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-rw-r--r--tests/dns/rbt_test.c1300
1 files changed, 1300 insertions, 0 deletions
diff --git a/tests/dns/rbt_test.c b/tests/dns/rbt_test.c
new file mode 100644
index 0000000..c66c365
--- /dev/null
+++ b/tests/dns/rbt_test.c
@@ -0,0 +1,1300 @@
+/*
+ * 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 <ctype.h>
+#include <fcntl.h>
+#include <inttypes.h>
+#include <sched.h> /* IWYU pragma: keep */
+#include <setjmp.h>
+#include <stdarg.h>
+#include <stdbool.h>
+#include <stddef.h>
+#include <stdlib.h>
+#include <string.h>
+#include <time.h>
+#include <unistd.h>
+
+#define UNIT_TESTING
+#include <cmocka.h>
+
+#include <isc/buffer.h>
+#include <isc/file.h>
+#include <isc/hash.h>
+#include <isc/mem.h>
+#include <isc/os.h>
+#include <isc/print.h>
+#include <isc/random.h>
+#include <isc/result.h>
+#include <isc/stdio.h>
+#include <isc/string.h>
+#include <isc/task.h>
+#include <isc/thread.h>
+#include <isc/time.h>
+#include <isc/timer.h>
+#include <isc/util.h>
+
+#include <dns/compress.h>
+#include <dns/fixedname.h>
+#include <dns/log.h>
+#include <dns/name.h>
+#include <dns/rbt.h>
+
+#include <dst/dst.h>
+
+#include <tests/dns.h>
+
+typedef struct {
+ dns_rbt_t *rbt;
+ dns_rbt_t *rbt_distances;
+} test_context_t;
+
+/* The initial structure of domain tree will be as follows:
+ *
+ * .
+ * |
+ * b
+ * / \
+ * a d.e.f
+ * / | \
+ * c | g.h
+ * | |
+ * w.y i
+ * / | \ \
+ * x | z k
+ * | |
+ * p j
+ * / \
+ * o q
+ */
+
+/* The full absolute names of the nodes in the tree (the tree also
+ * contains "." which is not included in this list).
+ */
+static const char *const domain_names[] = {
+ "c", "b", "a", "x.d.e.f",
+ "z.d.e.f", "g.h", "i.g.h", "o.w.y.d.e.f",
+ "j.z.d.e.f", "p.w.y.d.e.f", "q.w.y.d.e.f", "k.g.h"
+};
+
+static const size_t domain_names_count =
+ (sizeof(domain_names) / sizeof(domain_names[0]));
+
+/* These are set as the node data for the tree used in distances check
+ * (for the names in domain_names[] above).
+ */
+static const int node_distances[] = { 3, 1, 2, 2, 2, 3, 1, 2, 1, 1, 2, 2 };
+
+/*
+ * The domain order should be:
+ * ., a, b, c, d.e.f, x.d.e.f, w.y.d.e.f, o.w.y.d.e.f, p.w.y.d.e.f,
+ * q.w.y.d.e.f, z.d.e.f, j.z.d.e.f, g.h, i.g.h, k.g.h
+ * . (no data, can't be found)
+ * |
+ * b
+ * / \
+ * a d.e.f
+ * / | \
+ * c | g.h
+ * | |
+ * w.y i
+ * / | \ \
+ * x | z k
+ * | |
+ * p j
+ * / \
+ * o q
+ */
+
+static const char *const ordered_names[] = {
+ "a", "b", "c", "d.e.f", "x.d.e.f",
+ "w.y.d.e.f", "o.w.y.d.e.f", "p.w.y.d.e.f", "q.w.y.d.e.f", "z.d.e.f",
+ "j.z.d.e.f", "g.h", "i.g.h", "k.g.h"
+};
+
+static const size_t ordered_names_count =
+ (sizeof(ordered_names) / sizeof(*ordered_names));
+
+static void
+delete_data(void *data, void *arg) {
+ UNUSED(arg);
+
+ isc_mem_put(mctx, data, sizeof(size_t));
+}
+
+static test_context_t *
+test_context_setup(void) {
+ test_context_t *ctx;
+ isc_result_t result;
+ size_t i;
+
+ ctx = isc_mem_get(mctx, sizeof(*ctx));
+ assert_non_null(ctx);
+
+ ctx->rbt = NULL;
+ result = dns_rbt_create(mctx, delete_data, NULL, &ctx->rbt);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ ctx->rbt_distances = NULL;
+ result = dns_rbt_create(mctx, delete_data, NULL, &ctx->rbt_distances);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ for (i = 0; i < domain_names_count; i++) {
+ size_t *n;
+ dns_fixedname_t fname;
+ dns_name_t *name;
+
+ dns_test_namefromstring(domain_names[i], &fname);
+
+ name = dns_fixedname_name(&fname);
+
+ n = isc_mem_get(mctx, sizeof(size_t));
+ assert_non_null(n);
+ *n = i + 1;
+ result = dns_rbt_addname(ctx->rbt, name, n);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ n = isc_mem_get(mctx, sizeof(size_t));
+ assert_non_null(n);
+ *n = node_distances[i];
+ result = dns_rbt_addname(ctx->rbt_distances, name, n);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ }
+
+ return (ctx);
+}
+
+static void
+test_context_teardown(test_context_t *ctx) {
+ dns_rbt_destroy(&ctx->rbt);
+ dns_rbt_destroy(&ctx->rbt_distances);
+
+ isc_mem_put(mctx, ctx, sizeof(*ctx));
+}
+
+/*
+ * Walk the tree and ensure that all the test nodes are present.
