tor/src/or/test.c

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/* Copyright (c) 2001-2004, Roger Dingledine.
* Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
* Copyright (c) 2007-2008, The Tor Project, Inc. */
/* See LICENSE for licensing information */
/* $Id$ */
const char test_c_id[] =
"$Id$";
const char tor_svn_revision[] = "";
/**
* \file test.c
* \brief Unit tests for many pieces of the lower level Tor modules.
**/
#include "orconfig.h"
#include <stdio.h>
#ifdef HAVE_FCNTL_H
#include <fcntl.h>
#endif
#ifdef MS_WINDOWS
/* For mkdir() */
#include <direct.h>
#else
#include <dirent.h>
#endif
/* These macros pull in declarations for some functions and structures that
* are typically file-private. */
#define BUFFERS_PRIVATE
#define CONFIG_PRIVATE
#define CONTROL_PRIVATE
#define CRYPTO_PRIVATE
#define DIRSERV_PRIVATE
#define DIRVOTE_PRIVATE
#define GEOIP_PRIVATE
#define MEMPOOL_PRIVATE
#define ROUTER_PRIVATE
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#include "or.h"
#include "test.h"
#include "torgzip.h"
#include "mempool.h"
#include "memarea.h"
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int have_failed = 0;
static char temp_dir[256];
static void
setup_directory(void)
{
static int is_setup = 0;
int r;
if (is_setup) return;
#ifdef MS_WINDOWS
// XXXX
tor_snprintf(temp_dir, sizeof(temp_dir),
"c:\\windows\\temp\\tor_test_%d", (int)getpid());
r = mkdir(temp_dir);
#else
tor_snprintf(temp_dir, sizeof(temp_dir), "/tmp/tor_test_%d", (int) getpid());
r = mkdir(temp_dir, 0700);
#endif
if (r) {
fprintf(stderr, "Can't create directory %s:", temp_dir);
perror("");
exit(1);
}
is_setup = 1;
}
static const char *
get_fname(const char *name)
{
static char buf[1024];
setup_directory();
tor_snprintf(buf,sizeof(buf),"%s/%s",temp_dir,name);
return buf;
}
static void
remove_directory(void)
{
smartlist_t *elements = tor_listdir(temp_dir);
if (elements) {
SMARTLIST_FOREACH(elements, const char *, cp,
{
size_t len = strlen(cp)+strlen(temp_dir)+16;
char *tmp = tor_malloc(len);
tor_snprintf(tmp, len, "%s"PATH_SEPARATOR"%s", temp_dir, cp);
unlink(tmp);
tor_free(tmp);
});
SMARTLIST_FOREACH(elements, char *, cp, tor_free(cp));
smartlist_free(elements);
}
rmdir(temp_dir);
}
static crypto_pk_env_t *
pk_generate(int idx)
{
static crypto_pk_env_t *pregen[5] = {NULL, NULL, NULL, NULL, NULL};
tor_assert(idx < (int)(sizeof(pregen)/sizeof(pregen[0])));
if (! pregen[idx]) {
pregen[idx] = crypto_new_pk_env();
tor_assert(!crypto_pk_generate_key(pregen[idx]));
}
return crypto_pk_dup_key(pregen[idx]);
}
static void
test_buffers(void)
{
char str[256];
char str2[256];
buf_t *buf, *buf2;
const char *cp;
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int j;
size_t r;
/****
* buf_new
****/
if (!(buf = buf_new()))
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test_fail();
//test_eq(buf_capacity(buf), 4096);
test_eq(buf_datalen(buf), 0);
/****
* General pointer frobbing
*/
for (j=0;j<256;++j) {
str[j] = (char)j;
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}
write_to_buf(str, 256, buf);
write_to_buf(str, 256, buf);
test_eq(buf_datalen(buf), 512);
fetch_from_buf(str2, 200, buf);
test_memeq(str, str2, 200);
test_eq(buf_datalen(buf), 312);
memset(str2, 0, sizeof(str2));
fetch_from_buf(str2, 256, buf);
test_memeq(str+200, str2, 56);
test_memeq(str, str2+56, 200);
test_eq(buf_datalen(buf), 56);
memset(str2, 0, sizeof(str2));
/* Okay, now we should be 512 bytes into the 4096-byte buffer. If we add
* another 3584 bytes, we hit the end. */
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for (j=0;j<15;++j) {
write_to_buf(str, 256, buf);
}
assert_buf_ok(buf);
test_eq(buf_datalen(buf), 3896);
fetch_from_buf(str2, 56, buf);
test_eq(buf_datalen(buf), 3840);
test_memeq(str+200, str2, 56);
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for (j=0;j<15;++j) {
memset(str2, 0, sizeof(str2));
fetch_from_buf(str2, 256, buf);
test_memeq(str, str2, 256);
}
test_eq(buf_datalen(buf), 0);
buf_free(buf);
/* Okay, now make sure growing can work. */
buf = buf_new_with_capacity(16);
//test_eq(buf_capacity(buf), 16);
write_to_buf(str+1, 255, buf);
//test_eq(buf_capacity(buf), 256);
fetch_from_buf(str2, 254, buf);
test_memeq(str+1, str2, 254);
//test_eq(buf_capacity(buf), 256);
assert_buf_ok(buf);
write_to_buf(str, 32, buf);
//test_eq(buf_capacity(buf), 256);
assert_buf_ok(buf);
write_to_buf(str, 256, buf);
assert_buf_ok(buf);
//test_eq(buf_capacity(buf), 512);
test_eq(buf_datalen(buf), 33+256);
fetch_from_buf(str2, 33, buf);
test_eq(*str2, str[255]);
test_memeq(str2+1, str, 32);
//test_eq(buf_capacity(buf), 512);
test_eq(buf_datalen(buf), 256);
fetch_from_buf(str2, 256, buf);
test_memeq(str, str2, 256);
/* now try shrinking: case 1. */
buf_free(buf);
buf = buf_new_with_capacity(33668);
for (j=0;j<67;++j) {
write_to_buf(str,255, buf);
}
