// Unit test for the mongoose web server. // g++ -W -Wall -pedantic -g unit_test.c -lssl && ./a.out // cl unit_test.c /MD #ifndef _WIN32 #define MONGOOSE_USE_IPV6 #define MONGOOSE_USE_SSL #endif #define MONGOOSE_USE_POST_SIZE_LIMIT 999 // USE_* definitions must be made before #include "mongoose.c" ! #include "mongoose.c" #define FAIL(str, line) do { \ printf("Fail on line %d: [%s]\n", line, str); \ return str; \ } while (0) #define ASSERT(expr) do { \ static_num_tests++; \ if (!(expr)) FAIL(#expr, __LINE__); \ } while (0) #define RUN_TEST(test) do { const char *msg = test(); \ if (msg) return msg; } while (0) #define HTTP_PORT "45772" #define LISTENING_ADDR "127.0.0.1:" HTTP_PORT static int static_num_tests = 0; #if 0 // Connects to host:port, and sends formatted request to it. Returns // malloc-ed reply and reply length, or NULL on error. Reply contains // everything including headers, not just the message body. static char *wget(const char *host, int port, int *len, const char *fmt, ...) { char buf[2000], *reply = NULL; int request_len, reply_size = 0, n, sock = -1; struct sockaddr_in sin; struct hostent *he = NULL; va_list ap; if (host != NULL && (he = gethostbyname(host)) != NULL && (sock = socket(PF_INET, SOCK_STREAM, 0)) != -1) { sin.sin_family = AF_INET; sin.sin_port = htons((uint16_t) port); sin.sin_addr = * (struct in_addr *) he->h_addr_list[0]; if (connect(sock, (struct sockaddr *) &sin, sizeof(sin)) == 0) { // Format and send the request. va_start(ap, fmt); request_len = vsnprintf(buf, sizeof(buf), fmt, ap); va_end(ap); while (request_len > 0 && (n = send(sock, buf, request_len, 0)) > 0) { request_len -= n; } if (request_len == 0) { *len = 0; while ((n = recv(sock, buf, sizeof(buf), 0)) > 0) { if (*len + n > reply_size) { // Leak possible reply = (char *) realloc(reply, reply_size + sizeof(buf)); reply_size += sizeof(buf); } if (reply != NULL) { memcpy(reply + *len, buf, n); *len += n; } } } closesocket(sock); } } return reply; } #endif static char *read_file(const char *path, int *size) { FILE *fp; struct stat st; char *data = NULL; if ((fp = fopen(path, "rb")) != NULL && !fstat(fileno(fp), &st)) { *size = (int) st.st_size; data = (char *) malloc(*size); fread(data, 1, *size, fp); fclose(fp); } return data; } static const char *test_parse_http_message() { struct mg_connection ri; char req1[] = "GET / HTTP/1.1\r\n\r\n"; char req2[] = "BLAH / HTTP/1.1\r\n\r\n"; char req3[] = "GET / HTTP/1.1\r\nBah\r\n"; char req4[] = "GET / HTTP/1.1\r\nA: foo bar\r\nB: bar\r\nbaz\r\n\r\n"; char req5[] = "GET / HTTP/1.1\r\n\r\n"; char req6[] = "G"; char req7[] = " blah "; char req8[] = " HTTP/1.1 200 OK \n\n"; char req9[] = "HTTP/1.1 200 OK\r\nConnection: close\r\n\r\n"; ASSERT(get_request_len("\r\n", 3) == -1); ASSERT(get_request_len("\r\n", 2) == 0); ASSERT(get_request_len("GET", 3) == 0); ASSERT(get_request_len("\n\n", 2) == 2); ASSERT(get_request_len("\n\r\n", 3) == 