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|
/* Copyright (c) 2014-2020, The Tor Project, Inc. */
/* See LICENSE for licensing information */
#define CIRCUITBUILD_PRIVATE
#define RELAY_PRIVATE
#define BWHIST_PRIVATE
#include "core/or/or.h"
#include "core/or/circuitbuild.h"
#include "core/or/circuitlist.h"
#include "core/or/channeltls.h"
#include "feature/stats/bwhist.h"
#include "core/or/relay.h"
#include "lib/container/order.h"
/* For init/free stuff */
#include "core/or/scheduler.h"
#include "core/or/cell_st.h"
#include "core/or/or_circuit_st.h"
#define RESOLVE_ADDR_PRIVATE
#include "feature/nodelist/dirlist.h"
#include "feature/relay/relay_find_addr.h"
#include "feature/relay/routermode.h"
#include "feature/dirclient/dir_server_st.h"
#include "app/config/resolve_addr.h"
/* Test suite stuff */
#include "test/test.h"
#include "test/fakechans.h"
#include "test/fakecircs.h"
static void test_relay_append_cell_to_circuit_queue(void *arg);
static int
mock_server_mode_true(const or_options_t *options)
{
(void) options;
return 1;
}
static void
assert_circuit_ok_mock(const circuit_t *c)
{
(void) c;
return;
}
static void
test_relay_close_circuit(void *arg)
{
channel_t *nchan = NULL, *pchan = NULL;
or_circuit_t *orcirc = NULL;
cell_t *cell = NULL;
int old_count, new_count;
(void)arg;
/* Make fake channels to be nchan and pchan for the circuit */
nchan = new_fake_channel();
tt_assert(nchan);
pchan = new_fake_channel();
tt_assert(pchan);
/* Make a fake orcirc */
orcirc = new_fake_orcirc(nchan, pchan);
tt_assert(orcirc);
circuitmux_attach_circuit(nchan->cmux, TO_CIRCUIT(orcirc),
CELL_DIRECTION_OUT);
circuitmux_attach_circuit(pchan->cmux, TO_CIRCUIT(orcirc),
CELL_DIRECTION_IN);
/* Make a cell */
cell = tor_malloc_zero(sizeof(cell_t));
make_fake_cell(cell);
MOCK(scheduler_channel_has_waiting_cells,
scheduler_channel_has_waiting_cells_mock);
MOCK(assert_circuit_ok,
assert_circuit_ok_mock);
/* Append it */
old_count = get_mock_scheduler_has_waiting_cells_count();
append_cell_to_circuit_queue(TO_CIRCUIT(orcirc), nchan, cell,
CELL_DIRECTION_OUT, 0);
new_count = get_mock_scheduler_has_waiting_cells_count();
tt_int_op(new_count, OP_EQ, old_count + 1);
/* Now try the reverse direction */
old_count = get_mock_scheduler_has_waiting_cells_count();
append_cell_to_circuit_queue(TO_CIRCUIT(orcirc), pchan, cell,
CELL_DIRECTION_IN, 0);
new_count = get_mock_scheduler_has_waiting_cells_count();
tt_int_op(new_count, OP_EQ, old_count + 1);
/* Ensure our write totals are 0 */
tt_u64_op(find_largest_max(write_array), OP_EQ, 0);
/* Mark the circuit for close */
circuit_mark_for_close(TO_CIRCUIT(orcirc), 0);
/* Check our write totals. */
advance_obs(write_array);
commit_max(write_array);
/* Check for two cells plus overhead */
tt_u64_op(find_largest_max(write_array), OP_EQ,
2*(get_cell_network_size(nchan->wide_circ_ids)
+TLS_PER_CELL_OVERHEAD));
UNMOCK(scheduler_channel_has_waiting_cells);
/* Get rid of the fake channels */
MOCK(scheduler_release_channel, scheduler_release_channel_mock);
channel_mark_for_close(nchan);
channel_mark_for_close(pchan);
UNMOCK(scheduler_release_channel);
/* Shut down channels */
channel_free_all();
done:
tor_free(cell);
if (orcirc) {
circuitmux_detach_circuit(nchan->cmux, TO_CIRCUIT(orcirc));
circuitmux_detach_circuit(pchan->cmux, TO_CIRCUIT(orcirc));
cell_queue_clear(&orcirc->base_.n_chan_cells);
cell_queue_clear(&orcirc->p_chan_cells);
}
free_fake_orcirc(orcirc);
free_fake_channel(nchan);
free_fake_channel(pchan);
UNMOCK(assert_circuit_ok);
return;
}
static void
test_relay_append_cell_to_circuit_queue(void *arg)
{
channel_t *nchan = NULL, *pchan = NULL;
or_circuit_t *orcirc = NULL;
cell_t *cell = NULL;
int old_count, new_count;
(void)arg;
/* Make fake channels to be nchan and pchan for the circuit */
nchan = new_fake_channel();
tt_assert(nchan);
pchan = new_fake_channel();
tt_assert(pchan);
/* Make a fake orcirc */
orcirc = new_fake_orcirc(nchan, pchan);
tt_assert(orcirc);
circuitmux_attach_circuit(nchan->cmux, TO_CIRCUIT(orcirc),
CELL_DIRECTION_OUT);
circuitmux_attach_circuit(pchan->cmux, TO_CIRCUIT(orcirc),
CELL_DIRECTION_IN);
/* Make a cell */
cell = tor_malloc_zero(sizeof(cell_t));
make_fake_cell(cell);
MOCK(scheduler_channel_has_waiting_cells,
scheduler_channel_has_waiting_cells_mock);
/* Append it */
old_count = get_mock_scheduler_has_waiting_cells_count();
append_cell_to_circuit_queue(TO_CIRCUIT(orcirc), nchan, cell,
CELL_DIRECTION_OUT, 0);
new_count = get_mock_scheduler_has_waiting_cells_count();
tt_int_op(new_count, OP_EQ, old_count + 1);
/* Now try the reverse direction */
old_count = get_mock_scheduler_has_waiting_cells_count();
append_cell_to_circuit_queue(TO_CIRCUIT(orcirc), pchan, cell,
CELL_DIRECTION_IN, 0);
new_count = get_mock_scheduler_has_waiting_cells_count();
tt_int_op(new_count, OP_EQ, old_count + 1);
UNMOCK(scheduler_channel_has_waiting_cells);
/* Get rid of the fake channels */
MOCK(scheduler_release_channel, scheduler_release_channel_mock);
channel_mark_for_close(nchan);
channel_mark_for_close(pchan);
UNMOCK(scheduler_release_channel);
/* Shut down channels */
channel_free_all();
done:
tor_free(cell);
if (orcirc) {
circuitmux_detach_circuit(nchan->cmux, TO_CIRCUIT(orcirc));
circuitmux_detach_circuit(pchan->cmux, TO_CIRCUIT(orcirc));
cell_queue_clear(&orcirc->base_.n_chan_cells);
cell_queue_clear(&orcirc->p_chan_cells);
}
free_fake_orcirc(orcirc);
free_fake_channel(nchan);
free_fake_channel(pchan);
return;
}
static void
test_suggested_address(void *arg)
{
int ret;
const char *untrusted_id = "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA";
dir_server_t *ds = NULL;
tor_addr_t ipv4_addr, ipv6_addr, cache_addr;
tor_addr_t trusted_addr, untrusted_addr;
tor_addr_port_t trusted_ap_v6 = { .port = 443 };
(void) arg;
MOCK(server_mode, mock_server_mode_true);
/* Unstrusted relay source. */
ret = tor_addr_parse(&untrusted_addr, "8.8.8.8");
tt_int_op(ret, OP_EQ, AF_INET);
/* Add gabelmoo as a trusted directory authority. */
ret = tor_addr_parse(&trusted_addr, "[2001:638:a000:4140::ffff:189]");
tt_int_op(ret, OP_EQ, AF_INET6);
tor_addr_copy(&trusted_ap_v6.addr, &trusted_addr);
ds = trusted_dir_server_new("gabelmoo", "131.188.40.189", 80, 443,
&trusted_ap_v6,
"F2044413DAC2E02E3D6BCF4735A19BCA1DE97281",
"ED03BB616EB2F60BEC80151114BB25CEF515B226",
V3_DIRINFO, 1.0);
tt_assert(ds);
dir_server_add(ds);
/* 1. Valid IPv4 from a trusted authority (gabelmoo). */
ret = tor_addr_parse(&ipv4_addr, "1.2.3.4");
relay_address_new_suggestion(&ipv4_addr, &ds->ipv4_addr, ds->digest);
resolved_addr_get_suggested(AF_INET, &cache_addr);
tt_assert(tor_addr_eq(&cache_addr, &ipv4_addr));
resolve_addr_reset_suggested(AF_INET);
/* 2. Valid IPv6 from a trusted authority (gabelmoo). */
ret = tor_addr_parse(&ipv6_addr, "[4242::4242]");
relay_address_new_suggestion(&ipv6_addr, &ds->ipv6_addr, ds->digest);
resolved_addr_get_suggested(AF_INET6, &cache_addr);
tt_assert(tor_addr_eq(&cache_addr, &ipv6_addr));
resolve_addr_reset_suggested(AF_INET6);
/* 3. Valid IPv4 but untrusted source. */
ret = tor_addr_parse(&ipv4_addr, "1.2.3.4");
relay_address_new_suggestion(&ipv4_addr, &untrusted_addr, untrusted_id);
resolved_addr_get_suggested(AF_INET, &cache_addr);
tt_assert(tor_addr_is_unspec(&cache_addr));
/* 4. Valid IPv6 but untrusted source. */
ret = tor_addr_parse(&ipv6_addr, "[4242::4242]");
relay_address_new_suggestion(&ipv6_addr, &untrusted_addr, untrusted_id);
