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|
/*
Socket handling tests
Copyright (C) 2002-2011, Joe Orton <joe@manyfish.co.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* This module can be compiled with -DSOCKET_SSL enabled, to run all
* the tests over an SSL connection. */
#include "config.h"
#include <sys/types.h>
#include <sys/socket.h> /* for AF_INET6 */
#ifdef HAVE_STDLIB_H
#include <stdlib.h>
#endif
#ifdef HAVE_STRING_H
#include <string.h>
#endif
#ifdef HAVE_UNISTD_H
#include <unistd.h> /* for gethostname() */
#endif
#include <time.h> /* for time() */
#include "ne_socket.h"
#include "ne_utils.h"
#include "ne_alloc.h"
#include "child.h"
#include "tests.h"
#include "utils.h"
#ifdef SOCKET_SSL
#include "ne_ssl.h"
ne_ssl_context *server_ctx, *client_ctx;
#endif
static ne_sock_addr *localhost;
static char buffer[BUFSIZ];
#if defined(AF_INET6) && defined(USE_GETADDRINFO)
#define TEST_IPV6
#endif
/* tests for doing init/finish multiple times. */
static int multi_init(void)
{
int res1 = ne_sock_init(), res2 = ne_sock_init();
ONV(res1 != res2, ("cached init result changed from %d to %d",
res1, res2));
ne_sock_exit();
ne_sock_exit();
ne_sock_exit();
res1 = ne_sock_init();
ONV(res1 != res2, ("re-init after exit gave %d not %d",
res1, res2));
ne_sock_exit();
res2 = ne_sock_init();
ONV(res1 != res2, ("second time, cached init result changed from %d to %d",
res1, res2));
return OK;
}
/* Create and connect *sock to address addr on given port. */
static int do_connect(ne_socket **sock, ne_sock_addr *addr, unsigned int port)
{
const ne_inet_addr *ia;
*sock = ne_sock_create();
ONN("could not create socket", *sock == NULL);
for (ia = ne_addr_first(addr); ia; ia = ne_addr_next(addr)) {
if (ne_sock_connect(*sock, ia, port) == 0)
return OK;
}
t_context("could not connect to server: %s", ne_sock_error(*sock));
ne_sock_close(*sock);
return FAIL;
}
#ifdef SOCKET_SSL
static int init_ssl(void)
{
char *server_key;
ne_ssl_certificate *cert;
/* take srcdir as argv[1]. */
if (test_argc > 1) {
server_key = ne_concat(test_argv[1], "/server.key", NULL);
} else {
server_key = ne_strdup("server.key");
}
ONN("sock_init failed", ne_sock_init());
server_ctx = ne_ssl_context_create(1);
ONN("SSL_CTX_new failed", server_ctx == NULL);
ne_ssl_context_keypair(server_ctx, "server.cert", server_key);
client_ctx = ne_ssl_context_create(0);
ONN("SSL_CTX_new failed for client", client_ctx == NULL);
cert = ne_ssl_cert_read("ca/cert.pem");
ONN("could not load ca/cert.pem", cert == NULL);
ne_ssl_context_trustcert(client_ctx, cert);
ne_free(server_key);
return OK;
}
#endif
static int resolve(void)
{
char buf[256];
localhost = ne_addr_resolve("localhost", 0);
ONV(ne_addr_result(localhost),
("could not resolve `localhost': %s",
ne_addr_error(localhost, buf, sizeof buf)));
/* and again for child.c */
return lookup_localhost();
}
static int serve_close(ne_socket *sock, void *ud)
{
return 0;
}
#ifdef SOCKET_SSL
struct serve_pair {
server_fn fn;
void *userdata;
};
static int wrap_serve(ne_socket *sock, void *ud)
{
struct serve_pair *pair = ud;
if (ne_sock_accept_ssl(sock, server_ctx)) {
NE_DEBUG(NE_DBG_SOCKET, "SSL_accept failed: %s\n", ne_sock_error(sock));
return 1;
}
NE_DEBUG(NE_DBG_SOCKET, "SSL accept okay.\n");
return pair->fn(sock, pair->userdata);
}
static int begin(ne_socket **sock, server_fn fn, void *ud)
{
struct serve_pair pair;
unsigned int port;
pair.fn = fn;
pair.userdata = ud;
CALL(new_spawn_server(1, wrap_serve, &pair, &port));
CALL(do_connect(sock, localhost, port));
ONV(ne_sock_connect_ssl(*sock, client_ctx, NULL),
("SSL negotation failed: %s", ne_sock_error(*sock)));
return OK;
}
#else
/* non-SSL begin() function. */
static int begin(ne_socket **sock, server_fn fn, void *ud)
{
unsigned int port;
CALL(new_spawn_server(1, fn, ud, &port));
return do_connect(sock, localhost, port);
}
#endif
static int resolve_numeric(void)
{
ne_sock_addr *addr = ne_addr_resolve("127.0.0.1", 0);
ONV(ne_addr_result(addr),
("failed to resolve 127.0.0.1: %s",
ne_addr_error(addr, buffer, sizeof buffer)));
ONN("ne_addr_first returned NULL", ne_addr_first(addr) == NULL);
ONN("ne_iaddr_print didn't return buffer",