3); ASSERT(get_request_len("\xdd\xdd", 2) == 0); ASSERT(get_request_len("\xdd\x03", 2) == -1); ASSERT(get_request_len(req3, sizeof(req3) - 1) == 0); ASSERT(get_request_len(req6, sizeof(req6) - 1) == 0); ASSERT(get_request_len(req7, sizeof(req7) - 1) == 0); ASSERT(parse_http_message(req9, sizeof(req9) - 1, &ri) == sizeof(req9) - 1); ASSERT(ri.num_headers == 1); ASSERT(parse_http_message(req1, sizeof(req1) - 1, &ri) == sizeof(req1) - 1); ASSERT(strcmp(ri.http_version, "1.1") == 0); ASSERT(ri.num_headers == 0); ASSERT(parse_http_message(req2, sizeof(req2) - 1, &ri) == -1); ASSERT(parse_http_message(req6, 0, &ri) == -1); ASSERT(parse_http_message(req8, sizeof(req8) - 1, &ri) == sizeof(req8) - 1); // TODO(lsm): Fix this. Header value may span multiple lines. ASSERT(parse_http_message(req4, sizeof(req4) - 1, &ri) == sizeof(req4) - 1); ASSERT(strcmp(ri.http_version, "1.1") == 0); ASSERT(ri.num_headers == 3); ASSERT(strcmp(ri.http_headers[0].name, "A") == 0); ASSERT(strcmp(ri.http_headers[0].value, "foo bar") == 0); ASSERT(strcmp(ri.http_headers[1].name, "B") == 0); ASSERT(strcmp(ri.http_headers[1].value, "bar") == 0); ASSERT(strcmp(ri.http_headers[2].name, "baz\r\n\r") == 0); ASSERT(strcmp(ri.http_headers[2].value, "") == 0); ASSERT(parse_http_message(req5, sizeof(req5) - 1, &ri) == sizeof(req5) - 1); ASSERT(strcmp(ri.request_method, "GET") == 0); ASSERT(strcmp(ri.http_version, "1.1") == 0); return NULL; } static const char *test_should_keep_alive(void) { struct mg_connection conn; char req1[] = "GET / HTTP/1.1\r\n\r\n"; char req2[] = "GET / HTTP/1.0\r\n\r\n"; char req3[] = "GET / HTTP/1.1\r\nConnection: close\r\n\r\n"; char req4[] = "GET / HTTP/1.1\r\nConnection: keep-alive\r\n\r\n"; memset(&conn, 0, sizeof(conn)); ASSERT(parse_http_message(req1, sizeof(req1) - 1, &conn) == sizeof(req1) - 1); ASSERT(should_keep_alive(&conn) != 0); parse_http_message(req2, sizeof(req2) - 1, &conn); ASSERT(should_keep_alive(&conn) == 0); parse_http_message(req3, sizeof(req3) - 1, &conn); ASSERT(should_keep_alive(&conn) == 0); parse_http_message(req4, sizeof(req4) - 1, &conn); ASSERT(should_keep_alive(&conn) != 0); return NULL; } static const char *test_match_prefix(void) { ASSERT(match_prefix("/api", 4, "/api") == 4); ASSERT(match_prefix("/a/", 3, "/a/b/c") == 3); ASSERT(match_prefix("/a/", 3, "/ab/c") == -1); ASSERT(match_prefix("/*/", 3, "/ab/c") == 4); ASSERT(match_prefix("**", 2, "/a/b/c") == 6); ASSERT(match_prefix("/*", 2, "/a/b/c") == 2); ASSERT(match_prefix("*/*", 3, "/a/b/c") == 2); ASSERT(match_prefix("**/", 3, "/a/b/c") == 5); ASSERT(match_prefix("**.foo|**.bar", 13, "a.bar") == 5); ASSERT(match_prefix("a|b|cd", 6, "cdef") == 2); ASSERT(match_prefix("a|b|c?", 6, "cdef") == 2); ASSERT(match_prefix("a|?