+ */
+static void
+check_test_data(dns_rbt_t *rbt) {
+ dns_fixedname_t fixed;
+ isc_result_t result;
+ dns_name_t *foundname;
+ size_t i;
+
+ foundname = dns_fixedname_initname(&fixed);
+
+ for (i = 0; i < domain_names_count; i++) {
+ dns_fixedname_t fname;
+ dns_name_t *name;
+ size_t *n;
+
+ dns_test_namefromstring(domain_names[i], &fname);
+
+ name = dns_fixedname_name(&fname);
+ n = NULL;
+ result = dns_rbt_findname(rbt, name, 0, foundname, (void *)&n);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_int_equal(*n, i + 1);
+ }
+}
+
+/* Test the creation of an rbt */
+ISC_RUN_TEST_IMPL(rbt_create) {
+ test_context_t *ctx;
+ bool tree_ok;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ ctx = test_context_setup();
+
+ check_test_data(ctx->rbt);
+
+ tree_ok = dns__rbt_checkproperties(ctx->rbt);
+ assert_true(tree_ok);
+
+ test_context_teardown(ctx);
+}
+
+/* Test dns_rbt_nodecount() on a tree */
+ISC_RUN_TEST_IMPL(rbt_nodecount) {
+ test_context_t *ctx;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ ctx = test_context_setup();
+
+ assert_int_equal(15, dns_rbt_nodecount(ctx->rbt));
+
+ test_context_teardown(ctx);
+}
+
+/* Test dns_rbtnode_get_distance() on a tree */
+ISC_RUN_TEST_IMPL(rbtnode_get_distance) {
+ isc_result_t result;
+ test_context_t *ctx;
+ const char *name_str = "a";
+ dns_fixedname_t fname;
+ dns_name_t *name;
+ dns_rbtnode_t *node = NULL;
+ dns_rbtnodechain_t chain;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ ctx = test_context_setup();
+
+ dns_test_namefromstring(name_str, &fname);
+ name = dns_fixedname_name(&fname);
+
+ dns_rbtnodechain_init(&chain);
+
+ result = dns_rbt_findnode(ctx->rbt_distances, name, NULL, &node, &chain,
+ 0, NULL, NULL);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ while (node != NULL) {
+ const size_t *distance = (const size_t *)node->data;
+ if (distance != NULL) {
+ assert_int_equal(*distance,
+ dns__rbtnode_getdistance(node));
+ }
+ result = dns_rbtnodechain_next(&chain, NULL, NULL);
+ if (result == ISC_R_NOMORE) {
+ break;
+ }
+ dns_rbtnodechain_current(&chain, NULL, NULL, &node);
+ }
+
+ assert_int_equal(result, ISC_R_NOMORE);
+
+ dns_rbtnodechain_invalidate(&chain);
+
+ test_context_teardown(ctx);
+}
+
+/*
+ * Test tree balance, inserting names in random order.
+ *
+ * This test checks an important performance-related property of
+ * the red-black tree, which is important for us: the longest
+ * path from a sub-tree's root to a node is no more than
+ * 2log(n). This check verifies that the tree is balanced.
+ */
+ISC_RUN_TEST_IMPL(rbt_check_distance_random) {
+ dns_rbt_t *mytree = NULL;
+ const unsigned int log_num_nodes = 16;
+ isc_result_t result;
+ bool tree_ok;
+ int i;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ result = dns_rbt_create(mctx, delete_data, NULL, &mytree);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ /* Names are inserted in random order. */
+
+ /* Make a large 65536 node top-level domain tree, i.e., the
+ * following code inserts names such as:
+ *
+ * savoucnsrkrqzpkqypbygwoiliawpbmz.
+ * wkadamcbbpjtundbxcmuayuycposvngx.
+ * wzbpznemtooxdpjecdxynsfztvnuyfao.
+ * yueojmhyffslpvfmgyfwioxegfhepnqq.
+ */
+ for (i = 0; i < (1 << log_num_nodes); i++) {
+ size_t *n;
+ char namebuf[34];
+
+ n = isc_mem_get(mctx, sizeof(size_t));
+ assert_non_null(n);
+ *n = i + 1;
+
+ while (1) {
+ int j;
+ dns_fixedname_t fname;
+ dns_name_t *name;
+
+ for (j = 0; j < 32; j++) {
+ uint32_t v = isc_random_uniform(26);
+ namebuf[j] = 'a' + v;
+ }
+ namebuf[32] = '.';
+ namebuf[33] = 0;
+
+ dns_test_namefromstring(namebuf, &fname);
+ name = dns_fixedname_name(&fname);
+
+ result = dns_rbt_addname(mytree, name, n);
+ if (result == ISC_R_SUCCESS) {
+ break;
+ }
+ }
+ }
+
+ /* 1 (root . node) + (1 << log_num_nodes) */
+ assert_int_equal(1U + (1U << log_num_nodes), dns_rbt_nodecount(mytree));
+
+ /* The distance from each node to its sub-tree root must be less
+ * than 2 * log(n).
