asterisk/tests/test_dns_recurring.c

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2023-05-25 18:45:57 +00:00
/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2015, Mark Michelson
*
* Mark Michelson <mmichelson@digium.com>
*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2. See the LICENSE file
* at the top of the source tree.
*/
/*** MODULEINFO
<depend>TEST_FRAMEWORK</depend>
<support_level>core</support_level>
***/
#include "asterisk.h"
#include <arpa/nameser.h>
#include <arpa/inet.h>
#include "asterisk/test.h"
#include "asterisk/module.h"
#include "asterisk/dns_core.h"
#include "asterisk/dns_resolver.h"
#include "asterisk/dns_recurring.h"
#include "asterisk/dns_internal.h"
struct recurring_data {
/*! TTL to place in first returned result */
int ttl1;
/*! TTL to place in second returned result */
int ttl2;
/*! Boolean indicator if query has completed */
int query_complete;
/*! Number of times recurring resolution has completed */
int complete_resolutions;
/*! Number of times resolve() method has been called */
int resolves;
/*! Indicates that the query is expected to be canceled */
int cancel_expected;
/*! Indicates that the query is ready to be canceled */
int cancel_ready;
/*! Indicates that the query has been canceled */
int canceled;
ast_mutex_t lock;
ast_cond_t cond;
};
static void recurring_data_destructor(void *obj)
{
struct recurring_data *rdata = obj;
ast_mutex_destroy(&rdata->lock);
ast_cond_destroy(&rdata->cond);
}
static struct recurring_data *recurring_data_alloc(void)
{
struct recurring_data *rdata;
rdata = ao2_alloc(sizeof(*rdata), recurring_data_destructor);
if (!rdata) {
return NULL;
}
ast_mutex_init(&rdata->lock);
ast_cond_init(&rdata->cond, NULL);
return rdata;
}
#define DNS_ANSWER "Yes sirree"
#define DNS_ANSWER_SIZE strlen(DNS_ANSWER)
/*!
* \brief Thread that performs asynchronous resolution.
*
* This thread uses the query's user data to determine how to
* perform the resolution. The query may either be canceled or
* it may be completed with records.
*
* \param dns_query The ast_dns_query that is being performed
* \return NULL
*/
static void *resolution_thread(void *dns_query)
{
struct ast_dns_query *query = dns_query;
static const char *ADDR1 = "127.0.0.1";
static const size_t ADDR1_BUFSIZE = sizeof(struct in_addr);
char addr1_buf[ADDR1_BUFSIZE];
static const char *ADDR2 = "192.168.0.1";
static const size_t ADDR2_BUFSIZE = sizeof(struct in_addr);
char addr2_buf[ADDR2_BUFSIZE];
struct ast_dns_query_recurring *recurring = ast_dns_query_get_data(query);
struct recurring_data *rdata = recurring->user_data;
ast_assert(rdata != NULL);
/* Canceling is an interesting dance. This thread needs to signal that it is
* ready to be canceled. Then it needs to wait until the query is actually canceled.
*/
if (rdata->cancel_expected) {
ast_mutex_lock(&rdata->lock);
rdata->cancel_ready = 1;
ast_cond_signal(&rdata->cond);
while (!rdata->canceled) {
ast_cond_wait(&rdata->cond, &rdata->lock);
}
ast_mutex_unlock(&rdata->lock);
ast_dns_resolver_completed(query);
ao2_ref(query, -1);
return NULL;
}
/* When the query isn't canceled, we set the TTL of the results based on what
* we've been told to set it to
*/
ast_dns_resolver_set_result(query, 0, 0, NOERROR, "asterisk.org", DNS_ANSWER, DNS_ANSWER_SIZE);
inet_pton(AF_INET, ADDR1, addr1_buf);
ast_dns_resolver_add_record(query, T_A, C_IN, rdata->ttl1, addr1_buf, ADDR1_BUFSIZE);
inet_pton(AF_INET, ADDR2, addr2_buf);
ast_dns_resolver_add_record(query, T_A, C_IN, rdata->ttl2, addr2_buf, ADDR2_BUFSIZE);
++rdata->complete_resolutions;
ast_dns_resolver_completed(query);
ao2_ref(query, -1);
return NULL;
}
/*!
