1d96e5996SHans Petter Selasky /*- 2d96e5996SHans Petter Selasky * Copyright (c) 2020 Mellanox Technologies, Ltd. 3d96e5996SHans Petter Selasky * All rights reserved. 4d96e5996SHans Petter Selasky * 5d96e5996SHans Petter Selasky * Redistribution and use in source and binary forms, with or without 6d96e5996SHans Petter Selasky * modification, are permitted provided that the following conditions 7d96e5996SHans Petter Selasky * are met: 8d96e5996SHans Petter Selasky * 1. Redistributions of source code must retain the above copyright 9d96e5996SHans Petter Selasky * notice unmodified, this list of conditions, and the following 10d96e5996SHans Petter Selasky * disclaimer. 11d96e5996SHans Petter Selasky * 2. Redistributions in binary form must reproduce the above copyright 12d96e5996SHans Petter Selasky * notice, this list of conditions and the following disclaimer in the 13d96e5996SHans Petter Selasky * documentation and/or other materials provided with the distribution. 14d96e5996SHans Petter Selasky * 15d96e5996SHans Petter Selasky * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 16d96e5996SHans Petter Selasky * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 17d96e5996SHans Petter Selasky * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 18d96e5996SHans Petter Selasky * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 19d96e5996SHans Petter Selasky * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 20d96e5996SHans Petter Selasky * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 21d96e5996SHans Petter Selasky * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 22d96e5996SHans Petter Selasky * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 23d96e5996SHans Petter Selasky * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 24d96e5996SHans Petter Selasky * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 25d96e5996SHans Petter Selasky */ 26d96e5996SHans Petter Selasky 27d96e5996SHans Petter Selasky #include <sys/cdefs.h> 28d96e5996SHans Petter Selasky __FBSDID("$FreeBSD$"); 29d96e5996SHans Petter Selasky 30d96e5996SHans Petter Selasky #include <linux/xarray.h> 31d96e5996SHans Petter Selasky 32d96e5996SHans Petter Selasky #include <vm/vm_pageout.h> 33d96e5996SHans Petter Selasky 34d96e5996SHans Petter Selasky /* 35*3102ea3bSJean-Sébastien Pédron * Linux' XArray allows to store a NULL pointer as a value. xa_load() would 36*3102ea3bSJean-Sébastien Pédron * return NULL for both an unused index and an index set to NULL. But it 37*3102ea3bSJean-Sébastien Pédron * impacts xa_alloc() which needs to find the next available index. 38*3102ea3bSJean-Sébastien Pédron * 39*3102ea3bSJean-Sébastien Pédron * However, our implementation relies on a radix tree (see `linux_radix.c`) 40*3102ea3bSJean-Sébastien Pédron * which does not accept NULL pointers as values. I'm not sure this is a 41*3102ea3bSJean-Sébastien Pédron * limitation or a feature, so to work around this, a NULL value is replaced by 42*3102ea3bSJean-Sébastien Pédron * `NULL_VALUE`, an unlikely address, when we pass it to linux_radix. 