+ */
+ assert_true((2U * log_num_nodes) >= dns__rbt_getheight(mytree));
+
+ /* Also check RB tree properties */
+ tree_ok = dns__rbt_checkproperties(mytree);
+ assert_true(tree_ok);
+
+ dns_rbt_destroy(&mytree);
+}
+
+/*
+ * Test tree balance, inserting names in sorted order.
+ *
+ * This test checks an important performance-related property of
+ * the red-black tree, which is important for us: the longest
+ * path from a sub-tree's root to a node is no more than
+ * 2log(n). This check verifies that the tree is balanced.
+ */
+ISC_RUN_TEST_IMPL(rbt_check_distance_ordered) {
+ dns_rbt_t *mytree = NULL;
+ const unsigned int log_num_nodes = 16;
+ isc_result_t result;
+ bool tree_ok;
+ int i;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ result = dns_rbt_create(mctx, delete_data, NULL, &mytree);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ /* Names are inserted in sorted order. */
+
+ /* Make a large 65536 node top-level domain tree, i.e., the
+ * following code inserts names such as:
+ *
+ * name00000000.
+ * name00000001.
+ * name00000002.
+ * name00000003.
+ */
+ for (i = 0; i < (1 << log_num_nodes); i++) {
+ size_t *n;
+ char namebuf[14];
+ dns_fixedname_t fname;
+ dns_name_t *name;
+
+ n = isc_mem_get(mctx, sizeof(size_t));
+ assert_non_null(n);
+ *n = i + 1;
+
+ snprintf(namebuf, sizeof(namebuf), "name%08x.", i);
+ dns_test_namefromstring(namebuf, &fname);
+ name = dns_fixedname_name(&fname);
+
+ result = dns_rbt_addname(mytree, name, n);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ }
+
+ /* 1 (root . node) + (1 << log_num_nodes) */
+ assert_int_equal(1U + (1U << log_num_nodes), dns_rbt_nodecount(mytree));
+
+ /* The distance from each node to its sub-tree root must be less
+ * than 2 * log(n).
+ */
+ assert_true((2U * log_num_nodes) >= dns__rbt_getheight(mytree));
+
+ /* Also check RB tree properties */
+ tree_ok = dns__rbt_checkproperties(mytree);
+ assert_true(tree_ok);
+
+ dns_rbt_destroy(&mytree);
+}
+
+static isc_result_t
+insert_helper(dns_rbt_t *rbt, const char *namestr, dns_rbtnode_t **node) {
+ dns_fixedname_t fname;
+ dns_name_t *name;
+
+ dns_test_namefromstring(namestr, &fname);
+ name = dns_fixedname_name(&fname);
+
+ return (dns_rbt_addnode(rbt, name, node));
+}
+
+static bool
+compare_labelsequences(dns_rbtnode_t *node, const char *labelstr) {
+ dns_name_t name;
+ isc_result_t result;
+ char *nodestr = NULL;
+ bool is_equal;
+
+ dns_name_init(&name, NULL);
+ dns_rbt_namefromnode(node, &name);
+
+ result = dns_name_tostring(&name, &nodestr, mctx);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ is_equal = strcmp(labelstr, nodestr) == 0 ? true : false;
+
+ isc_mem_free(mctx, nodestr);
+
+ return (is_equal);
+}
+
+/* Test insertion into a tree */
+ISC_RUN_TEST_IMPL(rbt_insert) {
+ isc_result_t result;
+ test_context_t *ctx;
+ dns_rbtnode_t *node;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ ctx = test_context_setup();
+
+ /* Check node count before beginning. */
+ assert_int_equal(15, dns_rbt_nodecount(ctx->rbt));
+
+ /* Try to insert a node that already exists. */
+ node = NULL;
+ result = insert_helper(ctx->rbt, "d.e.f", &node);
+ assert_int_equal(result, ISC_R_EXISTS);
+
+ /* Node count must not have changed. */
+ assert_int_equal(15, dns_rbt_nodecount(ctx->rbt));
+
+ /* Try to insert a node that doesn't exist. */
+ node = NULL;
+ result = insert_helper(ctx->rbt, "0", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_true(compare_labelsequences(node, "0"));
+
+ /* Node count must have increased. */
+ assert_int_equal(16, dns_rbt_nodecount(ctx->rbt));
+
+ /* Another. */
+ node = NULL;
+ result = insert_helper(ctx->rbt, "example.com", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_non_null(node);
+ assert_null(node->data);
+
+ /* Node count must have increased. */
+ assert_int_equal(17, dns_rbt_nodecount(ctx->rbt));
+
+ /* Re-adding it should return EXISTS */
+ node = NULL;
+ result = insert_helper(ctx->rbt, "example.com", &node);
+ assert_int_equal(result, ISC_R_EXISTS);
+
+ /* Node count must not have changed. */
+ assert_int_equal(17, dns_rbt_nodecount(ctx->rbt));
+
+ /* Fission the node d.e.f */
+ node = NULL;
+ result = insert_helper(ctx->rbt, "k.e.f", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_true(compare_labelsequences(node, "k"));
+
+ /* Node count must have incremented twice ("d.e.f" fissioned to
+ * "d" and "e.f", and the newly added "k").