* \brief Resolver's resolve() method
*
* \param query The query that is to be resolved
* \retval 0 Successfully created thread to perform the resolution
* \retval non-zero Failed to create resolution thread
*/
static int recurring_resolve(struct ast_dns_query *query)
{
struct ast_dns_query_recurring *recurring = ast_dns_query_get_data(query);
struct recurring_data *rdata = recurring->user_data;
pthread_t resolver_thread;
ast_assert(rdata != NULL);
++rdata->resolves;
return ast_pthread_create_detached(&resolver_thread, NULL, resolution_thread, ao2_bump(query));
}
/*!
* \brief Resolver's cancel() method
*
* \param query The query to cancel
* \return 0
*/
static int recurring_cancel(struct ast_dns_query *query)
{
struct ast_dns_query_recurring *recurring = ast_dns_query_get_data(query);
struct recurring_data *rdata = recurring->user_data;
ast_mutex_lock(&rdata->lock);
rdata->canceled = 1;
ast_cond_signal(&rdata->cond);
ast_mutex_unlock(&rdata->lock);
return 0;
}
static struct ast_dns_resolver recurring_resolver = {
.name = "test_recurring",
.priority = 0,
.resolve = recurring_resolve,
.cancel = recurring_cancel,
};
/*!
* \brief Wait for a successful resolution to complete
*
* This is called whenever a successful DNS resolution occurs. This function
* serves to ensure that parameters are as we expect them to be.
*
* \param test The test being executed
* \param rdata DNS query user data
* \param expected_lapse The amount of time we expect to wait for the query to complete
* \param num_resolves The number of DNS resolutions that have been executed
* \param num_completed The number of DNS resolutions we expect to have completed successfully
* \param canceled Whether the query is expected to have been canceled
*/
static int wait_for_resolution(struct ast_test *test, struct recurring_data *rdata,
int expected_lapse, int num_resolves, int num_completed, int canceled)
{
struct timespec begin;
struct timespec end;
struct timespec timeout;
int secdiff;
begin = ast_tsnow();
timeout.tv_sec = begin.tv_sec + 20;
timeout.tv_nsec = begin.tv_nsec;
ast_mutex_lock(&rdata->lock);
while (!rdata->query_complete) {
if (ast_cond_timedwait(&rdata->cond, &rdata->lock, &timeout) == ETIMEDOUT) {
break;
}
}
ast_mutex_unlock(&rdata->lock);
if (!rdata->query_complete) {
ast_test_status_update(test, "Query timed out\n");
return -1;
}
rdata->query_complete = 0;
end = ast_tsnow();
secdiff = end.tv_sec - begin.tv_sec;
/* Give ourselves some wiggle room */
if (secdiff < expected_lapse - 2 || secdiff > expected_lapse + 2) {
ast_test_status_update(test, "Query did not complete in expected time\n");
return -1;
}
if (rdata->resolves != num_resolves || rdata->complete_resolutions != num_completed) {
ast_test_status_update(test, "Query has not undergone expected number of resolutions\n");
return -1;
}
if (rdata->canceled != canceled) {
ast_test_status_update(test, "Query was canceled unexpectedly\n");
return -1;
}
ast_test_status_update(test, "Query completed in expected time frame\n");
return 0;
}
static void async_callback(const struct ast_dns_query *query)
{
struct recurring_data *rdata = ast_dns_query_get_data(query);
ast_assert(rdata != NULL);
ast_mutex_lock(&rdata->lock);
rdata->query_complete = 1;
ast_cond_signal(&rdata->cond);
ast_mutex_unlock(&rdata->lock);
}
AST_TEST_DEFINE(recurring_query)
