nihilist/tor
1
0
Fork 0
mirror of https://gitlab.torproject.org/tpo/core/tor.git synced 2024-09-21 05:26:20 +02:00
Code Issues Packages Projects Releases Wiki Activity

Fix operator usage in src/test/*.c

Browse Source 
This patch fixes the operator usage in src/test/*.c to use the symbolic
operators instead of the normal C comparison operators.

This patch was generated using:

    ./scripts/coccinelle/test-operator-cleanup src/test/*.[ch]
This commit is contained in:
Alexander Færøy 2017-06-05 14:23:02 +00:00 committed by Nick Mathewson
parent 9e1fa95920
commit c4744a01cc
34 changed files with 1109 additions and 1109 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

4
src/test/test.h
View File

@ -45,8 +45,8 @@
* you're doing. */ * you're doing. */
#define tt_double_eq(a,b) \ #define tt_double_eq(a,b) \
STMT_BEGIN \ STMT_BEGIN \
tt_double_op((a), >=, (b)); \ tt_double_op((a), OP_GE, (b)); \
tt_double_op((a), <=, (b)); \ tt_double_op((a), OP_LE, (b)); \
STMT_END STMT_END
#ifdef _MSC_VER #ifdef _MSC_VER

42
src/test/test_address.c
View File

@ -233,7 +233,7 @@ test_address_ifaddrs_to_smartlist(void *arg)
tor_addr_to_sockaddr(tor_addr,0,sockaddr_to_check, tor_addr_to_sockaddr(tor_addr,0,sockaddr_to_check,
sizeof(struct sockaddr_in)); sizeof(struct sockaddr_in));
tt_int_op(addr_len,==,sizeof(struct sockaddr_in)); tt_int_op(addr_len,OP_EQ,sizeof(struct sockaddr_in));
tt_assert(sockaddr_in_are_equal((struct sockaddr_in *)sockaddr_to_check, tt_assert(sockaddr_in_are_equal((struct sockaddr_in *)sockaddr_to_check,
ipv4_sockaddr_local)); ipv4_sockaddr_local));
@ -242,7 +242,7 @@ test_address_ifaddrs_to_smartlist(void *arg)
tor_addr_to_sockaddr(tor_addr,0,sockaddr_to_check, tor_addr_to_sockaddr(tor_addr,0,sockaddr_to_check,
sizeof(struct sockaddr_in)); sizeof(struct sockaddr_in));
tt_int_op(addr_len,==,sizeof(struct sockaddr_in)); tt_int_op(addr_len,OP_EQ,sizeof(struct sockaddr_in));
tt_assert(sockaddr_in_are_equal((struct sockaddr_in *)sockaddr_to_check, tt_assert(sockaddr_in_are_equal((struct sockaddr_in *)sockaddr_to_check,
ipv4_sockaddr_remote)); ipv4_sockaddr_remote));
@ -251,7 +251,7 @@ test_address_ifaddrs_to_smartlist(void *arg)
tor_addr_to_sockaddr(tor_addr,0,sockaddr_to_check, tor_addr_to_sockaddr(tor_addr,0,sockaddr_to_check,
sizeof(struct sockaddr_in6)); sizeof(struct sockaddr_in6));
tt_int_op(addr_len,==,sizeof(struct sockaddr_in6)); tt_int_op(addr_len,OP_EQ,sizeof(struct sockaddr_in6));
tt_assert(sockaddr_in6_are_equal((struct sockaddr_in6*)sockaddr_to_check, tt_assert(sockaddr_in6_are_equal((struct sockaddr_in6*)sockaddr_to_check,
ipv6_sockaddr)); ipv6_sockaddr));
@ -319,7 +319,7 @@ test_address_get_if_addrs_win32(void *arg)
results = get_interface_addresses_win32(LOG_ERR, AF_UNSPEC); results = get_interface_addresses_win32(LOG_ERR, AF_UNSPEC);
tt_int_op(smartlist_len(results),>=,1); tt_int_op(smartlist_len(results),OP_GE,1);
tt_assert(smartlist_contains_localhost_tor_addr(results)); tt_assert(smartlist_contains_localhost_tor_addr(results));
tt_assert(!smartlist_contains_null_tor_addr(results)); tt_assert(!smartlist_contains_null_tor_addr(results));
@ -456,14 +456,14 @@ test_address_ifreq_to_smartlist(void *arg)
ifc->ifc_ifcu.ifcu_req = ifr; ifc->ifc_ifcu.ifcu_req = ifr;
results = ifreq_to_smartlist(ifc->ifc_buf,ifc->ifc_len); results = ifreq_to_smartlist(ifc->ifc_buf,ifc->ifc_len);
tt_int_op(smartlist_len(results),==,1); tt_int_op(smartlist_len(results),OP_EQ,1);
tor_addr = smartlist_get(results, 0); tor_addr = smartlist_get(results, 0);
addr_len = addr_len =
tor_addr_to_sockaddr(tor_addr,0,(struct sockaddr *)sockaddr_to_check, tor_addr_to_sockaddr(tor_addr,0,(struct sockaddr *)sockaddr_to_check,
sizeof(struct sockaddr_in)); sizeof(struct sockaddr_in));
tt_int_op(addr_len,==,sizeof(struct sockaddr_in)); tt_int_op(addr_len,OP_EQ,sizeof(struct sockaddr_in));
tt_assert(sockaddr_in_are_equal(sockaddr,sockaddr_to_check)); tt_assert(sockaddr_in_are_equal(sockaddr,sockaddr_to_check));
ifr = tor_realloc(ifr,2*sizeof(struct ifreq)); ifr = tor_realloc(ifr,2*sizeof(struct ifreq));
@ -479,14 +479,14 @@ test_address_ifreq_to_smartlist(void *arg)
smartlist_free(results); smartlist_free(results);
results = ifreq_to_smartlist(ifc->ifc_buf,ifc->ifc_len); results = ifreq_to_smartlist(ifc->ifc_buf,ifc->ifc_len);
tt_int_op(smartlist_len(results),==,2); tt_int_op(smartlist_len(results),OP_EQ,2);
tor_addr = smartlist_get(results, 0); tor_addr = smartlist_get(results, 0);
addr_len = addr_len =
tor_addr_to_sockaddr(tor_addr,0,(struct sockaddr *)sockaddr_to_check, tor_addr_to_sockaddr(tor_addr,0,(struct sockaddr *)sockaddr_to_check,
sizeof(struct sockaddr_in)); sizeof(struct sockaddr_in));
tt_int_op(addr_len,==,sizeof(struct sockaddr_in)); tt_int_op(addr_len,OP_EQ,sizeof(struct sockaddr_in));
tt_assert(sockaddr_in_are_equal(sockaddr,sockaddr_to_check)); tt_assert(sockaddr_in_are_equal(sockaddr,sockaddr_to_check));
tor_addr = smartlist_get(results, 1); tor_addr = smartlist_get(results, 1);
@ -494,7 +494,7 @@ test_address_ifreq_to_smartlist(void *arg)
tor_addr_to_sockaddr(tor_addr,0,(struct sockaddr *)sockaddr_to_check, tor_addr_to_sockaddr(tor_addr,0,(struct sockaddr *)sockaddr_to_check,
sizeof(struct sockaddr_in)); sizeof(struct sockaddr_in));
tt_int_op(addr_len,==,sizeof(struct sockaddr_in)); tt_int_op(addr_len,OP_EQ,sizeof(struct sockaddr_in));
tt_assert(sockaddr_in_are_equal(sockaddr_eth1,sockaddr_to_check)); tt_assert(sockaddr_in_are_equal(sockaddr_eth1,sockaddr_to_check));
done: done:
@ -633,7 +633,7 @@ test_address_udp_socket_trick_whitebox(void *arg)
get_interface_address6_via_udp_socket_hack(LOG_DEBUG, get_interface_address6_via_udp_socket_hack(LOG_DEBUG,
AF_INET, addr_from_hack); AF_INET, addr_from_hack);
tt_int_op(hack_retval,==,0); tt_int_op(hack_retval,OP_EQ,0);
tt_assert(tor_addr_eq_ipv4h(addr_from_hack, 0x1720f676)); tt_assert(tor_addr_eq_ipv4h(addr_from_hack, 0x1720f676));
/* Now, lets do an IPv6 case. */ /* Now, lets do an IPv6 case. */
@ -648,7 +648,7 @@ test_address_udp_socket_trick_whitebox(void *arg)
get_interface_address6_via_udp_socket_hack(LOG_DEBUG, get_interface_address6_via_udp_socket_hack(LOG_DEBUG,
AF_INET6, addr_from_hack); AF_INET6, addr_from_hack);
tt_int_op(hack_retval,==,0); tt_int_op(hack_retval,OP_EQ,0);
tor_addr_to_sockaddr(addr_from_hack,0,(struct sockaddr *)ipv6_to_check, tor_addr_to_sockaddr(addr_from_hack,0,(struct sockaddr *)ipv6_to_check,
sizeof(struct sockaddr_in6)); sizeof(struct sockaddr_in6));
@ -693,7 +693,7 @@ test_address_udp_socket_trick_blackbox(void *arg)
AF_INET, AF_INET,
&addr4_to_check); &addr4_to_check);
tt_int_op(retval,==,retval_reference); tt_int_op(retval,OP_EQ,retval_reference);
tt_assert( (retval == -1 && retval_reference == -1) || tt_assert( (retval == -1 && retval_reference == -1) ||
(tor_addr_compare(&addr4,&addr4_to_check,CMP_EXACT) == 0) ); (tor_addr_compare(&addr4,&addr4_to_check,CMP_EXACT) == 0) );
@ -702,7 +702,7 @@ test_address_udp_socket_trick_blackbox(void *arg)
AF_INET6, AF_INET6,
&addr6_to_check); &addr6_to_check);
tt_int_op(retval,==,retval_reference); tt_int_op(retval,OP_EQ,retval_reference);
tt_assert( (retval == -1 && retval_reference == -1) || tt_assert( (retval == -1 && retval_reference == -1) ||
(tor_addr_compare(&addr6,&addr6_to_check,CMP_EXACT) == 0) ); (tor_addr_compare(&addr6,&addr6_to_check,CMP_EXACT) == 0) );
@ -749,7 +749,7 @@ test_address_get_if_addrs_list_internal(void *arg)
/* When the network is down, a system might not have any non-local /* When the network is down, a system might not have any non-local
* non-multicast addresseses, not even internal ones. * non-multicast addresseses, not even internal ones.
* Unit tests shouldn't fail because of this. */ * Unit tests shouldn't fail because of this. */
tt_int_op(smartlist_len(results),>=,0); tt_int_op(smartlist_len(results),OP_GE,0);
tt_assert(!smartlist_contains_localhost_tor_addr(results)); tt_assert(!smartlist_contains_localhost_tor_addr(results));
tt_assert(!smartlist_contains_multicast_tor_addr(results)); tt_assert(!smartlist_contains_multicast_tor_addr(results));
@ -778,7 +778,7 @@ test_address_get_if_addrs_list_no_internal(void *arg)
tt_assert(results != NULL); tt_assert(results != NULL);
/* Work even on systems with only internal IPv4 addresses */ /* Work even on systems with only internal IPv4 addresses */
tt_int_op(smartlist_len(results),>=,0); tt_int_op(smartlist_len(results),OP_GE,0);
tt_assert(!smartlist_contains_localhost_tor_addr(results)); tt_assert(!smartlist_contains_localhost_tor_addr(results));
tt_assert(!smartlist_contains_multicast_tor_addr(results)); tt_assert(!smartlist_contains_multicast_tor_addr(results));
@ -820,7 +820,7 @@ test_address_get_if_addrs6_list_internal(void *arg)
tt_assert(results != NULL); tt_assert(results != NULL);
/* Work even on systems without IPv6 interfaces */ /* Work even on systems without IPv6 interfaces */
tt_int_op(smartlist_len(results),>=,0); tt_int_op(smartlist_len(results),OP_GE,0);
tt_assert(!smartlist_contains_localhost_tor_addr(results)); tt_assert(!smartlist_contains_localhost_tor_addr(results));
tt_assert(!smartlist_contains_multicast_tor_addr(results)); tt_assert(!smartlist_contains_multicast_tor_addr(results));
@ -863,7 +863,7 @@ test_address_get_if_addrs6_list_no_internal(void *arg)
tt_assert(results != NULL); tt_assert(results != NULL);
/* Work even on systems without IPv6 interfaces */ /* Work even on systems without IPv6 interfaces */
tt_int_op(smartlist_len(results),>=,0); tt_int_op(smartlist_len(results),OP_GE,0);
tt_assert(!smartlist_contains_localhost_tor_addr(results)); tt_assert(!smartlist_contains_localhost_tor_addr(results));
tt_assert(!smartlist_contains_multicast_tor_addr(results)); tt_assert(!smartlist_contains_multicast_tor_addr(results));
@ -928,11 +928,11 @@ test_address_get_if_addrs_internal_fail(void *arg)
results1 = get_interface_address6_list(LOG_ERR, AF_INET6, 1); results1 = get_interface_address6_list(LOG_ERR, AF_INET6, 1);
tt_assert(results1 != NULL); tt_assert(results1 != NULL);
tt_int_op(smartlist_len(results1),==,0); tt_int_op(smartlist_len(results1),OP_EQ,0);
results2 = get_interface_address_list(LOG_ERR, 1); results2 = get_interface_address_list(LOG_ERR, 1);
tt_assert(results2 != NULL); tt_assert(results2 != NULL);
tt_int_op(smartlist_len(results2),==,0); tt_int_op(smartlist_len(results2),OP_EQ,0);
rv = get_interface_address6(LOG_ERR, AF_INET6, &ipv6_addr); rv = get_interface_address6(LOG_ERR, AF_INET6, &ipv6_addr);
tt_assert(rv == -1); tt_assert(rv == -1);
@ -962,11 +962,11 @@ test_address_get_if_addrs_no_internal_fail(void *arg)
results1 = get_interface_address6_list(LOG_ERR, AF_INET6, 0); results1 = get_interface_address6_list(LOG_ERR, AF_INET6, 0);
tt_assert(results1 != NULL); tt_assert(results1 != NULL);
tt_int_op(smartlist_len(results1),==,0); tt_int_op(smartlist_len(results1),OP_EQ,0);
results2 = get_interface_address_list(LOG_ERR, 0); results2 = get_interface_address_list(LOG_ERR, 0);
tt_assert(results2 != NULL); tt_assert(results2 != NULL);
tt_int_op(smartlist_len(results2),==,0); tt_int_op(smartlist_len(results2),OP_EQ,0);
done: done:
UNMOCK(get_interface_addresses_raw); UNMOCK(get_interface_addresses_raw);

8
src/test/test_buffers.c
View File

@ -762,11 +762,11 @@ test_buffers_tls_read_mocked(void *arg)
buf = buf_new(); buf = buf_new();
next_reply_val[0] = 1024; next_reply_val[0] = 1024;
tt_int_op(128, ==, read_to_buf_tls(NULL, 128, buf)); tt_int_op(128, OP_EQ, read_to_buf_tls(NULL, 128, buf));
next_reply_val[0] = 5000; next_reply_val[0] = 5000;
next_reply_val[1] = 5000; next_reply_val[1] = 5000;
tt_int_op(6000, ==, read_to_buf_tls(NULL, 6000, buf)); tt_int_op(6000, OP_EQ, read_to_buf_tls(NULL, 6000, buf));
done: done:
UNMOCK(tor_tls_read); UNMOCK(tor_tls_read);
@ -831,8 +831,8 @@ test_buffers_find_contentlen(void *arg)
r = buf_http_find_content_length(tmp, headerlen, &sz); r = buf_http_find_content_length(tmp, headerlen, &sz);
tor_free(tmp); tor_free(tmp);
log_debug(LD_DIR, "%d: %s", i, escaped(results[i].headers)); log_debug(LD_DIR, "%d: %s", i, escaped(results[i].headers));
tt_int_op(r, ==, results[i].r); tt_int_op(r, OP_EQ, results[i].r);
tt_int_op(sz, ==, results[i].contentlen); tt_int_op(sz, OP_EQ, results[i].contentlen);
} }
done: done:
; ;

260
src/test/test_channel.c
View File

@ -268,7 +268,7 @@ static const char *
chan_test_get_remote_descr(channel_t *ch, int flags) chan_test_get_remote_descr(channel_t *ch, int flags)
{ {
tt_assert(ch); tt_assert(ch);
tt_int_op(flags & ~(GRD_FLAG_ORIGINAL | GRD_FLAG_ADDR_ONLY), ==, 0); tt_int_op(flags & ~(GRD_FLAG_ORIGINAL | GRD_FLAG_ADDR_ONLY), OP_EQ, 0);
done: done:
return "Fake channel for unit tests; no real endpoint"; return "Fake channel for unit tests; no real endpoint";
@ -552,24 +552,24 @@ test_channel_dumpstats(void *arg)
channel_dumpstats(LOG_DEBUG); channel_dumpstats(LOG_DEBUG);
/* Assert that we hit the mock */ /* Assert that we hit the mock */
tt_int_op(dump_statistics_mock_matches, ==, 1); tt_int_op(dump_statistics_mock_matches, OP_EQ, 1);
/* Close the channel */ /* Close the channel */
channel_mark_for_close(ch); channel_mark_for_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSING);
chan_test_finish_close(ch); chan_test_finish_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSED);
/* Try again and hit the finished channel */ /* Try again and hit the finished channel */
channel_dumpstats(LOG_DEBUG); channel_dumpstats(LOG_DEBUG);
tt_int_op(dump_statistics_mock_matches, ==, 2); tt_int_op(dump_statistics_mock_matches, OP_EQ, 2);
channel_run_cleanup(); channel_run_cleanup();
ch = NULL; ch = NULL;
/* Now we should hit nothing */ /* Now we should hit nothing */
channel_dumpstats(LOG_DEBUG); channel_dumpstats(LOG_DEBUG);
tt_int_op(dump_statistics_mock_matches, ==, 2); tt_int_op(dump_statistics_mock_matches, OP_EQ, 2);
/* Unmock */ /* Unmock */
UNMOCK(channel_dump_statistics); UNMOCK(channel_dump_statistics);
@ -594,7 +594,7 @@ test_channel_dumpstats(void *arg)
old_count = test_cells_written; old_count = test_cells_written;
channel_write_cell(ch, cell); channel_write_cell(ch, cell);
cell = NULL; cell = NULL;
tt_int_op(test_cells_written, ==, old_count + 1); tt_int_op(test_cells_written, OP_EQ, old_count + 1);
tt_assert(ch->n_bytes_xmitted > 0); tt_assert(ch->n_bytes_xmitted > 0);
tt_assert(ch->n_cells_xmitted > 0); tt_assert(ch->n_cells_xmitted > 0);
@ -602,14 +602,14 @@ test_channel_dumpstats(void *arg)
channel_set_cell_handlers(ch, channel_set_cell_handlers(ch,
chan_test_cell_handler, chan_test_cell_handler,
chan_test_var_cell_handler); chan_test_var_cell_handler);
tt_ptr_op(channel_get_cell_handler(ch), ==, chan_test_cell_handler); tt_ptr_op(channel_get_cell_handler(ch), OP_EQ, chan_test_cell_handler);
tt_ptr_op(channel_get_var_cell_handler(ch), ==, chan_test_var_cell_handler); tt_ptr_op(channel_get_var_cell_handler(ch), OP_EQ, chan_test_var_cell_handler);
cell = tor_malloc_zero(sizeof(cell_t)); cell = tor_malloc_zero(sizeof(cell_t));
make_fake_cell(cell); make_fake_cell(cell);
old_count = test_chan_fixed_cells_recved; old_count = test_chan_fixed_cells_recved;
channel_queue_cell(ch, cell); channel_queue_cell(ch, cell);
tor_free(cell); tor_free(cell);
tt_int_op(test_chan_fixed_cells_recved, ==, old_count + 1); tt_int_op(test_chan_fixed_cells_recved, OP_EQ, old_count + 1);
tt_assert(ch->n_bytes_recved > 0); tt_assert(ch->n_bytes_recved > 0);
tt_assert(ch->n_cells_recved > 0); tt_assert(ch->n_cells_recved > 0);
@ -619,13 +619,13 @@ test_channel_dumpstats(void *arg)
ch->is_canonical = chan_test_is_canonical; ch->is_canonical = chan_test_is_canonical;
old_count = test_dumpstats_calls; old_count = test_dumpstats_calls;
channel_dump_statistics(ch, LOG_DEBUG); channel_dump_statistics(ch, LOG_DEBUG);
tt_int_op(test_dumpstats_calls, ==, old_count + 1); tt_int_op(test_dumpstats_calls, OP_EQ, old_count + 1);
/* Close the channel */ /* Close the channel */
channel_mark_for_close(ch); channel_mark_for_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSING);
chan_test_finish_close(ch); chan_test_finish_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSED);
channel_run_cleanup(); channel_run_cleanup();
ch = NULL; ch = NULL;
@ -664,21 +664,21 @@ test_channel_flush(void *arg)
make_fake_cell(cell); make_fake_cell(cell);
channel_write_cell(ch, cell); channel_write_cell(ch, cell);
/* It should be queued, so assert that we didn't write it */ /* It should be queued, so assert that we didn't write it */
tt_int_op(test_cells_written, ==, init_count); tt_int_op(test_cells_written, OP_EQ, init_count);
/* Queue a var cell */ /* Queue a var cell */
v_cell = tor_malloc_zero(sizeof(var_cell_t) + CELL_PAYLOAD_SIZE); v_cell = tor_malloc_zero(sizeof(var_cell_t) + CELL_PAYLOAD_SIZE);
make_fake_var_cell(v_cell); make_fake_var_cell(v_cell);
channel_write_var_cell(ch, v_cell); channel_write_var_cell(ch, v_cell);
/* It should be queued, so assert that we didn't write it */ /* It should be queued, so assert that we didn't write it */
tt_int_op(test_cells_written, ==, init_count); tt_int_op(test_cells_written, OP_EQ, init_count);
/* Try a packed cell now */ /* Try a packed cell now */
p_cell = packed_cell_new(); p_cell = packed_cell_new();
tt_assert(p_cell); tt_assert(p_cell);
channel_write_packed_cell(ch, p_cell); channel_write_packed_cell(ch, p_cell);
/* It should be queued, so assert that we didn't write it */ /* It should be queued, so assert that we didn't write it */
tt_int_op(test_cells_written, ==, init_count); tt_int_op(test_cells_written, OP_EQ, init_count);
/* Now allow writes through again */ /* Now allow writes through again */
test_chan_accept_cells = 1; test_chan_accept_cells = 1;
@ -687,7 +687,7 @@ test_channel_flush(void *arg)
channel_flush_cells(ch); channel_flush_cells(ch);
/* All three should have gone through */ /* All three should have gone through */
tt_int_op(test_cells_written, ==, init_count + 3); tt_int_op(test_cells_written, OP_EQ, init_count + 3);
done: done:
tor_free(ch); tor_free(ch);
@ -728,9 +728,9 @@ test_channel_flushmux(void *arg)
result = channel_flush_some_cells(ch, 1); result = channel_flush_some_cells(ch, 1);
tt_int_op(result, ==, 1); tt_int_op(result, OP_EQ, 1);
tt_int_op(test_cells_written, ==, old_count + 1); tt_int_op(test_cells_written, OP_EQ, old_count + 1);
tt_int_op(test_cmux_cells, ==, 0); tt_int_op(test_cmux_cells, OP_EQ, 0);
/* Now try it without accepting to force them into the queue */ /* Now try it without accepting to force them into the queue */
test_chan_accept_cells = 0; test_chan_accept_cells = 0;
@ -740,19 +740,19 @@ test_channel_flushmux(void *arg)
result = channel_flush_some_cells(ch, 1); result = channel_flush_some_cells(ch, 1);
/* We should not have actually flushed any */ /* We should not have actually flushed any */
tt_int_op(result, ==, 0); tt_int_op(result, OP_EQ, 0);
tt_int_op(test_cells_written, ==, old_count + 1); tt_int_op(test_cells_written, OP_EQ, old_count + 1);
/* But we should have gotten to the fake cellgen loop */ /* But we should have gotten to the fake cellgen loop */
tt_int_op(test_cmux_cells, ==, 0); tt_int_op(test_cmux_cells, OP_EQ, 0);
/* ...and we should have a queued cell */ /* ...and we should have a queued cell */
q_len_after = chan_cell_queue_len(&(ch->outgoing_queue)); q_len_after = chan_cell_queue_len(&(ch->outgoing_queue));
tt_int_op(q_len_after, ==, q_len_before + 1); tt_int_op(q_len_after, OP_EQ, q_len_before + 1);
/* Now accept cells again and drain the queue */ /* Now accept cells again and drain the queue */
test_chan_accept_cells = 1; test_chan_accept_cells = 1;
channel_flush_cells(ch); channel_flush_cells(ch);
tt_int_op(test_cells_written, ==, old_count + 2); tt_int_op(test_cells_written, OP_EQ, old_count + 2);
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 0); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 0);
test_target_cmux = NULL; test_target_cmux = NULL;
test_cmux_cells = 0; test_cmux_cells = 0;
@ -803,8 +803,8 @@ test_channel_incoming(void *arg)
chan_test_cell_handler, chan_test_cell_handler,
chan_test_var_cell_handler); chan_test_var_cell_handler);
/* Test cell handler getters */ /* Test cell handler getters */
tt_ptr_op(channel_get_cell_handler(ch), ==, chan_test_cell_handler); tt_ptr_op(channel_get_cell_handler(ch), OP_EQ, chan_test_cell_handler);
tt_ptr_op(channel_get_var_cell_handler(ch), ==, chan_test_var_cell_handler); tt_ptr_op(channel_get_var_cell_handler(ch), OP_EQ, chan_test_var_cell_handler);
/* Try to register it */ /* Try to register it */
channel_register(ch); channel_register(ch);
@ -812,7 +812,7 @@ test_channel_incoming(void *arg)
/* Open it */ /* Open it */
channel_change_state_open(ch); channel_change_state_open(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_OPEN); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_OPEN);
/* Receive a fixed cell */ /* Receive a fixed cell */
cell = tor_malloc_zero(sizeof(cell_t)); cell = tor_malloc_zero(sizeof(cell_t));
@ -820,7 +820,7 @@ test_channel_incoming(void *arg)
old_count = test_chan_fixed_cells_recved; old_count = test_chan_fixed_cells_recved;
channel_queue_cell(ch, cell); channel_queue_cell(ch, cell);
tor_free(cell); tor_free(cell);
tt_int_op(test_chan_fixed_cells_recved, ==, old_count + 1); tt_int_op(test_chan_fixed_cells_recved, OP_EQ, old_count + 1);
/* Receive a variable-size cell */ /* Receive a variable-size cell */
var_cell = tor_malloc_zero(sizeof(var_cell_t) + CELL_PAYLOAD_SIZE); var_cell = tor_malloc_zero(sizeof(var_cell_t) + CELL_PAYLOAD_SIZE);
@ -828,13 +828,13 @@ test_channel_incoming(void *arg)
old_count = test_chan_var_cells_recved; old_count = test_chan_var_cells_recved;
channel_queue_var_cell(ch, var_cell); channel_queue_var_cell(ch, var_cell);
tor_free(cell); tor_free(cell);
tt_int_op(test_chan_var_cells_recved, ==, old_count + 1); tt_int_op(test_chan_var_cells_recved, OP_EQ, old_count + 1);
/* Close it */ /* Close it */
channel_mark_for_close(ch); channel_mark_for_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSING);
chan_test_finish_close(ch); chan_test_finish_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSED);
channel_run_cleanup(); channel_run_cleanup();
ch = NULL; ch = NULL;
@ -896,13 +896,13 @@ test_channel_lifecycle(void *arg)
make_fake_cell(cell); make_fake_cell(cell);
old_count = test_cells_written; old_count = test_cells_written;
channel_write_cell(ch1, cell); channel_write_cell(ch1, cell);
tt_int_op(old_count, ==, test_cells_written); tt_int_op(old_count, OP_EQ, test_cells_written);
/* Move it to OPEN and flush */ /* Move it to OPEN and flush */
channel_change_state_open(ch1); channel_change_state_open(ch1);
/* Queue should drain */ /* Queue should drain */
tt_int_op(old_count + 1, ==, test_cells_written); tt_int_op(old_count + 1, OP_EQ, test_cells_written);
/* Get another one */ /* Get another one */
ch2 = new_fake_channel(); ch2 = new_fake_channel();
@ -915,41 +915,41 @@ test_channel_lifecycle(void *arg)
tt_assert(ch2->registered); tt_assert(ch2->registered);
/* Check counters */ /* Check counters */
tt_int_op(test_doesnt_want_writes_count, ==, init_doesnt_want_writes_count); tt_int_op(test_doesnt_want_writes_count, OP_EQ, init_doesnt_want_writes_count);
tt_int_op(test_releases_count, ==, init_releases_count); tt_int_op(test_releases_count, OP_EQ, init_releases_count);
/* Move ch1 to MAINT */ /* Move ch1 to MAINT */
channel_change_state(ch1, CHANNEL_STATE_MAINT); channel_change_state(ch1, CHANNEL_STATE_MAINT);
tt_int_op(test_doesnt_want_writes_count, ==, tt_int_op(test_doesnt_want_writes_count, OP_EQ,
init_doesnt_want_writes_count + 1); init_doesnt_want_writes_count + 1);
tt_int_op(test_releases_count, ==, init_releases_count); tt_int_op(test_releases_count, OP_EQ, init_releases_count);
/* Move ch2 to OPEN */ /* Move ch2 to OPEN */
channel_change_state_open(ch2); channel_change_state_open(ch2);
tt_int_op(test_doesnt_want_writes_count, ==, tt_int_op(test_doesnt_want_writes_count, OP_EQ,
init_doesnt_want_writes_count + 1); init_doesnt_want_writes_count + 1);
tt_int_op(test_releases_count, ==, init_releases_count); tt_int_op(test_releases_count, OP_EQ, init_releases_count);
/* Move ch1 back to OPEN */ /* Move ch1 back to OPEN */
channel_change_state_open(ch1); channel_change_state_open(ch1);
tt_int_op(test_doesnt_want_writes_count, ==, tt_int_op(test_doesnt_want_writes_count, OP_EQ,
init_doesnt_want_writes_count + 1); init_doesnt_want_writes_count + 1);
tt_int_op(test_releases_count, ==, init_releases_count); tt_int_op(test_releases_count, OP_EQ, init_releases_count);
/* Mark ch2 for close */ /* Mark ch2 for close */
channel_mark_for_close(ch2); channel_mark_for_close(ch2);
tt_int_op(ch2->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_CLOSING);
tt_int_op(test_doesnt_want_writes_count, ==, tt_int_op(test_doesnt_want_writes_count, OP_EQ,
init_doesnt_want_writes_count + 1); init_doesnt_want_writes_count + 1);
tt_int_op(test_releases_count, ==, init_releases_count + 1); tt_int_op(test_releases_count, OP_EQ, init_releases_count + 1);
/* Shut down channels */ /* Shut down channels */
channel_free_all(); channel_free_all();
ch1 = ch2 = NULL; ch1 = ch2 = NULL;
tt_int_op(test_doesnt_want_writes_count, ==, tt_int_op(test_doesnt_want_writes_count, OP_EQ,
init_doesnt_want_writes_count + 1); init_doesnt_want_writes_count + 1);
/* channel_free() calls scheduler_release_channel() */ /* channel_free() calls scheduler_release_channel() */
tt_int_op(test_releases_count, ==, init_releases_count + 4); tt_int_op(test_releases_count, OP_EQ, init_releases_count + 4);
done: done:
free_fake_channel(ch1); free_fake_channel(ch1);
@ -1001,11 +1001,11 @@ test_channel_lifecycle_2(void *arg)
/* Try to close it */ /* Try to close it */
channel_mark_for_close(ch); channel_mark_for_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSING);
/* Finish closing it */ /* Finish closing it */
chan_test_finish_close(ch); chan_test_finish_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSED);
channel_run_cleanup(); channel_run_cleanup();
ch = NULL; ch = NULL;
@ -1022,9 +1022,9 @@ test_channel_lifecycle_2(void *arg)
/* Error exit from lower layer */ /* Error exit from lower layer */
chan_test_error(ch); chan_test_error(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSING);
chan_test_finish_close(ch); chan_test_finish_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_ERROR); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_ERROR);
channel_run_cleanup(); channel_run_cleanup();
ch = NULL; ch = NULL;
@ -1038,19 +1038,19 @@ test_channel_lifecycle_2(void *arg)
/* Finish opening it */ /* Finish opening it */
channel_change_state_open(ch); channel_change_state_open(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_OPEN); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_OPEN);
/* Go to maintenance state */ /* Go to maintenance state */
channel_change_state(ch, CHANNEL_STATE_MAINT); channel_change_state(ch, CHANNEL_STATE_MAINT);
tt_int_op(ch->state, ==, CHANNEL_STATE_MAINT); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_MAINT);
/* Lower layer close */ /* Lower layer close */
channel_mark_for_close(ch); channel_mark_for_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSING);
/* Finish */ /* Finish */
chan_test_finish_close(ch); chan_test_finish_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSED);
channel_run_cleanup(); channel_run_cleanup();
ch = NULL; ch = NULL;
@ -1067,19 +1067,19 @@ test_channel_lifecycle_2(void *arg)
/* Finish opening it */ /* Finish opening it */
channel_change_state_open(ch); channel_change_state_open(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_OPEN); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_OPEN);
/* Go to maintenance state */ /* Go to maintenance state */
channel_change_state(ch, CHANNEL_STATE_MAINT); channel_change_state(ch, CHANNEL_STATE_MAINT);
tt_int_op(ch->state, ==, CHANNEL_STATE_MAINT); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_MAINT);
/* Lower layer close */ /* Lower layer close */
channel_close_from_lower_layer(ch); channel_close_from_lower_layer(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSING);
/* Finish */ /* Finish */
chan_test_finish_close(ch); chan_test_finish_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSED);
channel_run_cleanup(); channel_run_cleanup();
ch = NULL; ch = NULL;
@ -1093,19 +1093,19 @@ test_channel_lifecycle_2(void *arg)
/* Finish opening it */ /* Finish opening it */
channel_change_state_open(ch); channel_change_state_open(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_OPEN); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_OPEN);
/* Go to maintenance state */ /* Go to maintenance state */
channel_change_state(ch, CHANNEL_STATE_MAINT); channel_change_state(ch, CHANNEL_STATE_MAINT);
tt_int_op(ch->state, ==, CHANNEL_STATE_MAINT); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_MAINT);
/* Lower layer close */ /* Lower layer close */
chan_test_error(ch); chan_test_error(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSING);
/* Finish */ /* Finish */
chan_test_finish_close(ch); chan_test_finish_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_ERROR); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_ERROR);
channel_run_cleanup(); channel_run_cleanup();
ch = NULL; ch = NULL;
@ -1142,11 +1142,11 @@ test_channel_multi(void *arg)
/* Initial queue size update */ /* Initial queue size update */
channel_update_xmit_queue_size(ch1); channel_update_xmit_queue_size(ch1);
tt_u64_op(ch1->bytes_queued_for_xmit, ==, 0); tt_u64_op(ch1->bytes_queued_for_xmit, OP_EQ, 0);
channel_update_xmit_queue_size(ch2); channel_update_xmit_queue_size(ch2);
tt_u64_op(ch2->bytes_queued_for_xmit, ==, 0); tt_u64_op(ch2->bytes_queued_for_xmit, OP_EQ, 0);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 0); tt_u64_op(global_queue_estimate, OP_EQ, 0);
/* Queue some cells, check queue estimates */ /* Queue some cells, check queue estimates */
cell = tor_malloc_zero(sizeof(cell_t)); cell = tor_malloc_zero(sizeof(cell_t));
@ -1159,10 +1159,10 @@ test_channel_multi(void *arg)
channel_update_xmit_queue_size(ch1); channel_update_xmit_queue_size(ch1);
channel_update_xmit_queue_size(ch2); channel_update_xmit_queue_size(ch2);
tt_u64_op(ch1->bytes_queued_for_xmit, ==, 0); tt_u64_op(ch1->bytes_queued_for_xmit, OP_EQ, 0);
tt_u64_op(ch2->bytes_queued_for_xmit, ==, 0); tt_u64_op(ch2->bytes_queued_for_xmit, OP_EQ, 0);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 0); tt_u64_op(global_queue_estimate, OP_EQ, 0);
/* Stop accepting cells at lower layer */ /* Stop accepting cells at lower layer */
test_chan_accept_cells = 0; test_chan_accept_cells = 0;
@ -1173,18 +1173,18 @@ test_channel_multi(void *arg)
channel_write_cell(ch1, cell); channel_write_cell(ch1, cell);
channel_update_xmit_queue_size(ch1); channel_update_xmit_queue_size(ch1);
tt_u64_op(ch1->bytes_queued_for_xmit, ==, 512); tt_u64_op(ch1->bytes_queued_for_xmit, OP_EQ, 512);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 512); tt_u64_op(global_queue_estimate, OP_EQ, 512);
cell = tor_malloc_zero(sizeof(cell_t)); cell = tor_malloc_zero(sizeof(cell_t));
make_fake_cell(cell); make_fake_cell(cell);
channel_write_cell(ch2, cell); channel_write_cell(ch2, cell);
channel_update_xmit_queue_size(ch2); channel_update_xmit_queue_size(ch2);
tt_u64_op(ch2->bytes_queued_for_xmit, ==, 512); tt_u64_op(ch2->bytes_queued_for_xmit, OP_EQ, 512);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 1024); tt_u64_op(global_queue_estimate, OP_EQ, 1024);
/* Allow cells through again */ /* Allow cells through again */
test_chan_accept_cells = 1; test_chan_accept_cells = 1;
@ -1195,10 +1195,10 @@ test_channel_multi(void *arg)
/* Update and check queue sizes */ /* Update and check queue sizes */
channel_update_xmit_queue_size(ch1); channel_update_xmit_queue_size(ch1);
channel_update_xmit_queue_size(ch2); channel_update_xmit_queue_size(ch2);
tt_u64_op(ch1->bytes_queued_for_xmit, ==, 512); tt_u64_op(ch1->bytes_queued_for_xmit, OP_EQ, 512);
tt_u64_op(ch2->bytes_queued_for_xmit, ==, 0); tt_u64_op(ch2->bytes_queued_for_xmit, OP_EQ, 0);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 512); tt_u64_op(global_queue_estimate, OP_EQ, 512);
/* Flush chan 1 */ /* Flush chan 1 */
channel_flush_cells(ch1); channel_flush_cells(ch1);
@ -1206,10 +1206,10 @@ test_channel_multi(void *arg)
/* Update and check queue sizes */ /* Update and check queue sizes */
channel_update_xmit_queue_size(ch1); channel_update_xmit_queue_size(ch1);
channel_update_xmit_queue_size(ch2); channel_update_xmit_queue_size(ch2);
tt_u64_op(ch1->bytes_queued_for_xmit, ==, 0); tt_u64_op(ch1->bytes_queued_for_xmit, OP_EQ, 0);
tt_u64_op(ch2->bytes_queued_for_xmit, ==, 0); tt_u64_op(ch2->bytes_queued_for_xmit, OP_EQ, 0);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 0); tt_u64_op(global_queue_estimate, OP_EQ, 0);
/* Now block again */ /* Now block again */
test_chan_accept_cells = 0; test_chan_accept_cells = 0;
@ -1227,10 +1227,10 @@ test_channel_multi(void *arg)
/* Check the estimates */ /* Check the estimates */
channel_update_xmit_queue_size(ch1); channel_update_xmit_queue_size(ch1);
channel_update_xmit_queue_size(ch2); channel_update_xmit_queue_size(ch2);
tt_u64_op(ch1->bytes_queued_for_xmit, ==, 512); tt_u64_op(ch1->bytes_queued_for_xmit, OP_EQ, 512);
tt_u64_op(ch2->bytes_queued_for_xmit, ==, 512); tt_u64_op(ch2->bytes_queued_for_xmit, OP_EQ, 512);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 1024); tt_u64_op(global_queue_estimate, OP_EQ, 1024);
/* Now close channel 2; it should be subtracted from the global queue */ /* Now close channel 2; it should be subtracted from the global queue */
MOCK(scheduler_release_channel, scheduler_release_channel_mock); MOCK(scheduler_release_channel, scheduler_release_channel_mock);
@ -1238,7 +1238,7 @@ test_channel_multi(void *arg)
UNMOCK(scheduler_release_channel); UNMOCK(scheduler_release_channel);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 512); tt_u64_op(global_queue_estimate, OP_EQ, 512);
/* /*
* Since the fake channels aren't registered, channel_free_all() can't * Since the fake channels aren't registered, channel_free_all() can't
@ -1249,7 +1249,7 @@ test_channel_multi(void *arg)
UNMOCK(scheduler_release_channel); UNMOCK(scheduler_release_channel);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 0); tt_u64_op(global_queue_estimate, OP_EQ, 0);
/* Now free everything */ /* Now free everything */
MOCK(scheduler_release_channel, scheduler_release_channel_mock); MOCK(scheduler_release_channel, scheduler_release_channel_mock);
@ -1297,7 +1297,7 @@ test_channel_queue_impossible(void *arg)
old_count = test_cells_written; old_count = test_cells_written;
/* Assert that the queue is initially empty */ /* Assert that the queue is initially empty */
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 0); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 0);
/* Get a fresh cell and write it to the channel*/ /* Get a fresh cell and write it to the channel*/
cell = tor_malloc_zero(sizeof(cell_t)); cell = tor_malloc_zero(sizeof(cell_t));
@ -1306,11 +1306,11 @@ test_channel_queue_impossible(void *arg)
channel_write_cell(ch, cell); channel_write_cell(ch, cell);
/* Now it should be queued */ /* Now it should be queued */
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 1); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 1);
q = TOR_SIMPLEQ_FIRST(&(ch->outgoing_queue)); q = TOR_SIMPLEQ_FIRST(&(ch->outgoing_queue));
tt_assert(q); tt_assert(q);
if (q) { if (q) {
tt_int_op(q->type, ==, CELL_QUEUE_FIXED); tt_int_op(q->type, OP_EQ, CELL_QUEUE_FIXED);
tt_assert((uintptr_t)q->u.fixed.cell == cellintptr); tt_assert((uintptr_t)q->u.fixed.cell == cellintptr);
} }
/* Do perverse things to it */ /* Do perverse things to it */
@ -1324,7 +1324,7 @@ test_channel_queue_impossible(void *arg)
test_chan_accept_cells = 1; test_chan_accept_cells = 1;
channel_change_state_open(ch); channel_change_state_open(ch);
tt_assert(test_cells_written == old_count); tt_assert(test_cells_written == old_count);
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 0); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 0);
/* Same thing but for a var_cell */ /* Same thing but for a var_cell */
@ -1336,11 +1336,11 @@ test_channel_queue_impossible(void *arg)
channel_write_var_cell(ch, var_cell); channel_write_var_cell(ch, var_cell);
/* Check that it's queued */ /* Check that it's queued */
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 1); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 1);
q = TOR_SIMPLEQ_FIRST(&(ch->outgoing_queue)); q = TOR_SIMPLEQ_FIRST(&(ch->outgoing_queue));
tt_assert(q); tt_assert(q);
if (q) { if (q) {
tt_int_op(q->type, ==, CELL_QUEUE_VAR); tt_int_op(q->type, OP_EQ, CELL_QUEUE_VAR);
tt_assert((uintptr_t)q->u.var.var_cell == cellintptr); tt_assert((uintptr_t)q->u.var.var_cell == cellintptr);
} }
@ -1352,7 +1352,7 @@ test_channel_queue_impossible(void *arg)
test_chan_accept_cells = 1; test_chan_accept_cells = 1;
channel_change_state_open(ch); channel_change_state_open(ch);
tt_assert(test_cells_written == old_count); tt_assert(test_cells_written == old_count);
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 0); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 0);
/* Same thing with a packed_cell */ /* Same thing with a packed_cell */
@ -1364,11 +1364,11 @@ test_channel_queue_impossible(void *arg)
channel_write_packed_cell(ch, packed_cell); channel_write_packed_cell(ch, packed_cell);
/* Check that it's queued */ /* Check that it's queued */
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 1); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 1);
q = TOR_SIMPLEQ_FIRST(&(ch->outgoing_queue)); q = TOR_SIMPLEQ_FIRST(&(ch->outgoing_queue));
tt_assert(q); tt_assert(q);
if (q) { if (q) {
tt_int_op(q->type, ==, CELL_QUEUE_PACKED); tt_int_op(q->type, OP_EQ, CELL_QUEUE_PACKED);
tt_assert((uintptr_t)q->u.packed.packed_cell == cellintptr); tt_assert((uintptr_t)q->u.packed.packed_cell == cellintptr);
} }
@ -1380,7 +1380,7 @@ test_channel_queue_impossible(void *arg)
test_chan_accept_cells = 1; test_chan_accept_cells = 1;
channel_change_state_open(ch); channel_change_state_open(ch);
tt_assert(test_cells_written == old_count); tt_assert(test_cells_written == old_count);
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 0); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 0);
/* Unknown cell type case */ /* Unknown cell type case */
test_chan_accept_cells = 0; test_chan_accept_cells = 0;
@ -1391,11 +1391,11 @@ test_channel_queue_impossible(void *arg)
channel_write_cell(ch, cell); channel_write_cell(ch, cell);
/* Check that it's queued */ /* Check that it's queued */
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 1); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 1);
q = TOR_SIMPLEQ_FIRST(&(ch->outgoing_queue)); q = TOR_SIMPLEQ_FIRST(&(ch->outgoing_queue));
tt_assert(q); tt_assert(q);
if (q) { if (q) {
tt_int_op(q->type, ==, CELL_QUEUE_FIXED); tt_int_op(q->type, OP_EQ, CELL_QUEUE_FIXED);
tt_assert((uintptr_t)q->u.fixed.cell == cellintptr); tt_assert((uintptr_t)q->u.fixed.cell == cellintptr);
} }
/* Clobber it, including the queue entry type */ /* Clobber it, including the queue entry type */
@ -1408,9 +1408,9 @@ test_channel_queue_impossible(void *arg)
tor_capture_bugs_(1); tor_capture_bugs_(1);
channel_change_state_open(ch); channel_change_state_open(ch);
tt_assert(test_cells_written == old_count); tt_assert(test_cells_written == old_count);
tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), ==, 0); tt_int_op(chan_cell_queue_len(&(ch->outgoing_queue)), OP_EQ, 0);
tt_int_op(smartlist_len(tor_get_captured_bug_log_()), ==, 1); tt_int_op(smartlist_len(tor_get_captured_bug_log_()), OP_EQ, 1);
tor_end_capture_bugs_(); tor_end_capture_bugs_();
done: done:
@ -1455,8 +1455,8 @@ test_channel_queue_incoming(void *arg)
ch->cmux = circuitmux_alloc(); ch->cmux = circuitmux_alloc();
/* Test cell handler getters */ /* Test cell handler getters */
tt_ptr_op(channel_get_cell_handler(ch), ==, NULL); tt_ptr_op(channel_get_cell_handler(ch), OP_EQ, NULL);
tt_ptr_op(channel_get_var_cell_handler(ch), ==, NULL); tt_ptr_op(channel_get_var_cell_handler(ch), OP_EQ, NULL);
/* Try to register it */ /* Try to register it */
channel_register(ch); channel_register(ch);
@ -1464,7 +1464,7 @@ test_channel_queue_incoming(void *arg)
/* Open it */ /* Open it */
channel_change_state_open(ch); channel_change_state_open(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_OPEN); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_OPEN);
/* Assert that the incoming queue is empty */ /* Assert that the incoming queue is empty */
tt_assert(TOR_SIMPLEQ_EMPTY(&(ch->incoming_queue))); tt_assert(TOR_SIMPLEQ_EMPTY(&(ch->incoming_queue)));
@ -1475,7 +1475,7 @@ test_channel_queue_incoming(void *arg)
channel_queue_cell(ch, cell); channel_queue_cell(ch, cell);
/* Assert that the incoming queue has one entry */ /* Assert that the incoming queue has one entry */
tt_int_op(chan_cell_queue_len(&(ch->incoming_queue)), ==, 1); tt_int_op(chan_cell_queue_len(&(ch->incoming_queue)), OP_EQ, 1);
/* Queue an incoming var cell */ /* Queue an incoming var cell */
var_cell = tor_malloc_zero(sizeof(var_cell_t) + CELL_PAYLOAD_SIZE); var_cell = tor_malloc_zero(sizeof(var_cell_t) + CELL_PAYLOAD_SIZE);
@ -1483,7 +1483,7 @@ test_channel_queue_incoming(void *arg)
channel_queue_var_cell(ch, var_cell); channel_queue_var_cell(ch, var_cell);
/* Assert that the incoming queue has two entries */ /* Assert that the incoming queue has two entries */
tt_int_op(chan_cell_queue_len(&(ch->incoming_queue)), ==, 2); tt_int_op(chan_cell_queue_len(&(ch->incoming_queue)), OP_EQ, 2);
/* /*
* Install cell handlers; this will drain the queue, so save the old * Install cell handlers; this will drain the queue, so save the old
@ -1494,12 +1494,12 @@ test_channel_queue_incoming(void *arg)
channel_set_cell_handlers(ch, channel_set_cell_handlers(ch,
chan_test_cell_handler, chan_test_cell_handler,
chan_test_var_cell_handler); chan_test_var_cell_handler);
tt_ptr_op(channel_get_cell_handler(ch), ==, chan_test_cell_handler); tt_ptr_op(channel_get_cell_handler(ch), OP_EQ, chan_test_cell_handler);
tt_ptr_op(channel_get_var_cell_handler(ch), ==, chan_test_var_cell_handler); tt_ptr_op(channel_get_var_cell_handler(ch), OP_EQ, chan_test_var_cell_handler);
/* Assert cells were received */ /* Assert cells were received */
tt_int_op(test_chan_fixed_cells_recved, ==, old_fixed_count + 1); tt_int_op(test_chan_fixed_cells_recved, OP_EQ, old_fixed_count + 1);
tt_int_op(test_chan_var_cells_recved, ==, old_var_count + 1); tt_int_op(test_chan_var_cells_recved, OP_EQ, old_var_count + 1);
/* /*
* Assert that the pointers are different from the cells we allocated; * Assert that the pointers are different from the cells we allocated;
@ -1508,17 +1508,17 @@ test_channel_queue_incoming(void *arg)
* delivery. These pointers will have already been freed by the time * delivery. These pointers will have already been freed by the time
* we get here, so don't dereference them. * we get here, so don't dereference them.
*/ */
tt_ptr_op(test_chan_last_seen_fixed_cell_ptr, !=, cell); tt_ptr_op(test_chan_last_seen_fixed_cell_ptr, OP_NE, cell);
tt_ptr_op(test_chan_last_seen_var_cell_ptr, !=, var_cell); tt_ptr_op(test_chan_last_seen_var_cell_ptr, OP_NE, var_cell);
/* Assert queue is now empty */ /* Assert queue is now empty */
tt_assert(TOR_SIMPLEQ_EMPTY(&(ch->incoming_queue))); tt_assert(TOR_SIMPLEQ_EMPTY(&(ch->incoming_queue)));
/* Close it; this contains an assertion that the incoming queue is empty */ /* Close it; this contains an assertion that the incoming queue is empty */
channel_mark_for_close(ch); channel_mark_for_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSING);
chan_test_finish_close(ch); chan_test_finish_close(ch);
tt_int_op(ch->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch->state, OP_EQ, CHANNEL_STATE_CLOSED);
channel_run_cleanup(); channel_run_cleanup();
ch = NULL; ch = NULL;
@ -1548,14 +1548,14 @@ test_channel_queue_size(void *arg)
/* Initial queue size update */ /* Initial queue size update */
channel_update_xmit_queue_size(ch); channel_update_xmit_queue_size(ch);
tt_u64_op(ch->bytes_queued_for_xmit, ==, 0); tt_u64_op(ch->bytes_queued_for_xmit, OP_EQ, 0);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 0); tt_u64_op(global_queue_estimate, OP_EQ, 0);
/* Test the call-through to our fake lower layer */ /* Test the call-through to our fake lower layer */
n = channel_num_cells_writeable(ch); n = channel_num_cells_writeable(ch);
/* chan_test_num_cells_writeable() always returns 32 */ /* chan_test_num_cells_writeable() always returns 32 */
tt_int_op(n, ==, 32); tt_int_op(n, OP_EQ, 32);
/* /*
* Now we queue some cells and check that channel_num_cells_writeable() * Now we queue some cells and check that channel_num_cells_writeable()
@ -1574,32 +1574,32 @@ test_channel_queue_size(void *arg)
old_count = test_cells_written; old_count = test_cells_written;
channel_write_cell(ch, cell); channel_write_cell(ch, cell);
/* Assert that it got queued, not written through, correctly */ /* Assert that it got queued, not written through, correctly */
tt_int_op(test_cells_written, ==, old_count); tt_int_op(test_cells_written, OP_EQ, old_count);
/* Now check chan_test_num_cells_writeable() again */ /* Now check chan_test_num_cells_writeable() again */
n = channel_num_cells_writeable(ch); n = channel_num_cells_writeable(ch);
tt_int_op(n, ==, 0); /* Should return 0 since we're in CHANNEL_STATE_MAINT */ tt_int_op(n, OP_EQ, 0); /* Should return 0 since we're in CHANNEL_STATE_MAINT */
/* Update queue size estimates */ /* Update queue size estimates */
channel_update_xmit_queue_size(ch); channel_update_xmit_queue_size(ch);
/* One cell, times an overhead factor of 1.0 */ /* One cell, times an overhead factor of 1.0 */
tt_u64_op(ch->bytes_queued_for_xmit, ==, 512); tt_u64_op(ch->bytes_queued_for_xmit, OP_EQ, 512);
/* Try a different overhead factor */ /* Try a different overhead factor */
test_overhead_estimate = 0.5; test_overhead_estimate = 0.5;
/* This one should be ignored since it's below 1.0 */ /* This one should be ignored since it's below 1.0 */
channel_update_xmit_queue_size(ch); channel_update_xmit_queue_size(ch);
tt_u64_op(ch->bytes_queued_for_xmit, ==, 512); tt_u64_op(ch->bytes_queued_for_xmit, OP_EQ, 512);
/* Now try a larger one */ /* Now try a larger one */
test_overhead_estimate = 2.0; test_overhead_estimate = 2.0;
channel_update_xmit_queue_size(ch); channel_update_xmit_queue_size(ch);
tt_u64_op(ch->bytes_queued_for_xmit, ==, 1024); tt_u64_op(ch->bytes_queued_for_xmit, OP_EQ, 1024);
/* Go back to 1.0 */ /* Go back to 1.0 */
test_overhead_estimate = 1.0; test_overhead_estimate = 1.0;
channel_update_xmit_queue_size(ch); channel_update_xmit_queue_size(ch);
tt_u64_op(ch->bytes_queued_for_xmit, ==, 512); tt_u64_op(ch->bytes_queued_for_xmit, OP_EQ, 512);
/* Check the global estimate too */ /* Check the global estimate too */
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 512); tt_u64_op(global_queue_estimate, OP_EQ, 512);
/* Go to open */ /* Go to open */
old_count = test_cells_written; old_count = test_cells_written;
@ -1609,37 +1609,37 @@ test_channel_queue_size(void *arg)
* It should try to write, but we aren't accepting cells right now, so * It should try to write, but we aren't accepting cells right now, so
* it'll requeue * it'll requeue
*/ */
tt_int_op(test_cells_written, ==, old_count); tt_int_op(test_cells_written, OP_EQ, old_count);
/* Check the queue size again */ /* Check the queue size again */
channel_update_xmit_queue_size(ch); channel_update_xmit_queue_size(ch);
tt_u64_op(ch->bytes_queued_for_xmit, ==, 512); tt_u64_op(ch->bytes_queued_for_xmit, OP_EQ, 512);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 512); tt_u64_op(global_queue_estimate, OP_EQ, 512);
/* /*
* Now the cell is in the queue, and we're open, so we should get 31 * Now the cell is in the queue, and we're open, so we should get 31
* writeable cells. * writeable cells.
*/ */
n = channel_num_cells_writeable(ch); n = channel_num_cells_writeable(ch);
tt_int_op(n, ==, 31); tt_int_op(n, OP_EQ, 31);
/* Accept cells again */ /* Accept cells again */
test_chan_accept_cells = 1; test_chan_accept_cells = 1;
/* ...and re-process the queue */ /* ...and re-process the queue */
old_count = test_cells_written; old_count = test_cells_written;
channel_flush_cells(ch); channel_flush_cells(ch);
tt_int_op(test_cells_written, ==, old_count + 1); tt_int_op(test_cells_written, OP_EQ, old_count + 1);
/* Should have 32 writeable now */ /* Should have 32 writeable now */
n = channel_num_cells_writeable(ch); n = channel_num_cells_writeable(ch);
tt_int_op(n, ==, 32); tt_int_op(n, OP_EQ, 32);
/* Should have queue size estimate of zero */ /* Should have queue size estimate of zero */
channel_update_xmit_queue_size(ch); channel_update_xmit_queue_size(ch);
tt_u64_op(ch->bytes_queued_for_xmit, ==, 0); tt_u64_op(ch->bytes_queued_for_xmit, OP_EQ, 0);
global_queue_estimate = channel_get_global_queue_estimate(); global_queue_estimate = channel_get_global_queue_estimate();
tt_u64_op(global_queue_estimate, ==, 0); tt_u64_op(global_queue_estimate, OP_EQ, 0);
/* Okay, now we're done with this one */ /* Okay, now we're done with this one */
MOCK(scheduler_release_channel, scheduler_release_channel_mock); MOCK(scheduler_release_channel, scheduler_release_channel_mock);