+ */
+ assert_int_equal(19, dns_rbt_nodecount(ctx->rbt));
+
+ /* Fission the node "g.h" */
+ node = NULL;
+ result = insert_helper(ctx->rbt, "h", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_true(compare_labelsequences(node, "h"));
+
+ /* Node count must have incremented ("g.h" fissioned to "g" and
+ * "h").
+ */
+ assert_int_equal(20, dns_rbt_nodecount(ctx->rbt));
+
+ /* Add child domains */
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "m.p.w.y.d.e.f", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_true(compare_labelsequences(node, "m"));
+ assert_int_equal(21, dns_rbt_nodecount(ctx->rbt));
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "n.p.w.y.d.e.f", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_true(compare_labelsequences(node, "n"));
+ assert_int_equal(22, dns_rbt_nodecount(ctx->rbt));
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "l.a", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_true(compare_labelsequences(node, "l"));
+ assert_int_equal(23, dns_rbt_nodecount(ctx->rbt));
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "r.d.e.f", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ node = NULL;
+ result = insert_helper(ctx->rbt, "s.d.e.f", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_int_equal(25, dns_rbt_nodecount(ctx->rbt));
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "h.w.y.d.e.f", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ /* Add more nodes one by one to cover left and right rotation
+ * functions.
+ */
+ node = NULL;
+ result = insert_helper(ctx->rbt, "f", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "m", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "nm", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "om", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "k", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "l", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "fe", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "ge", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "i", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "ae", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "n", &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ test_context_teardown(ctx);
+}
+
+/*
+ * Test removal from a tree
+ *
+ * This testcase checks that after node removal, the binary-search tree is
+ * valid and all nodes that are supposed to exist are present in the
+ * correct order. It mainly tests DomainTree as a BST, and not particularly
+ * as a red-black tree. This test checks node deletion when upper nodes
+ * have data.
+ */
+ISC_RUN_TEST_IMPL(rbt_remove) {
+ isc_result_t result;
+ size_t j;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ /*
+ * Delete single nodes and check if the rest of the nodes exist.
+ */
+ for (j = 0; j < ordered_names_count; j++) {
+ dns_rbt_t *mytree = NULL;
+ dns_rbtnode_t *node;
+ size_t i;
+ size_t *n;
+ bool tree_ok;
+ dns_rbtnodechain_t chain;
+ size_t start_node;
+
+ /* Create a tree. */
+ result = dns_rbt_create(mctx, delete_data, NULL, &mytree);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ /* Insert test data into the tree. */
+ for (i = 0; i < domain_names_count; i++) {
+ node = NULL;
+ result = insert_helper(mytree, domain_names[i], &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ }
+
+ /* Check that all names exist in order. */
+ for (i = 0; i < ordered_names_count; i++) {
+ dns_fixedname_t fname;
+ dns_name_t *name;
+
+ dns_test_namefromstring(ordered_names[i], &fname);
+
+ name = dns_fixedname_name(&fname);
+ node = NULL;
+ result = dns_rbt_findnode(mytree, name, NULL, &node,
+ NULL, DNS_RBTFIND_EMPTYDATA,
+ NULL, NULL);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ /* Add node data */
+ assert_non_null(node);
+ assert_null(node->data);
+
+ n = isc_mem_get(mctx, sizeof(size_t));
+ assert_non_null(n);
+ *n = i;
+
+ node->data = n;
+ }
+
+ /* Now, delete the j'th node from the tree. */
+ {
+ dns_fixedname_t fname;
+ dns_name_t *name;
+
+ dns_test_namefromstring(ordered_names[j], &fname);
+
+ name = dns_fixedname_name(&fname);
+
+ result = dns_rbt_deletename(mytree, name, false);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ }
+
+ /* Check RB tree properties. */
+ tree_ok = dns__rbt_checkproperties(mytree);
+ assert_true(tree_ok);
+
+ dns_rbtnodechain_init(&chain);
+
+ /* Now, walk through nodes in order. */
+ if (j == 0) {
+ /*
+ * Node for ordered_names[0] was already deleted
+ * above. We start from node 1.
