/* Copyright (c) 2017 - 2022 LiteSpeed Technologies Inc. See LICENSE. */ #include #include #include #include #include "lsquic_int_types.h" #include "lsquic_trechist.h" static unsigned find_free_slot (uint32_t slots) { #if __GNUC__ return __builtin_ctz(~slots); #else unsigned n; slots =~ slots; n = 0; if (0 == (slots & ((1ULL << 16) - 1))) { n += 16; slots >>= 16; } if (0 == (slots & ((1ULL << 8) - 1))) { n += 8; slots >>= 8; } if (0 == (slots & ((1ULL << 4) - 1))) { n += 4; slots >>= 4; } if (0 == (slots & ((1ULL << 2) - 1))) { n += 2; slots >>= 2; } if (0 == (slots & ((1ULL << 1) - 1))) { n += 1; slots >>= 1; } return n; #endif } /* When capacity is reached, smallest element is removed. When the number * of elements in a single range cannot be represented by te_count, an * error is returned. This is the only error this function returns. */ int lsquic_trechist_insert (trechist_mask_t *mask, struct trechist_elem *elems, uint32_t packno) { struct trechist_elem *el, *prev, *cur, *next; unsigned idx; if (*mask == 0) { elems[0].te_low = packno; elems[0].te_count = 1; elems[0].te_next = 0; *mask |= 1; return 0; } el = elems; prev = NULL; while (1) { if (packno > TE_HIGH(el) + 1) goto insert_before; if (packno == el->te_low - 1) { if (el->te_next && el->te_low == TE_HIGH(&elems[el->te_next]) + 2) { if (el->te_count + elems[el->te_next].te_count - 1 > UCHAR_MAX) return -1; *mask &= ~(1u << el->te_next); el->te_count += elems[el->te_next].te_count + 1; el->te_low = elems[el->te_next].te_low; el->te_next = elems[el->te_next].te_next; } else { if (el->te_count == UCHAR_MAX) return -1; --el->te_low; ++el->te_count; } return 0; } if (packno == TE_HIGH(el) + 1) { if (el->te_count == UCHAR_MAX) return -1; ++el->te_count; return 0; } if (packno >= el->te_low && packno <= TE_HIGH(el)) return 0; /* Dup */ if (!el->te_next) break; /* insert tail */ prev = el; el = &elems[el->te_next]; } if (*mask == TRECHIST_MAX_RANGES_MASK) /* No need to insert element smaller than the smallest element * already in our list. The new element "overflows". */ return 0; idx = find_free_slot(*mask); elems[idx].te_low = packno; elems[idx].te_count = 1; elems[idx].te_next = 0; *mask |= 1u << idx;; el->te_next = idx; return 0; insert_before: if (*mask != TRECHIST_MAX_RANGES_MASK) idx = find_free_slot(*mask); else { /* Drop last element and reuse its slot */ for (next = &elems[el->te_next], cur = el; next->te_next; cur = next, next = &elems[cur->te_next]) ; idx = cur->te_next; cur->te_next = 0; } *mask |= 1u << idx;; if (el == elems) { elems[idx] = *el; elems[0].te_low = packno; elems[0].te_count = 1; elems[0].te_next = idx; } else { assert(prev); elems[idx].te_low = packno; elems[idx].te_count = 1; elems[idx].te_next = prev->te_next; prev->te_next = idx; } return 0; } void lsquic_trechist_iter (struct trechist_iter *iter, trechist_mask_t mask, const struct trechist_elem *elems) { iter->mask = mask; iter->elems = elems; } const struct lsquic_packno_range * lsquic_trechist_first (void *iter_p) { struct trechist_iter *const iter = iter_p; if (iter->mask == 0) return NULL; iter->next = iter->elems[0].te_next; iter->range.low = iter->elems[0].te_low; iter->range.high = TE_HIGH(&iter->elems[0]); return &iter->range; } const struct lsquic_packno_range * lsquic_trechist_next (void *iter_p) { struct trechist_iter *const iter = iter_p; if (iter->next == 0) return NULL; iter->range.low = iter->elems[iter->next].te_low; iter->range.high = TE_HIGH(&iter->elems[iter->next]); iter->next = iter->elems[iter->next].te_next; return &iter->range; } /* First TRECHIST_MAX_RANGES ranges are copied */ void lsquic_trechist_copy_ranges (trechist_mask_t *mask, struct trechist_elem *elems, void *src_rechist, const struct lsquic_packno_range * (*first) (void *), const struct lsquic_packno_range * (*next) (void *)) { const struct lsquic_packno_range *range; struct trechist_elem *el; unsigned i; for (el = NULL, i = 0, range = first(src_rechist); i < TRECHIST_MAX_RANGES && range; range = next(src_rechist), ++i) { /* This should never happen: */ assert(range->high - range->low + 1 <= UINT_MAX); el = &elems[i]; el->te_low = range->low; el->te_count = range->high - range->low + 1; el->te_next = i + 1; } if (el) el->te_next = 0; if (i < 32) *mask = (1u << i) - 1; else *mask = UINT32_MAX; } int lsquic_trechist_contains (trechist_mask_t mask, const struct trechist_elem *elems, uint32_t packno) { const struct trechist_elem *el; if (mask == 0) return 0; el = &elems[0]; while (1) { if (packno > TE_HIGH(el)) return 0; if (packno >= el->te_low) return 1; if (el->te_next) el = &elems[el->te_next]; else break; } return 0; } uint32_t lsquic_trechist_max (trechist_mask_t mask, const struct trechist_elem *elems) { if (mask) { assert(mask & 1); return TE_HIGH(&elems[0]); } else return 0; }