6
src/test/test_channeltls.c
View File

@ -142,7 +142,7 @@ test_channeltls_num_bytes_queued(void *arg)
tlschan_buf_datalen_mock_size = 1024; tlschan_buf_datalen_mock_size = 1024;
MOCK(buf_datalen, tlschan_buf_datalen_mock); MOCK(buf_datalen, tlschan_buf_datalen_mock);
len = ch->num_bytes_queued(ch); len = ch->num_bytes_queued(ch);
tt_int_op(len, ==, tlschan_buf_datalen_mock_size); tt_int_op(len, OP_EQ, tlschan_buf_datalen_mock_size);
/* /*
* We also cover num_cells_writeable here; since wide_circ_ids = 0 on * We also cover num_cells_writeable here; since wide_circ_ids = 0 on
* the fake tlschans, cell_network_size returns 512, and so with * the fake tlschans, cell_network_size returns 512, and so with
@ -151,7 +151,7 @@ test_channeltls_num_bytes_queued(void *arg)
* - 2 cells. * - 2 cells.
*/ */
n = ch->num_cells_writeable(ch); n = ch->num_cells_writeable(ch);
tt_int_op(n, ==, CEIL_DIV(OR_CONN_HIGHWATER, 512) - 2); tt_int_op(n, OP_EQ, CEIL_DIV(OR_CONN_HIGHWATER, 512) - 2);
UNMOCK(buf_datalen); UNMOCK(buf_datalen);
tlschan_buf_datalen_mock_target = NULL; tlschan_buf_datalen_mock_target = NULL;
tlschan_buf_datalen_mock_size = 0; tlschan_buf_datalen_mock_size = 0;
@ -302,7 +302,7 @@ tlschan_fake_close_method(channel_t *chan)
channel_tls_t *tlschan = NULL; channel_tls_t *tlschan = NULL;
tt_assert(chan != NULL); tt_assert(chan != NULL);
tt_int_op(chan->magic, ==, TLS_CHAN_MAGIC); tt_int_op(chan->magic, OP_EQ, TLS_CHAN_MAGIC);
tlschan = BASE_CHAN_TO_TLS(chan); tlschan = BASE_CHAN_TO_TLS(chan);
tt_assert(tlschan != NULL); tt_assert(tlschan != NULL);

28
src/test/test_circuituse.c
View File

@ -22,7 +22,7 @@ test_circuit_is_available_for_use_ret_false_when_marked_for_close(void *arg)
circuit_t *circ = tor_malloc(sizeof(circuit_t)); circuit_t *circ = tor_malloc(sizeof(circuit_t));
circ->marked_for_close = 1; circ->marked_for_close = 1;
tt_int_op(0, ==, circuit_is_available_for_use(circ)); tt_int_op(0, OP_EQ, circuit_is_available_for_use(circ));
done: done:
tor_free(circ); tor_free(circ);
@ -36,7 +36,7 @@ test_circuit_is_available_for_use_ret_false_when_timestamp_dirty(void *arg)
circuit_t *circ = tor_malloc(sizeof(circuit_t)); circuit_t *circ = tor_malloc(sizeof(circuit_t));
circ->timestamp_dirty = 1; circ->timestamp_dirty = 1;
tt_int_op(0, ==, circuit_is_available_for_use(circ)); tt_int_op(0, OP_EQ, circuit_is_available_for_use(circ));
done: done:
tor_free(circ); tor_free(circ);
@ -50,7 +50,7 @@ test_circuit_is_available_for_use_ret_false_for_non_general_purpose(void *arg)
circuit_t *circ = tor_malloc(sizeof(circuit_t)); circuit_t *circ = tor_malloc(sizeof(circuit_t));
circ->purpose = CIRCUIT_PURPOSE_REND_POINT_WAITING; circ->purpose = CIRCUIT_PURPOSE_REND_POINT_WAITING;
tt_int_op(0, ==, circuit_is_available_for_use(circ)); tt_int_op(0, OP_EQ, circuit_is_available_for_use(circ));
done: done:
tor_free(circ); tor_free(circ);
@ -64,7 +64,7 @@ test_circuit_is_available_for_use_ret_false_for_non_general_origin(void *arg)
circuit_t *circ = tor_malloc(sizeof(circuit_t)); circuit_t *circ = tor_malloc(sizeof(circuit_t));
circ->purpose = CIRCUIT_PURPOSE_C_INTRODUCE_ACK_WAIT; circ->purpose = CIRCUIT_PURPOSE_C_INTRODUCE_ACK_WAIT;
tt_int_op(0, ==, circuit_is_available_for_use(circ)); tt_int_op(0, OP_EQ, circuit_is_available_for_use(circ));
done: done:
tor_free(circ); tor_free(circ);
@ -78,7 +78,7 @@ test_circuit_is_available_for_use_ret_false_for_non_origin_purpose(void *arg)
circuit_t *circ = tor_malloc(sizeof(circuit_t)); circuit_t *circ = tor_malloc(sizeof(circuit_t));
circ->purpose = CIRCUIT_PURPOSE_OR; circ->purpose = CIRCUIT_PURPOSE_OR;
tt_int_op(0, ==, circuit_is_available_for_use(circ)); tt_int_op(0, OP_EQ, circuit_is_available_for_use(circ));
done: done:
tor_free(circ); tor_free(circ);
@ -92,7 +92,7 @@ test_circuit_is_available_for_use_ret_false_unusable_for_new_conns(void *arg)
circuit_t *circ = dummy_origin_circuit_new(30); circuit_t *circ = dummy_origin_circuit_new(30);
mark_circuit_unusable_for_new_conns(TO_ORIGIN_CIRCUIT(circ)); mark_circuit_unusable_for_new_conns(TO_ORIGIN_CIRCUIT(circ));
tt_int_op(0, ==, circuit_is_available_for_use(circ)); tt_int_op(0, OP_EQ, circuit_is_available_for_use(circ));
done: done:
circuit_free(circ); circuit_free(circ);
@ -108,7 +108,7 @@ test_circuit_is_available_for_use_returns_false_for_onehop_tunnel(void *arg)
oc->build_state = tor_malloc_zero(sizeof(cpath_build_state_t)); oc->build_state = tor_malloc_zero(sizeof(cpath_build_state_t));
oc->build_state->onehop_tunnel = 1; oc->build_state->onehop_tunnel = 1;
tt_int_op(0, ==, circuit_is_available_for_use(circ)); tt_int_op(0, OP_EQ, circuit_is_available_for_use(circ));
done: done:
circuit_free(circ); circuit_free(circ);
@ -124,7 +124,7 @@ test_circuit_is_available_for_use_returns_true_for_clean_circuit(void *arg)
oc->build_state = tor_malloc_zero(sizeof(cpath_build_state_t)); oc->build_state = tor_malloc_zero(sizeof(cpath_build_state_t));
oc->build_state->onehop_tunnel = 0; oc->build_state->onehop_tunnel = 0;
tt_int_op(1, ==, circuit_is_available_for_use(circ)); tt_int_op(1, OP_EQ, circuit_is_available_for_use(circ));
done: done:
circuit_free(circ); circuit_free(circ);
@ -165,7 +165,7 @@ test_needs_exit_circuits_ret_false_for_predicted_ports_and_path(void *arg)
int needs_capacity = 0; int needs_capacity = 0;
time_t now = time(NULL); time_t now = time(NULL);
tt_int_op(0, ==, needs_exit_circuits(now, &needs_uptime, &needs_capacity)); tt_int_op(0, OP_EQ, needs_exit_circuits(now, &needs_uptime, &needs_capacity));
done: done:
UNMOCK(circuit_all_predicted_ports_handled); UNMOCK(circuit_all_predicted_ports_handled);
@ -183,7 +183,7 @@ test_needs_exit_circuits_ret_false_for_non_exit_consensus_path(void *arg)
MOCK(router_have_consensus_path, mock_router_have_unknown_consensus_path); MOCK(router_have_consensus_path, mock_router_have_unknown_consensus_path);
time_t now = time(NULL); time_t now = time(NULL);
tt_int_op(0, ==, needs_exit_circuits(now, &needs_uptime, &needs_capacity)); tt_int_op(0, OP_EQ, needs_exit_circuits(now, &needs_uptime, &needs_capacity));
done: done:
UNMOCK(circuit_all_predicted_ports_handled); UNMOCK(circuit_all_predicted_ports_handled);
@ -202,7 +202,7 @@ test_needs_exit_circuits_ret_true_for_predicted_ports_and_path(void *arg)
MOCK(router_have_consensus_path, mock_router_have_exit_consensus_path); MOCK(router_have_consensus_path, mock_router_have_exit_consensus_path);
time_t now = time(NULL); time_t now = time(NULL);
tt_int_op(1, ==, needs_exit_circuits(now, &needs_uptime, &needs_capacity)); tt_int_op(1, OP_EQ, needs_exit_circuits(now, &needs_uptime, &needs_capacity));
done: done:
UNMOCK(circuit_all_predicted_ports_handled); UNMOCK(circuit_all_predicted_ports_handled);
@ -214,7 +214,7 @@ test_needs_circuits_for_build_ret_false_consensus_path_unknown(void *arg)
{ {
(void)arg; (void)arg;
MOCK(router_have_consensus_path, mock_router_have_unknown_consensus_path); MOCK(router_have_consensus_path, mock_router_have_unknown_consensus_path);
tt_int_op(0, ==, needs_circuits_for_build(0)); tt_int_op(0, OP_EQ, needs_circuits_for_build(0));
done: ; done: ;
} }
@ -223,7 +223,7 @@ test_needs_circuits_for_build_ret_false_if_num_less_than_max(void *arg)
{ {
(void)arg; (void)arg;
MOCK(router_have_consensus_path, mock_router_have_exit_consensus_path); MOCK(router_have_consensus_path, mock_router_have_exit_consensus_path);
tt_int_op(0, ==, needs_circuits_for_build(13)); tt_int_op(0, OP_EQ, needs_circuits_for_build(13));
done: done:
UNMOCK(router_have_consensus_path); UNMOCK(router_have_consensus_path);
} }
@ -233,7 +233,7 @@ test_needs_circuits_for_build_returns_true_when_more_are_needed(void *arg)
{ {
(void)arg; (void)arg;
MOCK(router_have_consensus_path, mock_router_have_exit_consensus_path); MOCK(router_have_consensus_path, mock_router_have_exit_consensus_path);
tt_int_op(1, ==, needs_circuits_for_build(0)); tt_int_op(1, OP_EQ, needs_circuits_for_build(0));
done: done:
UNMOCK(router_have_consensus_path); UNMOCK(router_have_consensus_path);
} }

20
src/test/test_config.c
View File

@ -1139,7 +1139,7 @@ test_config_resolve_my_address(void *arg)
&method_used,&hostname_out); &method_used,&hostname_out);
tt_want(retval == 0); tt_want(retval == 0);
tt_want_str_op(method_used,==,"CONFIGURED"); tt_want_str_op(method_used,OP_EQ,"CONFIGURED");
tt_want(hostname_out == NULL); tt_want(hostname_out == NULL);
tt_assert(resolved_addr == 0x80348069); tt_assert(resolved_addr == 0x80348069);
@ -1164,8 +1164,8 @@ test_config_resolve_my_address(void *arg)
tt_want(retval == 0); tt_want(retval == 0);
tt_want(n_hostname_01010101 == prev_n_hostname_01010101 + 1); tt_want(n_hostname_01010101 == prev_n_hostname_01010101 + 1);
tt_want_str_op(method_used,==,"RESOLVED"); tt_want_str_op(method_used,OP_EQ,"RESOLVED");
tt_want_str_op(hostname_out,==,"www.torproject.org"); tt_want_str_op(hostname_out,OP_EQ,"www.torproject.org");
tt_assert(resolved_addr == 0x01010101); tt_assert(resolved_addr == 0x01010101);
UNMOCK(tor_lookup_hostname); UNMOCK(tor_lookup_hostname);
@ -1196,8 +1196,8 @@ test_config_resolve_my_address(void *arg)
tt_want(retval == 0); tt_want(retval == 0);
tt_want(n_gethostname_replacement == prev_n_gethostname_replacement + 1); tt_want(n_gethostname_replacement == prev_n_gethostname_replacement + 1);
tt_want(n_hostname_01010101 == prev_n_hostname_01010101 + 1); tt_want(n_hostname_01010101 == prev_n_hostname_01010101 + 1);
tt_want_str_op(method_used,==,"GETHOSTNAME"); tt_want_str_op(method_used,OP_EQ,"GETHOSTNAME");
tt_want_str_op(hostname_out,==,"onionrouter!"); tt_want_str_op(hostname_out,OP_EQ,"onionrouter!");
tt_assert(resolved_addr == 0x01010101); tt_assert(resolved_addr == 0x01010101);
UNMOCK(tor_gethostname); UNMOCK(tor_gethostname);
@ -1285,11 +1285,11 @@ test_config_resolve_my_address(void *arg)
&method_used,&hostname_out); &method_used,&hostname_out);
tt_want(retval == 0); tt_want(retval == 0);
tt_want_int_op(n_gethostname_replacement, ==, tt_want_int_op(n_gethostname_replacement, OP_EQ,
prev_n_gethostname_replacement + 1); prev_n_gethostname_replacement + 1);
tt_want_int_op(n_get_interface_address, ==, tt_want_int_op(n_get_interface_address, OP_EQ,
prev_n_get_interface_address + 1); prev_n_get_interface_address + 1);
tt_want_str_op(method_used,==,"INTERFACE"); tt_want_str_op(method_used,OP_EQ,"INTERFACE");
tt_want(hostname_out == NULL); tt_want(hostname_out == NULL);
tt_assert(resolved_addr == 0x08080808); tt_assert(resolved_addr == 0x08080808);
@ -1345,7 +1345,7 @@ test_config_resolve_my_address(void *arg)
tt_want(n_hostname_failure == prev_n_hostname_failure + 1); tt_want(n_hostname_failure == prev_n_hostname_failure + 1);
tt_want(n_gethostname_replacement == prev_n_gethostname_replacement + 1); tt_want(n_gethostname_replacement == prev_n_gethostname_replacement + 1);
tt_want(retval == 0); tt_want(retval == 0);
tt_want_str_op(method_used,==,"INTERFACE"); tt_want_str_op(method_used,OP_EQ,"INTERFACE");
tt_assert(resolved_addr == 0x09090909); tt_assert(resolved_addr == 0x09090909);
UNMOCK(tor_lookup_hostname); UNMOCK(tor_lookup_hostname);
@ -1419,7 +1419,7 @@ test_config_resolve_my_address(void *arg)
tt_want(n_hostname_localhost == prev_n_hostname_localhost + 1); tt_want(n_hostname_localhost == prev_n_hostname_localhost + 1);
tt_want(n_get_interface_address6 == prev_n_get_interface_address6 + 1); tt_want(n_get_interface_address6 == prev_n_get_interface_address6 + 1);
tt_str_op(method_used,==,"INTERFACE"); tt_str_op(method_used,OP_EQ,"INTERFACE");
tt_assert(!hostname_out); tt_assert(!hostname_out);
tt_assert(retval == 0); tt_assert(retval == 0);

66
src/test/test_containers.c
View File

@ -510,22 +510,22 @@ test_container_smartlist_pos(void *arg)
smartlist_add_strdup(sl, "function"); smartlist_add_strdup(sl, "function");
/* Test string_pos */ /* Test string_pos */
tt_int_op(smartlist_string_pos(NULL, "Fred"), ==, -1); tt_int_op(smartlist_string_pos(NULL, "Fred"), OP_EQ, -1);
tt_int_op(smartlist_string_pos(sl, "Fred"), ==, -1); tt_int_op(smartlist_string_pos(sl, "Fred"), OP_EQ, -1);
tt_int_op(smartlist_string_pos(sl, "This"), ==, 0); tt_int_op(smartlist_string_pos(sl, "This"), OP_EQ, 0);
tt_int_op(smartlist_string_pos(sl, "a"), ==, 2); tt_int_op(smartlist_string_pos(sl, "a"), OP_EQ, 2);
tt_int_op(smartlist_string_pos(sl, "function"), ==, 6); tt_int_op(smartlist_string_pos(sl, "function"), OP_EQ, 6);
/* Test pos */ /* Test pos */
tt_int_op(smartlist_pos(NULL, "Fred"), ==, -1); tt_int_op(smartlist_pos(NULL, "Fred"), OP_EQ, -1);
tt_int_op(smartlist_pos(sl, "Fred"), ==, -1); tt_int_op(smartlist_pos(sl, "Fred"), OP_EQ, -1);
tt_int_op(smartlist_pos(sl, "This"), ==, -1); tt_int_op(smartlist_pos(sl, "This"), OP_EQ, -1);
tt_int_op(smartlist_pos(sl, "a"), ==, -1); tt_int_op(smartlist_pos(sl, "a"), OP_EQ, -1);
tt_int_op(smartlist_pos(sl, "function"), ==, -1); tt_int_op(smartlist_pos(sl, "function"), OP_EQ, -1);
tt_int_op(smartlist_pos(sl, smartlist_get(sl,0)), ==, 0); tt_int_op(smartlist_pos(sl, smartlist_get(sl,0)), OP_EQ, 0);
tt_int_op(smartlist_pos(sl, smartlist_get(sl,2)), ==, 2); tt_int_op(smartlist_pos(sl, smartlist_get(sl,2)), OP_EQ, 2);
tt_int_op(smartlist_pos(sl, smartlist_get(sl,5)), ==, 5); tt_int_op(smartlist_pos(sl, smartlist_get(sl,5)), OP_EQ, 5);
tt_int_op(smartlist_pos(sl, smartlist_get(sl,6)), ==, 6); tt_int_op(smartlist_pos(sl, smartlist_get(sl,6)), OP_EQ, 6);
done: done:
SMARTLIST_FOREACH(sl, char *, str, tor_free(str)); SMARTLIST_FOREACH(sl, char *, str, tor_free(str));
@ -990,13 +990,13 @@ test_container_order_functions(void *arg)
tt_assert(15 == median_time(times, 5)); tt_assert(15 == median_time(times, 5));
int32_t int32s[] = { -5, -10, -50, 100 }; int32_t int32s[] = { -5, -10, -50, 100 };
tt_int_op(-5, ==, median_int32(int32s, 1)); tt_int_op(-5, OP_EQ, median_int32(int32s, 1));
tt_int_op(-10, ==, median_int32(int32s, 2)); tt_int_op(-10, OP_EQ, median_int32(int32s, 2));
tt_int_op(-10, ==, median_int32(int32s, 3)); tt_int_op(-10, OP_EQ, median_int32(int32s, 3));
tt_int_op(-10, ==, median_int32(int32s, 4)); tt_int_op(-10, OP_EQ, median_int32(int32s, 4));
long longs[] = { -30, 30, 100, -100, 7 }; long longs[] = { -30, 30, 100, -100, 7 };
tt_int_op(7, ==, find_nth_long(longs, 5, 2)); tt_int_op(7, OP_EQ, find_nth_long(longs, 5, 2));
done: done:
; ;
@ -1153,31 +1153,31 @@ test_container_smartlist_most_frequent(void *arg)
const char *cp; const char *cp;
cp = smartlist_get_most_frequent_string_(sl, &count); cp = smartlist_get_most_frequent_string_(sl, &count);
tt_int_op(count, ==, 0); tt_int_op(count, OP_EQ, 0);
tt_ptr_op(cp, ==, NULL); tt_ptr_op(cp, OP_EQ, NULL);
/* String must be sorted before we call get_most_frequent */ /* String must be sorted before we call get_most_frequent */
smartlist_split_string(sl, "abc:def:ghi", ":", 0, 0); smartlist_split_string(sl, "abc:def:ghi", ":", 0, 0);
cp = smartlist_get_most_frequent_string_(sl, &count); cp = smartlist_get_most_frequent_string_(sl, &count);
tt_int_op(count, ==, 1); tt_int_op(count, OP_EQ, 1);
tt_str_op(cp, ==, "ghi"); /* Ties broken in favor of later element */ tt_str_op(cp, OP_EQ, "ghi"); /* Ties broken in favor of later element */
smartlist_split_string(sl, "def:ghi", ":", 0, 0); smartlist_split_string(sl, "def:ghi", ":", 0, 0);
smartlist_sort_strings(sl); smartlist_sort_strings(sl);
cp = smartlist_get_most_frequent_string_(sl, &count); cp = smartlist_get_most_frequent_string_(sl, &count);
tt_int_op(count, ==, 2); tt_int_op(count, OP_EQ, 2);
tt_ptr_op(cp, !=, NULL); tt_ptr_op(cp, OP_NE, NULL);
tt_str_op(cp, ==, "ghi"); /* Ties broken in favor of later element */ tt_str_op(cp, OP_EQ, "ghi"); /* Ties broken in favor of later element */
smartlist_split_string(sl, "def:abc:qwop", ":", 0, 0); smartlist_split_string(sl, "def:abc:qwop", ":", 0, 0);
smartlist_sort_strings(sl); smartlist_sort_strings(sl);
cp = smartlist_get_most_frequent_string_(sl, &count); cp = smartlist_get_most_frequent_string_(sl, &count);
tt_int_op(count, ==, 3); tt_int_op(count, OP_EQ, 3);
tt_ptr_op(cp, !=, NULL); tt_ptr_op(cp, OP_NE, NULL);
tt_str_op(cp, ==, "def"); /* No tie */ tt_str_op(cp, OP_EQ, "def"); /* No tie */
done: done:
SMARTLIST_FOREACH(sl, char *, str, tor_free(str)); SMARTLIST_FOREACH(sl, char *, str, tor_free(str));
@ -1206,7 +1206,7 @@ test_container_smartlist_sort_ptrs(void *arg)
smartlist_shuffle(sl); smartlist_shuffle(sl);
smartlist_sort_pointers(sl); smartlist_sort_pointers(sl);
for (j = 0; j < ARRAY_LENGTH(arrayptrs); ++j) { for (j = 0; j < ARRAY_LENGTH(arrayptrs); ++j) {
tt_ptr_op(smartlist_get(sl, j), ==, arrayptrs[j]); tt_ptr_op(smartlist_get(sl, j), OP_EQ, arrayptrs[j]);
} }
} }
@ -1232,11 +1232,11 @@ test_container_smartlist_strings_eq(void *arg)
} while (0) } while (0)
/* Both NULL, so equal */ /* Both NULL, so equal */
tt_int_op(1, ==, smartlist_strings_eq(NULL, NULL)); tt_int_op(1, OP_EQ, smartlist_strings_eq(NULL, NULL));
/* One NULL, not equal. */ /* One NULL, not equal. */
tt_int_op(0, ==, smartlist_strings_eq(NULL, sl1)); tt_int_op(0, OP_EQ, smartlist_strings_eq(NULL, sl1));
tt_int_op(0, ==, smartlist_strings_eq(sl1, NULL)); tt_int_op(0, OP_EQ, smartlist_strings_eq(sl1, NULL));
/* Both empty, both equal. */ /* Both empty, both equal. */
EQ_SHOULD_SAY("", "", 1); EQ_SHOULD_SAY("", "", 1);

6
src/test/test_crypto.c
View File

@ -1139,7 +1139,7 @@ test_crypto_mac_sha3(void *arg)
result = crypto_digest256(hmac_manual, all, all_len, DIGEST_SHA3_256); result = crypto_digest256(hmac_manual, all, all_len, DIGEST_SHA3_256);
tor_free(key_msg_concat); tor_free(key_msg_concat);
tor_free(all); tor_free(all);
tt_int_op(result, ==, 0); tt_int_op(result, OP_EQ, 0);
} }
/* Now compare the two results */ /* Now compare the two results */
@ -2675,8 +2675,8 @@ test_crypto_ed25519_storage(void *arg)
tor_free(tag); tor_free(tag);
/* whitebox test: truncated keys. */ /* whitebox test: truncated keys. */
tt_int_op(0, ==, do_truncate(fname_1, 40)); tt_int_op(0, OP_EQ, do_truncate(fname_1, 40));
tt_int_op(0, ==, do_truncate(fname_2, 40)); tt_int_op(0, OP_EQ, do_truncate(fname_2, 40));
tt_int_op(-1, OP_EQ, ed25519_pubkey_read_from_file(&pub, &tag, fname_2)); tt_int_op(-1, OP_EQ, ed25519_pubkey_read_from_file(&pub, &tag, fname_2));
tt_ptr_op(tag, OP_EQ, NULL); tt_ptr_op(tag, OP_EQ, NULL);
tor_free(tag); tor_free(tag);

6
src/test/test_crypto_openssl.c
View File

@ -26,7 +26,7 @@ test_crypto_rng_engine(void *arg)
memset(&dummy_method, 0, sizeof(dummy_method)); memset(&dummy_method, 0, sizeof(dummy_method));
/* We should be a no-op if we're already on RAND_OpenSSL */ /* We should be a no-op if we're already on RAND_OpenSSL */
tt_int_op(0, ==, crypto_force_rand_ssleay()); tt_int_op(0, OP_EQ, crypto_force_rand_ssleay());
tt_assert(RAND_get_rand_method() == RAND_OpenSSL()); tt_assert(RAND_get_rand_method() == RAND_OpenSSL());
/* We should correct the method if it's a dummy. */ /* We should correct the method if it's a dummy. */
@ -34,10 +34,10 @@ test_crypto_rng_engine(void *arg)
#ifdef LIBRESSL_VERSION_NUMBER #ifdef LIBRESSL_VERSION_NUMBER
/* On libressl, you can't override the RNG. */ /* On libressl, you can't override the RNG. */
tt_assert(RAND_get_rand_method() == RAND_OpenSSL()); tt_assert(RAND_get_rand_method() == RAND_OpenSSL());
tt_int_op(0, ==, crypto_force_rand_ssleay()); tt_int_op(0, OP_EQ, crypto_force_rand_ssleay());
#else #else
tt_assert(RAND_get_rand_method() == &dummy_method); tt_assert(RAND_get_rand_method() == &dummy_method);
tt_int_op(1, ==, crypto_force_rand_ssleay()); tt_int_op(1, OP_EQ, crypto_force_rand_ssleay());
#endif #endif
tt_assert(RAND_get_rand_method() == RAND_OpenSSL()); tt_assert(RAND_get_rand_method() == RAND_OpenSSL());

24
src/test/test_crypto_slow.c
View File

@ -164,10 +164,10 @@ test_libscrypt_eq_openssl(void *arg)
EVP_PBE_scrypt((const char *)"", 0, (const unsigned char *)"", 0, EVP_PBE_scrypt((const char *)"", 0, (const unsigned char *)"", 0,
N, r, p, maxmem, buf2, dk_len); N, r, p, maxmem, buf2, dk_len);
tt_int_op(libscrypt_retval, ==, 0); tt_int_op(libscrypt_retval, OP_EQ, 0);
tt_int_op(openssl_retval, ==, 1); tt_int_op(openssl_retval, OP_EQ, 1);
tt_mem_op(buf1, ==, buf2, 64); tt_mem_op(buf1, OP_EQ, buf2, 64);
memset(buf1,0,64); memset(buf1,0,64);
memset(buf2,0,64); memset(buf2,0,64);
@ -185,10 +185,10 @@ test_libscrypt_eq_openssl(void *arg)
(const unsigned char *)"NaCl", strlen("NaCl"), (const unsigned char *)"NaCl", strlen("NaCl"),
N, r, p, maxmem, buf2, dk_len); N, r, p, maxmem, buf2, dk_len);
tt_int_op(libscrypt_retval, ==, 0); tt_int_op(libscrypt_retval, OP_EQ, 0);
tt_int_op(openssl_retval, ==, 1); tt_int_op(openssl_retval, OP_EQ, 1);
tt_mem_op(buf1, ==, buf2, 64); tt_mem_op(buf1, OP_EQ, buf2, 64);
memset(buf1,0,64); memset(buf1,0,64);
memset(buf2,0,64); memset(buf2,0,64);
@ -210,10 +210,10 @@ test_libscrypt_eq_openssl(void *arg)
strlen("SodiumChloride"), strlen("SodiumChloride"),
N, r, p, maxmem, buf2, dk_len); N, r, p, maxmem, buf2, dk_len);
tt_int_op(libscrypt_retval, ==, 0); tt_int_op(libscrypt_retval, OP_EQ, 0);
tt_int_op(openssl_retval, ==, 1); tt_int_op(openssl_retval, OP_EQ, 1);
tt_mem_op(buf1, ==, buf2, 64); tt_mem_op(buf1, OP_EQ, buf2, 64);
memset(buf1,0,64); memset(buf1,0,64);
memset(buf2,0,64); memset(buf2,0,64);
@ -234,10 +234,10 @@ test_libscrypt_eq_openssl(void *arg)
strlen("SodiumChloride"), strlen("SodiumChloride"),
N, r, p, maxmem, buf2, dk_len); N, r, p, maxmem, buf2, dk_len);
tt_int_op(libscrypt_retval, ==, 0); tt_int_op(libscrypt_retval, OP_EQ, 0);
tt_int_op(openssl_retval, ==, 1); tt_int_op(openssl_retval, OP_EQ, 1);
tt_mem_op(buf1, ==, buf2, 64); tt_mem_op(buf1, OP_EQ, buf2, 64);
done: done:
return; return;