+ */
+ dns_fixedname_t fname;
+ dns_name_t *name;
+
+ dns_test_namefromstring(ordered_names[0], &fname);
+ name = dns_fixedname_name(&fname);
+ node = NULL;
+ result = dns_rbt_findnode(mytree, name, NULL, &node,
+ NULL, 0, NULL, NULL);
+ assert_int_equal(result, ISC_R_NOTFOUND);
+
+ dns_test_namefromstring(ordered_names[1], &fname);
+ name = dns_fixedname_name(&fname);
+ node = NULL;
+ result = dns_rbt_findnode(mytree, name, NULL, &node,
+ &chain, 0, NULL, NULL);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ start_node = 1;
+ } else {
+ /* Start from node 0. */
+ dns_fixedname_t fname;
+ dns_name_t *name;
+
+ dns_test_namefromstring(ordered_names[0], &fname);
+ name = dns_fixedname_name(&fname);
+ node = NULL;
+ result = dns_rbt_findnode(mytree, name, NULL, &node,
+ &chain, 0, NULL, NULL);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ start_node = 0;
+ }
+
+ /*
+ * node and chain have been set by the code above at
+ * this point.
+ */
+ for (i = start_node; i < ordered_names_count; i++) {
+ dns_fixedname_t fname_j, fname_i;
+ dns_name_t *name_j, *name_i;
+
+ dns_test_namefromstring(ordered_names[j], &fname_j);
+ name_j = dns_fixedname_name(&fname_j);
+ dns_test_namefromstring(ordered_names[i], &fname_i);
+ name_i = dns_fixedname_name(&fname_i);
+
+ if (dns_name_equal(name_i, name_j)) {
+ /*
+ * This may be true for the last node if
+ * we seek ahead in the loop using
+ * dns_rbtnodechain_next() below.
+ */
+ if (node == NULL) {
+ break;
+ }
+
+ /* All ordered nodes have data
+ * initially. If any node is empty, it
+ * means it was removed, but an empty
+ * node exists because it is a
+ * super-domain. Just skip it.
+ */
+ if (node->data == NULL) {
+ result = dns_rbtnodechain_next(
+ &chain, NULL, NULL);
+ if (result == ISC_R_NOMORE) {
+ node = NULL;
+ } else {
+ dns_rbtnodechain_current(
+ &chain, NULL, NULL,
+ &node);
+ }
+ }
+ continue;
+ }
+
+ assert_non_null(node);
+
+ n = (size_t *)node->data;
+ if (n != NULL) {
+ /* printf("n=%zu, i=%zu\n", *n, i); */
+ assert_int_equal(*n, i);
+ }
+
+ result = dns_rbtnodechain_next(&chain, NULL, NULL);
+ if (result == ISC_R_NOMORE) {
+ node = NULL;
+ } else {
+ dns_rbtnodechain_current(&chain, NULL, NULL,
+ &node);
+ }
+ }
+
+ /* We should have reached the end of the tree. */
+ assert_null(node);
+
+ dns_rbt_destroy(&mytree);
+ }
+}
+
+static void
+insert_nodes(dns_rbt_t *mytree, char **names, size_t *names_count,
+ uint32_t num_names) {
+ uint32_t i;
+ dns_rbtnode_t *node;
+
+ for (i = 0; i < num_names; i++) {
+ size_t *n;
+ char namebuf[34];
+
+ n = isc_mem_get(mctx, sizeof(size_t));
+ assert_non_null(n);
+
+ *n = i; /* Unused value */
+
+ while (1) {
+ int j;
+ dns_fixedname_t fname;
+ dns_name_t *name;
+ isc_result_t result;
+
+ for (j = 0; j < 32; j++) {
+ uint32_t v = isc_random_uniform(26);
+ namebuf[j] = 'a' + v;
+ }
+ namebuf[32] = '.';
+ namebuf[33] = 0;
+
+ dns_test_namefromstring(namebuf, &fname);
+ name = dns_fixedname_name(&fname);
+
+ node = NULL;
+ result = dns_rbt_addnode(mytree, name, &node);
+ if (result == ISC_R_SUCCESS) {
+ node->data = n;
+ names[*names_count] = isc_mem_strdup(mctx,
+ namebuf);
+ assert_non_null(names[*names_count]);
+ *names_count += 1;
+ break;
+ }
+ }
+ }
+}
+
+static void
+remove_nodes(dns_rbt_t *mytree, char **names, size_t *names_count,
+ uint32_t num_names) {
+ uint32_t i;
+
+ UNUSED(mytree);
+
+ for (i = 0; i < num_names; i++) {
+ uint32_t node;
+ dns_fixedname_t fname;
+ dns_name_t *name;
+ isc_result_t result;
+
+ node = isc_random_uniform(*names_count);
+
+ dns_test_namefromstring(names[node], &fname);
+ name = dns_fixedname_name(&fname);
+
+ result = dns_rbt_deletename(mytree, name, false);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ isc_mem_free(mctx, names[node]);
+ if (*names_count > 0) {
+ names[node] = names[*names_count - 1];
+ names[*names_count - 1] = NULL;
+ *names_count -= 1;
+ }
+ }
+}
+
+static void
+check_tree(dns_rbt_t *mytree, char **names, size_t names_count) {
+ bool tree_ok;
+
+ UNUSED(names);
+
+ assert_int_equal(names_count + 1, dns_rbt_nodecount(mytree));
+
+ /*
+ * The distance from each node to its sub-tree root must be less
+ * than 2 * log_2(1024).
+ */
+ assert_true((2 * 10) >= dns__rbt_getheight(mytree));
+
+ /* Also check RB tree properties */
+ tree_ok = dns__rbt_checkproperties(mytree);
+ assert_true(tree_ok);
+}
+
+/*
+ * Test insert and remove in a loop.
+ *
+ * What is the best way to test our red-black tree code? It is
+ * not a good method to test every case handled in the actual
+ * code itself. This is because our approach itself may be
+ * incorrect.
+ *
+ * We test our code at the interface level here by exercising the
+ * tree randomly multiple times, checking that red-black tree
+ * properties are valid, and all the nodes that are supposed to be
+ * in the tree exist and are in order.
+ *
+ * NOTE: These tests are run within a single tree level in the
+ * forest. The number of nodes in the tree level doesn't grow
+ * over 1024.
+ */
+ISC_RUN_TEST_IMPL(rbt_insert_and_remove) {
+ isc_result_t result;
+ dns_rbt_t *mytree = NULL;
+ size_t *n;
+ char *names[1024];
+ size_t names_count;
+ int i;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ result = dns_rbt_create(mctx, delete_data, NULL, &mytree);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ n = isc_mem_get(mctx, sizeof(size_t));
+ assert_non_null(n);
+ result = dns_rbt_addname(mytree, dns_rootname, n);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ memset(names, 0, sizeof(names));
+ names_count = 0;
+
+ /* Repeat the insert/remove test some 4096 times */
+ for (i = 0; i < 4096; i++) {
+ uint32_t num_names;
+
+ if (names_count < 1024) {
+ num_names = isc_random_uniform(1024 - names_count);
+ num_names++;
+ } else {
+ num_names = 0;
+ }
+
+ insert_nodes(mytree, names, &names_count, num_names);
+ check_tree(mytree, names, names_count);
+
+ if (names_count > 0) {
+ num_names = isc_random_uniform(names_count);
+ num_names++;
+ } else {
+ num_names = 0;
+ }
+
+ remove_nodes(mytree, names, &names_count, num_names);
+ check_tree(mytree, names, names_count);
+ }
+
+ /* Remove the rest of the nodes */
+ remove_nodes(mytree, names, &names_count, names_count);
+ check_tree(mytree, names, names_count);
+
+ for (i = 0; i < 1024; i++) {
+ if (names[i] != NULL) {
+ isc_mem_free(mctx, names[i]);
+ }
+ }
+
+ result = dns_rbt_deletename(mytree, dns_rootname, false);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_int_equal(dns_rbt_nodecount(mytree), 0);
+
+ dns_rbt_destroy(&mytree);
+}
+
+/* Test findname return values */
+ISC_RUN_TEST_IMPL(rbt_findname) {
+ isc_result_t result;
+ test_context_t *ctx = NULL;
+ dns_fixedname_t fname, found;
+ dns_name_t *name = NULL, *foundname = NULL;
+ size_t *n = NULL;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ ctx = test_context_setup();
+
+ /* Try to find a name that exists. */
+ dns_test_namefromstring("d.e.f", &fname);
+ name = dns_fixedname_name(&fname);
+
+ foundname = dns_fixedname_initname(&found);
+
+ result = dns_rbt_findname(ctx->rbt, name, DNS_RBTFIND_EMPTYDATA,
+ foundname, (void *)&n);
+ assert_true(dns_name_equal(foundname, name));
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ /* Now without EMPTYDATA */
+ result = dns_rbt_findname(ctx->rbt, name, 0, foundname, (void *)&n);
+ assert_int_equal(result, ISC_R_NOTFOUND);
+
+ /* Now one that partially matches */
+ dns_test_namefromstring("d.e.f.g.h.i.j", &fname);
+ name = dns_fixedname_name(&fname);
+ result = dns_rbt_findname(ctx->rbt, name, DNS_RBTFIND_EMPTYDATA,
+ foundname, (void *)&n);
+ assert_int_equal(result, DNS_R_PARTIALMATCH);
+
+ /* Now one that doesn't match */
+ dns_test_namefromstring("1.2", &fname);
+ name = dns_fixedname_name(&fname);
+ result = dns_rbt_findname(ctx->rbt, name, DNS_RBTFIND_EMPTYDATA,
+ foundname, (void *)&n);
+ assert_int_equal(result, DNS_R_PARTIALMATCH);
+ assert_true(dns_name_equal(foundname, dns_rootname));
+
+ test_context_teardown(ctx);
+}
+
+/* Test addname return values */
+ISC_RUN_TEST_IMPL(rbt_addname) {
+ isc_result_t result;
+ test_context_t *ctx = NULL;
+ dns_fixedname_t fname;
+ dns_name_t *name = NULL;
+ size_t *n;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ ctx = test_context_setup();
+
+ n = isc_mem_get(mctx, sizeof(size_t));
+ assert_non_null(n);
+ *n = 1;
+
+ dns_test_namefromstring("d.e.f.g.h.i.j.k", &fname);
+ name = dns_fixedname_name(&fname);
+
+ /* Add a name that doesn't exist */
+ result = dns_rbt_addname(ctx->rbt, name, n);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ /* Now add again, should get ISC_R_EXISTS */
+ n = isc_mem_get(mctx, sizeof(size_t));
+ assert_non_null(n);
+ *n = 2;
+ result = dns_rbt_addname(ctx->rbt, name, n);
+ assert_int_equal(result, ISC_R_EXISTS);
+ isc_mem_put(mctx, n, sizeof(size_t));
+
+ test_context_teardown(ctx);
+}
+
+/* Test deletename return values */
+ISC_RUN_TEST_IMPL(rbt_deletename) {
+ isc_result_t result;
+ test_context_t *ctx = NULL;
+ dns_fixedname_t fname;
+ dns_name_t *name = NULL;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ ctx = test_context_setup();
+
+ /* Delete a name that doesn't exist */
+ dns_test_namefromstring("z.x.y.w", &fname);
+ name = dns_fixedname_name(&fname);
+ result = dns_rbt_deletename(ctx->rbt, name, false);
+ assert_int_equal(result, ISC_R_NOTFOUND);
+
+ /* Now one that does */
+ dns_test_namefromstring("d.e.f", &fname);
+ name = dns_fixedname_name(&fname);
+ result = dns_rbt_deletename(ctx->rbt, name, false);
+ assert_int_equal(result, ISC_R_NOTFOUND);
+
+ test_context_teardown(ctx);
+}
+
+/* Test nodechain */
+ISC_RUN_TEST_IMPL(rbt_nodechain) {
+ isc_result_t result;
+ test_context_t *ctx;
+ dns_fixedname_t fname, found, expect;
+ dns_name_t *name, *foundname, *expected;
+ dns_rbtnode_t *node = NULL;
+ dns_rbtnodechain_t chain;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ ctx = test_context_setup();
+
+ dns_rbtnodechain_init(&chain);
+
+ dns_test_namefromstring("a", &fname);
+ name = dns_fixedname_name(&fname);
+
+ result = dns_rbt_findnode(ctx->rbt, name, NULL, &node, &chain, 0, NULL,
+ NULL);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ foundname = dns_fixedname_initname(&found);
+
+ dns_test_namefromstring("a", &expect);
+ expected = dns_fixedname_name(&expect);
+ UNUSED(expected);
+
+ result = dns_rbtnodechain_first(&chain, ctx->rbt, foundname, NULL);
+ assert_int_equal(result, DNS_R_NEWORIGIN);
+ assert_int_equal(dns_name_countlabels(foundname), 0);
+
+ result = dns_rbtnodechain_prev(&chain, NULL, NULL);
+ assert_int_equal(result, ISC_R_NOMORE);
+
+ result = dns_rbtnodechain_next(&chain, NULL, NULL);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ result = dns_rbtnodechain_next(&chain, NULL, NULL);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ result = dns_rbtnodechain_last(&chain, ctx->rbt, NULL, NULL);
+ assert_int_equal(result, DNS_R_NEWORIGIN);
+
+ result = dns_rbtnodechain_next(&chain, NULL, NULL);
+ assert_int_equal(result, ISC_R_NOMORE);
+
+ result = dns_rbtnodechain_last(&chain, ctx->rbt, NULL, NULL);
+ assert_int_equal(result, DNS_R_NEWORIGIN);
+
+ result = dns_rbtnodechain_prev(&chain, NULL, NULL);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ dns_rbtnodechain_invalidate(&chain);
+
+ test_context_teardown(ctx);
+}
+
+/* Test addname return values */
+ISC_RUN_TEST_IMPL(rbtnode_namelen) {
+ isc_result_t result;
+ test_context_t *ctx = NULL;
+ dns_rbtnode_t *node;
+ unsigned int len;
+
+ isc_mem_debugging = ISC_MEM_DEBUGRECORD;
+
+ ctx = test_context_setup();
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, ".", &node);
+ len = dns__rbtnode_namelen(node);
+ assert_int_equal(result, ISC_R_EXISTS);
+ assert_int_equal(len, 1);
+ node = NULL;
+
+ result = insert_helper(ctx->rbt, "a.b.c.d.e.f.g.h.i.j.k.l.m", &node);
+ len = dns__rbtnode_namelen(node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_int_equal(len, 27);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "isc.org", &node);
+ len = dns__rbtnode_namelen(node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_int_equal(len, 9);
+
+ node = NULL;
+ result = insert_helper(ctx->rbt, "example.com", &node);
+ len = dns__rbtnode_namelen(node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_int_equal(len, 13);
+
+ test_context_teardown(ctx);
+}
+
+#if defined(DNS_BENCHMARK_TESTS) && !defined(__SANITIZE_THREAD__)
+
+/*
+ * XXXMUKS: Don't delete this code. It is useful in benchmarking the
+ * RBT, but we don't require it as part of the unit test runs.
+ */
+
+static dns_fixedname_t *fnames;
+static dns_name_t **names;
+static int *values;
+
+static void *
+find_thread(void *arg) {
+ dns_rbt_t *mytree;
+ isc_result_t result;
+ dns_rbtnode_t *node;
+ unsigned int j, i;
+ unsigned int start = 0;
+
+ mytree = (dns_rbt_t *)arg;
+ while (start == 0) {
+ start = random() % 4000000;
+ }
+
+ /* Query 32 million random names from it in each thread */
+ for (j = 0; j < 8; j++) {
+ for (i = start; i != start - 1; i = (i + 1) % 4000000) {
+ node = NULL;
+ result = dns_rbt_findnode(mytree, names[i], NULL, &node,
+ NULL, DNS_RBTFIND_EMPTYDATA,
+ NULL, NULL);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ assert_non_null(node);
+ assert_int_equal(values[i], (intptr_t)node->data);
+ }
+ }
+
+ return (NULL);
+}
+
+/* Benchmark RBT implementation */
+ISC_RUN_TEST_IMPL(benchmark) {
+ isc_result_t result;
+ char namestr[sizeof("name18446744073709551616.example.org.")];
+ unsigned int r;
+ dns_rbt_t *mytree;
+ dns_rbtnode_t *node;
+ unsigned int i;
+ unsigned int maxvalue = 1000000;
+ isc_time_t ts1, ts2;
+ double t;
+ unsigned int nthreads;
+ isc_thread_t threads[32];
+
+ srandom(time(NULL));
+
+ debug_mem_record = false;
+
+ fnames = (dns_fixedname_t *)malloc(4000000 * sizeof(dns_fixedname_t));
+ names = (dns_name_t **)malloc(4000000 * sizeof(dns_name_t *));
+ values = (int *)malloc(4000000 * sizeof(int));
+
+ for (i = 0; i < 4000000; i++) {
+ r = ((unsigned long)random()) % maxvalue;
+ snprintf(namestr, sizeof(namestr), "name%u.example.org.", r);
+ dns_test_namefromstring(namestr, &fnames[i]);
+ names[i] = dns_fixedname_name(&fnames[i]);
+ values[i] = r;
+ }
+
+ /* Create a tree. */
+ mytree = NULL;
+ result = dns_rbt_create(mctx, NULL, NULL, &mytree);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ /* Insert test data into the tree. */
+ for (i = 0; i < maxvalue; i++) {
+ snprintf(namestr, sizeof(namestr), "name%u.example.org.", i);
+ node = NULL;
+ result = insert_helper(mytree, namestr, &node);
+ assert_int_equal(result, ISC_R_SUCCESS);
+ node->data = (void *)(intptr_t)i;
+ }
+
+ result = isc_time_now(&ts1);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ nthreads = ISC_MIN(isc_os_ncpus(), 32);
+ nthreads = ISC_MAX(nthreads, 1);
+ for (i = 0; i < nthreads; i++) {
+ isc_thread_create(find_thread, mytree, &threads[i]);
+ }
+
+ for (i = 0; i < nthreads; i++) {
+ isc_thread_join(threads[i], NULL);
+ }
+
+ result = isc_time_now(&ts2);
+ assert_int_equal(result, ISC_R_SUCCESS);
+
+ t = isc_time_microdiff(&ts2, &ts1);
+
+ printf("%u findnode calls, %f seconds, %f calls/second\n",
+ nthreads * 8 * 4000000, t / 1000000.0,
+ (nthreads * 8 * 4000000) / (t / 1000000.0));
+
+ free(values);
+ free(names);
+ free(fnames);
+
+ dns_rbt_destroy(&mytree);
+}
+#endif /* defined(DNS_BENCHMARK_TESTS) && !defined(__SANITIZE_THREAD__) */
+
+ISC_TEST_LIST_START
+ISC_TEST_ENTRY(rbt_create)
+ISC_TEST_ENTRY(rbt_nodecount)
+ISC_TEST_ENTRY(rbtnode_get_distance)
+ISC_TEST_ENTRY(rbt_check_distance_random)
+ISC_TEST_ENTRY(rbt_check_distance_ordered)
+ISC_TEST_ENTRY(rbt_insert)
+ISC_TEST_ENTRY(rbt_remove)
+ISC_TEST_ENTRY(rbt_insert_and_remove)
+ISC_TEST_ENTRY(rbt_findname)
+ISC_TEST_ENTRY(rbt_addname)
+ISC_TEST_ENTRY(rbt_deletename)
+ISC_TEST_ENTRY(rbt_nodechain)
+ISC_TEST_ENTRY(rbtnode_namelen)
+#if defined(DNS_BENCHMARK_TESTS) && !defined(__SANITIZE_THREAD__)
+ISC_TEST_ENTRY(benchmark)
+#endif /* defined(DNS_BENCHMARK_TESTS) && !defined(__SANITIZE_THREAD__) */
+
+ISC_TEST_LIST_END
+
+ISC_TEST_MAIN