/* $NetBSD: qp.c,v 1.2 2025/01/26 16:25:51 christos Exp $ */ /* * Copyright (C) Internet Systems Consortium, Inc. ("ISC") * * SPDX-License-Identifier: MPL-2.0 * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, you can obtain one at https://mozilla.org/MPL/2.0/. * * See the COPYRIGHT file distributed with this work for additional * information regarding copyright ownership. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "qp_p.h" #include /*********************************************************************** * * key reverse conversions */ uint8_t qp_test_bittoascii(dns_qpshift_t bit) { uint8_t byte = dns_qp_byte_for_bit[bit]; if (bit == SHIFT_NOBYTE) { return '.'; } else if (qp_common_character(byte)) { return byte; } else if (byte < '-') { return '#'; } else if (byte < '_') { return '@'; } else { return '~' - SHIFT_OFFSET + bit; } } const char * qp_test_keytoascii(dns_qpkey_t key, size_t len) { for (size_t offset = 0; offset < len; offset++) { key[offset] = qp_test_bittoascii(key[offset]); } key[len] = '\0'; return (const char *)key; } /*********************************************************************** * * trie properties */ static size_t getheight(dns_qp_t *qp, dns_qpnode_t *n) { if (node_tag(n) == LEAF_TAG) { return 0; } size_t max_height = 0; dns_qpnode_t *twigs = branch_twigs(qp, n); dns_qpweight_t size = branch_twigs_size(n); for (dns_qpweight_t pos = 0; pos < size; pos++) { size_t height = getheight(qp, &twigs[pos]); max_height = ISC_MAX(max_height, height); } return max_height + 1; } size_t qp_test_getheight(dns_qp_t *qp) { dns_qpnode_t *root = get_root(qp); return root == NULL ? 0 : getheight(qp, root); } static size_t maxkeylen(dns_qp_t *qp, dns_qpnode_t *n) { if (node_tag(n) == LEAF_TAG) { dns_qpkey_t key; return leaf_qpkey(qp, n, key); } size_t max_len = 0; dns_qpnode_t *twigs = branch_twigs(qp, n); dns_qpweight_t size = branch_twigs_size(n); for (dns_qpweight_t pos = 0; pos < size; pos++) { size_t len = maxkeylen(qp, &twigs[pos]); max_len = ISC_MAX(max_len, len); } return max_len; } size_t qp_test_maxkeylen(dns_qp_t *qp) { dns_qpnode_t *root = get_root(qp); return root == NULL ? 0 : maxkeylen(qp, root); } /*********************************************************************** * * dump to stdout */ static void dumpread(dns_qpreadable_t qpr, const char *type, const char *tail) { dns_qpreader_t *qp = dns_qpreader(qpr); printf("%s %p root %u %u:%u base %p methods %p%s", type, qp, qp->root_ref, ref_chunk(qp->root_ref), ref_cell(qp->root_ref), qp->base, qp->methods, tail); } static void dumpqp(dns_qp_t *qp, const char *type) { dumpread(qp, type, " mctx "); printf("%p\n", qp->mctx); printf("%s %p usage %p chunk_max %u bump %u fender %u\n", type, qp, qp->usage, qp->chunk_max, qp->bump, qp->fender); printf("%s %p leaf %u live %u used %u free %u hold %u\n", type, qp, qp->leaf_count, qp->used_count - qp->free_count, qp->used_count, qp->free_count, qp->hold_count); printf("%s %p compact_all=%d transaction_mode=%d write_protect=%d\n", type, qp, qp->compact_all, qp->transaction_mode, qp->write_protect); } void qp_test_dumpread(dns_qpreadable_t qp) { dumpread(qp, "qpread", "\n"); fflush(stdout); } void qp_test_dumpsnap(dns_qpsnap_t *qp) { dumpread(qp, "qpsnap", " whence "); printf("%p\n", qp->whence); fflush(stdout); } void qp_test_dumpqp(dns_qp_t *qp) { dumpqp(qp, "qp"); fflush(stdout); } void qp_test_dumpmulti(dns_qpmulti_t *multi) { dns_qpreader_t qpr; dns_qpnode_t *reader = rcu_dereference(multi->reader); dns_qpmulti_t *whence = unpack_reader(&qpr, reader); dumpqp(&multi->writer, "qpmulti->writer"); printf("qpmulti->reader %p root_ref %u %u:%u base %p\n", reader, qpr.root_ref, ref_chunk(qpr.root_ref), ref_cell(qpr.root_ref), qpr.base); printf("qpmulti->reader %p whence %p\n", reader, whence); unsigned int snapshots = 0; for (dns_qpsnap_t *snap = ISC_LIST_HEAD(multi->snapshots); // snap != NULL; snap = ISC_LIST_NEXT(snap, link), snapshots++) { } printf("qpmulti %p snapshots %u\n", multi, snapshots); fflush(stdout); } void qp_test_dumpchunks(dns_qp_t *qp) { dns_qpcell_t used = 0; dns_qpcell_t free = 0; dumpqp(qp, "qp"); for (dns_qpchunk_t c = 0; c < qp->chunk_max; c++) { printf("qp %p chunk %u base %p " "used %u free %u immutable %u discounted %u\n", qp, c, qp->base->ptr[c], qp->usage[c].used, qp->usage[c].free, qp->usage[c].immutable, qp->usage[c].discounted); used += qp->usage[c].used; free += qp->usage[c].free; } printf("qp %p total used %u free %u\n", qp, used, free); fflush(stdout); } void qp_test_dumptrie(dns_qpreadable_t qpr) { dns_qpreader_t *qp = dns_qpreader(qpr); struct { dns_qpref_t ref; dns_qpshift_t max, pos; } stack[512]; size_t sp = 0; dns_qpcell_t leaf_count = 0; /* * fake up a sentinel stack entry corresponding to the root * node; the ref is deliberately out of bounds, and pos == max * so we will immediately stop scanning it */ stack[sp].ref = INVALID_REF; stack[sp].max = 0; stack[sp].pos = 0; dns_qpnode_t *n = get_root(qp); if (n == NULL) { printf("%p EMPTY\n", n); fflush(stdout); return; } else { printf("%p ROOT qp %p base %p\n", n, qp, qp->base); } for (;;) { if (is_branch(n)) { dns_qpref_t ref = branch_twigs_ref(n); dns_qpweight_t max = branch_twigs_size(n); dns_qpnode_t *twigs = ref_ptr(qp, ref); /* brief list of twigs */ dns_qpkey_t bits; size_t len = 0; for (dns_qpshift_t bit = SHIFT_NOBYTE; bit < SHIFT_OFFSET; bit++) { if (branch_has_twig(n, bit)) { bits[len++] = bit; } } assert(len == max); qp_test_keytoascii(bits, len); printf("%*s%p BRANCH %p %u %u:%u %zu %s\n", (int)sp * 2, "", n, twigs, ref, ref_chunk(ref), ref_cell(ref), branch_key_offset(n), bits); ++sp; stack[sp].ref = ref; stack[sp].max = max; stack[sp].pos = 0; } else { dns_qpkey_t key; qp_test_keytoascii(key, leaf_qpkey(qp, n, key)); printf("%*s%p LEAF %p %d %s\n", (int)sp * 2, "", n, leaf_pval(n), leaf_ival(n), key); leaf_count++; } while (stack[sp].pos == stack[sp].max) { if (sp == 0) { printf("LEAVES %d\n", leaf_count); fflush(stdout); return; } --sp; } stack[sp].pos++; fprintf(stderr, "pos %d/%d, ref+%d\n", stack[sp].pos, stack[sp].max, stack[sp].pos - 1); n = ref_ptr(qp, stack[sp].ref) + stack[sp].pos - 1; } } static void dumpdot_name(dns_qpnode_t *n) { if (n == NULL) { printf("empty"); } else if (is_branch(n)) { dns_qpref_t ref = branch_twigs_ref(n); printf("c%dn%d", ref_chunk(ref), ref_cell(ref)); } else { printf("v%p", leaf_pval(n)); } } static void dumpdot_twig(dns_qp_t *qp, dns_qpnode_t *n) { if (n == NULL) { printf("empty [shape=oval, label=\"\\N EMPTY\"];\n"); } else if (is_branch(n)) { dumpdot_name(n); printf(" [shape=record, label=\"{ \\N\\noff %zu | ", branch_key_offset(n)); char sep = '{'; for (dns_qpshift_t bit = SHIFT_NOBYTE; bit < SHIFT_OFFSET; bit++) { if (branch_has_twig(n, bit)) { printf("%c %c ", sep, branch_twig_pos(n, bit), qp_test_bittoascii(bit)); sep = '|'; } } printf("}}\"];\n"); dns_qpnode_t *twigs = branch_twigs(qp, n); dns_qpweight_t size = branch_twigs_size(n); for (dns_qpweight_t pos = 0; pos < size; pos++) { dumpdot_name(n); printf(":t%d:e -> ", pos); dumpdot_name(&twigs[pos]); printf(":w;\n"); } for (dns_qpweight_t pos = 0; pos < size; pos++) { dumpdot_twig(qp, &twigs[pos]); } } else { dns_qpkey_t key; const char *str; str = qp_test_keytoascii(key, leaf_qpkey(qp, n, key)); printf("v%p [shape=oval, label=\"\\N ival %d\\n%s\"];\n", leaf_pval(n), leaf_ival(n), str); } } void qp_test_dumpdot(dns_qp_t *qp) { REQUIRE(QP_VALID(qp)); dns_qpnode_t *n = get_root(qp); printf("strict digraph {\nrankdir = \"LR\"; ranksep = 1.0;\n"); printf("ROOT [shape=point]; ROOT -> "); dumpdot_name(n); printf(":w;\n"); dumpdot_twig(qp, n); printf("}\n"); } void qp_test_printkey(const dns_qpkey_t key, size_t keylen) { dns_fixedname_t fn; dns_name_t *n = dns_fixedname_initname(&fn); char txt[DNS_NAME_FORMATSIZE]; dns_qpkey_toname(key, keylen, n); dns_name_format(n, txt, sizeof(txt)); printf("%s%s\n", txt, dns_name_isabsolute(n) ? "." : ""); } /**********************************************************************/