278
src/test/test_dir.c
View File

@ -3695,8 +3695,8 @@ test_dir_purpose_needs_anonymity_returns_true_by_default(void *arg)
tor_capture_bugs_(1); tor_capture_bugs_(1);
setup_full_capture_of_logs(LOG_WARN); setup_full_capture_of_logs(LOG_WARN);
tt_int_op(1, ==, purpose_needs_anonymity(0, 0, NULL)); tt_int_op(1, OP_EQ, purpose_needs_anonymity(0, 0, NULL));
tt_int_op(1, ==, smartlist_len(tor_get_captured_bug_log_())); tt_int_op(1, OP_EQ, smartlist_len(tor_get_captured_bug_log_()));
expect_single_log_msg_containing("Called with dir_purpose=0"); expect_single_log_msg_containing("Called with dir_purpose=0");
tor_end_capture_bugs_(); tor_end_capture_bugs_();
@ -3710,10 +3710,10 @@ test_dir_purpose_needs_anonymity_returns_true_for_bridges(void *arg)
{ {
(void)arg; (void)arg;
tt_int_op(1, ==, purpose_needs_anonymity(0, ROUTER_PURPOSE_BRIDGE, NULL)); tt_int_op(1, OP_EQ, purpose_needs_anonymity(0, ROUTER_PURPOSE_BRIDGE, NULL));
tt_int_op(1, ==, purpose_needs_anonymity(0, ROUTER_PURPOSE_BRIDGE, tt_int_op(1, OP_EQ, purpose_needs_anonymity(0, ROUTER_PURPOSE_BRIDGE,
"foobar")); "foobar"));
tt_int_op(1, ==, purpose_needs_anonymity(DIR_PURPOSE_HAS_FETCHED_RENDDESC_V2, tt_int_op(1, OP_EQ, purpose_needs_anonymity(DIR_PURPOSE_HAS_FETCHED_RENDDESC_V2,
ROUTER_PURPOSE_BRIDGE, NULL)); ROUTER_PURPOSE_BRIDGE, NULL));
done: ; done: ;
} }
@ -3722,7 +3722,7 @@ static void
test_dir_purpose_needs_anonymity_returns_false_for_own_bridge_desc(void *arg) test_dir_purpose_needs_anonymity_returns_false_for_own_bridge_desc(void *arg)
{ {
(void)arg; (void)arg;
tt_int_op(0, ==, purpose_needs_anonymity(DIR_PURPOSE_FETCH_SERVERDESC, tt_int_op(0, OP_EQ, purpose_needs_anonymity(DIR_PURPOSE_FETCH_SERVERDESC,
ROUTER_PURPOSE_BRIDGE, ROUTER_PURPOSE_BRIDGE,
"authority.z")); "authority.z"));
done: ; done: ;
@ -3733,12 +3733,12 @@ test_dir_purpose_needs_anonymity_returns_true_for_sensitive_purpose(void *arg)
{ {
(void)arg; (void)arg;
tt_int_op(1, ==, purpose_needs_anonymity( tt_int_op(1, OP_EQ, purpose_needs_anonymity(
DIR_PURPOSE_HAS_FETCHED_RENDDESC_V2, DIR_PURPOSE_HAS_FETCHED_RENDDESC_V2,
ROUTER_PURPOSE_GENERAL, NULL)); ROUTER_PURPOSE_GENERAL, NULL));
tt_int_op(1, ==, purpose_needs_anonymity( tt_int_op(1, OP_EQ, purpose_needs_anonymity(
DIR_PURPOSE_UPLOAD_RENDDESC_V2, 0, NULL)); DIR_PURPOSE_UPLOAD_RENDDESC_V2, 0, NULL));
tt_int_op(1, ==, purpose_needs_anonymity( tt_int_op(1, OP_EQ, purpose_needs_anonymity(
DIR_PURPOSE_FETCH_RENDDESC_V2, 0, NULL)); DIR_PURPOSE_FETCH_RENDDESC_V2, 0, NULL));
done: ; done: ;
} }
@ -3748,24 +3748,24 @@ test_dir_purpose_needs_anonymity_ret_false_for_non_sensitive_conn(void *arg)
{ {
(void)arg; (void)arg;
tt_int_op(0, ==, purpose_needs_anonymity(DIR_PURPOSE_UPLOAD_DIR, tt_int_op(0, OP_EQ, purpose_needs_anonymity(DIR_PURPOSE_UPLOAD_DIR,
ROUTER_PURPOSE_GENERAL, NULL)); ROUTER_PURPOSE_GENERAL, NULL));
tt_int_op(0, ==, purpose_needs_anonymity(DIR_PURPOSE_UPLOAD_VOTE, 0, NULL)); tt_int_op(0, OP_EQ, purpose_needs_anonymity(DIR_PURPOSE_UPLOAD_VOTE, 0, NULL));
tt_int_op(0, ==, tt_int_op(0, OP_EQ,
purpose_needs_anonymity(DIR_PURPOSE_UPLOAD_SIGNATURES, 0, NULL)); purpose_needs_anonymity(DIR_PURPOSE_UPLOAD_SIGNATURES, 0, NULL));
tt_int_op(0, ==, tt_int_op(0, OP_EQ,
purpose_needs_anonymity(DIR_PURPOSE_FETCH_STATUS_VOTE, 0, NULL)); purpose_needs_anonymity(DIR_PURPOSE_FETCH_STATUS_VOTE, 0, NULL));
tt_int_op(0, ==, purpose_needs_anonymity( tt_int_op(0, OP_EQ, purpose_needs_anonymity(
DIR_PURPOSE_FETCH_DETACHED_SIGNATURES, 0, NULL)); DIR_PURPOSE_FETCH_DETACHED_SIGNATURES, 0, NULL));
tt_int_op(0, ==, tt_int_op(0, OP_EQ,
purpose_needs_anonymity(DIR_PURPOSE_FETCH_CONSENSUS, 0, NULL)); purpose_needs_anonymity(DIR_PURPOSE_FETCH_CONSENSUS, 0, NULL));
tt_int_op(0, ==, tt_int_op(0, OP_EQ,
purpose_needs_anonymity(DIR_PURPOSE_FETCH_CERTIFICATE, 0, NULL)); purpose_needs_anonymity(DIR_PURPOSE_FETCH_CERTIFICATE, 0, NULL));
tt_int_op(0, ==, tt_int_op(0, OP_EQ,
purpose_needs_anonymity(DIR_PURPOSE_FETCH_SERVERDESC, 0, NULL)); purpose_needs_anonymity(DIR_PURPOSE_FETCH_SERVERDESC, 0, NULL));
tt_int_op(0, ==, tt_int_op(0, OP_EQ,
purpose_needs_anonymity(DIR_PURPOSE_FETCH_EXTRAINFO, 0, NULL)); purpose_needs_anonymity(DIR_PURPOSE_FETCH_EXTRAINFO, 0, NULL));
tt_int_op(0, ==, tt_int_op(0, OP_EQ,
purpose_needs_anonymity(DIR_PURPOSE_FETCH_MICRODESC, 0, NULL)); purpose_needs_anonymity(DIR_PURPOSE_FETCH_MICRODESC, 0, NULL));
done: ; done: ;
} }
@ -3818,9 +3818,9 @@ test_dir_packages(void *arg)
(void)arg; (void)arg;
#define BAD(s) \ #define BAD(s) \
tt_int_op(0, ==, validate_recommended_package_line(s)); tt_int_op(0, OP_EQ, validate_recommended_package_line(s));
#define GOOD(s) \ #define GOOD(s) \
tt_int_op(1, ==, validate_recommended_package_line(s)); tt_int_op(1, OP_EQ, validate_recommended_package_line(s));
GOOD("tor 0.2.6.3-alpha " GOOD("tor 0.2.6.3-alpha "
"http://torproject.example.com/dist/tor-0.2.6.3-alpha.tar.gz " "http://torproject.example.com/dist/tor-0.2.6.3-alpha.tar.gz "
"sha256=sssdlkfjdsklfjdskfljasdklfj"); "sha256=sssdlkfjdsklfjdskfljasdklfj");
@ -3937,7 +3937,7 @@ test_dir_packages(void *arg)
res = compute_consensus_package_lines(votes); res = compute_consensus_package_lines(votes);
tt_assert(res); tt_assert(res);
tt_str_op(res, ==, tt_str_op(res, OP_EQ,
"package cbc 99.1.11.1.1 http://example.com/cbc/ cubehash=ahooy sha512=m\n" "package cbc 99.1.11.1.1 http://example.com/cbc/ cubehash=ahooy sha512=m\n"
"package clownshoes 22alpha3 http://quumble.example.com/ blake2=fooz\n" "package clownshoes 22alpha3 http://quumble.example.com/ blake2=fooz\n"
"package clownshoes 22alpha4 http://quumble.example.cam/ blake2=fooa\n" "package clownshoes 22alpha4 http://quumble.example.cam/ blake2=fooa\n"
@ -4359,9 +4359,9 @@ test_dir_download_status_increment(void *arg)
mock_get_options_calls = 0; mock_get_options_calls = 0;
next_at = download_status_increment_failure(&dls_failure, 503, "test", 0, next_at = download_status_increment_failure(&dls_failure, 503, "test", 0,
current_time); current_time);
tt_i64_op(next_at, ==, current_time + delay2); tt_i64_op(next_at, OP_EQ, current_time + delay2);
tt_int_op(download_status_get_n_failures(&dls_failure), ==, 2); tt_int_op(download_status_get_n_failures(&dls_failure), OP_EQ, 2);
tt_int_op(download_status_get_n_attempts(&dls_failure), ==, 2); tt_int_op(download_status_get_n_attempts(&dls_failure), OP_EQ, 2);
tt_assert(mock_get_options_calls >= 1); tt_assert(mock_get_options_calls >= 1);
/* Check that failure increments do happen on 503 for servers */ /* Check that failure increments do happen on 503 for servers */
@ -5053,7 +5053,7 @@ test_dir_dump_unparseable_descriptors(void *data)
* Reset the FIFO and check its state * Reset the FIFO and check its state
*/ */
dump_desc_fifo_cleanup(); dump_desc_fifo_cleanup();
tt_u64_op(len_descs_dumped, ==, 0); tt_u64_op(len_descs_dumped, OP_EQ, 0);
tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0); tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0);
/* /*
@ -5066,21 +5066,21 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_1)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_1));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 1); tt_int_op(write_str_count, OP_EQ, 1);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_1_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_1_hash, DIGEST_SHA256);
/* /*
* Reset the FIFO and check its state * Reset the FIFO and check its state
*/ */
dump_desc_fifo_cleanup(); dump_desc_fifo_cleanup();
tt_u64_op(len_descs_dumped, ==, 0); tt_u64_op(len_descs_dumped, OP_EQ, 0);
tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0); tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0);
/* /*
@ -5088,8 +5088,8 @@ test_dir_dump_unparseable_descriptors(void *data)
*/ */
mock_unlink_reset(); mock_unlink_reset();
mock_write_str_to_file_reset(); mock_write_str_to_file_reset();
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 0); tt_int_op(write_str_count, OP_EQ, 0);
/* /*
* (2) Fire off dump_desc() twice; this still should trigger no cleanup. * (2) Fire off dump_desc() twice; this still should trigger no cleanup.
@ -5101,14 +5101,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_2)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_2));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 1); tt_int_op(write_str_count, OP_EQ, 1);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256);
/* Second time */ /* Second time */
@ -5117,21 +5117,21 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_2) + strlen(test_desc_3)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_2) + strlen(test_desc_3));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256);
/* /*
* Reset the FIFO and check its state * Reset the FIFO and check its state
*/ */
dump_desc_fifo_cleanup(); dump_desc_fifo_cleanup();
tt_u64_op(len_descs_dumped, ==, 0); tt_u64_op(len_descs_dumped, OP_EQ, 0);
tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0); tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0);
/* /*
@ -5139,8 +5139,8 @@ test_dir_dump_unparseable_descriptors(void *data)
*/ */
mock_unlink_reset(); mock_unlink_reset();
mock_write_str_to_file_reset(); mock_write_str_to_file_reset();
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 0); tt_int_op(write_str_count, OP_EQ, 0);
/* /*
* (3) Three calls to dump_desc cause a FIFO cleanup * (3) Three calls to dump_desc cause a FIFO cleanup
@ -5152,14 +5152,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_4)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_4));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 1); tt_int_op(write_str_count, OP_EQ, 1);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256);
/* Second time */ /* Second time */
@ -5168,14 +5168,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_4) + strlen(test_desc_1)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_4) + strlen(test_desc_1));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_1_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_1_hash, DIGEST_SHA256);
/* Third time - we should unlink the dump of test_desc_4 here */ /* Third time - we should unlink the dump of test_desc_4 here */
@ -5184,21 +5184,21 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_1) + strlen(test_desc_2)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_1) + strlen(test_desc_2));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 1); tt_int_op(unlinked_count, OP_EQ, 1);
tt_int_op(write_str_count, ==, 3); tt_int_op(write_str_count, OP_EQ, 3);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256);
/* /*
* Reset the FIFO and check its state * Reset the FIFO and check its state
*/ */
dump_desc_fifo_cleanup(); dump_desc_fifo_cleanup();
tt_u64_op(len_descs_dumped, ==, 0); tt_u64_op(len_descs_dumped, OP_EQ, 0);
tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0); tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0);
/* /*
@ -5206,8 +5206,8 @@ test_dir_dump_unparseable_descriptors(void *data)
*/ */
mock_unlink_reset(); mock_unlink_reset();
mock_write_str_to_file_reset(); mock_write_str_to_file_reset();
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 0); tt_int_op(write_str_count, OP_EQ, 0);
/* /*
* (4) But repeating one (A B B) doesn't overflow and cleanup * (4) But repeating one (A B B) doesn't overflow and cleanup
@ -5219,14 +5219,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_3)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_3));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 1); tt_int_op(write_str_count, OP_EQ, 1);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256);
/* Second time */ /* Second time */
@ -5235,14 +5235,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_3) + strlen(test_desc_4)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_3) + strlen(test_desc_4));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256);
/* Third time */ /* Third time */
@ -5251,21 +5251,21 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_3) + strlen(test_desc_4)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_3) + strlen(test_desc_4));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256);
/* /*
* Reset the FIFO and check its state * Reset the FIFO and check its state
*/ */
dump_desc_fifo_cleanup(); dump_desc_fifo_cleanup();
tt_u64_op(len_descs_dumped, ==, 0); tt_u64_op(len_descs_dumped, OP_EQ, 0);
tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0); tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0);
/* /*
@ -5273,8 +5273,8 @@ test_dir_dump_unparseable_descriptors(void *data)
*/ */
mock_unlink_reset(); mock_unlink_reset();
mock_write_str_to_file_reset(); mock_write_str_to_file_reset();
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 0); tt_int_op(write_str_count, OP_EQ, 0);
/* /*
* (5) Same for the (A B A) repetition * (5) Same for the (A B A) repetition
@ -5286,14 +5286,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_1)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_1));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 1); tt_int_op(write_str_count, OP_EQ, 1);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_1_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_1_hash, DIGEST_SHA256);
/* Second time */ /* Second time */
@ -5302,14 +5302,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_1) + strlen(test_desc_2)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_1) + strlen(test_desc_2));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256);
/* Third time */ /* Third time */
@ -5318,21 +5318,21 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_1) + strlen(test_desc_2)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_1) + strlen(test_desc_2));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256);
/* /*
* Reset the FIFO and check its state * Reset the FIFO and check its state
*/ */
dump_desc_fifo_cleanup(); dump_desc_fifo_cleanup();
tt_u64_op(len_descs_dumped, ==, 0); tt_u64_op(len_descs_dumped, OP_EQ, 0);
tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0); tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0);
/* /*
@ -5340,8 +5340,8 @@ test_dir_dump_unparseable_descriptors(void *data)
*/ */
mock_unlink_reset(); mock_unlink_reset();
mock_write_str_to_file_reset(); mock_write_str_to_file_reset();
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 0); tt_int_op(write_str_count, OP_EQ, 0);
/* /*
* (6) (A B B C) triggering overflow on C causes A, not B to be unlinked * (6) (A B B C) triggering overflow on C causes A, not B to be unlinked
@ -5353,14 +5353,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_3)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_3));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 1); tt_int_op(write_str_count, OP_EQ, 1);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256);
/* Second time */ /* Second time */
@ -5369,14 +5369,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_3) + strlen(test_desc_4)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_3) + strlen(test_desc_4));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256);
/* Third time */ /* Third time */
@ -5385,14 +5385,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_3) + strlen(test_desc_4)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_3) + strlen(test_desc_4));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256);
/* Fourth time - we should unlink the dump of test_desc_3 here */ /* Fourth time - we should unlink the dump of test_desc_3 here */
@ -5401,21 +5401,21 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_4) + strlen(test_desc_1)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_4) + strlen(test_desc_1));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 1); tt_int_op(unlinked_count, OP_EQ, 1);
tt_int_op(write_str_count, ==, 3); tt_int_op(write_str_count, OP_EQ, 3);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_1_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_1_hash, DIGEST_SHA256);
/* /*
* Reset the FIFO and check its state * Reset the FIFO and check its state
*/ */
dump_desc_fifo_cleanup(); dump_desc_fifo_cleanup();
tt_u64_op(len_descs_dumped, ==, 0); tt_u64_op(len_descs_dumped, OP_EQ, 0);
tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0); tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0);
/* /*
@ -5423,8 +5423,8 @@ test_dir_dump_unparseable_descriptors(void *data)
*/ */
mock_unlink_reset(); mock_unlink_reset();
mock_write_str_to_file_reset(); mock_write_str_to_file_reset();
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 0); tt_int_op(write_str_count, OP_EQ, 0);
/* /*
* (7) (A B A C) triggering overflow on C causes B, not A to be unlinked * (7) (A B A C) triggering overflow on C causes B, not A to be unlinked
@ -5436,14 +5436,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_2)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_2));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 1);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 1); tt_int_op(write_str_count, OP_EQ, 1);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_2_hash, DIGEST_SHA256);
/* Second time */ /* Second time */
@ -5452,14 +5452,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_2) + strlen(test_desc_3)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_2) + strlen(test_desc_3));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256);
/* Third time */ /* Third time */
@ -5468,14 +5468,14 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_2) + strlen(test_desc_3)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_2) + strlen(test_desc_3));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 2); tt_int_op(write_str_count, OP_EQ, 2);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_3_hash, DIGEST_SHA256);
/* Fourth time - we should unlink the dump of test_desc_3 here */ /* Fourth time - we should unlink the dump of test_desc_3 here */
@ -5484,21 +5484,21 @@ test_dir_dump_unparseable_descriptors(void *data)
/* /*
* Assert things about the FIFO state * Assert things about the FIFO state
*/ */
tt_u64_op(len_descs_dumped, ==, strlen(test_desc_2) + strlen(test_desc_4)); tt_u64_op(len_descs_dumped, OP_EQ, strlen(test_desc_2) + strlen(test_desc_4));
tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2); tt_assert(descs_dumped != NULL && smartlist_len(descs_dumped) == 2);
/* /*
* Assert things about the mocks * Assert things about the mocks
*/ */
tt_int_op(unlinked_count, ==, 1); tt_int_op(unlinked_count, OP_EQ, 1);
tt_int_op(write_str_count, ==, 3); tt_int_op(write_str_count, OP_EQ, 3);
tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256); tt_mem_op(last_write_str_hash, OP_EQ, test_desc_4_hash, DIGEST_SHA256);
/* /*
* Reset the FIFO and check its state * Reset the FIFO and check its state
*/ */
dump_desc_fifo_cleanup(); dump_desc_fifo_cleanup();
tt_u64_op(len_descs_dumped, ==, 0); tt_u64_op(len_descs_dumped, OP_EQ, 0);
tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0); tt_assert(descs_dumped == NULL || smartlist_len(descs_dumped) == 0);
/* /*
@ -5506,8 +5506,8 @@ test_dir_dump_unparseable_descriptors(void *data)
*/ */
mock_unlink_reset(); mock_unlink_reset();
mock_write_str_to_file_reset(); mock_write_str_to_file_reset();
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
tt_int_op(write_str_count, ==, 0); tt_int_op(write_str_count, OP_EQ, 0);
done: done:
@ -5617,43 +5617,43 @@ test_dir_populate_dump_desc_fifo(void *data)
reset_read_file_to_str_mock(); reset_read_file_to_str_mock();
/* Check state of unlink mock */ /* Check state of unlink mock */
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
/* Some cases that should fail before trying to read the file */ /* Some cases that should fail before trying to read the file */
ent = dump_desc_populate_one_file(dirname, "bar"); ent = dump_desc_populate_one_file(dirname, "bar");
tt_assert(ent == NULL); tt_assert(ent == NULL);
tt_int_op(unlinked_count, ==, 1); tt_int_op(unlinked_count, OP_EQ, 1);
tt_int_op(read_count, ==, 0); tt_int_op(read_count, OP_EQ, 0);
tt_int_op(read_call_count, ==, 0); tt_int_op(read_call_count, OP_EQ, 0);
ent = dump_desc_populate_one_file(dirname, "unparseable-desc"); ent = dump_desc_populate_one_file(dirname, "unparseable-desc");
tt_assert(ent == NULL); tt_assert(ent == NULL);
tt_int_op(unlinked_count, ==, 2); tt_int_op(unlinked_count, OP_EQ, 2);
tt_int_op(read_count, ==, 0); tt_int_op(read_count, OP_EQ, 0);
tt_int_op(read_call_count, ==, 0); tt_int_op(read_call_count, OP_EQ, 0);
ent = dump_desc_populate_one_file(dirname, "unparseable-desc.baz"); ent = dump_desc_populate_one_file(dirname, "unparseable-desc.baz");
tt_assert(ent == NULL); tt_assert(ent == NULL);
tt_int_op(unlinked_count, ==, 3); tt_int_op(unlinked_count, OP_EQ, 3);
tt_int_op(read_count, ==, 0); tt_int_op(read_count, OP_EQ, 0);
tt_int_op(read_call_count, ==, 0); tt_int_op(read_call_count, OP_EQ, 0);
ent = dump_desc_populate_one_file( ent = dump_desc_populate_one_file(
dirname, dirname,
"unparseable-desc.08AE85E90461F59E"); "unparseable-desc.08AE85E90461F59E");
tt_assert(ent == NULL); tt_assert(ent == NULL);
tt_int_op(unlinked_count, ==, 4); tt_int_op(unlinked_count, OP_EQ, 4);
tt_int_op(read_count, ==, 0); tt_int_op(read_count, OP_EQ, 0);
tt_int_op(read_call_count, ==, 0); tt_int_op(read_call_count, OP_EQ, 0);
ent = dump_desc_populate_one_file( ent = dump_desc_populate_one_file(
dirname, dirname,
"unparseable-desc.08AE85E90461F59EDF0981323F3A70D02B55AB54B44B04F" "unparseable-desc.08AE85E90461F59EDF0981323F3A70D02B55AB54B44B04F"
"287D72F7B72F242E85C8CB0EDA8854A99"); "287D72F7B72F242E85C8CB0EDA8854A99");
tt_assert(ent == NULL); tt_assert(ent == NULL);
tt_int_op(unlinked_count, ==, 5); tt_int_op(unlinked_count, OP_EQ, 5);
tt_int_op(read_count, ==, 0); tt_int_op(read_count, OP_EQ, 0);
tt_int_op(read_call_count, ==, 0); tt_int_op(read_call_count, OP_EQ, 0);
/* This is a correct-length digest but base16_decode() will fail */ /* This is a correct-length digest but base16_decode() will fail */
ent = dump_desc_populate_one_file( ent = dump_desc_populate_one_file(
@ -5661,9 +5661,9 @@ test_dir_populate_dump_desc_fifo(void *data)
"unparseable-desc.68219B8BGE64B705A6FFC728C069DC596216D60A7D7520C" "unparseable-desc.68219B8BGE64B705A6FFC728C069DC596216D60A7D7520C"
"D5ECE250D912E686B"); "D5ECE250D912E686B");
tt_assert(ent == NULL); tt_assert(ent == NULL);
tt_int_op(unlinked_count, ==, 6); tt_int_op(unlinked_count, OP_EQ, 6);
tt_int_op(read_count, ==, 0); tt_int_op(read_count, OP_EQ, 0);
tt_int_op(read_call_count, ==, 0); tt_int_op(read_call_count, OP_EQ, 0);
/* This one has a correctly formed filename and should try reading */ /* This one has a correctly formed filename and should try reading */
@ -5673,9 +5673,9 @@ test_dir_populate_dump_desc_fifo(void *data)
"unparseable-desc.DF0981323F3A70D02B55AB54B44B04F287D72F7B72F242E" "unparseable-desc.DF0981323F3A70D02B55AB54B44B04F287D72F7B72F242E"
"85C8CB0EDA8854A99"); "85C8CB0EDA8854A99");
tt_assert(ent == NULL); tt_assert(ent == NULL);
tt_int_op(unlinked_count, ==, 7); tt_int_op(unlinked_count, OP_EQ, 7);
tt_int_op(read_count, ==, 0); tt_int_op(read_count, OP_EQ, 0);
tt_int_op(read_call_count, ==, 1); tt_int_op(read_call_count, OP_EQ, 1);
/* This read will succeed but the digest won't match the file content */ /* This read will succeed but the digest won't match the file content */
fname = fname =
@ -5689,9 +5689,9 @@ test_dir_populate_dump_desc_fifo(void *data)
ent = dump_desc_populate_one_file(dirname, fname); ent = dump_desc_populate_one_file(dirname, fname);
enforce_expected_filename = 0; enforce_expected_filename = 0;
tt_assert(ent == NULL); tt_assert(ent == NULL);
tt_int_op(unlinked_count, ==, 8); tt_int_op(unlinked_count, OP_EQ, 8);
tt_int_op(read_count, ==, 1); tt_int_op(read_count, OP_EQ, 1);
tt_int_op(read_call_count, ==, 2); tt_int_op(read_call_count, OP_EQ, 2);
tor_free(expected_filename); tor_free(expected_filename);
tor_free(file_content); tor_free(file_content);
@ -5705,12 +5705,12 @@ test_dir_populate_dump_desc_fifo(void *data)
file_stat.st_mtime = 789012; file_stat.st_mtime = 789012;
ent = dump_desc_populate_one_file(dirname, fname); ent = dump_desc_populate_one_file(dirname, fname);
tt_assert(ent != NULL); tt_assert(ent != NULL);
tt_int_op(unlinked_count, ==, 8); tt_int_op(unlinked_count, OP_EQ, 8);
tt_int_op(read_count, ==, 2); tt_int_op(read_count, OP_EQ, 2);
tt_int_op(read_call_count, ==, 3); tt_int_op(read_call_count, OP_EQ, 3);
tt_str_op(ent->filename, OP_EQ, expected_filename); tt_str_op(ent->filename, OP_EQ, expected_filename);
tt_int_op(ent->len, ==, file_content_len); tt_int_op(ent->len, OP_EQ, file_content_len);
tt_int_op(ent->when, ==, file_stat.st_mtime); tt_int_op(ent->when, OP_EQ, file_stat.st_mtime);
tor_free(ent->filename); tor_free(ent->filename);
tor_free(ent); tor_free(ent);
tor_free(expected_filename); tor_free(expected_filename);
@ -5719,9 +5719,9 @@ test_dir_populate_dump_desc_fifo(void *data)
* Reset the mocks and check their state * Reset the mocks and check their state
*/ */
mock_unlink_reset(); mock_unlink_reset();
tt_int_op(unlinked_count, ==, 0); tt_int_op(unlinked_count, OP_EQ, 0);
reset_read_file_to_str_mock(); reset_read_file_to_str_mock();
tt_int_op(read_count, ==, 0); tt_int_op(read_count, OP_EQ, 0);
done: done:

64
src/test/test_dns.c
View File

@ -18,9 +18,9 @@ NS(test_main)(void *arg)
uint32_t ttl_mid = MIN_DNS_TTL_AT_EXIT / 2 + MAX_DNS_TTL_AT_EXIT / 2; uint32_t ttl_mid = MIN_DNS_TTL_AT_EXIT / 2 + MAX_DNS_TTL_AT_EXIT / 2;
tt_int_op(dns_clip_ttl(MIN_DNS_TTL_AT_EXIT - 1),==,MIN_DNS_TTL_AT_EXIT); tt_int_op(dns_clip_ttl(MIN_DNS_TTL_AT_EXIT - 1),OP_EQ,MIN_DNS_TTL_AT_EXIT);
tt_int_op(dns_clip_ttl(ttl_mid),==,MAX_DNS_TTL_AT_EXIT); tt_int_op(dns_clip_ttl(ttl_mid),OP_EQ,MAX_DNS_TTL_AT_EXIT);
tt_int_op(dns_clip_ttl(MAX_DNS_TTL_AT_EXIT + 1),==,MAX_DNS_TTL_AT_EXIT); tt_int_op(dns_clip_ttl(MAX_DNS_TTL_AT_EXIT + 1),OP_EQ,MAX_DNS_TTL_AT_EXIT);
done: done:
return; return;
@ -172,10 +172,10 @@ NS(test_main)(void *arg)
retval = dns_resolve(exitconn); retval = dns_resolve(exitconn);
tt_int_op(retval,==,1); tt_int_op(retval,OP_EQ,1);
tt_str_op(resolved_name,==,last_resolved_hostname); tt_str_op(resolved_name,OP_EQ,last_resolved_hostname);
tt_assert(conn_for_resolved_cell == exitconn); tt_assert(conn_for_resolved_cell == exitconn);
tt_int_op(n_send_resolved_hostname_cell_replacement,==, tt_int_op(n_send_resolved_hostname_cell_replacement,OP_EQ,
prev_n_send_resolved_hostname_cell_replacement + 1); prev_n_send_resolved_hostname_cell_replacement + 1);
tt_assert(exitconn->on_circuit == NULL); tt_assert(exitconn->on_circuit == NULL);
@ -201,12 +201,12 @@ NS(test_main)(void *arg)
retval = dns_resolve(exitconn); retval = dns_resolve(exitconn);
tt_int_op(retval,==,1); tt_int_op(retval,OP_EQ,1);
tt_assert(conn_for_resolved_cell == exitconn); tt_assert(conn_for_resolved_cell == exitconn);
tt_int_op(n_send_resolved_cell_replacement,==, tt_int_op(n_send_resolved_cell_replacement,OP_EQ,
prev_n_send_resolved_cell_replacement + 1); prev_n_send_resolved_cell_replacement + 1);
tt_assert(last_resolved == fake_resolved); tt_assert(last_resolved == fake_resolved);
tt_int_op(last_answer_type,==,0xff); tt_int_op(last_answer_type,OP_EQ,0xff);
tt_assert(exitconn->on_circuit == NULL); tt_assert(exitconn->on_circuit == NULL);
/* CASE 3: The purpose of exit connection is not EXIT_PURPOSE_RESOLVE /* CASE 3: The purpose of exit connection is not EXIT_PURPOSE_RESOLVE
@ -229,12 +229,12 @@ NS(test_main)(void *arg)
retval = dns_resolve(exitconn); retval = dns_resolve(exitconn);
tt_int_op(retval,==,1); tt_int_op(retval,OP_EQ,1);
tt_assert(on_circuit->n_streams == exitconn); tt_assert(on_circuit->n_streams == exitconn);
tt_assert(exitconn->next_stream == nextconn); tt_assert(exitconn->next_stream == nextconn);
tt_int_op(prev_n_send_resolved_cell_replacement,==, tt_int_op(prev_n_send_resolved_cell_replacement,OP_EQ,
n_send_resolved_cell_replacement); n_send_resolved_cell_replacement);
tt_int_op(prev_n_send_resolved_hostname_cell_replacement,==, tt_int_op(prev_n_send_resolved_hostname_cell_replacement,OP_EQ,
n_send_resolved_hostname_cell_replacement); n_send_resolved_hostname_cell_replacement);
/* CASE 4: _impl returns 0. /* CASE 4: _impl returns 0.
@ -253,8 +253,8 @@ NS(test_main)(void *arg)
retval = dns_resolve(exitconn); retval = dns_resolve(exitconn);
tt_int_op(retval,==,0); tt_int_op(retval,OP_EQ,0);
tt_int_op(exitconn->base_.state,==,EXIT_CONN_STATE_RESOLVING); tt_int_op(exitconn->base_.state,OP_EQ,EXIT_CONN_STATE_RESOLVING);
tt_assert(on_circuit->resolving_streams == exitconn); tt_assert(on_circuit->resolving_streams == exitconn);
tt_assert(exitconn->next_stream == nextconn); tt_assert(exitconn->next_stream == nextconn);
@ -278,12 +278,12 @@ NS(test_main)(void *arg)
retval = dns_resolve(exitconn); retval = dns_resolve(exitconn);
tt_int_op(retval,==,-1); tt_int_op(retval,OP_EQ,-1);
tt_int_op(n_send_resolved_cell_replacement,==, tt_int_op(n_send_resolved_cell_replacement,OP_EQ,
prev_n_send_resolved_cell_replacement + 1); prev_n_send_resolved_cell_replacement + 1);
tt_int_op(last_answer_type,==,RESOLVED_TYPE_ERROR); tt_int_op(last_answer_type,OP_EQ,RESOLVED_TYPE_ERROR);
tt_int_op(n_dns_cancel_pending_resolve_replacement,==,1); tt_int_op(n_dns_cancel_pending_resolve_replacement,OP_EQ,1);
tt_int_op(n_connection_free,==,prev_n_connection_free + 1); tt_int_op(n_connection_free,OP_EQ,prev_n_connection_free + 1);
tt_assert(last_freed_conn == TO_CONN(exitconn)); tt_assert(last_freed_conn == TO_CONN(exitconn));
done: done:
@ -351,9 +351,9 @@ NS(test_main)(void *arg)
resolved_addr = &(exitconn->base_.addr); resolved_addr = &(exitconn->base_.addr);
tt_int_op(retval,==,1); tt_int_op(retval,OP_EQ,1);
tt_assert(tor_addr_eq(resolved_addr, (const tor_addr_t *)&addr_to_compare)); tt_assert(tor_addr_eq(resolved_addr, (const tor_addr_t *)&addr_to_compare));
tt_int_op(exitconn->address_ttl,==,DEFAULT_DNS_TTL); tt_int_op(exitconn->address_ttl,OP_EQ,DEFAULT_DNS_TTL);
done: done:
tor_free(on_circ); tor_free(on_circ);
@ -393,7 +393,7 @@ NS(test_main)(void *arg)
retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending, retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending,
NULL); NULL);
tt_int_op(retval,==,-1); tt_int_op(retval,OP_EQ,-1);
done: done:
tor_free(TO_CONN(exitconn)->address); tor_free(TO_CONN(exitconn)->address);
@ -436,7 +436,7 @@ NS(test_main)(void *arg)
retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending, retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending,
NULL); NULL);
tt_int_op(retval,==,-1); tt_int_op(retval,OP_EQ,-1);
done: done:
NS_UNMOCK(router_my_exit_policy_is_reject_star); NS_UNMOCK(router_my_exit_policy_is_reject_star);
@ -478,7 +478,7 @@ NS(test_main)(void *arg)
retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending, retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending,
NULL); NULL);
tt_int_op(retval,==,-1); tt_int_op(retval,OP_EQ,-1);
tor_free(TO_CONN(exitconn)->address); tor_free(TO_CONN(exitconn)->address);
@ -488,7 +488,7 @@ NS(test_main)(void *arg)
retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending, retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending,
NULL); NULL);
tt_int_op(retval,==,-1); tt_int_op(retval,OP_EQ,-1);
done: done:
NS_UNMOCK(router_my_exit_policy_is_reject_star); NS_UNMOCK(router_my_exit_policy_is_reject_star);
@ -546,8 +546,8 @@ NS(test_main)(void *arg)
retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending, retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending,
NULL); NULL);
tt_int_op(retval,==,0); tt_int_op(retval,OP_EQ,0);
tt_int_op(made_pending,==,1); tt_int_op(made_pending,OP_EQ,1);
pending_conn = cache_entry->pending_connections; pending_conn = cache_entry->pending_connections;
@ -628,8 +628,8 @@ NS(test_main)(void *arg)
retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending, retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending,
&resolve_out); &resolve_out);
tt_int_op(retval,==,0); tt_int_op(retval,OP_EQ,0);
tt_int_op(made_pending,==,0); tt_int_op(made_pending,OP_EQ,0);
tt_assert(resolve_out == cache_entry); tt_assert(resolve_out == cache_entry);
tt_assert(last_exitconn == exitconn); tt_assert(last_exitconn == exitconn);
@ -699,8 +699,8 @@ NS(test_main)(void *arg)
retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending, retval = dns_resolve_impl(exitconn, 1, on_circ, NULL, &made_pending,
NULL); NULL);
tt_int_op(retval,==,0); tt_int_op(retval,OP_EQ,0);
tt_int_op(made_pending,==,1); tt_int_op(made_pending,OP_EQ,1);
cache_entry = dns_get_cache_entry(&query); cache_entry = dns_get_cache_entry(&query);
@ -712,7 +712,7 @@ NS(test_main)(void *arg)
tt_assert(pending_conn->conn == exitconn); tt_assert(pending_conn->conn == exitconn);
tt_assert(last_launched_resolve == cache_entry); tt_assert(last_launched_resolve == cache_entry);
tt_str_op(cache_entry->address,==,TO_CONN(exitconn)->address); tt_str_op(cache_entry->address,OP_EQ,TO_CONN(exitconn)->address);
done: done:
NS_UNMOCK(router_my_exit_policy_is_reject_star); NS_UNMOCK(router_my_exit_policy_is_reject_star);

48
src/test/test_guardfraction.c
View File

@ -38,10 +38,10 @@ gen_vote_routerstatus_for_tests(const char *digest_in_hex, int is_guard)
rs->is_possible_guard = is_guard; rs->is_possible_guard = is_guard;
/* Fill in the fpr */ /* Fill in the fpr */
tt_int_op(strlen(digest_in_hex), ==, HEX_DIGEST_LEN); tt_int_op(strlen(digest_in_hex), OP_EQ, HEX_DIGEST_LEN);
retval = base16_decode(digest_tmp, sizeof(digest_tmp), retval = base16_decode(digest_tmp, sizeof(digest_tmp),
digest_in_hex, HEX_DIGEST_LEN); digest_in_hex, HEX_DIGEST_LEN);
tt_int_op(retval, ==, sizeof(digest_tmp)); tt_int_op(retval, OP_EQ, sizeof(digest_tmp));
memcpy(rs->identity_digest, digest_tmp, DIGEST_LEN); memcpy(rs->identity_digest, digest_tmp, DIGEST_LEN);
} }
@ -88,7 +88,7 @@ test_parse_guardfraction_file_bad(void *arg)
yesterday_date_str); yesterday_date_str);
retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL); retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL);
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
tor_free(guardfraction_bad); tor_free(guardfraction_bad);
/* This one does not have a date! Parsing should fail. */ /* This one does not have a date! Parsing should fail. */
@ -100,7 +100,7 @@ test_parse_guardfraction_file_bad(void *arg)
"guard-seen 07B5547026DF3E229806E135CFA8552D56AFBABC 5 420\n"); "guard-seen 07B5547026DF3E229806E135CFA8552D56AFBABC 5 420\n");
retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL); retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL);
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
tor_free(guardfraction_bad); tor_free(guardfraction_bad);
/* This one has an incomplete n-inputs line, but parsing should /* This one has an incomplete n-inputs line, but parsing should
@ -114,7 +114,7 @@ test_parse_guardfraction_file_bad(void *arg)
yesterday_date_str); yesterday_date_str);
retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL); retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL);
tt_int_op(retval, ==, 2); tt_int_op(retval, OP_EQ, 2);
tor_free(guardfraction_bad); tor_free(guardfraction_bad);
/* This one does not have a fingerprint in the guard line! */ /* This one does not have a fingerprint in the guard line! */
@ -126,7 +126,7 @@ test_parse_guardfraction_file_bad(void *arg)
yesterday_date_str); yesterday_date_str);
retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL); retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
tor_free(guardfraction_bad); tor_free(guardfraction_bad);
/* This one does not even have an integer guardfraction value. */ /* This one does not even have an integer guardfraction value. */
@ -139,7 +139,7 @@ test_parse_guardfraction_file_bad(void *arg)
yesterday_date_str); yesterday_date_str);
retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL); retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
tor_free(guardfraction_bad); tor_free(guardfraction_bad);
/* This one is not a percentage (not in [0, 100]) */ /* This one is not a percentage (not in [0, 100]) */
@ -152,7 +152,7 @@ test_parse_guardfraction_file_bad(void *arg)
yesterday_date_str); yesterday_date_str);
retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL); retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
tor_free(guardfraction_bad); tor_free(guardfraction_bad);
/* This one is not a percentage either (not in [0, 100]) */ /* This one is not a percentage either (not in [0, 100]) */
@ -164,7 +164,7 @@ test_parse_guardfraction_file_bad(void *arg)
yesterday_date_str); yesterday_date_str);
retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL); retval = dirserv_read_guardfraction_file_from_str(guardfraction_bad, NULL);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
done: done:
tor_free(guardfraction_bad); tor_free(guardfraction_bad);
@ -216,14 +216,14 @@ test_parse_guardfraction_file_good(void *arg)
/* Read the guardfraction file */ /* Read the guardfraction file */
retval = dirserv_read_guardfraction_file_from_str(guardfraction_good, retval = dirserv_read_guardfraction_file_from_str(guardfraction_good,
routerstatuses); routerstatuses);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
{ /* Test that routerstatus fields got filled properly */ { /* Test that routerstatus fields got filled properly */
/* The guardfraction fields of the guard should be filled. */ /* The guardfraction fields of the guard should be filled. */
tt_assert(vrs_guard->status.has_guardfraction); tt_assert(vrs_guard->status.has_guardfraction);
tt_int_op(vrs_guard->status.guardfraction_percentage, tt_int_op(vrs_guard->status.guardfraction_percentage,
==, OP_EQ,
guardfraction_value); guardfraction_value);
/* The guard that was not in the guardfraction file should not have /* The guard that was not in the guardfraction file should not have
@ -252,12 +252,12 @@ test_get_guardfraction_bandwidth(void *arg)
guard_get_guardfraction_bandwidth(&gf_bw, guard_get_guardfraction_bandwidth(&gf_bw,
orig_bw, 25); orig_bw, 25);
tt_int_op(gf_bw.guard_bw, ==, 250); tt_int_op(gf_bw.guard_bw, OP_EQ, 250);
tt_int_op(gf_bw.non_guard_bw, ==, 750); tt_int_op(gf_bw.non_guard_bw, OP_EQ, 750);
/* Also check the 'guard_bw + non_guard_bw == original_bw' /* Also check the 'guard_bw + non_guard_bw == original_bw'
* invariant. */ * invariant. */
tt_int_op(gf_bw.non_guard_bw + gf_bw.guard_bw, ==, orig_bw); tt_int_op(gf_bw.non_guard_bw + gf_bw.guard_bw, OP_EQ, orig_bw);
done: done:
; ;
@ -295,9 +295,9 @@ test_parse_guardfraction_consensus(void *arg)
retval = routerstatus_parse_guardfraction(guardfraction_str_good, retval = routerstatus_parse_guardfraction(guardfraction_str_good,
NULL, NULL, NULL, NULL,
&rs_good); &rs_good);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
tt_assert(rs_good.has_guardfraction); tt_assert(rs_good.has_guardfraction);
tt_int_op(rs_good.guardfraction_percentage, ==, 66); tt_int_op(rs_good.guardfraction_percentage, OP_EQ, 66);
} }
{ /* Properly formatted GuardFraction but router is not a { /* Properly formatted GuardFraction but router is not a
@ -309,7 +309,7 @@ test_parse_guardfraction_consensus(void *arg)
retval = routerstatus_parse_guardfraction(guardfraction_str_good, retval = routerstatus_parse_guardfraction(guardfraction_str_good,
NULL, NULL, NULL, NULL,
&rs_no_guard); &rs_no_guard);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
tt_assert(!rs_no_guard.has_guardfraction); tt_assert(!rs_no_guard.has_guardfraction);
expect_single_log_msg_containing("Got GuardFraction for non-guard . " expect_single_log_msg_containing("Got GuardFraction for non-guard . "
"This is not supposed to happen."); "This is not supposed to happen.");
@ -323,7 +323,7 @@ test_parse_guardfraction_consensus(void *arg)
retval = routerstatus_parse_guardfraction(guardfraction_str_bad1, retval = routerstatus_parse_guardfraction(guardfraction_str_bad1,
NULL, NULL, NULL, NULL,
&rs_bad1); &rs_bad1);
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
tt_assert(!rs_bad1.has_guardfraction); tt_assert(!rs_bad1.has_guardfraction);
} }
@ -334,7 +334,7 @@ test_parse_guardfraction_consensus(void *arg)
retval = routerstatus_parse_guardfraction(guardfraction_str_bad2, retval = routerstatus_parse_guardfraction(guardfraction_str_bad2,
NULL, NULL, NULL, NULL,
&rs_bad2); &rs_bad2);
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
tt_assert(!rs_bad2.has_guardfraction); tt_assert(!rs_bad2.has_guardfraction);
} }
@ -375,27 +375,27 @@ test_should_apply_guardfraction(void *arg)
/* If torrc option is set to yes, we should always use /* If torrc option is set to yes, we should always use
* guardfraction.*/ * guardfraction.*/
options->UseGuardFraction = 1; options->UseGuardFraction = 1;
tt_int_op(should_apply_guardfraction(&vote_disabled), ==, 1); tt_int_op(should_apply_guardfraction(&vote_disabled), OP_EQ, 1);
/* If torrc option is set to no, we should never use /* If torrc option is set to no, we should never use
* guardfraction.*/ * guardfraction.*/
options->UseGuardFraction = 0; options->UseGuardFraction = 0;
tt_int_op(should_apply_guardfraction(&vote_enabled), ==, 0); tt_int_op(should_apply_guardfraction(&vote_enabled), OP_EQ, 0);
/* Now let's test torrc option set to auto. */ /* Now let's test torrc option set to auto. */
options->UseGuardFraction = -1; options->UseGuardFraction = -1;
/* If torrc option is set to auto, and consensus parameter is set to /* If torrc option is set to auto, and consensus parameter is set to
* yes, we should use guardfraction. */ * yes, we should use guardfraction. */
tt_int_op(should_apply_guardfraction(&vote_enabled), ==, 1); tt_int_op(should_apply_guardfraction(&vote_enabled), OP_EQ, 1);
/* If torrc option is set to auto, and consensus parameter is set to /* If torrc option is set to auto, and consensus parameter is set to
* no, we should use guardfraction. */ * no, we should use guardfraction. */
tt_int_op(should_apply_guardfraction(&vote_disabled), ==, 0); tt_int_op(should_apply_guardfraction(&vote_disabled), OP_EQ, 0);
/* If torrc option is set to auto, and consensus parameter is not /* If torrc option is set to auto, and consensus parameter is not
* set, we should fallback to "no". */ * set, we should fallback to "no". */
tt_int_op(should_apply_guardfraction(&vote_missing), ==, 0); tt_int_op(should_apply_guardfraction(&vote_missing), OP_EQ, 0);
done: done:
SMARTLIST_FOREACH(vote_enabled.net_params, char *, cp, tor_free(cp)); SMARTLIST_FOREACH(vote_enabled.net_params, char *, cp, tor_free(cp));

6
src/test/test_helpers.c
View File

@ -83,16 +83,16 @@ helper_setup_fake_routerlist(void)
retval = router_load_routers_from_string(TEST_DESCRIPTORS, retval = router_load_routers_from_string(TEST_DESCRIPTORS,
NULL, SAVED_IN_JOURNAL, NULL, SAVED_IN_JOURNAL,
NULL, 0, NULL); NULL, 0, NULL);
tt_int_op(retval, ==, HELPER_NUMBER_OF_DESCRIPTORS); tt_int_op(retval, OP_EQ, HELPER_NUMBER_OF_DESCRIPTORS);
/* Sanity checking of routerlist and nodelist. */ /* Sanity checking of routerlist and nodelist. */
our_routerlist = router_get_routerlist(); our_routerlist = router_get_routerlist();
tt_int_op(smartlist_len(our_routerlist->routers), ==, tt_int_op(smartlist_len(our_routerlist->routers), OP_EQ,
HELPER_NUMBER_OF_DESCRIPTORS); HELPER_NUMBER_OF_DESCRIPTORS);
routerlist_assert_ok(our_routerlist); routerlist_assert_ok(our_routerlist);
our_nodelist = nodelist_get_list(); our_nodelist = nodelist_get_list();
tt_int_op(smartlist_len(our_nodelist), ==, HELPER_NUMBER_OF_DESCRIPTORS); tt_int_op(smartlist_len(our_nodelist), OP_EQ, HELPER_NUMBER_OF_DESCRIPTORS);
/* Mark all routers as non-guards but up and running! */ /* Mark all routers as non-guards but up and running! */
SMARTLIST_FOREACH_BEGIN(our_nodelist, node_t *, node) { SMARTLIST_FOREACH_BEGIN(our_nodelist, node_t *, node) {