resolved_addr_get_suggested(AF_INET6, &cache_addr);
tt_assert(tor_addr_is_unspec(&cache_addr));
/* 5. Internal IPv4 from a trusted authority (gabelmoo). */
ret = tor_addr_parse(&ipv4_addr, "127.0.0.1");
relay_address_new_suggestion(&ipv4_addr, &ds->ipv4_addr, ds->digest);
resolved_addr_get_suggested(AF_INET, &cache_addr);
tt_assert(tor_addr_is_unspec(&cache_addr));
/* 6. Internal IPv6 from a trusted authority (gabelmoo). */
ret = tor_addr_parse(&ipv6_addr, "[::1]");
relay_address_new_suggestion(&ipv6_addr, &ds->ipv6_addr, ds->digest);
resolved_addr_get_suggested(AF_INET6, &cache_addr);
tt_assert(tor_addr_is_unspec(&cache_addr));
/* 7. IPv4 from a trusted authority (gabelmoo). */
relay_address_new_suggestion(&ds->ipv4_addr, &ds->ipv4_addr, ds->digest);
resolved_addr_get_suggested(AF_INET, &cache_addr);
tt_assert(tor_addr_is_unspec(&cache_addr));
/* 8. IPv6 from a trusted authority (gabelmoo). */
relay_address_new_suggestion(&ds->ipv6_addr, &ds->ipv6_addr, ds->digest);
resolved_addr_get_suggested(AF_INET6, &cache_addr);
tt_assert(tor_addr_is_unspec(&cache_addr));
done:
dirlist_free_all();
UNMOCK(server_mode);
}
static void
test_find_addr_to_publish(void *arg)
{
int family;
bool ret;
tor_addr_t ipv4_addr, ipv6_addr, cache_addr;
or_options_t options;
(void) arg;
memset(&options, 0, sizeof(options));
/* Populate our resolved cache with a valid IPv4 and IPv6. */
family = tor_addr_parse(&ipv4_addr, "1.2.3.4");
tt_int_op(family, OP_EQ, AF_INET);
resolved_addr_set_last(&ipv4_addr, RESOLVED_ADDR_CONFIGURED, NULL);
resolved_addr_get_last(AF_INET, &cache_addr);
tt_assert(tor_addr_eq(&ipv4_addr, &cache_addr));
family = tor_addr_parse(&ipv6_addr, "[4242::4242]");
tt_int_op(family, OP_EQ, AF_INET6);
resolved_addr_set_last(&ipv6_addr, RESOLVED_ADDR_CONFIGURED, NULL);
resolved_addr_get_last(AF_INET6, &cache_addr);
tt_assert(tor_addr_eq(&ipv6_addr, &cache_addr));
/* 1. Address located in the resolved cache. */
ret = relay_find_addr_to_publish(&options, AF_INET,
RELAY_FIND_ADDR_CACHE_ONLY, &cache_addr);
tt_assert(ret);
tt_assert(tor_addr_eq(&ipv4_addr, &cache_addr));
ret = relay_find_addr_to_publish(&options, AF_INET6,
RELAY_FIND_ADDR_CACHE_ONLY, &cache_addr);
tt_assert(ret);
tt_assert(tor_addr_eq(&ipv6_addr, &cache_addr));
resolved_addr_reset_last(AF_INET);
resolved_addr_reset_last(AF_INET6);
/* 2. No IP in the resolve cache, go to the suggested cache. We will ignore
* the find_my_address() code path because that is extensively tested in
* another unit tests. */
resolved_addr_set_suggested(&ipv4_addr);
ret = relay_find_addr_to_publish(&options, AF_INET,
RELAY_FIND_ADDR_CACHE_ONLY, &cache_addr);
tt_assert(ret);
tt_assert(tor_addr_eq(&ipv4_addr, &cache_addr));
resolved_addr_set_suggested(&ipv6_addr);
ret = relay_find_addr_to_publish(&options, AF_INET6,
RELAY_FIND_ADDR_CACHE_ONLY, &cache_addr);
tt_assert(ret);
tt_assert(tor_addr_eq(&ipv6_addr, &cache_addr));
resolve_addr_reset_suggested(AF_INET);
resolve_addr_reset_suggested(AF_INET6);
/* 3. No IP anywhere. */
ret = relay_find_addr_to_publish(&options, AF_INET,
RELAY_FIND_ADDR_CACHE_ONLY, &cache_addr);
tt_assert(!ret);
ret = relay_find_addr_to_publish(&options, AF_INET6,
RELAY_FIND_ADDR_CACHE_ONLY, &cache_addr);
tt_assert(!ret);
done:
;
}
struct testcase_t relay_tests[] = {
{ "append_cell_to_circuit_queue", test_relay_append_cell_to_circuit_queue,
TT_FORK, NULL, NULL },
{ "close_circ_rephist", test_relay_close_circuit,
TT_FORK, NULL, NULL },
{ "suggested_address", test_suggested_address,
TT_FORK, NULL, NULL },
{ "find_addr_to_publish", test_find_addr_to_publish,
TT_FORK, NULL, NULL },
END_OF_TESTCASES
};
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