43*3102ea3bSJean-Sébastien Pédron */ 44*3102ea3bSJean-Sébastien Pédron #define NULL_VALUE (void *)0x1 45*3102ea3bSJean-Sébastien Pédron 46*3102ea3bSJean-Sébastien Pédron /* 47d96e5996SHans Petter Selasky * This function removes the element at the given index and returns 48d96e5996SHans Petter Selasky * the pointer to the removed element, if any. 49d96e5996SHans Petter Selasky */ 50d96e5996SHans Petter Selasky void * 51d96e5996SHans Petter Selasky __xa_erase(struct xarray *xa, uint32_t index) 52d96e5996SHans Petter Selasky { 53*3102ea3bSJean-Sébastien Pédron void *retval; 54*3102ea3bSJean-Sébastien Pédron 55d96e5996SHans Petter Selasky XA_ASSERT_LOCKED(xa); 56d96e5996SHans Petter Selasky 57*3102ea3bSJean-Sébastien Pédron retval = radix_tree_delete(&xa->root, index); 58*3102ea3bSJean-Sébastien Pédron if (retval == NULL_VALUE) 59*3102ea3bSJean-Sébastien Pédron retval = NULL; 60*3102ea3bSJean-Sébastien Pédron 61*3102ea3bSJean-Sébastien Pédron return (retval); 62d96e5996SHans Petter Selasky } 63d96e5996SHans Petter Selasky 64d96e5996SHans Petter Selasky void * 65d96e5996SHans Petter Selasky xa_erase(struct xarray *xa, uint32_t index) 66d96e5996SHans Petter Selasky { 67d96e5996SHans Petter Selasky void *retval; 68d96e5996SHans Petter Selasky 69d96e5996SHans Petter Selasky xa_lock(xa); 70d96e5996SHans Petter Selasky retval = __xa_erase(xa, index); 71d96e5996SHans Petter Selasky xa_unlock(xa); 72d96e5996SHans Petter Selasky 73d96e5996SHans Petter Selasky return (retval); 74d96e5996SHans Petter Selasky } 75d96e5996SHans Petter Selasky 76d96e5996SHans Petter Selasky /* 77d96e5996SHans Petter Selasky * This function returns the element pointer at the given index. A 78d96e5996SHans Petter Selasky * value of NULL is returned if the element does not exist. 79d96e5996SHans Petter Selasky */ 80d96e5996SHans Petter Selasky void * 81d96e5996SHans Petter Selasky xa_load(struct xarray *xa, uint32_t index) 82d96e5996SHans Petter Selasky { 83d96e5996SHans Petter Selasky void *retval; 84d96e5996SHans Petter Selasky 85d96e5996SHans Petter Selasky xa_lock(xa); 86d96e5996SHans Petter Selasky retval = radix_tree_lookup(&xa->root, index); 87d96e5996SHans Petter Selasky xa_unlock(xa); 88d96e5996SHans Petter Selasky 89*3102ea3bSJean-Sébastien Pédron if (retval == NULL_VALUE) 90*3102ea3bSJean-Sébastien Pédron retval = NULL; 91*3102ea3bSJean-Sébastien Pédron 92d96e5996SHans Petter Selasky return (retval); 93d96e5996SHans Petter Selasky } 94d96e5996SHans Petter Selasky 95d96e5996SHans Petter Selasky /* 96d96e5996SHans Petter Selasky * This is an internal function used to sleep until more memory 97d96e5996SHans Petter Selasky * becomes available. 98d96e5996SHans Petter Selasky */ 99d96e5996SHans Petter Selasky static void 100d96e5996SHans Petter Selasky xa_vm_wait_locked(struct xarray *xa) 101d96e5996SHans Petter Selasky { 102d96e5996SHans Petter Selasky xa_unlock(xa); 103d96e5996SHans Petter Selasky vm_wait(NULL); 104d96e5996SHans Petter Selasky xa_lock(xa); 105d96e5996SHans Petter Selasky } 106d96e5996SHans Petter Selasky 107d96e5996SHans Petter Selasky /* 108d96e5996SHans Petter Selasky * This function iterates the xarray until it finds a free slot where 109d96e5996SHans Petter Selasky * it can insert the element pointer to by "ptr". It starts at the 110d96e5996SHans Petter Selasky * index pointed to by "pindex" and updates this value at return. The 111d96e5996SHans Petter Selasky * "mask" argument defines the maximum index allowed, inclusivly, and 112d96e5996SHans Petter Selasky * must be a power of two minus one value. The "gfp" argument 113d96e5996SHans Petter Selasky * basically tells if we can wait for more memory to become available 114d96e5996SHans Petter Selasky * or not. This function returns zero upon success or a negative error 115d96e5996SHans Petter Selasky * code on failure. A typical error code is -ENOMEM which means either 116d96e5996SHans Petter Selasky * the xarray is full, or there was not enough internal memory 117d96e5996SHans Petter Selasky * available to complete the radix tree insertion. 