/* Copyright 2019 by sysmocom s.f.m.c. GmbH * * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . * */ #include #include #include #include #include #include #include #include struct qname_enc_dec_test { const char *domain; const char *qname; size_t qname_max_len; /* default: strlen(qname) + 1 */ }; #define PRINT_HDR(hdr, name) \ fprintf(stderr, "header %s:\n" \ ".id = %i\n" \ ".qr = %i\n" \ ".opcode = %x\n" \ ".aa = %i\n" \ ".tc = %i\n" \ ".rd = %i\n" \ ".ra = %i\n" \ ".z = %x\n" \ ".rcode = %x\n" \ ".qdcount = %u\n" \ ".ancount = %u\n" \ ".nscount = %u\n" \ ".arcount = %u\n", \ name, hdr.id, hdr.qr, hdr.opcode, hdr.aa, hdr.tc, hdr.rd, hdr.ra, hdr.z, hdr.rcode, hdr.qdcount, \ hdr.ancount, hdr.nscount, hdr.arcount) static const struct osmo_mdns_rfc_header header_enc_dec_test_data[] = { { /* Typical use case for mslookup */ .id = 1337, .qdcount = 1, }, { /* Fill out everything */ .id = 42, .qr = 1, .opcode = 0x02, .aa = 1, .tc = 1, .rd = 1, .ra = 1, .z = 0x02, .rcode = 0x03, .qdcount = 1234, .ancount = 1111, .nscount = 2222, .arcount = 3333, }, }; void test_enc_dec_rfc_header(void) { int i; fprintf(stderr, "-- %s --\n", __func__); for (i = 0; i< ARRAY_SIZE(header_enc_dec_test_data); i++) { const struct osmo_mdns_rfc_header in = header_enc_dec_test_data[i]; struct osmo_mdns_rfc_header out = {0}; struct msgb *msg = msgb_alloc(4096, "dns_test"); PRINT_HDR(in, "in"); osmo_mdns_rfc_header_encode(msg, &in); fprintf(stderr, "encoded: %s\n", osmo_hexdump(msgb_data(msg), msgb_length(msg))); assert(osmo_mdns_rfc_header_decode(msgb_data(msg), msgb_length(msg), &out) == 0); PRINT_HDR(out, "out"); fprintf(stderr, "in (hexdump): %s\n", osmo_hexdump((unsigned char *)&in, sizeof(in))); fprintf(stderr, "out (hexdump): %s\n", osmo_hexdump((unsigned char *)&out, sizeof(out))); assert(memcmp(&in, &out, sizeof(in)) == 0); fprintf(stderr, "=> OK\n\n"); msgb_free(msg); } } void test_enc_dec_rfc_header_einval(void) { struct osmo_mdns_rfc_header out = {0}; struct msgb *msg = msgb_alloc(4096, "dns_test"); fprintf(stderr, "-- %s --\n", __func__); assert(osmo_mdns_rfc_header_decode(msgb_data(msg), 11, &out) == -EINVAL); fprintf(stderr, "=> OK\n\n"); msgb_free(msg); } #define PRINT_QST(qst, name) \ fprintf(stderr, "question %s:\n" \ ".domain = %s\n" \ ".qtype = %i\n" \ ".qclass = %i\n", \ name, (qst)->domain, (qst)->qtype, (qst)->qclass) static const struct osmo_mdns_rfc_question question_enc_dec_test_data[] = { { .domain = "hlr.1234567.imsi", .qtype = OSMO_MDNS_RFC_RECORD_TYPE_ALL, .qclass = OSMO_MDNS_RFC_CLASS_IN, }, { .domain = "hlr.1234567.imsi", .qtype = OSMO_MDNS_RFC_RECORD_TYPE_A, .qclass = OSMO_MDNS_RFC_CLASS_ALL, }, { .domain = "hlr.1234567.imsi", .qtype = OSMO_MDNS_RFC_RECORD_TYPE_AAAA, .qclass = OSMO_MDNS_RFC_CLASS_ALL, }, }; void test_enc_dec_rfc_question(void *ctx) { int i; fprintf(stderr, "-- %s --\n", __func__); for (i = 0; i< ARRAY_SIZE(question_enc_dec_test_data); i++) { const struct osmo_mdns_rfc_question in = question_enc_dec_test_data[i]; struct osmo_mdns_rfc_question *out; struct msgb *msg = msgb_alloc(4096, "dns_test"); PRINT_QST(&in, "in"); assert(osmo_mdns_rfc_question_encode(msg, &in) == 0); fprintf(stderr, "encoded: %s\n", osmo_hexdump(msgb_data(msg), msgb_length(msg))); out = osmo_mdns_rfc_question_decode(ctx, msgb_data(msg), msgb_length(msg)); assert(out); PRINT_QST(out, "out"); if (strcmp(in.domain, out->domain) != 0) fprintf(stderr, "=> ERROR: domain does not match\n"); else if (in.qtype != out->qtype) fprintf(stderr, "=> ERROR: qtype does not match\n"); else if (in.qclass != out->qclass) fprintf(stderr, "=> ERROR: qclass does not match\n"); else fprintf(stderr, "=> OK\n"); fprintf(stderr, "\n"); msgb_free(msg); talloc_free(out); } } void test_enc_dec_rfc_question_null(void *ctx) { uint8_t data[5] = {0}; fprintf(stderr, "-- %s --\n", __func__); assert(osmo_mdns_rfc_question_decode(ctx, data, sizeof(data)) == NULL); fprintf(stderr, "=> OK\n\n"); } #define PRINT_REC(rec, name) \ fprintf(stderr, "question %s:\n" \ ".domain = %s\n" \ ".type = %i\n" \ ".class = %i\n" \ ".ttl = %i\n" \ ".rdlength = %i\n" \ ".rdata = %s\n", \ name, (rec)->domain, (rec)->type, (rec)->class, (rec)->ttl, (rec)->rdlength, \ osmo_quote_str((char *)(rec)->rdata, (rec)->rdlength)) static const struct osmo_mdns_rfc_record record_enc_dec_test_data[] = { { .domain = "hlr.1234567.imsi", .type = OSMO_MDNS_RFC_RECORD_TYPE_A, .class = OSMO_MDNS_RFC_CLASS_IN, .ttl = 1234, .rdlength = 9, .rdata = (uint8_t *)"10.42.2.1", }, }; void test_enc_dec_rfc_record(void *ctx) { int i; fprintf(stderr, "-- %s --\n", __func__); for (i=0; i< ARRAY_SIZE(record_enc_dec_test_data); i++) { const struct osmo_mdns_rfc_record in = record_enc_dec_test_data[i]; struct osmo_mdns_rfc_record *out; struct msgb *msg = msgb_alloc(4096, "dns_test"); size_t record_len; PRINT_REC(&in, "in"); assert(osmo_mdns_rfc_record_encode(msg, &in) == 0); fprintf(stderr, "encoded: %s\n", osmo_hexdump(msgb_data(msg), msgb_length(msg))); out = osmo_mdns_rfc_record_decode(ctx, msgb_data(msg), msgb_length(msg), &record_len); fprintf(stderr, "record_len: %lu\n", record_len); assert(out); PRINT_REC(out, "out"); if (strcmp(in.domain, out->domain) != 0) fprintf(stderr, "=> ERROR: domain does not match\n"); else if (in.type != out->type) fprintf(stderr, "=> ERROR: type does not match\n"); else if (in.class != out->class) fprintf(stderr, "=> ERROR: class does not match\n"); else if (in.ttl != out->ttl) fprintf(stderr, "=> ERROR: ttl does not match\n"); else if (in.rdlength != out->rdlength) fprintf(stderr, "=> ERROR: rdlength does not match\n"); else if (memcmp(in.rdata, out->rdata, in.rdlength) != 0) fprintf(stderr, "=> ERROR: rdata does not match\n"); else fprintf(stderr, "=> OK\n"); fprintf(stderr, "\n"); msgb_free(msg); talloc_free(out); } } static uint8_t ip_v4_n[] = {23, 42, 47, 11}; static uint8_t ip_v6_n[] = {0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99, 0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff, 0x00}; enum test_records { RECORD_NONE, RECORD_A, RECORD_AAAA, RECORD_TXT_AGE, RECORD_TXT_PORT_444, RECORD_TXT_PORT_666, RECORD_TXT_INVALID_KEY, RECORD_TXT_INVALID_NO_KEY_VALUE, RECORD_INVALID, }; struct result_from_answer_test { const char *desc; const enum test_records records[5]; bool error; const struct osmo_mslookup_result res; }; static void test_result_from_answer(void *ctx) { void *print_ctx = talloc_named_const(ctx, 0, __func__); struct osmo_sockaddr_str test_host_v4 = {.af = AF_INET, .port=444, .ip = "23.42.47.11"}; struct osmo_sockaddr_str test_host_v6 = {.af = AF_INET6, .port=666, .ip = "1122:3344:5566:7788:99aa:bbcc:ddee:ff00"}; struct osmo_mslookup_result test_result_v4 = {.rc = OSMO_MSLOOKUP_RC_RESULT, .age = 3, .host_v4 = test_host_v4}; struct osmo_mslookup_result test_result_v6 = {.rc = OSMO_MSLOOKUP_RC_RESULT, .age = 3, .host_v6 = test_host_v6}; struct osmo_mslookup_result test_result_v4_v6 = {.rc = OSMO_MSLOOKUP_RC_RESULT, .age = 3, .host_v4 = test_host_v4, .host_v6 = test_host_v6}; struct result_from_answer_test result_from_answer_data[] = { { .desc = "IPv4", .records = {RECORD_TXT_AGE, RECORD_A, RECORD_TXT_PORT_444}, .res = test_result_v4 }, { .desc = "IPv6", .records = {RECORD_TXT_AGE, RECORD_AAAA, RECORD_TXT_PORT_666}, .res = test_result_v6 }, { .desc = "IPv4 + IPv6", .records = {RECORD_TXT_AGE, RECORD_A, RECORD_TXT_PORT_444, RECORD_AAAA, RECORD_TXT_PORT_666}, .res = test_result_v4_v6 }, { .desc = "A twice", .records = {RECORD_TXT_AGE, RECORD_A, RECORD_TXT_PORT_444, RECORD_A}, .error = true }, { .desc = "AAAA twice", .records = {RECORD_TXT_AGE, RECORD_AAAA, RECORD_TXT_PORT_444, RECORD_AAAA}, .error = true }, { .desc = "invalid TXT: no key/value pair", .records = {RECORD_TXT_AGE, RECORD_AAAA, RECORD_TXT_INVALID_NO_KEY_VALUE}, .error = true }, { .desc = "age twice", .records = {RECORD_TXT_AGE, RECORD_TXT_AGE}, .error = true }, { .desc = "port as first record", .records = {RECORD_TXT_PORT_444}, .error = true }, { .desc = "port without previous ip record", .records = {RECORD_TXT_AGE, RECORD_TXT_PORT_444}, .error = true }, { .desc = "invalid TXT: invalid key", .records = {RECORD_TXT_AGE, RECORD_AAAA, RECORD_TXT_INVALID_KEY}, .error = true }, { .desc = "unexpected record type", .records = {RECORD_TXT_AGE, RECORD_INVALID}, .error = true }, { .desc = "missing record: age", .records = {RECORD_A, RECORD_TXT_PORT_444}, .error = true }, { .desc = "missing record: port for ipv4", .records = {RECORD_TXT_AGE, RECORD_A}, .error = true }, { .desc = "missing record: port for ipv4 #2", .records = {RECORD_TXT_AGE, RECORD_AAAA, RECORD_TXT_PORT_666, RECORD_A}, .error = true }, }; int i = 0; int j = 0; fprintf(stderr, "-- %s --\n", __func__); for (i = 0; i < ARRAY_SIZE(result_from_answer_data); i++) { struct result_from_answer_test *t = &result_from_answer_data[i]; struct osmo_mdns_msg_answer ans = {0}; struct osmo_mslookup_result res = {0}; void *ctx_test = talloc_named_const(ctx, 0, t->desc); bool is_error; fprintf(stderr, "---\n"); fprintf(stderr, "test: %s\n", t->desc); fprintf(stderr, "error: %s\n", t->error ? "true" : "false"); fprintf(stderr, "records:\n"); /* Build records list */ INIT_LLIST_HEAD(&ans.records); for (j = 0; j < ARRAY_SIZE(t->records); j++) { struct osmo_mdns_record *rec = NULL; switch (t->records[j]) { case RECORD_NONE: break; case RECORD_A: fprintf(stderr, "- A 42.42.42.42\n"); rec = talloc_zero(ctx_test, struct osmo_mdns_record); rec->type = OSMO_MDNS_RFC_RECORD_TYPE_A; rec->data = ip_v4_n; rec->length = sizeof(ip_v4_n); break; case RECORD_AAAA: fprintf(stderr, "- AAAA 1122:3344:5566:7788:99aa:bbcc:ddee:ff00\n"); rec = talloc_zero(ctx_test, struct osmo_mdns_record); rec->type = OSMO_MDNS_RFC_RECORD_TYPE_AAAA; rec->data = ip_v6_n; rec->length = sizeof(ip_v6_n); break; case RECORD_TXT_AGE: fprintf(stderr, "- TXT age=3\n"); rec = osmo_mdns_record_txt_keyval_encode(ctx_test, "age", "3"); break; case RECORD_TXT_PORT_444: fprintf(stderr, "- TXT port=444\n"); rec = osmo_mdns_record_txt_keyval_encode(ctx_test, "port", "444"); break; case RECORD_TXT_PORT_666: fprintf(stderr, "- TXT port=666\n"); rec = osmo_mdns_record_txt_keyval_encode(ctx_test, "port", "666"); break; case RECORD_TXT_INVALID_KEY: fprintf(stderr, "- TXT hello=world\n"); rec = osmo_mdns_record_txt_keyval_encode(ctx_test, "hello", "world"); break; case RECORD_TXT_INVALID_NO_KEY_VALUE: fprintf(stderr, "- TXT 12345\n"); rec = osmo_mdns_record_txt_keyval_encode(ctx_test, "12", "45"); rec->data[3] = '3'; break; case RECORD_INVALID: fprintf(stderr, "- (invalid)\n"); rec = talloc_zero(ctx, struct osmo_mdns_record); rec->type = OSMO_MDNS_RFC_RECORD_TYPE_UNKNOWN; break; } if (rec) llist_add_tail(&rec->list, &ans.records); } /* Verify output */ is_error = (osmo_mdns_result_from_answer(&res, &ans) != 0); if (t->error != is_error) { fprintf(stderr, "got %s\n", is_error ? "error" : "no error"); OSMO_ASSERT(false); } if (!t->error) { fprintf(stderr, "exp: %s\n", osmo_mslookup_result_name_c(print_ctx, NULL, &t->res)); fprintf(stderr, "res: %s\n", osmo_mslookup_result_name_c(print_ctx, NULL, &res)); OSMO_ASSERT(t->res.rc == res.rc); OSMO_ASSERT(!osmo_sockaddr_str_cmp(&t->res.host_v4, &res.host_v4)); OSMO_ASSERT(!osmo_sockaddr_str_cmp(&t->res.host_v6, &res.host_v6)); OSMO_ASSERT(t->res.age == res.age); OSMO_ASSERT(t->res.last == res.last); } talloc_free(ctx_test); fprintf(stderr, "=> OK\n"); } } int main(int argc, char **argv) { void *ctx = talloc_named_const(NULL, 0, "main"); osmo_init_logging2(ctx, NULL); log_set_print_filename2(osmo_stderr_target, LOG_FILENAME_NONE); log_set_print_level(osmo_stderr_target, 1); log_set_print_category(osmo_stderr_target, 1); log_set_print_category_hex(osmo_stderr_target, 0); log_set_use_color(osmo_stderr_target, 0); test_enc_dec_rfc_header(); test_enc_dec_rfc_header_einval(); test_enc_dec_rfc_question(ctx); test_enc_dec_rfc_question_null(ctx); test_enc_dec_rfc_record(ctx); test_result_from_answer(ctx); return 0; }