60
src/test/test_hs.c
View File

@ -250,7 +250,7 @@ test_hs_desc_event(void *arg)
ret = rend_compute_v2_desc_id(rend_query.descriptor_id[0], ret = rend_compute_v2_desc_id(rend_query.descriptor_id[0],
rend_query.onion_address, rend_query.onion_address,
NULL, 0, 0); NULL, 0, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
base32_encode(desc_id_base32, sizeof(desc_id_base32), base32_encode(desc_id_base32, sizeof(desc_id_base32),
rend_query.descriptor_id[0], DIGEST_LEN); rend_query.descriptor_id[0], DIGEST_LEN);
/* Make sure rend_compute_v2_desc_id works properly. */ /* Make sure rend_compute_v2_desc_id works properly. */
@ -363,14 +363,14 @@ test_pick_tor2web_rendezvous_node(void *arg)
retval = routerset_parse(options->Tor2webRendezvousPoints, retval = routerset_parse(options->Tor2webRendezvousPoints,
tor2web_rendezvous_str, tor2web_rendezvous_str,
"test_tor2web_rp"); "test_tor2web_rp");
tt_int_op(retval, >=, 0); tt_int_op(retval, OP_GE, 0);
/* Pick rendezvous point. Make sure the correct one is /* Pick rendezvous point. Make sure the correct one is
picked. Repeat many times to make sure it works properly. */ picked. Repeat many times to make sure it works properly. */
for (i = 0; i < 50 ; i++) { for (i = 0; i < 50 ; i++) {
chosen_rp = pick_tor2web_rendezvous_node(flags, options); chosen_rp = pick_tor2web_rendezvous_node(flags, options);
tt_assert(chosen_rp); tt_assert(chosen_rp);
tt_str_op(chosen_rp->ri->nickname, ==, tor2web_rendezvous_str); tt_str_op(chosen_rp->ri->nickname, OP_EQ, tor2web_rendezvous_str);
} }
done: done:
@ -398,7 +398,7 @@ test_pick_bad_tor2web_rendezvous_node(void *arg)
retval = routerset_parse(options->Tor2webRendezvousPoints, retval = routerset_parse(options->Tor2webRendezvousPoints,
tor2web_rendezvous_str, tor2web_rendezvous_str,
"test_tor2web_rp"); "test_tor2web_rp");
tt_int_op(retval, >=, 0); tt_int_op(retval, OP_GE, 0);
/* Pick rendezvous point. Since Tor2webRendezvousPoints was set to a /* Pick rendezvous point. Since Tor2webRendezvousPoints was set to a
dummy value, we shouldn't find any eligible RPs. */ dummy value, we shouldn't find any eligible RPs. */
@ -435,30 +435,30 @@ test_hs_rend_data(void *arg)
REND_NO_AUTH); REND_NO_AUTH);
tt_assert(client); tt_assert(client);
rend_data_v2_t *client_v2 = TO_REND_DATA_V2(client); rend_data_v2_t *client_v2 = TO_REND_DATA_V2(client);
tt_int_op(client_v2->auth_type, ==, REND_NO_AUTH); tt_int_op(client_v2->auth_type, OP_EQ, REND_NO_AUTH);
tt_str_op(client_v2->onion_address, OP_EQ, STR_HS_ADDR); tt_str_op(client_v2->onion_address, OP_EQ, STR_HS_ADDR);
tt_mem_op(client_v2->desc_id_fetch, OP_EQ, desc_id, sizeof(desc_id)); tt_mem_op(client_v2->desc_id_fetch, OP_EQ, desc_id, sizeof(desc_id));
tt_mem_op(client_v2->descriptor_cookie, OP_EQ, client_cookie, tt_mem_op(client_v2->descriptor_cookie, OP_EQ, client_cookie,
sizeof(client_cookie)); sizeof(client_cookie));
tt_assert(client->hsdirs_fp); tt_assert(client->hsdirs_fp);
tt_int_op(smartlist_len(client->hsdirs_fp), ==, 0); tt_int_op(smartlist_len(client->hsdirs_fp), OP_EQ, 0);
for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) { for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) {
int ret = rend_compute_v2_desc_id(desc_id, client_v2->onion_address, int ret = rend_compute_v2_desc_id(desc_id, client_v2->onion_address,
client_v2->descriptor_cookie, now, rep); client_v2->descriptor_cookie, now, rep);
/* That shouldn't never fail. */ /* That shouldn't never fail. */
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
tt_mem_op(client_v2->descriptor_id[rep], OP_EQ, desc_id, tt_mem_op(client_v2->descriptor_id[rep], OP_EQ, desc_id,
sizeof(desc_id)); sizeof(desc_id));
} }
/* The rest should be zeroed because this is a client request. */ /* The rest should be zeroed because this is a client request. */
tt_int_op(tor_digest_is_zero(client_v2->rend_pk_digest), ==, 1); tt_int_op(tor_digest_is_zero(client_v2->rend_pk_digest), OP_EQ, 1);
tt_int_op(tor_digest_is_zero(client->rend_cookie), ==, 1); tt_int_op(tor_digest_is_zero(client->rend_cookie), OP_EQ, 1);
/* Test dup(). */ /* Test dup(). */
client_dup = rend_data_dup(client); client_dup = rend_data_dup(client);
tt_assert(client_dup); tt_assert(client_dup);
rend_data_v2_t *client_dup_v2 = TO_REND_DATA_V2(client_dup); rend_data_v2_t *client_dup_v2 = TO_REND_DATA_V2(client_dup);
tt_int_op(client_dup_v2->auth_type, ==, client_v2->auth_type); tt_int_op(client_dup_v2->auth_type, OP_EQ, client_v2->auth_type);
tt_str_op(client_dup_v2->onion_address, OP_EQ, client_v2->onion_address); tt_str_op(client_dup_v2->onion_address, OP_EQ, client_v2->onion_address);
tt_mem_op(client_dup_v2->desc_id_fetch, OP_EQ, client_v2->desc_id_fetch, tt_mem_op(client_dup_v2->desc_id_fetch, OP_EQ, client_v2->desc_id_fetch,
sizeof(client_dup_v2->desc_id_fetch)); sizeof(client_dup_v2->desc_id_fetch));
@ -467,14 +467,14 @@ test_hs_rend_data(void *arg)
sizeof(client_dup_v2->descriptor_cookie)); sizeof(client_dup_v2->descriptor_cookie));
tt_assert(client_dup->hsdirs_fp); tt_assert(client_dup->hsdirs_fp);
tt_int_op(smartlist_len(client_dup->hsdirs_fp), ==, 0); tt_int_op(smartlist_len(client_dup->hsdirs_fp), OP_EQ, 0);
for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) { for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) {
tt_mem_op(client_dup_v2->descriptor_id[rep], OP_EQ, tt_mem_op(client_dup_v2->descriptor_id[rep], OP_EQ,
client_v2->descriptor_id[rep], DIGEST_LEN); client_v2->descriptor_id[rep], DIGEST_LEN);
} }
/* The rest should be zeroed because this is a client request. */ /* The rest should be zeroed because this is a client request. */
tt_int_op(tor_digest_is_zero(client_dup_v2->rend_pk_digest), ==, 1); tt_int_op(tor_digest_is_zero(client_dup_v2->rend_pk_digest), OP_EQ, 1);
tt_int_op(tor_digest_is_zero(client_dup->rend_cookie), ==, 1); tt_int_op(tor_digest_is_zero(client_dup->rend_cookie), OP_EQ, 1);
rend_data_free(client); rend_data_free(client);
client = NULL; client = NULL;
rend_data_free(client_dup); rend_data_free(client_dup);
@ -490,19 +490,19 @@ test_hs_rend_data(void *arg)
client = rend_data_client_create(NULL, desc_id, NULL, REND_BASIC_AUTH); client = rend_data_client_create(NULL, desc_id, NULL, REND_BASIC_AUTH);
tt_assert(client); tt_assert(client);
client_v2 = TO_REND_DATA_V2(client); client_v2 = TO_REND_DATA_V2(client);
tt_int_op(client_v2->auth_type, ==, REND_BASIC_AUTH); tt_int_op(client_v2->auth_type, OP_EQ, REND_BASIC_AUTH);
tt_int_op(strlen(client_v2->onion_address), ==, 0); tt_int_op(strlen(client_v2->onion_address), OP_EQ, 0);
tt_mem_op(client_v2->desc_id_fetch, OP_EQ, desc_id, sizeof(desc_id)); tt_mem_op(client_v2->desc_id_fetch, OP_EQ, desc_id, sizeof(desc_id));
tt_int_op(tor_mem_is_zero(client_v2->descriptor_cookie, tt_int_op(tor_mem_is_zero(client_v2->descriptor_cookie,
sizeof(client_v2->descriptor_cookie)), ==, 1); sizeof(client_v2->descriptor_cookie)), OP_EQ, 1);
tt_assert(client->hsdirs_fp); tt_assert(client->hsdirs_fp);
tt_int_op(smartlist_len(client->hsdirs_fp), ==, 0); tt_int_op(smartlist_len(client->hsdirs_fp), OP_EQ, 0);
for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) { for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) {
tt_int_op(tor_digest_is_zero(client_v2->descriptor_id[rep]), ==, 1); tt_int_op(tor_digest_is_zero(client_v2->descriptor_id[rep]), OP_EQ, 1);
} }
/* The rest should be zeroed because this is a client request. */ /* The rest should be zeroed because this is a client request. */
tt_int_op(tor_digest_is_zero(client_v2->rend_pk_digest), ==, 1); tt_int_op(tor_digest_is_zero(client_v2->rend_pk_digest), OP_EQ, 1);
tt_int_op(tor_digest_is_zero(client->rend_cookie), ==, 1); tt_int_op(tor_digest_is_zero(client->rend_cookie), OP_EQ, 1);
rend_data_free(client); rend_data_free(client);
client = NULL; client = NULL;
@ -516,38 +516,38 @@ test_hs_rend_data(void *arg)
rend_cookie, REND_NO_AUTH); rend_cookie, REND_NO_AUTH);
tt_assert(service); tt_assert(service);
rend_data_v2_t *service_v2 = TO_REND_DATA_V2(service); rend_data_v2_t *service_v2 = TO_REND_DATA_V2(service);
tt_int_op(service_v2->auth_type, ==, REND_NO_AUTH); tt_int_op(service_v2->auth_type, OP_EQ, REND_NO_AUTH);
tt_str_op(service_v2->onion_address, OP_EQ, STR_HS_ADDR); tt_str_op(service_v2->onion_address, OP_EQ, STR_HS_ADDR);
tt_mem_op(service_v2->rend_pk_digest, OP_EQ, rend_pk_digest, tt_mem_op(service_v2->rend_pk_digest, OP_EQ, rend_pk_digest,
sizeof(rend_pk_digest)); sizeof(rend_pk_digest));
tt_mem_op(service->rend_cookie, OP_EQ, rend_cookie, sizeof(rend_cookie)); tt_mem_op(service->rend_cookie, OP_EQ, rend_cookie, sizeof(rend_cookie));
tt_assert(service->hsdirs_fp); tt_assert(service->hsdirs_fp);
tt_int_op(smartlist_len(service->hsdirs_fp), ==, 0); tt_int_op(smartlist_len(service->hsdirs_fp), OP_EQ, 0);
for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) { for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) {
tt_int_op(tor_digest_is_zero(service_v2->descriptor_id[rep]), ==, 1); tt_int_op(tor_digest_is_zero(service_v2->descriptor_id[rep]), OP_EQ, 1);
} }
/* The rest should be zeroed because this is a service request. */ /* The rest should be zeroed because this is a service request. */
tt_int_op(tor_digest_is_zero(service_v2->descriptor_cookie), ==, 1); tt_int_op(tor_digest_is_zero(service_v2->descriptor_cookie), OP_EQ, 1);
tt_int_op(tor_digest_is_zero(service_v2->desc_id_fetch), ==, 1); tt_int_op(tor_digest_is_zero(service_v2->desc_id_fetch), OP_EQ, 1);
/* Test dup(). */ /* Test dup(). */
service_dup = rend_data_dup(service); service_dup = rend_data_dup(service);
rend_data_v2_t *service_dup_v2 = TO_REND_DATA_V2(service_dup); rend_data_v2_t *service_dup_v2 = TO_REND_DATA_V2(service_dup);
tt_assert(service_dup); tt_assert(service_dup);
tt_int_op(service_dup_v2->auth_type, ==, service_v2->auth_type); tt_int_op(service_dup_v2->auth_type, OP_EQ, service_v2->auth_type);
tt_str_op(service_dup_v2->onion_address, OP_EQ, service_v2->onion_address); tt_str_op(service_dup_v2->onion_address, OP_EQ, service_v2->onion_address);
tt_mem_op(service_dup_v2->rend_pk_digest, OP_EQ, service_v2->rend_pk_digest, tt_mem_op(service_dup_v2->rend_pk_digest, OP_EQ, service_v2->rend_pk_digest,
sizeof(service_dup_v2->rend_pk_digest)); sizeof(service_dup_v2->rend_pk_digest));
tt_mem_op(service_dup->rend_cookie, OP_EQ, service->rend_cookie, tt_mem_op(service_dup->rend_cookie, OP_EQ, service->rend_cookie,
sizeof(service_dup->rend_cookie)); sizeof(service_dup->rend_cookie));
tt_assert(service_dup->hsdirs_fp); tt_assert(service_dup->hsdirs_fp);
tt_int_op(smartlist_len(service_dup->hsdirs_fp), ==, 0); tt_int_op(smartlist_len(service_dup->hsdirs_fp), OP_EQ, 0);
for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) { for (rep = 0; rep < REND_NUMBER_OF_NON_CONSECUTIVE_REPLICAS; rep++) {
tt_int_op(tor_digest_is_zero(service_dup_v2->descriptor_id[rep]), ==, 1); tt_int_op(tor_digest_is_zero(service_dup_v2->descriptor_id[rep]), OP_EQ, 1);
} }
/* The rest should be zeroed because this is a service request. */ /* The rest should be zeroed because this is a service request. */
tt_int_op(tor_digest_is_zero(service_dup_v2->descriptor_cookie), ==, 1); tt_int_op(tor_digest_is_zero(service_dup_v2->descriptor_cookie), OP_EQ, 1);
tt_int_op(tor_digest_is_zero(service_dup_v2->desc_id_fetch), ==, 1); tt_int_op(tor_digest_is_zero(service_dup_v2->desc_id_fetch), OP_EQ, 1);
done: done:
rend_data_free(service); rend_data_free(service);

40
src/test/test_hs_cache.c
View File

@ -55,7 +55,7 @@ test_directory(void *arg)
init_test(); init_test();
/* Generate a valid descriptor with normal values. */ /* Generate a valid descriptor with normal values. */
ret = ed25519_keypair_generate(&signing_kp1, 0); ret = ed25519_keypair_generate(&signing_kp1, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
desc1 = hs_helper_build_hs_desc_with_ip(&signing_kp1); desc1 = hs_helper_build_hs_desc_with_ip(&signing_kp1);
tt_assert(desc1); tt_assert(desc1);
ret = hs_desc_encode_descriptor(desc1, &signing_kp1, &desc1_str); ret = hs_desc_encode_descriptor(desc1, &signing_kp1, &desc1_str);
@ -79,7 +79,7 @@ test_directory(void *arg)
/* Tell our OOM to run and to at least remove a byte which will result in /* Tell our OOM to run and to at least remove a byte which will result in
* removing the descriptor from our cache. */ * removing the descriptor from our cache. */
oom_size = hs_cache_handle_oom(time(NULL), 1); oom_size = hs_cache_handle_oom(time(NULL), 1);
tt_int_op(oom_size, >=, 1); tt_int_op(oom_size, OP_GE, 1);
ret = hs_cache_lookup_as_dir(3, helper_get_hsdir_query(desc1), NULL); ret = hs_cache_lookup_as_dir(3, helper_get_hsdir_query(desc1), NULL);
tt_int_op(ret, OP_EQ, 0); tt_int_op(ret, OP_EQ, 0);
} }
@ -88,7 +88,7 @@ test_directory(void *arg)
{ {
ed25519_keypair_t signing_kp_zero; ed25519_keypair_t signing_kp_zero;
ret = ed25519_keypair_generate(&signing_kp_zero, 0); ret = ed25519_keypair_generate(&signing_kp_zero, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
hs_descriptor_t *desc_zero_lifetime; hs_descriptor_t *desc_zero_lifetime;
desc_zero_lifetime = hs_helper_build_hs_desc_with_ip(&signing_kp_zero); desc_zero_lifetime = hs_helper_build_hs_desc_with_ip(&signing_kp_zero);
tt_assert(desc_zero_lifetime); tt_assert(desc_zero_lifetime);
@ -116,7 +116,7 @@ test_directory(void *arg)
tt_int_op(ret, OP_EQ, 0); tt_int_op(ret, OP_EQ, 0);
/* Cleanup our entire cache. */ /* Cleanup our entire cache. */
oom_size = hs_cache_handle_oom(time(NULL), 1); oom_size = hs_cache_handle_oom(time(NULL), 1);
tt_int_op(oom_size, >=, 1); tt_int_op(oom_size, OP_GE, 1);
hs_descriptor_free(desc_zero_lifetime); hs_descriptor_free(desc_zero_lifetime);
tor_free(desc_zero_lifetime_str); tor_free(desc_zero_lifetime_str);
} }
@ -178,7 +178,7 @@ test_clean_as_dir(void *arg)
/* Generate a valid descriptor with values. */ /* Generate a valid descriptor with values. */
ret = ed25519_keypair_generate(&signing_kp1, 0); ret = ed25519_keypair_generate(&signing_kp1, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
desc1 = hs_helper_build_hs_desc_with_ip(&signing_kp1); desc1 = hs_helper_build_hs_desc_with_ip(&signing_kp1);
tt_assert(desc1); tt_assert(desc1);
ret = hs_desc_encode_descriptor(desc1, &signing_kp1, &desc1_str); ret = hs_desc_encode_descriptor(desc1, &signing_kp1, &desc1_str);
@ -188,21 +188,21 @@ test_clean_as_dir(void *arg)
/* With the lifetime being 3 hours, a cleanup shouldn't remove it. */ /* With the lifetime being 3 hours, a cleanup shouldn't remove it. */
ret = cache_clean_v3_as_dir(now, 0); ret = cache_clean_v3_as_dir(now, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
/* Should be present after clean up. */ /* Should be present after clean up. */
ret = hs_cache_lookup_as_dir(3, helper_get_hsdir_query(desc1), NULL); ret = hs_cache_lookup_as_dir(3, helper_get_hsdir_query(desc1), NULL);
tt_int_op(ret, OP_EQ, 1); tt_int_op(ret, OP_EQ, 1);
/* Set a cutoff 100 seconds in the past. It should not remove the entry /* Set a cutoff 100 seconds in the past. It should not remove the entry
* since the entry is still recent enough. */ * since the entry is still recent enough. */
ret = cache_clean_v3_as_dir(now, now - 100); ret = cache_clean_v3_as_dir(now, now - 100);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
/* Should be present after clean up. */ /* Should be present after clean up. */
ret = hs_cache_lookup_as_dir(3, helper_get_hsdir_query(desc1), NULL); ret = hs_cache_lookup_as_dir(3, helper_get_hsdir_query(desc1), NULL);
tt_int_op(ret, OP_EQ, 1); tt_int_op(ret, OP_EQ, 1);
/* Set a cutoff of 100 seconds in the future. It should remove the entry /* Set a cutoff of 100 seconds in the future. It should remove the entry
* that we've just added since it's not too old for the cutoff. */ * that we've just added since it's not too old for the cutoff. */
ret = cache_clean_v3_as_dir(now, now + 100); ret = cache_clean_v3_as_dir(now, now + 100);
tt_int_op(ret, >, 0); tt_int_op(ret, OP_GT, 0);
/* Shouldn't be present after clean up. */ /* Shouldn't be present after clean up. */
ret = hs_cache_lookup_as_dir(3, helper_get_hsdir_query(desc1), NULL); ret = hs_cache_lookup_as_dir(3, helper_get_hsdir_query(desc1), NULL);
tt_int_op(ret, OP_EQ, 0); tt_int_op(ret, OP_EQ, 0);
@ -232,7 +232,7 @@ helper_fetch_desc_from_hsdir(const ed25519_public_key_t *blinded_key)
retval = ed25519_public_to_base64(hsdir_cache_key, retval = ed25519_public_to_base64(hsdir_cache_key,
blinded_key); blinded_key);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
tor_asprintf(&hsdir_query_str, GET("/tor/hs/3/%s"), hsdir_cache_key); tor_asprintf(&hsdir_query_str, GET("/tor/hs/3/%s"), hsdir_cache_key);
} }
@ -291,7 +291,7 @@ test_upload_and_download_hs_desc(void *arg)
{ {
ed25519_keypair_t signing_kp; ed25519_keypair_t signing_kp;
retval = ed25519_keypair_generate(&signing_kp, 0); retval = ed25519_keypair_generate(&signing_kp, 0);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
published_desc = hs_helper_build_hs_desc_with_ip(&signing_kp); published_desc = hs_helper_build_hs_desc_with_ip(&signing_kp);
tt_assert(published_desc); tt_assert(published_desc);
retval = hs_desc_encode_descriptor(published_desc, &signing_kp, retval = hs_desc_encode_descriptor(published_desc, &signing_kp,
@ -302,7 +302,7 @@ test_upload_and_download_hs_desc(void *arg)
/* Publish descriptor to the HSDir */ /* Publish descriptor to the HSDir */
{ {
retval = handle_post_hs_descriptor("/tor/hs/3/publish",published_desc_str); retval = handle_post_hs_descriptor("/tor/hs/3/publish",published_desc_str);
tt_int_op(retval, ==, 200); tt_int_op(retval, OP_EQ, 200);
} }
/* Simulate a fetch of the previously published descriptor */ /* Simulate a fetch of the previously published descriptor */
@ -355,7 +355,7 @@ test_hsdir_revision_counter_check(void *arg)
/* Generate a valid descriptor with normal values. */ /* Generate a valid descriptor with normal values. */
{ {
retval = ed25519_keypair_generate(&signing_kp, 0); retval = ed25519_keypair_generate(&signing_kp, 0);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
published_desc = hs_helper_build_hs_desc_with_ip(&signing_kp); published_desc = hs_helper_build_hs_desc_with_ip(&signing_kp);
tt_assert(published_desc); tt_assert(published_desc);
retval = hs_desc_encode_descriptor(published_desc, &signing_kp, retval = hs_desc_encode_descriptor(published_desc, &signing_kp,
@ -366,13 +366,13 @@ test_hsdir_revision_counter_check(void *arg)
/* Publish descriptor to the HSDir */ /* Publish descriptor to the HSDir */
{ {
retval = handle_post_hs_descriptor("/tor/hs/3/publish",published_desc_str); retval = handle_post_hs_descriptor("/tor/hs/3/publish",published_desc_str);
tt_int_op(retval, ==, 200); tt_int_op(retval, OP_EQ, 200);
} }
/* Try publishing again with the same revision counter: Should fail. */ /* Try publishing again with the same revision counter: Should fail. */
{ {
retval = handle_post_hs_descriptor("/tor/hs/3/publish",published_desc_str); retval = handle_post_hs_descriptor("/tor/hs/3/publish",published_desc_str);
tt_int_op(retval, ==, 400); tt_int_op(retval, OP_EQ, 400);
} }
/* Fetch the published descriptor and validate the revision counter. */ /* Fetch the published descriptor and validate the revision counter. */
@ -385,11 +385,11 @@ test_hsdir_revision_counter_check(void *arg)
retval = hs_desc_decode_descriptor(received_desc_str, retval = hs_desc_decode_descriptor(received_desc_str,
subcredential, &received_desc); subcredential, &received_desc);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
tt_assert(received_desc); tt_assert(received_desc);
/* Check that the revision counter is correct */ /* Check that the revision counter is correct */
tt_u64_op(received_desc->plaintext_data.revision_counter, ==, 42); tt_u64_op(received_desc->plaintext_data.revision_counter, OP_EQ, 42);
hs_descriptor_free(received_desc); hs_descriptor_free(received_desc);
received_desc = NULL; received_desc = NULL;
@ -405,7 +405,7 @@ test_hsdir_revision_counter_check(void *arg)
tt_int_op(retval, OP_EQ, 0); tt_int_op(retval, OP_EQ, 0);
retval = handle_post_hs_descriptor("/tor/hs/3/publish",published_desc_str); retval = handle_post_hs_descriptor("/tor/hs/3/publish",published_desc_str);
tt_int_op(retval, ==, 200); tt_int_op(retval, OP_EQ, 200);
} }
/* Again, fetch the published descriptor and perform the revision counter /* Again, fetch the published descriptor and perform the revision counter
@ -418,11 +418,11 @@ test_hsdir_revision_counter_check(void *arg)
retval = hs_desc_decode_descriptor(received_desc_str, retval = hs_desc_decode_descriptor(received_desc_str,
subcredential, &received_desc); subcredential, &received_desc);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
tt_assert(received_desc); tt_assert(received_desc);
/* Check that the revision counter is the latest */ /* Check that the revision counter is the latest */
tt_u64_op(received_desc->plaintext_data.revision_counter, ==, 1313); tt_u64_op(received_desc->plaintext_data.revision_counter, OP_EQ, 1313);
} }
done: done:
@ -452,7 +452,7 @@ test_client_cache(void *arg)
/* Generate a valid descriptor with normal values. */ /* Generate a valid descriptor with normal values. */
{ {
retval = ed25519_keypair_generate(&signing_kp, 0); retval = ed25519_keypair_generate(&signing_kp, 0);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
published_desc = hs_helper_build_hs_desc_with_ip(&signing_kp); published_desc = hs_helper_build_hs_desc_with_ip(&signing_kp);
tt_assert(published_desc); tt_assert(published_desc);
retval = hs_desc_encode_descriptor(published_desc, &signing_kp, retval = hs_desc_encode_descriptor(published_desc, &signing_kp,

6
src/test/test_hs_client.c
View File

@ -100,7 +100,7 @@ helper_get_circ_and_stream_for_test(origin_circuit_t **circ_out,
or_circ->build_state->pending_final_cpath->rend_dh_handshake_state); or_circ->build_state->pending_final_cpath->rend_dh_handshake_state);
retval = crypto_dh_generate_public( retval = crypto_dh_generate_public(
or_circ->build_state->pending_final_cpath->rend_dh_handshake_state); or_circ->build_state->pending_final_cpath->rend_dh_handshake_state);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
or_circ->rend_data = rend_data_dup(conn_rend_data); or_circ->rend_data = rend_data_dup(conn_rend_data);
} else { } else {
/* prop224: Setup hs ident on the circuit */ /* prop224: Setup hs ident on the circuit */
@ -154,7 +154,7 @@ test_e2e_rend_circuit_setup_legacy(void *arg)
/* Check number of hops */ /* Check number of hops */
retval = cpath_get_n_hops(&or_circ->cpath); retval = cpath_get_n_hops(&or_circ->cpath);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
/* Check that our stream is not attached on any circuits */ /* Check that our stream is not attached on any circuits */
tt_assert(!TO_EDGE_CONN(conn)->on_circuit); tt_assert(!TO_EDGE_CONN(conn)->on_circuit);
@ -236,7 +236,7 @@ test_e2e_rend_circuit_setup(void *arg)
/* Check number of hops: There should be no hops yet to this circ */ /* Check number of hops: There should be no hops yet to this circ */
retval = cpath_get_n_hops(&or_circ->cpath); retval = cpath_get_n_hops(&or_circ->cpath);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
tt_assert(!or_circ->cpath); tt_assert(!or_circ->cpath);
/* Check that our stream is not attached on any circuits */ /* Check that our stream is not attached on any circuits */

60
src/test/test_hs_common.c
View File

@ -138,22 +138,22 @@ test_time_period(void *arg)
/* Let's do the example in prop224 section [TIME-PERIODS] */ /* Let's do the example in prop224 section [TIME-PERIODS] */
retval = parse_rfc1123_time("Wed, 13 Apr 2016 11:00:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 11:00:00 UTC",
&fake_time); &fake_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
/* Check that the time period number is right */ /* Check that the time period number is right */
tn = hs_get_time_period_num(fake_time); tn = hs_get_time_period_num(fake_time);
tt_u64_op(tn, ==, 16903); tt_u64_op(tn, OP_EQ, 16903);
/* Increase current time to 11:59:59 UTC and check that the time period /* Increase current time to 11:59:59 UTC and check that the time period
number is still the same */ number is still the same */
fake_time += 3599; fake_time += 3599;
tn = hs_get_time_period_num(fake_time); tn = hs_get_time_period_num(fake_time);
tt_u64_op(tn, ==, 16903); tt_u64_op(tn, OP_EQ, 16903);
{ /* Check start time of next time period */ { /* Check start time of next time period */
retval = parse_rfc1123_time("Wed, 13 Apr 2016 12:00:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 12:00:00 UTC",
&correct_time); &correct_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
start_time = hs_get_start_time_of_next_time_period(fake_time); start_time = hs_get_start_time_of_next_time_period(fake_time);
tt_int_op(start_time, OP_EQ, correct_time); tt_int_op(start_time, OP_EQ, correct_time);
@ -162,16 +162,16 @@ test_time_period(void *arg)
/* Now take time to 12:00:00 UTC and check that the time period rotated */ /* Now take time to 12:00:00 UTC and check that the time period rotated */
fake_time += 1; fake_time += 1;
tn = hs_get_time_period_num(fake_time); tn = hs_get_time_period_num(fake_time);
tt_u64_op(tn, ==, 16904); tt_u64_op(tn, OP_EQ, 16904);
/* Now also check our hs_get_next_time_period_num() function */ /* Now also check our hs_get_next_time_period_num() function */
tn = hs_get_next_time_period_num(fake_time); tn = hs_get_next_time_period_num(fake_time);
tt_u64_op(tn, ==, 16905); tt_u64_op(tn, OP_EQ, 16905);
{ /* Check start time of next time period again */ { /* Check start time of next time period again */
retval = parse_rfc1123_time("Wed, 14 Apr 2016 12:00:00 UTC", retval = parse_rfc1123_time("Wed, 14 Apr 2016 12:00:00 UTC",
&correct_time); &correct_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
start_time = hs_get_start_time_of_next_time_period(fake_time); start_time = hs_get_start_time_of_next_time_period(fake_time);
tt_int_op(start_time, OP_EQ, correct_time); tt_int_op(start_time, OP_EQ, correct_time);
@ -203,7 +203,7 @@ test_start_time_of_next_time_period(void *arg)
/* Do some basic tests */ /* Do some basic tests */
retval = parse_rfc1123_time("Wed, 13 Apr 2016 11:00:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 11:00:00 UTC",
&fake_time); &fake_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time); next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time);
/* Compare it with the correct result */ /* Compare it with the correct result */
format_iso_time(tbuf, next_tp_start_time); format_iso_time(tbuf, next_tp_start_time);
@ -212,7 +212,7 @@ test_start_time_of_next_time_period(void *arg)
/* Another test with an edge-case time (start of TP) */ /* Another test with an edge-case time (start of TP) */
retval = parse_rfc1123_time("Wed, 13 Apr 2016 12:00:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 12:00:00 UTC",
&fake_time); &fake_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time); next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time);
format_iso_time(tbuf, next_tp_start_time); format_iso_time(tbuf, next_tp_start_time);
tt_str_op("2016-04-14 12:00:00", OP_EQ, tbuf); tt_str_op("2016-04-14 12:00:00", OP_EQ, tbuf);
@ -230,7 +230,7 @@ test_start_time_of_next_time_period(void *arg)
retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:00:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:00:00 UTC",
&fake_time); &fake_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time); next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time);
/* Compare it with the correct result */ /* Compare it with the correct result */
format_iso_time(tbuf, next_tp_start_time); format_iso_time(tbuf, next_tp_start_time);
@ -238,7 +238,7 @@ test_start_time_of_next_time_period(void *arg)
retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:02:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:02:00 UTC",
&fake_time); &fake_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time); next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time);
/* Compare it with the correct result */ /* Compare it with the correct result */
format_iso_time(tbuf, next_tp_start_time); format_iso_time(tbuf, next_tp_start_time);
@ -262,35 +262,35 @@ test_desc_overlap_period(void *arg)
dummy_consensus = tor_malloc_zero(sizeof(networkstatus_t)); dummy_consensus = tor_malloc_zero(sizeof(networkstatus_t));
retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:00:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:00:00 UTC",
&dummy_consensus->valid_after); &dummy_consensus->valid_after);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
/* Now increase the valid_after so that it goes to 11:00:00 UTC. Overlap /* Now increase the valid_after so that it goes to 11:00:00 UTC. Overlap
period is still active. */ period is still active. */
dummy_consensus->valid_after += 3600*11; dummy_consensus->valid_after += 3600*11;
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
/* Now increase the valid_after so that it goes to 11:59:59 UTC. Overlap /* Now increase the valid_after so that it goes to 11:59:59 UTC. Overlap
period is still active. */ period is still active. */
dummy_consensus->valid_after += 3599; dummy_consensus->valid_after += 3599;
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
/* Now increase the valid_after so that it drifts to noon, and check that /* Now increase the valid_after so that it drifts to noon, and check that
overlap mode is not active anymore. */ overlap mode is not active anymore. */
dummy_consensus->valid_after += 1; dummy_consensus->valid_after += 1;
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
/* Check that overlap mode is also inactive at 23:59:59 UTC */ /* Check that overlap mode is also inactive at 23:59:59 UTC */
retval = parse_rfc1123_time("Wed, 13 Apr 2016 23:59:59 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 23:59:59 UTC",
&dummy_consensus->valid_after); &dummy_consensus->valid_after);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
done: done:
tor_free(dummy_consensus); tor_free(dummy_consensus);
@ -322,39 +322,39 @@ test_desc_overlap_period_testnet(void *arg)
* window. Let's test it: */ * window. Let's test it: */
retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:00:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:00:00 UTC",
&dummy_consensus->valid_after); &dummy_consensus->valid_after);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:01:59 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:01:59 UTC",
&dummy_consensus->valid_after); &dummy_consensus->valid_after);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:02:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:02:00 UTC",
&dummy_consensus->valid_after); &dummy_consensus->valid_after);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:04:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:04:00 UTC",
&dummy_consensus->valid_after); &dummy_consensus->valid_after);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:05:59 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:05:59 UTC",
&dummy_consensus->valid_after); &dummy_consensus->valid_after);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 1); tt_int_op(retval, OP_EQ, 1);
retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:06:00 UTC", retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:06:00 UTC",
&dummy_consensus->valid_after); &dummy_consensus->valid_after);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = hs_overlap_mode_is_active(dummy_consensus, now); retval = hs_overlap_mode_is_active(dummy_consensus, now);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
done: done:
tor_free(dummy_consensus); tor_free(dummy_consensus);

86
src/test/test_hs_descriptor.c
View File

@ -54,7 +54,7 @@ test_cert_encoding(void *arg)
/* Test the certificate encoding function. */ /* Test the certificate encoding function. */
ret = tor_cert_encode_ed22519(cert, &encoded); ret = tor_cert_encode_ed22519(cert, &encoded);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
/* Validated the certificate string. */ /* Validated the certificate string. */
{ {
@ -63,7 +63,7 @@ test_cert_encoding(void *arg)
size_t b64_cert_len; size_t b64_cert_len;
tor_cert_t *parsed_cert; tor_cert_t *parsed_cert;
tt_int_op(strcmpstart(pos, "-----BEGIN ED25519 CERT-----\n"), ==, 0); tt_int_op(strcmpstart(pos, "-----BEGIN ED25519 CERT-----\n"), OP_EQ, 0);
pos += strlen("-----BEGIN ED25519 CERT-----\n"); pos += strlen("-----BEGIN ED25519 CERT-----\n");
/* Isolate the base64 encoded certificate and try to decode it. */ /* Isolate the base64 encoded certificate and try to decode it. */
@ -72,23 +72,23 @@ test_cert_encoding(void *arg)
b64_cert = pos; b64_cert = pos;
b64_cert_len = end - pos; b64_cert_len = end - pos;
ret = base64_decode(buf, sizeof(buf), b64_cert, b64_cert_len); ret = base64_decode(buf, sizeof(buf), b64_cert, b64_cert_len);
tt_int_op(ret, >, 0); tt_int_op(ret, OP_GT, 0);
/* Parseable? */ /* Parseable? */
parsed_cert = tor_cert_parse((uint8_t *) buf, ret); parsed_cert = tor_cert_parse((uint8_t *) buf, ret);
tt_assert(parsed_cert); tt_assert(parsed_cert);
/* Signature is valid? */ /* Signature is valid? */
ret = tor_cert_checksig(parsed_cert, &kp.pubkey, now + 10); ret = tor_cert_checksig(parsed_cert, &kp.pubkey, now + 10);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
ret = tor_cert_eq(cert, parsed_cert); ret = tor_cert_eq(cert, parsed_cert);
tt_int_op(ret, ==, 1); tt_int_op(ret, OP_EQ, 1);
/* The cert did have the signing key? */ /* The cert did have the signing key? */
ret= ed25519_pubkey_eq(&parsed_cert->signing_key, &kp.pubkey); ret= ed25519_pubkey_eq(&parsed_cert->signing_key, &kp.pubkey);
tt_int_op(ret, ==, 1); tt_int_op(ret, OP_EQ, 1);
tor_cert_free(parsed_cert); tor_cert_free(parsed_cert);
/* Get to the end part of the certificate. */ /* Get to the end part of the certificate. */
pos += b64_cert_len; pos += b64_cert_len;
tt_int_op(strcmpstart(pos, "-----END ED25519 CERT-----"), ==, 0); tt_int_op(strcmpstart(pos, "-----END ED25519 CERT-----"), OP_EQ, 0);
pos += strlen("-----END ED25519 CERT-----"); pos += strlen("-----END ED25519 CERT-----");
} }
@ -188,22 +188,22 @@ test_link_specifier(void *arg)
spec.type = LS_IPV4; spec.type = LS_IPV4;
ret = tor_addr_parse(&spec.u.ap.addr, "1.2.3.4"); ret = tor_addr_parse(&spec.u.ap.addr, "1.2.3.4");
tt_int_op(ret, ==, AF_INET); tt_int_op(ret, OP_EQ, AF_INET);
b64 = encode_link_specifiers(link_specifiers); b64 = encode_link_specifiers(link_specifiers);
tt_assert(b64); tt_assert(b64);
/* Decode it and validate the format. */ /* Decode it and validate the format. */
ret = base64_decode(buf, sizeof(buf), b64, strlen(b64)); ret = base64_decode(buf, sizeof(buf), b64, strlen(b64));
tt_int_op(ret, >, 0); tt_int_op(ret, OP_GT, 0);
/* First byte is the number of link specifier. */ /* First byte is the number of link specifier. */
tt_int_op(get_uint8(buf), ==, 1); tt_int_op(get_uint8(buf), OP_EQ, 1);
ret = link_specifier_parse(&ls, (uint8_t *) buf + 1, ret - 1); ret = link_specifier_parse(&ls, (uint8_t *) buf + 1, ret - 1);
tt_int_op(ret, ==, 8); tt_int_op(ret, OP_EQ, 8);
/* Should be 2 bytes for port and 4 bytes for IPv4. */ /* Should be 2 bytes for port and 4 bytes for IPv4. */
tt_int_op(link_specifier_get_ls_len(ls), ==, 6); tt_int_op(link_specifier_get_ls_len(ls), OP_EQ, 6);
ipv4 = link_specifier_get_un_ipv4_addr(ls); ipv4 = link_specifier_get_un_ipv4_addr(ls);
tt_int_op(tor_addr_to_ipv4h(&spec.u.ap.addr), ==, ipv4); tt_int_op(tor_addr_to_ipv4h(&spec.u.ap.addr), OP_EQ, ipv4);
tt_int_op(link_specifier_get_un_ipv4_port(ls), ==, spec.u.ap.port); tt_int_op(link_specifier_get_un_ipv4_port(ls), OP_EQ, spec.u.ap.port);
link_specifier_free(ls); link_specifier_free(ls);
tor_free(b64); tor_free(b64);
@ -217,24 +217,24 @@ test_link_specifier(void *arg)
spec.type = LS_IPV6; spec.type = LS_IPV6;
ret = tor_addr_parse(&spec.u.ap.addr, "[1:2:3:4::]"); ret = tor_addr_parse(&spec.u.ap.addr, "[1:2:3:4::]");
tt_int_op(ret, ==, AF_INET6); tt_int_op(ret, OP_EQ, AF_INET6);
b64 = encode_link_specifiers(link_specifiers); b64 = encode_link_specifiers(link_specifiers);
tt_assert(b64); tt_assert(b64);
/* Decode it and validate the format. */ /* Decode it and validate the format. */
ret = base64_decode(buf, sizeof(buf), b64, strlen(b64)); ret = base64_decode(buf, sizeof(buf), b64, strlen(b64));
tt_int_op(ret, >, 0); tt_int_op(ret, OP_GT, 0);
/* First byte is the number of link specifier. */ /* First byte is the number of link specifier. */
tt_int_op(get_uint8(buf), ==, 1); tt_int_op(get_uint8(buf), OP_EQ, 1);
ret = link_specifier_parse(&ls, (uint8_t *) buf + 1, ret - 1); ret = link_specifier_parse(&ls, (uint8_t *) buf + 1, ret - 1);
tt_int_op(ret, ==, 20); tt_int_op(ret, OP_EQ, 20);
/* Should be 2 bytes for port and 16 bytes for IPv6. */ /* Should be 2 bytes for port and 16 bytes for IPv6. */
tt_int_op(link_specifier_get_ls_len(ls), ==, 18); tt_int_op(link_specifier_get_ls_len(ls), OP_EQ, 18);
for (unsigned int i = 0; i < sizeof(ipv6); i++) { for (unsigned int i = 0; i < sizeof(ipv6); i++) {
ipv6[i] = link_specifier_get_un_ipv6_addr(ls, i); ipv6[i] = link_specifier_get_un_ipv6_addr(ls, i);
} }
tt_mem_op(tor_addr_to_in6_addr8(&spec.u.ap.addr), ==, ipv6, sizeof(ipv6)); tt_mem_op(tor_addr_to_in6_addr8(&spec.u.ap.addr), OP_EQ, ipv6, sizeof(ipv6));
tt_int_op(link_specifier_get_un_ipv6_port(ls), ==, spec.u.ap.port); tt_int_op(link_specifier_get_un_ipv6_port(ls), OP_EQ, spec.u.ap.port);
link_specifier_free(ls); link_specifier_free(ls);
tor_free(b64); tor_free(b64);
@ -253,12 +253,12 @@ test_link_specifier(void *arg)
/* Decode it and validate the format. */ /* Decode it and validate the format. */
ret = base64_decode(buf, sizeof(buf), b64, strlen(b64)); ret = base64_decode(buf, sizeof(buf), b64, strlen(b64));
tt_int_op(ret, >, 0); tt_int_op(ret, OP_GT, 0);
/* First byte is the number of link specifier. */ /* First byte is the number of link specifier. */
tt_int_op(get_uint8(buf), ==, 1); tt_int_op(get_uint8(buf), OP_EQ, 1);
ret = link_specifier_parse(&ls, (uint8_t *) buf + 1, ret - 1); ret = link_specifier_parse(&ls, (uint8_t *) buf + 1, ret - 1);
/* 20 bytes digest + 1 byte type + 1 byte len. */ /* 20 bytes digest + 1 byte type + 1 byte len. */
tt_int_op(ret, ==, 22); tt_int_op(ret, OP_EQ, 22);
tt_int_op(link_specifier_getlen_un_legacy_id(ls), OP_EQ, DIGEST_LEN); tt_int_op(link_specifier_getlen_un_legacy_id(ls), OP_EQ, DIGEST_LEN);
/* Digest length is 20 bytes. */ /* Digest length is 20 bytes. */
tt_int_op(link_specifier_get_ls_len(ls), OP_EQ, DIGEST_LEN); tt_int_op(link_specifier_get_ls_len(ls), OP_EQ, DIGEST_LEN);
@ -284,10 +284,10 @@ test_encode_descriptor(void *arg)
(void) arg; (void) arg;
ret = ed25519_keypair_generate(&signing_kp, 0); ret = ed25519_keypair_generate(&signing_kp, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
desc = hs_helper_build_hs_desc_with_ip(&signing_kp); desc = hs_helper_build_hs_desc_with_ip(&signing_kp);
ret = hs_desc_encode_descriptor(desc, &signing_kp, &encoded); ret = hs_desc_encode_descriptor(desc, &signing_kp, &encoded);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
tt_assert(encoded); tt_assert(encoded);
done: done:
@ -309,7 +309,7 @@ test_decode_descriptor(void *arg)
(void) arg; (void) arg;
ret = ed25519_keypair_generate(&signing_kp, 0); ret = ed25519_keypair_generate(&signing_kp, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
desc = hs_helper_build_hs_desc_with_ip(&signing_kp); desc = hs_helper_build_hs_desc_with_ip(&signing_kp);
hs_helper_get_subcred_from_identity_keypair(&signing_kp, hs_helper_get_subcred_from_identity_keypair(&signing_kp,
@ -320,11 +320,11 @@ test_decode_descriptor(void *arg)
tt_int_op(ret, OP_EQ, -1); tt_int_op(ret, OP_EQ, -1);
ret = hs_desc_encode_descriptor(desc, &signing_kp, &encoded); ret = hs_desc_encode_descriptor(desc, &signing_kp, &encoded);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
tt_assert(encoded); tt_assert(encoded);
ret = hs_desc_decode_descriptor(encoded, subcredential, &decoded); ret = hs_desc_decode_descriptor(encoded, subcredential, &decoded);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
tt_assert(decoded); tt_assert(decoded);
hs_helper_desc_equal(desc, decoded); hs_helper_desc_equal(desc, decoded);
@ -333,18 +333,18 @@ test_decode_descriptor(void *arg)
{ {
ed25519_keypair_t signing_kp_no_ip; ed25519_keypair_t signing_kp_no_ip;
ret = ed25519_keypair_generate(&signing_kp_no_ip, 0); ret = ed25519_keypair_generate(&signing_kp_no_ip, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
hs_helper_get_subcred_from_identity_keypair(&signing_kp_no_ip, hs_helper_get_subcred_from_identity_keypair(&signing_kp_no_ip,
subcredential); subcredential);
desc_no_ip = hs_helper_build_hs_desc_no_ip(&signing_kp_no_ip); desc_no_ip = hs_helper_build_hs_desc_no_ip(&signing_kp_no_ip);
tt_assert(desc_no_ip); tt_assert(desc_no_ip);
tor_free(encoded); tor_free(encoded);
ret = hs_desc_encode_descriptor(desc_no_ip, &signing_kp_no_ip, &encoded); ret = hs_desc_encode_descriptor(desc_no_ip, &signing_kp_no_ip, &encoded);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
tt_assert(encoded); tt_assert(encoded);
hs_descriptor_free(decoded); hs_descriptor_free(decoded);
ret = hs_desc_decode_descriptor(encoded, subcredential, &decoded); ret = hs_desc_decode_descriptor(encoded, subcredential, &decoded);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
tt_assert(decoded); tt_assert(decoded);
} }
@ -436,7 +436,7 @@ test_decode_invalid_intro_point(void *arg)
hs_descriptor_free(desc); hs_descriptor_free(desc);
desc = NULL; desc = NULL;
ret = ed25519_keypair_generate(&signing_kp, 0); ret = ed25519_keypair_generate(&signing_kp, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
desc = hs_helper_build_hs_desc_with_ip(&signing_kp); desc = hs_helper_build_hs_desc_with_ip(&signing_kp);
const char *junk = "this is not a descriptor"; const char *junk = "this is not a descriptor";
ip = decode_introduction_point(desc, junk); ip = decode_introduction_point(desc, junk);
@ -629,7 +629,7 @@ test_decode_plaintext(void *arg)
{ {
size_t big = 64000; size_t big = 64000;
/* Must always be bigger than HS_DESC_MAX_LEN. */ /* Must always be bigger than HS_DESC_MAX_LEN. */
tt_int_op(HS_DESC_MAX_LEN, <, big); tt_int_op(HS_DESC_MAX_LEN, OP_LT, big);
char *plaintext = tor_malloc_zero(big); char *plaintext = tor_malloc_zero(big);
memset(plaintext, 'a', big); memset(plaintext, 'a', big);
plaintext[big - 1] = '\0'; plaintext[big - 1] = '\0';
@ -689,7 +689,7 @@ test_validate_cert(void *arg)
(void) arg; (void) arg;
ret = ed25519_keypair_generate(&kp, 0); ret = ed25519_keypair_generate(&kp, 0);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
/* Cert of type CERT_TYPE_AUTH_HS_IP_KEY. */ /* Cert of type CERT_TYPE_AUTH_HS_IP_KEY. */
cert = tor_cert_create(&kp, CERT_TYPE_AUTH_HS_IP_KEY, cert = tor_cert_create(&kp, CERT_TYPE_AUTH_HS_IP_KEY,
@ -740,16 +740,16 @@ test_desc_signature(void *arg)
tor_asprintf(&data, "This is a signed descriptor\n"); tor_asprintf(&data, "This is a signed descriptor\n");
ret = ed25519_sign_prefixed(&sig, (const uint8_t *) data, strlen(data), ret = ed25519_sign_prefixed(&sig, (const uint8_t *) data, strlen(data),
"Tor onion service descriptor sig v3", &kp); "Tor onion service descriptor sig v3", &kp);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
ret = ed25519_signature_to_base64(sig_b64, &sig); ret = ed25519_signature_to_base64(sig_b64, &sig);
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
/* Build the descriptor that should be valid. */ /* Build the descriptor that should be valid. */
tor_asprintf(&desc, "%ssignature %s\n", data, sig_b64); tor_asprintf(&desc, "%ssignature %s\n", data, sig_b64);
ret = desc_sig_is_valid(sig_b64, &kp.pubkey, desc, strlen(desc)); ret = desc_sig_is_valid(sig_b64, &kp.pubkey, desc, strlen(desc));
tt_int_op(ret, ==, 1); tt_int_op(ret, OP_EQ, 1);
/* Junk signature. */ /* Junk signature. */
ret = desc_sig_is_valid("JUNK", &kp.pubkey, desc, strlen(desc)); ret = desc_sig_is_valid("JUNK", &kp.pubkey, desc, strlen(desc));
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
done: done:
tor_free(desc); tor_free(desc);
@ -811,7 +811,7 @@ test_parse_hs_desc_superencrypted(void *arg)
retval = decode_superencrypted(bad_superencrypted_text1, retval = decode_superencrypted(bad_superencrypted_text1,
strlen(bad_superencrypted_text1), strlen(bad_superencrypted_text1),
&encrypted_out); &encrypted_out);
tt_u64_op(retval, ==, 0); tt_u64_op(retval, OP_EQ, 0);
tt_assert(!encrypted_out); tt_assert(!encrypted_out);
expect_log_msg_containing("Unrecognized desc auth type"); expect_log_msg_containing("Unrecognized desc auth type");
teardown_capture_of_logs(); teardown_capture_of_logs();
@ -822,7 +822,7 @@ test_parse_hs_desc_superencrypted(void *arg)
retval = decode_superencrypted(bad_superencrypted_text2, retval = decode_superencrypted(bad_superencrypted_text2,
strlen(bad_superencrypted_text2), strlen(bad_superencrypted_text2),
&encrypted_out); &encrypted_out);
tt_u64_op(retval, ==, 0); tt_u64_op(retval, OP_EQ, 0);
tt_assert(!encrypted_out); tt_assert(!encrypted_out);
expect_log_msg_containing("Bogus desc auth key in HS desc"); expect_log_msg_containing("Bogus desc auth key in HS desc");
teardown_capture_of_logs(); teardown_capture_of_logs();
@ -833,7 +833,7 @@ test_parse_hs_desc_superencrypted(void *arg)
retval = decode_superencrypted(bad_superencrypted_text3, retval = decode_superencrypted(bad_superencrypted_text3,
strlen(bad_superencrypted_text3), strlen(bad_superencrypted_text3),
&encrypted_out); &encrypted_out);
tt_u64_op(retval, ==, 0); tt_u64_op(retval, OP_EQ, 0);
tt_assert(!encrypted_out); tt_assert(!encrypted_out);
expect_log_msg_containing("Length of descriptor\'s encrypted data " expect_log_msg_containing("Length of descriptor\'s encrypted data "
"is too small."); "is too small.");
@ -845,7 +845,7 @@ test_parse_hs_desc_superencrypted(void *arg)
strlen(correct_superencrypted_text), strlen(correct_superencrypted_text),
&encrypted_out); &encrypted_out);
tt_u64_op(retval, ==, strlen(correct_encrypted_plaintext)); tt_u64_op(retval, OP_EQ, strlen(correct_encrypted_plaintext));
tt_mem_op(encrypted_out, OP_EQ, correct_encrypted_plaintext, tt_mem_op(encrypted_out, OP_EQ, correct_encrypted_plaintext,
strlen(correct_encrypted_plaintext)); strlen(correct_encrypted_plaintext));