118d96e5996SHans Petter Selasky */ 119d96e5996SHans Petter Selasky int 120d96e5996SHans Petter Selasky __xa_alloc(struct xarray *xa, uint32_t *pindex, void *ptr, uint32_t mask, gfp_t gfp) 121d96e5996SHans Petter Selasky { 122d96e5996SHans Petter Selasky int retval; 123d96e5996SHans Petter Selasky 124d96e5996SHans Petter Selasky XA_ASSERT_LOCKED(xa); 125d96e5996SHans Petter Selasky 126e705066cSVladimir Kondratyev /* mask should allow to allocate at least one item */ 127b0c1600aSJohn Baldwin MPASS(mask > ((xa->flags & XA_FLAGS_ALLOC1) != 0 ? 1 : 0)); 128d96e5996SHans Petter Selasky 129d96e5996SHans Petter Selasky /* mask can be any power of two value minus one */ 130d96e5996SHans Petter Selasky MPASS((mask & (mask + 1)) == 0); 131d96e5996SHans Petter Selasky 132e705066cSVladimir Kondratyev *pindex = (xa->flags & XA_FLAGS_ALLOC1) != 0 ? 1 : 0; 133*3102ea3bSJean-Sébastien Pédron if (ptr == NULL) 134*3102ea3bSJean-Sébastien Pédron ptr = NULL_VALUE; 135d96e5996SHans Petter Selasky retry: 136d96e5996SHans Petter Selasky retval = radix_tree_insert(&xa->root, *pindex, ptr); 137d96e5996SHans Petter Selasky 138d96e5996SHans Petter Selasky switch (retval) { 139d96e5996SHans Petter Selasky case -EEXIST: 140d96e5996SHans Petter Selasky if (likely(*pindex != mask)) { 141d96e5996SHans Petter Selasky (*pindex)++; 142d96e5996SHans Petter Selasky goto retry; 143d96e5996SHans Petter Selasky } 144d96e5996SHans Petter Selasky retval = -ENOMEM; 145d96e5996SHans Petter Selasky break; 146d96e5996SHans Petter Selasky case -ENOMEM: 147d96e5996SHans Petter Selasky if (likely(gfp & M_WAITOK)) { 148d96e5996SHans Petter Selasky xa_vm_wait_locked(xa); 149d96e5996SHans Petter Selasky goto retry; 150d96e5996SHans Petter Selasky } 151d96e5996SHans Petter Selasky break; 152d96e5996SHans Petter Selasky default: 153d96e5996SHans Petter Selasky break; 154d96e5996SHans Petter Selasky } 155d96e5996SHans Petter Selasky return (retval); 156d96e5996SHans Petter Selasky } 157d96e5996SHans Petter Selasky 158d96e5996SHans Petter Selasky int 159d96e5996SHans Petter Selasky xa_alloc(struct xarray *xa, uint32_t *pindex, void *ptr, uint32_t mask, gfp_t gfp) 160d96e5996SHans Petter Selasky { 161d96e5996SHans Petter Selasky int retval; 162d96e5996SHans Petter Selasky 163*3102ea3bSJean-Sébastien Pédron if (ptr == NULL) 164*3102ea3bSJean-Sébastien Pédron ptr = NULL_VALUE; 165*3102ea3bSJean-Sébastien Pédron 166d96e5996SHans Petter Selasky xa_lock(xa); 167d96e5996SHans Petter Selasky retval = __xa_alloc(xa, pindex, ptr, mask, gfp); 168d96e5996SHans Petter Selasky xa_unlock(xa); 169d96e5996SHans Petter Selasky 170d96e5996SHans Petter Selasky return (retval); 171d96e5996SHans Petter Selasky } 172d96e5996SHans Petter Selasky 173d96e5996SHans Petter Selasky /* 174d96e5996SHans Petter Selasky * This function works the same like the "xa_alloc" function, except 175d96e5996SHans Petter Selasky * it wraps the next index value to zero when there are no entries 176d96e5996SHans Petter Selasky * left at the end of the xarray searching for a free slot from the 177d96e5996SHans Petter Selasky * beginning of the array. If the xarray is full -ENOMEM is returned. 