//test_eq(buf_capacity(buf), 33668);
test_eq(buf_datalen(buf), 17085);
for (j=0; j < 40; ++j) {
fetch_from_buf(str2, 255,buf);
test_memeq(str2, str, 255);
}
/* now try shrinking: case 2. */
buf_free(buf);
buf = buf_new_with_capacity(33668);
for (j=0;j<67;++j) {
write_to_buf(str,255, buf);
}
for (j=0; j < 20; ++j) {
fetch_from_buf(str2, 255,buf);
test_memeq(str2, str, 255);
}
for (j=0;j<80;++j) {
write_to_buf(str,255, buf);
}
//test_eq(buf_capacity(buf),33668);
for (j=0; j < 120; ++j) {
fetch_from_buf(str2, 255,buf);
test_memeq(str2, str, 255);
}
/* Move from buf to buf. */
buf_free(buf);
buf = buf_new_with_capacity(4096);
buf2 = buf_new_with_capacity(4096);
for (j=0;j<100;++j)
write_to_buf(str, 255, buf);
test_eq(buf_datalen(buf), 25500);
for (j=0;j<100;++j) {
r = 10;
move_buf_to_buf(buf2, buf, &r);
test_eq(r, 0);
}
test_eq(buf_datalen(buf), 24500);
test_eq(buf_datalen(buf2), 1000);
for (j=0;j<3;++j) {
fetch_from_buf(str2, 255, buf2);
test_memeq(str2, str, 255);
}
r = 8192; /*big move*/
move_buf_to_buf(buf2, buf, &r);
test_eq(r, 0);
r = 30000; /* incomplete move */
move_buf_to_buf(buf2, buf, &r);
test_eq(r, 13692);
for (j=0;j<97;++j) {
fetch_from_buf(str2, 255, buf2);
test_memeq(str2, str, 255);
}
buf_free(buf);
buf_free(buf2);
buf = buf_new_with_capacity(5);
cp = "Testing. This is a moderately long Testing string.";
for (j = 0; cp[j]; j++)
write_to_buf(cp+j, 1, buf);
test_eq(0, buf_find_string_offset(buf, "Testing", 7));
test_eq(1, buf_find_string_offset(buf, "esting", 6));
test_eq(1, buf_find_string_offset(buf, "est", 3));
test_eq(39, buf_find_string_offset(buf, "ing str", 7));
test_eq(35, buf_find_string_offset(buf, "Testing str", 11));
test_eq(32, buf_find_string_offset(buf, "ng ", 3));
test_eq(43, buf_find_string_offset(buf, "string.", 7));
test_eq(-1, buf_find_string_offset(buf, "shrdlu", 6));
test_eq(-1, buf_find_string_offset(buf, "Testing thing", 13));
test_eq(-1, buf_find_string_offset(buf, "ngx", 3));
buf_free(buf);
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#if 0
{
int s;
int eof;
int i;
buf_t *buf2;
/****
* read_to_buf
****/
s = open(get_fname("data"), O_WRONLY|O_CREAT|O_TRUNC, 0600);
write(s, str, 256);
close(s);
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s = open(get_fname("data"), O_RDONLY, 0);
eof = 0;
errno = 0; /* XXXX */
i = read_to_buf(s, 10, buf, &eof);
printf("%s\n", strerror(errno));
test_eq(i, 10);
test_eq(eof, 0);
//test_eq(buf_capacity(buf), 4096);
test_eq(buf_datalen(buf), 10);
test_memeq(str, (char*)_buf_peek_raw_buffer(buf), 10);
/* Test reading 0 bytes. */
i = read_to_buf(s, 0, buf, &eof);
//test_eq(buf_capacity(buf), 512*1024);
test_eq(buf_datalen(buf), 10);
test_eq(eof, 0);
test_eq(i, 0);
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/* Now test when buffer is filled exactly. */
buf2 = buf_new_with_capacity(6);
i = read_to_buf(s, 6, buf2, &eof);
//test_eq(buf_capacity(buf2), 6);
test_eq(buf_datalen(buf2), 6);
test_eq(eof, 0);
test_eq(i, 6);
test_memeq(str+10, (char*)_buf_peek_raw_buffer(buf2), 6);
buf_free(buf2);
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/* Now test when buffer is filled with more data to read. */
buf2 = buf_new_with_capacity(32);
i = read_to_buf(s, 128, buf2, &eof);
//test_eq(buf_capacity(buf2), 128);
test_eq(buf_datalen(buf2), 32);
test_eq(eof, 0);
test_eq(i, 32);
buf_free(buf2);
/* Now read to eof. */
test_assert(buf_capacity(buf) > 256);
i = read_to_buf(s, 1024, buf, &eof);
test_eq(i, (256-32-10-6));
test_eq(buf_capacity(buf), MAX_BUF_SIZE);
test_eq(buf_datalen(buf), 256-6-32);
test_memeq(str, (char*)_buf_peek_raw_buffer(buf), 10); /* XXX Check rest. */
test_eq(eof, 0);
i = read_to_buf(s, 1024, buf, &eof);
test_eq(i, 0);
test_eq(buf_capacity(buf), MAX_BUF_SIZE);
test_eq(buf_datalen(buf), 256-6-32);
test_eq(eof, 1);
}
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#endif
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}
static void
test_crypto_dh(void)
{
crypto_dh_env_t *dh1, *dh2;
char p1[DH_BYTES];
char p2[DH_BYTES];
char s1[DH_BYTES];
char s2[DH_BYTES];
int s1len, s2len;
dh1 = crypto_dh_new();
dh2 = crypto_dh_new();
test_eq(crypto_dh_get_bytes(dh1), DH_BYTES);
test_eq(crypto_dh_get_bytes(dh2), DH_BYTES);
memset(p1, 0, DH_BYTES);
memset(p2, 0, DH_BYTES);
test_memeq(p1, p2, DH_BYTES);
test_assert(! crypto_dh_get_public(dh1, p1, DH_BYTES));
test_memneq(p1, p2, DH_BYTES);
test_assert(! crypto_dh_get_public(dh2, p2, DH_BYTES));
test_memneq(p1, p2, DH_BYTES);
memset(s1, 0, DH_BYTES);
memset(s2, 0xFF, DH_BYTES);
s1len = crypto_dh_compute_secret(dh1, p2, DH_BYTES, s1, 50);
s2len = crypto_dh_compute_secret(dh2, p1, DH_BYTES, s2, 50);
test_assert(s1len > 0);
test_eq(s1len, s2len);
test_memeq(s1, s2, s1len);
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{
/* XXXX Now fabricate some bad values and make sure they get caught,
* Check 0, 1, N-1, >= N, etc.