32
src/test/test_hs_intropoint.c
View File

@ -191,7 +191,7 @@ test_establish_intro_wrong_purpose(void *arg)
retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len); retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len);
expect_log_msg_containing("Rejecting ESTABLISH_INTRO on non-OR circuit."); expect_log_msg_containing("Rejecting ESTABLISH_INTRO on non-OR circuit.");
teardown_capture_of_logs(); teardown_capture_of_logs();
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
done: done:
circuit_free(TO_CIRCUIT(intro_circ)); circuit_free(TO_CIRCUIT(intro_circ));
@ -225,7 +225,7 @@ test_establish_intro_wrong_keytype(void *arg)
retval = hs_intro_received_establish_intro(intro_circ, (uint8_t *) "", 0); retval = hs_intro_received_establish_intro(intro_circ, (uint8_t *) "", 0);
expect_log_msg_containing("Empty ESTABLISH_INTRO cell."); expect_log_msg_containing("Empty ESTABLISH_INTRO cell.");
teardown_capture_of_logs(); teardown_capture_of_logs();
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
done: done:
circuit_free(TO_CIRCUIT(intro_circ)); circuit_free(TO_CIRCUIT(intro_circ));
@ -260,7 +260,7 @@ test_establish_intro_wrong_keytype2(void *arg)
retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len); retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len);
expect_log_msg_containing("Unrecognized AUTH_KEY_TYPE 42."); expect_log_msg_containing("Unrecognized AUTH_KEY_TYPE 42.");
teardown_capture_of_logs(); teardown_capture_of_logs();
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
done: done:
circuit_free(TO_CIRCUIT(intro_circ)); circuit_free(TO_CIRCUIT(intro_circ));
@ -329,7 +329,7 @@ test_establish_intro_wrong_mac(void *arg)
retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len); retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len);
expect_log_msg_containing("ESTABLISH_INTRO handshake_auth not as expected"); expect_log_msg_containing("ESTABLISH_INTRO handshake_auth not as expected");
teardown_capture_of_logs(); teardown_capture_of_logs();
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
done: done:
trn_cell_establish_intro_free(cell); trn_cell_establish_intro_free(cell);
@ -374,7 +374,7 @@ test_establish_intro_wrong_auth_key_len(void *arg)
retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len); retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len);
expect_log_msg_containing("ESTABLISH_INTRO auth key length is invalid"); expect_log_msg_containing("ESTABLISH_INTRO auth key length is invalid");
teardown_capture_of_logs(); teardown_capture_of_logs();
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
done: done:
trn_cell_establish_intro_free(cell); trn_cell_establish_intro_free(cell);
@ -419,7 +419,7 @@ test_establish_intro_wrong_sig_len(void *arg)
retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len); retval = hs_intro_received_establish_intro(intro_circ, cell_body, cell_len);
expect_log_msg_containing("ESTABLISH_INTRO sig len is invalid"); expect_log_msg_containing("ESTABLISH_INTRO sig len is invalid");
teardown_capture_of_logs(); teardown_capture_of_logs();
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
done: done:
trn_cell_establish_intro_free(cell); trn_cell_establish_intro_free(cell);
@ -457,7 +457,7 @@ test_establish_intro_wrong_sig(void *arg)
(size_t)cell_len); (size_t)cell_len);
expect_log_msg_containing("Failed to verify ESTABLISH_INTRO cell."); expect_log_msg_containing("Failed to verify ESTABLISH_INTRO cell.");
teardown_capture_of_logs(); teardown_capture_of_logs();
tt_int_op(retval, ==, -1); tt_int_op(retval, OP_EQ, -1);
done: done:
circuit_free(TO_CIRCUIT(intro_circ)); circuit_free(TO_CIRCUIT(intro_circ));
@ -492,7 +492,7 @@ helper_establish_intro_v3(or_circuit_t *intro_circ)
/* Receive the cell */ /* Receive the cell */
retval = hs_intro_received_establish_intro(intro_circ, cell_body, retval = hs_intro_received_establish_intro(intro_circ, cell_body,
(size_t) cell_len); (size_t) cell_len);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
done: done:
return cell; return cell;
@ -528,7 +528,7 @@ helper_establish_intro_v2(or_circuit_t *intro_circ)
/* Receive legacy establish_intro */ /* Receive legacy establish_intro */
retval = hs_intro_received_establish_intro(intro_circ, retval = hs_intro_received_establish_intro(intro_circ,
cell_body, (size_t) cell_len); cell_body, (size_t) cell_len);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
done: done:
return key1; return key1;
@ -579,10 +579,10 @@ test_intro_point_registration(void *arg)
{ {
the_hs_circuitmap = get_hs_circuitmap(); the_hs_circuitmap = get_hs_circuitmap();
tt_assert(the_hs_circuitmap); tt_assert(the_hs_circuitmap);
tt_int_op(0, ==, HT_SIZE(the_hs_circuitmap)); tt_int_op(0, OP_EQ, HT_SIZE(the_hs_circuitmap));
/* Do a circuitmap query in any case */ /* Do a circuitmap query in any case */
returned_intro_circ =hs_circuitmap_get_intro_circ_v3_relay_side(&auth_key); returned_intro_circ =hs_circuitmap_get_intro_circ_v3_relay_side(&auth_key);
tt_ptr_op(returned_intro_circ, ==, NULL); tt_ptr_op(returned_intro_circ, OP_EQ, NULL);
} }
/* Create a v3 intro point */ /* Create a v3 intro point */
@ -594,12 +594,12 @@ test_intro_point_registration(void *arg)
/* Check that the intro point was registered on the HS circuitmap */ /* Check that the intro point was registered on the HS circuitmap */
the_hs_circuitmap = get_hs_circuitmap(); the_hs_circuitmap = get_hs_circuitmap();
tt_assert(the_hs_circuitmap); tt_assert(the_hs_circuitmap);
tt_int_op(1, ==, HT_SIZE(the_hs_circuitmap)); tt_int_op(1, OP_EQ, HT_SIZE(the_hs_circuitmap));
get_auth_key_from_cell(&auth_key, RELAY_COMMAND_ESTABLISH_INTRO, get_auth_key_from_cell(&auth_key, RELAY_COMMAND_ESTABLISH_INTRO,
establish_intro_cell); establish_intro_cell);
returned_intro_circ = returned_intro_circ =
hs_circuitmap_get_intro_circ_v3_relay_side(&auth_key); hs_circuitmap_get_intro_circ_v3_relay_side(&auth_key);
tt_ptr_op(intro_circ, ==, returned_intro_circ); tt_ptr_op(intro_circ, OP_EQ, returned_intro_circ);
} }
/* Create a v2 intro point */ /* Create a v2 intro point */
@ -614,14 +614,14 @@ test_intro_point_registration(void *arg)
/* Check that the circuitmap now has two elements */ /* Check that the circuitmap now has two elements */
the_hs_circuitmap = get_hs_circuitmap(); the_hs_circuitmap = get_hs_circuitmap();
tt_assert(the_hs_circuitmap); tt_assert(the_hs_circuitmap);
tt_int_op(2, ==, HT_SIZE(the_hs_circuitmap)); tt_int_op(2, OP_EQ, HT_SIZE(the_hs_circuitmap));
/* Check that the new element is our legacy intro circuit. */ /* Check that the new element is our legacy intro circuit. */
retval = crypto_pk_get_digest(legacy_auth_key, key_digest); retval = crypto_pk_get_digest(legacy_auth_key, key_digest);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
returned_intro_circ = returned_intro_circ =
hs_circuitmap_get_intro_circ_v2_relay_side((uint8_t*)key_digest); hs_circuitmap_get_intro_circ_v2_relay_side((uint8_t*)key_digest);
tt_ptr_op(legacy_intro_circ, ==, returned_intro_circ); tt_ptr_op(legacy_intro_circ, OP_EQ, returned_intro_circ);
} }
/* XXX Continue test and try to register a second v3 intro point with the /* XXX Continue test and try to register a second v3 intro point with the

8
src/test/test_hs_ntor.c
View File

@ -57,7 +57,7 @@ test_hs_ntor(void *arg)
&client_ephemeral_enc_keypair, &client_ephemeral_enc_keypair,
subcredential, subcredential,
&client_hs_ntor_intro_cell_keys); &client_hs_ntor_intro_cell_keys);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
/* Service: Simulate the decryption of the received INTRODUCE1 */ /* Service: Simulate the decryption of the received INTRODUCE1 */
retval = retval =
@ -66,7 +66,7 @@ test_hs_ntor(void *arg)
&client_ephemeral_enc_keypair.pubkey, &client_ephemeral_enc_keypair.pubkey,
subcredential, subcredential,
&service_hs_ntor_intro_cell_keys); &service_hs_ntor_intro_cell_keys);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
/* Test that the INTRODUCE1 encryption/mac keys match! */ /* Test that the INTRODUCE1 encryption/mac keys match! */
tt_mem_op(client_hs_ntor_intro_cell_keys.enc_key, OP_EQ, tt_mem_op(client_hs_ntor_intro_cell_keys.enc_key, OP_EQ,
@ -83,7 +83,7 @@ test_hs_ntor(void *arg)
&service_ephemeral_rend_keypair, &service_ephemeral_rend_keypair,
&client_ephemeral_enc_keypair.pubkey, &client_ephemeral_enc_keypair.pubkey,
&service_hs_ntor_rend_cell_keys); &service_hs_ntor_rend_cell_keys);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
/* Client: Simulate the verification of a received RENDEZVOUS1 cell */ /* Client: Simulate the verification of a received RENDEZVOUS1 cell */
retval = retval =
@ -92,7 +92,7 @@ test_hs_ntor(void *arg)
&service_intro_enc_keypair.pubkey, &service_intro_enc_keypair.pubkey,
&service_ephemeral_rend_keypair.pubkey, &service_ephemeral_rend_keypair.pubkey,
&client_hs_ntor_rend_cell_keys); &client_hs_ntor_rend_cell_keys);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
/* Test that the RENDEZVOUS1 key material match! */ /* Test that the RENDEZVOUS1 key material match! */
tt_mem_op(client_hs_ntor_rend_cell_keys.rend_cell_auth_mac, OP_EQ, tt_mem_op(client_hs_ntor_rend_cell_keys.rend_cell_auth_mac, OP_EQ,

96
src/test/test_keypin.c
View File

@ -20,8 +20,8 @@ test_keypin_parse_line(void *arg)
"aGVyZSBpcyBhIGdvb2Qgc2hhMSE " "aGVyZSBpcyBhIGdvb2Qgc2hhMSE "
"VGhpcyBlZDI1NTE5IHNjb2ZmcyBhdCB0aGUgc2hhMS4"); "VGhpcyBlZDI1NTE5IHNjb2ZmcyBhdCB0aGUgc2hhMS4");
tt_assert(ent); tt_assert(ent);
tt_mem_op(ent->rsa_id, ==, "here is a good sha1!", 20); tt_mem_op(ent->rsa_id, OP_EQ, "here is a good sha1!", 20);
tt_mem_op(ent->ed25519_key, ==, "This ed25519 scoffs at the sha1.", 32); tt_mem_op(ent->ed25519_key, OP_EQ, "This ed25519 scoffs at the sha1.", 32);
tor_free(ent); ent = NULL; tor_free(ent); ent = NULL;
/* Good line with extra stuff we will ignore. */ /* Good line with extra stuff we will ignore. */
@ -29,8 +29,8 @@ test_keypin_parse_line(void *arg)
"aGVyZSBpcyBhIGdvb2Qgc2hhMSE " "aGVyZSBpcyBhIGdvb2Qgc2hhMSE "
"VGhpcyBlZDI1NTE5IHNjb2ZmcyBhdCB0aGUgc2hhMS4helloworld"); "VGhpcyBlZDI1NTE5IHNjb2ZmcyBhdCB0aGUgc2hhMS4helloworld");
tt_assert(ent); tt_assert(ent);
tt_mem_op(ent->rsa_id, ==, "here is a good sha1!", 20); tt_mem_op(ent->rsa_id, OP_EQ, "here is a good sha1!", 20);
tt_mem_op(ent->ed25519_key, ==, "This ed25519 scoffs at the sha1.", 32); tt_mem_op(ent->ed25519_key, OP_EQ, "This ed25519 scoffs at the sha1.", 32);
tor_free(ent); ent = NULL; tor_free(ent); ent = NULL;
/* Bad line: no space in the middle. */ /* Bad line: no space in the middle. */
@ -82,11 +82,11 @@ test_keypin_parse_file(void *arg)
"Z2dsZSBpbiBzd29tZWVzd2FucyA aW4gdm9sdXB0YXRlIGF4ZS1oYWNrZXIgZXNzZSByaXA\n" "Z2dsZSBpbiBzd29tZWVzd2FucyA aW4gdm9sdXB0YXRlIGF4ZS1oYWNrZXIgZXNzZSByaXA\n"
"cHVsdXMgY3J1bW1paSBldSBtb28 ZiBudWxsYSBzbnV2di5QTFVHSFBMT1ZFUlhZWlpZLi4\n"; "cHVsdXMgY3J1bW1paSBldSBtb28 ZiBudWxsYSBzbnV2di5QTFVHSFBMT1ZFUlhZWlpZLi4\n";
tt_int_op(0, ==, keypin_load_journal_impl(data1, strlen(data1))); tt_int_op(0, OP_EQ, keypin_load_journal_impl(data1, strlen(data1)));
tt_int_op(8, ==, smartlist_len(mock_addent_got)); tt_int_op(8, OP_EQ, smartlist_len(mock_addent_got));
keypin_ent_t *ent = smartlist_get(mock_addent_got, 2); keypin_ent_t *ent = smartlist_get(mock_addent_got, 2);
tt_mem_op(ent->rsa_id, ==, "r lerkim, sed do bar", 20); tt_mem_op(ent->rsa_id, OP_EQ, "r lerkim, sed do bar", 20);
tt_mem_op(ent->ed25519_key, ==, "baloot tempor gluppitus ut labor", 32); tt_mem_op(ent->ed25519_key, OP_EQ, "baloot tempor gluppitus ut labor", 32);
/* More complex example: weird lines, bogus lines, /* More complex example: weird lines, bogus lines,
duplicate/conflicting lines */ duplicate/conflicting lines */
@ -107,24 +107,24 @@ test_keypin_parse_file(void *arg)
"ZHMgc3BlYWsgdHJ1dGgsIGFuZCA aXQgd2FzIHRydaUgdGhhdCBhbGwgdGhlIG1hc3Rlcgo\n" "ZHMgc3BlYWsgdHJ1dGgsIGFuZCA aXQgd2FzIHRydaUgdGhhdCBhbGwgdGhlIG1hc3Rlcgo\n"
; ;
tt_int_op(0, ==, keypin_load_journal_impl(data2, strlen(data2))); tt_int_op(0, OP_EQ, keypin_load_journal_impl(data2, strlen(data2)));
tt_int_op(13, ==, smartlist_len(mock_addent_got)); tt_int_op(13, OP_EQ, smartlist_len(mock_addent_got));
ent = smartlist_get(mock_addent_got, 9); ent = smartlist_get(mock_addent_got, 9);
tt_mem_op(ent->rsa_id, ==, "\"You have made a goo", 20); tt_mem_op(ent->rsa_id, OP_EQ, "\"You have made a goo", 20);
tt_mem_op(ent->ed25519_key, ==, "d beginning.\" But no more. Wizar", 32); tt_mem_op(ent->ed25519_key, OP_EQ, "d beginning.\" But no more. Wizar", 32);
ent = smartlist_get(mock_addent_got, 12); ent = smartlist_get(mock_addent_got, 12);
tt_mem_op(ent->rsa_id, ==, "ds speak truth, and ", 20); tt_mem_op(ent->rsa_id, OP_EQ, "ds speak truth, and ", 20);
tt_mem_op(ent->ed25519_key, ==, "it was tru\xa5 that all the master\n", 32); tt_mem_op(ent->ed25519_key, OP_EQ, "it was tru\xa5 that all the master\n", 32);
/* File truncated before NL */ /* File truncated before NL */
const char data3[] = const char data3[] =
"Tm8gZHJhZ29uIGNhbiByZXNpc3Q IHRoZSBmYXNjaW5hdGlvbiBvZiByaWRkbGluZyB0YWw"; "Tm8gZHJhZ29uIGNhbiByZXNpc3Q IHRoZSBmYXNjaW5hdGlvbiBvZiByaWRkbGluZyB0YWw";
tt_int_op(0, ==, keypin_load_journal_impl(data3, strlen(data3))); tt_int_op(0, OP_EQ, keypin_load_journal_impl(data3, strlen(data3)));
tt_int_op(14, ==, smartlist_len(mock_addent_got)); tt_int_op(14, OP_EQ, smartlist_len(mock_addent_got));
ent = smartlist_get(mock_addent_got, 13); ent = smartlist_get(mock_addent_got, 13);
tt_mem_op(ent->rsa_id, ==, "No dragon can resist", 20); tt_mem_op(ent->rsa_id, OP_EQ, "No dragon can resist", 20);
tt_mem_op(ent->ed25519_key, ==, " the fascination of riddling tal", 32); tt_mem_op(ent->ed25519_key, OP_EQ, " the fascination of riddling tal", 32);
done: done:
keypin_clear(); keypin_clear();
@ -141,32 +141,32 @@ test_keypin_add_entry(void *arg)
(void)arg; (void)arg;
keypin_clear(); keypin_clear();
tt_int_op(KEYPIN_ADDED, ==, ADD("ambassadors-at-large", tt_int_op(KEYPIN_ADDED, OP_EQ, ADD("ambassadors-at-large",
"bread-and-butter thing-in-itself")); "bread-and-butter thing-in-itself"));
tt_int_op(KEYPIN_ADDED, ==, ADD("gentleman-adventurer", tt_int_op(KEYPIN_ADDED, OP_EQ, ADD("gentleman-adventurer",
"cloak-and-dagger what's-his-face")); "cloak-and-dagger what's-his-face"));
tt_int_op(KEYPIN_FOUND, ==, ADD("ambassadors-at-large", tt_int_op(KEYPIN_FOUND, OP_EQ, ADD("ambassadors-at-large",
"bread-and-butter thing-in-itself")); "bread-and-butter thing-in-itself"));
tt_int_op(KEYPIN_FOUND, ==, ADD("ambassadors-at-large", tt_int_op(KEYPIN_FOUND, OP_EQ, ADD("ambassadors-at-large",
"bread-and-butter thing-in-itself")); "bread-and-butter thing-in-itself"));
tt_int_op(KEYPIN_FOUND, ==, ADD("gentleman-adventurer", tt_int_op(KEYPIN_FOUND, OP_EQ, ADD("gentleman-adventurer",
"cloak-and-dagger what's-his-face")); "cloak-and-dagger what's-his-face"));
tt_int_op(KEYPIN_ADDED, ==, ADD("Johnnies-come-lately", tt_int_op(KEYPIN_ADDED, OP_EQ, ADD("Johnnies-come-lately",
"run-of-the-mill root-mean-square")); "run-of-the-mill root-mean-square"));
tt_int_op(KEYPIN_MISMATCH, ==, ADD("gentleman-adventurer", tt_int_op(KEYPIN_MISMATCH, OP_EQ, ADD("gentleman-adventurer",
"hypersentimental closefistedness")); "hypersentimental closefistedness"));
tt_int_op(KEYPIN_MISMATCH, ==, ADD("disestablismentarian", tt_int_op(KEYPIN_MISMATCH, OP_EQ, ADD("disestablismentarian",
"cloak-and-dagger what's-his-face")); "cloak-and-dagger what's-his-face"));
tt_int_op(KEYPIN_FOUND, ==, ADD("gentleman-adventurer", tt_int_op(KEYPIN_FOUND, OP_EQ, ADD("gentleman-adventurer",
"cloak-and-dagger what's-his-face")); "cloak-and-dagger what's-his-face"));
tt_int_op(KEYPIN_NOT_FOUND, ==, LONE_RSA("Llanfairpwllgwyngyll")); tt_int_op(KEYPIN_NOT_FOUND, OP_EQ, LONE_RSA("Llanfairpwllgwyngyll"));
tt_int_op(KEYPIN_MISMATCH, ==, LONE_RSA("Johnnies-come-lately")); tt_int_op(KEYPIN_MISMATCH, OP_EQ, LONE_RSA("Johnnies-come-lately"));
done: done:
keypin_clear(); keypin_clear();
@ -179,51 +179,51 @@ test_keypin_journal(void *arg)
char *contents = NULL; char *contents = NULL;
const char *fname = get_fname("keypin-journal"); const char *fname = get_fname("keypin-journal");
tt_int_op(0, ==, keypin_load_journal(fname)); /* ENOENT is okay */ tt_int_op(0, OP_EQ, keypin_load_journal(fname)); /* ENOENT is okay */
update_approx_time(1217709000); update_approx_time(1217709000);
tt_int_op(0, ==, keypin_open_journal(fname)); tt_int_op(0, OP_EQ, keypin_open_journal(fname));
tt_int_op(KEYPIN_ADDED, ==, ADD("king-of-the-herrings", tt_int_op(KEYPIN_ADDED, OP_EQ, ADD("king-of-the-herrings",
"good-for-nothing attorney-at-law")); "good-for-nothing attorney-at-law"));
tt_int_op(KEYPIN_ADDED, ==, ADD("yellowish-red-yellow", tt_int_op(KEYPIN_ADDED, OP_EQ, ADD("yellowish-red-yellow",
"salt-and-pepper high-muck-a-muck")); "salt-and-pepper high-muck-a-muck"));
tt_int_op(KEYPIN_FOUND, ==, ADD("yellowish-red-yellow", tt_int_op(KEYPIN_FOUND, OP_EQ, ADD("yellowish-red-yellow",
"salt-and-pepper high-muck-a-muck")); "salt-and-pepper high-muck-a-muck"));
keypin_close_journal(); keypin_close_journal();
keypin_clear(); keypin_clear();
tt_int_op(0, ==, keypin_load_journal(fname)); tt_int_op(0, OP_EQ, keypin_load_journal(fname));
update_approx_time(1231041600); update_approx_time(1231041600);
tt_int_op(0, ==, keypin_open_journal(fname)); tt_int_op(0, OP_EQ, keypin_open_journal(fname));
tt_int_op(KEYPIN_FOUND, ==, ADD("yellowish-red-yellow", tt_int_op(KEYPIN_FOUND, OP_EQ, ADD("yellowish-red-yellow",
"salt-and-pepper high-muck-a-muck")); "salt-and-pepper high-muck-a-muck"));
tt_int_op(KEYPIN_ADDED, ==, ADD("theatre-in-the-round", tt_int_op(KEYPIN_ADDED, OP_EQ, ADD("theatre-in-the-round",
"holier-than-thou jack-in-the-box")); "holier-than-thou jack-in-the-box"));
tt_int_op(KEYPIN_ADDED, ==, ADD("no-deposit-no-return", tt_int_op(KEYPIN_ADDED, OP_EQ, ADD("no-deposit-no-return",
"across-the-board will-o-the-wisp")); "across-the-board will-o-the-wisp"));
tt_int_op(KEYPIN_MISMATCH, ==, ADD("intellectualizations", tt_int_op(KEYPIN_MISMATCH, OP_EQ, ADD("intellectualizations",
"salt-and-pepper high-muck-a-muck")); "salt-and-pepper high-muck-a-muck"));
keypin_close_journal(); keypin_close_journal();
keypin_clear(); keypin_clear();
tt_int_op(0, ==, keypin_load_journal(fname)); tt_int_op(0, OP_EQ, keypin_load_journal(fname));
update_approx_time(1412278354); update_approx_time(1412278354);
tt_int_op(0, ==, keypin_open_journal(fname)); tt_int_op(0, OP_EQ, keypin_open_journal(fname));
tt_int_op(KEYPIN_FOUND, ==, ADD("yellowish-red-yellow", tt_int_op(KEYPIN_FOUND, OP_EQ, ADD("yellowish-red-yellow",
"salt-and-pepper high-muck-a-muck")); "salt-and-pepper high-muck-a-muck"));
tt_int_op(KEYPIN_MISMATCH, ==, ADD("intellectualizations", tt_int_op(KEYPIN_MISMATCH, OP_EQ, ADD("intellectualizations",
"salt-and-pepper high-muck-a-muck")); "salt-and-pepper high-muck-a-muck"));
tt_int_op(KEYPIN_FOUND, ==, ADD("theatre-in-the-round", tt_int_op(KEYPIN_FOUND, OP_EQ, ADD("theatre-in-the-round",
"holier-than-thou jack-in-the-box")); "holier-than-thou jack-in-the-box"));
tt_int_op(KEYPIN_MISMATCH, ==, ADD("counterrevolutionary", tt_int_op(KEYPIN_MISMATCH, OP_EQ, ADD("counterrevolutionary",
"holier-than-thou jack-in-the-box")); "holier-than-thou jack-in-the-box"));
tt_int_op(KEYPIN_MISMATCH, ==, ADD("no-deposit-no-return", tt_int_op(KEYPIN_MISMATCH, OP_EQ, ADD("no-deposit-no-return",
"floccinaucinihilipilificationism")); "floccinaucinihilipilificationism"));
keypin_close_journal(); keypin_close_journal();
contents = read_file_to_str(fname, RFTS_BIN, NULL); contents = read_file_to_str(fname, RFTS_BIN, NULL);
tt_assert(contents); tt_assert(contents);
tt_str_op(contents,==, tt_str_op(contents,OP_EQ,
"\n" "\n"
"@opened-at 2008-08-02 20:30:00\n" "@opened-at 2008-08-02 20:30:00\n"
"a2luZy1vZi10aGUtaGVycmluZ3M Z29vZC1mb3Itbm90aGluZyBhdHRvcm5leS1hdC1sYXc\n" "a2luZy1vZi10aGUtaGVycmluZ3M Z29vZC1mb3Itbm90aGluZyBhdHRvcm5leS1hdC1sYXc\n"

236
src/test/test_link_handshake.c
View File

@ -136,7 +136,7 @@ test_link_handshake_certs_ok(void *arg)
* actually generate a CERTS cell. * actually generate a CERTS cell.
*/ */
tt_int_op(tor_tls_context_init(TOR_TLS_CTX_IS_PUBLIC_SERVER, tt_int_op(tor_tls_context_init(TOR_TLS_CTX_IS_PUBLIC_SERVER,
key1, key2, 86400), ==, 0); key1, key2, 86400), OP_EQ, 0);
if (with_ed) { if (with_ed) {
/* If we're making a CERTS cell for an ed handshake, let's make sure we /* If we're making a CERTS cell for an ed handshake, let's make sure we
@ -155,63 +155,63 @@ test_link_handshake_certs_ok(void *arg)
c1->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3; c1->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3;
c1->link_proto = 3; c1->link_proto = 3;
tt_int_op(connection_init_or_handshake_state(c1, 1), ==, 0); tt_int_op(connection_init_or_handshake_state(c1, 1), OP_EQ, 0);
/* c2 has started_here == 0 */ /* c2 has started_here == 0 */
c2->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3; c2->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3;
c2->link_proto = 3; c2->link_proto = 3;
tt_int_op(connection_init_or_handshake_state(c2, 0), ==, 0); tt_int_op(connection_init_or_handshake_state(c2, 0), OP_EQ, 0);
tt_int_op(0, ==, connection_or_send_certs_cell(c1)); tt_int_op(0, OP_EQ, connection_or_send_certs_cell(c1));
tt_assert(mock_got_var_cell); tt_assert(mock_got_var_cell);
cell1 = mock_got_var_cell; cell1 = mock_got_var_cell;
tt_int_op(0, ==, connection_or_send_certs_cell(c2)); tt_int_op(0, OP_EQ, connection_or_send_certs_cell(c2));
tt_assert(mock_got_var_cell); tt_assert(mock_got_var_cell);
cell2 = mock_got_var_cell; cell2 = mock_got_var_cell;
tt_int_op(cell1->command, ==, CELL_CERTS); tt_int_op(cell1->command, OP_EQ, CELL_CERTS);
tt_int_op(cell1->payload_len, >, 1); tt_int_op(cell1->payload_len, OP_GT, 1);
tt_int_op(cell2->command, ==, CELL_CERTS); tt_int_op(cell2->command, OP_EQ, CELL_CERTS);
tt_int_op(cell2->payload_len, >, 1); tt_int_op(cell2->payload_len, OP_GT, 1);
tt_int_op(cell1->payload_len, ==, tt_int_op(cell1->payload_len, OP_EQ,
certs_cell_parse(&cc1, cell1->payload, cell1->payload_len)); certs_cell_parse(&cc1, cell1->payload, cell1->payload_len));
tt_int_op(cell2->payload_len, ==, tt_int_op(cell2->payload_len, OP_EQ,
certs_cell_parse(&cc2, cell2->payload, cell2->payload_len)); certs_cell_parse(&cc2, cell2->payload, cell2->payload_len));
if (with_ed) { if (with_ed) {
tt_int_op(5, ==, cc1->n_certs); tt_int_op(5, OP_EQ, cc1->n_certs);
tt_int_op(5, ==, cc2->n_certs); tt_int_op(5, OP_EQ, cc2->n_certs);
} else { } else {
tt_int_op(2, ==, cc1->n_certs); tt_int_op(2, OP_EQ, cc1->n_certs);
tt_int_op(2, ==, cc2->n_certs); tt_int_op(2, OP_EQ, cc2->n_certs);
} }
tt_int_op(certs_cell_get_certs(cc1, 0)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc1, 0)->cert_type, OP_EQ,
CERTTYPE_RSA1024_ID_AUTH); CERTTYPE_RSA1024_ID_AUTH);
tt_int_op(certs_cell_get_certs(cc1, 1)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc1, 1)->cert_type, OP_EQ,
CERTTYPE_RSA1024_ID_ID); CERTTYPE_RSA1024_ID_ID);
tt_int_op(certs_cell_get_certs(cc2, 0)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc2, 0)->cert_type, OP_EQ,
CERTTYPE_RSA1024_ID_LINK); CERTTYPE_RSA1024_ID_LINK);
tt_int_op(certs_cell_get_certs(cc2, 1)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc2, 1)->cert_type, OP_EQ,
CERTTYPE_RSA1024_ID_ID); CERTTYPE_RSA1024_ID_ID);
if (with_ed) { if (with_ed) {
tt_int_op(certs_cell_get_certs(cc1, 2)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc1, 2)->cert_type, OP_EQ,
CERTTYPE_ED_ID_SIGN); CERTTYPE_ED_ID_SIGN);
tt_int_op(certs_cell_get_certs(cc1, 3)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc1, 3)->cert_type, OP_EQ,
CERTTYPE_ED_SIGN_AUTH); CERTTYPE_ED_SIGN_AUTH);
tt_int_op(certs_cell_get_certs(cc1, 4)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc1, 4)->cert_type, OP_EQ,
CERTTYPE_RSA1024_ID_EDID); CERTTYPE_RSA1024_ID_EDID);
tt_int_op(certs_cell_get_certs(cc2, 2)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc2, 2)->cert_type, OP_EQ,
CERTTYPE_ED_ID_SIGN); CERTTYPE_ED_ID_SIGN);
tt_int_op(certs_cell_get_certs(cc2, 3)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc2, 3)->cert_type, OP_EQ,
CERTTYPE_ED_SIGN_LINK); CERTTYPE_ED_SIGN_LINK);
tt_int_op(certs_cell_get_certs(cc2, 4)->cert_type, ==, tt_int_op(certs_cell_get_certs(cc2, 4)->cert_type, OP_EQ,
CERTTYPE_RSA1024_ID_EDID); CERTTYPE_RSA1024_ID_EDID);
} }
@ -376,14 +376,14 @@ recv_certs_setup(const struct testcase_t *test)
tor_addr_from_ipv4h(&d->c->base_.addr, 0x801f0127); tor_addr_from_ipv4h(&d->c->base_.addr, 0x801f0127);
d->c->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3; d->c->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3;
d->chan->conn = d->c; d->chan->conn = d->c;
tt_int_op(connection_init_or_handshake_state(d->c, 1), ==, 0); tt_int_op(connection_init_or_handshake_state(d->c, 1), OP_EQ, 0);
d->c->link_proto = 4; d->c->link_proto = 4;
d->key1 = pk_generate(2); d->key1 = pk_generate(2);
d->key2 = pk_generate(3); d->key2 = pk_generate(3);
tt_int_op(tor_tls_context_init(TOR_TLS_CTX_IS_PUBLIC_SERVER, tt_int_op(tor_tls_context_init(TOR_TLS_CTX_IS_PUBLIC_SERVER,
d->key1, d->key2, 86400), ==, 0); d->key1, d->key2, 86400), OP_EQ, 0);
if (is_ed) { if (is_ed) {
init_mock_ed_keys(d->key2); init_mock_ed_keys(d->key2);
} else { } else {
@ -452,7 +452,7 @@ recv_certs_setup(const struct testcase_t *test)
d->cell->command = CELL_CERTS; d->cell->command = CELL_CERTS;
n = certs_cell_encode(d->cell->payload, 4096, d->ccell); n = certs_cell_encode(d->cell->payload, 4096, d->ccell);
tt_int_op(n, >, 0); tt_int_op(n, OP_GT, 0);
d->cell->payload_len = n; d->cell->payload_len = n;
MOCK(tor_tls_cert_matches_key, mock_tls_cert_matches_key); MOCK(tor_tls_cert_matches_key, mock_tls_cert_matches_key);
@ -465,9 +465,9 @@ recv_certs_setup(const struct testcase_t *test)
mock_peer_cert = tor_x509_cert_dup(a); mock_peer_cert = tor_x509_cert_dup(a);
} }
tt_int_op(0, ==, d->c->handshake_state->received_certs_cell); tt_int_op(0, OP_EQ, d->c->handshake_state->received_certs_cell);
tt_int_op(0, ==, mock_send_authenticate_called); tt_int_op(0, OP_EQ, mock_send_authenticate_called);
tt_int_op(0, ==, mock_send_netinfo_called); tt_int_op(0, OP_EQ, mock_send_netinfo_called);
return d; return d;
done: done:
@ -485,10 +485,10 @@ test_link_handshake_recv_certs_ok(void *arg)
{ {
certs_data_t *d = arg; certs_data_t *d = arg;
channel_tls_process_certs_cell(d->cell, d->chan); channel_tls_process_certs_cell(d->cell, d->chan);
tt_int_op(0, ==, mock_close_called); tt_int_op(0, OP_EQ, mock_close_called);
tt_int_op(d->c->handshake_state->authenticated, ==, 1); tt_int_op(d->c->handshake_state->authenticated, OP_EQ, 1);
tt_int_op(d->c->handshake_state->authenticated_rsa, ==, 1); tt_int_op(d->c->handshake_state->authenticated_rsa, OP_EQ, 1);
tt_int_op(d->c->handshake_state->received_certs_cell, ==, 1); tt_int_op(d->c->handshake_state->received_certs_cell, OP_EQ, 1);
tt_assert(d->c->handshake_state->certs->id_cert != NULL); tt_assert(d->c->handshake_state->certs->id_cert != NULL);
tt_assert(d->c->handshake_state->certs->auth_cert == NULL); tt_assert(d->c->handshake_state->certs->auth_cert == NULL);
@ -497,13 +497,13 @@ test_link_handshake_recv_certs_ok(void *arg)
tt_assert(d->c->handshake_state->certs->ed_sign_link != NULL); tt_assert(d->c->handshake_state->certs->ed_sign_link != NULL);
tt_assert(d->c->handshake_state->certs->ed_sign_auth == NULL); tt_assert(d->c->handshake_state->certs->ed_sign_auth == NULL);
tt_assert(d->c->handshake_state->certs->ed_rsa_crosscert != NULL); tt_assert(d->c->handshake_state->certs->ed_rsa_crosscert != NULL);
tt_int_op(d->c->handshake_state->authenticated_ed25519, ==, 1); tt_int_op(d->c->handshake_state->authenticated_ed25519, OP_EQ, 1);
} else { } else {
tt_assert(d->c->handshake_state->certs->ed_id_sign == NULL); tt_assert(d->c->handshake_state->certs->ed_id_sign == NULL);
tt_assert(d->c->handshake_state->certs->ed_sign_link == NULL); tt_assert(d->c->handshake_state->certs->ed_sign_link == NULL);
tt_assert(d->c->handshake_state->certs->ed_sign_auth == NULL); tt_assert(d->c->handshake_state->certs->ed_sign_auth == NULL);
tt_assert(d->c->handshake_state->certs->ed_rsa_crosscert == NULL); tt_assert(d->c->handshake_state->certs->ed_rsa_crosscert == NULL);
tt_int_op(d->c->handshake_state->authenticated_ed25519, ==, 0); tt_int_op(d->c->handshake_state->authenticated_ed25519, OP_EQ, 0);
} }
done: done:
@ -517,9 +517,9 @@ test_link_handshake_recv_certs_ok_server(void *arg)
d->c->handshake_state->started_here = 0; d->c->handshake_state->started_here = 0;
d->c->handshake_state->certs->started_here = 0; d->c->handshake_state->certs->started_here = 0;
channel_tls_process_certs_cell(d->cell, d->chan); channel_tls_process_certs_cell(d->cell, d->chan);
tt_int_op(0, ==, mock_close_called); tt_int_op(0, OP_EQ, mock_close_called);
tt_int_op(d->c->handshake_state->authenticated, ==, 0); tt_int_op(d->c->handshake_state->authenticated, OP_EQ, 0);
tt_int_op(d->c->handshake_state->received_certs_cell, ==, 1); tt_int_op(d->c->handshake_state->received_certs_cell, OP_EQ, 1);
tt_assert(d->c->handshake_state->certs->id_cert != NULL); tt_assert(d->c->handshake_state->certs->id_cert != NULL);
tt_assert(d->c->handshake_state->certs->link_cert == NULL); tt_assert(d->c->handshake_state->certs->link_cert == NULL);
if (d->is_ed) { if (d->is_ed) {
@ -543,11 +543,11 @@ test_link_handshake_recv_certs_ok_server(void *arg)
setup_capture_of_logs(LOG_INFO); \ setup_capture_of_logs(LOG_INFO); \
{ code ; } \ { code ; } \
channel_tls_process_certs_cell(d->cell, d->chan); \ channel_tls_process_certs_cell(d->cell, d->chan); \
tt_int_op(1, ==, mock_close_called); \ tt_int_op(1, OP_EQ, mock_close_called); \
tt_int_op(0, ==, mock_send_authenticate_called); \ tt_int_op(0, OP_EQ, mock_send_authenticate_called); \
tt_int_op(0, ==, mock_send_netinfo_called); \ tt_int_op(0, OP_EQ, mock_send_netinfo_called); \
tt_int_op(0, ==, d->c->handshake_state->authenticated_rsa); \ tt_int_op(0, OP_EQ, d->c->handshake_state->authenticated_rsa); \
tt_int_op(0, ==, d->c->handshake_state->authenticated_ed25519); \ tt_int_op(0, OP_EQ, d->c->handshake_state->authenticated_ed25519); \
if (require_failure_message) { \ if (require_failure_message) { \
expect_log_msg_containing(require_failure_message); \ expect_log_msg_containing(require_failure_message); \
} \ } \
@ -603,7 +603,7 @@ CERTS_FAIL(truncated_5, /* ed25519 */
const char *msg = certs_cell_check(d->ccell); \ const char *msg = certs_cell_check(d->ccell); \
if (msg) puts(msg); \ if (msg) puts(msg); \
ssize_t n = certs_cell_encode(d->cell->payload, 4096, d->ccell); \ ssize_t n = certs_cell_encode(d->cell->payload, 4096, d->ccell); \
tt_int_op(n, >, 0); \ tt_int_op(n, OP_GT, 0); \
d->cell->payload_len = n; \ d->cell->payload_len = n; \
} while (0) } while (0)
@ -686,9 +686,9 @@ test_link_handshake_recv_certs_missing_id(void *arg) /* ed25519 */
/* This handshake succeeds, but since we have no ID cert, we will /* This handshake succeeds, but since we have no ID cert, we will
* just do the RSA handshake. */ * just do the RSA handshake. */
channel_tls_process_certs_cell(d->cell, d->chan); channel_tls_process_certs_cell(d->cell, d->chan);
tt_int_op(0, ==, mock_close_called); tt_int_op(0, OP_EQ, mock_close_called);
tt_int_op(0, ==, d->c->handshake_state->authenticated_ed25519); tt_int_op(0, OP_EQ, d->c->handshake_state->authenticated_ed25519);
tt_int_op(1, ==, d->c->handshake_state->authenticated_rsa); tt_int_op(1, OP_EQ, d->c->handshake_state->authenticated_rsa);
done: done:
; ;
} }
@ -697,7 +697,7 @@ CERTS_FAIL(missing_signing_key, /* ed25519 */
require_failure_message = "No Ed25519 signing key"; require_failure_message = "No Ed25519 signing key";
tt_int_op(certs_cell_getlen_certs(d->ccell), OP_EQ, 5); tt_int_op(certs_cell_getlen_certs(d->ccell), OP_EQ, 5);
certs_cell_cert_t *cert = certs_cell_get_certs(d->ccell, 2); certs_cell_cert_t *cert = certs_cell_get_certs(d->ccell, 2);
tt_int_op(cert->cert_type, ==, CERTTYPE_ED_ID_SIGN); tt_int_op(cert->cert_type, OP_EQ, CERTTYPE_ED_ID_SIGN);
/* replace this with a valid master->signing cert, but with no /* replace this with a valid master->signing cert, but with no
* signing key. */ * signing key. */
const ed25519_keypair_t *mk = get_master_identity_keypair(); const ed25519_keypair_t *mk = get_master_identity_keypair();
@ -905,28 +905,28 @@ test_link_handshake_send_authchallenge(void *arg)
crypto_pk_t *rsa0 = pk_generate(0), *rsa1 = pk_generate(1); crypto_pk_t *rsa0 = pk_generate(0), *rsa1 = pk_generate(1);
tt_int_op(tor_tls_context_init(TOR_TLS_CTX_IS_PUBLIC_SERVER, tt_int_op(tor_tls_context_init(TOR_TLS_CTX_IS_PUBLIC_SERVER,
rsa0, rsa1, 86400), ==, 0); rsa0, rsa1, 86400), OP_EQ, 0);
init_mock_ed_keys(rsa0); init_mock_ed_keys(rsa0);
MOCK(connection_or_write_var_cell_to_buf, mock_write_var_cell); MOCK(connection_or_write_var_cell_to_buf, mock_write_var_cell);
tt_int_op(connection_init_or_handshake_state(c1, 0), ==, 0); tt_int_op(connection_init_or_handshake_state(c1, 0), OP_EQ, 0);
c1->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3; c1->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3;
tt_assert(! mock_got_var_cell); tt_assert(! mock_got_var_cell);
tt_int_op(0, ==, connection_or_send_auth_challenge_cell(c1)); tt_int_op(0, OP_EQ, connection_or_send_auth_challenge_cell(c1));
cell1 = mock_got_var_cell; cell1 = mock_got_var_cell;
tt_int_op(0, ==, connection_or_send_auth_challenge_cell(c1)); tt_int_op(0, OP_EQ, connection_or_send_auth_challenge_cell(c1));
cell2 = mock_got_var_cell; cell2 = mock_got_var_cell;
tt_int_op(38, ==, cell1->payload_len); tt_int_op(38, OP_EQ, cell1->payload_len);
tt_int_op(38, ==, cell2->payload_len); tt_int_op(38, OP_EQ, cell2->payload_len);
tt_int_op(0, ==, cell1->circ_id); tt_int_op(0, OP_EQ, cell1->circ_id);
tt_int_op(0, ==, cell2->circ_id); tt_int_op(0, OP_EQ, cell2->circ_id);
tt_int_op(CELL_AUTH_CHALLENGE, ==, cell1->command); tt_int_op(CELL_AUTH_CHALLENGE, OP_EQ, cell1->command);
tt_int_op(CELL_AUTH_CHALLENGE, ==, cell2->command); tt_int_op(CELL_AUTH_CHALLENGE, OP_EQ, cell2->command);
tt_mem_op("\x00\x02\x00\x01\x00\x03", ==, cell1->payload + 32, 6); tt_mem_op("\x00\x02\x00\x01\x00\x03", OP_EQ, cell1->payload + 32, 6);
tt_mem_op("\x00\x02\x00\x01\x00\x03", ==, cell2->payload + 32, 6); tt_mem_op("\x00\x02\x00\x01\x00\x03", OP_EQ, cell2->payload + 32, 6);
tt_mem_op(cell1->payload, !=, cell2->payload, 32); tt_mem_op(cell1->payload, OP_NE, cell2->payload, 32);
done: done:
UNMOCK(connection_or_write_var_cell_to_buf); UNMOCK(connection_or_write_var_cell_to_buf);
@ -974,7 +974,7 @@ recv_authchallenge_setup(const struct testcase_t *test)
d->c->base_.address = tor_strdup("HaveAnAddress"); d->c->base_.address = tor_strdup("HaveAnAddress");
d->c->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3; d->c->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3;
d->chan->conn = d->c; d->chan->conn = d->c;
tt_int_op(connection_init_or_handshake_state(d->c, 1), ==, 0); tt_int_op(connection_init_or_handshake_state(d->c, 1), OP_EQ, 0);
d->c->link_proto = 4; d->c->link_proto = 4;
d->c->handshake_state->received_certs_cell = 1; d->c->handshake_state->received_certs_cell = 1;
d->cell = var_cell_new(128); d->cell = var_cell_new(128);
@ -989,9 +989,9 @@ recv_authchallenge_setup(const struct testcase_t *test)
MOCK(connection_or_close_for_error, mock_close_for_err); MOCK(connection_or_close_for_error, mock_close_for_err);
MOCK(connection_or_send_netinfo, mock_send_netinfo); MOCK(connection_or_send_netinfo, mock_send_netinfo);
MOCK(connection_or_send_authenticate_cell, mock_send_authenticate); MOCK(connection_or_send_authenticate_cell, mock_send_authenticate);
tt_int_op(0, ==, d->c->handshake_state->received_auth_challenge); tt_int_op(0, OP_EQ, d->c->handshake_state->received_auth_challenge);
tt_int_op(0, ==, mock_send_authenticate_called); tt_int_op(0, OP_EQ, mock_send_authenticate_called);
tt_int_op(0, ==, mock_send_netinfo_called); tt_int_op(0, OP_EQ, mock_send_netinfo_called);
return d; return d;
done: done:
@ -1010,11 +1010,11 @@ test_link_handshake_recv_authchallenge_ok(void *arg)
authchallenge_data_t *d = arg; authchallenge_data_t *d = arg;
channel_tls_process_auth_challenge_cell(d->cell, d->chan); channel_tls_process_auth_challenge_cell(d->cell, d->chan);
tt_int_op(0, ==, mock_close_called); tt_int_op(0, OP_EQ, mock_close_called);
tt_int_op(1, ==, d->c->handshake_state->received_auth_challenge); tt_int_op(1, OP_EQ, d->c->handshake_state->received_auth_challenge);
tt_int_op(1, ==, mock_send_authenticate_called); tt_int_op(1, OP_EQ, mock_send_authenticate_called);
tt_int_op(1, ==, mock_send_netinfo_called); tt_int_op(1, OP_EQ, mock_send_netinfo_called);
tt_int_op(1, ==, mock_send_authenticate_called_with_type); /* RSA */ tt_int_op(1, OP_EQ, mock_send_authenticate_called_with_type); /* RSA */
done: done:
; ;
} }
@ -1029,11 +1029,11 @@ test_link_handshake_recv_authchallenge_ok_ed25519(void *arg)
d->cell->payload[39] = 3; d->cell->payload[39] = 3;
d->cell->payload_len += 2; d->cell->payload_len += 2;
channel_tls_process_auth_challenge_cell(d->cell, d->chan); channel_tls_process_auth_challenge_cell(d->cell, d->chan);
tt_int_op(0, ==, mock_close_called); tt_int_op(0, OP_EQ, mock_close_called);
tt_int_op(1, ==, d->c->handshake_state->received_auth_challenge); tt_int_op(1, OP_EQ, d->c->handshake_state->received_auth_challenge);
tt_int_op(1, ==, mock_send_authenticate_called); tt_int_op(1, OP_EQ, mock_send_authenticate_called);
tt_int_op(1, ==, mock_send_netinfo_called); tt_int_op(1, OP_EQ, mock_send_netinfo_called);
tt_int_op(3, ==, mock_send_authenticate_called_with_type); /* Ed25519 */ tt_int_op(3, OP_EQ, mock_send_authenticate_called_with_type); /* Ed25519 */
done: done:
; ;
} }
@ -1045,10 +1045,10 @@ test_link_handshake_recv_authchallenge_ok_noserver(void *arg)
get_options_mutable()->ORPort_set = 0; get_options_mutable()->ORPort_set = 0;
channel_tls_process_auth_challenge_cell(d->cell, d->chan); channel_tls_process_auth_challenge_cell(d->cell, d->chan);
tt_int_op(0, ==, mock_close_called); tt_int_op(0, OP_EQ, mock_close_called);
tt_int_op(1, ==, d->c->handshake_state->received_auth_challenge); tt_int_op(1, OP_EQ, d->c->handshake_state->received_auth_challenge);
tt_int_op(0, ==, mock_send_authenticate_called); tt_int_op(0, OP_EQ, mock_send_authenticate_called);
tt_int_op(0, ==, mock_send_netinfo_called); tt_int_op(0, OP_EQ, mock_send_netinfo_called);
done: done:
; ;
} }
@ -1060,10 +1060,10 @@ test_link_handshake_recv_authchallenge_ok_unrecognized(void *arg)
d->cell->payload[37] = 99; d->cell->payload[37] = 99;
channel_tls_process_auth_challenge_cell(d->cell, d->chan); channel_tls_process_auth_challenge_cell(d->cell, d->chan);
tt_int_op(0, ==, mock_close_called); tt_int_op(0, OP_EQ, mock_close_called);
tt_int_op(1, ==, d->c->handshake_state->received_auth_challenge); tt_int_op(1, OP_EQ, d->c->handshake_state->received_auth_challenge);
tt_int_op(0, ==, mock_send_authenticate_called); tt_int_op(0, OP_EQ, mock_send_authenticate_called);
tt_int_op(1, ==, mock_send_netinfo_called); tt_int_op(1, OP_EQ, mock_send_netinfo_called);
done: done:
; ;
} }
@ -1077,9 +1077,9 @@ test_link_handshake_recv_authchallenge_ok_unrecognized(void *arg)
setup_capture_of_logs(LOG_INFO); \ setup_capture_of_logs(LOG_INFO); \
{ code ; } \ { code ; } \
channel_tls_process_auth_challenge_cell(d->cell, d->chan); \ channel_tls_process_auth_challenge_cell(d->cell, d->chan); \
tt_int_op(1, ==, mock_close_called); \ tt_int_op(1, OP_EQ, mock_close_called); \
tt_int_op(0, ==, mock_send_authenticate_called); \ tt_int_op(0, OP_EQ, mock_send_authenticate_called); \
tt_int_op(0, ==, mock_send_netinfo_called); \ tt_int_op(0, OP_EQ, mock_send_netinfo_called); \
if (require_failure_message) { \ if (require_failure_message) { \
expect_log_msg_containing(require_failure_message); \ expect_log_msg_containing(require_failure_message); \
} \ } \
@ -1197,17 +1197,17 @@ authenticate_data_setup(const struct testcase_t *test)
d->key1 = pk_generate(2); d->key1 = pk_generate(2);
d->key2 = pk_generate(3); d->key2 = pk_generate(3);
tt_int_op(tor_tls_context_init(TOR_TLS_CTX_IS_PUBLIC_SERVER, tt_int_op(tor_tls_context_init(TOR_TLS_CTX_IS_PUBLIC_SERVER,
d->key1, d->key2, 86400), ==, 0); d->key1, d->key2, 86400), OP_EQ, 0);
init_mock_ed_keys(d->key2); init_mock_ed_keys(d->key2);
d->c1->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3; d->c1->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3;
d->c1->link_proto = 3; d->c1->link_proto = 3;
tt_int_op(connection_init_or_handshake_state(d->c1, 1), ==, 0); tt_int_op(connection_init_or_handshake_state(d->c1, 1), OP_EQ, 0);
d->c2->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3; d->c2->base_.state = OR_CONN_STATE_OR_HANDSHAKING_V3;
d->c2->link_proto = 3; d->c2->link_proto = 3;
tt_int_op(connection_init_or_handshake_state(d->c2, 0), ==, 0); tt_int_op(connection_init_or_handshake_state(d->c2, 0), OP_EQ, 0);
var_cell_t *cell = var_cell_new(16); var_cell_t *cell = var_cell_new(16);
cell->command = CELL_CERTS; cell->command = CELL_CERTS;
or_handshake_state_record_var_cell(d->c1, d->c1->handshake_state, cell, 1); or_handshake_state_record_var_cell(d->c1, d->c1->handshake_state, cell, 1);
@ -1260,7 +1260,7 @@ authenticate_data_setup(const struct testcase_t *test)
authtype = AUTHTYPE_ED25519_SHA256_RFC5705; authtype = AUTHTYPE_ED25519_SHA256_RFC5705;
else else
authtype = AUTHTYPE_RSA_SHA256_TLSSECRET; authtype = AUTHTYPE_RSA_SHA256_TLSSECRET;
tt_int_op(0, ==, connection_or_send_authenticate_cell(d->c1, authtype)); tt_int_op(0, OP_EQ, connection_or_send_authenticate_cell(d->c1, authtype));
tt_assert(mock_got_var_cell); tt_assert(mock_got_var_cell);
d->cell = mock_got_var_cell; d->cell = mock_got_var_cell;
@ -1285,65 +1285,65 @@ test_link_handshake_auth_cell(void *arg)
crypto_pk_t *auth_pubkey = NULL; crypto_pk_t *auth_pubkey = NULL;
/* Is the cell well-formed on the outer layer? */ /* Is the cell well-formed on the outer layer? */
tt_int_op(d->cell->command, ==, CELL_AUTHENTICATE); tt_int_op(d->cell->command, OP_EQ, CELL_AUTHENTICATE);
tt_int_op(d->cell->payload[0], ==, 0); tt_int_op(d->cell->payload[0], OP_EQ, 0);
if (d->is_ed) if (d->is_ed)
tt_int_op(d->cell->payload[1], ==, 3); tt_int_op(d->cell->payload[1], OP_EQ, 3);
else else
tt_int_op(d->cell->payload[1], ==, 1); tt_int_op(d->cell->payload[1], OP_EQ, 1);
tt_int_op(ntohs(get_uint16(d->cell->payload + 2)), ==, tt_int_op(ntohs(get_uint16(d->cell->payload + 2)), OP_EQ,
d->cell->payload_len - 4); d->cell->payload_len - 4);
/* Check it out for plausibility... */ /* Check it out for plausibility... */
auth_ctx_t ctx; auth_ctx_t ctx;
ctx.is_ed = d->is_ed; ctx.is_ed = d->is_ed;
tt_int_op(d->cell->payload_len-4, ==, auth1_parse(&auth1, tt_int_op(d->cell->payload_len-4, OP_EQ, auth1_parse(&auth1,
d->cell->payload+4, d->cell->payload+4,
d->cell->payload_len - 4, &ctx)); d->cell->payload_len - 4, &ctx));
tt_assert(auth1); tt_assert(auth1);
if (d->is_ed) { if (d->is_ed) {
tt_mem_op(auth1->type, ==, "AUTH0003", 8); tt_mem_op(auth1->type, OP_EQ, "AUTH0003", 8);
} else { } else {
tt_mem_op(auth1->type, ==, "AUTH0001", 8); tt_mem_op(auth1->type, OP_EQ, "AUTH0001", 8);
} }
tt_mem_op(auth1->tlssecrets, ==, "int getRandomNumber(){return 4;}", 32); tt_mem_op(auth1->tlssecrets, OP_EQ, "int getRandomNumber(){return 4;}", 32);
/* Is the signature okay? */ /* Is the signature okay? */
const uint8_t *start = d->cell->payload+4, *end = auth1->end_of_signed; const uint8_t *start = d->cell->payload+4, *end = auth1->end_of_signed;
if (d->is_ed) { if (d->is_ed) {
ed25519_signature_t sig; ed25519_signature_t sig;
tt_int_op(auth1_getlen_sig(auth1), ==, ED25519_SIG_LEN); tt_int_op(auth1_getlen_sig(auth1), OP_EQ, ED25519_SIG_LEN);
memcpy(&sig.sig, auth1_getarray_sig(auth1), ED25519_SIG_LEN); memcpy(&sig.sig, auth1_getarray_sig(auth1), ED25519_SIG_LEN);
tt_assert(!ed25519_checksig(&sig, start, end-start, tt_assert(!ed25519_checksig(&sig, start, end-start,
&get_current_auth_keypair()->pubkey)); &get_current_auth_keypair()->pubkey));
} else { } else {
uint8_t sig[128]; uint8_t sig[128];
uint8_t digest[32]; uint8_t digest[32];
tt_int_op(auth1_getlen_sig(auth1), >, 120); tt_int_op(auth1_getlen_sig(auth1), OP_GT, 120);
auth_pubkey = tor_tls_cert_get_key( auth_pubkey = tor_tls_cert_get_key(
d->c2->handshake_state->certs->auth_cert); d->c2->handshake_state->certs->auth_cert);
int n = crypto_pk_public_checksig( int n = crypto_pk_public_checksig(
auth_pubkey, auth_pubkey,
(char*)sig, sizeof(sig), (char*)auth1_getarray_sig(auth1), (char*)sig, sizeof(sig), (char*)auth1_getarray_sig(auth1),
auth1_getlen_sig(auth1)); auth1_getlen_sig(auth1));
tt_int_op(n, ==, 32); tt_int_op(n, OP_EQ, 32);
crypto_digest256((char*)digest, crypto_digest256((char*)digest,
(const char*)start, end-start, DIGEST_SHA256); (const char*)start, end-start, DIGEST_SHA256);
tt_mem_op(sig, ==, digest, 32); tt_mem_op(sig, OP_EQ, digest, 32);
} }
/* Then feed it to c2. */ /* Then feed it to c2. */
tt_int_op(d->c2->handshake_state->authenticated, ==, 0); tt_int_op(d->c2->handshake_state->authenticated, OP_EQ, 0);
channel_tls_process_authenticate_cell(d->cell, d->chan2); channel_tls_process_authenticate_cell(d->cell, d->chan2);
tt_int_op(mock_close_called, ==, 0); tt_int_op(mock_close_called, OP_EQ, 0);
tt_int_op(d->c2->handshake_state->authenticated, ==, 1); tt_int_op(d->c2->handshake_state->authenticated, OP_EQ, 1);
if (d->is_ed) { if (d->is_ed) {
tt_int_op(d->c2->handshake_state->authenticated_ed25519, ==, 1); tt_int_op(d->c2->handshake_state->authenticated_ed25519, OP_EQ, 1);
tt_int_op(d->c2->handshake_state->authenticated_rsa, ==, 1); tt_int_op(d->c2->handshake_state->authenticated_rsa, OP_EQ, 1);
} else { } else {
tt_int_op(d->c2->handshake_state->authenticated_ed25519, ==, 0); tt_int_op(d->c2->handshake_state->authenticated_ed25519, OP_EQ, 0);
tt_int_op(d->c2->handshake_state->authenticated_rsa, ==, 1); tt_int_op(d->c2->handshake_state->authenticated_rsa, OP_EQ, 1);
} }
done: done:
@ -1359,10 +1359,10 @@ test_link_handshake_auth_cell(void *arg)
const char *require_failure_message = NULL; \ const char *require_failure_message = NULL; \
setup_capture_of_logs(LOG_INFO); \ setup_capture_of_logs(LOG_INFO); \
{ code ; } \ { code ; } \
tt_int_op(d->c2->handshake_state->authenticated, ==, 0); \ tt_int_op(d->c2->handshake_state->authenticated, OP_EQ, 0); \
channel_tls_process_authenticate_cell(d->cell, d->chan2); \ channel_tls_process_authenticate_cell(d->cell, d->chan2); \
tt_int_op(mock_close_called, ==, 1); \ tt_int_op(mock_close_called, OP_EQ, 1); \
tt_int_op(d->c2->handshake_state->authenticated, ==, 0); \ tt_int_op(d->c2->handshake_state->authenticated, OP_EQ, 0); \
if (require_failure_message) { \ if (require_failure_message) { \
expect_log_msg_containing(require_failure_message); \ expect_log_msg_containing(require_failure_message); \
} \ } \
@ -1390,8 +1390,8 @@ test_link_handshake_auth_already_authenticated(void *arg)
setup_capture_of_logs(LOG_INFO); setup_capture_of_logs(LOG_INFO);
d->c2->handshake_state->authenticated = 1; d->c2->handshake_state->authenticated = 1;
channel_tls_process_authenticate_cell(d->cell, d->chan2); channel_tls_process_authenticate_cell(d->cell, d->chan2);
tt_int_op(mock_close_called, ==, 1); tt_int_op(mock_close_called, OP_EQ, 1);
tt_int_op(d->c2->handshake_state->authenticated, ==, 1); tt_int_op(d->c2->handshake_state->authenticated, OP_EQ, 1);
expect_log_msg_containing("The peer is already authenticated"); expect_log_msg_containing("The peer is already authenticated");
done: done:
teardown_capture_of_logs(); teardown_capture_of_logs();
@ -1425,7 +1425,7 @@ AUTHENTICATE_FAIL(truncated_2,
d->cell->payload[3]++) d->cell->payload[3]++)
AUTHENTICATE_FAIL(tooshort_1, AUTHENTICATE_FAIL(tooshort_1,
require_failure_message = "Authenticator was too short"; require_failure_message = "Authenticator was too short";
tt_int_op(d->cell->payload_len, >=, 260); tt_int_op(d->cell->payload_len, OP_GE, 260);
d->cell->payload[2] -= 1; d->cell->payload[2] -= 1;
d->cell->payload_len -= 256;) d->cell->payload_len -= 256;)
AUTHENTICATE_FAIL(badcontent, AUTHENTICATE_FAIL(badcontent,