|cd", 6, "cdef") == 1); ASSERT(match_prefix("/a/**.cgi", 9, "/foo/bar/x.cgi") == -1); ASSERT(match_prefix("/a/**.cgi", 9, "/a/bar/x.cgi") == 12); ASSERT(match_prefix("**/", 3, "/a/b/c") == 5); ASSERT(match_prefix("**/$", 4, "/a/b/c") == -1); ASSERT(match_prefix("**/$", 4, "/a/b/") == 5); ASSERT(match_prefix("$", 1, "") == 0); ASSERT(match_prefix("$", 1, "x") == -1); ASSERT(match_prefix("*$", 2, "x") == 1); ASSERT(match_prefix("/$", 2, "/") == 1); ASSERT(match_prefix("**/$", 4, "/a/b/c") == -1); ASSERT(match_prefix("**/$", 4, "/a/b/") == 5); ASSERT(match_prefix("*", 1, "/hello/") == 0); ASSERT(match_prefix("**.a$|**.b$", 11, "/a/b.b/") == -1); ASSERT(match_prefix("**.a$|**.b$", 11, "/a/b.b") == 6); ASSERT(match_prefix("**.a$|**.b$", 11, "/a/B.A") == 6); ASSERT(match_prefix("**o$", 4, "HELLO") == 5); return NULL; } static const char *test_remove_double_dots() { struct { char before[20], after[20]; } data[] = { {"////a", "/a"}, {"/.....", "/."}, {"/......", "/"}, {"...", "..."}, {"/...///", "/./"}, {"/a...///", "/a.../"}, {"/.x", "/.x"}, {"/\\", "/"}, {"/a\\", "/a\\"}, {"/a\\\\...", "/a\\."}, }; size_t i; for (i = 0; i < ARRAY_SIZE(data); i++) { remove_double_dots_and_double_slashes(data[i].before); ASSERT(strcmp(data[i].before, data[i].after) == 0); } return NULL; } static const char *test_get_var(void) { static const char *post[] = { "a=1&&b=2&d&=&c=3%20&e=", "q=&st=2012%2F11%2F13+17%3A05&et=&team_id=", NULL }; char buf[20]; ASSERT(get_var(post[0], strlen(post[0]), "a", buf, sizeof(buf)) == 1); ASSERT(buf[0] == '1' && buf[1] == '\0'); ASSERT(get_var(post[0], strlen(post[0]), "b", buf, sizeof(buf)) == 1); ASSERT(buf[0] == '2' && buf[1] == '\0'); ASSERT(get_var(post[0], strlen(post[0]), "c", buf, sizeof(buf)) == 2); ASSERT(buf[0] == '3' && buf[1] == ' ' && buf[2] == '\0'); ASSERT(get_var(post[0], strlen(post[0]), "e", buf, sizeof(buf)) == 0); ASSERT(buf[0] == '\0'); ASSERT(get_var(post[0], strlen(post[0]), "d", buf, sizeof(buf)) == -1); ASSERT(get_var(post[0], strlen(post[0]), "c", buf, 2) == -2); ASSERT(get_var(post[0], strlen(post[0]), "x", NULL, 10) == -2); ASSERT(get_var(post[0], strlen(post[0]), "x", buf, 0) == -2); ASSERT(get_var(post[1], strlen(post[1]), "st", buf, 16) == -2); ASSERT(get_var(post[1], strlen(post[1]), "st", buf, 17) == 16); return NULL; } static const char *test_url_decode(void) { char buf[100]; ASSERT(mg_url_decode("foo", 3, buf, 3, 0) == -1); // No space for \0 ASSERT(mg_url_decode("foo", 3, buf, 4, 0) == 3); ASSERT(strcmp(buf, "foo") == 0); ASSERT(mg_url_decode("a+", 2, buf, sizeof(buf), 0) == 2); ASSERT(strcmp(buf, "a+") == 0); ASSERT(mg_url_decode("a+", 2, buf, sizeof(buf), 1) == 2); ASSERT(strcmp(buf, "a ") == 0); ASSERT(mg_url_decode("%61", 1, buf, sizeof(buf), 1) == 1); ASSERT(strcmp(buf, "%") == 0); ASSERT(mg_url_decode("%61", 2, buf, sizeof(buf), 1) == 2); ASSERT(strcmp(buf, "%6") == 0); ASSERT(mg_url_decode("%61", 3, buf, sizeof(buf), 1) == 1); ASSERT(strcmp(buf, "a") == 0); return NULL; } static const char *test_to64(void) { ASSERT(to64("0") == 0); ASSERT(to64("") == 0); ASSERT(to64("123") == 