*/
}
crypto_dh_free(dh1);
crypto_dh_free(dh2);
}
static void
test_crypto(void)
{
crypto_cipher_env_t *env1, *env2;
crypto_pk_env_t *pk1, *pk2;
char *data1, *data2, *data3, *cp;
int i, j, p, len, idx, allok;
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size_t size;
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data1 = tor_malloc(1024);
data2 = tor_malloc(1024);
data3 = tor_malloc(1024);
test_assert(data1 && data2 && data3);
/* Try out RNG. */
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test_assert(! crypto_seed_rng(0));
crypto_rand(data1, 100);
crypto_rand(data2, 100);
test_memneq(data1,data2,100);
allok = 1;
for (i = 0; i < 100; ++i) {
uint64_t big;
char *host;
j = crypto_rand_int(100);
if (i < 0 || i >= 100)
allok = 0;
big = crypto_rand_uint64(U64_LITERAL(1)<<40);
if (big >= (U64_LITERAL(1)<<40))
allok = 0;
big = crypto_rand_uint64(U64_LITERAL(5));
if (big >= 5)
allok = 0;
host = crypto_random_hostname(3,8,"www.",".onion");
if (strcmpstart(host,"www.") ||
strcmpend(host,".onion") ||
strlen(host) < 13 ||
strlen(host) > 18)
allok = 0;
tor_free(host);
}
test_assert(allok);
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/* Now, test encryption and decryption with stream cipher. */
data1[0]='\0';
for (i = 1023; i>0; i -= 35)
strncat(data1, "Now is the time for all good onions", i);
memset(data2, 0, 1024);
memset(data3, 0, 1024);
env1 = crypto_new_cipher_env();
test_neq(env1, 0);
env2 = crypto_new_cipher_env();
test_neq(env2, 0);
j = crypto_cipher_generate_key(env1);
crypto_cipher_set_key(env2, crypto_cipher_get_key(env1));
crypto_cipher_encrypt_init_cipher(env1);
crypto_cipher_decrypt_init_cipher(env2);
/* Try encrypting 512 chars. */
crypto_cipher_encrypt(env1, data2, data1, 512);
crypto_cipher_decrypt(env2, data3, data2, 512);
test_memeq(data1, data3, 512);
test_memneq(data1, data2, 512);
/* Now encrypt 1 at a time, and get 1 at a time. */
for (j = 512; j < 560; ++j) {
crypto_cipher_encrypt(env1, data2+j, data1+j, 1);
}
for (j = 512; j < 560; ++j) {
crypto_cipher_decrypt(env2, data3+j, data2+j, 1);
}
test_memeq(data1, data3, 560);
/* Now encrypt 3 at a time, and get 5 at a time. */
for (j = 560; j < 1024-5; j += 3) {
crypto_cipher_encrypt(env1, data2+j, data1+j, 3);
}
for (j = 560; j < 1024-5; j += 5) {
crypto_cipher_decrypt(env2, data3+j, data2+j, 5);
}
test_memeq(data1, data3, 1024-5);
/* Now make sure that when we encrypt with different chunk sizes, we get
the same results. */
crypto_free_cipher_env(env2);
memset(data3, 0, 1024);
env2 = crypto_new_cipher_env();
test_neq(env2, 0);
crypto_cipher_set_key(env2, crypto_cipher_get_key(env1));
crypto_cipher_encrypt_init_cipher(env2);
for (j = 0; j < 1024-16; j += 17) {
crypto_cipher_encrypt(env2, data3+j, data1+j, 17);
}
for (j= 0; j < 1024-16; ++j) {
if (data2[j] != data3[j]) {
printf("%d: %d\t%d\n", j, (int) data2[j], (int) data3[j]);
}
}
test_memeq(data2, data3, 1024-16);
crypto_free_cipher_env(env1);
crypto_free_cipher_env(env2);
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/* NIST test vector for aes. */
env1 = crypto_new_cipher_env(); /* IV starts at 0 */
crypto_cipher_set_key(env1, "\x80\x00\x00\x00\x00\x00\x00\x00"
"\x00\x00\x00\x00\x00\x00\x00\x00");
crypto_cipher_encrypt_init_cipher(env1);
crypto_cipher_encrypt(env1, data1,
"\x00\x00\x00\x00\x00\x00\x00\x00"
"\x00\x00\x00\x00\x00\x00\x00\x00", 16);
test_memeq_hex(data1, "0EDD33D3C621E546455BD8BA1418BEC8");
/* Now test rollover. All these values are originally from a python
* script. */
crypto_cipher_set_iv(env1, "\x00\x00\x00\x00\x00\x00\x00\x00"
"\xff\xff\xff\xff\xff\xff\xff\xff");
memset(data2, 0, 1024);
crypto_cipher_encrypt(env1, data1, data2, 32);
test_memeq_hex(data1, "335fe6da56f843199066c14a00a40231"
"cdd0b917dbc7186908a6bfb5ffd574d3");
crypto_cipher_set_iv(env1, "\x00\x00\x00\x00\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff");
memset(data2, 0, 1024);
crypto_cipher_encrypt(env1, data1, data2, 32);
test_memeq_hex(data1, "e627c6423fa2d77832a02b2794094b73"
"3e63c721df790d2c6469cc1953a3ffac");
crypto_cipher_set_iv(env1, "\xff\xff\xff\xff\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff");
memset(data2, 0, 1024);
crypto_cipher_encrypt(env1, data1, data2, 32);
test_memeq_hex(data1, "2aed2bff0de54f9328efd070bf48f70a"
"0EDD33D3C621E546455BD8BA1418BEC8");
/* Now check rollover on inplace cipher. */
crypto_cipher_set_iv(env1, "\xff\xff\xff\xff\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff");
crypto_cipher_crypt_inplace(env1, data2, 64);
test_memeq_hex(data2, "2aed2bff0de54f9328efd070bf48f70a"
"0EDD33D3C621E546455BD8BA1418BEC8"
"93e2c5243d6839eac58503919192f7ae"
"1908e67cafa08d508816659c2e693191");
crypto_cipher_set_iv(env1, "\xff\xff\xff\xff\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff");
crypto_cipher_crypt_inplace(env1, data2, 64);
test_assert(tor_mem_is_zero(data2, 64));
crypto_free_cipher_env(env1);
/* Test SHA-1 with a test vector from the specification. */
i = crypto_digest(data1, "abc", 3);
test_memeq_hex(data1, "A9993E364706816ABA3E25717850C26C9CD0D89D");
/* Test HMAC-SHA-1 with test cases from RFC2202. */
{
char key[80];
char digest[20];
char data[50];
/* Case 1. */
memset(key, 0x0b, 20);
crypto_hmac_sha1(digest, key, 20, "Hi There", 8);
test_streq(hex_str(digest, 20),
"B617318655057264E28BC0B6FB378C8EF146BE00");
/* Case 2. */
crypto_hmac_sha1(digest, "Jefe", 4, "what do ya want for nothing?", 28);
test_streq(hex_str(digest, 20),
"EFFCDF6AE5EB2FA2D27416D5F184DF9C259A7C79");
/* Case 4. */
base16_decode(key, 25,
"0102030405060708090a0b0c0d0e0f10111213141516171819", 50);
memset(data, 0xcd, 50);
crypto_hmac_sha1(digest, key, 25, data, 50);
test_streq(hex_str(digest, 20),
"4C9007F4026250C6BC8414F9BF50C86C2D7235DA");
/* Case . */
memset(key, 0xaa, 80);
crypto_hmac_sha1(digest, key, 80,
"Test Using Larger Than Block-Size Key - Hash Key First",
54);
test_streq(hex_str(digest, 20),
"AA4AE5E15272D00E95705637CE8A3B55ED402112");
}
/* Public-key ciphers */
pk1 = pk_generate(0);
pk2 = crypto_new_pk_env();
test_assert(pk1 && pk2);
test_assert(! crypto_pk_write_public_key_to_string(pk1, &cp, &size));
test_assert(! crypto_pk_read_public_key_from_string(pk2, cp, size));
test_eq(0, crypto_pk_cmp_keys(pk1, pk2));
tor_free(cp);
test_eq(128, crypto_pk_keysize(pk1));
test_eq(128, crypto_pk_keysize(pk2));
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test_eq(128, crypto_pk_public_encrypt(pk2, data1, "Hello whirled.", 15,
PK_PKCS1_OAEP_PADDING));
test_eq(128, crypto_pk_public_encrypt(pk1, data2, "Hello whirled.", 15,
PK_PKCS1_OAEP_PADDING));
/* oaep padding should make encryption not match */
test_memneq(data1, data2, 128);
test_eq(15, crypto_pk_private_decrypt(pk1, data3, data1, 128,
PK_PKCS1_OAEP_PADDING,1));
test_streq(data3, "Hello whirled.");
memset(data3, 0, 1024);
test_eq(15, crypto_pk_private_decrypt(pk1, data3, data2, 128,
PK_PKCS1_OAEP_PADDING,1));
test_streq(data3, "Hello whirled.");
/* Can't decrypt with public key. */
test_eq(-1, crypto_pk_private_decrypt(pk2, data3, data2, 128,
PK_PKCS1_OAEP_PADDING,1));
/* Try again with bad padding */
memcpy(data2+1, "XYZZY", 5); /* This has fails ~ once-in-2^40 */
test_eq(-1, crypto_pk_private_decrypt(pk1, data3, data2, 128,
PK_PKCS1_OAEP_PADDING,1));
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/* File operations: save and load private key */
test_assert(! crypto_pk_write_private_key_to_filename(pk1,
get_fname("pkey1")));
/* failing case for read: can't read. */
test_assert(crypto_pk_read_private_key_from_filename(pk2,
get_fname("xyzzy")) < 0);
write_str_to_file(get_fname("xyzzy"), "foobar", 6);
/* Failing case for read: no key. */
test_assert(crypto_pk_read_private_key_from_filename(pk2,
get_fname("xyzzy")) < 0);
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test_assert(! crypto_pk_read_private_key_from_filename(pk2,
get_fname("pkey1")));
test_eq(15, crypto_pk_private_decrypt(pk2, data3, data1, 128,
PK_PKCS1_OAEP_PADDING,1));
/* Now try signing. */
strlcpy(data1, "Ossifrage", 1024);
test_eq(128, crypto_pk_private_sign(pk1, data2, data1, 10));
test_eq(10, crypto_pk_public_checksig(pk1, data3, data2, 128));
test_streq(data3, "Ossifrage");
/* Try signing digests. */
test_eq(128, crypto_pk_private_sign_digest(pk1, data2, data1, 10));
test_eq(20, crypto_pk_public_checksig(pk1, data3, data2, 128));
test_eq(0, crypto_pk_public_checksig_digest(pk1, data1, 10, data2, 128));
test_eq(-1, crypto_pk_public_checksig_digest(pk1, data1, 11, data2, 128));
/*XXXX test failed signing*/
2003-12-17 22:09:31 +01:00
/* Try encoding */
crypto_free_pk_env(pk2);
pk2 = NULL;
i = crypto_pk_asn1_encode(pk1, data1, 1024);
test_assert(i>0);
pk2 = crypto_pk_asn1_decode(data1, i);
test_assert(crypto_pk_cmp_keys(pk1,pk2) == 0);
/* Try with hybrid encryption wrappers. */
crypto_rand(data1, 1024);
for (i = 0; i < 3; ++i) {
for (j = 85; j < 140; ++j) {
memset(data2,0,1024);
memset(data3,0,1024);
if (i == 0 && j < 129)
continue;
p = (i==0)?PK_NO_PADDING:
(i==1)?PK_PKCS1_PADDING:PK_PKCS1_OAEP_PADDING;
len = crypto_pk_public_hybrid_encrypt(pk1,data2,data1,j,p,0);
test_assert(len>=0);
len = crypto_pk_private_hybrid_decrypt(pk1,data3,data2,len,p,1);
test_eq(len,j);
test_memeq(data1,data3,j);
}
}
2003-12-17 22:09:31 +01:00
crypto_free_pk_env(pk1);
crypto_free_pk_env(pk2);
/* Base64 tests */
memset(data1, 6, 1024);
for (idx = 0; idx < 10; ++idx) {
i = base64_encode(data2, 1024, data1, idx);
j = base64_decode(data3, 1024, data2, i);
test_eq(j,idx);
test_memeq(data3, data1, idx);
}
strlcpy(data1, "Test string that contains 35 chars.", 1024);
strlcat(data1, " 2nd string that contains 35 chars.", 1024);
i = base64_encode(data2, 1024, data1, 71);
j = base64_decode(data3, 1024, data2, i);
test_eq(j, 71);
test_streq(data3, data1);
test_assert(data2[i] == '\0');
crypto_rand(data1, DIGEST_LEN);
memset(data2, 100, 1024);
digest_to_base64(data2, data1);
test_eq(BASE64_DIGEST_LEN, strlen(data2));
test_eq(100, data2[BASE64_DIGEST_LEN+2]);
memset(data3, 99, 1024);
test_eq(digest_from_base64(data3, data2), 0);
test_memeq(data1, data3, DIGEST_LEN);
test_eq(99, data3[DIGEST_LEN+1]);
test_assert(digest_from_base64(data3, "###") < 0);
/* Base32 tests */
strlcpy(data1, "5chrs", 1024);
/* bit pattern is: [35 63 68 72 73] ->
* [00110101 01100011 01101000 01110010 01110011]
* By 5s: [00110 10101 10001 10110 10000 11100 10011 10011]
*/
base32_encode(data2, 9, data1, 5);
test_streq(data2, "gvrwq4tt");
strlcpy(data1, "\xFF\xF5\x6D\x44\xAE\x0D\x5C\xC9\x62\xC4", 1024);
base32_encode(data2, 30, data1, 10);
test_streq(data2, "772w2rfobvomsywe");
2004-07-03 01:40:03 +02:00
/* Base16 tests */
strlcpy(data1, "6chrs\xff", 1024);
base16_encode(data2, 13, data1, 6);
2004-07-03 01:40:03 +02:00
test_streq(data2, "3663687273FF");
strlcpy(data1, "f0d678affc000100", 1024);
2004-07-03 01:40:03 +02:00
i = base16_decode(data2, 8, data1, 16);
test_eq(i,0);
test_memeq(data2, "\xf0\xd6\x78\xaf\xfc\x00\x01\x00",8);
/* now try some failing base16 decodes */
test_eq(-1, base16_decode(data2, 8, data1, 15)); /* odd input len */
test_eq(-1, base16_decode(data2, 7, data1, 16)); /* dest too short */
strlcpy(data1, "f0dz!8affc000100", 1024);
test_eq(-1, base16_decode(data2, 8, data1, 16));
tor_free(data1);
tor_free(data2);
tor_free(data3);
/* Add spaces to fingerprint */
{
data1 = tor_strdup("ABCD1234ABCD56780000ABCD1234ABCD56780000");
test_eq(strlen(data1), 40);
data2 = tor_malloc(FINGERPRINT_LEN+1);
add_spaces_to_fp(data2, FINGERPRINT_LEN+1, data1);
test_streq(data2, "ABCD 1234 ABCD 5678 0000 ABCD 1234 ABCD 5678 0000");
tor_free(data1);
tor_free(data2);
}
/* Check fingerprint */
{
test_assert(crypto_pk_check_fingerprint_syntax(
"ABCD 1234 ABCD 5678 0000 ABCD 1234 ABCD 5678 0000"));
test_assert(!crypto_pk_check_fingerprint_syntax(
"ABCD 1234 ABCD 5678 0000 ABCD 1234 ABCD 5678 000"));
test_assert(!crypto_pk_check_fingerprint_syntax(
"ABCD 1234 ABCD 5678 0000 ABCD 1234 ABCD 5678 00000"));
test_assert(!crypto_pk_check_fingerprint_syntax(
"ABCD 1234 ABCD 5678 0000 ABCD1234 ABCD 5678 0000"));
test_assert(!crypto_pk_check_fingerprint_syntax(
"ABCD 1234 ABCD 5678 0000 ABCD1234 ABCD 5678 00000"));
test_assert(!crypto_pk_check_fingerprint_syntax(
"ACD 1234 ABCD 5678 0000 ABCD 1234 ABCD 5678 00000"));
}
/* Incremental digest code. */
{
crypto_digest_env_t *d1, *d2;
char d_out1[DIGEST_LEN], d_out2[DIGEST_LEN];
d1 = crypto_new_digest_env();
test_assert(d1);
crypto_digest_add_bytes(d1, "abcdef", 6);
d2 = crypto_digest_dup(d1);
test_assert(d2);
crypto_digest_add_bytes(d2, "ghijkl", 6);
crypto_digest_get_digest(d2, d_out1, sizeof(d_out1));
crypto_digest(d_out2, "abcdefghijkl", 12);
test_memeq(d_out1, d_out2, DIGEST_LEN);
crypto_digest_assign(d2, d1);
crypto_digest_add_bytes(d2, "mno", 3);
crypto_digest_get_digest(d2, d_out1, sizeof(d_out1));
crypto_digest(d_out2, "abcdefmno", 9);
test_memeq(d_out1, d_out2, DIGEST_LEN);
crypto_digest_get_digest(d1, d_out1, sizeof(d_out1));
crypto_digest(d_out2, "abcdef", 6);
test_memeq(d_out1, d_out2, DIGEST_LEN);
}
}
static void
test_crypto_s2k(void)
{
char buf[29];
char buf2[29];
char *buf3;
int i;
memset(buf, 0, sizeof(buf));
memset(buf2, 0, sizeof(buf2));
buf3 = tor_malloc(65536);
memset(buf3, 0, 65536);
secret_to_key(buf+9, 20, "", 0, buf);
crypto_digest(buf2+9, buf3, 1024);
test_memeq(buf, buf2, 29);
memcpy(buf,"vrbacrda",8);
memcpy(buf2,"vrbacrda",8);
buf[8] = 96;
buf2[8] = 96;
secret_to_key(buf+9, 20, "12345678", 8, buf);
for (i = 0; i < 65536; i += 16) {
memcpy(buf3+i, "vrbacrda12345678", 16);
}
crypto_digest(buf2+9, buf3, 65536);
test_memeq(buf, buf2, 29);
tor_free(buf3);
}
static int
_compare_strs(const void **a, const void **b)
{
const char *s1 = *a, *s2 = *b;
return strcmp(s1, s2);
}
static int
_compare_without_first_ch(const void *a, const void **b)
{
const char *s1 = a, *s2 = *b;
return strcasecmp(s1+1, s2);
}
static void
test_util(void)
{
struct timeval start, end;
struct tm a_time;
char timestr[RFC1123_TIME_LEN+1];
char buf[1024];
time_t t_res;
int i;
uint32_t u32;
uint16_t u16;
char *cp, *k, *v;
const char *str;
start.tv_sec = 5;
start.tv_usec = 5000;
end.tv_sec = 5;
end.tv_usec = 5000;
test_eq(0L, tv_udiff(&start, &end));
end.tv_usec = 7000;
test_eq(2000L, tv_udiff(&start, &end));
end.tv_sec = 6;
test_eq(1002000L, tv_udiff(&start, &end));
end.tv_usec = 0;
test_eq(995000L, tv_udiff(&start, &end));
end.tv_sec = 4;
test_eq(-1005000L, tv_udiff(&start, &end));
end.tv_usec = 999990;
start.tv_sec = 1;
start.tv_usec = 500;
/* The test values here are confirmed to be correct on a platform
* with a working timegm. */
a_time.tm_year = 2003-1900;
a_time.tm_mon = 7;
a_time.tm_mday = 30;
a_time.tm_hour = 6;
a_time.tm_min = 14;
a_time.tm_sec = 55;
test_eq((time_t) 1062224095UL, tor_timegm(&a_time));
a_time.tm_year = 2004-1900; /* Try a leap year, after feb. */
test_eq((time_t) 1093846495UL, tor_timegm(&a_time));
a_time.tm_mon = 1; /* Try a leap year, in feb. */
a_time.tm_mday = 10;
test_eq((time_t) 1076393695UL, tor_timegm(&a_time));
format_rfc1123_time(timestr, 0);
test_streq("Thu, 01 Jan 1970 00:00:00 GMT", timestr);
format_rfc1123_time(timestr, (time_t)1091580502UL);
test_streq("Wed, 04 Aug 2004 00:48:22 GMT", timestr);
t_res = 0;
i = parse_rfc1123_time(timestr, &t_res);
test_eq(i,0);
test_eq(t_res, (time_t)1091580502UL);
test_eq(-1, parse_rfc1123_time("Wed, zz Aug 2004 99-99x99 GMT", &t_res));
tor_gettimeofday(&start);
/* Tests for corner cases of strl operations */
test_eq(5, strlcpy(buf, "Hello", 0));
strlcpy(buf, "Hello", sizeof(buf));
test_eq(10, strlcat(buf, "Hello", 5));
/* Test tor_strstrip() */
strlcpy(buf, "Testing 1 2 3", sizeof(buf));
tor_strstrip(buf, ",!");
test_streq(buf, "Testing 1 2 3");
strlcpy(buf, "!Testing 1 2 3?", sizeof(buf));
tor_strstrip(buf, "!? ");
test_streq(buf, "Testing123");
/* Test parse_addr_port */
cp = NULL; u32 = 3; u16 = 3;
test_assert(!parse_addr_port(LOG_WARN, "1.2.3.4", &cp, &u32, &u16));
test_streq(cp, "1.2.3.4");
test_eq(u32, 0x01020304u);
test_eq(u16, 0);
tor_free(cp);
test_assert(!parse_addr_port(LOG_WARN, "4.3.2.1:99", &cp, &u32, &u16));
test_streq(cp, "4.3.2.1");
test_eq(u32, 0x04030201u);
test_eq(u16, 99);
tor_free(cp);
test_assert(!parse_addr_port(LOG_WARN, "nonexistent.address:4040",
&cp, NULL, &u16));
test_streq(cp, "nonexistent.address");
test_eq(u16, 4040);
tor_free(cp);
test_assert(!parse_addr_port(LOG_WARN, "localhost:9999", &cp, &u32, &u16));
test_streq(cp, "localhost");
test_eq(u32, 0x7f000001u);
test_eq(u16, 9999);
tor_free(cp);
u32 = 3;
test_assert(!parse_addr_port(LOG_WARN, "localhost", NULL, &u32, &u16));
test_eq(cp, NULL);
test_eq(u32, 0x7f000001u);
test_eq(u16, 0);
tor_free(cp);
test_eq(0, addr_mask_get_bits(0x0u));
test_eq(32, addr_mask_get_bits(0xFFFFFFFFu));
test_eq(16, addr_mask_get_bits(0xFFFF0000u));
test_eq(31, addr_mask_get_bits(0xFFFFFFFEu));
test_eq(1, addr_mask_get_bits(0x80000000u));
/* Test tor_parse_long. */
test_eq(10L, tor_parse_long("10",10,0,100,NULL,NULL));
test_eq(0L, tor_parse_long("10",10,50,100,NULL,NULL));
test_eq(-50L, tor_parse_long("-50",10,-100,100,NULL,NULL));
/* Test tor_parse_ulong */
test_eq(10UL, tor_parse_ulong("10",10,0,100,NULL,NULL));
test_eq(0UL, tor_parse_ulong("10",10,50,100,NULL,NULL));
/* Test tor_parse_uint64. */
test_assert(U64_LITERAL(10) == tor_parse_uint64("10 x",10,0,100, &i, &cp));
test_assert(i == 1);
test_streq(cp, " x");
test_assert(U64_LITERAL(12345678901) ==
tor_parse_uint64("12345678901",10,0,UINT64_MAX, &i, &cp));
test_assert(i == 1);
test_streq(cp, "");
test_assert(U64_LITERAL(0) ==
tor_parse_uint64("12345678901",10,500,INT32_MAX, &i, &cp));
test_assert(i == 0);
/* Test failing snprintf cases */
test_eq(-1, tor_snprintf(buf, 0, "Foo"));
test_eq(-1, tor_snprintf(buf, 2, "Foo"));
/* Test printf with uint64 */
tor_snprintf(buf, sizeof(buf), "x!"U64_FORMAT"!x",
U64_PRINTF_ARG(U64_LITERAL(12345678901)));
test_streq(buf, "x!12345678901!x");
/* Test parse_config_line_from_str */
strlcpy(buf, "k v\n" " key value with spaces \n" "keykey val\n"
"k2\n"
"k3 \n" "\n" " \n" "#comment\n"
"k4#a\n" "k5#abc\n" "k6 val #with comment\n"
"kseven \"a quoted 'string\"\n"
"k8 \"a \\x71uoted\\n\\\"str\\\\ing\\t\\001\\01\\1\\\"\"\n"
, sizeof(buf));
str = buf;
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "k");
test_streq(v, "v");
tor_free(k); tor_free(v);
test_assert(!strcmpstart(str, "key value with"));
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "key");
test_streq(v, "value with spaces");
tor_free(k); tor_free(v);
test_assert(!strcmpstart(str, "keykey"));
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "keykey");
test_streq(v, "val");
tor_free(k); tor_free(v);
test_assert(!strcmpstart(str, "k2\n"));
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "k2");
test_streq(v, "");
tor_free(k); tor_free(v);
test_assert(!strcmpstart(str, "k3 \n"));
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "k3");
test_streq(v, "");
tor_free(k); tor_free(v);
test_assert(!strcmpstart(str, "#comment"));
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "k4");
test_streq(v, "");
tor_free(k); tor_free(v);
test_assert(!strcmpstart(str, "k5#abc"));
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "k5");
test_streq(v, "");
tor_free(k); tor_free(v);
test_assert(!strcmpstart(str, "k6"));
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "k6");
test_streq(v, "val");
tor_free(k); tor_free(v);
test_assert(!strcmpstart(str, "kseven"));
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "kseven");
test_streq(v, "a quoted 'string");
tor_free(k); tor_free(v);
test_assert(!strcmpstart(str, "k8 "));
str = parse_config_line_from_str(str, &k, &v);
test_streq(k, "k8");
test_streq(v, "a quoted\n\"str\\ing\t\x01\x01\x01\"");
tor_free(k); tor_free(v);
test_streq(str, "");
/* Test for strcmpstart and strcmpend. */
test_assert(strcmpstart("abcdef", "abcdef")==0);
test_assert(strcmpstart("abcdef", "abc")==0);
test_assert(strcmpstart("abcdef", "abd")<0);
test_assert(strcmpstart("abcdef", "abb")>0);
test_assert(strcmpstart("ab", "abb")<0);
test_assert(strcmpend("abcdef", "abcdef")==0);
test_assert(strcmpend("abcdef", "def")==0);
test_assert(strcmpend("abcdef", "deg")<0);
test_assert(strcmpend("abcdef", "dee")>0);
test_assert(strcmpend("ab", "abb")<0);
test_assert(strcasecmpend("AbcDEF", "abcdef")==0);
test_assert(strcasecmpend("abcdef", "dEF")==0);
test_assert(strcasecmpend("abcDEf", "deg")<0);
test_assert(strcasecmpend("abcdef", "DEE")>0);
test_assert(strcasecmpend("ab", "abB")<0);
/* Test mem_is_zero */
memset(buf,0,128);
buf[128] = 'x';
test_assert(tor_digest_is_zero(buf));
test_assert(tor_mem_is_zero(buf, 10));
test_assert(tor_mem_is_zero(buf, 20));
test_assert(tor_mem_is_zero(buf, 128));
test_assert(!tor_mem_is_zero(buf, 129));
buf[60] = (char)255;
test_assert(!tor_mem_is_zero(buf, 128));
buf[0] = (char)1;
test_assert(!tor_mem_is_zero(buf, 10));
/* Test inet_ntop */
{
char tmpbuf[TOR_ADDR_BUF_LEN];
const char *ip = "176.192.208.224";
struct in_addr in;
tor_inet_pton(AF_INET, ip, &in);
tor_inet_ntop(AF_INET, &in, tmpbuf, sizeof(tmpbuf));
test_streq(tmpbuf, ip);
}
/* Test 'escaped' */
test_streq("\"\"", escaped(""));
test_streq("\"abcd\"", escaped("abcd"));
test_streq("\"\\\\\\n\\r\\t\\\"\\'\"", escaped("\\\n\r\t\"\'"));
test_streq("\"z\\001abc\\277d\"", escaped("z\001abc\277d"));
test_assert(NULL == escaped(NULL));
/* Test strndup and memdup */
{
const char *s = "abcdefghijklmnopqrstuvwxyz";
cp = tor_strndup(s, 30);
test_streq(cp, s); /* same string, */
test_neq(cp, s); /* but different pointers. */
tor_free(cp);
cp = tor_strndup(s, 5);
test_streq(cp, "abcde");
tor_free(cp);
s = "a\0b\0c\0d\0e\0";
cp = tor_memdup(s,10);
test_memeq(cp, s, 10); /* same ram, */
test_neq(cp, s); /* but different pointers. */
tor_free(cp);
}
/* Test str-foo functions */
cp = tor_strdup("abcdef");
test_assert(tor_strisnonupper(cp));
cp[3] = 'D';
test_assert(!tor_strisnonupper(cp));
tor_strupper(cp);
test_streq(cp, "ABCDEF");
test_assert(tor_strisprint(cp));
cp[3] = 3;
test_assert(!tor_strisprint(cp));
tor_free(cp);
/* Test eat_whitespace. */
{
const char *s = " \n a";
test_eq_ptr(eat_whitespace(s), s+4);
s = "abcd";
test_eq_ptr(eat_whitespace(s), s);
s = "#xyz\nab";
test_eq_ptr(eat_whitespace(s), s+5);
}
/* Test memmem and memstr */
{
const char *haystack = "abcde";
tor_assert(!tor_memmem(haystack, 5, "ef", 2));
test_eq_ptr(tor_memmem(haystack, 5, "cd", 2), haystack + 2);
test_eq_ptr(tor_memmem(haystack, 5, "cde", 3), haystack + 2);
haystack = "ababcad";
test_eq_ptr(tor_memmem(haystack, 7, "abc", 3), haystack + 2);
test_eq_ptr(tor_memstr(haystack, 7, "abc"), haystack + 2);
test_assert(!tor_memstr(haystack, 7, "fe"));
test_assert(!tor_memstr(haystack, 7, "longerthantheoriginal"));
}
/* Test wrap_string */
{
smartlist_t *sl = smartlist_create();
wrap_string(sl, "This is a test of string wrapping functionality: woot.",
10, "", "");
cp = smartlist_join_strings(sl, "", 0, NULL);
test_streq(cp,
"This is a\ntest of\nstring\nwrapping\nfunctional\nity: woot.\n");
tor_free(cp);
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
wrap_string(sl, "This is a test of string wrapping functionality: woot.",
16, "### ", "# ");
cp = smartlist_join_strings(sl, "", 0, NULL);
test_streq(cp,
"### This is a\n# test of string\n# wrapping\n# functionality:\n"
"# woot.\n");
tor_free(cp);
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_free(sl);
}
/* now make sure time works. */
tor_gettimeofday(&end);
/* We might've timewarped a little. */
test_assert(tv_udiff(&start, &end) >= -5000);
/* Test tor_log2(). */
test_eq(tor_log2(64), 6);
test_eq(tor_log2(65), 6);
test_eq(tor_log2(63), 5);
test_eq(tor_log2(1), 0);
test_eq(tor_log2(2), 1);
test_eq(tor_log2(3), 1);
test_eq(tor_log2(4), 2);
test_eq(tor_log2(5), 2);
test_eq(tor_log2(U64_LITERAL(40000000000000000)), 55);
test_eq(tor_log2(UINT64_MAX), 63);
/* Test round_to_power_of_2 */
test_eq(round_to_power_of_2(120), 128);
test_eq(round_to_power_of_2(128), 128);
test_eq(round_to_power_of_2(130), 128);
test_eq(round_to_power_of_2(U64_LITERAL(40000000000000000)),
U64_LITERAL(1)<<55);
test_eq(round_to_power_of_2(0), 2);
}
/** Helper: assert that IPv6 addresses <b>a</b> and <b>b</b> are the same. On
* failure, reports an error, describing the addresses as <b>e1</b> and