ne_iaddr_print(ne_addr_first(addr), buffer, sizeof buffer) != buffer);
ONV(strcmp(buffer, "127.0.0.1"), ("ntop gave `%s' not 127.0.0.1", buffer));
ne_addr_destroy(addr);
return OK;
}
#if 0
static int resolve_ipv6(void)
{
char err[256];
ne_sock_addr *addr = ne_addr_resolve("[::1]", 0);
ONV(ne_addr_result(addr),
("could not resolve `[::1]': %s",
ne_addr_error(addr, err, sizeof err)));
ne_addr_destroy(addr);
return OK;
}
#endif
static const unsigned char raw_127[4] = "\x7f\0\0\01", /* 127.0.0.1 */
raw6_nuls[16] = /* :: */ "\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0";
#ifdef TEST_IPV6
static const unsigned char
raw6_cafe[16] = /* feed::cafe */ "\xfe\xed\0\0\0\0\0\0\0\0\0\0\0\0\xca\xfe",
raw6_babe[16] = /* cafe:babe:: */ "\xca\xfe\xba\xbe\0\0\0\0\0\0\0\0\0\0\0\0";
#endif
/* Check the given inet addr is 127.0.0.1. */
static int check_is_raw127(const ne_inet_addr *ia)
{
unsigned char raw[5];
raw[4] = 'Z';
ONN("bogus ne_iaddr_typeof return", ne_iaddr_typeof(ia) != ne_iaddr_ipv4);
ONN("ne_iaddr_raw gave bad retval", ne_iaddr_raw(ia, raw) != raw);
ONN("raw address mismatch", memcmp(raw, raw_127, 4) != 0);
ONN("ne_iaddr_raw buffer overflow", raw[4] != 'Z');
return OK;
}
static int addr_make_v4(void)
{
ne_inet_addr *ia;
char pr[50];
ia = ne_iaddr_make(ne_iaddr_ipv4, raw_127);
ONN("ne_iaddr_make returned NULL", ia == NULL);
ne_iaddr_print(ia, pr, sizeof pr);
ONV(strcmp(pr, "127.0.0.1"), ("address was %s not 127.0.0.1", pr));
CALL(check_is_raw127(ia));
ne_iaddr_free(ia);
return OK;
}
static int parse_v4(void)
{
ne_inet_addr *ia;
ia = ne_iaddr_parse("127.0.0.1", ne_iaddr_ipv4);
ONN("parse failed", ia == NULL);
CALL(check_is_raw127(ia));
ne_iaddr_free(ia);
return OK;
}
static int addr_make_v6(void)
{
#ifdef TEST_IPV6
struct {
const unsigned char *addr;
const char *rep;
} as[] = {
{ raw6_cafe, "feed::cafe" },
{ raw6_babe, "cafe:babe::" },
{ raw6_nuls, "::" },
{ NULL, NULL }
};
int n;
for (n = 0; as[n].rep != NULL; n++) {
ne_inet_addr *ia = ne_iaddr_make(ne_iaddr_ipv6, as[n].addr);
char pr[128];
unsigned char raw[17];
ONV(ia == NULL, ("could not make address for '%s'",
as[n].rep));
ne_iaddr_print(ia, pr, sizeof pr);
ONV(strcmp(pr, as[n].rep),
("address %d was '%s' not '%s'", n, pr, as[n].rep));
ONN("bogus ne_iaddr_typeof return", ne_iaddr_typeof(ia) != ne_iaddr_ipv6);
raw[16] = 'Z';
ONN("ne_iaddr_raw gave bad retval", ne_iaddr_raw(ia, raw) != raw);
ONN("raw address mismatch", memcmp(raw, as[n].addr, 4) != 0);
ONN("ne_iaddr_raw buffer overflow", raw[16] != 'Z');
ne_iaddr_free(ia);
ia = ne_iaddr_parse(as[n].rep, ne_iaddr_ipv6);
ONV(ia == NULL, ("ne_iaddr_parse failed for %s", as[n].rep));
ONN("bogus ne_iaddr_typeof return", ne_iaddr_typeof(ia) != ne_iaddr_ipv6);
ONN("ne_iaddr_raw gave bad retval", ne_iaddr_raw(ia, raw) != raw);
ONN("raw address mismatch", memcmp(raw, as[n].addr, 4) != 0);
ONN("ne_iaddr_raw buffer overflow", raw[16] != 'Z');
ne_iaddr_free(ia);
}
return OK;
#else
/* should fail when lacking IPv6 support. */
ne_inet_addr *ia = ne_iaddr_make(ne_iaddr_ipv6, raw6_nuls);
ONN("ne_iaddr_make did not return NULL", ia != NULL);
ONN("ne_iaddr_parse did not return NULL", ne_iaddr_parse("127.0.0.1", ne_iaddr_ipv6));
#endif
return OK;
}
static const unsigned char raw_1234[] = "\x01\x02\x03\x04";
static int addr_compare(void)
{
ne_inet_addr *ia1, *ia2;
int ret;
ia1 = ne_iaddr_make(ne_iaddr_ipv4, raw_127);
ia2 = ne_iaddr_make(ne_iaddr_ipv4, raw_127);
ONN("addr_make returned NULL", !ia1 || !ia2);
ret = ne_iaddr_cmp(ia1, ia2);
ONV(ret != 0, ("comparison of equal IPv4 addresses was %d", ret));
ne_iaddr_free(ia2);
ia2 = ne_iaddr_make(ne_iaddr_ipv4, raw_1234);
ret = ne_iaddr_cmp(ia1, ia2);
ONN("comparison of unequal IPv4 addresses was zero", ret == 0);
#ifdef TEST_IPV6
ne_iaddr_free(ia2);
ia2 = ne_iaddr_make(ne_iaddr_ipv6, raw6_cafe);
ONN("could not make IPv6 address", !ia2);
ret = ne_iaddr_cmp(ia1, ia2);
ONN("comparison of IPv4 and IPv6 addresses was zero", ret == 0);
ne_iaddr_free(ia1);
ia1 = ne_iaddr_make(ne_iaddr_ipv6, raw6_cafe);
ret = ne_iaddr_cmp(ia1, ia2);
ONN("comparison of equal IPv6 addresses was not zero", ret != 0);
ne_iaddr_free(ia1);