123); ASSERT(to64("-34") == -34); ASSERT(to64("3566626116") == 3566626116); return NULL; } static const char *test_parse_port_string(void) { static const char *valid[] = { "1", "1.2.3.4:1", #if defined(USE_IPV6) "[::1]:123", "[3ffe:2a00:100:7031::1]:900", #endif NULL }; static const char *invalid[] = { "99999", "1k", "1.2.3", "1.2.3.4:", "1.2.3.4:2p", NULL }; union socket_address sa; int i; for (i = 0; valid[i] != NULL; i++) { ASSERT(parse_port_string(valid[i], &sa) != 0); } for (i = 0; invalid[i] != NULL; i++) { ASSERT(parse_port_string(invalid[i], &sa) == 0); } ASSERT(parse_port_string("0", &sa) != 0); return NULL; } static const char *test_base64_encode(void) { const char *in[] = {"a", "ab", "abc", "abcd", NULL}; const char *out[] = {"YQ==", "YWI=", "YWJj", "YWJjZA=="}; char buf[100]; int i; for (i = 0; in[i] != NULL; i++) { base64_encode((unsigned char *) in[i], strlen(in[i]), buf); ASSERT(!strcmp(buf, out[i])); } return NULL; } static const char *test_mg_parse_header(void) { const char *str = "xx=1 kl yy, ert=234 kl=123, " "ii=\"12\\\"34\" zz='aa bb',tt=2,gf=\"xx d=1234"; char buf[10]; ASSERT(mg_parse_header(str, "yy", buf, sizeof(buf)) == 0); ASSERT(mg_parse_header(str, "ert", buf, sizeof(buf)) == 3); ASSERT(strcmp(buf, "234") == 0); ASSERT(mg_parse_header(str, "ert", buf, 2) == 0); ASSERT(mg_parse_header(str, "ert", buf, 3) == 0); ASSERT(mg_parse_header(str, "ert", buf, 4) == 3); ASSERT(mg_parse_header(str, "gf", buf, sizeof(buf)) == 0); ASSERT(mg_parse_header(str, "zz", buf, sizeof(buf)) == 5); ASSERT(strcmp(buf, "aa bb") == 0); ASSERT(mg_parse_header(str, "d", buf, sizeof(buf)) == 4); ASSERT(strcmp(buf, "1234") == 0); buf[0] = 'x'; ASSERT(mg_parse_header(str, "MMM", buf, sizeof(buf)) == 0); ASSERT(buf[0] == '\0'); ASSERT(mg_parse_header(str, "kl", buf, sizeof(buf)) == 3); ASSERT(strcmp(buf, "123") == 0); ASSERT(mg_parse_header(str, "xx", buf, sizeof(buf)) == 1); ASSERT(strcmp(buf, "1") == 0); ASSERT(mg_parse_header(str, "ii", buf, sizeof(buf)) == 5); ASSERT(strcmp(buf, "12\"34") == 0); ASSERT(mg_parse_header(str, "tt", buf, sizeof(buf)) == 1); ASSERT(strcmp(buf, "2") == 0); return NULL; } static const char *test_next_option(void) { const char *p, *list = "x/8,/y**=1;2k,z"; struct vec a, b; int i; ASSERT(next_option(NULL, &a, &b) == NULL); for (i = 0, p = list; (p = next_option(p, &a, &b)) != NULL; i++) { ASSERT(i != 0 || (a.ptr == list && a.len == 3 && b.len == 0)); ASSERT(i != 1 || (a.ptr == list + 4 && a.len == 4 && b.ptr == list + 9 && b.len == 4)); ASSERT(i != 2 || (a.ptr == list + 14 && a.len == 1 && b.len == 0)); } return NULL; } static int cb1(struct mg_connection *conn) { int result = MG_REQUEST_NOT_PROCESSED; if (!strcmp(conn->uri, "/cb1")) { mg_printf(conn, "%s %s %s", conn->server_param == NULL ? "?" : (char *) conn->server_param, conn->connection_param == NULL ? "?" : "!", conn->remote_ip); result = MG_REQUEST_PROCESSED; } return result; } static int error_handler(struct mg_connection *conn) { mg_printf(conn, "HTTP/1.0 404 NF\r\n\r\nERR: %d", conn->status_code); return MG_ERROR_PROCESSED; } static int ts1(struct mg_connection *conn) { if (conn->status_code == MG_CONNECT_SUCCESS) { mg_printf(conn, "%s", "GET /cb1 HTTP/1.0\r\n\r\n"); return MG_CLIENT_CONTINUE; } else if (conn->status_code == MG_DOWNLOAD_SUCCESS) { sprintf((char *) conn->connection_param, "%.*s", (int) conn->content_len, conn->content); } return MG_CLIENT_CLOSE; } static int ts2(struct mg_connection *conn) { if (conn->status_code == MG_CONNECT_SUCCESS) { mg_printf(conn, "%s", "GET /non_exist HTTP/1.0\r\n\r\n"); return MG_CLIENT_CONTINUE; } else if (conn->status_code == MG_DOWNLOAD_SUCCESS) { sprintf((char *) conn->connection_param, "%s %.*s", conn->uri, (int) conn->content_len, conn->content); } return MG_CLIENT_CLOSE; } static const char *test_server(void) { char buf1[100] = "", buf2[100] = ""; struct mg_server *server = mg_create_server((void *) "foo"); ASSERT(server != NULL); ASSERT(mg_set_option(server, "listening_port", LISTENING_ADDR) == NULL); ASSERT(mg_set_option(server, "document_root", ".") == NULL); mg_set_request_handler(server, cb1); mg_set_http_error_handler(server, error_handler); ASSERT(mg_connect(server, "127.0.0.1", atoi(HTTP_PORT), 0, ts1, buf1) == 1); ASSERT(mg_connect(server, "127.0.0.1", atoi(HTTP_PORT), 0, ts2, buf2) == 1); { int i; for (i = 0; i < 50; i++) mg_poll_server(server, 1); } ASSERT(strcmp(buf1, "foo ? 127.0.0.1") == 0); ASSERT(strcmp(buf2, "404 ERR: 404") == 0); ASSERT(strcmp(static_config_options[URL_REWRITES * 2], "url_rewrites") == 0); mg_destroy_server(&server); ASSERT(server == NULL); return NULL; } // This http client sends two requests using one connection static int cb2(struct mg_connection *conn) { const char *file1 = "mongoose.h", *file2 = "mongoose.c", *file_name = file2; char *buf = (char *) conn->connection_param, *file_data; int file_len, ret_val = 1; switch (conn->status_code) { case MG_CONNECT_SUCCESS: mg_printf(conn, "GET /%s HTTP/1.1\r\n\r\n", file1); strcat(buf, "a"); ret_val = 0; break; case MG_CONNECT_FAILURE: strcat(buf, "b"); break; case MG_DOWNLOAD_FAILURE: strcat(buf, "c"); break; case MG_DOWNLOAD_SUCCESS: if (!strcmp(buf, "a")) { // Send second request mg_printf(conn, "GET /%s HTTP/1.1\r\n\r\n", file2); file_name = file1; } if ((file_data = read_file(file_name, &file_len)) != NULL) { if ((size_t) file_len == conn->content_len && memcmp(file_data, conn->content, file_len) == 0) { strcat(buf, "d"); } else { strcat(buf, "f"); } free(file_data); } ret_val = !strcmp(buf, "ad") ? 0 : 1; break; default: strcat(buf, "e"); break; } return ret_val; } static int cb4h(struct mg_connection *conn) { int result = MG_REQUEST_NOT_PROCESSED; if (!strcmp(conn->uri, "/x")) { mg_send_data(conn, ":-)", 3); result = MG_REQUEST_PROCESSED; } return result; } static int cb4(struct mg_connection *conn) { if (conn->status_code == MG_CONNECT_SUCCESS) { mg_printf(conn, "%s", "POST /x HTTP/1.0\r\nContent-Length: 999999\r\n\r\n"); return MG_CLIENT_CONTINUE; } else { sprintf((char *) conn->connection_param, "%.*s", (int) conn->content_len, conn->content); } return MG_CLIENT_CLOSE; } static int cb3(struct mg_connection *conn) { sprintf((char *) conn->connection_param, "%d", conn->status_code); return MG_CLIENT_CLOSE; } static const char *test_mg_connect(void) { char buf2[40] = "", buf3[40] = "", buf4[40] = ""; struct mg_server *server = mg_create_server(NULL); ASSERT(mg_set_option(server, "listening_port", LISTENING_ADDR) == NULL); ASSERT(mg_set_option(server, "document_root", ".") == NULL); mg_set_request_handler(server, cb4h); ASSERT(mg_connect(server, "", 0, 0, NULL, NULL) == 0); ASSERT(mg_connect(server, "127.0.0.1", atoi(HTTP_PORT), 0, cb2, buf2) == 1); ASSERT(mg_connect(server, "127.0.0.1", 29, 0, cb3, buf3) == 1); ASSERT(mg_connect(server, "127.0.0.1", atoi(HTTP_PORT), 0, cb4, buf4) == 1); { int i; for (i = 0; i < 50; i++) mg_poll_server(server, 1); } ASSERT(strcmp(buf2, "add") == 0); ASSERT(strcmp(buf3, "1") == 0); ASSERT(strcmp(buf4, "500 Server Error\nPOST size > 999") == 0); mg_destroy_server(&server); return NULL; } #define DISP "Content-Disposition: form/data; " #define CRLF "\r\n" #define BOUNDARY "--xyz" static const char *test_parse_multipart(void) { char a[100], b[100]; const char *p; static const char f1[] = BOUNDARY CRLF DISP "name=f1" CRLF CRLF "some_content" CRLF BOUNDARY CRLF BOUNDARY CRLF DISP "name=f2; filename=\"foo bar.txt\"" CRLF CRLF "another_content" CRLF BOUNDARY CRLF "--" CRLF; int n, n2, len, f1_len = sizeof(f1) - 1; ASSERT(mg_parse_multipart("", 0, a, sizeof(a), b, sizeof(b), &p, &len) == 0); ASSERT(mg_parse_multipart("a", 1, a, sizeof(a), b, sizeof(b), &p, &len) == 0); ASSERT((n = mg_parse_multipart(f1, f1_len, a, sizeof(a), b, sizeof(b), &p, &len)) > 0); ASSERT(len == 12); ASSERT(memcmp(p, "some_content", len) == 0); ASSERT(strcmp(a, "f1") == 0); ASSERT(b[0] == '\0'); ASSERT((n2 = mg_parse_multipart(f1 + n, f1_len - n, a, sizeof(a), b, sizeof(b), &p, &len)) > 0); ASSERT(len == 15); ASSERT(memcmp(p, "another_content", len) == 0); ASSERT(strcmp(a, "f2") == 0); ASSERT(strcmp(b, "foo bar.txt") == 0); ASSERT((n2 = mg_parse_multipart(f1 + n + n2, f1_len - (n + n2), a, sizeof(a), b, sizeof(b), &p, &len)) == 0); return NULL; } static int us1(struct mg_connection *conn) { static const char *file_name = "mongoose.h"; char *cp = (char *) conn->connection_param; int file_size; if (conn->status_code == MG_CONNECT_SUCCESS) { mg_printf(conn, "GET /%s HTTP/1.0\r\n\r\n", cp); return 0; } else if (conn->status_code == MG_DOWNLOAD_SUCCESS) { char *file_data = read_file(file_name, &file_size); sprintf(cp, "%d %s", (size_t) file_size == conn->content_len && memcmp(file_data, conn->content, file_size) == 0 ? 1 : 0, conn->query_string == NULL ? "?" : conn->query_string); free(file_data); } else if (conn->status_code == MG_CONNECT_FAILURE) { sprintf(cp, "%s", "cf"); } else { sprintf(cp, "%s", "df"); } return 1; } #ifdef MONGOOSE_USE_SSL static const char *test_ssl(void) { static const char *ssl_cert = "examples/ssl_cert.pem"; char buf1[100] = "mongoose.h"; struct mg_server *server = mg_create_server(NULL); ASSERT(mg_set_option(server, "listening_port", LISTENING_ADDR) == NULL); ASSERT(mg_set_option(server, "document_root", ".") == NULL); ASSERT(mg_set_option(server, "ssl_certificate", ssl_cert) == NULL); ASSERT(mg_connect(server, "127.0.0.1", atoi(HTTP_PORT), 1, us1, buf1) == 1); { int i; for (i = 0; i < 50; i++) mg_poll_server(server, 1); } ASSERT(strcmp(buf1, "1 ?") == 0); mg_destroy_server(&server); return NULL; } #endif static const char *test_mg_set_option(void) { struct mg_server *server = mg_create_server(NULL); ASSERT(mg_set_option(server, "listening_port", "0") == NULL); ASSERT(mg_get_option(server, "listening_port")[0] != '\0'); mg_destroy_server(&server); return NULL; } static const char *test_rewrites(void) { char buf1[100] = "xx"; struct mg_server *server = mg_create_server(NULL); ASSERT(mg_set_option(server, "listening_port", "0") == NULL); ASSERT(mg_set_option(server, "document_root", ".") == NULL); ASSERT(mg_set_option(server, "url_rewrites", "/xx=./mongoose.h") == NULL); ASSERT(mg_connect(server, "127.0.0.1", atoi(mg_get_option(server, "listening_port")), 0, us1, buf1) == 1); { int i; for (i = 0; i < 50; i++) mg_poll_server(server, 1); } //printf("[%s]\n", buf1); ASSERT(strcmp(buf1, "1 ?") == 0); mg_destroy_server(&server); return NULL; } static int avt(char **buf, size_t buf_size, const char *fmt, ...) { int result; va_list ap; va_start(ap, fmt); result = alloc_vprintf(buf, buf_size, fmt, ap); va_end(ap); return result; } static const char *test_alloc_vprintf(void) { char buf[5], *p = buf; ASSERT(avt(&p, sizeof(buf), "%d", 123) == 3); ASSERT(p == buf); ASSERT(strcmp(p, "123") == 0); ASSERT(avt(&p, sizeof(buf), "%d", 123456789) == 9); ASSERT(p != buf); ASSERT(strcmp(p, "123456789") == 0); free(p); return NULL; } static const char *run_all_tests(void) { RUN_TEST(test_should_keep_alive); RUN_TEST(test_match_prefix); RUN_TEST(test_remove_double_dots); RUN_TEST(test_parse_http_message); RUN_TEST(test_parse_port_string); RUN_TEST(test_to64); RUN_TEST(test_url_decode); RUN_TEST(test_base64_encode); RUN_TEST(test_mg_parse_header); RUN_TEST(test_get_var); RUN_TEST(test_next_option); RUN_TEST(test_parse_multipart); RUN_TEST(test_server); RUN_TEST(test_mg_connect); RUN_TEST(test_mg_set_option); RUN_TEST(test_rewrites); RUN_TEST(test_alloc_vprintf); #ifdef MONGOOSE_USE_SSL RUN_TEST(test_ssl); #endif return NULL; } int __cdecl main(void) { const char *fail_msg = run_all_tests(); printf("%s, tests run: %d\n", fail_msg ? "FAIL" : "PASS", static_num_tests); return fail_msg == NULL ? EXIT_SUCCESS : EXIT_FAILURE; }