12
src/test/test_microdesc.c
View File

@ -464,7 +464,7 @@ test_md_generate(void *arg)
microdesc_free(md); microdesc_free(md);
md = NULL; md = NULL;
md = dirvote_create_microdescriptor(ri, 21); md = dirvote_create_microdescriptor(ri, 21);
tt_str_op(md->body, ==, test_md_18); tt_str_op(md->body, OP_EQ, test_md_18);
routerinfo_free(ri); routerinfo_free(ri);
ri = router_parse_entry_from_string(test_ri2, NULL, 0, 0, NULL, NULL); ri = router_parse_entry_from_string(test_ri2, NULL, 0, 0, NULL, NULL);
@ -472,12 +472,12 @@ test_md_generate(void *arg)
microdesc_free(md); microdesc_free(md);
md = NULL; md = NULL;
md = dirvote_create_microdescriptor(ri, 18); md = dirvote_create_microdescriptor(ri, 18);
tt_str_op(md->body, ==, test_md2_18); tt_str_op(md->body, OP_EQ, test_md2_18);
microdesc_free(md); microdesc_free(md);
md = NULL; md = NULL;
md = dirvote_create_microdescriptor(ri, 21); md = dirvote_create_microdescriptor(ri, 21);
tt_str_op(md->body, ==, test_md2_21); tt_str_op(md->body, OP_EQ, test_md2_21);
tt_assert(ed25519_pubkey_eq(md->ed25519_identity_pkey, tt_assert(ed25519_pubkey_eq(md->ed25519_identity_pkey,
&ri->cache_info.signing_key_cert->signing_key)); &ri->cache_info.signing_key_cert->signing_key));
@ -823,14 +823,14 @@ test_md_corrupt_desc(void *arg)
"@last-listed 2015-06-22 10:00:00\n" "@last-listed 2015-06-22 10:00:00\n"
"onion-k\n", "onion-k\n",
NULL, SAVED_IN_JOURNAL, 0, time(NULL), NULL); NULL, SAVED_IN_JOURNAL, 0, time(NULL), NULL);
tt_int_op(smartlist_len(sl), ==, 0); tt_int_op(smartlist_len(sl), OP_EQ, 0);
smartlist_free(sl); smartlist_free(sl);
sl = microdescs_add_to_cache(get_microdesc_cache(), sl = microdescs_add_to_cache(get_microdesc_cache(),
"@last-listed 2015-06-22 10:00:00\n" "@last-listed 2015-06-22 10:00:00\n"
"wiggly\n", "wiggly\n",
NULL, SAVED_IN_JOURNAL, 0, time(NULL), NULL); NULL, SAVED_IN_JOURNAL, 0, time(NULL), NULL);
tt_int_op(smartlist_len(sl), ==, 0); tt_int_op(smartlist_len(sl), OP_EQ, 0);
smartlist_free(sl); smartlist_free(sl);
tor_asprintf(&cp, "%s\n%s", test_md1, "@foobar\nonion-wobble\n"); tor_asprintf(&cp, "%s\n%s", test_md1, "@foobar\nonion-wobble\n");
@ -838,7 +838,7 @@ test_md_corrupt_desc(void *arg)
sl = microdescs_add_to_cache(get_microdesc_cache(), sl = microdescs_add_to_cache(get_microdesc_cache(),
cp, cp+strlen(cp), cp, cp+strlen(cp),
SAVED_IN_JOURNAL, 0, time(NULL), NULL); SAVED_IN_JOURNAL, 0, time(NULL), NULL);
tt_int_op(smartlist_len(sl), ==, 0); tt_int_op(smartlist_len(sl), OP_EQ, 0);
done: done:
tor_free(cp); tor_free(cp);

4
src/test/test_relay.c
View File

@ -91,14 +91,14 @@ test_relay_append_cell_to_circuit_queue(void *arg)
append_cell_to_circuit_queue(TO_CIRCUIT(orcirc), nchan, cell, append_cell_to_circuit_queue(TO_CIRCUIT(orcirc), nchan, cell,
CELL_DIRECTION_OUT, 0); CELL_DIRECTION_OUT, 0);
new_count = get_mock_scheduler_has_waiting_cells_count(); new_count = get_mock_scheduler_has_waiting_cells_count();
tt_int_op(new_count, ==, old_count + 1); tt_int_op(new_count, OP_EQ, old_count + 1);
/* Now try the reverse direction */ /* Now try the reverse direction */
old_count = get_mock_scheduler_has_waiting_cells_count(); old_count = get_mock_scheduler_has_waiting_cells_count();
append_cell_to_circuit_queue(TO_CIRCUIT(orcirc), pchan, cell, append_cell_to_circuit_queue(TO_CIRCUIT(orcirc), pchan, cell,
CELL_DIRECTION_IN, 0); CELL_DIRECTION_IN, 0);
new_count = get_mock_scheduler_has_waiting_cells_count(); new_count = get_mock_scheduler_has_waiting_cells_count();
tt_int_op(new_count, ==, old_count + 1); tt_int_op(new_count, OP_EQ, old_count + 1);
UNMOCK(scheduler_channel_has_waiting_cells); UNMOCK(scheduler_channel_has_waiting_cells);

166
src/test/test_routerkeys.c
View File

@ -92,8 +92,8 @@ test_routerkeys_ed_certs(void *args)
uint8_t *junk = NULL; uint8_t *junk = NULL;
char *base64 = NULL; char *base64 = NULL;
tt_int_op(0,==,ed25519_keypair_generate(&kp1, 0)); tt_int_op(0,OP_EQ,ed25519_keypair_generate(&kp1, 0));
tt_int_op(0,==,ed25519_keypair_generate(&kp2, 0)); tt_int_op(0,OP_EQ,ed25519_keypair_generate(&kp2, 0));
for (int i = 0; i <= 1; ++i) { for (int i = 0; i <= 1; ++i) {
uint32_t flags = i ? CERT_FLAG_INCLUDE_SIGNING_KEY : 0; uint32_t flags = i ? CERT_FLAG_INCLUDE_SIGNING_KEY : 0;
@ -105,20 +105,20 @@ test_routerkeys_ed_certs(void *args)
tt_assert(cert[i]->sig_ok == 1); tt_assert(cert[i]->sig_ok == 1);
tt_assert(cert[i]->cert_expired == 0); tt_assert(cert[i]->cert_expired == 0);
tt_assert(cert[i]->cert_valid == 1); tt_assert(cert[i]->cert_valid == 1);
tt_int_op(cert[i]->cert_type, ==, 5); tt_int_op(cert[i]->cert_type, OP_EQ, 5);
tt_mem_op(cert[i]->signed_key.pubkey, ==, &kp2.pubkey.pubkey, 32); tt_mem_op(cert[i]->signed_key.pubkey, OP_EQ, &kp2.pubkey.pubkey, 32);
tt_mem_op(cert[i]->signing_key.pubkey, ==, &kp1.pubkey.pubkey, 32); tt_mem_op(cert[i]->signing_key.pubkey, OP_EQ, &kp1.pubkey.pubkey, 32);
tt_int_op(cert[i]->signing_key_included, ==, i); tt_int_op(cert[i]->signing_key_included, OP_EQ, i);
tt_assert(cert[i]->encoded); tt_assert(cert[i]->encoded);
tt_int_op(cert[i]->encoded_len, ==, 104 + 36 * i); tt_int_op(cert[i]->encoded_len, OP_EQ, 104 + 36 * i);
tt_int_op(cert[i]->encoded[0], ==, 1); tt_int_op(cert[i]->encoded[0], OP_EQ, 1);
tt_int_op(cert[i]->encoded[1], ==, 5); tt_int_op(cert[i]->encoded[1], OP_EQ, 5);
parsed_cert[i] = tor_cert_parse(cert[i]->encoded, cert[i]->encoded_len); parsed_cert[i] = tor_cert_parse(cert[i]->encoded, cert[i]->encoded_len);
tt_assert(parsed_cert[i]); tt_assert(parsed_cert[i]);
tt_int_op(cert[i]->encoded_len, ==, parsed_cert[i]->encoded_len); tt_int_op(cert[i]->encoded_len, OP_EQ, parsed_cert[i]->encoded_len);
tt_mem_op(cert[i]->encoded, ==, parsed_cert[i]->encoded, tt_mem_op(cert[i]->encoded, OP_EQ, parsed_cert[i]->encoded,
cert[i]->encoded_len); cert[i]->encoded_len);
tt_assert(parsed_cert[i]->sig_bad == 0); tt_assert(parsed_cert[i]->sig_bad == 0);
tt_assert(parsed_cert[i]->sig_ok == 0); tt_assert(parsed_cert[i]->sig_ok == 0);
@ -127,18 +127,18 @@ test_routerkeys_ed_certs(void *args)
/* Expired */ /* Expired */
tt_int_op(tor_cert_checksig(parsed_cert[i], &kp1.pubkey, now + 30000), tt_int_op(tor_cert_checksig(parsed_cert[i], &kp1.pubkey, now + 30000),
<, 0); OP_LT, 0);
tt_assert(parsed_cert[i]->cert_expired == 1); tt_assert(parsed_cert[i]->cert_expired == 1);
parsed_cert[i]->cert_expired = 0; parsed_cert[i]->cert_expired = 0;
/* Wrong key */ /* Wrong key */
tt_int_op(tor_cert_checksig(parsed_cert[i], &kp2.pubkey, now), <, 0); tt_int_op(tor_cert_checksig(parsed_cert[i], &kp2.pubkey, now), OP_LT, 0);
tt_assert(parsed_cert[i]->sig_bad== 1); tt_assert(parsed_cert[i]->sig_bad== 1);
parsed_cert[i]->sig_bad = 0; parsed_cert[i]->sig_bad = 0;
/* Missing key */ /* Missing key */
int ok = tor_cert_checksig(parsed_cert[i], NULL, now); int ok = tor_cert_checksig(parsed_cert[i], NULL, now);
tt_int_op(ok < 0, ==, i == 0); tt_int_op(ok < 0, OP_EQ, i == 0);
tt_assert(parsed_cert[i]->sig_bad == 0); tt_assert(parsed_cert[i]->sig_bad == 0);
tt_assert(parsed_cert[i]->sig_ok == (i != 0)); tt_assert(parsed_cert[i]->sig_ok == (i != 0));
tt_assert(parsed_cert[i]->cert_valid == (i != 0)); tt_assert(parsed_cert[i]->cert_valid == (i != 0));
@ -147,7 +147,7 @@ test_routerkeys_ed_certs(void *args)
parsed_cert[i]->cert_valid = 0; parsed_cert[i]->cert_valid = 0;
/* Right key */ /* Right key */
tt_int_op(tor_cert_checksig(parsed_cert[i], &kp1.pubkey, now), ==, 0); tt_int_op(tor_cert_checksig(parsed_cert[i], &kp1.pubkey, now), OP_EQ, 0);
tt_assert(parsed_cert[i]->sig_bad == 0); tt_assert(parsed_cert[i]->sig_bad == 0);
tt_assert(parsed_cert[i]->sig_ok == 1); tt_assert(parsed_cert[i]->sig_ok == 1);
tt_assert(parsed_cert[i]->cert_expired == 0); tt_assert(parsed_cert[i]->cert_expired == 0);
@ -157,19 +157,19 @@ test_routerkeys_ed_certs(void *args)
/* Now try some junky certs. */ /* Now try some junky certs. */
/* - Truncated */ /* - Truncated */
nocert = tor_cert_parse(cert[0]->encoded, cert[0]->encoded_len-1); nocert = tor_cert_parse(cert[0]->encoded, cert[0]->encoded_len-1);
tt_ptr_op(NULL, ==, nocert); tt_ptr_op(NULL, OP_EQ, nocert);
/* - First byte modified */ /* - First byte modified */
cert[0]->encoded[0] = 99; cert[0]->encoded[0] = 99;
nocert = tor_cert_parse(cert[0]->encoded, cert[0]->encoded_len); nocert = tor_cert_parse(cert[0]->encoded, cert[0]->encoded_len);
tt_ptr_op(NULL, ==, nocert); tt_ptr_op(NULL, OP_EQ, nocert);
cert[0]->encoded[0] = 1; cert[0]->encoded[0] = 1;
/* - Extra byte at the end*/ /* - Extra byte at the end*/
junk = tor_malloc_zero(cert[0]->encoded_len + 1); junk = tor_malloc_zero(cert[0]->encoded_len + 1);
memcpy(junk, cert[0]->encoded, cert[0]->encoded_len); memcpy(junk, cert[0]->encoded, cert[0]->encoded_len);
nocert = tor_cert_parse(junk, cert[0]->encoded_len+1); nocert = tor_cert_parse(junk, cert[0]->encoded_len+1);
tt_ptr_op(NULL, ==, nocert); tt_ptr_op(NULL, OP_EQ, nocert);
/* - Multiple signing key instances */ /* - Multiple signing key instances */
tor_free(junk); tor_free(junk);
@ -183,7 +183,7 @@ test_routerkeys_ed_certs(void *args)
junk[77] = 32; /* extlen */ junk[77] = 32; /* extlen */
junk[78] = 4; /* exttype */ junk[78] = 4; /* exttype */
nocert = tor_cert_parse(junk, 104 + 36 * 2); nocert = tor_cert_parse(junk, 104 + 36 * 2);
tt_ptr_op(NULL, ==, nocert); tt_ptr_op(NULL, OP_EQ, nocert);
done: done:
tor_cert_free(cert[0]); tor_cert_free(cert[0]);
@ -211,11 +211,11 @@ test_routerkeys_ed_key_create(void *arg)
kp2 = ed_key_new(kp1, INIT_ED_KEY_NEEDCERT, now, 3600, 4, &cert); kp2 = ed_key_new(kp1, INIT_ED_KEY_NEEDCERT, now, 3600, 4, &cert);
tt_assert(kp2); tt_assert(kp2);
tt_assert(cert); tt_assert(cert);
tt_mem_op(&cert->signed_key, ==, &kp2->pubkey, sizeof(ed25519_public_key_t)); tt_mem_op(&cert->signed_key, OP_EQ, &kp2->pubkey, sizeof(ed25519_public_key_t));
tt_assert(! cert->signing_key_included); tt_assert(! cert->signing_key_included);
tt_int_op(cert->valid_until, >=, now); tt_int_op(cert->valid_until, OP_GE, now);
tt_int_op(cert->valid_until, <=, now+7200); tt_int_op(cert->valid_until, OP_LE, now+7200);
/* Create a new key-including certificate signed by kp1 */ /* Create a new key-including certificate signed by kp1 */
ed25519_keypair_free(kp2); ed25519_keypair_free(kp2);
@ -227,8 +227,8 @@ test_routerkeys_ed_key_create(void *arg)
tt_assert(kp2); tt_assert(kp2);
tt_assert(cert); tt_assert(cert);
tt_assert(cert->signing_key_included); tt_assert(cert->signing_key_included);
tt_mem_op(&cert->signed_key, ==, &kp2->pubkey, sizeof(ed25519_public_key_t)); tt_mem_op(&cert->signed_key, OP_EQ, &kp2->pubkey, sizeof(ed25519_public_key_t));
tt_mem_op(&cert->signing_key, ==, &kp1->pubkey,sizeof(ed25519_public_key_t)); tt_mem_op(&cert->signing_key, OP_EQ, &kp1->pubkey,sizeof(ed25519_public_key_t));
done: done:
ed25519_keypair_free(kp1); ed25519_keypair_free(kp1);
@ -261,8 +261,8 @@ test_routerkeys_ed_key_init_basic(void *arg)
NULL, now, 0, 7, &cert); NULL, now, 0, 7, &cert);
tt_assert(kp1 != NULL); tt_assert(kp1 != NULL);
tt_assert(cert == NULL); tt_assert(cert == NULL);
tt_int_op(stat(get_fname("test_ed_key_1_cert"), &st), <, 0); tt_int_op(stat(get_fname("test_ed_key_1_cert"), &st), OP_LT, 0);
tt_int_op(stat(get_fname("test_ed_key_1_secret_key"), &st), ==, 0); tt_int_op(stat(get_fname("test_ed_key_1_secret_key"), &st), OP_EQ, 0);
/* Fail to load if we say we need a cert */ /* Fail to load if we say we need a cert */
kp2 = ed_key_init_from_file(fname1, INIT_ED_KEY_NEEDCERT, LOG_INFO, kp2 = ed_key_init_from_file(fname1, INIT_ED_KEY_NEEDCERT, LOG_INFO,
@ -279,14 +279,14 @@ test_routerkeys_ed_key_init_basic(void *arg)
NULL, now, 0, 7, &cert); NULL, now, 0, 7, &cert);
tt_assert(kp2 != NULL); tt_assert(kp2 != NULL);
tt_assert(cert == NULL); tt_assert(cert == NULL);
tt_mem_op(kp1, ==, kp2, sizeof(*kp1)); tt_mem_op(kp1, OP_EQ, kp2, sizeof(*kp1));
ed25519_keypair_free(kp2); kp2 = NULL; ed25519_keypair_free(kp2); kp2 = NULL;
kp2 = ed_key_init_from_file(fname1, 0, LOG_INFO, kp2 = ed_key_init_from_file(fname1, 0, LOG_INFO,
NULL, now, 0, 7, &cert); NULL, now, 0, 7, &cert);
tt_assert(kp2 != NULL); tt_assert(kp2 != NULL);
tt_assert(cert == NULL); tt_assert(cert == NULL);
tt_mem_op(kp1, ==, kp2, sizeof(*kp1)); tt_mem_op(kp1, OP_EQ, kp2, sizeof(*kp1));
ed25519_keypair_free(kp2); kp2 = NULL; ed25519_keypair_free(kp2); kp2 = NULL;
/* Now create a key with a cert. */ /* Now create a key with a cert. */
@ -295,34 +295,34 @@ test_routerkeys_ed_key_init_basic(void *arg)
LOG_INFO, kp1, now, 7200, 7, &cert); LOG_INFO, kp1, now, 7200, 7, &cert);
tt_assert(kp2 != NULL); tt_assert(kp2 != NULL);
tt_assert(cert != NULL); tt_assert(cert != NULL);
tt_mem_op(kp1, !=, kp2, sizeof(*kp1)); tt_mem_op(kp1, OP_NE, kp2, sizeof(*kp1));
tt_int_op(stat(get_fname("test_ed_key_2_cert"), &st), ==, 0); tt_int_op(stat(get_fname("test_ed_key_2_cert"), &st), OP_EQ, 0);
tt_int_op(stat(get_fname("test_ed_key_2_secret_key"), &st), ==, 0); tt_int_op(stat(get_fname("test_ed_key_2_secret_key"), &st), OP_EQ, 0);
tt_assert(cert->cert_valid == 1); tt_assert(cert->cert_valid == 1);
tt_mem_op(&cert->signed_key, ==, &kp2->pubkey, 32); tt_mem_op(&cert->signed_key, OP_EQ, &kp2->pubkey, 32);
/* Now verify we can load the cert... */ /* Now verify we can load the cert... */
kp3 = ed_key_init_from_file(fname2, (INIT_ED_KEY_CREATE| kp3 = ed_key_init_from_file(fname2, (INIT_ED_KEY_CREATE|
INIT_ED_KEY_NEEDCERT), INIT_ED_KEY_NEEDCERT),
LOG_INFO, kp1, now, 7200, 7, &cert2); LOG_INFO, kp1, now, 7200, 7, &cert2);
tt_mem_op(kp2, ==, kp3, sizeof(*kp2)); tt_mem_op(kp2, OP_EQ, kp3, sizeof(*kp2));
tt_mem_op(cert2->encoded, ==, cert->encoded, cert->encoded_len); tt_mem_op(cert2->encoded, OP_EQ, cert->encoded, cert->encoded_len);
ed25519_keypair_free(kp3); kp3 = NULL; ed25519_keypair_free(kp3); kp3 = NULL;
tor_cert_free(cert2); cert2 = NULL; tor_cert_free(cert2); cert2 = NULL;
/* ... even without create... */ /* ... even without create... */
kp3 = ed_key_init_from_file(fname2, INIT_ED_KEY_NEEDCERT, kp3 = ed_key_init_from_file(fname2, INIT_ED_KEY_NEEDCERT,
LOG_INFO, kp1, now, 7200, 7, &cert2); LOG_INFO, kp1, now, 7200, 7, &cert2);
tt_mem_op(kp2, ==, kp3, sizeof(*kp2)); tt_mem_op(kp2, OP_EQ, kp3, sizeof(*kp2));
tt_mem_op(cert2->encoded, ==, cert->encoded, cert->encoded_len); tt_mem_op(cert2->encoded, OP_EQ, cert->encoded, cert->encoded_len);
ed25519_keypair_free(kp3); kp3 = NULL; ed25519_keypair_free(kp3); kp3 = NULL;
tor_cert_free(cert2); cert2 = NULL; tor_cert_free(cert2); cert2 = NULL;
/* ... but that we don't crash or anything if we say we don't want it. */ /* ... but that we don't crash or anything if we say we don't want it. */
kp3 = ed_key_init_from_file(fname2, INIT_ED_KEY_NEEDCERT, kp3 = ed_key_init_from_file(fname2, INIT_ED_KEY_NEEDCERT,
LOG_INFO, kp1, now, 7200, 7, NULL); LOG_INFO, kp1, now, 7200, 7, NULL);
tt_mem_op(kp2, ==, kp3, sizeof(*kp2)); tt_mem_op(kp2, OP_EQ, kp3, sizeof(*kp2));
ed25519_keypair_free(kp3); kp3 = NULL; ed25519_keypair_free(kp3); kp3 = NULL;
/* Fail if we're told the wrong signing key */ /* Fail if we're told the wrong signing key */
@ -367,16 +367,16 @@ test_routerkeys_ed_key_init_split(void *arg)
LOG_INFO, NULL, now, 0, 7, &cert); LOG_INFO, NULL, now, 0, 7, &cert);
tt_assert(kp1 != NULL); tt_assert(kp1 != NULL);
tt_assert(cert == NULL); tt_assert(cert == NULL);
tt_int_op(stat(get_fname("test_ed_key_3_cert"), &st), <, 0); tt_int_op(stat(get_fname("test_ed_key_3_cert"), &st), OP_LT, 0);
tt_int_op(stat(get_fname("test_ed_key_3_secret_key"), &st), ==, 0); tt_int_op(stat(get_fname("test_ed_key_3_secret_key"), &st), OP_EQ, 0);
tt_int_op(stat(get_fname("test_ed_key_3_public_key"), &st), ==, 0); tt_int_op(stat(get_fname("test_ed_key_3_public_key"), &st), OP_EQ, 0);
/* Load it. */ /* Load it. */
kp2 = ed_key_init_from_file(fname1, flags|INIT_ED_KEY_CREATE, kp2 = ed_key_init_from_file(fname1, flags|INIT_ED_KEY_CREATE,
LOG_INFO, NULL, now, 0, 7, &cert); LOG_INFO, NULL, now, 0, 7, &cert);
tt_assert(kp2 != NULL); tt_assert(kp2 != NULL);
tt_assert(cert == NULL); tt_assert(cert == NULL);
tt_mem_op(kp1, ==, kp2, sizeof(*kp2)); tt_mem_op(kp1, OP_EQ, kp2, sizeof(*kp2));
ed25519_keypair_free(kp2); kp2 = NULL; ed25519_keypair_free(kp2); kp2 = NULL;
/* Okay, try killing the secret key and loading it. */ /* Okay, try killing the secret key and loading it. */
@ -385,7 +385,7 @@ test_routerkeys_ed_key_init_split(void *arg)
LOG_INFO, NULL, now, 0, 7, &cert); LOG_INFO, NULL, now, 0, 7, &cert);
tt_assert(kp2 != NULL); tt_assert(kp2 != NULL);
tt_assert(cert == NULL); tt_assert(cert == NULL);
tt_mem_op(&kp1->pubkey, ==, &kp2->pubkey, sizeof(kp2->pubkey)); tt_mem_op(&kp1->pubkey, OP_EQ, &kp2->pubkey, sizeof(kp2->pubkey));
tt_assert(tor_mem_is_zero((char*)kp2->seckey.seckey, tt_assert(tor_mem_is_zero((char*)kp2->seckey.seckey,
sizeof(kp2->seckey.seckey))); sizeof(kp2->seckey.seckey)));
ed25519_keypair_free(kp2); kp2 = NULL; ed25519_keypair_free(kp2); kp2 = NULL;
@ -395,7 +395,7 @@ test_routerkeys_ed_key_init_split(void *arg)
LOG_INFO, NULL, now, 0, 7, &cert); LOG_INFO, NULL, now, 0, 7, &cert);
tt_assert(kp2 != NULL); tt_assert(kp2 != NULL);
tt_assert(cert == NULL); tt_assert(cert == NULL);
tt_mem_op(&kp1->pubkey, ==, &kp2->pubkey, sizeof(kp2->pubkey)); tt_mem_op(&kp1->pubkey, OP_EQ, &kp2->pubkey, sizeof(kp2->pubkey));
tt_assert(tor_mem_is_zero((char*)kp2->seckey.seckey, tt_assert(tor_mem_is_zero((char*)kp2->seckey.seckey,
sizeof(kp2->seckey.seckey))); sizeof(kp2->seckey.seckey)));
ed25519_keypair_free(kp2); kp2 = NULL; ed25519_keypair_free(kp2); kp2 = NULL;
@ -450,8 +450,8 @@ test_routerkeys_ed_keys_init_all(void *arg)
options->DataDirectory = dir; options->DataDirectory = dir;
tt_int_op(1, ==, load_ed_keys(options, now)); tt_int_op(1, OP_EQ, load_ed_keys(options, now));
tt_int_op(0, ==, generate_ed_link_cert(options, now, 0)); tt_int_op(0, OP_EQ, generate_ed_link_cert(options, now, 0));
tt_assert(get_master_identity_key()); tt_assert(get_master_identity_key());
tt_assert(get_master_identity_key()); tt_assert(get_master_identity_key());
tt_assert(get_master_signing_keypair()); tt_assert(get_master_signing_keypair());
@ -465,21 +465,21 @@ test_routerkeys_ed_keys_init_all(void *arg)
link_cert = tor_cert_dup(get_current_link_cert_cert()); link_cert = tor_cert_dup(get_current_link_cert_cert());
/* Call load_ed_keys again, but nothing has changed. */ /* Call load_ed_keys again, but nothing has changed. */
tt_int_op(0, ==, load_ed_keys(options, now)); tt_int_op(0, OP_EQ, load_ed_keys(options, now));
tt_int_op(0, ==, generate_ed_link_cert(options, now, 0)); tt_int_op(0, OP_EQ, generate_ed_link_cert(options, now, 0));
tt_mem_op(&id, ==, get_master_identity_key(), sizeof(id)); tt_mem_op(&id, OP_EQ, get_master_identity_key(), sizeof(id));
tt_mem_op(&sign, ==, get_master_signing_keypair(), sizeof(sign)); tt_mem_op(&sign, OP_EQ, get_master_signing_keypair(), sizeof(sign));
tt_mem_op(&auth, ==, get_current_auth_keypair(), sizeof(auth)); tt_mem_op(&auth, OP_EQ, get_current_auth_keypair(), sizeof(auth));
tt_assert(tor_cert_eq(link_cert, get_current_link_cert_cert())); tt_assert(tor_cert_eq(link_cert, get_current_link_cert_cert()));
/* Force a reload: we make new link/auth keys. */ /* Force a reload: we make new link/auth keys. */
routerkeys_free_all(); routerkeys_free_all();
tt_int_op(1, ==, load_ed_keys(options, now)); tt_int_op(1, OP_EQ, load_ed_keys(options, now));
tt_int_op(0, ==, generate_ed_link_cert(options, now, 0)); tt_int_op(0, OP_EQ, generate_ed_link_cert(options, now, 0));
tt_mem_op(&id, ==, get_master_identity_key(), sizeof(id)); tt_mem_op(&id, OP_EQ, get_master_identity_key(), sizeof(id));
tt_mem_op(&sign, ==, get_master_signing_keypair(), sizeof(sign)); tt_mem_op(&sign, OP_EQ, get_master_signing_keypair(), sizeof(sign));
tt_assert(tor_cert_eq(link_cert, get_current_link_cert_cert())); tt_assert(tor_cert_eq(link_cert, get_current_link_cert_cert()));
tt_mem_op(&auth, !=, get_current_auth_keypair(), sizeof(auth)); tt_mem_op(&auth, OP_NE, get_current_auth_keypair(), sizeof(auth));
tt_assert(get_master_signing_key_cert()); tt_assert(get_master_signing_key_cert());
tt_assert(get_current_link_cert_cert()); tt_assert(get_current_link_cert_cert());
tt_assert(get_current_auth_key_cert()); tt_assert(get_current_auth_key_cert());
@ -488,12 +488,12 @@ test_routerkeys_ed_keys_init_all(void *arg)
memcpy(&auth, get_current_auth_keypair(), sizeof(auth)); memcpy(&auth, get_current_auth_keypair(), sizeof(auth));
/* Force a link/auth-key regeneration by advancing time. */ /* Force a link/auth-key regeneration by advancing time. */
tt_int_op(0, ==, load_ed_keys(options, now+3*86400)); tt_int_op(0, OP_EQ, load_ed_keys(options, now+3*86400));
tt_int_op(0, ==, generate_ed_link_cert(options, now+3*86400, 0)); tt_int_op(0, OP_EQ, generate_ed_link_cert(options, now+3*86400, 0));
tt_mem_op(&id, ==, get_master_identity_key(), sizeof(id)); tt_mem_op(&id, OP_EQ, get_master_identity_key(), sizeof(id));
tt_mem_op(&sign, ==, get_master_signing_keypair(), sizeof(sign)); tt_mem_op(&sign, OP_EQ, get_master_signing_keypair(), sizeof(sign));
tt_assert(! tor_cert_eq(link_cert, get_current_link_cert_cert())); tt_assert(! tor_cert_eq(link_cert, get_current_link_cert_cert()));
tt_mem_op(&auth, !=, get_current_auth_keypair(), sizeof(auth)); tt_mem_op(&auth, OP_NE, get_current_auth_keypair(), sizeof(auth));
tt_assert(get_master_signing_key_cert()); tt_assert(get_master_signing_key_cert());
tt_assert(get_current_link_cert_cert()); tt_assert(get_current_link_cert_cert());
tt_assert(get_current_auth_key_cert()); tt_assert(get_current_auth_key_cert());
@ -502,12 +502,12 @@ test_routerkeys_ed_keys_init_all(void *arg)
memcpy(&auth, get_current_auth_keypair(), sizeof(auth)); memcpy(&auth, get_current_auth_keypair(), sizeof(auth));
/* Force a signing-key regeneration by advancing time. */ /* Force a signing-key regeneration by advancing time. */
tt_int_op(1, ==, load_ed_keys(options, now+100*86400)); tt_int_op(1, OP_EQ, load_ed_keys(options, now+100*86400));
tt_int_op(0, ==, generate_ed_link_cert(options, now+100*86400, 0)); tt_int_op(0, OP_EQ, generate_ed_link_cert(options, now+100*86400, 0));
tt_mem_op(&id, ==, get_master_identity_key(), sizeof(id)); tt_mem_op(&id, OP_EQ, get_master_identity_key(), sizeof(id));
tt_mem_op(&sign, !=, get_master_signing_keypair(), sizeof(sign)); tt_mem_op(&sign, OP_NE, get_master_signing_keypair(), sizeof(sign));
tt_assert(! tor_cert_eq(link_cert, get_current_link_cert_cert())); tt_assert(! tor_cert_eq(link_cert, get_current_link_cert_cert()));
tt_mem_op(&auth, !=, get_current_auth_keypair(), sizeof(auth)); tt_mem_op(&auth, OP_NE, get_current_auth_keypair(), sizeof(auth));
tt_assert(get_master_signing_key_cert()); tt_assert(get_master_signing_key_cert());
tt_assert(get_current_link_cert_cert()); tt_assert(get_current_link_cert_cert());
tt_assert(get_current_auth_key_cert()); tt_assert(get_current_auth_key_cert());
@ -520,12 +520,12 @@ test_routerkeys_ed_keys_init_all(void *arg)
routerkeys_free_all(); routerkeys_free_all();
unlink(get_fname("test_ed_keys_init_all/keys/" unlink(get_fname("test_ed_keys_init_all/keys/"
"ed25519_master_id_secret_key")); "ed25519_master_id_secret_key"));
tt_int_op(1, ==, load_ed_keys(options, now)); tt_int_op(1, OP_EQ, load_ed_keys(options, now));
tt_int_op(0, ==, generate_ed_link_cert(options, now, 0)); tt_int_op(0, OP_EQ, generate_ed_link_cert(options, now, 0));
tt_mem_op(&id, ==, get_master_identity_key(), sizeof(id)); tt_mem_op(&id, OP_EQ, get_master_identity_key(), sizeof(id));
tt_mem_op(&sign, ==, get_master_signing_keypair(), sizeof(sign)); tt_mem_op(&sign, OP_EQ, get_master_signing_keypair(), sizeof(sign));
tt_assert(! tor_cert_eq(link_cert, get_current_link_cert_cert())); tt_assert(! tor_cert_eq(link_cert, get_current_link_cert_cert()));
tt_mem_op(&auth, !=, get_current_auth_keypair(), sizeof(auth)); tt_mem_op(&auth, OP_NE, get_current_auth_keypair(), sizeof(auth));
tt_assert(get_master_signing_key_cert()); tt_assert(get_master_signing_key_cert());
tt_assert(get_current_link_cert_cert()); tt_assert(get_current_link_cert_cert());
tt_assert(get_current_auth_key_cert()); tt_assert(get_current_auth_key_cert());
@ -535,7 +535,7 @@ test_routerkeys_ed_keys_init_all(void *arg)
log_global_min_severity_ = LOG_ERR; /* Suppress warnings. log_global_min_severity_ = LOG_ERR; /* Suppress warnings.
* XXX (better way to do this)? */ * XXX (better way to do this)? */
routerkeys_free_all(); routerkeys_free_all();
tt_int_op(-1, ==, load_ed_keys(options, now+200*86400)); tt_int_op(-1, OP_EQ, load_ed_keys(options, now+200*86400));
done: done:
tor_free(dir); tor_free(dir);
@ -556,20 +556,20 @@ test_routerkeys_cross_certify_ntor(void *args)
time_t now = time(NULL); time_t now = time(NULL);
int sign; int sign;
tt_int_op(0, ==, ed25519_public_from_base64(&master_key, tt_int_op(0, OP_EQ, ed25519_public_from_base64(&master_key,
"IamwritingthesetestsOnARainyAfternoonin2014")); "IamwritingthesetestsOnARainyAfternoonin2014"));
tt_int_op(0, ==, curve25519_keypair_generate(&onion_keys, 0)); tt_int_op(0, OP_EQ, curve25519_keypair_generate(&onion_keys, 0));
cert = make_ntor_onion_key_crosscert(&onion_keys, cert = make_ntor_onion_key_crosscert(&onion_keys,
&master_key, &master_key,
now, 10000, now, 10000,
&sign); &sign);
tt_assert(cert); tt_assert(cert);
tt_assert(sign == 0 || sign == 1); tt_assert(sign == 0 || sign == 1);
tt_int_op(cert->cert_type, ==, CERT_TYPE_ONION_ID); tt_int_op(cert->cert_type, OP_EQ, CERT_TYPE_ONION_ID);
tt_int_op(1, ==, ed25519_pubkey_eq(&cert->signed_key, &master_key)); tt_int_op(1, OP_EQ, ed25519_pubkey_eq(&cert->signed_key, &master_key));
tt_int_op(0, ==, ed25519_public_key_from_curve25519_public_key( tt_int_op(0, OP_EQ, ed25519_public_key_from_curve25519_public_key(
&onion_check_key, &onion_keys.pubkey, sign)); &onion_check_key, &onion_keys.pubkey, sign));
tt_int_op(0, ==, tor_cert_checksig(cert, &onion_check_key, now)); tt_int_op(0, OP_EQ, tor_cert_checksig(cert, &onion_check_key, now));
done: done:
tor_cert_free(cert); tor_cert_free(cert);
@ -587,7 +587,7 @@ test_routerkeys_cross_certify_tap(void *args)
char buf[128]; char buf[128];
int n; int n;
tt_int_op(0, ==, ed25519_public_from_base64(&master_key, tt_int_op(0, OP_EQ, ed25519_public_from_base64(&master_key,
"IAlreadyWroteTestsForRouterdescsUsingTheseX")); "IAlreadyWroteTestsForRouterdescsUsingTheseX"));
cc = make_tap_onion_key_crosscert(onion_key, cc = make_tap_onion_key_crosscert(onion_key,
@ -598,14 +598,14 @@ test_routerkeys_cross_certify_tap(void *args)
n = crypto_pk_public_checksig(onion_key, buf, sizeof(buf), n = crypto_pk_public_checksig(onion_key, buf, sizeof(buf),
(char*)cc, cc_len); (char*)cc, cc_len);
tt_int_op(n,>,0); tt_int_op(n,OP_GT,0);
tt_int_op(n,==,52); tt_int_op(n,OP_EQ,52);
crypto_pk_get_digest(id_key, digest); crypto_pk_get_digest(id_key, digest);
tt_mem_op(buf,==,digest,20); tt_mem_op(buf,OP_EQ,digest,20);
tt_mem_op(buf+20,==,master_key.pubkey,32); tt_mem_op(buf+20,OP_EQ,master_key.pubkey,32);
tt_int_op(0, ==, check_tap_onion_key_crosscert(cc, cc_len, tt_int_op(0, OP_EQ, check_tap_onion_key_crosscert(cc, cc_len,
onion_key, &master_key, (uint8_t*)digest)); onion_key, &master_key, (uint8_t*)digest));
done: done:

18
src/test/test_routerlist.c
View File

@ -117,7 +117,7 @@ test_routerlist_launch_descriptor_downloads(void *arg)
MOCK(initiate_descriptor_downloads, mock_initiate_descriptor_downloads); MOCK(initiate_descriptor_downloads, mock_initiate_descriptor_downloads);
launch_descriptor_downloads(DIR_PURPOSE_FETCH_MICRODESC, downloadable, launch_descriptor_downloads(DIR_PURPOSE_FETCH_MICRODESC, downloadable,
NULL, now); NULL, now);
tt_int_op(3, ==, count); tt_int_op(3, OP_EQ, count);
UNMOCK(initiate_descriptor_downloads); UNMOCK(initiate_descriptor_downloads);
done: done:
@ -148,24 +148,24 @@ construct_consensus(char **consensus_text_md)
&v1, &n_vrs, now, 1); &v1, &n_vrs, now, 1);
networkstatus_vote_free(vote); networkstatus_vote_free(vote);
tt_assert(v1); tt_assert(v1);
tt_int_op(n_vrs, ==, 4); tt_int_op(n_vrs, OP_EQ, 4);
tt_int_op(smartlist_len(v1->routerstatus_list), ==, 4); tt_int_op(smartlist_len(v1->routerstatus_list), OP_EQ, 4);
dir_common_construct_vote_2(&vote, cert2, sign_skey_2, dir_common_construct_vote_2(&vote, cert2, sign_skey_2,
&dir_common_gen_routerstatus_for_v3ns, &dir_common_gen_routerstatus_for_v3ns,
&v2, &n_vrs, now, 1); &v2, &n_vrs, now, 1);
networkstatus_vote_free(vote); networkstatus_vote_free(vote);
tt_assert(v2); tt_assert(v2);
tt_int_op(n_vrs, ==, 4); tt_int_op(n_vrs, OP_EQ, 4);
tt_int_op(smartlist_len(v2->routerstatus_list), ==, 4); tt_int_op(smartlist_len(v2->routerstatus_list), OP_EQ, 4);
dir_common_construct_vote_3(&vote, cert3, sign_skey_3, dir_common_construct_vote_3(&vote, cert3, sign_skey_3,
&dir_common_gen_routerstatus_for_v3ns, &dir_common_gen_routerstatus_for_v3ns,
&v3, &n_vrs, now, 1); &v3, &n_vrs, now, 1);
tt_assert(v3); tt_assert(v3);
tt_int_op(n_vrs, ==, 4); tt_int_op(n_vrs, OP_EQ, 4);
tt_int_op(smartlist_len(v3->routerstatus_list), ==, 4); tt_int_op(smartlist_len(v3->routerstatus_list), OP_EQ, 4);
networkstatus_vote_free(vote); networkstatus_vote_free(vote);
votes = smartlist_new(); votes = smartlist_new();
smartlist_add(votes, v1); smartlist_add(votes, v1);
@ -254,9 +254,9 @@ test_router_pick_directory_server_impl(void *arg)
con_md = networkstatus_parse_vote_from_string(consensus_text_md, NULL, con_md = networkstatus_parse_vote_from_string(consensus_text_md, NULL,
NS_TYPE_CONSENSUS); NS_TYPE_CONSENSUS);
tt_assert(con_md); tt_assert(con_md);
tt_int_op(con_md->flavor,==, FLAV_MICRODESC); tt_int_op(con_md->flavor,OP_EQ, FLAV_MICRODESC);
tt_assert(con_md->routerstatus_list); tt_assert(con_md->routerstatus_list);
tt_int_op(smartlist_len(con_md->routerstatus_list), ==, 3); tt_int_op(smartlist_len(con_md->routerstatus_list), OP_EQ, 3);
tt_assert(!networkstatus_set_current_consensus_from_ns(con_md, tt_assert(!networkstatus_set_current_consensus_from_ns(con_md,
"microdesc")); "microdesc"));

124
src/test/test_scheduler.c
View File

@ -75,7 +75,7 @@ mock_event_free_all(void)
mock_event_base = NULL; mock_event_base = NULL;
} }
tt_ptr_op(mock_event_base, ==, NULL); tt_ptr_op(mock_event_base, OP_EQ, NULL);
done: done:
return; return;
@ -86,7 +86,7 @@ mock_event_init(void)
{ {
struct event_config *cfg = NULL; struct event_config *cfg = NULL;
tt_ptr_op(mock_event_base, ==, NULL); tt_ptr_op(mock_event_base, OP_EQ, NULL);
/* /*
* Really cut down from tor_libevent_initialize of * Really cut down from tor_libevent_initialize of
@ -326,7 +326,7 @@ test_scheduler_channel_states(void *arg)
*/ */
MOCK(scheduler_run, scheduler_run_noop_mock); MOCK(scheduler_run, scheduler_run_noop_mock);
tt_int_op(smartlist_len(channels_pending), ==, 0); tt_int_op(smartlist_len(channels_pending), OP_EQ, 0);
/* Set up a fake channel */ /* Set up a fake channel */
ch1 = new_fake_channel(); ch1 = new_fake_channel();
@ -341,7 +341,7 @@ test_scheduler_channel_states(void *arg)
tt_assert(ch1->registered); tt_assert(ch1->registered);
/* It should start off in SCHED_CHAN_IDLE */ /* It should start off in SCHED_CHAN_IDLE */
tt_int_op(ch1->scheduler_state, ==, SCHED_CHAN_IDLE); tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_IDLE);
/* Now get another one */ /* Now get another one */
ch2 = new_fake_channel(); ch2 = new_fake_channel();
@ -353,39 +353,39 @@ test_scheduler_channel_states(void *arg)
/* Send it to SCHED_CHAN_WAITING_TO_WRITE */ /* Send it to SCHED_CHAN_WAITING_TO_WRITE */
scheduler_channel_has_waiting_cells(ch1); scheduler_channel_has_waiting_cells(ch1);
tt_int_op(ch1->scheduler_state, ==, SCHED_CHAN_WAITING_TO_WRITE); tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_TO_WRITE);
/* This should send it to SCHED_CHAN_PENDING */ /* This should send it to SCHED_CHAN_PENDING */
scheduler_channel_wants_writes(ch1); scheduler_channel_wants_writes(ch1);
tt_int_op(ch1->scheduler_state, ==, SCHED_CHAN_PENDING); tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), ==, 1); tt_int_op(smartlist_len(channels_pending), OP_EQ, 1);
/* Now send ch2 to SCHED_CHAN_WAITING_FOR_CELLS */ /* Now send ch2 to SCHED_CHAN_WAITING_FOR_CELLS */
scheduler_channel_wants_writes(ch2); scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_WAITING_FOR_CELLS); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
/* Drop ch2 back to idle */ /* Drop ch2 back to idle */
scheduler_channel_doesnt_want_writes(ch2); scheduler_channel_doesnt_want_writes(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_IDLE); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_IDLE);
/* ...and back to SCHED_CHAN_WAITING_FOR_CELLS */ /* ...and back to SCHED_CHAN_WAITING_FOR_CELLS */
scheduler_channel_wants_writes(ch2); scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_WAITING_FOR_CELLS); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
/* ...and this should kick ch2 into SCHED_CHAN_PENDING */ /* ...and this should kick ch2 into SCHED_CHAN_PENDING */
scheduler_channel_has_waiting_cells(ch2); scheduler_channel_has_waiting_cells(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_PENDING); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), ==, 2); tt_int_op(smartlist_len(channels_pending), OP_EQ, 2);
/* This should send ch2 to SCHED_CHAN_WAITING_TO_WRITE */ /* This should send ch2 to SCHED_CHAN_WAITING_TO_WRITE */
scheduler_channel_doesnt_want_writes(ch2); scheduler_channel_doesnt_want_writes(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_WAITING_TO_WRITE); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_TO_WRITE);
tt_int_op(smartlist_len(channels_pending), ==, 1); tt_int_op(smartlist_len(channels_pending), OP_EQ, 1);
/* ...and back to SCHED_CHAN_PENDING */ /* ...and back to SCHED_CHAN_PENDING */
scheduler_channel_wants_writes(ch2); scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_PENDING); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), ==, 2); tt_int_op(smartlist_len(channels_pending), OP_EQ, 2);
/* Now we exercise scheduler_touch_channel */ /* Now we exercise scheduler_touch_channel */
old_count = scheduler_compare_channels_mock_ctr; old_count = scheduler_compare_channels_mock_ctr;
@ -394,14 +394,14 @@ test_scheduler_channel_states(void *arg)
/* Close */ /* Close */
channel_mark_for_close(ch1); channel_mark_for_close(ch1);
tt_int_op(ch1->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_CLOSING);
channel_mark_for_close(ch2); channel_mark_for_close(ch2);
tt_int_op(ch2->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_CLOSING);
channel_closed(ch1); channel_closed(ch1);
tt_int_op(ch1->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_CLOSED);
ch1 = NULL; ch1 = NULL;
channel_closed(ch2); channel_closed(ch2);
tt_int_op(ch2->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_CLOSED);
ch2 = NULL; ch2 = NULL;
/* Shut things down */ /* Shut things down */
@ -464,21 +464,21 @@ test_scheduler_compare_channels(void *arg)
/* Equal-channel case */ /* Equal-channel case */
result = scheduler_compare_channels(&c1, &c1); result = scheduler_compare_channels(&c1, &c1);
tt_int_op(result, ==, 0); tt_int_op(result, OP_EQ, 0);
/* Distinct channels, distinct policies */ /* Distinct channels, distinct policies */
result = scheduler_compare_channels(&c1, &c2); result = scheduler_compare_channels(&c1, &c2);
tt_int_op(result, ==, -1); tt_int_op(result, OP_EQ, -1);
result = scheduler_compare_channels(&c2, &c1); result = scheduler_compare_channels(&c2, &c1);
tt_int_op(result, ==, 1); tt_int_op(result, OP_EQ, 1);
/* Distinct channels, same policy */ /* Distinct channels, same policy */
tor_free(mock_cgp_val_2); tor_free(mock_cgp_val_2);
mock_cgp_val_2 = mock_cgp_val_1; mock_cgp_val_2 = mock_cgp_val_1;
result = scheduler_compare_channels(&c1, &c2); result = scheduler_compare_channels(&c1, &c2);
tt_int_op(result, ==, -1); tt_int_op(result, OP_EQ, -1);
result = scheduler_compare_channels(&c2, &c1); result = scheduler_compare_channels(&c2, &c1);
tt_int_op(result, ==, 1); tt_int_op(result, OP_EQ, 1);
done: done:
@ -507,8 +507,8 @@ test_scheduler_initfree(void *arg)
{ {
(void)arg; (void)arg;
tt_ptr_op(channels_pending, ==, NULL); tt_ptr_op(channels_pending, OP_EQ, NULL);
tt_ptr_op(run_sched_ev, ==, NULL); tt_ptr_op(run_sched_ev, OP_EQ, NULL);
mock_event_init(); mock_event_init();
MOCK(tor_libevent_get_base, tor_libevent_get_base_mock); MOCK(tor_libevent_get_base, tor_libevent_get_base_mock);
@ -523,8 +523,8 @@ test_scheduler_initfree(void *arg)
UNMOCK(tor_libevent_get_base); UNMOCK(tor_libevent_get_base);
mock_event_free_all(); mock_event_free_all();
tt_ptr_op(channels_pending, ==, NULL); tt_ptr_op(channels_pending, OP_EQ, NULL);
tt_ptr_op(run_sched_ev, ==, NULL); tt_ptr_op(run_sched_ev, OP_EQ, NULL);
done: done:
return; return;
@ -553,7 +553,7 @@ test_scheduler_loop(void *arg)
*/ */
MOCK(scheduler_run, scheduler_run_noop_mock); MOCK(scheduler_run, scheduler_run_noop_mock);
tt_int_op(smartlist_len(channels_pending), ==, 0); tt_int_op(smartlist_len(channels_pending), OP_EQ, 0);
/* Set up a fake channel */ /* Set up a fake channel */
ch1 = new_fake_channel(); ch1 = new_fake_channel();
@ -570,7 +570,7 @@ test_scheduler_loop(void *arg)
channel_change_state_open(ch1); channel_change_state_open(ch1);
/* It should start off in SCHED_CHAN_IDLE */ /* It should start off in SCHED_CHAN_IDLE */
tt_int_op(ch1->scheduler_state, ==, SCHED_CHAN_IDLE); tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_IDLE);
/* Now get another one */ /* Now get another one */
ch2 = new_fake_channel(); ch2 = new_fake_channel();
@ -584,34 +584,34 @@ test_scheduler_loop(void *arg)
* zero and we'll get coverage of that exception case in scheduler_run() * zero and we'll get coverage of that exception case in scheduler_run()
*/ */
tt_int_op(ch1->state, ==, CHANNEL_STATE_OPEN); tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_OPEN);
tt_int_op(ch2->state, ==, CHANNEL_STATE_OPENING); tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_OPENING);
/* Send it to SCHED_CHAN_WAITING_TO_WRITE */ /* Send it to SCHED_CHAN_WAITING_TO_WRITE */
scheduler_channel_has_waiting_cells(ch1); scheduler_channel_has_waiting_cells(ch1);
tt_int_op(ch1->scheduler_state, ==, SCHED_CHAN_WAITING_TO_WRITE); tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_TO_WRITE);
/* This should send it to SCHED_CHAN_PENDING */ /* This should send it to SCHED_CHAN_PENDING */
scheduler_channel_wants_writes(ch1); scheduler_channel_wants_writes(ch1);
tt_int_op(ch1->scheduler_state, ==, SCHED_CHAN_PENDING); tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), ==, 1); tt_int_op(smartlist_len(channels_pending), OP_EQ, 1);
/* Now send ch2 to SCHED_CHAN_WAITING_FOR_CELLS */ /* Now send ch2 to SCHED_CHAN_WAITING_FOR_CELLS */
scheduler_channel_wants_writes(ch2); scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_WAITING_FOR_CELLS); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
/* Drop ch2 back to idle */ /* Drop ch2 back to idle */
scheduler_channel_doesnt_want_writes(ch2); scheduler_channel_doesnt_want_writes(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_IDLE); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_IDLE);
/* ...and back to SCHED_CHAN_WAITING_FOR_CELLS */ /* ...and back to SCHED_CHAN_WAITING_FOR_CELLS */
scheduler_channel_wants_writes(ch2); scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_WAITING_FOR_CELLS); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
/* ...and this should kick ch2 into SCHED_CHAN_PENDING */ /* ...and this should kick ch2 into SCHED_CHAN_PENDING */
scheduler_channel_has_waiting_cells(ch2); scheduler_channel_has_waiting_cells(ch2);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_PENDING); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), ==, 2); tt_int_op(smartlist_len(channels_pending), OP_EQ, 2);
/* /*
* Now we've got two pending channels and need to fire off * Now we've got two pending channels and need to fire off
@ -629,11 +629,11 @@ test_scheduler_loop(void *arg)
* Assert that they're still in the states we left and aren't still * Assert that they're still in the states we left and aren't still
* pending * pending
*/ */
tt_int_op(ch1->state, ==, CHANNEL_STATE_OPEN); tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_OPEN);
tt_int_op(ch2->state, ==, CHANNEL_STATE_OPENING); tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_OPENING);
tt_assert(ch1->scheduler_state != SCHED_CHAN_PENDING); tt_assert(ch1->scheduler_state != SCHED_CHAN_PENDING);
tt_assert(ch2->scheduler_state != SCHED_CHAN_PENDING); tt_assert(ch2->scheduler_state != SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), ==, 0); tt_int_op(smartlist_len(channels_pending), OP_EQ, 0);
/* Now, finish opening ch2, and get both back to pending */ /* Now, finish opening ch2, and get both back to pending */
channel_change_state_open(ch2); channel_change_state_open(ch2);
@ -641,11 +641,11 @@ test_scheduler_loop(void *arg)
scheduler_channel_wants_writes(ch2); scheduler_channel_wants_writes(ch2);
scheduler_channel_has_waiting_cells(ch1); scheduler_channel_has_waiting_cells(ch1);
scheduler_channel_has_waiting_cells(ch2); scheduler_channel_has_waiting_cells(ch2);
tt_int_op(ch1->state, ==, CHANNEL_STATE_OPEN); tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_OPEN);
tt_int_op(ch2->state, ==, CHANNEL_STATE_OPEN); tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_OPEN);
tt_int_op(ch1->scheduler_state, ==, SCHED_CHAN_PENDING); tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_PENDING); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), ==, 2); tt_int_op(smartlist_len(channels_pending), OP_EQ, 2);
/* Now, set up the channel_flush_some_cells() mock */ /* Now, set up the channel_flush_some_cells() mock */
MOCK(channel_flush_some_cells, channel_flush_some_cells_mock); MOCK(channel_flush_some_cells, channel_flush_some_cells_mock);
@ -675,24 +675,24 @@ test_scheduler_loop(void *arg)
* ch1 should have gone to SCHED_CHAN_WAITING_FOR_CELLS, with 16 flushed * ch1 should have gone to SCHED_CHAN_WAITING_FOR_CELLS, with 16 flushed
* and 32 writeable. * and 32 writeable.
*/ */
tt_int_op(ch1->scheduler_state, ==, SCHED_CHAN_WAITING_FOR_CELLS); tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
/* /*
* ...ch2 should also have gone to SCHED_CHAN_WAITING_FOR_CELLS, with * ...ch2 should also have gone to SCHED_CHAN_WAITING_FOR_CELLS, with
* channel_more_to_flush() returning false and channel_num_cells_writeable() * channel_more_to_flush() returning false and channel_num_cells_writeable()
* > 0/ * > 0/
*/ */
tt_int_op(ch2->scheduler_state, ==, SCHED_CHAN_WAITING_FOR_CELLS); tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
/* Close */ /* Close */
channel_mark_for_close(ch1); channel_mark_for_close(ch1);
tt_int_op(ch1->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_CLOSING);
channel_mark_for_close(ch2); channel_mark_for_close(ch2);
tt_int_op(ch2->state, ==, CHANNEL_STATE_CLOSING); tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_CLOSING);
channel_closed(ch1); channel_closed(ch1);
tt_int_op(ch1->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_CLOSED);
ch1 = NULL; ch1 = NULL;
channel_closed(ch2); channel_closed(ch2);
tt_int_op(ch2->state, ==, CHANNEL_STATE_CLOSED); tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_CLOSED);
ch2 = NULL; ch2 = NULL;
/* Shut things down */ /* Shut things down */
@ -724,22 +724,22 @@ test_scheduler_queue_heuristic(void *arg)
/* Not yet inited case */ /* Not yet inited case */
scheduler_update_queue_heuristic(now - 180); scheduler_update_queue_heuristic(now - 180);
tt_u64_op(queue_heuristic, ==, 0); tt_u64_op(queue_heuristic, OP_EQ, 0);
tt_int_op(queue_heuristic_timestamp, ==, now - 180); tt_int_op(queue_heuristic_timestamp, OP_EQ, now - 180);
queue_heuristic = 1000000000L; queue_heuristic = 1000000000L;
queue_heuristic_timestamp = now - 120; queue_heuristic_timestamp = now - 120;
scheduler_update_queue_heuristic(now - 119); scheduler_update_queue_heuristic(now - 119);
tt_u64_op(queue_heuristic, ==, 500000000L); tt_u64_op(queue_heuristic, OP_EQ, 500000000L);
tt_int_op(queue_heuristic_timestamp, ==, now - 119); tt_int_op(queue_heuristic_timestamp, OP_EQ, now - 119);
scheduler_update_queue_heuristic(now - 116); scheduler_update_queue_heuristic(now - 116);
tt_u64_op(queue_heuristic, ==, 62500000L); tt_u64_op(queue_heuristic, OP_EQ, 62500000L);
tt_int_op(queue_heuristic_timestamp, ==, now - 116); tt_int_op(queue_heuristic_timestamp, OP_EQ, now - 116);
qh = scheduler_get_queue_heuristic(); qh = scheduler_get_queue_heuristic();
tt_u64_op(qh, ==, 0); tt_u64_op(qh, OP_EQ, 0);
done: done:
return; return;

