/* Copyright (c) 2013-2021, The Tor Project, Inc. */ /* See LICENSE for licensing information */ #define CONFIG_PRIVATE #define POLICIES_PRIVATE #include "core/or/or.h" #include "app/config/config.h" #include "core/or/circuitbuild.h" #include "core/or/policies.h" #include "core/or/extendinfo.h" #include "feature/dirparse/policy_parse.h" #include "feature/hs/hs_common.h" #include "feature/hs/hs_descriptor.h" #include "feature/relay/router.h" #include "lib/encoding/confline.h" #include "test/test.h" #include "test/log_test_helpers.h" #include "core/or/addr_policy_st.h" #include "core/or/extend_info_st.h" #include "core/or/port_cfg_st.h" #include "feature/nodelist/node_st.h" #include "feature/nodelist/routerinfo_st.h" #include "feature/nodelist/routerstatus_st.h" /* Helper: assert that short_policy parses and writes back out as itself, or as expected if that's provided. */ static void test_short_policy_parse(const char *input, const char *expected) { short_policy_t *short_policy = NULL; char *out = NULL; if (expected == NULL) expected = input; short_policy = parse_short_policy(input); tt_assert(short_policy); out = write_short_policy(short_policy); tt_str_op(out, OP_EQ, expected); done: tor_free(out); short_policy_free(short_policy); } /** Helper: Parse the exit policy string in policy_str with * options, and make sure that policies_summarize() produces the string * expected_summary from it when called with family. */ static void test_policy_summary_helper_family_flags(const char *policy_str, const char *expected_summary, sa_family_t family, exit_policy_parser_cfg_t options) { config_line_t line; smartlist_t *policy = smartlist_new(); char *summary = NULL; char *summary_after = NULL; int r; short_policy_t *short_policy = NULL; int success = 0; line.key = (char *) "foo"; line.value = (char *) policy_str; line.next = NULL; r = policies_parse_exit_policy(&line, &policy, options, NULL); tt_int_op(r,OP_EQ, 0); summary = policy_summarize(policy, family); tt_ptr_op(summary, OP_NE, NULL); tt_str_op(summary,OP_EQ, expected_summary); short_policy = parse_short_policy(summary); tt_assert(short_policy); summary_after = write_short_policy(short_policy); tt_str_op(summary,OP_EQ, summary_after); success = 1; done: /* If we don't print the flags on failure, it's very hard to diagnose bugs */ if (!success) TT_DECLARE("CTXT", ("\n IPv%d\n Options: %x\n Policy: %s", family == AF_INET ? 4 : 6, options, policy_str)); tor_free(summary_after); tor_free(summary); if (policy) addr_policy_list_free(policy); short_policy_free(short_policy); } /** Like test_policy_summary_helper_family_flags, but tries all the different * flag combinations */ static void test_policy_summary_helper_family(const char *policy_str, const char *expected_summary, sa_family_t family) { for (exit_policy_parser_cfg_t opt = 0; opt <= EXIT_POLICY_OPTION_ALL; opt++) { if (family == AF_INET6 && !(opt & EXIT_POLICY_IPV6_ENABLED)) /* Skip the test: IPv6 addresses need IPv6 enabled */ continue; if (opt & EXIT_POLICY_REJECT_LOCAL_INTERFACES) /* Skip the test: local interfaces are machine-specific */ continue; test_policy_summary_helper_family_flags(policy_str, expected_summary, family, opt); } } /** Like test_policy_summary_helper_family, but uses expected_summary for * both IPv4 and IPv6. */ static void test_policy_summary_helper(const char *policy_str, const char *expected_summary) { test_policy_summary_helper_family(policy_str, expected_summary, AF_INET); test_policy_summary_helper_family(policy_str, expected_summary, AF_INET6); } /** Like test_policy_summary_helper_family, but uses expected_summary4 for * IPv4 and expected_summary6 for IPv6. */ static void test_policy_summary_helper6(const char *policy_str, const char *expected_summary4, const char *expected_summary6) { test_policy_summary_helper_family(policy_str, expected_summary4, AF_INET); test_policy_summary_helper_family(policy_str, expected_summary6, AF_INET6); } /** Run unit tests for generating summary lines of exit policies */ static void test_policies_general(void *arg) { int i; smartlist_t *policy = NULL, *policy2 = NULL, *policy3 = NULL, *policy4 = NULL, *policy5 = NULL, *policy6 = NULL, *policy7 = NULL, *policy8 = NULL, *policy9 = NULL, *policy10 = NULL, *policy11 = NULL, *policy12 = NULL; addr_policy_t *p; tor_addr_t tar, tar2; smartlist_t *addr_list = NULL; config_line_t line; smartlist_t *sm = NULL; char *policy_str = NULL; short_policy_t *short_parsed = NULL; int malformed_list = -1; (void)arg; policy = smartlist_new(); p = router_parse_addr_policy_item_from_string("reject 192.168.0.0/16:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); tt_int_op(ADDR_POLICY_REJECT,OP_EQ, p->policy_type); tor_addr_from_ipv4h(&tar, 0xc0a80000u); tt_int_op(0,OP_EQ, tor_addr_compare(&p->addr, &tar, CMP_EXACT)); tt_int_op(16,OP_EQ, p->maskbits); tt_int_op(1,OP_EQ, p->prt_min); tt_int_op(65535,OP_EQ, p->prt_max); smartlist_add(policy, p); tor_addr_from_ipv4h(&tar, 0x01020304u); tt_assert(ADDR_POLICY_ACCEPTED == compare_tor_addr_to_addr_policy(&tar, 2, policy)); tor_addr_make_unspec(&tar); tt_assert(ADDR_POLICY_PROBABLY_ACCEPTED == compare_tor_addr_to_addr_policy(&tar, 2, policy)); tor_addr_from_ipv4h(&tar, 0xc0a80102); tt_assert(ADDR_POLICY_REJECTED == compare_tor_addr_to_addr_policy(&tar, 2, policy)); tt_int_op(0, OP_EQ, policies_parse_exit_policy(NULL, &policy2, EXIT_POLICY_IPV6_ENABLED | EXIT_POLICY_REJECT_PRIVATE | EXIT_POLICY_ADD_DEFAULT, NULL)); tt_assert(policy2); tor_addr_from_ipv4h(&tar, 0x0306090cu); tor_addr_parse(&tar2, "[2000::1234]"); addr_list = smartlist_new(); smartlist_add(addr_list, &tar); smartlist_add(addr_list, &tar2); tt_int_op(0, OP_EQ, policies_parse_exit_policy(NULL, &policy12, EXIT_POLICY_IPV6_ENABLED | EXIT_POLICY_REJECT_PRIVATE | EXIT_POLICY_ADD_DEFAULT, addr_list)); smartlist_free(addr_list); addr_list = NULL; tt_assert(policy12); policy3 = smartlist_new(); p = router_parse_addr_policy_item_from_string("reject *:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy3, p); p = router_parse_addr_policy_item_from_string("accept *:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy3, p); policy4 = smartlist_new(); p = router_parse_addr_policy_item_from_string("accept *:443", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy4, p); p = router_parse_addr_policy_item_from_string("accept *:443", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy4, p); policy5 = smartlist_new(); p = router_parse_addr_policy_item_from_string("reject 0.0.0.0/8:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); p = router_parse_addr_policy_item_from_string("reject 169.254.0.0/16:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); p = router_parse_addr_policy_item_from_string("reject 127.0.0.0/8:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); p = router_parse_addr_policy_item_from_string("reject 192.168.0.0/16:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); p = router_parse_addr_policy_item_from_string("reject 10.0.0.0/8:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); p = router_parse_addr_policy_item_from_string("reject 172.16.0.0/12:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); p = router_parse_addr_policy_item_from_string("reject 80.190.250.90:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); p = router_parse_addr_policy_item_from_string("reject *:1-65534", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); p = router_parse_addr_policy_item_from_string("reject *:65535", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); p = router_parse_addr_policy_item_from_string("accept *:1-65535", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy5, p); policy6 = smartlist_new(); p = router_parse_addr_policy_item_from_string("accept 43.3.0.0/9:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy6, p); policy7 = smartlist_new(); p = router_parse_addr_policy_item_from_string("accept 0.0.0.0/8:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy7, p); tt_int_op(0, OP_EQ, policies_parse_exit_policy(NULL, &policy8, EXIT_POLICY_IPV6_ENABLED | EXIT_POLICY_REJECT_PRIVATE | EXIT_POLICY_ADD_DEFAULT, NULL)); tt_assert(policy8); tt_int_op(0, OP_EQ, policies_parse_exit_policy(NULL, &policy9, EXIT_POLICY_REJECT_PRIVATE | EXIT_POLICY_ADD_DEFAULT, NULL)); tt_assert(policy9); /* accept6 * and reject6 * produce IPv6 wildcards only */ policy10 = smartlist_new(); p = router_parse_addr_policy_item_from_string("accept6 *:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy10, p); policy11 = smartlist_new(); p = router_parse_addr_policy_item_from_string("reject6 *:*", -1, &malformed_list); tt_ptr_op(p, OP_NE, NULL); smartlist_add(policy11, p); tt_assert(!exit_policy_is_general_exit(policy)); tt_assert(exit_policy_is_general_exit(policy2)); tt_assert(!exit_policy_is_general_exit(NULL)); tt_assert(!exit_policy_is_general_exit(policy3)); tt_assert(!exit_policy_is_general_exit(policy4)); tt_assert(!exit_policy_is_general_exit(policy5)); tt_assert(!exit_policy_is_general_exit(policy6)); tt_assert(!exit_policy_is_general_exit(policy7)); tt_assert(exit_policy_is_general_exit(policy8)); tt_assert(exit_policy_is_general_exit(policy9)); tt_assert(!exit_policy_is_general_exit(policy10)); tt_assert(!exit_policy_is_general_exit(policy11)); tt_assert(!addr_policies_eq(policy, policy2)); tt_assert(!addr_policies_eq(policy, NULL)); tt_assert(addr_policies_eq(policy2, policy2)); tt_assert(addr_policies_eq(NULL, NULL)); tt_assert(!policy_is_reject_star(policy2, AF_INET, 