/* Copyright (c) 2014-2015, The Tor Project, Inc. */
/* See LICENSE for licensing information */
#include "orconfig.h"
#define STATEFILE_PRIVATE
#define ENTRYNODES_PRIVATE
#define ROUTERLIST_PRIVATE
#include "or.h"
#include "test.h"
#include "config.h"
#include "entrynodes.h"
#include "nodelist.h"
#include "policies.h"
#include "routerlist.h"
#include "routerparse.h"
#include "routerset.h"
#include "statefile.h"
#include "util.h"
#include "test_helpers.h"
/* TODO:
* choose_random_entry() test with state set.
*
* parse_state() tests with more than one guards.
*
* More tests for set_from_config(): Multiple nodes, use fingerprints,
* use country codes.
*/
/** Dummy Tor state used in unittests. */
static or_state_t *dummy_state = NULL;
static or_state_t *
get_or_state_replacement(void)
{
return dummy_state;
}
/* Unittest cleanup function: Cleanup the fake network. */
static int
fake_network_cleanup(const struct testcase_t *testcase, void *ptr)
{
(void) testcase;
(void) ptr;
routerlist_free_all();
nodelist_free_all();
entry_guards_free_all();
or_state_free(dummy_state);
return 1; /* NOP */
}
/* Unittest setup function: Setup a fake network. */
static void *
fake_network_setup(const struct testcase_t *testcase)
{
(void) testcase;
/* Setup fake state */
dummy_state = tor_malloc_zero(sizeof(or_state_t));
MOCK(get_or_state,
get_or_state_replacement);
/* Setup fake routerlist. */
helper_setup_fake_routerlist();
/* Return anything but NULL (it's interpreted as test fail) */
return dummy_state;
}
static or_options_t mocked_options;
static const or_options_t *
mock_get_options(void)
{
return &mocked_options;
}
/** Test choose_random_entry() with none of our routers being guard nodes. */
static void
test_choose_random_entry_no_guards(void *arg)
{
const node_t *chosen_entry = NULL;
(void) arg;
MOCK(get_options, mock_get_options);
/* Check that we get a guard if it passes preferred
* address settings */
memset(&mocked_options, 0, sizeof(mocked_options));
mocked_options.ClientUseIPv4 = 1;
mocked_options.ClientPreferIPv6ORPort = 0;
/* Try to pick an entry even though none of our routers are guards. */
chosen_entry = choose_random_entry(NULL);
/* Unintuitively, we actually pick a random node as our entry,
because router_choose_random_node() relaxes its constraints if it
can't find a proper entry guard. */
tt_assert(chosen_entry);
/* And with the other IP version active */
mocked_options.ClientUseIPv6 = 1;
chosen_entry = choose_random_entry(NULL);
tt_assert(chosen_entry);
/* And with the preference on auto */
mocked_options.ClientPreferIPv6ORPort = -1;
chosen_entry = choose_random_entry(NULL);
tt_assert(chosen_entry);
/* Check that we don't get a guard if it doesn't pass mandatory address
* settings */
memset(&mocked_options, 0, sizeof(mocked_options));
mocked_options.ClientUseIPv4 = 0;
mocked_options.ClientPreferIPv6ORPort = 0;
chosen_entry = choose_random_entry(NULL);
/* If we don't allow IPv4 at all, we don't get a guard*/
tt_assert(!chosen_entry);
/* Check that we get a guard if it passes allowed but not preferred address
* settings */
memset(&mocked_options, 0, sizeof(mocked_options));
mocked_options.ClientUseIPv4 = 1;
mocked_options.ClientUseIPv6 = 1;
mocked_options.ClientPreferIPv6ORPort = 1;
chosen_entry = choose_random_entry(NULL);
tt_assert(chosen_entry);
/* Check that we get a guard if it passes preferred address settings when
* they're auto */
memset(&mocked_options, 0, sizeof(mocked_options));
mocked_options.ClientUseIPv4 = 1;
mocked_options.ClientPreferIPv6ORPort = -1;
chosen_entry = choose_random_entry(NULL);
tt_assert(chosen_entry);
/* And with IPv6 active */
mocked_options.ClientUseIPv6 = 1;
chosen_entry = choose_random_entry(NULL);
tt_assert(chosen_entry);
done:
memset(&mocked_options, 0, sizeof(mocked_options));
UNMOCK(get_options);
}
/** Test choose_random_entry() with only one of our routers being a
guard node. */
static void
test_choose_random_entry_one_possible_guard(void *arg)
{
const node_t *chosen_entry = NULL;
node_t *the_guard = NULL;
smartlist_t *our_nodelist = NULL;
(void) arg;
MOCK(get_options, mock_get_options);
/* Set one of the nodes to be a guard. */
our_nodelist = nodelist_get_list();
the_guard = smartlist_get(our_nodelist, 4); /* chosen by fair dice roll */
the_guard->is_possible_guard = 1;
/* Check that we get the guard if it passes preferred
* address settings */
memset(&mocked_options, 0, sizeof(mocked_options));
mocked_options.ClientUseIPv4 = 1;
mocked_options.ClientPreferIPv6ORPort = 0;
/* Pick an entry. Make sure we pick the node we marked as guard. */
chosen_entry = choose_random_entry(NULL);
tt_ptr_op(chosen_entry, OP_EQ, the_guard);
/* And with the other IP version active */
mocked_options.ClientUseIPv6 = 1;
chosen_entry = choose_random_entry(NULL);
tt_ptr_op(chosen_entry, OP_EQ, the_guard);
/* And with the preference on auto */
mocked_options.ClientPreferIPv6ORPort = -1;
chosen_entry = choose_random_entry(NULL);
tt_ptr_op(chosen_entry, OP_EQ, the_guard);
/* Check that we don't get a guard if it doesn't pass mandatory address
* settings */
memset(&mocked_options, 0, sizeof(mocked_options));
mocked_options.ClientUseIPv4 = 0;
mocked_options.ClientPreferIPv6ORPort = 0;
chosen_entry = choose_random_entry(NULL);
/* If we don't allow IPv4 at all, we don't get a guard*/
tt_assert(!chosen_entry);
/* Check that we get a node if it passes allowed but not preferred
* address settings */
memset(&mocked_options, 0, sizeof(mocked_options));
mocked_options.ClientUseIPv4 = 1;
mocked_options.ClientUseIPv6 = 1;
mocked_options.ClientPreferIPv6ORPort = 1;
chosen_entry = choose_random_entry(NULL);
/* We disable the guard check and the preferred address check at the same
* time, so we can't be sure we get the guard */
tt_assert(chosen_entry);
/* Check that we get a node if it is allowed but not preferred when settings
* are auto */
memset(&mocked_options, 0, sizeof(mocked_options));
mocked_options.ClientUseIPv4 = 1;
mocked_options.ClientPreferIPv6ORPort = -1;
chosen_entry = choose_random_entry(NULL);
/* We disable the guard check and the preferred address check at the same
* time, so we can't be sure we get the guard */
tt_assert(chosen_entry);
/* and with IPv6 active */
mocked_options.ClientUseIPv6 = 1;
chosen_entry = choose_random_entry(NULL);
tt_assert(chosen_entry);
done:
memset(&mocked_options, 0, sizeof(mocked_options));
UNMOCK(get_options);
}
/** Helper to conduct tests for populate_live_entry_guards().
This test adds some entry guards to our list, and then tests
populate_live_entry_guards() to mke sure it filters them correctly.
num_needed is the number of guard nodes we support. It's
configurable to make sure we function properly with 1 or 3 guard
nodes configured.
*/
static void
populate_live_entry_guards_test_helper(int num_needed)
{
smartlist_t *our_nodelist = NULL;
smartlist_t *live_entry_guards = smartlist_new();
const smartlist_t *all_entry_guards = get_entry_guards();
or_options_t *options = get_options_mutable();
int retval;
/* Set NumEntryGuards to the provided number. */
options->NumEntryGuards = num_needed;
tt_int_op(num_needed, OP_EQ, decide_num_guards(options, 0));
/* The global entry guards smartlist should be empty now. */
tt_int_op(smartlist_len(all_entry_guards), OP_EQ, 0);
/* Walk the nodelist and add all nodes as entry guards. */
our_nodelist = nodelist_get_list();
tt_int_op(smartlist_len(our_nodelist), OP_EQ, HELPER_NUMBER_OF_DESCRIPTORS);
SMARTLIST_FOREACH_BEGIN(our_nodelist, const node_t *, node) {
const node_t *node_tmp;
node_tmp = add_an_entry_guard(node, 0, 1, 0, 0);
tt_assert(node_tmp);
} SMARTLIST_FOREACH_END(node);
/* Make sure the nodes were added as entry guards. */
tt_int_op(smartlist_len(all_entry_guards), OP_EQ,
HELPER_NUMBER_OF_DESCRIPTORS);
/* Ensure that all the possible entry guards are enough to satisfy us. */
tt_int_op(smartlist_len(all_entry_guards), OP_GE, num_needed);
/* Walk the entry guard list for some sanity checking */
SMARTLIST_FOREACH_BEGIN(all_entry_guards, const entry_guard_t *, entry) {
/* Since we called add_an_entry_guard() with 'for_discovery' being
False, all guards should have made_contact enabled. */
tt_int_op(entry->made_contact, OP_EQ, 1);
} SMARTLIST_FOREACH_END(entry);
/* First, try to get some fast guards. This should fail. */
retval = populate_live_entry_guards(live_entry_guards,
all_entry_guards,
NULL,
NO_DIRINFO, /* Don't care about DIRINFO*/
0, 0,
1); /* We want fast guard! */
tt_int_op(retval, OP_EQ, 0);
tt_int_op(smartlist_len(live_entry_guards), OP_EQ, 0);
/* Now try to get some stable guards. This should fail too. */
retval = populate_live_entry_guards(live_entry_guards,
all_entry_guards,
NULL,
NO_DIRINFO,
0,
1, /* We want stable guard! */
0);
tt_int_op(retval, OP_EQ, 0);
tt_int_op(smartlist_len(live_entry_guards), OP_EQ, 0);
/* Now try to get any guard we can find. This should succeed. */
retval = populate_live_entry_guards(live_entry_guards,
all_entry_guards,
NULL,
NO_DIRINFO,
0, 0, 0); /* No restrictions! */
/* Since we had more than enough guards in 'all_entry_guards', we
should have added 'num_needed' of them to live_entry_guards.
'retval' should be 1 since we now have enough live entry guards
to pick one. */
tt_int_op(retval, OP_EQ, 1);
tt_int_op(smartlist_len(live_entry_guards), OP_EQ, num_needed);
done:
smartlist_free(live_entry_guards);
}
/* Test populate_live_entry_guards() for 1 guard node. */
static void
test_populate_live_entry_guards_1guard(void *arg)
{
(void) arg;
populate_live_entry_guards_test_helper(1);
}
/* Test populate_live_entry_guards() for 3 guard nodes. */
static void
test_populate_live_entry_guards_3guards(void *arg)
{
(void) arg;
populate_live_entry_guards_test_helper(3);
}
/** Append some EntryGuard lines to the Tor state at state.
entry_guard_lines is a smartlist containing 2-tuple
smartlists that carry the key and values of the statefile.
As an example:
entry_guard_lines =
(("EntryGuard", "name 67E72FF33D7D41BF11C569646A0A7B4B188340DF DirCache"),
("EntryGuardDownSince", "2014-06-07 16:02:46 2014-06-07 16:02:46"))
*/
static void
state_insert_entry_guard_helper(or_state_t *state,
smartlist_t *entry_guard_lines)
{
config_line_t **next, *line;
next = &state->EntryGuards;
*next = NULL;
/* Loop over all the state lines in the smartlist */
SMARTLIST_FOREACH_BEGIN(entry_guard_lines, const smartlist_t *,state_lines) {
/* Get key and value for each line */
const char *state_key = smartlist_get(state_lines, 0);
const char *state_value = smartlist_get(state_lines, 1);
*next = line = tor_malloc_zero(sizeof(config_line_t));
line->key = tor_strdup(state_key);
tor_asprintf(&line->value, "%s", state_value);
next = &(line->next);
} SMARTLIST_FOREACH_END(state_lines);
}
/** Free memory occupied by entry_guard_lines. */
static void
state_lines_free(smartlist_t *entry_guard_lines)
{
SMARTLIST_FOREACH_BEGIN(entry_guard_lines, smartlist_t *, state_lines) {
char *state_key = smartlist_get(state_lines, 0);
char *state_value = smartlist_get(state_lines, 1);
tor_free(state_key);
tor_free(state_value);
smartlist_free(state_lines);
} SMARTLIST_FOREACH_END(state_lines);
smartlist_free(entry_guard_lines);
}
/* Tests entry_guards_parse_state(). It creates a fake Tor state with
a saved entry guard and makes sure that Tor can parse it and
creates the right entry node out of it.
*/
static void
test_entry_guards_parse_state_simple(void *arg)
{
or_state_t *state = or_state_new();
const smartlist_t *all_entry_guards = get_entry_guards();
smartlist_t *entry_state_lines = smartlist_new();
char *msg = NULL;
int retval;
/* Details of our fake guard node */
const char *nickname = "hagbard";
const char *fpr = "B29D536DD1752D542E1FBB3C9CE4449D51298212";
const char *tor_version = "0.2.5.3-alpha-dev";
const char *added_at = get_yesterday_date_str();
const char *unlisted_since = "2014-06-08 16:16:50";
(void) arg;
/* The global entry guards smartlist should be empty now. */
tt_int_op(smartlist_len(all_entry_guards), OP_EQ, 0);
{ /* Prepare the state entry */
/* Prepare the smartlist to hold the key/value of each line */
smartlist_t *state_line = smartlist_new();
smartlist_add_asprintf(state_line, "EntryGuard");
smartlist_add_asprintf(state_line, "%s %s %s", nickname, fpr, "DirCache");
smartlist_add(entry_state_lines, state_line);
state_line = smartlist_new();
smartlist_add_asprintf(state_line, "EntryGuardAddedBy");
smartlist_add_asprintf(state_line, "%s %s %s", fpr, tor_version, added_at);
smartlist_add(entry_state_lines, state_line);
state_line = smartlist_new();
smartlist_add_asprintf(state_line, "EntryGuardUnlistedSince");
smartlist_add_asprintf(state_line, "%s", unlisted_since);
smartlist_add(entry_state_lines, state_line);
}
/* Inject our lines in the state */
state_insert_entry_guard_helper(state, entry_state_lines);
/* Parse state */
retval = entry_guards_parse_state(state, 1, &msg);
tt_int_op(retval, OP_GE, 0);
/* Test that the guard was registered.
We need to re-get the entry guard list since its pointer was
overwritten in entry_guards_parse_state(). */
all_entry_guards = get_entry_guards();
tt_int_op(smartlist_len(all_entry_guards), OP_EQ, 1);
{ /* Test the entry guard structure */
char hex_digest[1024];
char str_time[1024];
const entry_guard_t *e = smartlist_get(all_entry_guards, 0);
tt_str_op(e->nickname, OP_EQ, nickname); /* Verify nickname */
base16_encode(hex_digest, sizeof(hex_digest),
e->identity, DIGEST_LEN);
tt_str_op(hex_digest, OP_EQ, fpr); /* Verify fingerprint */
tt_assert(e->is_dir_cache); /* Verify dirness */
tt_str_op(e->chosen_by_version, OP_EQ, tor_version); /* Verify version */
tt_assert(e->made_contact); /* All saved guards have been contacted */
tt_assert(e->bad_since); /* Verify bad_since timestamp */
format_iso_time(str_time, e->bad_since);
tt_str_op(str_time, OP_EQ, unlisted_since);
/* The rest should be unset */
tt_assert(!e->unreachable_since);
tt_assert(!e->can_retry);
tt_assert(!e->path_bias_noticed);
tt_assert(!e->path_bias_warned);
tt_assert(!e->path_bias_extreme);
tt_assert(!e->path_bias_disabled);
tt_assert(!e->path_bias_use_noticed);
tt_assert(!e->path_bias_use_extreme);
tt_assert(!e->last_attempted);
}
done:
state_lines_free(entry_state_lines);
or_state_free(state);
tor_free(msg);
}
/** Similar to test_entry_guards_parse_state_simple() but aims to test
the PathBias-related details of the entry guard. */
static void
test_entry_guards_parse_state_pathbias(void *arg)
{
or_state_t *state = or_state_new();
const smartlist_t *all_entry_guards = get_entry_guards();
char *msg = NULL;
int retval;
smartlist_t *entry_state_lines = smartlist_new();
/* Path bias details of the fake guard */
const double circ_attempts = 9;
const double circ_successes = 8;
const double successful_closed = 4;
const double collapsed = 2;
const double unusable = 0;
const double timeouts = 1;
(void) arg;
/* The global entry guards smartlist should be empty now. */
tt_int_op(smartlist_len(all_entry_guards), OP_EQ, 0);
{ /* Prepare the state entry */
/* Prepare the smartlist to hold the key/value of each line */
smartlist_t *state_line = smartlist_new();
smartlist_add_asprintf(state_line, "EntryGuard");
smartlist_add_asprintf(state_line,
"givethanks B29D536DD1752D542E1FBB3C9CE4449D51298212 NoDirCache");
smartlist_add(entry_state_lines, state_line);
state_line = smartlist_new();
smartlist_add_asprintf(state_line, "EntryGuardAddedBy");
smartlist_add_asprintf(state_line,
"B29D536DD1752D542E1FBB3C9CE4449D51298212 0.2.5.3-alpha-dev "
"%s", get_yesterday_date_str());
smartlist_add(entry_state_lines, state_line);
state_line = smartlist_new();
smartlist_add_asprintf(state_line, "EntryGuardUnlistedSince");
smartlist_add_asprintf(state_line, "2014-06-08 16:16:50");
smartlist_add(entry_state_lines, state_line);
state_line = smartlist_new();
smartlist_add_asprintf(state_line, "EntryGuardPathBias");
smartlist_add_asprintf(state_line, "%f %f %f %f %f %f",
circ_attempts, circ_successes, successful_closed,
collapsed, unusable, timeouts);
smartlist_add(entry_state_lines, state_line);
}
/* Inject our lines in the state */
state_insert_entry_guard_helper(state, entry_state_lines);
/* Parse state */
retval = entry_guards_parse_state(state, 1, &msg);
tt_int_op(retval, OP_GE, 0);
/* Test that the guard was registered */
all_entry_guards = get_entry_guards();
tt_int_op(smartlist_len(all_entry_guards), OP_EQ, 1);
{ /* Test the path bias of this guard */
const entry_guard_t *e = smartlist_get(all_entry_guards, 0);
tt_assert(!e->is_dir_cache);
tt_assert(!e->can_retry);
/* XXX tt_double_op doesn't support equality. Cast to int for now. */
tt_int_op((int)e->circ_attempts, OP_EQ, (int)circ_attempts);
tt_int_op((int)e->circ_successes, OP_EQ, (int)circ_successes);
tt_int_op((int)e->successful_circuits_closed, OP_EQ,
(int)successful_closed);
tt_int_op((int)e->timeouts, OP_EQ, (int)timeouts);
tt_int_op((int)e->collapsed_circuits, OP_EQ, (int)collapsed);
tt_int_op((int)e->unusable_circuits, OP_EQ, (int)unusable);
}
done:
or_state_free(state);
state_lines_free(entry_state_lines);
tor_free(msg);
}
/* Simple test of entry_guards_set_from_config() by specifying a
particular EntryNode and making sure it gets picked. */
static void
test_entry_guards_set_from_config(void *arg)
{
or_options_t *options = get_options_mutable();
const smartlist_t *all_entry_guards = get_entry_guards();
const char *entrynodes_str = "test003r";
const node_t *chosen_entry = NULL;
int retval;
(void) arg;
/* Prase EntryNodes as a routerset. */
options->EntryNodes = routerset_new();
retval = routerset_parse(options->EntryNodes,
entrynodes_str,
"test_entrynodes");
tt_int_op(retval, OP_GE, 0);
/* Read nodes from EntryNodes */
entry_guards_set_from_config(options);
/* Test that only one guard was added. */
tt_int_op(smartlist_len(all_entry_guards), OP_EQ, 1);
/* Make sure it was the guard we specified. */
chosen_entry = choose_random_entry(NULL);
tt_str_op(chosen_entry->ri->nickname, OP_EQ, entrynodes_str);
done:
routerset_free(options->EntryNodes);
}
static void
test_entry_is_time_to_retry(void *arg)
{
entry_guard_t *test_guard;
time_t now;
int retval;
(void)arg;
now = time(NULL);
test_guard = tor_malloc_zero(sizeof(entry_guard_t));
test_guard->last_attempted = now - 10;
test_guard->unreachable_since = now - 1;
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,1);
test_guard->unreachable_since = now - (6*60*60 - 1);
test_guard->last_attempted = now - (60*60 + 1);
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,1);
test_guard->last_attempted = now - (60*60 - 1);
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,0);
test_guard->unreachable_since = now - (6*60*60 + 1);
test_guard->last_attempted = now - (4*60*60 + 1);
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,1);
test_guard->unreachable_since = now - (3*24*60*60 - 1);
test_guard->last_attempted = now - (4*60*60 + 1);
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,1);
test_guard->unreachable_since = now - (3*24*60*60 + 1);
test_guard->last_attempted = now - (18*60*60 + 1);
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,1);
test_guard->unreachable_since = now - (7*24*60*60 - 1);
test_guard->last_attempted = now - (18*60*60 + 1);
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,1);
test_guard->last_attempted = now - (18*60*60 - 1);
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,0);
test_guard->unreachable_since = now - (7*24*60*60 + 1);
test_guard->last_attempted = now - (36*60*60 + 1);
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,1);
test_guard->unreachable_since = now - (7*24*60*60 + 1);
test_guard->last_attempted = now - (36*60*60 + 1);
retval = entry_is_time_to_retry(test_guard,now);
tt_int_op(retval,OP_EQ,1);
done:
tor_free(test_guard);
}
/** XXX Do some tests that entry_is_live() */
static void
test_entry_is_live(void *arg)
{
smartlist_t *our_nodelist = NULL;
const smartlist_t *all_entry_guards = get_entry_guards();
const node_t *test_node = NULL;
const entry_guard_t *test_entry = NULL;
const char *msg;
int which_node;
(void) arg;
/* The global entry guards smartlist should be empty now. */
tt_int_op(smartlist_len(all_entry_guards), OP_EQ, 0);
/* Walk the nodelist and add all nodes as entry guards. */
our_nodelist = nodelist_get_list();
tt_int_op(smartlist_len(our_nodelist), OP_EQ, HELPER_NUMBER_OF_DESCRIPTORS);
SMARTLIST_FOREACH_BEGIN(our_nodelist, const node_t *, node) {
const node_t *node_tmp;
node_tmp = add_an_entry_guard(node, 0, 1, 0, 0);
tt_assert(node_tmp);
tt_int_op(node->is_stable, OP_EQ, 0);
tt_int_op(node->is_fast, OP_EQ, 0);
} SMARTLIST_FOREACH_END(node);
/* Make sure the nodes were added as entry guards. */
tt_int_op(smartlist_len(all_entry_guards), OP_EQ,
HELPER_NUMBER_OF_DESCRIPTORS);
/* Now get a random test entry that we will use for this unit test. */
which_node = 3; /* (chosen by fair dice roll) */
test_entry = smartlist_get(all_entry_guards, which_node);
/* Let's do some entry_is_live() tests! */
/* Require the node to be stable, but it's not. Should fail.
Also enable 'assume_reachable' because why not. */
test_node = entry_is_live(test_entry,
ENTRY_NEED_UPTIME | ENTRY_ASSUME_REACHABLE,
&msg);
tt_assert(!test_node);
/* Require the node to be fast, but it's not. Should fail. */
test_node = entry_is_live(test_entry,
ENTRY_NEED_CAPACITY | ENTRY_ASSUME_REACHABLE,
&msg);
tt_assert(!test_node);
/* Don't impose any restrictions on the node. Should succeed. */
test_node = entry_is_live(test_entry, 0, &msg);
tt_assert(test_node);
tt_ptr_op(test_node, OP_EQ, node_get_by_id(test_entry->identity));
/* Require descriptor for this node. It has one so it should succeed. */
test_node = entry_is_live(test_entry, ENTRY_NEED_DESCRIPTOR, &msg);
tt_assert(test_node);
tt_ptr_op(test_node, OP_EQ, node_get_by_id(test_entry->identity));
done:
; /* XXX */
}
#define TEST_IPV4_ADDR "123.45.67.89"
#define TEST_IPV6_ADDR "[1234:5678:90ab:cdef::]"
static void
test_node_preferred_orport(void *arg)
{
(void)arg;
tor_addr_t ipv4_addr;
const uint16_t ipv4_port = 4444;
tor_addr_t ipv6_addr;
const uint16_t ipv6_port = 6666;
routerinfo_t node_ri;
node_t node;
tor_addr_port_t ap;
/* Setup options */
memset(&mocked_options, 0, sizeof(mocked_options));
/* We don't test ClientPreferIPv6ORPort here, because it's used in
* nodelist_set_consensus to setup node.ipv6_preferred, which we set
* directly. */
MOCK(get_options, mock_get_options);
/* Setup IP addresses */
tor_addr_parse(&ipv4_addr, TEST_IPV4_ADDR);
tor_addr_parse(&ipv6_addr, TEST_IPV6_ADDR);
/* Setup node_ri */
memset(&node_ri, 0, sizeof(node_ri));
node_ri.addr = tor_addr_to_ipv4h(&ipv4_addr);
node_ri.or_port = ipv4_port;
tor_addr_copy(&node_ri.ipv6_addr, &ipv6_addr);
node_ri.ipv6_orport = ipv6_port;
/* Setup node */
memset(&node, 0, sizeof(node));
node.ri = &node_ri;
/* Check the preferred address is IPv4 if we're only using IPv4, regardless
* of whether we prefer it or not */
mocked_options.ClientUseIPv4 = 1;
mocked_options.ClientUseIPv6 = 0;
node.ipv6_preferred = 0;
node_get_pref_orport(&node, &ap);
tt_assert(tor_addr_eq(&ap.addr, &ipv4_addr));
tt_assert(ap.port == ipv4_port);
node.ipv6_preferred = 1;
node_get_pref_orport(&node, &ap);
tt_assert(tor_addr_eq(&ap.addr, &ipv4_addr));
tt_assert(ap.port == ipv4_port);
/* Check the preferred address is IPv4 if we're using IPv4 and IPv6, but
* don't prefer the IPv6 address */
mocked_options.ClientUseIPv4 = 1;
mocked_options.ClientUseIPv6 = 1;
node.ipv6_preferred = 0;
node_get_pref_orport(&node, &ap);
tt_assert(tor_addr_eq(&ap.addr, &ipv4_addr));
tt_assert(ap.port == ipv4_port);
/* Check the preferred address is IPv6 if we prefer it and
* ClientUseIPv6 is 1, regardless of ClientUseIPv4 */
mocked_options.ClientUseIPv4 = 1;
mocked_options.ClientUseIPv6 = 1;
node.ipv6_preferred = 1;
node_get_pref_orport(&node, &ap);
tt_assert(tor_addr_eq(&ap.addr, &ipv6_addr));
tt_assert(ap.port == ipv6_port);
mocked_options.ClientUseIPv4 = 0;
node_get_pref_orport(&node, &ap);
tt_assert(tor_addr_eq(&ap.addr, &ipv6_addr));
tt_assert(ap.port == ipv6_port);
/* Check the preferred address is IPv6 if we don't prefer it, but
* ClientUseIPv4 is 0 */
mocked_options.ClientUseIPv4 = 0;
mocked_options.ClientUseIPv6 = 1;
node.ipv6_preferred = fascist_firewall_prefer_ipv6_orport(&mocked_options);
node_get_pref_orport(&node, &ap);
tt_assert(tor_addr_eq(&ap.addr, &ipv6_addr));
tt_assert(ap.port == ipv6_port);
done:
UNMOCK(get_options);
}
static const struct testcase_setup_t fake_network = {
fake_network_setup, fake_network_cleanup
};
struct testcase_t entrynodes_tests[] = {
{ "entry_is_time_to_retry", test_entry_is_time_to_retry,
TT_FORK, NULL, NULL },
{ "choose_random_entry_no_guards", test_choose_random_entry_no_guards,
TT_FORK, &fake_network, NULL },
{ "choose_random_entry_one_possibleguard",
test_choose_random_entry_one_possible_guard,
TT_FORK, &fake_network, NULL },
{ "populate_live_entry_guards_1guard",
test_populate_live_entry_guards_1guard,
TT_FORK, &fake_network, NULL },
{ "populate_live_entry_guards_3guards",
test_populate_live_entry_guards_3guards,
TT_FORK, &fake_network, NULL },
{ "entry_guards_parse_state_simple",
test_entry_guards_parse_state_simple,
TT_FORK, &fake_network, NULL },
{ "entry_guards_parse_state_pathbias",
test_entry_guards_parse_state_pathbias,
TT_FORK, &fake_network, NULL },
{ "entry_guards_set_from_config",
test_entry_guards_set_from_config,
TT_FORK, &fake_network, NULL },
{ "entry_is_live",
test_entry_is_live,
TT_FORK, &fake_network, NULL },
{ "node_preferred_orport",
test_node_preferred_orport,
0, NULL, NULL },
END_OF_TESTCASES
};