ia1 = ne_iaddr_make(ne_iaddr_ipv6, raw6_babe);
ret = ne_iaddr_cmp(ia1, ia2);
ONN("comparison of unequal IPv6 address was zero", ret == 0);
#endif
ne_iaddr_free(ia1);
ne_iaddr_free(ia2);
return OK;
}
static int addr_reverse(void)
{
ne_inet_addr *ia = ne_iaddr_make(ne_iaddr_ipv4, raw_127);
char buf[128], *syshost = NULL;
int match;
#ifdef HAVE_GETHOSTNAME
char host[128];
if (gethostname(host, sizeof host) == 0) {
syshost = host;
}
#endif
ONN("ne_iaddr_make returned NULL", ia == NULL);
ONN("reverse lookup for 127.0.0.1 failed",
ne_iaddr_reverse(ia, buf, sizeof buf) != 0);
NE_DEBUG(NE_DBG_SOCKET, "Reverse lookup for 127.0.0.1 => %s\n", buf);
match = strcmp(buf, "localhost.localdomain") == 0
|| strcmp(buf, "localhost") == 0;
if (!match && syshost)
/* If the returned name has the system hostname as a prefix, that's
* good enough. */
match = strncmp(buf, syshost, strlen(syshost)) == 0;
if (!match)
t_warning("reverse lookup for 127.0.0.1 got '%s'", buf);
ONN("reverse lookup for 127.0.0.1 got empty string", strlen(buf) == 0);
ne_iaddr_free(ia);
return OK;
}
static int addr_canonical(void)
{
ne_sock_addr *sa;
const char *h;
sa = ne_addr_resolve("localhost", NE_ADDR_CANON);
ONN("could not resolve localhost", sa == NULL);
h = ne_addr_canonical(sa);
ONN("no canonical name for localhost", h == NULL);
NE_DEBUG(NE_DBG_SOCKET, "canonical name: %s\n", h);
ne_addr_destroy(sa);
return OK;
}
static int just_connect(void)
{
ne_socket *sock;
CALL(begin(&sock, serve_close, NULL));
ne_sock_close(sock);
return await_server();
}
/* Connect to an address crafted using ne_iaddr_make rather than from
* the resolver. */
static int addr_connect(void)
{
ne_socket *sock = ne_sock_create();
ne_inet_addr *ia;
unsigned int port;
ia = ne_iaddr_make(ne_iaddr_ipv4, raw_127);
ONN("ne_iaddr_make returned NULL", ia == NULL);
CALL(new_spawn_server(1, serve_close, NULL, &port));
ONN("could not connect", ne_sock_connect(sock, ia, port));
ne_sock_close(sock);
CALL(await_server());
ne_iaddr_free(ia);
return OK;
}
static int addr_peer(void)
{
ne_socket *sock = ne_sock_create();
ne_inet_addr *ia, *ia2;
unsigned int port = 9999, realport;
int ret;
ia = ne_iaddr_make(ne_iaddr_ipv4, raw_127);
ONN("ne_iaddr_make returned NULL", ia == NULL);
CALL(new_spawn_server(1, serve_close, NULL, &realport));
ONN("could not connect", ne_sock_connect(sock, ia, realport));
ia2 = ne_sock_peer(sock, &port);
ret = ne_iaddr_cmp(ia, ia2);
ONV(ret != 0,
("comparison of peer with server address was %d", ret));
ONV(port != realport, ("got peer port %u, expected %u", port, realport));
ne_sock_close(sock);
CALL(await_server());
ne_iaddr_free(ia);
ne_iaddr_free(ia2);
return OK;
}
/* Exect a read() to return EOF */
static int expect_close(ne_socket *sock)
{
ssize_t n = ne_sock_read(sock, buffer, 1);
ONV(n > 0, ("read got %" NE_FMT_SSIZE_T " bytes not closure", n));
ONV(n < 0 && n != NE_SOCK_CLOSED,
("read got error not closure: `%s'", ne_sock_error(sock)));
return OK;
}
static int good_close(ne_socket *sock)
{
NE_DEBUG(NE_DBG_SOCKET, "Socket error was %s\n", ne_sock_error(sock));
ONN("close failed", ne_sock_close(sock));
return OK;
}
/* Finish a test, closing socket and rejoining child. If eof is non-zero,
* expects to read EOF from the socket before closing. */
static int finish(ne_socket *sock, int eof)
{
if (eof)
CALL(expect_close(sock));
CALL(good_close(sock));
return await_server();
}
/* Exect a ne_sock_peek() to return EOF */
static int expect_peek_close(ne_socket *sock)
{
ssize_t n = ne_sock_read(sock, buffer, 1);
ONV(n != NE_SOCK_CLOSED, ("peek gave %" NE_FMT_SSIZE_T " not closure", n));
return OK;
}
/* Test that just does a connect then a close. */
static int read_close(void)
{
ne_socket *sock;
CALL(begin(&sock, serve_close, NULL));
CALL(expect_close(sock));
ONN("close failed", ne_sock_close(sock));
return await_server();
}
/* Test that just does a connect then a close (but gets the close via
* ne_sock_peek). */
static int peek_close(void)
{
ne_socket *sock;
CALL(begin(&sock, serve_close, NULL));
CALL(expect_peek_close(sock));
ONN("close failed", ne_sock_close(sock));
return await_server();
}
/* Don't change this string. */
#define STR "Hello, World."
/* do a sock_peek() on sock for 'len' bytes, and expect 'str'. */
static int peek_expect(ne_socket *sock, const char *str, size_t len)
{
ssize_t ret;
memset(buffer, '@', sizeof buffer);
ret = ne_sock_peek(sock, buffer, len);
ONV((ssize_t)len != ret,
("peek got %" NE_FMT_SSIZE_T " bytes not %" NE_FMT_SIZE_T, ret, len));
ONV(memcmp(str, buffer, len),
("peek mismatch: `%.*s' not `%.*s'",
(int)len, buffer, (int)len, str));
ONV(buffer[len] != '@',
("buffer overrun: %" NE_FMT_SSIZE_T "nth byte was '%c' not '@'",
len, buffer[len]));
return OK;
}
/* do a sock_read() on sock for 'len' bytes, and expect 'str'. */
static int read_expect(ne_socket *sock, const char *str, size_t len)
{
ssize_t ret = ne_sock_read(sock, buffer, len);
ONV((ssize_t)len != ret,
("read got %" NE_FMT_SSIZE_T " bytes not %" NE_FMT_SIZE_T, ret, len));
ONV(memcmp(str, buffer, len),
("read mismatch: `%.*s' not `%.*s'",
(int)len, buffer, (int)len, str));
return OK;
}
/* do a sock_read() on sock for 'len' bytes, and expect 'str'. */
static int fullread_expect(ne_socket *sock, const char *str, size_t len)
{
ssize_t ret = ne_sock_fullread(sock, buffer, len);
ONV(ret, ("fullread failed (%" NE_FMT_SSIZE_T "): %s",
ret, ne_sock_error(sock)));
ONV(memcmp(str, buffer, len),
("fullread mismatch: `%.*s' not `%.*s'",
(int)len, buffer, (int)len, str));
return OK;
}
#define FULLREAD(str) CALL(fullread_expect(sock, str, strlen(str)))
/* Declare a struct string */
#define DECL(var,str) struct string var = { str, 0 }; var.len = strlen(str)
#define DECL_LONG(var,ch,n) struct string var; var.data = memset(ne_malloc(n), ch, n); var.len = n;
/* Test a simple read. */
static int single_read(void)
{
ne_socket *sock;
DECL(hello, STR);
CALL(begin(&sock, serve_sstring, &hello));
CALL(read_expect(sock, STR, strlen(STR)));
CALL(expect_close(sock));
CALL(good_close(sock));
return await_server();
}
/* Test a simple peek. */
static int single_peek(void)
{
ne_socket *sock;
DECL(hello, STR);
CALL(begin(&sock, serve_sstring, &hello));
CALL(peek_expect(sock, STR, strlen(STR)));
return finish(sock, 0);
}
/* Test lots of 1-byte reads. */
static int small_reads(void)
{
ne_socket *sock;
char *pnt;
DECL(hello, STR);
CALL(begin(&sock, serve_sstring, &hello));
/* read the string byte-by-byte. */
for (pnt = hello.data; *pnt; pnt++) {
CALL(read_expect(sock, pnt, 1));
}
return finish(sock, 1);
}
/* peek or read, expecting to get given string. */
#define READ(str) CALL(read_expect(sock, str, strlen(str)))
#define PEEK(str) CALL(peek_expect(sock, str, strlen(str)))
/* Stress out the read buffer handling a little. */
static int read_and_peek(void)
{
ne_socket *sock;
DECL(hello, STR);
CALL(begin(&sock, serve_sstring, &hello));
PEEK("Hello");
PEEK("Hell");
PEEK(STR);
READ("He");
PEEK("llo, ");
READ("l");
PEEK("lo, World.");
READ("lo, Worl");
PEEK("d."); PEEK("d");
READ("d.");
return finish(sock, 1);
}
/* Read more bytes than were written. */
static int larger_read(void)
{
ne_socket *sock;
ssize_t nb;
DECL(hello, STR);
CALL(begin(&sock, serve_sstring, &hello));
nb = ne_sock_read(sock, buffer, hello.len + 10);
ONV(nb != (ssize_t)hello.len,
("read gave too many bytes (%" NE_FMT_SSIZE_T ")", nb));
ONN("read gave wrong data", memcmp(buffer, hello.data, hello.len));
return finish(sock, 1);
}
static int line_expect(ne_socket *sock, const char *line)
{
ssize_t ret = ne_sock_readline(sock, buffer, BUFSIZ);
size_t len = strlen(line);
NE_DEBUG(NE_DBG_SOCKET, " -> expected=%s -> actual=%s", line, buffer);
ONV(ret == NE_SOCK_CLOSED, ("socket closed, expecting `%s'", line));
ONV(ret < 0, ("socket error `%s', expecting `%s'",
ne_sock_error(sock), line));
ONV((size_t)ret != len || strcmp(line, buffer),
("readline mismatch: `%s' not `%s'", buffer, line));
return OK;
}
#define LINE(x) CALL(line_expect(sock, x))
#define STR2 "Goodbye, cruel world."
static int line_simple(void)
{
ne_socket *sock;
DECL(oneline, STR "\n" STR2 "\n");
CALL(begin(&sock, serve_sstring, &oneline));
LINE(STR "\n");
LINE(STR2 "\n");
return finish(sock, 1);
}
static int line_closure(void)
{
ne_socket *sock;
ssize_t ret;
DECL(oneline, STR "\n" "foobar");
CALL(begin(&sock, serve_sstring, &oneline));
LINE(STR "\n");
ret = ne_sock_readline(sock, buffer, BUFSIZ);
ONV(ret != NE_SOCK_CLOSED,
("readline got %" NE_FMT_SSIZE_T " not EOF: %s", ret,
ne_sock_error(sock)));
return finish(sock, 0);
}
/* check that empty lines are handled correctly. */
static int line_empty(void)
{
ne_socket *sock;
DECL(oneline, "\n\na\n\n");
CALL(begin(&sock, serve_sstring, &oneline));
LINE("\n"); LINE("\n");
LINE("a\n"); LINE("\n");
return finish(sock, 1);
}
static int line_toolong(void)
{
ne_socket *sock;
ssize_t ret;
DECL(oneline, "AAAAAA\n");
CALL(begin(&sock, serve_sstring, &oneline));
ret = ne_sock_readline(sock, buffer, 5);
ONV(ret != NE_SOCK_ERROR,
("readline should fail on long line: %" NE_FMT_SSIZE_T, ret));
reap_server();
ne_sock_close(sock);
return OK;
}
#define OVERLEN (9000)
static int line_overflow(void)
{
ne_socket *sock;
ssize_t ret;
DECL_LONG(line, 'A', OVERLEN);
CALL(begin(&sock, serve_sstring, &line));
PEEK("A"); /* fill the read buffer */
ret = ne_sock_readline(sock, buffer, OVERLEN);
ONV(ret != NE_SOCK_ERROR,
("readline should fail on overlong line: %" NE_FMT_SSIZE_T, ret));
ne_free(line.data);
return finish(sock, 0);
}
/* readline()s mingled with other operations: buffering tests. */
static int line_mingle(void)
{
ne_socket *sock;
DECL(oneline, "alpha\nbeta\ndelta\ngamma\n");
CALL(begin(&sock, serve_sstring, &oneline));
READ("a"); LINE("lpha\n");
READ("beta"); LINE("\n");
PEEK("d"); PEEK("delt");
LINE("delta\n");
READ("gam"); LINE("ma\n");
return finish(sock, 1);
}
/* readline which needs multiple read() calls. */
static int line_chunked(void)
{
ne_socket *sock;
DECL(oneline, "this is a line\n");
CALL(begin(&sock, serve_sstring_slowly, &oneline));
LINE("this is a line\n");
return finish(sock, 1);
}
static int line_long_chunked(void)
{
ne_socket *sock;
ssize_t ret;
DECL_LONG(line, 'Z', OVERLEN);
CALL(begin(&sock, serve_sstring_slowly, &line));
FULLREAD("ZZZZZZZZ"); /* fill the buffer */
ret = ne_sock_readline(sock, buffer, sizeof buffer);
ONV(ret != NE_SOCK_ERROR,
("readline gave %" NE_FMT_SSIZE_T " not failure", ret));
reap_server();
ne_sock_close(sock);
ne_free(line.data);
return OK;
}
static time_t to_start, to_finish;
static int to_begin(ne_socket **sock)
{
CALL(begin(sock, sleepy_server, NULL));
ne_sock_read_timeout(*sock, 1);
to_start = time(NULL);
return OK;
}
static int to_end(ne_socket *sock)
{
to_finish = time(NULL);
reap_server(); /* hopefully it's hung. */
ONN("timeout ignored, or very slow machine", to_finish - to_start > 3);
ONN("close failed", ne_sock_close(sock));
return OK;
}
#define TO_BEGIN ne_socket *sock; CALL(to_begin(&sock))
#define TO_OP(x) do { int to_ret = (x); \
ONV(to_ret != NE_SOCK_TIMEOUT, ("operation did not timeout: got %d (%s)", to_ret, ne_sock_error(sock))); \
} while (0)
#define TO_FINISH return to_end(sock)
#ifndef TEST_CONNECT_TIMEOUT
#define TEST_CONNECT_TIMEOUT 0
#endif
#if TEST_CONNECT_TIMEOUT
/* No obvious way to reliably test a connect() timeout. But
* www.example.com seems to drop packets on ports other than 80 so
* that actually works pretty well. Disabled by default. */
static int connect_timeout(void)
{
static const unsigned char example_dot_com[] = "\xC0\x00\x22\xA6";
ne_socket *sock = ne_sock_create();
ne_inet_addr *ia = ne_iaddr_make(ne_iaddr_ipv4, example_dot_com);
ne_sock_connect_timeout(sock, 1);
TO_OP(ne_sock_connect(sock, ia, 8080));
ne_iaddr_free(ia);
ne_sock_close(sock);
return OK;
}
#endif
static int peek_timeout(void)
{
TO_BEGIN;
TO_OP(ne_sock_peek(sock, buffer, 1));
TO_FINISH;
}
static int read_timeout(void)
{
TO_BEGIN;
TO_OP(ne_sock_read(sock, buffer, 1));
TO_FINISH;
}
static int readline_timeout(void)
{
TO_BEGIN;
TO_OP(ne_sock_readline(sock, buffer, 1));
TO_FINISH;
}
static int fullread_timeout(void)
{
TO_BEGIN;
TO_OP(ne_sock_fullread(sock, buffer, 1));
TO_FINISH;
}
static int serve_expect(ne_socket *sock, void *ud)
{
struct string *str = ud;
ssize_t ret;
while (str->len &&
(ret = ne_sock_read(sock, buffer, sizeof(buffer))) > 0) {
NE_DEBUG(NE_DBG_SOCKET, "Got %" NE_FMT_SSIZE_T " bytes.\n", ret);
ONV(memcmp(str->data, buffer, ret),
("unexpected data: [%.*s] not [%.*s]",
(int)ret, buffer, (int)ret, str->data));
str->data += ret;
str->len -= ret;
NE_DEBUG(NE_DBG_SOCKET, "%" NE_FMT_SIZE_T " bytes left.\n", str->len);
}
NE_DEBUG(NE_DBG_SOCKET, "All data read.\n");
return OK;
}
#define WRITEL(str) CALL(full_write(sock, str, strlen(str))); \
minisleep()
static int small_writes(void)
{
ne_socket *sock;
DECL(str, "This\nIs\nSome\nText.\n");
CALL(begin(&sock, serve_expect, &str));
WRITEL("This\n"); WRITEL("Is\n"); WRITEL("Some\n"); WRITEL("Text.\n");
return finish(sock, 1);
}
static int large_writes(void)
{
#define LARGE_SIZE (123456)
struct string str;
ne_socket *sock;
ssize_t n;
str.data = ne_malloc(LARGE_SIZE);
str.len = LARGE_SIZE;
for (n = 0; n < LARGE_SIZE; n++)
str.data[n] = 41 + n % 130;
CALL(begin(&sock, serve_expect, &str));
CALL(full_write(sock, str.data, str.len));
ne_free(str.data);
return finish(sock, 1);
}
static int full_writev(ne_socket *sock, struct ne_iovec *vec, int count)
{
int ret = ne_sock_fullwritev(sock, vec, count);
NE_DEBUG(NE_DBG_SOCKET, "wrote vector (%d)\n", count);
ONV(ret, ("writev failed (%d): %s", ret, ne_sock_error(sock)));
return OK;
}
#undef LARGE_SIZE
#define LARGE_SIZE (123456 * 4)
static int large_writev(void)
{
struct string str;
ne_socket *sock;
ssize_t n;
struct ne_iovec vec[4];
str.data = ne_malloc(LARGE_SIZE);
str.len = LARGE_SIZE;
for (n = 0; n < LARGE_SIZE; n++)
str.data[n] = 41 + n % 130;
for (n = 0; n < 4; n++) {
vec[n].base = str.data + n * LARGE_SIZE / 4;
vec[n].len = LARGE_SIZE / 4;
}
CALL(begin(&sock, serve_expect, &str));
CALL(full_writev(sock, vec, 4));
ne_free(str.data);
return finish(sock, 1);
}
/* echoes back lines. */
static int echo_server(ne_socket *sock, void *ud)
{
ssize_t ret;
while ((ret = ne_sock_readline(sock, buffer, sizeof(buffer))) > 0) {
NE_DEBUG(NE_DBG_SOCKET, "Line: %s", buffer);
ONN("write failed", ne_sock_fullwrite(sock, buffer, ret));
NE_DEBUG(NE_DBG_SOCKET, "Wrote line.\n");
}
ONN("readline failed", ret != NE_SOCK_CLOSED);
return 0;
}
static int echo_expect(ne_socket *sock, const char *line)
{
CALL(full_write(sock, line, strlen(line)));
return line_expect(sock, line);
}
#define ECHO(line) CALL(echo_expect(sock, line))
static int echo_lines(void)
{
ne_socket *sock;
CALL(begin(&sock, echo_server, NULL));
ECHO("hello,\n");
ECHO("\n");
ECHO("world\n");
return finish(sock, 0);
}
#ifdef SOCKET_SSL
/* harder to simulate closure cases for an SSL connection, since it
* may be doing multiple read()s or write()s per ne_sock_* call. */
static int ssl_closure(void)
{
ne_socket *sock;
ssize_t ret;
CALL(begin(&sock, serve_close, NULL));
CALL(full_write(sock, "a", 1));
CALL(await_server());
do {
ret = ne_sock_fullwrite(sock, "a", 1);
} while (ret == 0);
ONV(ret != NE_SOCK_RESET && ret != NE_SOCK_CLOSED,
("write got %" NE_FMT_SSIZE_T " not reset or closure: %s", ret,
ne_sock_error(sock)));
ne_sock_close(sock);
return OK;
}
static int serve_truncate(ne_socket *sock, void *userdata)
{
exit(0);
}
/* when an EOF is received without a clean shutdown (close_notify
message). */
static int ssl_truncate(void)
{
ne_socket *sock; int ret;
CALL(begin(&sock, serve_truncate, NULL));
ret = ne_sock_read(sock, buffer, 1);
ONV(ret != NE_SOCK_TRUNC,
("socket got error %d not truncation: `%s'", ret,
ne_sock_error(sock)));
ne_sock_close(sock);
CALL(await_server());
return OK;
}
#else
/* use W Richard Stevens' SO_LINGER trick to elicit a TCP RST */
static int serve_reset(ne_socket *sock, void *ud)
{
minisleep();
reset_socket(sock);
exit(0);
return 0;
}
static int write_reset(void)
{
ne_socket *sock;
int ret;
CALL(begin(&sock, serve_reset, NULL));
CALL(full_write(sock, "a", 1));
CALL(await_server());
ret = ne_sock_fullwrite(sock, "a", 1);
if (ret == 0) {
ne_sock_close(sock);
return SKIP;
}
if (ret == NE_SOCK_CLOSED) {
t_warning("got EOF, failed to elicit TCP RST");
} else {
ONV(ret != NE_SOCK_RESET,
("write got %d not reset: %s", ret, ne_sock_error(sock)));
}
return good_close(sock);
}
static int read_reset(void)
{
ne_socket *sock;
ssize_t ret;
CALL(begin(&sock, serve_reset, NULL));
CALL(full_write(sock, "a", 1));
CALL(await_server());
ret = ne_sock_read(sock, buffer, 1);
if (ret == NE_SOCK_CLOSED) {
ne_sock_close(sock);
return SKIP;
}
ONV(ret != NE_SOCK_RESET,
("read got %" NE_FMT_SSIZE_T " not reset: %s", ret,
ne_sock_error(sock)));
return good_close(sock);
}
#endif
static int expect_block_timeout(ne_socket *sock, int timeout, const char *msg)
{
int ret;
NE_DEBUG(NE_DBG_SOCKET, "blocking for %d\n", timeout);
ret = ne_sock_block(sock, timeout);
ONV(ret != NE_SOCK_TIMEOUT, (
"ne_sock_block got %d not timeout: %s", ret, msg));
return OK;
}
static int blocking(void)
{
ne_socket *sock;
int ret;
CALL(begin(&sock, echo_server, NULL));
CALL(expect_block_timeout(sock, 1, "with non-zero timeout"));
WRITEL("Hello, world.\n");
/* poll for data */
do {
ret = ne_sock_block(sock, 1);
} while (ret == NE_SOCK_TIMEOUT);
ONV(ret != 0, ("ne_sock_block never got data: %d", ret));
PEEK("Hello,");
ret = ne_sock_block(sock, 1);
ONV(ret != 0, ("ne_sock_block failed after peek: %d", ret));
LINE("Hello, world.\n");
return finish(sock, 0);
}
static int block_timeout(void)
{
TO_BEGIN;
TO_OP(ne_sock_block(sock, 1));
TO_FINISH;
}
static int ssl_session_id(void)
{
ne_socket *sock;
unsigned char buf[128];
size_t len1;
CALL(begin(&sock, serve_close, NULL));
#ifdef SOCKET_SSL
len1 = 0;
ONN("retrieve session id length",
ne_sock_sessid(sock, NULL, &len1));
if (len1 == 0) {
/* recent versions of OpenSSL seem to do this, not sure
* why or whether it's bad. */
finish(sock, 1);
t_context("zero-length session ID, cannot test further");
return SKIP;
}
if (len1 < sizeof buf) {
buf[len1] = 'Z';
}
{
size_t len2;
len2 = sizeof buf;
ONN("could not retrieve session id",
ne_sock_sessid(sock, buf, &len2));
ONN("buffer size changed!?", len1 != len2);
}
ONN("buffer written past expected end",
len1 < sizeof buf && buf[len1] != 'Z');
/* Attempt retrieval into too-short buffer: */
len1 = 0;
ONN("success for buffer overflow case",
ne_sock_sessid(sock, buf, &len1) == 0);
#else
len1 = sizeof buf;
ONN("retrieved session id for non-SSL socket!?",
ne_sock_sessid(sock, buf, &len1) == 0);
#endif
ne_sock_close(sock);
return await_server();
}
static int serve_ppeer(ne_socket *sock, void *ud)
{
unsigned int port = 99999;
ne_inet_addr *ia = ne_sock_peer(sock, &port);
char buf[128], line[256];
if (ia == NULL)
ne_snprintf(line, sizeof line, "error: %s", ne_sock_error(sock));
else
ne_snprintf(line, sizeof line,
"%s@%u\n", ne_iaddr_print(ia, buf, sizeof buf),
port);
CALL(full_write(sock, line, strlen(line)));
ne_iaddr_free(ia);
return OK;
}
static int try_prebind(int addr, int port)
{
ne_socket *sock = ne_sock_create();
ne_inet_addr *ia;
char buf[128], line[256];
unsigned int srvport;
ia = ne_iaddr_make(ne_iaddr_ipv4, raw_127);
ONN("ne_iaddr_make returned NULL", ia == NULL);
CALL(new_spawn_server(1, serve_ppeer, NULL, &srvport));
ne_sock_prebind(sock, addr ? ia : NULL, port ? 7778 : 0);
ONN("could not connect", ne_sock_connect(sock, ia, srvport));
ne_snprintf(line, sizeof line,
"%s@%d\n", ne_iaddr_print(ia, buf, sizeof buf),
7778);
if (!port) {
/* Don't know what port will be chosen, so... */
ssize_t ret = ne_sock_readline(sock, buffer, BUFSIZ);
ONV(ret < 0, ("socket error `%s'", ne_sock_error(sock)));
ONV(strncmp(line, buffer, strchr(line, '@') - line) != 0,
("bad address: '%s', expecting '%s'",
buffer, line));
}
else {
LINE(line);
}
ne_sock_close(sock);
CALL(await_server());
ne_iaddr_free(ia);
return OK;
}
static int prebind(void)
{
CALL(try_prebind(1, 0));
CALL(try_prebind(0, 1));
CALL(try_prebind(1, 1));
return OK;
}
static int serve_cipher(ne_socket *sock, void *ud)
{
char *ciph = ne_sock_cipher(sock);
char *s = ciph && strlen(ciph) ? ciph : "NULL";
CALL(full_write(sock, s, strlen(s)));
if (ciph) ne_free(ciph);
return OK;
}
static int cipher(void)
{
ne_socket *sock;
#ifdef SOCKET_SSL
char *ciph;
CALL(begin(&sock, serve_cipher, NULL));
ciph = ne_sock_cipher(sock);
ONN("NULL/empty cipher", ciph == NULL || strlen(ciph) == 0);
FULLREAD(ciph);
ne_free(ciph);
#else
CALL(begin(&sock, serve_cipher, NULL));
ONN("non-NULL cipher for non-SSL socket",
ne_sock_cipher(sock) != NULL);
FULLREAD("NULL");
#endif
return finish(sock, 1);
}
static int error(void)
{
ne_socket *sock = ne_sock_create();
ne_sock_set_error(sock, "%s:%s", "fish", "42");
ONCMP("fish:42", ne_sock_error(sock), "socket error", "set");
ne_sock_close(sock);
return OK;
}
static int begin_socks(ne_socket **sock, struct socks_server *srv,
server_fn server, void *userdata)
{
unsigned int port;
srv->server = server;
srv->userdata = userdata;
srv->say_hello = 1;
CALL(new_spawn_server(1, socks_server, srv, &port));
return do_connect(sock, localhost, port);
}
static int socks_proxy(void)
{
static const struct {
enum ne_sock_sversion version;
int addr;
const char *fqdn;
unsigned int port;
const char *username, *password;
} ts[] = {
{ NE_SOCK_SOCKSV4, 4, NULL, 55555, NULL, NULL },
{ NE_SOCK_SOCKSV4, 4, NULL, 55555, "foobar", NULL },
{ NE_SOCK_SOCKSV4A, 0, "www.example.com", 55555, NULL, NULL },
{ NE_SOCK_SOCKSV5, 0, "www.example.com", 55555, NULL, NULL },
{ NE_SOCK_SOCKSV5, 4, NULL, 55555, NULL, NULL },
#ifdef TEST_IPV6
{ NE_SOCK_SOCKSV5, 6, NULL, 55555, NULL, NULL },
#endif
{ NE_SOCK_SOCKSV5, 0, "www.example.com", 55555, "norman", "foobar" }
};
unsigned n;
for (n = 0; n < sizeof(ts)/sizeof(ts[n]); n++) {
ne_socket *sock;
struct socks_server arg = {0};
int ret;
arg.version = ts[n].version;
arg.expect_port = ts[n].port;
if (ts[n].addr == 4)
arg.expect_addr = ne_iaddr_make(ne_iaddr_ipv4, raw_127);
#ifdef TEST_IPV6
else if (ts[n].addr == 6)
arg.expect_addr = ne_iaddr_make(ne_iaddr_ipv4, raw6_cafe);
#endif
else
arg.expect_fqdn = ts[n].fqdn;
arg.username = ts[n].username;
arg.password = ts[n].password;
CALL(begin_socks(&sock, &arg, echo_server, NULL));
ret = ne_sock_proxy(sock, ts[n].version, arg.expect_addr,
ts[n].fqdn, ts[n].port,
ts[n].username, ts[n].password);
ONV(ret, ("proxy connect #%u gave %d", n, ret));
FULLREAD("ok!\n");
ECHO("hello,\n");
ECHO("\n");
ECHO("world\n");
if (ts[n].addr)
ne_iaddr_free(arg.expect_addr);
CALL(finish(sock, 0));
}
return OK;
}
static int fail_socks(void)
{
static const struct {
enum ne_sock_sversion version;
enum socks_failure failure;
const char *expect;
const char *username, *password;
} ts[] = {
{ NE_SOCK_SOCKSV5, fail_init_vers,
"Invalid version in proxy response", NULL, NULL },
{ NE_SOCK_SOCKSV5, fail_init_trunc,
"Could not read initial response from proxy: Connection closed",
NULL, NULL },
{ NE_SOCK_SOCKSV5, fail_init_close,
"Could not read initial response from proxy: Connection closed",
NULL, NULL },
{ NE_SOCK_SOCKSV5, fail_no_auth,
"No acceptable authentication method",
NULL, NULL },
{ NE_SOCK_SOCKSV5, fail_bogus_auth,
"Unexpected authentication method chosen",
NULL, NULL },
{ NE_SOCK_SOCKSV5, fail_auth_close,
"Could not read login reply: Connection closed",
"foo", "bar" },
{ NE_SOCK_SOCKSV5, fail_auth_denied,
"Authentication failed", "foo", "bar" }
};
unsigned n;
for (n = 0; n < sizeof(ts)/sizeof(ts[n]); n++) {
ne_socket *sock;
struct socks_server arg = {0};
int ret;
arg.version = ts[n].version;
arg.failure = ts[n].failure;
arg.expect_port = 5555;
arg.expect_addr = ne_iaddr_make(ne_iaddr_ipv4, raw_127);
arg.username = ts[n].username;
arg.password = ts[n].password;
CALL(begin_socks(&sock, &arg, echo_server, NULL));
ret = ne_sock_proxy(sock, ts[n].version, arg.expect_addr,
NULL, arg.expect_port,
ts[n].username, ts[n].password);
ONV(ret == 0,
("proxy connect #%u succeeded, expected failure '%s'", n,
ts[n].expect));
if (ret != 0 && strstr(ne_sock_error(sock), ts[n].expect) == NULL) {
t_warning("proxy connect #%u got unexpected failure '%s', wanted '%s'",
n, ne_sock_error(sock), ts[n].expect);
}
ne_iaddr_free(arg.expect_addr);
CALL(finish(sock, 0));
}
return OK;
}
ne_test tests[] = {
T(multi_init),
T_LEAKY(resolve),
T(resolve_numeric),
#ifdef SOCKET_SSL
T_LEAKY(init_ssl),
#endif
T(addr_make_v4),
T(parse_v4),
T(addr_make_v6),
T(addr_compare),
T(addr_reverse),
T(just_connect),
T(addr_connect),
T(addr_peer),
T(addr_canonical),
T(read_close),
T(peek_close),
T(single_read),
T(single_peek),
T(small_reads),
T(read_and_peek),
T(larger_read),
T(ssl_session_id),
T(cipher),
T(line_simple),
T(line_closure),
T(line_empty),
T(line_toolong),
T(line_overflow),
T(line_mingle),
T(line_chunked),
T(line_long_chunked),
T(small_writes),
T(large_writes),
T(large_writev),
T(echo_lines),
T(blocking),
T(prebind),
T(error),
#ifdef SOCKET_SSL
T(ssl_closure),
T(ssl_truncate),
#else
T(write_reset),
T(read_reset),
#endif
#if TEST_CONNECT_TIMEOUT
T(connect_timeout),
#endif
T(read_timeout),
T(peek_timeout),
T(readline_timeout),
T(fullread_timeout),
T(block_timeout),
T(socks_proxy),
T(fail_socks),
T(NULL)
};
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