petter Selasky * This function returns the next valid xarray entry based on the
d96e5996SHans Petter Selasky * index given by "pindex". The valued pointed to by "pindex" is
d96e5996SHans Petter Selasky * updated before return.
d96e5996SHans Petter Selasky */
d96e5996SHans Petter Selaskyvoid *
d96e5996SHans Petter Selasky__xa_next(struct xarray *xa, unsigned long *pindex, bool not_first)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	struct radix_tree_iter iter = { .index = *pindex };
d96e5996SHans Petter Selasky	void **ppslot;
d96e5996SHans Petter Selasky	void *retval;
d96e5996SHans Petter Selasky	bool found;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	XA_ASSERT_LOCKED(xa);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	if (not_first) {
d96e5996SHans Petter Selasky		/* advance to next index, if any */
d96e5996SHans Petter Selasky		iter.index++;
d96e5996SHans Petter Selasky		if (iter.index == 0)
d96e5996SHans Petter Selasky			return (NULL);
d96e5996SHans Petter Selasky	}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	found = radix_tree_iter_find(&xa->root, &iter, &ppslot);
d96e5996SHans Petter Selasky	if (likely(found)) {
d96e5996SHans Petter Selasky		retval = *ppslot;
*3102ea3bSJean-Sébastien Pédron		if (retval == NULL_VALUE)
*3102ea3bSJean-Sébastien Pédron			retval = NULL;
d96e5996SHans Petter Selasky		*pindex = iter.index;
d96e5996SHans Petter Selasky	} else {
d96e5996SHans Petter Selasky		retval = NULL;
d96e5996SHans Petter Selasky	}
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selaskyvoid *
d96e5996SHans Petter Selaskyxa_next(struct xarray *xa, unsigned long *pindex, bool not_first)
d96e5996SHans Petter Selasky{
d96e5996SHans Petter Selasky	void *retval;
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	xa_lock(xa);
d96e5996SHans Petter Selasky	retval = __xa_next(xa, pindex, not_first);
d96e5996SHans Petter Selasky	xa_unlock(xa);
d96e5996SHans Petter Selasky
d96e5996SHans Petter Selasky	return (retval);
d96e5996SHans Petter Selasky}