222
src/test/test_shared_random.c
View File

@ -73,58 +73,58 @@ test_get_sr_protocol_phase(void *arg)
{ {
retval = parse_rfc1123_time("Wed, 20 Apr 2015 23:59:00 UTC", &the_time); retval = parse_rfc1123_time("Wed, 20 Apr 2015 23:59:00 UTC", &the_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
phase = get_sr_protocol_phase(the_time); phase = get_sr_protocol_phase(the_time);
tt_int_op(phase, ==, SR_PHASE_REVEAL); tt_int_op(phase, OP_EQ, SR_PHASE_REVEAL);
} }
{ {
retval = parse_rfc1123_time("Wed, 20 Apr 2015 00:00:00 UTC", &the_time); retval = parse_rfc1123_time("Wed, 20 Apr 2015 00:00:00 UTC", &the_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
phase = get_sr_protocol_phase(the_time); phase = get_sr_protocol_phase(the_time);
tt_int_op(phase, ==, SR_PHASE_COMMIT); tt_int_op(phase, OP_EQ, SR_PHASE_COMMIT);
} }
{ {
retval = parse_rfc1123_time("Wed, 20 Apr 2015 00:00:01 UTC", &the_time); retval = parse_rfc1123_time("Wed, 20 Apr 2015 00:00:01 UTC", &the_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
phase = get_sr_protocol_phase(the_time); phase = get_sr_protocol_phase(the_time);
tt_int_op(phase, ==, SR_PHASE_COMMIT); tt_int_op(phase, OP_EQ, SR_PHASE_COMMIT);
} }
{ {
retval = parse_rfc1123_time("Wed, 20 Apr 2015 11:59:00 UTC", &the_time); retval = parse_rfc1123_time("Wed, 20 Apr 2015 11:59:00 UTC", &the_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
phase = get_sr_protocol_phase(the_time); phase = get_sr_protocol_phase(the_time);
tt_int_op(phase, ==, SR_PHASE_COMMIT); tt_int_op(phase, OP_EQ, SR_PHASE_COMMIT);
} }
{ {
retval = parse_rfc1123_time("Wed, 20 Apr 2015 12:00:00 UTC", &the_time); retval = parse_rfc1123_time("Wed, 20 Apr 2015 12:00:00 UTC", &the_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
phase = get_sr_protocol_phase(the_time); phase = get_sr_protocol_phase(the_time);
tt_int_op(phase, ==, SR_PHASE_REVEAL); tt_int_op(phase, OP_EQ, SR_PHASE_REVEAL);
} }
{ {
retval = parse_rfc1123_time("Wed, 20 Apr 2015 12:00:01 UTC", &the_time); retval = parse_rfc1123_time("Wed, 20 Apr 2015 12:00:01 UTC", &the_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
phase = get_sr_protocol_phase(the_time); phase = get_sr_protocol_phase(the_time);
tt_int_op(phase, ==, SR_PHASE_REVEAL); tt_int_op(phase, OP_EQ, SR_PHASE_REVEAL);
} }
{ {
retval = parse_rfc1123_time("Wed, 20 Apr 2015 13:00:00 UTC", &the_time); retval = parse_rfc1123_time("Wed, 20 Apr 2015 13:00:00 UTC", &the_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
phase = get_sr_protocol_phase(the_time); phase = get_sr_protocol_phase(the_time);
tt_int_op(phase, ==, SR_PHASE_REVEAL); tt_int_op(phase, OP_EQ, SR_PHASE_REVEAL);
} }
done: done:
@ -147,7 +147,7 @@ test_get_state_valid_until_time(void *arg)
/* Get the valid until time if called at 00:00:01 */ /* Get the valid until time if called at 00:00:01 */
retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:01 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:01 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
valid_until_time = get_state_valid_until_time(current_time); valid_until_time = get_state_valid_until_time(current_time);
/* Compare it with the correct result */ /* Compare it with the correct result */
@ -158,7 +158,7 @@ test_get_state_valid_until_time(void *arg)
{ {
retval = parse_rfc1123_time("Mon, 20 Apr 2015 19:22:00 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 19:22:00 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
valid_until_time = get_state_valid_until_time(current_time); valid_until_time = get_state_valid_until_time(current_time);
format_iso_time(tbuf, valid_until_time); format_iso_time(tbuf, valid_until_time);
@ -168,7 +168,7 @@ test_get_state_valid_until_time(void *arg)
{ {
retval = parse_rfc1123_time("Mon, 20 Apr 2015 23:59:00 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 23:59:00 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
valid_until_time = get_state_valid_until_time(current_time); valid_until_time = get_state_valid_until_time(current_time);
format_iso_time(tbuf, valid_until_time); format_iso_time(tbuf, valid_until_time);
@ -178,7 +178,7 @@ test_get_state_valid_until_time(void *arg)
{ {
retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:00 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:00 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
valid_until_time = get_state_valid_until_time(current_time); valid_until_time = get_state_valid_until_time(current_time);
format_iso_time(tbuf, valid_until_time); format_iso_time(tbuf, valid_until_time);
@ -204,7 +204,7 @@ test_get_start_time_of_current_run(void *arg)
/* Get start time if called at 00:00:01 */ /* Get start time if called at 00:00:01 */
retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:01 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:01 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
run_start_time = run_start_time =
sr_state_get_start_time_of_current_protocol_run(current_time); sr_state_get_start_time_of_current_protocol_run(current_time);
@ -216,7 +216,7 @@ test_get_start_time_of_current_run(void *arg)
{ {
retval = parse_rfc1123_time("Mon, 20 Apr 2015 23:59:59 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 23:59:59 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
run_start_time = run_start_time =
sr_state_get_start_time_of_current_protocol_run(current_time); sr_state_get_start_time_of_current_protocol_run(current_time);
@ -228,7 +228,7 @@ test_get_start_time_of_current_run(void *arg)
{ {
retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:00 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:00 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
run_start_time = run_start_time =
sr_state_get_start_time_of_current_protocol_run(current_time); sr_state_get_start_time_of_current_protocol_run(current_time);
@ -247,7 +247,7 @@ test_get_start_time_of_current_run(void *arg)
retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:15:32 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:15:32 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
run_start_time = run_start_time =
sr_state_get_start_time_of_current_protocol_run(current_time); sr_state_get_start_time_of_current_protocol_run(current_time);
@ -290,15 +290,15 @@ test_get_sr_protocol_duration(void *arg)
(void) arg; (void) arg;
/* Check that by default an SR phase is 12 hours */ /* Check that by default an SR phase is 12 hours */
tt_int_op(sr_state_get_phase_duration(), ==, 12*60*60); tt_int_op(sr_state_get_phase_duration(), OP_EQ, 12*60*60);
tt_int_op(sr_state_get_protocol_run_duration(), ==, 24*60*60); tt_int_op(sr_state_get_protocol_run_duration(), OP_EQ, 24*60*60);
/* Now alter the voting interval and check that the SR phase is 2 mins long /* Now alter the voting interval and check that the SR phase is 2 mins long
* if voting happens every 10 seconds (10*12 seconds = 2 mins) */ * if voting happens every 10 seconds (10*12 seconds = 2 mins) */
or_options_t *options = get_options_mutable(); or_options_t *options = get_options_mutable();
options->V3AuthVotingInterval = 10; options->V3AuthVotingInterval = 10;
tt_int_op(sr_state_get_phase_duration(), ==, 2*60); tt_int_op(sr_state_get_phase_duration(), OP_EQ, 2*60);
tt_int_op(sr_state_get_protocol_run_duration(), ==, 4*60); tt_int_op(sr_state_get_protocol_run_duration(), OP_EQ, 4*60);
done: ; done: ;
} }
@ -329,11 +329,11 @@ test_get_next_valid_after_time(void *arg)
retval = parse_rfc1123_time("Mon, 13 Jan 2016 16:00:00 UTC", retval = parse_rfc1123_time("Mon, 13 Jan 2016 16:00:00 UTC",
&mock_consensus->fresh_until); &mock_consensus->fresh_until);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
retval = parse_rfc1123_time("Mon, 13 Jan 2016 15:00:00 UTC", retval = parse_rfc1123_time("Mon, 13 Jan 2016 15:00:00 UTC",
&mock_consensus->valid_after); &mock_consensus->valid_after);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
MOCK(networkstatus_get_live_consensus, MOCK(networkstatus_get_live_consensus,
mock_networkstatus_get_live_consensus); mock_networkstatus_get_live_consensus);
@ -343,7 +343,7 @@ test_get_next_valid_after_time(void *arg)
/* Get the valid after time if called at 00:00:00 */ /* Get the valid after time if called at 00:00:00 */
retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:00 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:00 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
valid_after_time = get_next_valid_after_time(current_time); valid_after_time = get_next_valid_after_time(current_time);
/* Compare it with the correct result */ /* Compare it with the correct result */
@ -355,7 +355,7 @@ test_get_next_valid_after_time(void *arg)
/* Get the valid until time if called at 00:00:01 */ /* Get the valid until time if called at 00:00:01 */
retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:01 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 00:00:01 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
valid_after_time = get_next_valid_after_time(current_time); valid_after_time = get_next_valid_after_time(current_time);
/* Compare it with the correct result */ /* Compare it with the correct result */
@ -366,7 +366,7 @@ test_get_next_valid_after_time(void *arg)
{ {
retval = parse_rfc1123_time("Mon, 20 Apr 2015 23:30:01 UTC", retval = parse_rfc1123_time("Mon, 20 Apr 2015 23:30:01 UTC",
&current_time); &current_time);
tt_int_op(retval, ==, 0); tt_int_op(retval, OP_EQ, 0);
valid_after_time = get_next_valid_after_time(current_time); valid_after_time = get_next_valid_after_time(current_time);
/* Compare it with the correct result */ /* Compare it with the correct result */
@ -418,18 +418,18 @@ test_sr_commit(void *arg)
tt_assert(!tor_mem_is_zero((char *) our_commit->random_number, tt_assert(!tor_mem_is_zero((char *) our_commit->random_number,
sizeof(our_commit->random_number))); sizeof(our_commit->random_number)));
/* Commit and reveal timestamp should be the same. */ /* Commit and reveal timestamp should be the same. */
tt_u64_op(our_commit->commit_ts, ==, our_commit->reveal_ts); tt_u64_op(our_commit->commit_ts, OP_EQ, our_commit->reveal_ts);
/* We should have a hashed reveal. */ /* We should have a hashed reveal. */
tt_assert(!tor_mem_is_zero(our_commit->hashed_reveal, tt_assert(!tor_mem_is_zero(our_commit->hashed_reveal,
sizeof(our_commit->hashed_reveal))); sizeof(our_commit->hashed_reveal)));
/* Do we have a valid encoded commit and reveal. Note the following only /* Do we have a valid encoded commit and reveal. Note the following only
* tests if the generated values are correct. Their could be a bug in * tests if the generated values are correct. Their could be a bug in
* the decode function but we test them seperately. */ * the decode function but we test them seperately. */
tt_int_op(0, ==, reveal_decode(our_commit->encoded_reveal, tt_int_op(0, OP_EQ, reveal_decode(our_commit->encoded_reveal,
&test_commit)); &test_commit));
tt_int_op(0, ==, commit_decode(our_commit->encoded_commit, tt_int_op(0, OP_EQ, commit_decode(our_commit->encoded_commit,
&test_commit)); &test_commit));
tt_int_op(0, ==, verify_commit_and_reveal(our_commit)); tt_int_op(0, OP_EQ, verify_commit_and_reveal(our_commit));
} }
/* Let's make sure our verify commit and reveal function works. We'll /* Let's make sure our verify commit and reveal function works. We'll
@ -442,21 +442,21 @@ test_sr_commit(void *arg)
/* Timestamp MUST match. */ /* Timestamp MUST match. */
test_commit.commit_ts = test_commit.reveal_ts - 42; test_commit.commit_ts = test_commit.reveal_ts - 42;
setup_full_capture_of_logs(LOG_WARN); setup_full_capture_of_logs(LOG_WARN);
tt_int_op(-1, ==, verify_commit_and_reveal(&test_commit)); tt_int_op(-1, OP_EQ, verify_commit_and_reveal(&test_commit));
expect_log_msg_containing("doesn't match reveal timestamp"); expect_log_msg_containing("doesn't match reveal timestamp");
teardown_capture_of_logs(); teardown_capture_of_logs();
memcpy(&test_commit, our_commit, sizeof(test_commit)); memcpy(&test_commit, our_commit, sizeof(test_commit));
tt_int_op(0, ==, verify_commit_and_reveal(&test_commit)); tt_int_op(0, OP_EQ, verify_commit_and_reveal(&test_commit));
/* Hashed reveal must match the H(encoded_reveal). */ /* Hashed reveal must match the H(encoded_reveal). */
memset(test_commit.hashed_reveal, 'X', memset(test_commit.hashed_reveal, 'X',
sizeof(test_commit.hashed_reveal)); sizeof(test_commit.hashed_reveal));
setup_full_capture_of_logs(LOG_WARN); setup_full_capture_of_logs(LOG_WARN);
tt_int_op(-1, ==, verify_commit_and_reveal(&test_commit)); tt_int_op(-1, OP_EQ, verify_commit_and_reveal(&test_commit));
expect_single_log_msg_containing("doesn't match the commit value"); expect_single_log_msg_containing("doesn't match the commit value");
teardown_capture_of_logs(); teardown_capture_of_logs();
memcpy(&test_commit, our_commit, sizeof(test_commit)); memcpy(&test_commit, our_commit, sizeof(test_commit));
tt_int_op(0, ==, verify_commit_and_reveal(&test_commit)); tt_int_op(0, OP_EQ, verify_commit_and_reveal(&test_commit));
} }
/* We'll build a list of values from our commit that our parsing function /* We'll build a list of values from our commit that our parsing function
@ -510,26 +510,26 @@ test_encoding(void *arg)
/* Hash random number because we don't expose bytes of the RNG. */ /* Hash random number because we don't expose bytes of the RNG. */
ret = crypto_digest256(hashed_rand, raw_rand, ret = crypto_digest256(hashed_rand, raw_rand,
sizeof(raw_rand), SR_DIGEST_ALG); sizeof(raw_rand), SR_DIGEST_ALG);
tt_int_op(0, ==, ret); tt_int_op(0, OP_EQ, ret);
/* Hash reveal value. */ /* Hash reveal value. */
tt_int_op(SR_REVEAL_BASE64_LEN, ==, strlen(encoded_reveal)); tt_int_op(SR_REVEAL_BASE64_LEN, OP_EQ, strlen(encoded_reveal));
ret = crypto_digest256(hashed_reveal, encoded_reveal, ret = crypto_digest256(hashed_reveal, encoded_reveal,
strlen(encoded_reveal), SR_DIGEST_ALG); strlen(encoded_reveal), SR_DIGEST_ALG);
tt_int_op(0, ==, ret); tt_int_op(0, OP_EQ, ret);
tt_int_op(SR_COMMIT_BASE64_LEN, ==, strlen(encoded_commit)); tt_int_op(SR_COMMIT_BASE64_LEN, OP_EQ, strlen(encoded_commit));
/* Test our commit/reveal decode functions. */ /* Test our commit/reveal decode functions. */
{ {
/* Test the reveal encoded value. */ /* Test the reveal encoded value. */
tt_int_op(0, ==, reveal_decode(encoded_reveal, &parsed_commit)); tt_int_op(0, OP_EQ, reveal_decode(encoded_reveal, &parsed_commit));
tt_u64_op(ts, ==, parsed_commit.reveal_ts); tt_u64_op(ts, OP_EQ, parsed_commit.reveal_ts);
tt_mem_op(hashed_rand, OP_EQ, parsed_commit.random_number, tt_mem_op(hashed_rand, OP_EQ, parsed_commit.random_number,
sizeof(hashed_rand)); sizeof(hashed_rand));
/* Test the commit encoded value. */ /* Test the commit encoded value. */
memset(&parsed_commit, 0, sizeof(parsed_commit)); memset(&parsed_commit, 0, sizeof(parsed_commit));
tt_int_op(0, ==, commit_decode(encoded_commit, &parsed_commit)); tt_int_op(0, OP_EQ, commit_decode(encoded_commit, &parsed_commit));
tt_u64_op(ts, ==, parsed_commit.commit_ts); tt_u64_op(ts, OP_EQ, parsed_commit.commit_ts);
tt_mem_op(encoded_commit, OP_EQ, parsed_commit.encoded_commit, tt_mem_op(encoded_commit, OP_EQ, parsed_commit.encoded_commit,
sizeof(parsed_commit.encoded_commit)); sizeof(parsed_commit.encoded_commit));
tt_mem_op(hashed_reveal, OP_EQ, parsed_commit.hashed_reveal, tt_mem_op(hashed_reveal, OP_EQ, parsed_commit.hashed_reveal,
@ -544,7 +544,7 @@ test_encoding(void *arg)
memcpy(parsed_commit.random_number, hashed_rand, memcpy(parsed_commit.random_number, hashed_rand,
sizeof(parsed_commit.random_number)); sizeof(parsed_commit.random_number));
ret = reveal_encode(&parsed_commit, encoded, sizeof(encoded)); ret = reveal_encode(&parsed_commit, encoded, sizeof(encoded));
tt_int_op(SR_REVEAL_BASE64_LEN, ==, ret); tt_int_op(SR_REVEAL_BASE64_LEN, OP_EQ, ret);
tt_mem_op(encoded_reveal, OP_EQ, encoded, strlen(encoded_reveal)); tt_mem_op(encoded_reveal, OP_EQ, encoded, strlen(encoded_reveal));
} }
@ -555,7 +555,7 @@ test_encoding(void *arg)
memcpy(parsed_commit.hashed_reveal, hashed_reveal, memcpy(parsed_commit.hashed_reveal, hashed_reveal,
sizeof(parsed_commit.hashed_reveal)); sizeof(parsed_commit.hashed_reveal));
ret = commit_encode(&parsed_commit, encoded, sizeof(encoded)); ret = commit_encode(&parsed_commit, encoded, sizeof(encoded));
tt_int_op(SR_COMMIT_BASE64_LEN, ==, ret); tt_int_op(SR_COMMIT_BASE64_LEN, OP_EQ, ret);
tt_mem_op(encoded_commit, OP_EQ, encoded, strlen(encoded_commit)); tt_mem_op(encoded_commit, OP_EQ, encoded, strlen(encoded_commit));
} }
@ -632,7 +632,7 @@ test_vote(void *arg)
tt_assert(lines); tt_assert(lines);
/* Split the lines. We expect 2 here. */ /* Split the lines. We expect 2 here. */
ret = smartlist_split_string(chunks, lines, "\n", SPLIT_IGNORE_BLANK, 0); ret = smartlist_split_string(chunks, lines, "\n", SPLIT_IGNORE_BLANK, 0);
tt_int_op(ret, ==, 4); tt_int_op(ret, OP_EQ, 4);
tt_str_op(smartlist_get(chunks, 0), OP_EQ, "shared-rand-participate"); tt_str_op(smartlist_get(chunks, 0), OP_EQ, "shared-rand-participate");
/* Get our commitment line and will validate it agains our commit. The /* Get our commitment line and will validate it agains our commit. The
* format is as follow: * format is as follow:
@ -642,7 +642,7 @@ test_vote(void *arg)
char *commit_line = smartlist_get(chunks, 1); char *commit_line = smartlist_get(chunks, 1);
tt_assert(commit_line); tt_assert(commit_line);
ret = smartlist_split_string(tokens, commit_line, " ", 0, 0); ret = smartlist_split_string(tokens, commit_line, " ", 0, 0);
tt_int_op(ret, ==, 6); tt_int_op(ret, OP_EQ, 6);
tt_str_op(smartlist_get(tokens, 0), OP_EQ, "shared-rand-commit"); tt_str_op(smartlist_get(tokens, 0), OP_EQ, "shared-rand-commit");
tt_str_op(smartlist_get(tokens, 1), OP_EQ, "1"); tt_str_op(smartlist_get(tokens, 1), OP_EQ, "1");
tt_str_op(smartlist_get(tokens, 2), OP_EQ, tt_str_op(smartlist_get(tokens, 2), OP_EQ,
@ -650,7 +650,7 @@ test_vote(void *arg)
char digest[DIGEST_LEN]; char digest[DIGEST_LEN];
base16_decode(digest, sizeof(digest), smartlist_get(tokens, 3), base16_decode(digest, sizeof(digest), smartlist_get(tokens, 3),
HEX_DIGEST_LEN); HEX_DIGEST_LEN);
tt_mem_op(digest, ==, our_commit->rsa_identity, sizeof(digest)); tt_mem_op(digest, OP_EQ, our_commit->rsa_identity, sizeof(digest));
tt_str_op(smartlist_get(tokens, 4), OP_EQ, our_commit->encoded_commit); tt_str_op(smartlist_get(tokens, 4), OP_EQ, our_commit->encoded_commit);
tt_str_op(smartlist_get(tokens, 5), OP_EQ, our_commit->encoded_reveal) tt_str_op(smartlist_get(tokens, 5), OP_EQ, our_commit->encoded_reveal)
; ;
@ -666,7 +666,7 @@ test_vote(void *arg)
/* Set valid flag explicitly here to compare since it's not set by /* Set valid flag explicitly here to compare since it's not set by
* simply parsing the commit. */ * simply parsing the commit. */
parsed_commit->valid = 1; parsed_commit->valid = 1;
tt_mem_op(parsed_commit, ==, our_commit, sizeof(*our_commit)); tt_mem_op(parsed_commit, OP_EQ, our_commit, sizeof(*our_commit));
/* minor cleanup */ /* minor cleanup */
SMARTLIST_FOREACH(tokens, char *, s, tor_free(s)); SMARTLIST_FOREACH(tokens, char *, s, tor_free(s));
@ -676,7 +676,7 @@ test_vote(void *arg)
char *prev_srv_line = smartlist_get(chunks, 2); char *prev_srv_line = smartlist_get(chunks, 2);
tt_assert(prev_srv_line); tt_assert(prev_srv_line);
ret = smartlist_split_string(tokens, prev_srv_line, " ", 0, 0); ret = smartlist_split_string(tokens, prev_srv_line, " ", 0, 0);
tt_int_op(ret, ==, 3); tt_int_op(ret, OP_EQ, 3);
tt_str_op(smartlist_get(tokens, 0), OP_EQ, "shared-rand-previous-value"); tt_str_op(smartlist_get(tokens, 0), OP_EQ, "shared-rand-previous-value");
tt_str_op(smartlist_get(tokens, 1), OP_EQ, "42"); tt_str_op(smartlist_get(tokens, 1), OP_EQ, "42");
tt_str_op(smartlist_get(tokens, 2), OP_EQ, tt_str_op(smartlist_get(tokens, 2), OP_EQ,
@ -690,7 +690,7 @@ test_vote(void *arg)
char *current_srv_line = smartlist_get(chunks, 3); char *current_srv_line = smartlist_get(chunks, 3);
tt_assert(current_srv_line); tt_assert(current_srv_line);
ret = smartlist_split_string(tokens, current_srv_line, " ", 0, 0); ret = smartlist_split_string(tokens, current_srv_line, " ", 0, 0);
tt_int_op(ret, ==, 3); tt_int_op(ret, OP_EQ, 3);
tt_str_op(smartlist_get(tokens, 0), OP_EQ, "shared-rand-current-value"); tt_str_op(smartlist_get(tokens, 0), OP_EQ, "shared-rand-current-value");
tt_str_op(smartlist_get(tokens, 1), OP_EQ, "128"); tt_str_op(smartlist_get(tokens, 1), OP_EQ, "128");
tt_str_op(smartlist_get(tokens, 2), OP_EQ, tt_str_op(smartlist_get(tokens, 2), OP_EQ,
@ -803,7 +803,7 @@ test_sr_setup_commits(void)
tt_assert(auth_cert); tt_assert(auth_cert);
options->AuthoritativeDir = 1; options->AuthoritativeDir = 1;
tt_int_op(0, ==, load_ed_keys(options, now)); tt_int_op(0, OP_EQ, load_ed_keys(options, now));
} }
/* Generate three dummy commits according to sr_srv_calc_ref.py . Then /* Generate three dummy commits according to sr_srv_calc_ref.py . Then
@ -889,7 +889,7 @@ test_sr_setup_commits(void)
save_commit_to_state(commit_b); save_commit_to_state(commit_b);
save_commit_to_state(commit_c); save_commit_to_state(commit_c);
save_commit_to_state(commit_d); save_commit_to_state(commit_d);
tt_int_op(digestmap_size(get_sr_state()->commits), ==, 4); tt_int_op(digestmap_size(get_sr_state()->commits), OP_EQ, 4);
/* Now during REVEAL phase save commit D by restoring its reveal. */ /* Now during REVEAL phase save commit D by restoring its reveal. */
set_sr_phase(SR_PHASE_REVEAL); set_sr_phase(SR_PHASE_REVEAL);
@ -934,9 +934,9 @@ test_sr_compute_srv(void *arg)
/* Check the result against the test vector */ /* Check the result against the test vector */
current_srv = sr_state_get_current_srv(); current_srv = sr_state_get_current_srv();
tt_assert(current_srv); tt_assert(current_srv);
tt_u64_op(current_srv->num_reveals, ==, 3); tt_u64_op(current_srv->num_reveals, OP_EQ, 3);
tt_str_op(hex_str((char*)current_srv->value, 32), tt_str_op(hex_str((char*)current_srv->value, 32),
==, OP_EQ,
SRV_TEST_VECTOR); SRV_TEST_VECTOR);
done: done:
@ -1011,7 +1011,7 @@ test_sr_get_majority_srv_from_votes(void *arg)
smartlist_add(votes, vote); smartlist_add(votes, vote);
} }
tt_int_op(smartlist_len(votes), ==, 9); tt_int_op(smartlist_len(votes), OP_EQ, 9);
} }
/* Now we achieve majority for SRV_1, but not the AuthDirNumSRVAgreements /* Now we achieve majority for SRV_1, but not the AuthDirNumSRVAgreements
@ -1025,7 +1025,7 @@ test_sr_get_majority_srv_from_votes(void *arg)
set_num_srv_agreements(7); set_num_srv_agreements(7);
chosen_srv = get_majority_srv_from_votes(votes, 1); chosen_srv = get_majority_srv_from_votes(votes, 1);
tt_assert(chosen_srv); tt_assert(chosen_srv);
tt_u64_op(chosen_srv->num_reveals, ==, 42); tt_u64_op(chosen_srv->num_reveals, OP_EQ, 42);
tt_mem_op(chosen_srv->value, OP_EQ, SRV_1, sizeof(chosen_srv->value)); tt_mem_op(chosen_srv->value, OP_EQ, SRV_1, sizeof(chosen_srv->value));
done: done:
@ -1049,7 +1049,7 @@ test_utils(void *arg)
memcpy(srv->value, srv_value, sizeof(srv->value)); memcpy(srv->value, srv_value, sizeof(srv->value));
dup_srv = srv_dup(srv); dup_srv = srv_dup(srv);
tt_assert(dup_srv); tt_assert(dup_srv);
tt_u64_op(dup_srv->num_reveals, ==, srv->num_reveals); tt_u64_op(dup_srv->num_reveals, OP_EQ, srv->num_reveals);
tt_mem_op(dup_srv->value, OP_EQ, srv->value, sizeof(srv->value)); tt_mem_op(dup_srv->value, OP_EQ, srv->value, sizeof(srv->value));
tor_free(srv); tor_free(srv);
tor_free(dup_srv); tor_free(dup_srv);
@ -1069,10 +1069,10 @@ test_utils(void *arg)
sr_commit_t commit1, commit2; sr_commit_t commit1, commit2;
memcpy(commit1.encoded_commit, payload, sizeof(commit1.encoded_commit)); memcpy(commit1.encoded_commit, payload, sizeof(commit1.encoded_commit));
memcpy(commit2.encoded_commit, payload, sizeof(commit2.encoded_commit)); memcpy(commit2.encoded_commit, payload, sizeof(commit2.encoded_commit));
tt_int_op(commitments_are_the_same(&commit1, &commit2), ==, 1); tt_int_op(commitments_are_the_same(&commit1, &commit2), OP_EQ, 1);
/* Let's corrupt one of them. */ /* Let's corrupt one of them. */
memset(commit1.encoded_commit, 'A', sizeof(commit1.encoded_commit)); memset(commit1.encoded_commit, 'A', sizeof(commit1.encoded_commit));
tt_int_op(commitments_are_the_same(&commit1, &commit2), ==, 0); tt_int_op(commitments_are_the_same(&commit1, &commit2), OP_EQ, 0);
} }
/* Testing commit_is_authoritative(). */ /* Testing commit_is_authoritative(). */
@ -1083,32 +1083,32 @@ test_utils(void *arg)
tt_assert(!crypto_pk_generate_key(k)); tt_assert(!crypto_pk_generate_key(k));
tt_int_op(0, ==, crypto_pk_get_digest(k, digest)); tt_int_op(0, OP_EQ, crypto_pk_get_digest(k, digest));
memcpy(commit.rsa_identity, digest, sizeof(commit.rsa_identity)); memcpy(commit.rsa_identity, digest, sizeof(commit.rsa_identity));
tt_int_op(commit_is_authoritative(&commit, digest), ==, 1); tt_int_op(commit_is_authoritative(&commit, digest), OP_EQ, 1);
/* Change the pubkey. */ /* Change the pubkey. */
memset(commit.rsa_identity, 0, sizeof(commit.rsa_identity)); memset(commit.rsa_identity, 0, sizeof(commit.rsa_identity));
tt_int_op(commit_is_authoritative(&commit, digest), ==, 0); tt_int_op(commit_is_authoritative(&commit, digest), OP_EQ, 0);
crypto_pk_free(k); crypto_pk_free(k);
} }
/* Testing get_phase_str(). */ /* Testing get_phase_str(). */
{ {
tt_str_op(get_phase_str(SR_PHASE_REVEAL), ==, "reveal"); tt_str_op(get_phase_str(SR_PHASE_REVEAL), OP_EQ, "reveal");
tt_str_op(get_phase_str(SR_PHASE_COMMIT), ==, "commit"); tt_str_op(get_phase_str(SR_PHASE_COMMIT), OP_EQ, "commit");
} }
/* Testing phase transition */ /* Testing phase transition */
{ {
init_authority_state(); init_authority_state();
set_sr_phase(SR_PHASE_COMMIT); set_sr_phase(SR_PHASE_COMMIT);
tt_int_op(is_phase_transition(SR_PHASE_REVEAL), ==, 1); tt_int_op(is_phase_transition(SR_PHASE_REVEAL), OP_EQ, 1);
tt_int_op(is_phase_transition(SR_PHASE_COMMIT), ==, 0); tt_int_op(is_phase_transition(SR_PHASE_COMMIT), OP_EQ, 0);
set_sr_phase(SR_PHASE_REVEAL); set_sr_phase(SR_PHASE_REVEAL);
tt_int_op(is_phase_transition(SR_PHASE_REVEAL), ==, 0); tt_int_op(is_phase_transition(SR_PHASE_REVEAL), OP_EQ, 0);
tt_int_op(is_phase_transition(SR_PHASE_COMMIT), ==, 1); tt_int_op(is_phase_transition(SR_PHASE_COMMIT), OP_EQ, 1);
/* Junk. */ /* Junk. */
tt_int_op(is_phase_transition(42), ==, 1); tt_int_op(is_phase_transition(42), OP_EQ, 1);
} }
done: done:
@ -1136,24 +1136,24 @@ test_state_transition(void *arg)
sr_commit_t *commit = sr_generate_our_commit(now, mock_cert); sr_commit_t *commit = sr_generate_our_commit(now, mock_cert);
tt_assert(commit); tt_assert(commit);
sr_state_add_commit(commit); sr_state_add_commit(commit);
tt_int_op(digestmap_size(state->commits), ==, 1); tt_int_op(digestmap_size(state->commits), OP_EQ, 1);
/* Let's test our delete feature. */ /* Let's test our delete feature. */
sr_state_delete_commits(); sr_state_delete_commits();
tt_int_op(digestmap_size(state->commits), ==, 0); tt_int_op(digestmap_size(state->commits), OP_EQ, 0);
/* Add it back so we can continue the rest of the test because after /* Add it back so we can continue the rest of the test because after
* deletiong our commit will be freed so generate a new one. */ * deletiong our commit will be freed so generate a new one. */
commit = sr_generate_our_commit(now, mock_cert); commit = sr_generate_our_commit(now, mock_cert);
tt_assert(commit); tt_assert(commit);
sr_state_add_commit(commit); sr_state_add_commit(commit);
tt_int_op(digestmap_size(state->commits), ==, 1); tt_int_op(digestmap_size(state->commits), OP_EQ, 1);
state->n_reveal_rounds = 42; state->n_reveal_rounds = 42;
state->n_commit_rounds = 43; state->n_commit_rounds = 43;
state->n_protocol_runs = 44; state->n_protocol_runs = 44;
reset_state_for_new_protocol_run(now); reset_state_for_new_protocol_run(now);
tt_int_op(state->n_reveal_rounds, ==, 0); tt_int_op(state->n_reveal_rounds, OP_EQ, 0);
tt_int_op(state->n_commit_rounds, ==, 0); tt_int_op(state->n_commit_rounds, OP_EQ, 0);
tt_u64_op(state->n_protocol_runs, ==, 45); tt_u64_op(state->n_protocol_runs, OP_EQ, 45);
tt_int_op(digestmap_size(state->commits), ==, 0); tt_int_op(digestmap_size(state->commits), OP_EQ, 0);
} }
/* Test SRV rotation in our state. */ /* Test SRV rotation in our state. */
@ -1191,11 +1191,11 @@ test_state_transition(void *arg)
/* Also, make sure we did change the current. */ /* Also, make sure we did change the current. */
tt_assert(sr_state_get_current_srv() != cur); tt_assert(sr_state_get_current_srv() != cur);
/* We should have our commitment alone. */ /* We should have our commitment alone. */
tt_int_op(digestmap_size(state->commits), ==, 1); tt_int_op(digestmap_size(state->commits), OP_EQ, 1);
tt_int_op(state->n_reveal_rounds, ==, 0); tt_int_op(state->n_reveal_rounds, OP_EQ, 0);
tt_int_op(state->n_commit_rounds, ==, 0); tt_int_op(state->n_commit_rounds, OP_EQ, 0);
/* 46 here since we were at 45 just before. */ /* 46 here since we were at 45 just before. */
tt_u64_op(state->n_protocol_runs, ==, 46); tt_u64_op(state->n_protocol_runs, OP_EQ, 46);
} }
/* Cleanup of SRVs. */ /* Cleanup of SRVs. */
@ -1239,21 +1239,21 @@ test_keep_commit(void *arg)
/* Set us in COMMIT phase for starter. */ /* Set us in COMMIT phase for starter. */
set_sr_phase(SR_PHASE_COMMIT); set_sr_phase(SR_PHASE_COMMIT);
/* We should never keep a commit from a non authoritative authority. */ /* We should never keep a commit from a non authoritative authority. */
tt_int_op(should_keep_commit(commit, fp, SR_PHASE_COMMIT), ==, 0); tt_int_op(should_keep_commit(commit, fp, SR_PHASE_COMMIT), OP_EQ, 0);
/* This should NOT be kept because it has a reveal value in it. */ /* This should NOT be kept because it has a reveal value in it. */
tt_assert(commit_has_reveal_value(commit)); tt_assert(commit_has_reveal_value(commit));
tt_int_op(should_keep_commit(commit, commit->rsa_identity, tt_int_op(should_keep_commit(commit, commit->rsa_identity,
SR_PHASE_COMMIT), ==, 0); SR_PHASE_COMMIT), OP_EQ, 0);
/* Add it to the state which should return to not keep it. */ /* Add it to the state which should return to not keep it. */
sr_state_add_commit(commit); sr_state_add_commit(commit);
tt_int_op(should_keep_commit(commit, commit->rsa_identity, tt_int_op(should_keep_commit(commit, commit->rsa_identity,
SR_PHASE_COMMIT), ==, 0); SR_PHASE_COMMIT), OP_EQ, 0);
/* Remove it from state so we can continue our testing. */ /* Remove it from state so we can continue our testing. */
digestmap_remove(state->commits, commit->rsa_identity); digestmap_remove(state->commits, commit->rsa_identity);
/* Let's remove our reveal value which should make it OK to keep it. */ /* Let's remove our reveal value which should make it OK to keep it. */
memset(commit->encoded_reveal, 0, sizeof(commit->encoded_reveal)); memset(commit->encoded_reveal, 0, sizeof(commit->encoded_reveal));
tt_int_op(should_keep_commit(commit, commit->rsa_identity, tt_int_op(should_keep_commit(commit, commit->rsa_identity,
SR_PHASE_COMMIT), ==, 1); SR_PHASE_COMMIT), OP_EQ, 1);
/* Let's reset our commit and go into REVEAL phase. */ /* Let's reset our commit and go into REVEAL phase. */
sr_commit_free(commit); sr_commit_free(commit);
@ -1265,17 +1265,17 @@ test_keep_commit(void *arg)
memset(dup_commit->encoded_reveal, 0, sizeof(dup_commit->encoded_reveal)); memset(dup_commit->encoded_reveal, 0, sizeof(dup_commit->encoded_reveal));
set_sr_phase(SR_PHASE_REVEAL); set_sr_phase(SR_PHASE_REVEAL);
/* We should never keep a commit from a non authoritative authority. */ /* We should never keep a commit from a non authoritative authority. */
tt_int_op(should_keep_commit(commit, fp, SR_PHASE_REVEAL), ==, 0); tt_int_op(should_keep_commit(commit, fp, SR_PHASE_REVEAL), OP_EQ, 0);
/* We shouldn't accept a commit that is not in our state. */ /* We shouldn't accept a commit that is not in our state. */
tt_int_op(should_keep_commit(commit, commit->rsa_identity, tt_int_op(should_keep_commit(commit, commit->rsa_identity,
SR_PHASE_REVEAL), ==, 0); SR_PHASE_REVEAL), OP_EQ, 0);
/* Important to add the commit _without_ the reveal here. */ /* Important to add the commit _without_ the reveal here. */
sr_state_add_commit(dup_commit); sr_state_add_commit(dup_commit);
tt_int_op(digestmap_size(state->commits), ==, 1); tt_int_op(digestmap_size(state->commits), OP_EQ, 1);
/* Our commit should be valid that is authoritative, contains a reveal, be /* Our commit should be valid that is authoritative, contains a reveal, be
* in the state and commitment and reveal values match. */ * in the state and commitment and reveal values match. */
tt_int_op(should_keep_commit(commit, commit->rsa_identity, tt_int_op(should_keep_commit(commit, commit->rsa_identity,
SR_PHASE_REVEAL), ==, 1); SR_PHASE_REVEAL), OP_EQ, 1);
/* The commit shouldn't be kept if it's not verified that is no matchin /* The commit shouldn't be kept if it's not verified that is no matchin
* hashed reveal. */ * hashed reveal. */
{ {
@ -1286,7 +1286,7 @@ test_keep_commit(void *arg)
memset(commit->hashed_reveal, 0, sizeof(commit->hashed_reveal)); memset(commit->hashed_reveal, 0, sizeof(commit->hashed_reveal));
setup_full_capture_of_logs(LOG_WARN); setup_full_capture_of_logs(LOG_WARN);
tt_int_op(should_keep_commit(commit, commit->rsa_identity, tt_int_op(should_keep_commit(commit, commit->rsa_identity,
SR_PHASE_REVEAL), ==, 0); SR_PHASE_REVEAL), OP_EQ, 0);
expect_log_msg_containing("doesn't match the commit value."); expect_log_msg_containing("doesn't match the commit value.");
expect_log_msg_containing("has an invalid reveal value."); expect_log_msg_containing("has an invalid reveal value.");
assert_log_predicate(mock_saved_log_n_entries() == 2, assert_log_predicate(mock_saved_log_n_entries() == 2,
@ -1297,11 +1297,11 @@ test_keep_commit(void *arg)
} }
/* We shouldn't keep a commit that has no reveal. */ /* We shouldn't keep a commit that has no reveal. */
tt_int_op(should_keep_commit(dup_commit, dup_commit->rsa_identity, tt_int_op(should_keep_commit(dup_commit, dup_commit->rsa_identity,
SR_PHASE_REVEAL), ==, 0); SR_PHASE_REVEAL), OP_EQ, 0);
/* We must not keep a commit that is not the same from the commit phase. */ /* We must not keep a commit that is not the same from the commit phase. */
memset(commit->encoded_commit, 0, sizeof(commit->encoded_commit)); memset(commit->encoded_commit, 0, sizeof(commit->encoded_commit));
tt_int_op(should_keep_commit(commit, commit->rsa_identity, tt_int_op(should_keep_commit(commit, commit->rsa_identity,
SR_PHASE_REVEAL), ==, 0); SR_PHASE_REVEAL), OP_EQ, 0);
done: done:
teardown_capture_of_logs(); teardown_capture_of_logs();
@ -1339,35 +1339,35 @@ test_state_update(void *arg)
/* We are in COMMIT phase here and we'll trigger a state update but no /* We are in COMMIT phase here and we'll trigger a state update but no
* transition. */ * transition. */
sr_state_update(commit_phase_time); sr_state_update(commit_phase_time);
tt_int_op(state->valid_after, ==, commit_phase_time); tt_int_op(state->valid_after, OP_EQ, commit_phase_time);
tt_int_op(state->n_commit_rounds, ==, 1); tt_int_op(state->n_commit_rounds, OP_EQ, 1);
tt_int_op(state->phase, ==, SR_PHASE_COMMIT); tt_int_op(state->phase, OP_EQ, SR_PHASE_COMMIT);
tt_int_op(digestmap_size(state->commits), ==, 1); tt_int_op(digestmap_size(state->commits), OP_EQ, 1);
/* We are still in the COMMIT phase here but we'll trigger a state /* We are still in the COMMIT phase here but we'll trigger a state
* transition to the REVEAL phase. */ * transition to the REVEAL phase. */
sr_state_update(reveal_phase_time); sr_state_update(reveal_phase_time);
tt_int_op(state->phase, ==, SR_PHASE_REVEAL); tt_int_op(state->phase, OP_EQ, SR_PHASE_REVEAL);
tt_int_op(state->valid_after, ==, reveal_phase_time); tt_int_op(state->valid_after, OP_EQ, reveal_phase_time);
/* Only our commit should be in there. */ /* Only our commit should be in there. */
tt_int_op(digestmap_size(state->commits), ==, 1); tt_int_op(digestmap_size(state->commits), OP_EQ, 1);
tt_int_op(state->n_reveal_rounds, ==, 1); tt_int_op(state->n_reveal_rounds, OP_EQ, 1);
/* We can't update a state with a valid after _lower_ than the creation /* We can't update a state with a valid after _lower_ than the creation
* time so here it is. */ * time so here it is. */
sr_state_update(commit_phase_time); sr_state_update(commit_phase_time);
tt_int_op(state->valid_after, ==, reveal_phase_time); tt_int_op(state->valid_after, OP_EQ, reveal_phase_time);
/* Finally, let's go back in COMMIT phase so we can test the state update /* Finally, let's go back in COMMIT phase so we can test the state update
* of a new protocol run. */ * of a new protocol run. */
state->valid_after = 0; state->valid_after = 0;
sr_state_update(commit_phase_time); sr_state_update(commit_phase_time);
tt_int_op(state->valid_after, ==, commit_phase_time); tt_int_op(state->valid_after, OP_EQ, commit_phase_time);
tt_int_op(state->n_commit_rounds, ==, 1); tt_int_op(state->n_commit_rounds, OP_EQ, 1);
tt_int_op(state->n_reveal_rounds, ==, 0); tt_int_op(state->n_reveal_rounds, OP_EQ, 0);
tt_u64_op(state->n_protocol_runs, ==, 1); tt_u64_op(state->n_protocol_runs, OP_EQ, 1);
tt_int_op(state->phase, ==, SR_PHASE_COMMIT); tt_int_op(state->phase, OP_EQ, SR_PHASE_COMMIT);
tt_int_op(digestmap_size(state->commits), ==, 1); tt_int_op(digestmap_size(state->commits), OP_EQ, 1);
tt_assert(state->current_srv); tt_assert(state->current_srv);
done: done:

6
src/test/test_status.c
View File

@ -889,8 +889,8 @@ NS(logv)(int severity, log_domain_mask_t domain, const char *funcname,
tt_str_op(format, OP_EQ, tt_str_op(format, OP_EQ,
"Average packaged cell fullness: %2.3f%%. " "Average packaged cell fullness: %2.3f%%. "
"TLS write overhead: %.f%%"); "TLS write overhead: %.f%%");
tt_double_op(fabs(va_arg(ap, double) - 50.0), <=, DBL_EPSILON); tt_double_op(fabs(va_arg(ap, double) - 50.0), OP_LE, DBL_EPSILON);
tt_double_op(fabs(va_arg(ap, double) - 0.0), <=, DBL_EPSILON); tt_double_op(fabs(va_arg(ap, double) - 0.0), OP_LE, DBL_EPSILON);
break; break;
default: default:
tt_abort_msg("unexpected call to logv()"); // TODO: prettyprint args tt_abort_msg("unexpected call to logv()"); // TODO: prettyprint args
@ -1039,7 +1039,7 @@ NS(logv)(int severity, log_domain_mask_t domain,
"Average packaged cell fullness: %2.3f%%. " "Average packaged cell fullness: %2.3f%%. "
"TLS write overhead: %.f%%"); "TLS write overhead: %.f%%");
tt_int_op(fabs(va_arg(ap, double) - 100.0) <= DBL_EPSILON, OP_EQ, 1); tt_int_op(fabs(va_arg(ap, double) - 100.0) <= DBL_EPSILON, OP_EQ, 1);
tt_double_op(fabs(va_arg(ap, double) - 100.0), <=, DBL_EPSILON); tt_double_op(fabs(va_arg(ap, double) - 100.0), OP_LE, DBL_EPSILON);
break; break;
default: default:
tt_abort_msg("unexpected call to logv()"); // TODO: prettyprint args tt_abort_msg("unexpected call to logv()"); // TODO: prettyprint args

12
src/test/test_threads.c
View File

@ -139,8 +139,8 @@ test_threads_basic(void *arg)
!strcmp(strmap_get(thread_test_strmap_, "thread 2"), !strcmp(strmap_get(thread_test_strmap_, "thread 2"),
strmap_get(thread_test_strmap_, "last to run"))); strmap_get(thread_test_strmap_, "last to run")));
tt_int_op(thread_fns_failed, ==, 0); tt_int_op(thread_fns_failed, OP_EQ, 0);
tt_int_op(thread_fn_tid1, !=, thread_fn_tid2); tt_int_op(thread_fn_tid1, OP_NE, thread_fn_tid2);
done: done:
tor_free(s1); tor_free(s1);
@ -275,14 +275,14 @@ test_threads_conditionvar(void *arg)
SPIN(); SPIN();
tor_mutex_release(ti->mutex); tor_mutex_release(ti->mutex);
tt_int_op(ti->value, ==, 1337); tt_int_op(ti->value, OP_EQ, 1337);
if (!timeout) { if (!timeout) {
tt_int_op(ti->n_shutdown, ==, 4); tt_int_op(ti->n_shutdown, OP_EQ, 4);
} else { } else {
tor_sleep_msec(200); tor_sleep_msec(200);
tor_mutex_acquire(ti->mutex); tor_mutex_acquire(ti->mutex);
tt_int_op(ti->n_shutdown, ==, 2); tt_int_op(ti->n_shutdown, OP_EQ, 2);
tt_int_op(ti->n_timeouts, ==, 2); tt_int_op(ti->n_timeouts, OP_EQ, 2);
tor_mutex_release(ti->mutex); tor_mutex_release(ti->mutex);
} }

156
src/test/test_util.c
View File

@ -4492,11 +4492,11 @@ test_util_di_map(void *arg)
char dflt_entry[] = "'You have made a good beginning', but no more"; char dflt_entry[] = "'You have made a good beginning', but no more";
tt_int_op(32, ==, sizeof(key1)); tt_int_op(32, OP_EQ, sizeof(key1));
tt_int_op(32, ==, sizeof(key2)); tt_int_op(32, OP_EQ, sizeof(key2));
tt_int_op(32, ==, sizeof(key3)); tt_int_op(32, OP_EQ, sizeof(key3));
tt_ptr_op(dflt_entry, ==, dimap_search(dimap, key1, dflt_entry)); tt_ptr_op(dflt_entry, OP_EQ, dimap_search(dimap, key1, dflt_entry));
char *str1 = tor_strdup("You are precisely as big as what you love" char *str1 = tor_strdup("You are precisely as big as what you love"
" and precisely as small as what you allow" " and precisely as small as what you allow"
@ -4514,10 +4514,10 @@ test_util_di_map(void *arg)
dimap_add_entry(&dimap, key2, str2); dimap_add_entry(&dimap, key2, str2);
dimap_add_entry(&dimap, key3, str3); dimap_add_entry(&dimap, key3, str3);
tt_ptr_op(str1, ==, dimap_search(dimap, key1, dflt_entry)); tt_ptr_op(str1, OP_EQ, dimap_search(dimap, key1, dflt_entry));
tt_ptr_op(str3, ==, dimap_search(dimap, key3, dflt_entry)); tt_ptr_op(str3, OP_EQ, dimap_search(dimap, key3, dflt_entry));
tt_ptr_op(str2, ==, dimap_search(dimap, key2, dflt_entry)); tt_ptr_op(str2, OP_EQ, dimap_search(dimap, key2, dflt_entry));
tt_ptr_op(dflt_entry, ==, dimap_search(dimap, key4, dflt_entry)); tt_ptr_op(dflt_entry, OP_EQ, dimap_search(dimap, key4, dflt_entry));
done: done:
dimap_free(dimap, tor_free_); dimap_free(dimap, tor_free_);
@ -4984,34 +4984,34 @@ test_util_round_to_next_multiple_of(void *arg)
{ {
(void)arg; (void)arg;
tt_u64_op(round_uint64_to_next_multiple_of(0,1), ==, 0); tt_u64_op(round_uint64_to_next_multiple_of(0,1), OP_EQ, 0);
tt_u64_op(round_uint64_to_next_multiple_of(0,7), ==, 0); tt_u64_op(round_uint64_to_next_multiple_of(0,7), OP_EQ, 0);
tt_u64_op(round_uint64_to_next_multiple_of(99,1), ==, 99); tt_u64_op(round_uint64_to_next_multiple_of(99,1), OP_EQ, 99);
tt_u64_op(round_uint64_to_next_multiple_of(99,7), ==, 105); tt_u64_op(round_uint64_to_next_multiple_of(99,7), OP_EQ, 105);
tt_u64_op(round_uint64_to_next_multiple_of(99,9), ==, 99); tt_u64_op(round_uint64_to_next_multiple_of(99,9), OP_EQ, 99);
tt_u64_op(round_uint64_to_next_multiple_of(UINT64_MAX,2), ==, tt_u64_op(round_uint64_to_next_multiple_of(UINT64_MAX,2), OP_EQ,
UINT64_MAX); UINT64_MAX);
tt_int_op(round_uint32_to_next_multiple_of(0,1), ==, 0); tt_int_op(round_uint32_to_next_multiple_of(0,1), OP_EQ, 0);
tt_int_op(round_uint32_to_next_multiple_of(0,7), ==, 0); tt_int_op(round_uint32_to_next_multiple_of(0,7), OP_EQ, 0);
tt_int_op(round_uint32_to_next_multiple_of(99,1), ==, 99); tt_int_op(round_uint32_to_next_multiple_of(99,1), OP_EQ, 99);
tt_int_op(round_uint32_to_next_multiple_of(99,7), ==, 105); tt_int_op(round_uint32_to_next_multiple_of(99,7), OP_EQ, 105);
tt_int_op(round_uint32_to_next_multiple_of(99,9), ==, 99); tt_int_op(round_uint32_to_next_multiple_of(99,9), OP_EQ, 99);
tt_int_op(round_uint32_to_next_multiple_of(UINT32_MAX,2), ==, tt_int_op(round_uint32_to_next_multiple_of(UINT32_MAX,2), OP_EQ,
UINT32_MAX); UINT32_MAX);
tt_uint_op(round_to_next_multiple_of(0,1), ==, 0); tt_uint_op(round_to_next_multiple_of(0,1), OP_EQ, 0);
tt_uint_op(round_to_next_multiple_of(0,7), ==, 0); tt_uint_op(round_to_next_multiple_of(0,7), OP_EQ, 0);
tt_uint_op(round_to_next_multiple_of(99,1), ==, 99); tt_uint_op(round_to_next_multiple_of(99,1), OP_EQ, 99);
tt_uint_op(round_to_next_multiple_of(99,7), ==, 105); tt_uint_op(round_to_next_multiple_of(99,7), OP_EQ, 105);
tt_uint_op(round_to_next_multiple_of(99,9), ==, 99); tt_uint_op(round_to_next_multiple_of(99,9), OP_EQ, 99);
tt_uint_op(round_to_next_multiple_of(UINT_MAX,2), ==, tt_uint_op(round_to_next_multiple_of(UINT_MAX,2), OP_EQ,
UINT_MAX); UINT_MAX);
done: done:
; ;
@ -5032,26 +5032,26 @@ test_util_laplace(void *arg)
const double delta_f = 15.0, epsilon = 0.3; /* b = 15.0 / 0.3 = 50.0 */ const double delta_f = 15.0, epsilon = 0.3; /* b = 15.0 / 0.3 = 50.0 */
(void)arg; (void)arg;
tt_i64_op(INT64_MIN, ==, sample_laplace_distribution(mu, b, 0.0)); tt_i64_op(INT64_MIN, OP_EQ, sample_laplace_distribution(mu, b, 0.0));
tt_i64_op(-69, ==, sample_laplace_distribution(mu, b, 0.01)); tt_i64_op(-69, OP_EQ, sample_laplace_distribution(mu, b, 0.01));
tt_i64_op(24, ==, sample_laplace_distribution(mu, b, 0.5)); tt_i64_op(24, OP_EQ, sample_laplace_distribution(mu, b, 0.5));
tt_i64_op(24, ==, sample_laplace_distribution(mu, b, 0.51)); tt_i64_op(24, OP_EQ, sample_laplace_distribution(mu, b, 0.51));
tt_i64_op(117, ==, sample_laplace_distribution(mu, b, 0.99)); tt_i64_op(117, OP_EQ, sample_laplace_distribution(mu, b, 0.99));
/* >>> laplace.ppf([0.0, 0.1, 0.25, 0.5, 0.75, 0.9, 0.99], /* >>> laplace.ppf([0.0, 0.1, 0.25, 0.5, 0.75, 0.9, 0.99],
* ... loc = 0, scale = 50) * ... loc = 0, scale = 50)
* array([ -inf, -80.47189562, -34.65735903, 0. , * array([ -inf, -80.47189562, -34.65735903, 0. ,
* 34.65735903, 80.47189562, 195.60115027]) * 34.65735903, 80.47189562, 195.60115027])
*/ */
tt_i64_op(INT64_MIN + 20, ==, tt_i64_op(INT64_MIN + 20, OP_EQ,
add_laplace_noise(20, 0.0, delta_f, epsilon)); add_laplace_noise(20, 0.0, delta_f, epsilon));
tt_i64_op(-60, ==, add_laplace_noise(20, 0.1, delta_f, epsilon)); tt_i64_op(-60, OP_EQ, add_laplace_noise(20, 0.1, delta_f, epsilon));
tt_i64_op(-14, ==, add_laplace_noise(20, 0.25, delta_f, epsilon)); tt_i64_op(-14, OP_EQ, add_laplace_noise(20, 0.25, delta_f, epsilon));
tt_i64_op(20, ==, add_laplace_noise(20, 0.5, delta_f, epsilon)); tt_i64_op(20, OP_EQ, add_laplace_noise(20, 0.5, delta_f, epsilon));
tt_i64_op(54, ==, add_laplace_noise(20, 0.75, delta_f, epsilon)); tt_i64_op(54, OP_EQ, add_laplace_noise(20, 0.75, delta_f, epsilon));
tt_i64_op(100, ==, add_laplace_noise(20, 0.9, delta_f, epsilon)); tt_i64_op(100, OP_EQ, add_laplace_noise(20, 0.9, delta_f, epsilon));
tt_i64_op(215, ==, add_laplace_noise(20, 0.99, delta_f, epsilon)); tt_i64_op(215, OP_EQ, add_laplace_noise(20, 0.99, delta_f, epsilon));
/* Test extreme values of signal with maximally negative values of noise /* Test extreme values of signal with maximally negative values of noise
* 1.0000000000000002 is the smallest number > 1 * 1.0000000000000002 is the smallest number > 1
@ -5064,54 +5064,54 @@ test_util_laplace(void *arg)
*/ */
const double noscale_df = 1.0, noscale_eps = 1.0; const double noscale_df = 1.0, noscale_eps = 1.0;
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
add_laplace_noise(0, 0.0, noscale_df, noscale_eps)); add_laplace_noise(0, 0.0, noscale_df, noscale_eps));
/* is it clipped to INT64_MIN? */ /* is it clipped to INT64_MIN? */
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
add_laplace_noise(-1, 0.0, noscale_df, noscale_eps)); add_laplace_noise(-1, 0.0, noscale_df, noscale_eps));
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
add_laplace_noise(INT64_MIN, 0.0, add_laplace_noise(INT64_MIN, 0.0,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
/* ... even when scaled? */ /* ... even when scaled? */
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
add_laplace_noise(0, 0.0, delta_f, epsilon)); add_laplace_noise(0, 0.0, delta_f, epsilon));
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
add_laplace_noise(0, 0.0, add_laplace_noise(0, 0.0,
DBL_MAX, 1)); DBL_MAX, 1));
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
add_laplace_noise(INT64_MIN, 0.0, add_laplace_noise(INT64_MIN, 0.0,
DBL_MAX, 1)); DBL_MAX, 1));
/* does it play nice with INT64_MAX? */ /* does it play nice with INT64_MAX? */
tt_i64_op((INT64_MIN + INT64_MAX), ==, tt_i64_op((INT64_MIN + INT64_MAX), OP_EQ,
add_laplace_noise(INT64_MAX, 0.0, add_laplace_noise(INT64_MAX, 0.0,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
/* do near-zero fractional values work? */ /* do near-zero fractional values work? */
const double min_dbl_error = 0.0000000000000002; const double min_dbl_error = 0.0000000000000002;
tt_i64_op(-35, ==, tt_i64_op(-35, OP_EQ,
add_laplace_noise(0, min_dbl_error, add_laplace_noise(0, min_dbl_error,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
add_laplace_noise(INT64_MIN, min_dbl_error, add_laplace_noise(INT64_MIN, min_dbl_error,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
tt_i64_op((-35 + INT64_MAX), ==, tt_i64_op((-35 + INT64_MAX), OP_EQ,
add_laplace_noise(INT64_MAX, min_dbl_error, add_laplace_noise(INT64_MAX, min_dbl_error,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
add_laplace_noise(0, min_dbl_error, add_laplace_noise(0, min_dbl_error,
DBL_MAX, 1)); DBL_MAX, 1));
tt_i64_op((INT64_MAX + INT64_MIN), ==, tt_i64_op((INT64_MAX + INT64_MIN), OP_EQ,
add_laplace_noise(INT64_MAX, min_dbl_error, add_laplace_noise(INT64_MAX, min_dbl_error,
DBL_MAX, 1)); DBL_MAX, 1));
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
add_laplace_noise(INT64_MIN, min_dbl_error, add_laplace_noise(INT64_MIN, min_dbl_error,
DBL_MAX, 1)); DBL_MAX, 1));
/* does it play nice with INT64_MAX? */ /* does it play nice with INT64_MAX? */
tt_i64_op((INT64_MAX - 35), ==, tt_i64_op((INT64_MAX - 35), OP_EQ,
add_laplace_noise(INT64_MAX, min_dbl_error, add_laplace_noise(INT64_MAX, min_dbl_error,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
@ -5126,31 +5126,31 @@ test_util_laplace(void *arg)
const double max_dbl_lt_one = 0.9999999999999998; const double max_dbl_lt_one = 0.9999999999999998;
/* do near-one fractional values work? */ /* do near-one fractional values work? */
tt_i64_op(35, ==, tt_i64_op(35, OP_EQ,
add_laplace_noise(0, max_dbl_lt_one, noscale_df, noscale_eps)); add_laplace_noise(0, max_dbl_lt_one, noscale_df, noscale_eps));
/* is it clipped to INT64_MAX? */ /* is it clipped to INT64_MAX? */
tt_i64_op(INT64_MAX, ==, tt_i64_op(INT64_MAX, OP_EQ,
add_laplace_noise(INT64_MAX - 35, max_dbl_lt_one, add_laplace_noise(INT64_MAX - 35, max_dbl_lt_one,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
tt_i64_op(INT64_MAX, ==, tt_i64_op(INT64_MAX, OP_EQ,
add_laplace_noise(INT64_MAX - 34, max_dbl_lt_one, add_laplace_noise(INT64_MAX - 34, max_dbl_lt_one,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
tt_i64_op(INT64_MAX, ==, tt_i64_op(INT64_MAX, OP_EQ,
add_laplace_noise(INT64_MAX, max_dbl_lt_one, add_laplace_noise(INT64_MAX, max_dbl_lt_one,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
/* ... even when scaled? */ /* ... even when scaled? */
tt_i64_op(INT64_MAX, ==, tt_i64_op(INT64_MAX, OP_EQ,
add_laplace_noise(INT64_MAX, max_dbl_lt_one, add_laplace_noise(INT64_MAX, max_dbl_lt_one,
delta_f, epsilon)); delta_f, epsilon));
tt_i64_op((INT64_MIN + INT64_MAX), ==, tt_i64_op((INT64_MIN + INT64_MAX), OP_EQ,
add_laplace_noise(INT64_MIN, max_dbl_lt_one, add_laplace_noise(INT64_MIN, max_dbl_lt_one,
DBL_MAX, 1)); DBL_MAX, 1));
tt_i64_op(INT64_MAX, ==, tt_i64_op(INT64_MAX, OP_EQ,
add_laplace_noise(INT64_MAX, max_dbl_lt_one, add_laplace_noise(INT64_MAX, max_dbl_lt_one,
DBL_MAX, 1)); DBL_MAX, 1));
/* does it play nice with INT64_MIN? */ /* does it play nice with INT64_MIN? */
tt_i64_op((INT64_MIN + 35), ==, tt_i64_op((INT64_MIN + 35), OP_EQ,
add_laplace_noise(INT64_MIN, max_dbl_lt_one, add_laplace_noise(INT64_MIN, max_dbl_lt_one,
noscale_df, noscale_eps)); noscale_df, noscale_eps));
@ -5163,32 +5163,32 @@ test_util_clamp_double_to_int64(void *arg)
{ {
(void)arg; (void)arg;
tt_i64_op(INT64_MIN, ==, clamp_double_to_int64(-INFINITY_DBL)); tt_i64_op(INT64_MIN, OP_EQ, clamp_double_to_int64(-INFINITY_DBL));
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
clamp_double_to_int64(-1.0 * pow(2.0, 64.0) - 1.0)); clamp_double_to_int64(-1.0 * pow(2.0, 64.0) - 1.0));
tt_i64_op(INT64_MIN, ==, tt_i64_op(INT64_MIN, OP_EQ,
clamp_double_to_int64(-1.0 * pow(2.0, 63.0) - 1.0)); clamp_double_to_int64(-1.0 * pow(2.0, 63.0) - 1.0));
tt_i64_op(((uint64_t) -1) << 53, ==, tt_i64_op(((uint64_t) -1) << 53, OP_EQ,
clamp_double_to_int64(-1.0 * pow(2.0, 53.0))); clamp_double_to_int64(-1.0 * pow(2.0, 53.0)));
tt_i64_op((((uint64_t) -1) << 53) + 1, ==, tt_i64_op((((uint64_t) -1) << 53) + 1, OP_EQ,
clamp_double_to_int64(-1.0 * pow(2.0, 53.0) + 1.0)); clamp_double_to_int64(-1.0 * pow(2.0, 53.0) + 1.0));
tt_i64_op(-1, ==, clamp_double_to_int64(-1.0)); tt_i64_op(-1, OP_EQ, clamp_double_to_int64(-1.0));
tt_i64_op(0, ==, clamp_double_to_int64(-0.9)); tt_i64_op(0, OP_EQ, clamp_double_to_int64(-0.9));
tt_i64_op(0, ==, clamp_double_to_int64(-0.1)); tt_i64_op(0, OP_EQ, clamp_double_to_int64(-0.1));
tt_i64_op(0, ==, clamp_double_to_int64(0.0)); tt_i64_op(0, OP_EQ, clamp_double_to_int64(0.0));
tt_i64_op(0, ==, clamp_double_to_int64(NAN_DBL)); tt_i64_op(0, OP_EQ, clamp_double_to_int64(NAN_DBL));
tt_i64_op(0, ==, clamp_double_to_int64(0.1)); tt_i64_op(0, OP_EQ, clamp_double_to_int64(0.1));
tt_i64_op(0, ==, clamp_double_to_int64(0.9)); tt_i64_op(0, OP_EQ, clamp_double_to_int64(0.9));
tt_i64_op(1, ==, clamp_double_to_int64(1.0)); tt_i64_op(1, OP_EQ, clamp_double_to_int64(1.0));
tt_i64_op((((int64_t) 1) << 53) - 1, ==, tt_i64_op((((int64_t) 1) << 53) - 1, OP_EQ,
clamp_double_to_int64(pow(2.0, 53.0) - 1.0)); clamp_double_to_int64(pow(2.0, 53.0) - 1.0));
tt_i64_op(((int64_t) 1) << 53, ==, tt_i64_op(((int64_t) 1) << 53, OP_EQ,
clamp_double_to_int64(pow(2.0, 53.0))); clamp_double_to_int64(pow(2.0, 53.0)));
tt_i64_op(INT64_MAX, ==, tt_i64_op(INT64_MAX, OP_EQ,
clamp_double_to_int64(pow(2.0, 63.0))); clamp_double_to_int64(pow(2.0, 63.0)));
tt_i64_op(INT64_MAX, ==, tt_i64_op(INT64_MAX, OP_EQ,
clamp_double_to_int64(pow(2.0, 64.0))); clamp_double_to_int64(pow(2.0, 64.0)));
tt_i64_op(INT64_MAX, ==, clamp_double_to_int64(INFINITY_DBL)); tt_i64_op(INT64_MAX, OP_EQ, clamp_double_to_int64(INFINITY_DBL));
done: done:
; ;

8
src/test/test_util_format.c
View File

@ -345,7 +345,7 @@ test_util_format_base32_decode(void *arg)
const char *src = "mjwgc2dcnrswqmjs"; const char *src = "mjwgc2dcnrswqmjs";
ret = base32_decode(dst, strlen(expected), src, strlen(src)); ret = base32_decode(dst, strlen(expected), src, strlen(src));
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
tt_str_op(expected, OP_EQ, dst); tt_str_op(expected, OP_EQ, dst);
} }
@ -356,7 +356,7 @@ test_util_format_base32_decode(void *arg)
const char *src = "mjwgc2dcnrswq"; const char *src = "mjwgc2dcnrswq";
ret = base32_decode(dst, strlen(expected), src, strlen(src)); ret = base32_decode(dst, strlen(expected), src, strlen(src));
tt_int_op(ret, ==, 0); tt_int_op(ret, OP_EQ, 0);
tt_mem_op(expected, OP_EQ, dst, strlen(expected)); tt_mem_op(expected, OP_EQ, dst, strlen(expected));
} }
@ -364,9 +364,9 @@ test_util_format_base32_decode(void *arg)
{ {
/* Invalid character '#'. */ /* Invalid character '#'. */
ret = base32_decode(dst, real_dstlen, "#abcde", 6); ret = base32_decode(dst, real_dstlen, "#abcde", 6);
tt_int_op(ret, ==, -1); tt_int_op(ret, OP_EQ, -1);
/* Make sure the destination buffer has been zeroed even on error. */ /* Make sure the destination buffer has been zeroed even on error. */
tt_int_op(tor_mem_is_zero(dst, real_dstlen), ==, 1); tt_int_op(tor_mem_is_zero(dst, real_dstlen), OP_EQ, 1);
} }
done: done: