/* * ks_index.c * ---------- * Keystore index API. This is internal within libhal. * * Copyright (c) 2016, NORDUnet A/S All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * - 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. * * - Neither the name of the NORDUnet nor the names of its contributors may * be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT * HOLDER 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 #include #include "hal.h" #include "hal_internal.h" /* * Compare two hal_ks_name_t objects. */ static inline int ks_name_cmp(const hal_ks_name_t * const name1, const hal_ks_name_t * const name2) { assert(name1 != NULL && name2 != NULL); int cmp = hal_uuid_cmp(&name1->name, &name2->name); if (cmp == 0) cmp = ((int) name1->chunk) - ((int) name2->chunk); return cmp; } /* * Return value indicates whether the name is present in the index. * "where" indicates the name's position whether present or not. * * NB: This does NOT return a block number, it returns an index into * ksi->index[]. */ static int ks_find(const hal_ks_index_t * const ksi, const hal_uuid_t * const uuid, const uint8_t chunk, const int * const hint, int *where) { assert(ksi != NULL && ksi->index != NULL && ksi->names != NULL && uuid != NULL && where != NULL); const hal_ks_name_t name = { *uuid, chunk }; if (hint != NULL && *hint >= 0 && *hint < ksi->used && ks_name_cmp(&name, &ksi->names[ksi->index[*hint]]) == 0) { *where = *hint; return 1; } int lo = -1; int hi = ksi->used; for (;;) { int m = (lo + hi) / 2; if (hi == 0 || m == lo) { *where = hi; return 0; } const int cmp = ks_name_cmp(&name, &ksi->names[ksi->index[m]]); if (cmp < 0) hi = m; else if (cmp > 0) lo = m; else { *where = m; return 1; } } } /* * Heapsort the index. We only need to do this on setup, for other * operations we're just inserting or deleting a single entry in an * already-ordered array, which is just a search problem. If we were * really crunched for space, we could use an insertion sort here, but * heapsort is easy and works well with data already in place. */ static inline void ks_heapsift(hal_ks_index_t *ksi, int parent, const int end) { assert(ksi != NULL && ksi->index != NULL && ksi->names != NULL && parent >= 0 && end >= parent); for (;;) { const int left_child = parent * 2 + 1; const int right_child = parent * 2 + 2; int biggest = parent; if (left_child <= end && ks_name_cmp(&ksi->names[ksi->index[biggest]], &ksi->names[ksi->index[left_child]]) < 0) biggest = left_child; if (right_child <= end && ks_name_cmp(&ksi->names[ksi->index[biggest]], &ksi->names[ksi->index[right_child]]) < 0) biggest = right_child; if (biggest == parent) return; const uint16_t tmp = ksi->index[biggest]; ksi->index[biggest] = ksi->index[parent]; ksi->index[parent] = tmp; parent = biggest; } } static inline void ks_heapsort(hal_ks_index_t *ksi) { assert(ksi != NULL && ksi->index != NULL && ksi->names != NULL); if (ksi->used < 2) return; for (int i = (ksi->used - 2) / 2; i >= 0; i--) ks_heapsift(ksi, i, ksi->used - 1); for (int i = ksi->used - 1; i > 0; i--) { const uint16_t tmp = ksi->index[i]; ksi->index[i] = ksi->index[0]; ksi->index[0] = tmp; ks_heapsift(ksi, 0, i - 1); } } #define fsck(_ksi) \ do { hal_error_t _err = hal_ks_index_fsck(_ksi); if (_err != HAL_OK) return _err; } while (0) hal_error_t hal_ks_index_fsck(hal_ks_index_t *ksi) { if (ksi == NULL || ksi->index == NULL || ksi->names == NULL || ksi->size == 0 || ksi->used > ksi->size) return HAL_ERROR_BAD_ARGUMENTS; for (int i = 0; i < ksi->used; i++) { const int cmp = i == 0 ? -1 : hal_uuid_cmp(&ksi->names[ksi->index[i - 1]].name, &ksi->names[ksi->index[i ]].name); const uint8_t prev_chunk = i == 0 ? 0 : ksi->names[ksi->index[i - 1]].chunk; const uint8_t cur_chunk = ksi->names[ksi->index[i ]].chunk; if (cmp > 0) return HAL_ERROR_KSI_INDEX_UUID_MISORDERED; if (cur_chunk > 0 && cmp != 0) return HAL_ERROR_KSI_INDEX_CHUNK_ORPHANED; if (cur_chunk > 0 && prev_chunk + 1 < cur_chunk) return HAL_ERROR_KSI_INDEX_CHUNK_MISSING; if (cur_chunk > 0 && prev_chunk + 1 > cur_chunk) return HAL_ERROR_KSI_INDEX_CHUNK_OVERLAPS; } return HAL_OK; } hal_error_t hal_ks_index_setup(hal_ks_index_t *ksi) { if (ksi == NULL || ksi->index == NULL || ksi->names == NULL || ksi->size == 0 || ksi->used > ksi->size) return HAL_ERROR_BAD_ARGUMENTS; /* * Only setup task we have at the moment is sorting the index. */ ks_heapsort(ksi); /* * One might think we should fsck here, but errors in the index * at this point probably relate to errors in the supplied data, * which only the driver knows how to clean up. */ return HAL_OK; } hal_error_t hal_ks_index_find(hal_ks_index_t *ksi, const hal_uuid_t * const name, const unsigned chunk, unsigned *blockno, int *hint) { if (ksi == NULL || ksi->index == NULL || ksi->names == NULL || ksi->size == 0 || ksi->used > ksi->size || name == NULL) return HAL_ERROR_BAD_ARGUMENTS; int where; fsck(ksi); int ok = ks_find(ksi, name, chunk, hint, &where); if (blockno != NULL) *blockno = ksi->index[where]; if (hint != NULL) *hint = where; return ok ? HAL_OK : HAL_ERROR_KEY_NOT_FOUND; } hal_error_t hal_ks_index_find_range(hal_ks_index_t *ksi, const hal_uuid_t * const name, const unsigned max_blocks, unsigned *n_blocks, unsigned *blocknos, int *hint) { if (ksi == NULL || ksi->index == NULL || ksi->names == NULL || ksi->size == 0 || ksi->used > ksi->size || name == NULL) return HAL_ERROR_BAD_ARGUMENTS; int where; fsck(ksi); if (!ks_find(ksi, name, 0, hint, &where)) return HAL_ERROR_KEY_NOT_FOUND; int n = 0; for (int i = where; i < ksi->used && !hal_uuid_cmp(name, &ksi->names[ksi->index[i]].name); i++) { if (n != ksi->names[ksi->index[i]].chunk) return HAL_ERROR_IMPOSSIBLE; if (blocknos != NULL && n < max_blocks) blocknos[n] = ksi->index[i]; n++; } if (n_blocks != NULL) *n_blocks = n; if (hint != NULL) *hint = where; if (blocknos != NULL && n > max_blocks) return HAL_ERROR_RESULT_TOO_LONG; return HAL_OK; } hal_error_t hal_ks_index_add(hal_ks_index_t *ksi, const hal_uuid_t * const name, const unsigned chunk, unsigned *blockno, int *hint) { if (ksi == NULL || ksi->index == NULL || ksi->names == NULL || ksi->size == 0 || ksi->used > ksi->size || name == NULL) return HAL_ERROR_BAD_ARGUMENTS; if (ksi->used == ksi->size) return HAL_ERROR_NO_KEY_INDEX_SLOTS; int where; fsck(ksi); if (ks_find(ksi, name, chunk, hint, &where)) return HAL_ERROR_KEY_NAME_IN_USE; /* * Grab first block on free list, which makes room to slide the * index up by one slot so we can insert the new block number. */ const size_t len = (ksi->used - where) * sizeof(*ksi->index); const uint16_t b = ksi->index[ksi->used++]; memmove(&ksi->index[where + 1], &ksi->index[where], len); ksi->index[where] = b; ksi->names[b].name = *name; ksi->names[b].chunk = chunk; if (blockno != NULL) *blockno = b; if (hint != NULL) *hint = where; fsck(ksi); return HAL_OK; } hal_error_t hal_ks_index_delete(hal_ks_index_t *ksi, const hal_uuid_t * const name, const unsigned chunk, unsigned *blockno, int *hint) { if (ksi == NULL || ksi->index == NULL || ksi->names == NULL || ksi->size == 0 || ksi->used > ksi->size || name == NULL) return HAL_ERROR_BAD_ARGUMENTS; int where; fsck(ksi); if (ksi->used == 0 || !ks_find(ksi, name, chunk, hint, &where)) return HAL_ERROR_KEY_NOT_FOUND; /* * Free the block and stuff it at the end of the free list. */ const size_t len = (ksi->size - where - 1) * sizeof(*ksi->index); const uint16_t b = ksi->index[where]; memmove(&ksi->index[where], &ksi->index[where + 1], len); ksi->index[ksi->size - 1] = b; ksi->used--; memset(&ksi->names[b], 0, sizeof(ksi->names[b])); if (blockno != NULL) *blockno = b; if (hint != NULL) *hint = where; fsck(ksi); return HAL_OK; } hal_error_t hal_ks_index_delete_range(hal_ks_index_t *ksi, const hal_uuid_t * const name, const unsigned max_blocks, unsigned *n_blocks, unsigned *blocknos, int *hint) { if (ksi == NULL || ksi->index == NULL || ksi->names == NULL || ksi->size == 0 || ksi->used > ksi->size || name == NULL) return HAL_ERROR_BAD_ARGUMENTS; int where; fsck(ksi); if (ksi->used == 0 || !ks_find(ksi, name, 0, hint, &where)) return HAL_ERROR_KEY_NOT_FOUND; int n = 0; for (int i = where; i < ksi->used && !hal_uuid_cmp(name, &ksi->names[ksi->index[i]].name); i++) { if (n != ksi->names[ksi->index[i]].chunk) return HAL_ERROR_IMPOSSIBLE; if (blocknos != NULL && n < max_blocks) blocknos[n] = ksi->index[i]; n++; } if (n_blocks != NULL) *n_blocks = n; /* * Free the blocks and stuff them at the end of the free list. */ if (blocknos != NULL) { if (n > max_blocks) return HAL_ERROR_RESULT_TOO_LONG; const size_t len = (ksi->size - where - n) * sizeof(*ksi->index); memmove(&ksi->index[where], &ksi->index[where + n], len); ksi->used -= n; for (int i = 0; i < n; i++) { ksi->index[ksi->size - n + i] = blocknos[i]; memset(&ksi->names[blocknos[i]], 0, sizeof(ksi->names[blocknos[i]])); } where = -1; } if (hint != NULL) *hint = where; fsck(ksi); return HAL_OK; } hal_error_t hal_ks_index_replace(hal_ks_index_t *ksi, const hal_uuid_t * const name, const unsigned chunk, unsigned *blockno, int *hint) { if (ksi == NULL || ksi->index == NULL || ksi->names == NULL || ksi->size == 0 || ksi->used > ksi->size || name == NULL) return HAL_ERROR_BAD_ARGUMENTS; if (ksi->used == ksi->size) return HAL_ERROR_NO_KEY_INDEX_SLOTS; int where; fsck(ksi); if (ksi->used == 0 || !ks_find(ksi, name, chunk, hint, &where)) return HAL_ERROR_KEY_NOT_FOUND; /* * Grab first block from free list, slide free list down, put old * block at end of free list and replace old block with new block. */ const size_t len = (ksi->size - ksi->used - 1) * sizeof(*ksi->index); const uint16_t b1 = ksi->index[where]; const uint16_t b2 = ksi->index[ksi->used]; memmove(&ksi->index[ksi->used], &ksi->index[ksi->used + 1], len); ksi->index[ksi->size - 1] = b1; ksi->index[where] = b2; ksi->names[b2].name = *name; ksi->names[b2].chunk = chunk; memset(&ksi->names[b1], 0, sizeof(ksi->names[b1])); if (blockno != NULL) *blockno = b2; if (hint != NULL) *hint = where; fsck(ksi); return HAL_OK; } /* * Local variables: * indent-tabs-mode: nil * End: */ > 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316