#define JEMALLOC_RTREE_C_ #include "jemalloc/internal/jemalloc_internal.h" static unsigned hmin(unsigned ha, unsigned hb) { return (ha < hb ? ha : hb); } /* * Only the most significant bits of keys passed to rtree_{read,write}() are * used. */ bool rtree_new(rtree_t *rtree, unsigned bits) { unsigned bits_in_leaf, height, i; assert(RTREE_HEIGHT_MAX == ((ZU(1) << (LG_SIZEOF_PTR+3)) / RTREE_BITS_PER_LEVEL)); assert(bits > 0 && bits <= (sizeof(uintptr_t) << 3)); bits_in_leaf = (bits % RTREE_BITS_PER_LEVEL) == 0 ? RTREE_BITS_PER_LEVEL : (bits % RTREE_BITS_PER_LEVEL); if (bits > bits_in_leaf) { height = 1 + (bits - bits_in_leaf) / RTREE_BITS_PER_LEVEL; if ((height-1) * RTREE_BITS_PER_LEVEL + bits_in_leaf != bits) height++; } else height = 1; assert((height-1) * RTREE_BITS_PER_LEVEL + bits_in_leaf == bits); rtree->height = height; /* Root level. */ rtree->levels[0].subtree = NULL; rtree->levels[0].bits = (height > 1) ? RTREE_BITS_PER_LEVEL : bits_in_leaf; rtree->levels[0].cumbits = rtree->levels[0].bits; /* Interior levels. */ for (i = 1; i < height-1; i++) { rtree->levels[i].subtree = NULL; rtree->levels[i].bits = RTREE_BITS_PER_LEVEL; rtree->levels[i].cumbits = rtree->levels[i-1].cumbits + RTREE_BITS_PER_LEVEL; } /* Leaf level. */ if (height > 1) { rtree->levels[height-1].subtree = NULL; rtree->levels[height-1].bits = bits_in_leaf; rtree->levels[height-1].cumbits = bits; } /* Compute lookup table to be used by rtree_[ctx_]start_level(). */ for (i = 0; i < RTREE_HEIGHT_MAX; i++) { rtree->start_level[i] = hmin(RTREE_HEIGHT_MAX - 1 - i, height - 1); } rtree->start_level[RTREE_HEIGHT_MAX] = 0; malloc_mutex_init(&rtree->init_lock, "rtree", WITNESS_RANK_RTREE); return (false); } #ifdef JEMALLOC_JET #undef rtree_node_alloc #define rtree_node_alloc JEMALLOC_N(rtree_node_alloc_impl) #endif static rtree_elm_t * rtree_node_alloc(tsdn_t *tsdn, rtree_t *rtree, size_t nelms) { return ((rtree_elm_t *)base_alloc(tsdn, nelms * sizeof(rtree_elm_t))); } #ifdef JEMALLOC_JET #undef rtree_node_alloc #define rtree_node_alloc JEMALLOC_N(rtree_node_alloc) rtree_node_alloc_t *rtree_node_alloc = JEMALLOC_N(rtree_node_alloc_impl); #endif #ifdef JEMALLOC_JET #undef rtree_node_dalloc #define rtree_node_dalloc JEMALLOC_N(rtree_node_dalloc_impl) #endif UNUSED static void rtree_node_dalloc(tsdn_t *tsdn, rtree_t *rtree, rtree_elm_t *node) { /* Nodes are never deleted during normal operation. */ not_reached(); } #ifdef JEMALLOC_JET #undef rtree_node_dalloc #define rtree_node_dalloc JEMALLOC_N(rtree_node_dalloc) rtree_node_dalloc_t *rtree_node_dalloc = JEMALLOC_N(rtree_node_dalloc_impl); #endif #ifdef JEMALLOC_JET static void rtree_delete_subtree(tsdn_t *tsdn, rtree_t *rtree, rtree_elm_t *node, unsigned level) { if (level + 1 < rtree->height) { size_t nchildren, i; nchildren = ZU(1) << rtree->levels[level].bits; for (i = 0; i < nchildren; i++) { rtree_elm_t *child = node[i].child; if (child != NULL) { rtree_delete_subtree(tsdn, rtree, child, level + 1); } } } rtree_node_dalloc(tsdn, rtree, node); } void rtree_delete(tsdn_t *tsdn, rtree_t *rtree) { unsigned i; for (i = 0; i < rtree->height; i++) { rtree_elm_t *subtree = rtree->levels[i].subtree; if (subtree != NULL) rtree_delete_subtree(tsdn, rtree, subtree, i); } } #endif static rtree_elm_t * rtree_node_init(tsdn_t *tsdn, rtree_t *rtree, unsigned level, rtree_elm_t **elmp) { rtree_elm_t *node; malloc_mutex_lock(tsdn, &rtree->init_lock); node = atomic_read_p((void**)elmp); if (node == NULL) { node = rtree_node_alloc(tsdn, rtree, ZU(1) << rtree->levels[level].bits); if (node == NULL) { malloc_mutex_unlock(tsdn, &rtree->init_lock); return (NULL); } atomic_write_p((void **)elmp, node); } malloc_mutex_unlock(tsdn, &rtree->init_lock); return (node); } rtree_elm_t * rtree_subtree_read_hard(tsdn_t *tsdn, rtree_t *rtree, unsigned level) { return (rtree_node_init(tsdn, rtree, level, &rtree->levels[level].subtree)); } rtree_elm_t * rtree_child_read_hard(tsdn_t *tsdn, rtree_t *rtree, rtree_elm_t *elm, unsigned level) { return (rtree_node_init(tsdn, rtree, level+1, &elm->child)); } static int rtree_elm_witness_comp(const witness_t *a, void *oa, const witness_t *b, void *ob) { uintptr_t ka = (uintptr_t)oa; uintptr_t kb = (uintptr_t)ob; assert(ka != 0); assert(kb != 0); return ((ka > kb) - (ka < kb)); } static witness_t * rtree_elm_witness_alloc(tsd_t *tsd, uintptr_t key, const rtree_elm_t *elm) { witness_t *witness; size_t i; rtree_elm_witness_tsd_t *witnesses = tsd_rtree_elm_witnessesp_get(tsd); /* Iterate over entire array to detect double allocation attempts. */ witness = NULL; for (i = 0; i < sizeof(rtree_elm_witness_tsd_t) / sizeof(witness_t); i++) { rtree_elm_witness_t *rew = &witnesses->witnesses[i]; assert(rew->elm != elm); if (rew->elm == NULL && witness == NULL) { rew->elm = elm; witness = &rew->witness; witness_init(witness, "rtree_elm", WITNESS_RANK_RTREE_ELM, rtree_elm_witness_comp, (void *)key); } } assert(witness != NULL); return (witness); } static witness_t * rtree_elm_witness_find(tsd_t *tsd, const rtree_elm_t *elm) { size_t i; rtree_elm_witness_tsd_t *witnesses = tsd_rtree_elm_witnessesp_get(tsd); for (i = 0; i < sizeof(rtree_elm_witness_tsd_t) / sizeof(witness_t); i++) { rtree_elm_witness_t *rew = &witnesses->witnesses[i]; if (rew->elm == elm) return (&rew->witness); } not_reached(); } static void rtree_elm_witness_dalloc(tsd_t *tsd, witness_t *witness, const rtree_elm_t *elm) { size_t i; rtree_elm_witness_tsd_t *witnesses = tsd_rtree_elm_witnessesp_get(tsd); for (i = 0; i < sizeof(rtree_elm_witness_tsd_t) / sizeof(witness_t); i++) { rtree_elm_witness_t *rew = &witnesses->witnesses[i]; if (rew->elm == elm) { rew->elm = NULL; witness_init(&rew->witness, "rtree_elm", WITNESS_RANK_RTREE_ELM, rtree_elm_witness_comp, NULL); return; } } not_reached(); } void rtree_elm_witness_acquire(tsdn_t *tsdn, const rtree_t *rtree, uintptr_t key, const rtree_elm_t *elm) { witness_t *witness; if (tsdn_null(tsdn)) return; witness = rtree_elm_witness_alloc(tsdn_tsd(tsdn), key, elm); witness_lock(tsdn, witness); } void rtree_elm_witness_access(tsdn_t *tsdn, const rtree_t *rtree, const rtree_elm_t *elm) { witness_t *witness; if (tsdn_null(tsdn)) return; witness = rtree_elm_witness_find(tsdn_tsd(tsdn), elm); witness_assert_owner(tsdn, witness); } void rtree_elm_witness_release(tsdn_t *tsdn, const rtree_t *rtree, const rtree_elm_t *elm) { witness_t *witness; if (tsdn_null(tsdn)) return; witness = rtree_elm_witness_find(tsdn_tsd(tsdn), elm); witness_unlock(tsdn, witness); rtree_elm_witness_dalloc(tsdn_tsd(tsdn), witness, elm); }