178d96e5996SHans Petter Selasky */ 179d96e5996SHans Petter Selasky int 180d96e5996SHans Petter Selasky __xa_alloc_cyclic(struct xarray *xa, uint32_t *pindex, void *ptr, uint32_t mask, 181d96e5996SHans Petter Selasky uint32_t *pnext_index, gfp_t gfp) 182d96e5996SHans Petter Selasky { 183d96e5996SHans Petter Selasky int retval; 184d96e5996SHans Petter Selasky int timeout = 1; 185d96e5996SHans Petter Selasky 186d96e5996SHans Petter Selasky XA_ASSERT_LOCKED(xa); 187d96e5996SHans Petter Selasky 188e705066cSVladimir Kondratyev /* mask should allow to allocate at least one item */ 189b0c1600aSJohn Baldwin MPASS(mask > ((xa->flags & XA_FLAGS_ALLOC1) != 0 ? 1 : 0)); 190d96e5996SHans Petter Selasky 191d96e5996SHans Petter Selasky /* mask can be any power of two value minus one */ 192d96e5996SHans Petter Selasky MPASS((mask & (mask + 1)) == 0); 193d96e5996SHans Petter Selasky 194e705066cSVladimir Kondratyev *pnext_index = (xa->flags & XA_FLAGS_ALLOC1) != 0 ? 1 : 0; 195*3102ea3bSJean-Sébastien Pédron if (ptr == NULL) 196*3102ea3bSJean-Sébastien Pédron ptr = NULL_VALUE; 197d96e5996SHans Petter Selasky retry: 198d96e5996SHans Petter Selasky retval = radix_tree_insert(&xa->root, *pnext_index, ptr); 199d96e5996SHans Petter Selasky 200d96e5996SHans Petter Selasky switch (retval) { 201d96e5996SHans Petter Selasky case -EEXIST: 202d96e5996SHans Petter Selasky if (unlikely(*pnext_index == mask) && !timeout--) { 203d96e5996SHans Petter Selasky retval = -ENOMEM; 204d96e5996SHans Petter Selasky break; 205d96e5996SHans Petter Selasky } 206d96e5996SHans Petter Selasky (*pnext_index)++; 207d96e5996SHans Petter Selasky (*pnext_index) &= mask; 208e705066cSVladimir Kondratyev if (*pnext_index == 0 && (xa->flags & XA_FLAGS_ALLOC1) != 0) 209e705066cSVladimir Kondratyev (*pnext_index)++; 210d96e5996SHans Petter Selasky goto retry; 211d96e5996SHans Petter Selasky case -ENOMEM: 212d96e5996SHans Petter Selasky if (likely(gfp & M_WAITOK)) { 213d96e5996SHans Petter Selasky xa_vm_wait_locked(xa); 214d96e5996SHans Petter Selasky goto retry; 215d96e5996SHans Petter Selasky } 216d96e5996SHans Petter Selasky break; 217d96e5996SHans Petter Selasky default: 218d96e5996SHans Petter Selasky break; 219d96e5996SHans Petter Selasky } 220d96e5996SHans Petter Selasky *pindex = *pnext_index; 221d96e5996SHans Petter Selasky 222d96e5996SHans Petter Selasky return (retval); 223d96e5996SHans Petter Selasky } 224d96e5996SHans Petter Selasky 225d96e5996SHans Petter Selasky int 226d96e5996SHans Petter Selasky xa_alloc_cyclic(struct xarray *xa, uint32_t *pindex, void *ptr, uint32_t mask, 227d96e5996SHans Petter Selasky uint32_t *pnext_index, gfp_t gfp) 228d96e5996SHans Petter Selasky { 229d96e5996SHans Petter Selasky int retval; 230d96e5996SHans Petter Selasky 231d96e5996SHans Petter Selasky xa_lock(xa); 232d96e5996SHans Petter Selasky retval = __xa_alloc_cyclic(xa, pindex, ptr, mask, pnext_index, gfp); 233d96e5996SHans Petter Selasky xa_unlock(xa); 234d96e5996SHans Petter Selasky 235d96e5996SHans Petter Selasky return (retval); 236d96e5996SHans Petter Selasky } 237d96e5996SHans Petter Selasky 238d96e5996SHans Petter Selasky /* 239d96e5996SHans Petter Selasky * This function tries to insert an element at the given index. The 240d96e5996SHans Petter Selasky * "gfp" argument basically decides of this function can sleep or not 241d96e5996SHans Petter Selasky * trying to allocate internal memory for its radix tree. The 242d96e5996SHans Petter Selasky * function returns an error code upon failure. Typical error codes 243d96e5996SHans Petter Selasky * are element exists (-EEXIST) or out of memory (-ENOMEM). 244d96e5996SHans Petter Selasky */ 245d96e5996SHans Petter Selasky int 246d96e5996SHans Petter Selasky __xa_insert(struct xarray *xa, uint32_t index, void *ptr, gfp_t gfp) 247d96e5996SHans Petter Selasky { 248d96e5996SHans Petter Selasky int retval; 249d96e5996SHans Petter Selasky 250d96e5996SHans Petter Selasky XA_ASSERT_LOCKED(xa); 251*3102ea3bSJean-Sébastien Pédron if (ptr == NULL) 252*3102ea3bSJean-Sébastien Pédron ptr = NULL_VALUE; 253d96e5996SHans Petter Selasky retry: 254d96e5996SHans Petter Selasky retval = radix_tree_insert(&xa->root, index, ptr); 255d96e5996SHans Petter Selasky 256d96e5996SHans Petter Selasky switch (retval) { 257d96e5996SHans Petter Selasky case -ENOMEM: 258d96e5996SHans Petter Selasky if (likely(gfp & M_WAITOK)) { 259d96e5996SHans Petter Selasky xa_vm_wait_locked(xa); 260d96e5996SHans Petter Selasky goto retry; 261d96e5996SHans Petter Selasky } 262d96e5996SHans Petter Selasky break; 263d96e5996SHans Petter Selasky default: 264d96e5996SHans Petter Selasky break; 265d96e5996SHans Petter Selasky } 266d96e5996SHans Petter Selasky return (retval); 267d96e5996SHans Petter Selasky } 268d96e5996SHans Petter Selasky 269d96e5996SHans Petter Selasky int 270d96e5996SHans Petter Selasky xa_insert(struct xarray *xa, uint32_t index, void *ptr, gfp_t gfp) 271d96e5996SHans Petter Selasky { 272d96e5996SHans Petter Selasky int retval; 273d96e5996SHans Petter Selasky 274d96e5996SHans Petter Selasky xa_lock(xa); 275d96e5996SHans Petter Selasky retval = __xa_insert(xa, index, ptr, gfp); 276d96e5996SHans Petter Selasky xa_unlock(xa); 277d96e5996SHans Petter Selasky 278d96e5996SHans Petter Selasky return (retval); 279d96e5996SHans Petter Selasky } 280d96e5996SHans Petter Selasky 281d96e5996SHans Petter Selasky /* 282d96e5996SHans Petter Selasky * This function updates the element at the given index and returns a 283d96e5996SHans Petter Selasky * pointer to the old element. The "gfp" argument basically decides of 284d96e5996SHans Petter Selasky * this function can sleep or not trying to allocate internal memory 285d96e5996SHans Petter Selasky * for its radix tree. The function returns an XA_ERROR() pointer code 286d96e5996SHans Petter Selasky * upon failure. Code using this function must always check if the 287d96e5996SHans Petter Selasky * return value is an XA_ERROR() code before using the returned value. 288d96e5996SHans Petter Selasky */ 289d96e5996SHans Petter Selasky void * 290d96e5996SHans Petter Selasky __xa_store(struct xarray *xa, uint32_t index, void *ptr, gfp_t gfp) 291d96e5996SHans Petter Selasky { 292d96e5996SHans Petter Selasky int retval; 293d96e5996SHans Petter Selasky 294d96e5996SHans Petter Selasky XA_ASSERT_LOCKED(xa); 295*3102ea3bSJean-Sébastien Pédron if (ptr == NULL) 296*3102ea3bSJean-Sébastien Pédron ptr = NULL_VALUE; 297d96e5996SHans Petter Selasky retry: 298d96e5996SHans Petter Selasky retval = radix_tree_store(&xa->root, index, &ptr); 299d96e5996SHans Petter Selasky 300d96e5996SHans Petter Selasky switch (retval) { 301d96e5996SHans Petter Selasky case 0: 302*3102ea3bSJean-Sébastien Pédron if (ptr == NULL_VALUE) 303*3102ea3bSJean-Sébastien Pédron ptr = NULL; 304d96e5996SHans Petter Selasky break; 305d96e5996SHans Petter Selasky case -ENOMEM: 306d96e5996SHans Petter Selasky if (likely(gfp & M_WAITOK)) { 307d96e5996SHans Petter Selasky xa_vm_wait_locked(xa); 308d96e5996SHans Petter Selasky goto retry; 309d96e5996SHans Petter Selasky } 310d96e5996SHans Petter Selasky ptr = XA_ERROR(retval); 311d96e5996SHans Petter Selasky break; 312d96e5996SHans Petter Selasky default: 313d96e5996SHans Petter Selasky ptr = XA_ERROR(retval); 314d96e5996SHans Petter Selasky break; 315d96e5996SHans Petter Selasky } 316d96e5996SHans Petter Selasky return (ptr); 317d96e5996SHans Petter Selasky } 318d96e5996SHans Petter Selasky 319d96e5996SHans Petter Selasky void * 320d96e5996SHans Petter Selasky xa_store(struct xarray *xa, uint32_t index, void *ptr, gfp_t gfp) 321d96e5996SHans Petter Selasky { 322d96e5996SHans Petter Selasky void *retval; 323d96e5996SHans Petter Selasky 324d96e5996SHans Petter Selasky xa_lock(xa); 325d96e5996SHans Petter Selasky retval = __xa_store(xa, index, ptr, gfp); 326d96e5996SHans Petter Selasky xa_unlock(xa); 327d96e5996SHans Petter Selasky 328d96e5996SHans Petter Selasky return (retval); 329d96e5996SHans Petter Selasky } 330d96e5996SHans Petter Selasky 331d96e5996SHans Petter Selasky /* 332d96e5996SHans Petter Selasky * This function initialize an xarray structure. 333d96e5996SHans Petter Selasky */ 334d96e5996SHans Petter Selasky void 335d96e5996SHans Petter Selasky xa_init_flags(struct xarray *xa, uint32_t flags) 336d96e5996SHans Petter Selasky { 337d96e5996SHans Petter Selasky memset(xa, 0, sizeof(*xa)); 338d96e5996SHans Petter Selasky 339d96e5996SHans Petter Selasky mtx_init(&xa->mtx, "lkpi-xarray", NULL, MTX_DEF | MTX_RECURSE); 340d96e5996SHans Petter Selasky xa->root.gfp_mask = GFP_NOWAIT; 341e705066cSVladimir Kondratyev xa->flags = flags; 342d96e5996SHans Petter Selasky } 343d96e5996SHans Petter Selasky 344d96e5996SHans Petter Selasky /* 345d96e5996SHans Petter Selasky * This function destroys an xarray structure and all its internal 346d96e5996SHans Petter Selasky * memory and locks. 347d96e5996SHans Petter Selasky */ 348d96e5996SHans Petter Selasky void 349d96e5996SHans Petter Selasky xa_destroy(struct xarray *xa) 350d96e5996SHans Petter Selasky { 351d96e5996SHans Petter Selasky struct radix_tree_iter iter; 352d96e5996SHans Petter Selasky void **ppslot; 353d96e5996SHans Petter Selasky 354d96e5996SHans Petter Selasky radix_tree_for_each_slot(ppslot, &xa->root, &iter, 0) 355d96e5996SHans Petter Selasky radix_tree_iter_delete(&xa->root, &iter, ppslot); 356d96e5996SHans Petter Selasky mtx_destroy(&xa->mtx); 357d96e5996SHans Petter Selasky } 358d96e5996SHans Petter Selasky 359d96e5996SHans Petter Selasky /* 360d96e5996SHans Petter Selasky * This function checks if an xarray is empty or not. 361d96e5996SHans Petter Selasky * It returns true if empty, else false. 362d96e5996SHans Petter Selasky */ 363d96e5996SHans Petter Selasky bool 364d96e5996SHans Petter Selasky __xa_empty(struct xarray *xa) 365d96e5996SHans Petter Selasky { 366d96e5996SHans Petter Selasky struct radix_tree_iter iter = {}; 367d96e5996SHans Petter Selasky void **temp; 368d96e5996SHans Petter Selasky 369d96e5996SHans Petter Selasky XA_ASSERT_LOCKED(xa); 370d96e5996SHans Petter Selasky 371d96e5996SHans Petter Selasky return (!radix_tree_iter_find(&xa->root, &iter, &temp)); 372d96e5996SHans Petter Selasky } 373d96e5996SHans Petter Selasky 374d96e5996SHans Petter Selasky bool 375d96e5996SHans Petter Selasky xa_empty(struct xarray *xa) 376d96e5996SHans Petter Selasky { 377d96e5996SHans Petter Selasky bool retval; 378d96e5996SHans Petter Selasky 379d96e5996SHans Petter Selasky xa_lock(xa); 380d96e5996SHans Petter Selasky retval = __xa_empty(xa); 381d96e5996SHans Petter Selasky xa_unlock(xa); 382d96e5996SHans Petter Selasky 383d96e5996SHans Petter Selasky return (retval); 384d96e5996SHans Petter Selasky } 385d96e5996SHans Petter Selasky 386d96e5996SHans Petter Selasky /* 387d96e5996SHans Petter Selasky * This function returns the next valid xarray entry based on the 388d96e5996SHans Petter Selasky * index given by "pindex". The valued pointed to by "pindex" is 389d96e5996SHans Petter Selasky * updated before return. 390d96e5996SHans Petter Selasky */ 391d96e5996SHans Petter Selasky void * 392d96e5996SHans Petter Selasky __xa_next(struct xarray *xa, unsigned long *pindex, bool not_first) 393d96e5996SHans Petter Selasky { 394d96e5996SHans Petter Selasky struct radix_tree_iter iter = { .index = *pindex }; 395d96e5996SHans Petter Selasky void **ppslot; 396d96e5996SHans Petter Selasky void *retval; 397d96e5996SHans Petter Selasky bool found; 398d96e5996SHans Petter Selasky 399d96e5996SHans Petter Selasky XA_ASSERT_LOCKED(xa); 400d96e5996SHans Petter Selasky 401d96e5996SHans Petter Selasky if (not_first) { 402d96e5996SHans Petter Selasky /* advance to next index, if any */ 403d96e5996SHans Petter Selasky iter.index++; 404d96e5996SHans Petter Selasky if (iter.index == 0) 405d96e5996SHans Petter Selasky return (NULL); 406d96e5996SHans Petter Selasky } 407d96e5996SHans Petter Selasky 408d96e5996SHans Petter Selasky found = radix_tree_iter_find(&xa->root, &iter, &ppslot); 409d96e5996SHans Petter Selasky if (likely(found)) { 410d96e5996SHans Petter Selasky retval = *ppslot; 411*3102ea3bSJean-Sébastien Pédron if (retval == NULL_VALUE) 412*3102ea3bSJean-Sébastien Pédron retval = NULL; 413d96e5996SHans Petter Selasky *pindex = iter.index; 414d96e5996SHans Petter Selasky } else { 415d96e5996SHans Petter Selasky retval = NULL; 416d96e5996SHans Petter Selasky } 417d96e5996SHans Petter Selasky return (retval); 418d96e5996SHans Petter Selasky } 419d96e5996SHans Petter Selasky 420d96e5996SHans Petter Selasky void * 421d96e5996SHans Petter Selasky xa_next(struct xarray *xa, unsigned long *pindex, bool not_first) 422d96e5996SHans Petter Selasky { 423d96e5996SHans Petter Selasky void *retval; 424d96e5996SHans Petter Selasky 425d96e5996SHans Petter Selasky xa_lock(xa); 426d96e5996SHans Petter Selasky retval = __xa_next(xa, pindex, not_first); 427d96e5996SHans Petter Selasky xa_unlock(xa); 428d96e5996SHans Petter Selasky 429d96e5996SHans Petter Selasky return (retval); 430d96e5996SHans Petter Selasky } 431