1)); tt_assert(policy_is_reject_star(policy, AF_INET, 1)); tt_assert(policy_is_reject_star(policy10, AF_INET, 1)); tt_assert(!policy_is_reject_star(policy10, AF_INET6, 1)); tt_assert(policy_is_reject_star(policy11, AF_INET, 1)); tt_assert(policy_is_reject_star(policy11, AF_INET6, 1)); tt_assert(policy_is_reject_star(NULL, AF_INET, 1)); tt_assert(policy_is_reject_star(NULL, AF_INET6, 1)); tt_assert(!policy_is_reject_star(NULL, AF_INET, 0)); tt_assert(!policy_is_reject_star(NULL, AF_INET6, 0)); addr_policy_list_free(policy); policy = NULL; /* make sure assume_action works */ malformed_list = 0; p = router_parse_addr_policy_item_from_string("127.0.0.1", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(p); addr_policy_free(p); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("127.0.0.1:*", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(p); addr_policy_free(p); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("[::]", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(p); addr_policy_free(p); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("[::]:*", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(p); addr_policy_free(p); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("[face::b]", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(p); addr_policy_free(p); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("[b::aaaa]", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(p); addr_policy_free(p); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("*", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(p); addr_policy_free(p); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("*4", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(p); addr_policy_free(p); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("*6", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(p); addr_policy_free(p); tt_assert(!malformed_list); /* These are all ambiguous IPv6 addresses, it's good that we reject them */ p = router_parse_addr_policy_item_from_string("acce::abcd", ADDR_POLICY_ACCEPT, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); malformed_list = 0; p = router_parse_addr_policy_item_from_string("7:1234", ADDR_POLICY_ACCEPT, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); malformed_list = 0; p = router_parse_addr_policy_item_from_string("::", ADDR_POLICY_ACCEPT, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); malformed_list = 0; /* make sure compacting logic works. */ policy = NULL; line.key = (char*)"foo"; line.value = (char*)"accept *:80,reject private:*,reject *:*"; line.next = NULL; tt_int_op(0, OP_EQ, policies_parse_exit_policy(&line,&policy, EXIT_POLICY_IPV6_ENABLED | EXIT_POLICY_ADD_DEFAULT, NULL)); tt_assert(policy); //test_streq(policy->string, "accept *:80"); //test_streq(policy->next->string, "reject *:*"); tt_int_op(smartlist_len(policy),OP_EQ, 4); /* test policy summaries */ /* check if we properly ignore private IP addresses */ test_policy_summary_helper("reject 192.168.0.0/16:*," "reject 0.0.0.0/8:*," "reject 10.0.0.0/8:*," "accept *:10-30," "accept *:90," "reject *:*", "accept 10-30,90"); /* check all accept policies, and proper counting of rejects */ test_policy_summary_helper("reject 11.0.0.0/9:80," "reject 12.0.0.0/9:80," "reject 13.0.0.0/9:80," "reject 14.0.0.0/9:80," "accept *:*", "accept 1-65535"); test_policy_summary_helper("reject 11.0.0.0/9:80," "reject 12.0.0.0/9:80," "reject 13.0.0.0/9:80," "reject 14.0.0.0/9:80," "reject 15.0.0.0:81," "accept *:*", "accept 1-65535"); test_policy_summary_helper6("reject 11.0.0.0/9:80," "reject 12.0.0.0/9:80," "reject 13.0.0.0/9:80," "reject 14.0.0.0/9:80," "reject 15.0.0.0:80," "accept *:*", "reject 80", "accept 1-65535"); /* no exits */ test_policy_summary_helper("accept 11.0.0.0/9:80," "reject *:*", "reject 1-65535"); /* port merging */ test_policy_summary_helper("accept *:80," "accept *:81," "accept *:100-110," "accept *:111," "reject *:*", "accept 80-81,100-111"); /* border ports */ test_policy_summary_helper("accept *:1," "accept *:3," "accept *:65535," "reject *:*", "accept 1,3,65535"); /* holes */ test_policy_summary_helper("accept *:1," "accept *:3," "accept *:5," "accept *:7," "reject *:*", "accept 1,3,5,7"); test_policy_summary_helper("reject *:1," "reject *:3," "reject *:5," "reject *:7," "accept *:*", "reject 1,3,5,7"); /* long policies */ /* standard long policy on many exits */ test_policy_summary_helper("accept *:20-23," "accept *:43," "accept *:53," "accept *:79-81," "accept *:88," "accept *:110," "accept *:143," "accept *:194," "accept *:220," "accept *:389," "accept *:443," "accept *:464," "accept *:531," "accept *:543-544," "accept *:554," "accept *:563," "accept *:636," "accept *:706," "accept *:749," "accept *:873," "accept *:902-904," "accept *:981," "accept *:989-995," "accept *:1194," "accept *:1220," "accept *:1293," "accept *:1500," "accept *:1533," "accept *:1677," "accept *:1723," "accept *:1755," "accept *:1863," "accept *:2082," "accept *:2083," "accept *:2086-2087," "accept *:2095-2096," "accept *:2102-2104," "accept *:3128," "accept *:3389," "accept *:3690," "accept *:4321," "accept *:4643," "accept *:5050," "accept *:5190," "accept *:5222-5223," "accept *:5228," "accept *:5900," "accept *:6660-6669," "accept *:6679," "accept *:6697," "accept *:8000," "accept *:8008," "accept *:8074," "accept *:8080," "accept *:8087-8088," "accept *:8332-8333," "accept *:8443," "accept *:8888," "accept *:9418," "accept *:9999," "accept *:10000," "accept *:11371," "accept *:12350," "accept *:19294," "accept *:19638," "accept *:23456," "accept *:33033," "accept *:64738," "reject *:*", "accept 20-23,43,53,79-81,88,110,143,194,220,389," "443,464,531,543-544,554,563,636,706,749,873," "902-904,981,989-995,1194,1220,1293,1500,1533," "1677,1723,1755,1863,2082-2083,2086-2087," "2095-2096,2102-2104,3128,3389,3690,4321,4643," "5050,5190,5222-5223,5228,5900,6660-6669,6679," "6697,8000,8008,8074,8080,8087-8088,8332-8333," "8443,8888,9418,9999-10000,11371,12350,19294," "19638,23456,33033,64738"); /* short policy with configured addresses */ test_policy_summary_helper("reject 149.56.1.1:*," "reject [2607:5300:1:1::1:0]:*," "accept *:80," "accept *:443," "reject *:*", "accept 80,443"); /* short policy with configured and local interface addresses */ test_policy_summary_helper("reject 149.56.1.0:*," "reject 149.56.1.1:*," "reject 149.56.1.2:*," "reject 149.56.1.3:*," "reject 149.56.1.4:*," "reject 149.56.1.5:*," "reject 149.56.1.6:*," "reject 149.56.1.7:*," "reject [2607:5300:1:1::1:0]:*," "reject [2607:5300:1:1::1:1]:*," "reject [2607:5300:1:1::1:2]:*," "reject [2607:5300:1:1::1:3]:*," "reject [2607:5300:1:1::2:0]:*," "reject [2607:5300:1:1::2:1]:*," "reject [2607:5300:1:1::2:2]:*," "reject [2607:5300:1:1::2:3]:*," "accept *:80," "accept *:443," "reject *:*", "accept 80,443"); /* short policy with configured netblocks */ test_policy_summary_helper("reject 149.56.0.0/16," "reject6 2607:5300::/32," "reject6 2608:5300::/64," "reject6 2609:5300::/96," "accept *:80," "accept *:443," "reject *:*", "accept 80,443"); /* short policy with large netblocks that do not count as a rejection */ test_policy_summary_helper("reject 148.0.0.0/7," "reject6 2600::/16," "accept *:80," "accept *:443," "reject *:*", "accept 80,443"); /* short policy with large netblocks that count as a rejection */ test_policy_summary_helper("reject 148.0.0.0/6," "reject6 2600::/15," "accept *:80," "accept *:443," "reject *:*", "reject 1-65535"); /* short policy with huge netblocks that count as a rejection */ test_policy_summary_helper("reject 128.0.0.0/1," "reject6 8000::/1," "accept *:80," "accept *:443," "reject *:*", "reject 1-65535"); /* short policy which blocks everything using netblocks */ test_policy_summary_helper("reject 0.0.0.0/0," "reject6 ::/0," "accept *:80," "accept *:443," "reject *:*", "reject 1-65535"); /* short policy which has repeated redundant netblocks */ test_policy_summary_helper("reject 0.0.0.0/0," "reject 0.0.0.0/0," "reject 0.0.0.0/0," "reject 0.0.0.0/0," "reject 0.0.0.0/0," "reject6 ::/0," "reject6 ::/0," "reject6 ::/0," "reject6 ::/0," "reject6 ::/0," "accept *:80," "accept *:443," "reject *:*", "reject 1-65535"); /* longest possible policy * (1-2,4-5,... is longer, but gets reduced to 3,6,... ) * Going all the way to 65535 is incredibly slow, so we just go slightly * more than the expected length */ test_policy_summary_helper("accept *:1," "accept *:3," "accept *:5," "accept *:7," "accept *:9," "accept *:11," "accept *:13," "accept *:15," "accept *:17," "accept *:19," "accept *:21," "accept *:23," "accept *:25," "accept *:27," "accept *:29," "accept *:31," "accept *:33," "accept *:35," "accept *:37," "accept *:39," "accept *:41," "accept *:43," "accept *:45," "accept *:47," "accept *:49," "accept *:51," "accept *:53," "accept *:55," "accept *:57," "accept *:59," "accept *:61," "accept *:63," "accept *:65," "accept *:67," "accept *:69," "accept *:71," "accept *:73," "accept *:75," "accept *:77," "accept *:79," "accept *:81," "accept *:83," "accept *:85," "accept *:87," "accept *:89," "accept *:91," "accept *:93," "accept *:95," "accept *:97," "accept *:99," "accept *:101," "accept *:103," "accept *:105," "accept *:107," "accept *:109," "accept *:111," "accept *:113," "accept *:115," "accept *:117," "accept *:119," "accept *:121," "accept *:123," "accept *:125," "accept *:127," "accept *:129," "accept *:131," "accept *:133," "accept *:135," "accept *:137," "accept *:139," "accept *:141," "accept *:143," "accept *:145," "accept *:147," "accept *:149," "accept *:151," "accept *:153," "accept *:155," "accept *:157," "accept *:159," "accept *:161," "accept *:163," "accept *:165," "accept *:167," "accept *:169," "accept *:171," "accept *:173," "accept *:175," "accept *:177," "accept *:179," "accept *:181," "accept *:183," "accept *:185," "accept *:187," "accept *:189," "accept *:191," "accept *:193," "accept *:195," "accept *:197," "accept *:199," "accept *:201," "accept *:203," "accept *:205," "accept *:207," "accept *:209," "accept *:211," "accept *:213," "accept *:215," "accept *:217," "accept *:219," "accept *:221," "accept *:223," "accept *:225," "accept *:227," "accept *:229," "accept *:231," "accept *:233," "accept *:235," "accept *:237," "accept *:239," "accept *:241," "accept *:243," "accept *:245," "accept *:247," "accept *:249," "accept *:251," "accept *:253," "accept *:255," "accept *:257," "accept *:259," "accept *:261," "accept *:263," "accept *:265," "accept *:267," "accept *:269," "accept *:271," "accept *:273," "accept *:275," "accept *:277," "accept *:279," "accept *:281," "accept *:283," "accept *:285," "accept *:287," "accept *:289," "accept *:291," "accept *:293," "accept *:295," "accept *:297," "accept *:299," "accept *:301," "accept *:303," "accept *:305," "accept *:307," "accept *:309," "accept *:311," "accept *:313," "accept *:315," "accept *:317," "accept *:319," "accept *:321," "accept *:323," "accept *:325," "accept *:327," "accept *:329," "accept *:331," "accept *:333," "accept *:335," "accept *:337," "accept *:339," "accept *:341," "accept *:343," "accept *:345," "accept *:347," "accept *:349," "accept *:351," "accept *:353," "accept *:355," "accept *:357," "accept *:359," "accept *:361," "accept *:363," "accept *:365," "accept *:367," "accept *:369," "accept *:371," "accept *:373," "accept *:375," "accept *:377," "accept *:379," "accept *:381," "accept *:383," "accept *:385," "accept *:387," "accept *:389," "accept *:391," "accept *:393," "accept *:395," "accept *:397," "accept *:399," "accept *:401," "accept *:403," "accept *:405," "accept *:407," "accept *:409," "accept *:411," "accept *:413," "accept *:415," "accept *:417," "accept *:419," "accept *:421," "accept *:423," "accept *:425," "accept *:427," "accept *:429," "accept *:431," "accept *:433," "accept *:435," "accept *:437," "accept *:439," "accept *:441," "accept *:443," "accept *:445," "accept *:447," "accept *:449," "accept *:451," "accept *:453," "accept *:455," "accept *:457," "accept *:459," "accept *:461," "accept *:463," "accept *:465," "accept *:467," "accept *:469," "accept *:471," "accept *:473," "accept *:475," "accept *:477," "accept *:479," "accept *:481," "accept *:483," "accept *:485," "accept *:487," "accept *:489," "accept *:491," "accept *:493," "accept *:495," "accept *:497," "accept *:499," "accept *:501," "accept *:503," "accept *:505," "accept *:507," "accept *:509," "accept *:511," "accept *:513," "accept *:515," "accept *:517," "accept *:519," "accept *:521," "accept *:523," "accept *:525," "accept *:527," "accept *:529," "reject *:*", "accept 1,3,5,7,9,11,13,15,17,19,21,23,25,27,29," "31,33,35,37,39,41,43,45,47,49,51,53,55,57,59,61," "63,65,67,69,71,73,75,77,79,81,83,85,87,89,91,93," "95,97,99,101,103,105,107,109,111,113,115,117," "119,121,123,125,127,129,131,133,135,137,139,141," "143,145,147,149,151,153,155,157,159,161,163,165," "167,169,171,173,175,177,179,181,183,185,187,189," "191,193,195,197,199,201,203,205,207,209,211,213," "215,217,219,221,223,225,227,229,231,233,235,237," "239,241,243,245,247,249,251,253,255,257,259,261," "263,265,267,269,271,273,275,277,279,281,283,285," "287,289,291,293,295,297,299,301,303,305,307,309," "311,313,315,317,319,321,323,325,327,329,331,333," "335,337,339,341,343,345,347,349,351,353,355,357," "359,361,363,365,367,369,371,373,375,377,379,381," "383,385,387,389,391,393,395,397,399,401,403,405," "407,409,411,413,415,417,419,421,423,425,427,429," "431,433,435,437,439,441,443,445,447,449,451,453," "455,457,459,461,463,465,467,469,471,473,475,477," "479,481,483,485,487,489,491,493,495,497,499,501," "503,505,507,509,511,513,515,517,519,521,523"); /* Short policies with unrecognized formats should get accepted. */ test_short_policy_parse("accept fred,2,3-5", "accept 2,3-5"); test_short_policy_parse("accept 2,fred,3", "accept 2,3"); test_short_policy_parse("accept 2,fred,3,bob", "accept 2,3"); test_short_policy_parse("accept 2,-3,500-600", "accept 2,500-600"); /* Short policies with nil entries are accepted too. */ test_short_policy_parse("accept 1,,3", "accept 1,3"); test_short_policy_parse("accept 100-200,,", "accept 100-200"); test_short_policy_parse("reject ,1-10,,,,30-40", "reject 1-10,30-40"); /* Try parsing various broken short policies */ #define TT_BAD_SHORT_POLICY(s) \ do { \ tt_ptr_op(NULL, OP_EQ, (short_parsed = parse_short_policy((s)))); \ } while (0) TT_BAD_SHORT_POLICY("accept 200-199"); TT_BAD_SHORT_POLICY(""); TT_BAD_SHORT_POLICY("rejekt 1,2,3"); TT_BAD_SHORT_POLICY("reject "); TT_BAD_SHORT_POLICY("reject"); TT_BAD_SHORT_POLICY("rej"); TT_BAD_SHORT_POLICY("accept 2,3,100000"); TT_BAD_SHORT_POLICY("accept 2,3x,4"); TT_BAD_SHORT_POLICY("accept 2,3x,4"); TT_BAD_SHORT_POLICY("accept 2-"); TT_BAD_SHORT_POLICY("accept 2-x"); TT_BAD_SHORT_POLICY("accept 1-,3"); TT_BAD_SHORT_POLICY("accept 1-,3"); /* Make sure that IPv4 addresses are ignored in accept6/reject6 lines. */ p = router_parse_addr_policy_item_from_string("accept6 1.2.3.4:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("reject6 2.4.6.0/24:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(!malformed_list); p = router_parse_addr_policy_item_from_string("accept6 *4:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(!malformed_list); /* Make sure malformed policies are detected as such. */ p = router_parse_addr_policy_item_from_string("bad_token *4:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); p = router_parse_addr_policy_item_from_string("accept6 **:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); p = router_parse_addr_policy_item_from_string("accept */15:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); p = router_parse_addr_policy_item_from_string("reject6 */:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); p = router_parse_addr_policy_item_from_string("accept 127.0.0.1/33:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); p = router_parse_addr_policy_item_from_string("accept6 [::1]/129:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); p = router_parse_addr_policy_item_from_string("reject 8.8.8.8/-1:*", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); p = router_parse_addr_policy_item_from_string("reject 8.8.4.4:10-5", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); p = router_parse_addr_policy_item_from_string("reject 1.2.3.4:-1", -1, &malformed_list); tt_ptr_op(p, OP_EQ, NULL); tt_assert(malformed_list); /* Test a too-long policy. */ { char *policy_strng = NULL; smartlist_t *chunks = smartlist_new(); smartlist_add_strdup(chunks, "accept "); for (i=1; i<10000; ++i) smartlist_add_asprintf(chunks, "%d,", i); smartlist_add_strdup(chunks, "20000"); policy_strng = smartlist_join_strings(chunks, "", 0, NULL); SMARTLIST_FOREACH(chunks, char *, ch, tor_free(ch)); smartlist_free(chunks); short_parsed = parse_short_policy(policy_strng);/* shouldn't be accepted */ tor_free(policy_strng); tt_ptr_op(NULL, OP_EQ, short_parsed); } /* truncation ports */ sm = smartlist_new(); for (i=1; i<2000; i+=2) { char buf[POLICY_BUF_LEN]; tor_snprintf(buf, sizeof(buf), "reject *:%d", i); smartlist_add_strdup(sm, buf); } smartlist_add_strdup(sm, "accept *:*"); policy_str = smartlist_join_strings(sm, ",", 0, NULL); test_policy_summary_helper( policy_str, "accept 2,4,6,8,10,12,14,16,18,20,22,24,26,28,30,32,34,36,38,40,42,44," "46,48,50,52,54,56,58,60,62,64,66,68,70,72,74,76,78,80,82,84,86,88,90," "92,94,96,98,100,102,104,106,108,110,112,114,116,118,120,122,124,126,128," "130,132,134,136,138,140,142,144,146,148,150,152,154,156,158,160,162,164," "166,168,170,172,174,176,178,180,182,184,186,188,190,192,194,196,198,200," "202,204,206,208,210,212,214,216,218,220,222,224,226,228,230,232,234,236," "238,240,242,244,246,248,250,252,254,256,258,260,262,264,266,268,270,272," "274,276,278,280,282,284,286,288,290,292,294,296,298,300,302,304,306,308," "310,312,314,316,318,320,322,324,326,328,330,332,334,336,338,340,342,344," "346,348,350,352,354,356,358,360,362,364,366,368,370,372,374,376,378,380," "382,384,386,388,390,392,394,396,398,400,402,404,406,408,410,412,414,416," "418,420,422,424,426,428,430,432,434,436,438,440,442,444,446,448,450,452," "454,456,458,460,462,464,466,468,470,472,474,476,478,480,482,484,486,488," "490,492,494,496,498,500,502,504,506,508,510,512,514,516,518,520,522"); done: addr_policy_list_free(policy); addr_policy_list_free(policy2); addr_policy_list_free(policy3); addr_policy_list_free(policy4); addr_policy_list_free(policy5); addr_policy_list_free(policy6); addr_policy_list_free(policy7); addr_policy_list_free(policy8); addr_policy_list_free(policy9); addr_policy_list_free(policy10); addr_policy_list_free(policy11); addr_policy_list_free(policy12); tor_free(policy_str); if (sm) { SMARTLIST_FOREACH(sm, char *, s, tor_free(s)); smartlist_free(sm); } short_policy_free(short_parsed); } /** Helper: Check that policy_list contains address */ static int test_policy_has_address_helper(const smartlist_t *policy_list, const tor_addr_t *addr) { int found = 0; tt_assert(policy_list); tt_assert(addr); SMARTLIST_FOREACH_BEGIN(policy_list, addr_policy_t*, p) { if (tor_addr_eq(&p->addr, addr)) { found = 1; } } SMARTLIST_FOREACH_END(p); return found; done: return 0; } #define TEST_IPV4_ADDR ("1.2.3.4") #define TEST_IPV6_ADDR ("2002::abcd") /** Run unit tests for rejecting the configured addresses on this exit relay * using policies_parse_exit_policy_reject_private */ static void test_policies_reject_exit_address(void *arg) { smartlist_t *policy = NULL; tor_addr_t ipv4_addr, ipv6_addr; smartlist_t *ipv4_list, *ipv6_list, *both_list, *dupl_list; (void)arg; tor_addr_parse(&ipv4_addr, TEST_IPV4_ADDR); tor_addr_parse(&ipv6_addr, TEST_IPV6_ADDR); ipv4_list = smartlist_new(); ipv6_list = smartlist_new(); both_list = smartlist_new(); dupl_list = smartlist_new(); smartlist_add(ipv4_list, &ipv4_addr); smartlist_add(both_list, &ipv4_addr); smartlist_add(dupl_list, &ipv4_addr); smartlist_add(dupl_list, &ipv4_addr); smartlist_add(dupl_list, &ipv4_addr); smartlist_add(ipv6_list, &ipv6_addr); smartlist_add(both_list, &ipv6_addr); smartlist_add(dupl_list, &ipv6_addr); smartlist_add(dupl_list, &ipv6_addr); /* IPv4-Only Exits */ /* test that IPv4 addresses are rejected on an IPv4-only exit */ policies_parse_exit_policy_reject_private(&policy, 0, ipv4_list, 0, 0); tt_assert(policy); tt_int_op(smartlist_len(policy), OP_EQ, 1); tt_assert(test_policy_has_address_helper(policy, &ipv4_addr)); addr_policy_list_free(policy); policy = NULL; /* test that IPv6 addresses are NOT rejected on an IPv4-only exit * (all IPv6 addresses are rejected by policies_parse_exit_policy_internal * on IPv4-only exits, so policies_parse_exit_policy_reject_private doesn't * need to do anything) */ policies_parse_exit_policy_reject_private(&policy, 0, ipv6_list, 0, 0); tt_ptr_op(policy, OP_EQ, NULL); /* test that only IPv4 addresses are rejected on an IPv4-only exit */ policies_parse_exit_policy_reject_private(&policy, 0, both_list, 0, 0); tt_assert(policy); tt_int_op(smartlist_len(policy), OP_EQ, 1); tt_assert(test_policy_has_address_helper(policy, &ipv4_addr)); addr_policy_list_free(policy); policy = NULL; /* Test that lists with duplicate entries produce the same results */ policies_parse_exit_policy_reject_private(&policy, 0, dupl_list, 0, 0); tt_assert(policy); tt_int_op(smartlist_len(policy), OP_EQ, 1); tt_assert(test_policy_has_address_helper(policy, &ipv4_addr)); addr_policy_list_free(policy); policy = NULL; /* IPv4/IPv6 Exits */ /* test that IPv4 addresses are rejected on an IPv4/IPv6 exit */ policies_parse_exit_policy_reject_private(&policy, 1, ipv4_list, 0, 0); tt_assert(policy); tt_int_op(smartlist_len(policy), OP_EQ, 1); tt_assert(test_policy_has_address_helper(policy, &ipv4_addr)); addr_policy_list_free(policy); policy = NULL; /* test that IPv6 addresses are rejected on an IPv4/IPv6 exit */ policies_parse_exit_policy_reject_private(&policy, 1, ipv6_list, 0, 0); tt_assert(policy); tt_int_op(smartlist_len(policy), OP_EQ, 1); tt_assert(test_policy_has_address_helper(policy, &ipv6_addr)); addr_policy_list_free(policy); policy = NULL; /* test that IPv4 and IPv6 addresses are rejected on an IPv4/IPv6 exit */ policies_parse_exit_policy_reject_private(&policy, 1, both_list, 0, 0); tt_assert(policy); tt_int_op(smartlist_len(policy), OP_EQ, 2); tt_assert(test_policy_has_address_helper(policy, &ipv4_addr)); tt_assert(test_policy_has_address_helper(policy, &ipv6_addr)); addr_policy_list_free(policy); policy = NULL; /* Test that lists with duplicate entries produce the same results */ policies_parse_exit_policy_reject_private(&policy, 1, dupl_list, 0, 0); tt_assert(policy); tt_int_op(smartlist_len(policy), OP_EQ, 2); tt_assert(test_policy_has_address_helper(policy, &ipv4_addr)); tt_assert(test_policy_has_address_helper(policy, &ipv6_addr)); addr_policy_list_free(policy); policy = NULL; done: addr_policy_list_free(policy); smartlist_free(ipv4_list); smartlist_free(ipv6_list); smartlist_free(both_list); smartlist_free(dupl_list); } static smartlist_t *test_configured_ports = NULL; /** Returns test_configured_ports */ static const smartlist_t * mock_get_configured_ports(void) { return test_configured_ports; } /** Run unit tests for rejecting publicly routable configured port addresses * on this exit relay using policies_parse_exit_policy_reject_private */ static void test_policies_reject_port_address(void *arg) { smartlist_t *policy = NULL; port_cfg_t *ipv4_port = NULL; port_cfg_t *ipv6_port = NULL; (void)arg; test_configured_ports = smartlist_new(); ipv4_port = port_cfg_new(0); tor_addr_parse(&ipv4_port->addr, TEST_IPV4_ADDR); smartlist_add(test_configured_ports, ipv4_port); ipv6_port = port_cfg_new(0); tor_addr_parse(&ipv6_port->addr, TEST_IPV6_ADDR); smartlist_add(test_configured_ports, ipv6_port); MOCK(get_configured_ports, mock_get_configured_ports); /* test that an IPv4 port is rejected on an IPv4-only exit, but an IPv6 port * is NOT rejected (all IPv6 addresses are rejected by * policies_parse_exit_policy_internal on IPv4-only exits, so * policies_parse_exit_policy_reject_private doesn't need to do anything * with IPv6 addresses on IPv4-only exits) */ policies_parse_exit_policy_reject_private(&policy, 0, NULL, 0, 1); tt_assert(policy); tt_int_op(smartlist_len(policy), OP_EQ, 1); tt_assert(test_policy_has_address_helper(policy, &ipv4_port->addr)); addr_policy_list_free(policy); policy = NULL; /* test that IPv4 and IPv6 ports are rejected on an IPv4/IPv6 exit */ policies_parse_exit_policy_reject_private(&policy, 1, NULL, 0, 1); tt_assert(policy); tt_int_op(smartlist_len(policy), OP_EQ, 2); tt_assert(test_policy_has_address_helper(policy, &ipv4_port->addr)); tt_assert(test_policy_has_address_helper(policy, &ipv6_port->addr)); addr_policy_list_free(policy); policy = NULL; done: addr_policy_list_free(policy); if (test_configured_ports) { SMARTLIST_FOREACH(test_configured_ports, port_cfg_t *, p, port_cfg_free(p)); smartlist_free(test_configured_ports); test_configured_ports = NULL; } UNMOCK(get_configured_ports); } static smartlist_t *mock_ipv4_addrs = NULL; static smartlist_t *mock_ipv6_addrs = NULL; /* mock get_interface_address6_list, returning a deep copy of the template * address list ipv4_interface_address_list or ipv6_interface_address_list */ static smartlist_t * mock_get_interface_address6_list(int severity, sa_family_t family, int include_internal) { (void)severity; (void)include_internal; smartlist_t *clone_list = smartlist_new(); smartlist_t *template_list = NULL; if (family == AF_INET) { template_list = mock_ipv4_addrs; } else if (family == AF_INET6) { template_list = mock_ipv6_addrs; } else { return NULL; } tt_assert(template_list); SMARTLIST_FOREACH_BEGIN(template_list, tor_addr_t *, src_addr) { tor_addr_t *dest_addr = tor_malloc(sizeof(tor_addr_t)); memset(dest_addr, 0, sizeof(*dest_addr)); tor_addr_copy_tight(dest_addr, src_addr); smartlist_add(clone_list, dest_addr); } SMARTLIST_FOREACH_END(src_addr); return clone_list; done: interface_address6_list_free(clone_list); return NULL; } /** Run unit tests for rejecting publicly routable interface addresses on this * exit relay using policies_parse_exit_policy_reject_private */ static void test_policies_reject_interface_address(void *arg) { smartlist_t *policy = NULL; smartlist_t *public_ipv4_addrs = get_interface_address6_list(LOG_INFO, AF_INET, 0); smartlist_t *public_ipv6_addrs = get_interface_address6_list(LOG_INFO, AF_INET6, 0); tor_addr_t ipv4_addr, ipv6_addr; (void)arg; /* test that no addresses are rejected when none are supplied/requested */ policies_parse_exit_policy_reject_private(&policy, 0, NULL, 0, 0); tt_ptr_op(policy, OP_EQ, NULL); /* test that only IPv4 interface addresses are rejected on an IPv4-only exit * (and allow for duplicates) */ policies_parse_exit_policy_reject_private(&policy, 0, NULL, 1, 0); if (policy) { tt_assert(smartlist_len(policy) <= smartlist_len(public_ipv4_addrs)); addr_policy_list_free(policy); policy = NULL; } /* test that IPv4 and IPv6 interface addresses are rejected on an IPv4/IPv6 * exit (and allow for duplicates) */ policies_parse_exit_policy_reject_private(&policy, 1, NULL, 1, 0); if (policy) { tt_assert(smartlist_len(policy) <= (smartlist_len(public_ipv4_addrs) + smartlist_len(public_ipv6_addrs))); addr_policy_list_free(policy); policy = NULL; } /* Now do it all again, but mocked */ tor_addr_parse(&ipv4_addr, TEST_IPV4_ADDR); mock_ipv4_addrs = smartlist_new(); smartlist_add(mock_ipv4_addrs, (void *)&ipv4_addr); tor_addr_parse(&ipv6_addr, TEST_IPV6_ADDR); mock_ipv6_addrs = smartlist_new(); smartlist_add(mock_ipv6_addrs, (void *)&ipv6_addr); MOCK(get_interface_address6_list, mock_get_interface_address6_list); /* test that no addresses are rejected when none are supplied/requested */ policies_parse_exit_policy_reject_private(&policy, 0, NULL, 0, 0); tt_ptr_op(policy, OP_EQ, NULL); /* test that only IPv4 interface addresses are rejected on an IPv4-only exit */ policies_parse_exit_policy_reject_private(&policy, 0, NULL, 1, 0); tt_assert(policy); tt_assert(smartlist_len(policy) == smartlist_len(mock_ipv4_addrs)); addr_policy_list_free(policy); policy = NULL; /* test that IPv4 and IPv6 interface addresses are rejected on an IPv4/IPv6 * exit */ policies_parse_exit_policy_reject_private(&policy, 1, NULL, 1, 0); tt_assert(policy); tt_assert(smartlist_len(policy) == (smartlist_len(mock_ipv4_addrs) + smartlist_len(mock_ipv6_addrs))); addr_policy_list_free(policy); policy = NULL; done: addr_policy_list_free(policy); interface_address6_list_free(public_ipv4_addrs); interface_address6_list_free(public_ipv6_addrs); UNMOCK(get_interface_address6_list); /* we don't use interface_address6_list_free on these lists because their * address pointers are stack-based */ smartlist_free(mock_ipv4_addrs); smartlist_free(mock_ipv6_addrs); } #undef TEST_IPV4_ADDR #undef TEST_IPV6_ADDR static void test_dump_exit_policy_to_string(void *arg) { char *ep; addr_policy_t *policy_entry; int malformed_list = -1; routerinfo_t *ri = tor_malloc_zero(sizeof(routerinfo_t)); (void)arg; ri->policy_is_reject_star = 1; ri->exit_policy = NULL; // expecting "reject *:*" ep = router_dump_exit_policy_to_string(ri,1,1); tt_str_op("reject *:*",OP_EQ, ep); tor_free(ep); ri->exit_policy = smartlist_new(); ri->policy_is_reject_star = 0; policy_entry = router_parse_addr_policy_item_from_string("accept *:*", -1, &malformed_list); smartlist_add(ri->exit_policy,policy_entry); ep = router_dump_exit_policy_to_string(ri,1,1); tt_str_op("accept *:*",OP_EQ, ep); tor_free(ep); policy_entry = router_parse_addr_policy_item_from_string("reject *:25", -1, &malformed_list); smartlist_add(ri->exit_policy,policy_entry); ep = router_dump_exit_policy_to_string(ri,1,1); tt_str_op("accept *:*\nreject *:25",OP_EQ, ep); tor_free(ep); policy_entry = router_parse_addr_policy_item_from_string("reject 8.8.8.8:*", -1, &malformed_list); smartlist_add(ri->exit_policy,policy_entry); ep = router_dump_exit_policy_to_string(ri,1,1); tt_str_op("accept *:*\nreject *:25\nreject 8.8.8.8:*",OP_EQ, ep); tor_free(ep); policy_entry = router_parse_addr_policy_item_from_string("reject6 [FC00::]/7:*", -1, &malformed_list); smartlist_add(ri->exit_policy,policy_entry); ep = router_dump_exit_policy_to_string(ri,1,1); tt_str_op("accept *:*\nreject *:25\nreject 8.8.8.8:*\n" "reject6 [fc00::]/7:*",OP_EQ, ep); tor_free(ep); policy_entry = router_parse_addr_policy_item_from_string("accept6 [c000::]/3:*", -1, &malformed_list); smartlist_add(ri->exit_policy,policy_entry); ep = router_dump_exit_policy_to_string(ri,1,1); tt_str_op("accept *:*\nreject *:25\nreject 8.8.8.8:*\n" "reject6 [fc00::]/7:*\naccept6 [c000::]/3:*",OP_EQ, ep); done: if (ri->exit_policy) { SMARTLIST_FOREACH(ri->exit_policy, addr_policy_t *, entry, addr_policy_free(entry)); smartlist_free(ri->exit_policy); } tor_free(ri); tor_free(ep); } static routerinfo_t *mock_desc_routerinfo = NULL; static int routerinfo_err; static const routerinfo_t * mock_router_get_my_routerinfo_with_err(int *err) { if (routerinfo_err) { if (err) *err = routerinfo_err; return NULL; } if (err) *err = 0; return mock_desc_routerinfo; } #define DEFAULT_POLICY_STRING "reject *:*" #define TEST_IPV4_ADDR ("2.4.6.8") #define TEST_IPV6_ADDR ("2003::ef01") static or_options_t mock_options; static const or_options_t * mock_get_options(void) { return &mock_options; } /** Run unit tests for generating summary lines of exit policies */ static void test_policies_getinfo_helper_policies(void *arg) { (void)arg; int rv = 0; size_t ipv4_len = 0, ipv6_len = 0; char *answer = NULL; const char *errmsg = NULL; routerinfo_t mock_my_routerinfo; memset(&mock_my_routerinfo, 0, sizeof(mock_my_routerinfo)); rv = getinfo_helper_policies(NULL, "exit-policy/default", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); tt_assert(strlen(answer) > 0); tor_free(answer); rv = getinfo_helper_policies(NULL, "exit-policy/reject-private/default", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); tt_assert(strlen(answer) > 0); tor_free(answer); memset(&mock_my_routerinfo, 0, sizeof(routerinfo_t)); MOCK(router_get_my_routerinfo_with_err, mock_router_get_my_routerinfo_with_err); mock_my_routerinfo.exit_policy = smartlist_new(); mock_desc_routerinfo = &mock_my_routerinfo; memset(&mock_options, 0, sizeof(or_options_t)); MOCK(get_options, mock_get_options); rv = getinfo_helper_policies(NULL, "exit-policy/reject-private/relay", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); tt_assert(strlen(answer) == 0); tor_free(answer); rv = getinfo_helper_policies(NULL, "exit-policy/ipv4", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); ipv4_len = strlen(answer); tt_assert(ipv4_len == 0 || ipv4_len == strlen(DEFAULT_POLICY_STRING)); tt_assert(ipv4_len == 0 || !strcasecmp(answer, DEFAULT_POLICY_STRING)); tor_free(answer); rv = getinfo_helper_policies(NULL, "exit-policy/ipv6", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); ipv6_len = strlen(answer); tt_assert(ipv6_len == 0 || ipv6_len == strlen(DEFAULT_POLICY_STRING)); tt_assert(ipv6_len == 0 || !strcasecmp(answer, DEFAULT_POLICY_STRING)); tor_free(answer); rv = getinfo_helper_policies(NULL, "exit-policy/full", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); /* It's either empty or it's the default */ tt_assert(strlen(answer) == 0 || !strcasecmp(answer, DEFAULT_POLICY_STRING)); tor_free(answer); tor_addr_parse(&mock_my_routerinfo.ipv4_addr, TEST_IPV4_ADDR); tor_addr_parse(&mock_my_routerinfo.ipv6_addr, TEST_IPV6_ADDR); append_exit_policy_string(&mock_my_routerinfo.exit_policy, "accept *4:*"); append_exit_policy_string(&mock_my_routerinfo.exit_policy, "reject *6:*"); mock_options.IPv6Exit = 1; tor_addr_parse( &mock_options.OutboundBindAddresses[OUTBOUND_ADDR_EXIT][0], TEST_IPV4_ADDR); tor_addr_parse( &mock_options.OutboundBindAddresses[OUTBOUND_ADDR_EXIT][1], TEST_IPV6_ADDR); mock_options.ExitPolicyRejectPrivate = 1; mock_options.ExitPolicyRejectLocalInterfaces = 1; rv = getinfo_helper_policies(NULL, "exit-policy/reject-private/relay", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); tt_assert(strlen(answer) > 0); tor_free(answer); mock_options.ExitPolicyRejectPrivate = 1; mock_options.ExitPolicyRejectLocalInterfaces = 0; rv = getinfo_helper_policies(NULL, "exit-policy/reject-private/relay", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); tt_assert(strlen(answer) > 0); tor_free(answer); mock_options.ExitPolicyRejectPrivate = 0; mock_options.ExitPolicyRejectLocalInterfaces = 1; rv = getinfo_helper_policies(NULL, "exit-policy/reject-private/relay", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); tt_assert(strlen(answer) > 0); tor_free(answer); mock_options.ExitPolicyRejectPrivate = 0; mock_options.ExitPolicyRejectLocalInterfaces = 0; rv = getinfo_helper_policies(NULL, "exit-policy/reject-private/relay", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); tt_assert(strlen(answer) == 0); tor_free(answer); rv = getinfo_helper_policies(NULL, "exit-policy/ipv4", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); ipv4_len = strlen(answer); tt_assert(ipv4_len > 0); tor_free(answer); rv = getinfo_helper_policies(NULL, "exit-policy/ipv6", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); ipv6_len = strlen(answer); tt_assert(ipv6_len > 0); tor_free(answer); rv = getinfo_helper_policies(NULL, "exit-policy/full", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_NE, NULL); tt_assert(strlen(answer) > 0); tt_assert(strlen(answer) == ipv4_len + ipv6_len + 1); tor_free(answer); routerinfo_err = TOR_ROUTERINFO_ERROR_NO_EXT_ADDR; rv = getinfo_helper_policies(NULL, "exit-policy/full", &answer, &errmsg); tt_int_op(rv, OP_EQ, -1); tt_ptr_op(answer, OP_EQ, NULL); tt_ptr_op(errmsg, OP_NE, NULL); tt_str_op(errmsg, OP_EQ, "No known exit address yet"); routerinfo_err = TOR_ROUTERINFO_ERROR_CANNOT_PARSE; rv = getinfo_helper_policies(NULL, "exit-policy/full", &answer, &errmsg); tt_int_op(rv, OP_EQ, -1); tt_ptr_op(answer, OP_EQ, NULL); tt_ptr_op(errmsg, OP_NE, NULL); tt_str_op(errmsg, OP_EQ, "Cannot parse descriptor"); routerinfo_err = TOR_ROUTERINFO_ERROR_NOT_A_SERVER; rv = getinfo_helper_policies(NULL, "exit-policy/full", &answer, &errmsg); tt_int_op(rv, OP_EQ, 0); tt_ptr_op(answer, OP_EQ, NULL); tt_ptr_op(errmsg, OP_NE, NULL); tt_str_op(errmsg, OP_EQ, "Not running in server mode"); routerinfo_err = TOR_ROUTERINFO_ERROR_DIGEST_FAILED; rv = getinfo_helper_policies(NULL, "exit-policy/full", &answer, &errmsg); tt_int_op(rv, OP_EQ, -1); tt_ptr_op(answer, OP_EQ, NULL); tt_ptr_op(errmsg, OP_NE, NULL); tt_str_op(errmsg, OP_EQ, "Key digest failed"); routerinfo_err = TOR_ROUTERINFO_ERROR_CANNOT_GENERATE; rv = getinfo_helper_policies(NULL, "exit-policy/full", &answer, &errmsg); tt_int_op(rv, OP_EQ, -1); tt_ptr_op(answer, OP_EQ, NULL); tt_ptr_op(errmsg, OP_NE, NULL); tt_str_op(errmsg, OP_EQ, "Cannot generate descriptor"); routerinfo_err = TOR_ROUTERINFO_ERROR_DESC_REBUILDING; rv = getinfo_helper_policies(NULL, "exit-policy/full", &answer, &errmsg); tt_int_op(rv, OP_EQ, -1); tt_ptr_op(answer, OP_EQ, NULL); tt_ptr_op(errmsg, OP_NE, NULL); tt_str_op(errmsg, OP_EQ, "Descriptor still rebuilding - not ready yet"); done: tor_free(answer); UNMOCK(get_options); UNMOCK(router_get_my_routerinfo); addr_policy_list_free(mock_my_routerinfo.exit_policy); } #undef DEFAULT_POLICY_STRING #undef TEST_IPV4_ADDR #undef TEST_IPV6_ADDR #define TEST_IPV4_ADDR_STR "1.2.3.4" #define TEST_IPV6_ADDR_STR "[1002::4567]" #define REJECT_IPv4_FINAL_STR "reject 0.0.0.0/0:*" #define REJECT_IPv6_FINAL_STR "reject [::]/0:*" #define OTHER_IPV4_ADDR_STR "6.7.8.9" #define OTHER_IPV6_ADDR_STR "[afff::]" /** Run unit tests for reachable_addr_allows */ static void test_policies_fascist_firewall_allows_address(void *arg) { (void)arg; tor_addr_t ipv4_addr, ipv6_addr, r_ipv4_addr, r_ipv6_addr; tor_addr_t n_ipv4_addr, n_ipv6_addr; const uint16_t port = 1234; smartlist_t *policy = NULL; smartlist_t *e_policy = NULL; addr_policy_t *item = NULL; int malformed_list = 0; /* Setup the options and the items in the policies */ memset(&mock_options, 0, sizeof(or_options_t)); MOCK(get_options, mock_get_options); policy = smartlist_new(); item = router_parse_addr_policy_item_from_string("accept " TEST_IPV4_ADDR_STR ":*", ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(item); tt_assert(!malformed_list); smartlist_add(policy, item); item = router_parse_addr_policy_item_from_string("accept " TEST_IPV6_ADDR_STR, ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(item); tt_assert(!malformed_list); smartlist_add(policy, item); /* Normally, policy_expand_unspec would do this for us */ item = router_parse_addr_policy_item_from_string(REJECT_IPv4_FINAL_STR, ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(item); tt_assert(!malformed_list); smartlist_add(policy, item); item = router_parse_addr_policy_item_from_string(REJECT_IPv6_FINAL_STR, ADDR_POLICY_ACCEPT, &malformed_list); tt_assert(item); tt_assert(!malformed_list); smartlist_add(policy, item); item = NULL; e_policy = smartlist_new(); /* char *polstr = policy_dump_to_string(policy, 1, 1); printf("%s\n", polstr); tor_free(polstr); */ /* Parse the addresses */ tor_addr_parse(&ipv4_addr, TEST_IPV4_ADDR_STR); tor_addr_parse(&ipv6_addr, TEST_IPV6_ADDR_STR); tor_addr_parse(&r_ipv4_addr, OTHER_IPV4_ADDR_STR); tor_addr_parse(&r_ipv6_addr, OTHER_IPV6_ADDR_STR); tor_addr_make_null(&n_ipv4_addr, AF_INET); tor_addr_make_null(&n_ipv6_addr, AF_INET6); /* Test the function's address matching with IPv4 and IPv6 on */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 1; mock_options.UseBridges = 0; tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 0, 0), OP_EQ, 0); /* Preferring IPv4 */ tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 1, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 1, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 1, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 1, 0), OP_EQ, 0); /* Preferring IPv6 */ tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 1, 1), OP_EQ, 0); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 1, 1), OP_EQ, 1); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 1, 1), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 1, 1), OP_EQ, 0); /* Test the function's address matching with UseBridges on */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 1; mock_options.UseBridges = 1; tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 0, 0), OP_EQ, 0); /* Preferring IPv4 */ tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 1, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 1, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 1, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 1, 0), OP_EQ, 0); /* Preferring IPv6 */ tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 1, 1), OP_EQ, 0); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 1, 1), OP_EQ, 1); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 1, 1), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 1, 1), OP_EQ, 0); /* bridge clients always use IPv6, regardless of ClientUseIPv6 */ mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 0; tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 0, 0), OP_EQ, 0); /* Test the function's address matching with IPv4 on */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 0; mock_options.UseBridges = 0; tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 0, 0), OP_EQ, 0); /* Test the function's address matching with IPv6 on */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 0; mock_options.ClientUseIPv6 = 1; mock_options.UseBridges = 0; tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 0, 0), OP_EQ, 0); /* Test the function's address matching with ClientUseIPv4 0. * This means "use IPv6" regardless of the other settings. */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 0; mock_options.ClientUseIPv6 = 0; mock_options.UseBridges = 0; tt_int_op(reachable_addr_allows(&ipv4_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&ipv6_addr, port, policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&r_ipv4_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&r_ipv6_addr, port, policy, 0, 0), OP_EQ, 0); /* Test the function's address matching for unusual inputs */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 1; mock_options.UseBridges = 1; /* NULL and tor_addr_is_null addresses are rejected */ tt_int_op(reachable_addr_allows(NULL, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&n_ipv4_addr, port, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&n_ipv6_addr, port, policy, 0, 0), OP_EQ, 0); /* zero ports are rejected */ tt_int_op(reachable_addr_allows(&ipv4_addr, 0, policy, 0, 0), OP_EQ, 0); tt_int_op(reachable_addr_allows(&ipv6_addr, 0, policy, 0, 0), OP_EQ, 0); /* NULL and empty policies accept everything */ tt_int_op(reachable_addr_allows(&ipv4_addr, port, NULL, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&ipv6_addr, port, NULL, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&ipv4_addr, port, e_policy, 0, 0), OP_EQ, 1); tt_int_op(reachable_addr_allows(&ipv6_addr, port, e_policy, 0, 0), OP_EQ, 1); done: addr_policy_free(item); addr_policy_list_free(policy); addr_policy_list_free(e_policy); UNMOCK(get_options); } #undef REJECT_IPv4_FINAL_STR #undef REJECT_IPv6_FINAL_STR #undef OTHER_IPV4_ADDR_STR #undef OTHER_IPV6_ADDR_STR #define TEST_IPV4_OR_PORT 1234 #define TEST_IPV4_DIR_PORT 2345 #define TEST_IPV6_OR_PORT 61234 #define TEST_IPV6_DIR_PORT 62345 /* Check that reachable_addr_choose_from_rs() returns the expected * results. */ #define CHECK_CHOSEN_ADDR_RS(fake_rs, fw_connection, pref_only, expect_rv, \ expect_ap) \ STMT_BEGIN \ tor_addr_port_t chosen_rs_ap; \ tor_addr_make_null(&chosen_rs_ap.addr, AF_INET); \ chosen_rs_ap.port = 0; \ reachable_addr_choose_from_rs(&(fake_rs), (fw_connection), \ (pref_only), &chosen_rs_ap); \ tt_assert(tor_addr_eq(&(expect_ap).addr, &chosen_rs_ap.addr)); \ tt_int_op((expect_ap).port, OP_EQ, chosen_rs_ap.port); \ STMT_END /* Check that reachable_addr_choose_from_node() returns the expected * results. */ #define CHECK_CHOSEN_ADDR_NODE(fake_node, fw_connection, pref_only, \ expect_rv, expect_ap) \ STMT_BEGIN \ tor_addr_port_t chosen_node_ap; \ tor_addr_make_null(&chosen_node_ap.addr, AF_INET); \ chosen_node_ap.port = 0; \ reachable_addr_choose_from_node(&(fake_node),(fw_connection), \ (pref_only), &chosen_node_ap); \ tt_assert(tor_addr_eq(&(expect_ap).addr, &chosen_node_ap.addr)); \ tt_int_op((expect_ap).port, OP_EQ, chosen_node_ap.port); \ STMT_END /* Check that reachable_addr_choose_from_rs and * reachable_addr_choose_from_node() both return the expected results. */ #define CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, fw_connection, pref_only, \ expect_rv, expect_ap) \ STMT_BEGIN \ CHECK_CHOSEN_ADDR_RS(fake_rs, fw_connection, pref_only, expect_rv, \ expect_ap); \ CHECK_CHOSEN_ADDR_NODE(fake_node, fw_connection, pref_only, expect_rv, \ expect_ap); \ STMT_END /* Check that reachable_addr_choose_from_ls() returns the expected * results. */ #define CHECK_CHOSEN_ADDR_NULL_LS() \ STMT_BEGIN \ tor_addr_port_t chosen_ls_ap; \ tor_addr_make_null(&chosen_ls_ap.addr, AF_UNSPEC); \ chosen_ls_ap.port = 0; \ setup_full_capture_of_logs(LOG_WARN); \ reachable_addr_choose_from_ls(NULL, 1, &chosen_ls_ap); \ expect_single_log_msg("Unknown or missing link specifiers"); \ teardown_capture_of_logs(); \ STMT_END #define CHECK_CHOSEN_ADDR_LS(fake_ls, pref_only, expect_rv, expect_ap) \ STMT_BEGIN \ tor_addr_port_t chosen_ls_ap; \ tor_addr_make_null(&chosen_ls_ap.addr, AF_UNSPEC); \ chosen_ls_ap.port = 0; \ setup_full_capture_of_logs(LOG_WARN); \ reachable_addr_choose_from_ls(fake_ls, pref_only, &chosen_ls_ap); \ if (smartlist_len(fake_ls) == 0) { \ expect_single_log_msg("Link specifiers are empty"); \ } else { \ expect_no_log_entry(); \ tt_assert(tor_addr_eq(&(expect_ap).addr, &chosen_ls_ap.addr)); \ tt_int_op((expect_ap).port, OP_EQ, chosen_ls_ap.port); \ } \ teardown_capture_of_logs(); \ STMT_END #define CHECK_LS_LEGACY_ONLY(fake_ls) \ STMT_BEGIN \ tor_addr_port_t chosen_ls_ap; \ tor_addr_make_null(&chosen_ls_ap.addr, AF_UNSPEC); \ chosen_ls_ap.port = 0; \ setup_full_capture_of_logs(LOG_WARN); \ reachable_addr_choose_from_ls(fake_ls, 0, &chosen_ls_ap); \ expect_single_log_msg("None of our link specifiers have IPv4 or IPv6"); \ teardown_capture_of_logs(); \ STMT_END #define CHECK_HS_EXTEND_INFO_ADDR_LS(fake_ls, direct_conn, expect_ap) \ STMT_BEGIN \ curve25519_secret_key_t seckey; \ curve25519_secret_key_generate(&seckey, 0); \ curve25519_public_key_t pubkey; \ curve25519_public_key_generate(&pubkey, &seckey); \ setup_full_capture_of_logs(LOG_WARN); \ extend_info_t *ei = hs_get_extend_info_from_lspecs(fake_ls, &pubkey, \ direct_conn); \ if (fake_ls == NULL) { \ tt_ptr_op(ei, OP_EQ, NULL); \ expect_single_log_msg("Specified link specifiers is null"); \ } else { \ expect_no_log_entry(); \ tt_assert(tor_addr_eq(&(expect_ap).addr, &ei->orports[0].addr)); \ tt_int_op((expect_ap).port, OP_EQ, ei->orports[0].port); \ extend_info_free(ei); \ } \ teardown_capture_of_logs(); \ STMT_END #define CHECK_HS_EXTEND_INFO_ADDR_LS_NULL_KEY(fake_ls) \ STMT_BEGIN \ setup_full_capture_of_logs(LOG_WARN); \ extend_info_t *ei = hs_get_extend_info_from_lspecs(fake_ls, NULL, 0); \ tt_ptr_op(ei, OP_EQ, NULL); \ expect_single_log_msg("Specified onion key is null"); \ teardown_capture_of_logs(); \ STMT_END #define CHECK_HS_EXTEND_INFO_ADDR_LS_EXPECT_NULL(fake_ls, direct_conn) \ STMT_BEGIN \ curve25519_secret_key_t seckey; \ curve25519_secret_key_generate(&seckey, 0); \ curve25519_public_key_t pubkey; \ curve25519_public_key_generate(&pubkey, &seckey); \ extend_info_t *ei = hs_get_extend_info_from_lspecs(fake_ls, &pubkey, \ direct_conn); \ tt_ptr_op(ei, OP_EQ, NULL); \ STMT_END #define CHECK_HS_EXTEND_INFO_ADDR_LS_EXPECT_MSG(fake_ls, msg_level, msg) \ STMT_BEGIN \ curve25519_secret_key_t seckey; \ curve25519_secret_key_generate(&seckey, 0); \ curve25519_public_key_t pubkey; \ curve25519_public_key_generate(&pubkey, &seckey); \ setup_full_capture_of_logs(msg_level); \ extend_info_t *ei = hs_get_extend_info_from_lspecs(fake_ls, &pubkey, 0); \ tt_ptr_op(ei, OP_EQ, NULL); \ expect_single_log_msg(msg); \ teardown_capture_of_logs(); \ STMT_END /** Run unit tests for reachable_addr_choose */ static void test_policies_fascist_firewall_choose_address(void *arg) { (void)arg; tor_addr_port_t ipv4_or_ap, ipv4_dir_ap, ipv6_or_ap, ipv6_dir_ap; tor_addr_port_t n_ipv4_ap, n_ipv6_ap; /* Setup the options */ memset(&mock_options, 0, sizeof(or_options_t)); MOCK(get_options, mock_get_options); /* Parse the addresses */ tor_addr_parse(&ipv4_or_ap.addr, TEST_IPV4_ADDR_STR); ipv4_or_ap.port = TEST_IPV4_OR_PORT; tor_addr_parse(&ipv4_dir_ap.addr, TEST_IPV4_ADDR_STR); ipv4_dir_ap.port = TEST_IPV4_DIR_PORT; tor_addr_parse(&ipv6_or_ap.addr, TEST_IPV6_ADDR_STR); ipv6_or_ap.port = TEST_IPV6_OR_PORT; tor_addr_parse(&ipv6_dir_ap.addr, TEST_IPV6_ADDR_STR); ipv6_dir_ap.port = TEST_IPV6_DIR_PORT; tor_addr_make_null(&n_ipv4_ap.addr, AF_INET); n_ipv4_ap.port = 0; tor_addr_make_null(&n_ipv6_ap.addr, AF_INET6); n_ipv6_ap.port = 0; /* Sanity check reachable_addr_choose with IPv4 and IPv6 on */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 1; mock_options.UseBridges = 0; /* Prefer IPv4 */ tt_assert(reachable_addr_choose(&ipv4_or_ap, &ipv6_or_ap, 1, FIREWALL_OR_CONNECTION, 0, 0) == &ipv4_or_ap); tt_assert(reachable_addr_choose(&ipv4_or_ap, &ipv6_or_ap, 1, FIREWALL_OR_CONNECTION, 1, 0) == &ipv4_or_ap); tt_assert(reachable_addr_choose(&ipv4_dir_ap, &ipv6_dir_ap, 1, FIREWALL_DIR_CONNECTION, 0, 0) == &ipv4_dir_ap); tt_assert(reachable_addr_choose(&ipv4_dir_ap, &ipv6_dir_ap, 1, FIREWALL_DIR_CONNECTION, 1, 0) == &ipv4_dir_ap); /* Prefer IPv6 */ tt_assert(reachable_addr_choose(&ipv4_or_ap, &ipv6_or_ap, 0, FIREWALL_OR_CONNECTION, 0, 1) == &ipv6_or_ap); tt_assert(reachable_addr_choose(&ipv4_or_ap, &ipv6_or_ap, 0, FIREWALL_OR_CONNECTION, 1, 1) == &ipv6_or_ap); tt_assert(reachable_addr_choose(&ipv4_dir_ap, &ipv6_dir_ap, 0, FIREWALL_DIR_CONNECTION, 0, 1) == &ipv6_dir_ap); tt_assert(reachable_addr_choose(&ipv4_dir_ap, &ipv6_dir_ap, 0, FIREWALL_DIR_CONNECTION, 1, 1) == &ipv6_dir_ap); /* Unusual inputs */ /* null preferred OR addresses */ tt_assert(reachable_addr_choose(&ipv4_or_ap, &n_ipv6_ap, 0, FIREWALL_OR_CONNECTION, 0, 1) == &ipv4_or_ap); tt_assert(reachable_addr_choose(&n_ipv4_ap, &ipv6_or_ap, 1, FIREWALL_OR_CONNECTION, 0, 0) == &ipv6_or_ap); /* null both OR addresses */ tt_ptr_op(reachable_addr_choose(&n_ipv4_ap, &n_ipv6_ap, 0, FIREWALL_OR_CONNECTION, 0, 1), OP_EQ, NULL); tt_ptr_op(reachable_addr_choose(&n_ipv4_ap, &n_ipv6_ap, 1, FIREWALL_OR_CONNECTION, 0, 0), OP_EQ, NULL); /* null preferred Dir addresses */ tt_assert(reachable_addr_choose(&ipv4_dir_ap, &n_ipv6_ap, 0, FIREWALL_DIR_CONNECTION, 0, 1) == &ipv4_dir_ap); tt_assert(reachable_addr_choose(&n_ipv4_ap, &ipv6_dir_ap, 1, FIREWALL_DIR_CONNECTION, 0, 0) == &ipv6_dir_ap); /* null both Dir addresses */ tt_ptr_op(reachable_addr_choose(&n_ipv4_ap, &n_ipv6_ap, 0, FIREWALL_DIR_CONNECTION, 0, 1), OP_EQ, NULL); tt_ptr_op(reachable_addr_choose(&n_ipv4_ap, &n_ipv6_ap, 1, FIREWALL_DIR_CONNECTION, 0, 0), OP_EQ, NULL); /* Prefer IPv4 but want IPv6 (contradictory) */ tt_assert(reachable_addr_choose(&ipv4_or_ap, &ipv6_or_ap, 0, FIREWALL_OR_CONNECTION, 0, 0) == &ipv4_or_ap); tt_assert(reachable_addr_choose(&ipv4_or_ap, &ipv6_or_ap, 0, FIREWALL_OR_CONNECTION, 1, 0) == &ipv4_or_ap); /* Prefer IPv6 but want IPv4 (contradictory) */ tt_assert(reachable_addr_choose(&ipv4_or_ap, &ipv6_or_ap, 1, FIREWALL_OR_CONNECTION, 0, 1) == &ipv6_or_ap); tt_assert(reachable_addr_choose(&ipv4_or_ap, &ipv6_or_ap, 1, FIREWALL_OR_CONNECTION, 1, 1) == &ipv6_or_ap); /* Make a fake rs. There will be no corresponding node. * This is what happens when there's no consensus and we're bootstrapping * from authorities / fallbacks. */ routerstatus_t fake_rs; memset(&fake_rs, 0, sizeof(routerstatus_t)); /* In a routerstatus, the OR and Dir addresses are the same */ tor_addr_copy(&fake_rs.ipv4_addr, &ipv4_or_ap.addr); fake_rs.ipv4_orport = ipv4_or_ap.port; fake_rs.ipv4_dirport = ipv4_dir_ap.port; tor_addr_copy(&fake_rs.ipv6_addr, &ipv6_or_ap.addr); fake_rs.ipv6_orport = ipv6_or_ap.port; /* In a routerstatus, the IPv4 and IPv6 DirPorts are the same.*/ ipv6_dir_ap.port = TEST_IPV4_DIR_PORT; /* Make a fake node. Even though it contains the fake_rs, a lookup won't * find the node from the rs, because they're not in the hash table. */ node_t fake_node; memset(&fake_node, 0, sizeof(node_t)); fake_node.rs = &fake_rs; /* Choose an address with IPv4 and IPv6 on */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 1; mock_options.UseBridges = 0; /* Preferring IPv4 */ mock_options.ClientPreferIPv6ORPort = 0; mock_options.ClientPreferIPv6DirPort = 0; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Auto (Preferring IPv4) */ mock_options.ClientPreferIPv6ORPort = -1; mock_options.ClientPreferIPv6DirPort = -1; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Preferring IPv6 */ mock_options.ClientPreferIPv6ORPort = 1; mock_options.ClientPreferIPv6DirPort = 1; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv6_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv6_dir_ap); /* Preferring IPv4 OR / IPv6 Dir */ mock_options.ClientPreferIPv6ORPort = 0; mock_options.ClientPreferIPv6DirPort = 1; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv6_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv6_dir_ap); /* Preferring IPv6 OR / IPv4 Dir */ mock_options.ClientPreferIPv6ORPort = 1; mock_options.ClientPreferIPv6DirPort = 0; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Choose an address with UseBridges on */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.UseBridges = 1; mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 1; /* Preferring IPv4 */ mock_options.ClientPreferIPv6ORPort = 0; mock_options.ClientPreferIPv6DirPort = 0; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Auto: * - bridge clients prefer the configured bridge OR address from the node, * (the configured address family sets node.ipv6_preferred) * - other clients prefer IPv4 OR by default (see above), * - all clients, including bridge clients, prefer IPv4 Dir by default. */ mock_options.ClientPreferIPv6ORPort = -1; mock_options.ClientPreferIPv6DirPort = -1; /* Simulate the initialisation of fake_node.ipv6_preferred with a bridge * configured with an IPv4 address */ fake_node.ipv6_preferred = 0; CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Simulate the initialisation of fake_node.ipv6_preferred with a bridge * configured with an IPv6 address */ fake_node.ipv6_preferred = 1; CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* When a rs has no node, it defaults to IPv4 under auto. */ CHECK_CHOSEN_ADDR_RS(fake_rs, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RS(fake_rs, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RS(fake_rs, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_RS(fake_rs, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Preferring IPv6 */ mock_options.ClientPreferIPv6ORPort = 1; mock_options.ClientPreferIPv6DirPort = 1; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv6_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv6_dir_ap); /* In the default configuration (Auto / IPv6 off), bridge clients should * use both IPv4 and IPv6, but only prefer IPv6 for bridges configured with * an IPv6 address, regardless of ClientUseIPv6. (See above.) */ mock_options.ClientUseIPv6 = 0; mock_options.ClientPreferIPv6ORPort = -1; mock_options.ClientPreferIPv6DirPort = -1; /* Simulate the initialisation of fake_node.ipv6_preferred with a bridge * configured with an IPv4 address */ fake_node.ipv6_preferred = 0; CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Simulate the initialisation of fake_node.ipv6_preferred with a bridge * configured with an IPv6 address */ fake_node.ipv6_preferred = 1; CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_NODE(fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* When a rs has no node, it defaults to IPv4 under auto. */ CHECK_CHOSEN_ADDR_RS(fake_rs, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RS(fake_rs, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RS(fake_rs, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_RS(fake_rs, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Choose an address with IPv4 on */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 0; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Choose an address with IPv6 on */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 0; mock_options.ClientUseIPv6 = 1; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv6_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv6_dir_ap); /* Choose an address with ClientUseIPv4 0. * This means "use IPv6" regardless of the other settings. */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 0; mock_options.ClientUseIPv6 = 0; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv6_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv6_dir_ap); /* Choose an address with ORPort_set 1 (server mode). * This means "use IPv4" regardless of the other settings. */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ORPort_set = 1; mock_options.ClientUseIPv4 = 0; mock_options.ClientUseIPv6 = 1; mock_options.ClientPreferIPv6ORPort = 1; mock_options.ClientPreferIPv6DirPort = 1; /* Simulate the initialisation of fake_node.ipv6_preferred */ fake_node.ipv6_preferred = reachable_addr_prefer_ipv6_orport( &mock_options); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_OR_CONNECTION, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 0, 1, ipv4_dir_ap); CHECK_CHOSEN_ADDR_RN(fake_rs, fake_node, FIREWALL_DIR_CONNECTION, 1, 1, ipv4_dir_ap); /* Test firewall_choose_address_ls(). To do this, we make a fake link * specifier. */ smartlist_t *lspecs = smartlist_new(), *lspecs_blank = smartlist_new(), *lspecs_v4 = smartlist_new(), *lspecs_v6 = smartlist_new(), *lspecs_no_legacy = smartlist_new(), *lspecs_legacy_only = smartlist_new(); link_specifier_t *fake_ls; /* IPv4 link specifier */ fake_ls = link_specifier_new(); link_specifier_set_ls_type(fake_ls, LS_IPV4); link_specifier_set_un_ipv4_addr(fake_ls, tor_addr_to_ipv4h(&ipv4_or_ap.addr)); link_specifier_set_un_ipv4_port(fake_ls, ipv4_or_ap.port); link_specifier_set_ls_len(fake_ls, sizeof(ipv4_or_ap.addr.addr.in_addr) + sizeof(ipv4_or_ap.port)); smartlist_add(lspecs, fake_ls); smartlist_add(lspecs_v4, fake_ls); smartlist_add(lspecs_no_legacy, fake_ls); /* IPv6 link specifier */ fake_ls = link_specifier_new(); link_specifier_set_ls_type(fake_ls, LS_IPV6); size_t addr_len = link_specifier_getlen_un_ipv6_addr(fake_ls); const uint8_t *in6_addr = tor_addr_to_in6_addr8(&ipv6_or_ap.addr); uint8_t *ipv6_array = link_specifier_getarray_un_ipv6_addr(fake_ls); memcpy(ipv6_array, in6_addr, addr_len); link_specifier_set_un_ipv6_port(fake_ls, ipv6_or_ap.port); link_specifier_set_ls_len(fake_ls, addr_len + sizeof(ipv6_or_ap.port)); smartlist_add(lspecs, fake_ls); smartlist_add(lspecs_v6, fake_ls); /* Legacy ID link specifier */ fake_ls = link_specifier_new(); link_specifier_set_ls_type(fake_ls, LS_LEGACY_ID); uint8_t *legacy_id = link_specifier_getarray_un_legacy_id(fake_ls); memset(legacy_id, 'A', sizeof(*legacy_id)); link_specifier_set_ls_len(fake_ls, link_specifier_getlen_un_legacy_id(fake_ls)); smartlist_add(lspecs, fake_ls); smartlist_add(lspecs_legacy_only, fake_ls); smartlist_add(lspecs_v4, fake_ls); smartlist_add(lspecs_v6, fake_ls); /* Check with bogus requests. */ tor_addr_port_t null_ap; \ tor_addr_make_null(&null_ap.addr, AF_UNSPEC); \ null_ap.port = 0; \ /* Check for a null link state. */ CHECK_CHOSEN_ADDR_NULL_LS(); CHECK_HS_EXTEND_INFO_ADDR_LS(NULL, 1, null_ap); /* Check for a blank link state. */ CHECK_CHOSEN_ADDR_LS(lspecs_blank, 0, 0, null_ap); CHECK_HS_EXTEND_INFO_ADDR_LS_EXPECT_NULL(lspecs_blank, 0); /* Check for a link state with only a Legacy ID. */ CHECK_LS_LEGACY_ONLY(lspecs_legacy_only); CHECK_HS_EXTEND_INFO_ADDR_LS_EXPECT_NULL(lspecs_legacy_only, 0); smartlist_free(lspecs_legacy_only); /* Check with a null onion_key. */ CHECK_HS_EXTEND_INFO_ADDR_LS_NULL_KEY(lspecs_blank); smartlist_free(lspecs_blank); /* Check with a null onion_key. */ CHECK_HS_EXTEND_INFO_ADDR_LS_EXPECT_MSG(lspecs_no_legacy, LOG_WARN, "Missing Legacy ID in link state"); smartlist_free(lspecs_no_legacy); /* Enable both IPv4 and IPv6. */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 1; /* Prefer IPv4, enable both IPv4 and IPv6. */ mock_options.ClientPreferIPv6ORPort = 0; CHECK_CHOSEN_ADDR_LS(lspecs, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_LS(lspecs, 1, 1, ipv4_or_ap); CHECK_HS_EXTEND_INFO_ADDR_LS(lspecs, 1, ipv4_or_ap); CHECK_HS_EXTEND_INFO_ADDR_LS(lspecs, 0, ipv4_or_ap); /* Prefer IPv6, enable both IPv4 and IPv6. */ mock_options.ClientPreferIPv6ORPort = 1; CHECK_CHOSEN_ADDR_LS(lspecs, 0, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_LS(lspecs, 1, 1, ipv6_or_ap); CHECK_HS_EXTEND_INFO_ADDR_LS(lspecs, 1, ipv6_or_ap); CHECK_HS_EXTEND_INFO_ADDR_LS(lspecs, 0, ipv4_or_ap); /* IPv4-only. */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 1; mock_options.ClientUseIPv6 = 0; CHECK_CHOSEN_ADDR_LS(lspecs, 0, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_LS(lspecs, 1, 1, ipv4_or_ap); CHECK_CHOSEN_ADDR_LS(lspecs_v6, 0, 0, null_ap); CHECK_HS_EXTEND_INFO_ADDR_LS(lspecs, 1, ipv4_or_ap); CHECK_HS_EXTEND_INFO_ADDR_LS(lspecs, 0, ipv4_or_ap); CHECK_HS_EXTEND_INFO_ADDR_LS_EXPECT_NULL(lspecs_v6, 0); CHECK_HS_EXTEND_INFO_ADDR_LS_EXPECT_NULL(lspecs_v6, 1); /* IPv6-only. */ memset(&mock_options, 0, sizeof(or_options_t)); mock_options.ClientUseIPv4 = 0; mock_options.ClientUseIPv6 = 1; CHECK_CHOSEN_ADDR_LS(lspecs, 0, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_LS(lspecs, 1, 1, ipv6_or_ap); CHECK_CHOSEN_ADDR_LS(lspecs_v4, 0, 0, null_ap); CHECK_HS_EXTEND_INFO_ADDR_LS(lspecs, 1, ipv6_or_ap); CHECK_HS_EXTEND_INFO_ADDR_LS(lspecs, 0, ipv4_or_ap); CHECK_HS_EXTEND_INFO_ADDR_LS_EXPECT_NULL(lspecs_v4, 1); CHECK_HS_EXTEND_INFO_ADDR_LS_EXPECT_NULL(lspecs_v6, 0); smartlist_free(lspecs_v4); smartlist_free(lspecs_v6); SMARTLIST_FOREACH(lspecs, link_specifier_t *, lspec, \ link_specifier_free(lspec)); \ smartlist_free(lspecs); done: UNMOCK(get_options); } #undef TEST_IPV4_ADDR_STR #undef TEST_IPV6_ADDR_STR #undef TEST_IPV4_OR_PORT #undef TEST_IPV4_DIR_PORT #undef TEST_IPV6_OR_PORT #undef TEST_IPV6_DIR_PORT #undef CHECK_CHOSEN_ADDR_RS #undef CHECK_CHOSEN_ADDR_NODE #undef CHECK_CHOSEN_ADDR_RN struct testcase_t policy_tests[] = { { "router_dump_exit_policy_to_string", test_dump_exit_policy_to_string, 0, NULL, NULL }, { "general", test_policies_general, 0, NULL, NULL }, { "getinfo_helper_policies", test_policies_getinfo_helper_policies, 0, NULL, NULL }, { "reject_exit_address", test_policies_reject_exit_address, 0, NULL, NULL }, { "reject_interface_address", test_policies_reject_interface_address, 0, NULL, NULL }, { "reject_port_address", test_policies_reject_port_address, 0, NULL, NULL }, { "reachable_addr_allows", test_policies_fascist_firewall_allows_address, 0, NULL, NULL }, { "reachable_addr_choose", test_policies_fascist_firewall_choose_address, 0, NULL, NULL }, END_OF_TESTCASES };