{
RAII_VAR(struct ast_dns_query_recurring *, recurring_query, NULL, ao2_cleanup);
RAII_VAR(struct recurring_data *, rdata, NULL, ao2_cleanup);
enum ast_test_result_state res = AST_TEST_PASS;
int expected_lapse;
switch (cmd) {
case TEST_INIT:
info->name = "recurring_query";
info->category = "/main/dns/recurring/";
info->summary = "Test nominal asynchronous recurring DNS queries";
info->description =
"This tests nominal recurring queries in the following ways:\n"
"\t* An asynchronous query is sent to a mock resolver\n"
"\t* The mock resolver returns two records with different TTLs\n"
"\t* We ensure that the query re-occurs according to the lower of the TTLs\n"
"\t* The mock resolver returns two records, this time with different TTLs\n"
"\t from the first time the query was resolved\n"
"\t* We ensure that the query re-occurs according to the new lower TTL";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
if (ast_dns_resolver_register(&recurring_resolver)) {
ast_test_status_update(test, "Failed to register recurring DNS resolver\n");
return AST_TEST_FAIL;
}
rdata = recurring_data_alloc();
if (!rdata) {
ast_test_status_update(test, "Failed to allocate data necessary for recurring test\n");
res = AST_TEST_FAIL;
goto cleanup;
}
expected_lapse = 0;
rdata->ttl1 = 5;
rdata->ttl2 = 20;
recurring_query = ast_dns_resolve_recurring("asterisk.org", T_A, C_IN, async_callback, rdata);
if (!recurring_query) {
ast_test_status_update(test, "Failed to create recurring DNS query\n");
res = AST_TEST_FAIL;
goto cleanup;
}
/* This should be near instantaneous */
if (wait_for_resolution(test, rdata, expected_lapse, 1, 1, 0)) {
res = AST_TEST_FAIL;
goto cleanup;
}
expected_lapse = rdata->ttl1;
rdata->ttl1 = 45;
rdata->ttl2 = 10;
/* This should take approximately 5 seconds */
if (wait_for_resolution(test, rdata, expected_lapse, 2, 2, 0)) {
res = AST_TEST_FAIL;
goto cleanup;
}
expected_lapse = rdata->ttl2;
/* This should take approximately 10 seconds */
if (wait_for_resolution(test, rdata, expected_lapse, 3, 3, 0)) {
res = AST_TEST_FAIL;
goto cleanup;
}
cleanup:
if (recurring_query) {
/* XXX I don't like calling this here since I'm not testing
* canceling recurring queries, but I'm forced into it here
*/
ast_dns_resolve_recurring_cancel(recurring_query);
}
ast_dns_resolver_unregister(&recurring_resolver);
return res;
}
static int fail_resolve(struct ast_dns_query *query)
{
return -1;
}
static int stub_cancel(struct ast_dns_query *query)
{
return 0;
}
static void stub_callback(const struct ast_dns_query *query)
{
return;
}
AST_TEST_DEFINE(recurring_query_off_nominal)
{
struct ast_dns_resolver terrible_resolver = {
.name = "Harold P. Warren's Filmography",
.priority = 0,
.resolve = fail_resolve,
.cancel = stub_cancel,
};
struct ast_dns_query_recurring *recurring;
struct dns_resolve_data {
const char *name;
int rr_type;
int rr_class;
ast_dns_resolve_callback callback;
} resolves [] = {
{ NULL, T_A, C_IN, stub_callback },
{ "asterisk.org", -1, C_IN, stub_callback },
{ "asterisk.org", 65536 + 1, C_IN, stub_callback },
{ "asterisk.org", T_A, -1, stub_callback },
{ "asterisk.org", T_A, 65536 + 1, stub_callback },
{ "asterisk.org", T_A, C_IN, NULL },
};
int i;
enum ast_test_result_state res = AST_TEST_PASS;
switch (cmd) {
case TEST_INIT:
info->name = "recurring_query_off_nominal";
info->category = "/main/dns/recurring/";
info->summary = "Test off-nominal recurring DNS resolution";
info->description =
"This test performs several off-nominal recurring DNS resolutions:\n"
"\t* Attempt resolution with NULL name\n"
"\t* Attempt resolution with invalid RR type\n"
"\t* Attempt resolution with invalid RR class\n"
"\t* Attempt resolution with NULL callback pointer\n"
"\t* Attempt resolution with resolver that returns an error";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
if (ast_dns_resolver_register(&recurring_resolver)) {
ast_test_status_update(test, "Failed to register test resolver\n");
return AST_TEST_FAIL;
}
for (i = 0; i < ARRAY_LEN(resolves); ++i) {
recurring = ast_dns_resolve_recurring(resolves[i].name, resolves[i].rr_type, resolves[i].rr_class,
resolves[i].callback, NULL);
if (recurring) {
ast_test_status_update(test, "Successfully performed recurring resolution with invalid data\n");
ast_dns_resolve_recurring_cancel(recurring);
ao2_ref(recurring, -1);
res = AST_TEST_FAIL;
}
}
ast_dns_resolver_unregister(&recurring_resolver);
if (ast_dns_resolver_register(&terrible_resolver)) {
ast_test_status_update(test, "Failed to register the DNS resolver\n");
return AST_TEST_FAIL;
}
recurring = ast_dns_resolve_recurring("asterisk.org", T_A, C_IN, stub_callback, NULL);
ast_dns_resolver_unregister(&terrible_resolver);
if (recurring) {
ast_test_status_update(test, "Successfully performed recurring resolution with invalid data\n");
ast_dns_resolve_recurring_cancel(recurring);
ao2_ref(recurring, -1);
return AST_TEST_FAIL;
}
return res;
}
AST_TEST_DEFINE(recurring_query_cancel_between)
{
RAII_VAR(struct ast_dns_query_recurring *, recurring_query, NULL, ao2_cleanup);
RAII_VAR(struct recurring_data *, rdata, NULL, ao2_cleanup);
enum ast_test_result_state res = AST_TEST_PASS;
struct timespec timeout;
switch (cmd) {
case TEST_INIT:
info->name = "recurring_query_cancel_between";
info->category = "/main/dns/recurring/";
info->summary = "Test canceling a recurring DNS query during the downtime between queries";
info->description = "This test does the following:\n"
"\t* Issue a recurring DNS query.\n"
"\t* Once results have been returned, cancel the recurring query.\n"
"\t* Wait a while to ensure that no more queries are occurring.";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
if (ast_dns_resolver_register(&recurring_resolver)) {
ast_test_status_update(test, "Failed to register recurring DNS resolver\n");
return AST_TEST_FAIL;
}
rdata = recurring_data_alloc();
if (!rdata) {
ast_test_status_update(test, "Failed to allocate data necessary for recurring test\n");
res = AST_TEST_FAIL;
goto cleanup;
}
rdata->ttl1 = 5;
rdata->ttl2 = 20;
recurring_query = ast_dns_resolve_recurring("asterisk.org", T_A, C_IN, async_callback, rdata);
if (!recurring_query) {
ast_test_status_update(test, "Unable to make recurring query\n");
res = AST_TEST_FAIL;
goto cleanup;
}
if (wait_for_resolution(test, rdata, 0, 1, 1, 0)) {
res = AST_TEST_FAIL;
goto cleanup;
}
if (ast_dns_resolve_recurring_cancel(recurring_query)) {
ast_test_status_update(test, "Failed to cancel recurring query\n");
res = AST_TEST_FAIL;
goto cleanup;
}
/* Query has been canceled, so let's wait to make sure that we don't get
* told another query has occurred.
*/
timeout = ast_tsnow();
timeout.tv_sec += 10;
ast_mutex_lock(&rdata->lock);
while (!rdata->query_complete) {
if (ast_cond_timedwait(&rdata->cond, &rdata->lock, &timeout) == ETIMEDOUT) {
break;
}
}
ast_mutex_unlock(&rdata->lock);
if (rdata->query_complete) {
ast_test_status_update(test, "Recurring query occurred after cancellation\n");
res = AST_TEST_FAIL;
goto cleanup;
}
cleanup:
ast_dns_resolver_unregister(&recurring_resolver);
return res;
}
AST_TEST_DEFINE(recurring_query_cancel_during)
{
RAII_VAR(struct ast_dns_query_recurring *, recurring_query, NULL, ao2_cleanup);
RAII_VAR(struct recurring_data *, rdata, NULL, ao2_cleanup);
enum ast_test_result_state res = AST_TEST_PASS;
struct timespec timeout;
switch (cmd) {
case TEST_INIT:
info->name = "recurring_query_cancel_during";
info->category = "/main/dns/recurring/";
info->summary = "Cancel a recurring DNS query while a query is actually happening";
info->description = "This test does the following:\n"
"\t* Initiate a recurring DNS query.\n"
"\t* Allow the initial query to complete, and a second query to start\n"
"\t* Cancel the recurring query while the second query is executing\n"
"\t* Ensure that the resolver's cancel() method was called\n"
"\t* Wait a while to make sure that recurring queries are no longer occurring";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
if (ast_dns_resolver_register(&recurring_resolver)) {
ast_test_status_update(test, "Failed to register recurring DNS resolver\n");
return AST_TEST_FAIL;
}
rdata = recurring_data_alloc();
if (!rdata) {
ast_test_status_update(test, "Failed to allocate data necessary for recurring test\n");
res = AST_TEST_FAIL;
goto cleanup;
}
rdata->ttl1 = 5;
rdata->ttl2 = 20;
recurring_query = ast_dns_resolve_recurring("asterisk.org", T_A, C_IN, async_callback, rdata);
if (!recurring_query) {
ast_test_status_update(test, "Failed to make recurring DNS query\n");
res = AST_TEST_FAIL;
goto cleanup;
}
if (wait_for_resolution(test, rdata, 0, 1, 1, 0)) {
res = AST_TEST_FAIL;
goto cleanup;
}
/* Initial query has completed. Now let's make the next query expect a cancelation */
rdata->cancel_expected = 1;
/* Wait to be told that the query should be canceled */
ast_mutex_lock(&rdata->lock);
while (!rdata->cancel_ready) {
ast_cond_wait(&rdata->cond, &rdata->lock);
}
rdata->cancel_expected = 0;
ast_mutex_unlock(&rdata->lock);
if (ast_dns_resolve_recurring_cancel(recurring_query)) {
ast_test_status_update(test, "Failed to cancel recurring DNS query\n");
res = AST_TEST_FAIL;
goto cleanup;
}
/* Query has been canceled. We'll be told that the query in flight has completed. */
if (wait_for_resolution(test, rdata, 0, 2, 1, 1)) {
res = AST_TEST_FAIL;
goto cleanup;
}
/* Now ensure that no more queries get completed after cancellation. */
timeout = ast_tsnow();
timeout.tv_sec += 10;
ast_mutex_lock(&rdata->lock);
while (!rdata->query_complete) {
if (ast_cond_timedwait(&rdata->cond, &rdata->lock, &timeout) == ETIMEDOUT) {
break;
}
}
ast_mutex_unlock(&rdata->lock);
if (rdata->query_complete) {
ast_test_status_update(test, "Recurring query occurred after cancellation\n");
res = AST_TEST_FAIL;
goto cleanup;
}
cleanup:
ast_dns_resolver_unregister(&recurring_resolver);
return res;
}
static int unload_module(void)
{
AST_TEST_UNREGISTER(recurring_query);
AST_TEST_UNREGISTER(recurring_query_off_nominal);
AST_TEST_UNREGISTER(recurring_query_cancel_between);
AST_TEST_UNREGISTER(recurring_query_cancel_during);
return 0;
}
static int load_module(void)
{
AST_TEST_REGISTER(recurring_query);
AST_TEST_REGISTER(recurring_query_off_nominal);
AST_TEST_REGISTER(recurring_query_cancel_between);
AST_TEST_REGISTER(recurring_query_cancel_during);
return AST_MODULE_LOAD_SUCCESS;
}
AST_MODULE_INFO_STANDARD(ASTERISK_GPL_KEY, "Recurring DNS query tests");