* <b>e2</b>, and reporting the line number as <b>line</b>. */
static void
_test_eq_ip6(struct in6_addr *a, struct in6_addr *b, const char *e1,
const char *e2, int line)
{
int i;
int ok = 1;
for (i = 0; i < 16; ++i) {
if (a->s6_addr[i] != b->s6_addr[i]) {
ok = 0;
break;
}
}
if (ok) {
printf("."); fflush(stdout);
} else {
char buf1[128], *cp1;
char buf2[128], *cp2;
have_failed = 1;
cp1 = buf1; cp2 = buf2;
for (i=0; i<16; ++i) {
tor_snprintf(cp1, sizeof(buf1)-(cp1-buf1), "%02x", a->s6_addr[i]);
tor_snprintf(cp2, sizeof(buf2)-(cp2-buf2), "%02x", b->s6_addr[i]);
cp1 += 2; cp2 += 2;
if ((i%2)==1 && i != 15) {
*cp1++ = ':';
*cp2++ = ':';
}
}
*cp1 = *cp2 = '\0';
printf("Line %d: assertion failed: (%s == %s)\n"
" %s != %s\n", line, e1, e2, buf1, buf2);
fflush(stdout);
}
}
/** Helper: Assert that two strings both decode as IPv6 addresses with
2008-02-09 04:11:10 +01:00
* tor_inet_pton(), and both decode to the same address. */
#define test_pton6_same(a,b) STMT_BEGIN \
test_eq(tor_inet_pton(AF_INET6, a, &a1), 1); \
test_eq(tor_inet_pton(AF_INET6, b, &a2), 1); \
_test_eq_ip6(&a1,&a2,#a,#b,__LINE__); \
STMT_END
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/** Helper: Assert that <b>a</b> is recognized as a bad IPv6 address by
* tor_inet_pton(). */
#define test_pton6_bad(a) \
test_eq(0, tor_inet_pton(AF_INET6, a, &a1))
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/** Helper: assert that <b>a</b>, when parsed by tor_inet_pton() and displayed
* with tor_inet_ntop(), yields <b>b</b>. Also assert that <b>b</b> parses to
* the same value as <b>a</b>. */
#define test_ntop6_reduces(a,b) STMT_BEGIN \
test_eq(tor_inet_pton(AF_INET6, a, &a1), 1); \
test_streq(tor_inet_ntop(AF_INET6, &a1, buf, sizeof(buf)), b); \
test_eq(tor_inet_pton(AF_INET6, b, &a2), 1); \
_test_eq_ip6(&a1, &a2, a, b, __LINE__); \
STMT_END
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/** Helper: assert that <b>a</a> parses by tor_inet_pton() into a address that
* passes tor_addr_is_internal() with <b>for_listening</b> */
#define test_internal_ip(a,for_listening) STMT_BEGIN \
test_eq(tor_inet_pton(AF_INET6, a, &t1.addr.in6_addr), 1); \
t1.family = AF_INET6; \
if (!tor_addr_is_internal(&t1, for_listening)) \
test_fail_msg( a "was not internal."); \
STMT_END
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/** Helper: assert that <b>a</a> parses by tor_inet_pton() into a address that
* does not pass tor_addr_is_internal() with <b>for_listening</b>. */
#define test_external_ip(a,for_listening) STMT_BEGIN \
test_eq(tor_inet_pton(AF_INET6, a, &t1.addr.in6_addr), 1); \
t1.family = AF_INET6; \
if (tor_addr_is_internal(&t1, for_listening)) \
test_fail_msg(a "was not external."); \
STMT_END
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/** Helper: Assert that <b>a</b> and <b>b</b>, when parsed by
* tor_inet_pton(), give addresses that compare in the order defined by
* <b>op</b> with tor_addr_compare(). */
#define test_addr_compare(a, op, b) STMT_BEGIN \
test_eq(tor_inet_pton(AF_INET6, a, &t1.addr.in6_addr), 1); \
test_eq(tor_inet_pton(AF_INET6, b, &t2.addr.in6_addr), 1); \
t1.family = t2.family = AF_INET6; \
r = tor_addr_compare(&t1,&t2,CMP_SEMANTIC); \
if (!(r op 0)) \
test_fail_msg("failed: tor_addr_compare("a","b") "#op" 0"); \
STMT_END
/** Helper: Assert that <b>a</b> and <b>b</b>, when parsed by
* tor_inet_pton(), give addresses that compare in the order defined by
* <b>op</b> with tor_addr_compare_masked() with <b>m</b> masked. */
#define test_addr_compare_masked(a, op, b, m) STMT_BEGIN \
test_eq(tor_inet_pton(AF_INET6, a, &t1.addr.in6_addr), 1); \
test_eq(tor_inet_pton(AF_INET6, b, &t2.addr.in6_addr), 1); \
t1.family = t2.family = AF_INET6; \
r = tor_addr_compare_masked(&t1,&t2,m,CMP_SEMANTIC); \
if (!(r op 0)) \
test_fail_msg("failed: tor_addr_compare_masked("a","b","#m") "#op" 0"); \
STMT_END
/** Helper: assert that <b>xx</b> is parseable as a masked IPv6 address with
* ports by <b>tor_parse_mask_addr_ports(), with family <b>f</b>, IP address
* as 4 32-bit words <b>ip1...ip4</b>, mask bits as <b>mm</b>, and port range
* as <b>pt1..pt2</b>. */
#define test_addr_mask_ports_parse(xx, f, ip1, ip2, ip3, ip4, mm, pt1, pt2) \
STMT_BEGIN \
test_eq(tor_addr_parse_mask_ports(xx, &t1, &mask, &port1, &port2), f); \
p1=tor_inet_ntop(AF_INET6, &t1.addr.in6_addr, bug, sizeof(bug)); \
test_eq(htonl(ip1), tor_addr_to_in6_addr32(&t1)[0]); \
test_eq(htonl(ip2), tor_addr_to_in6_addr32(&t1)[1]); \
test_eq(htonl(ip3), tor_addr_to_in6_addr32(&t1)[2]); \
test_eq(htonl(ip4), tor_addr_to_in6_addr32(&t1)[3]); \
test_eq(mask, mm); \
test_eq(port1, pt1); \
test_eq(port2, pt2); \
STMT_END
static void
test_util_ip6_helpers(void)
{
char buf[TOR_ADDR_BUF_LEN], bug[TOR_ADDR_BUF_LEN];
struct in6_addr a1, a2;
tor_addr_t t1, t2;
int r, i;
uint16_t port1, port2;
maskbits_t mask;
const char *p1;
struct sockaddr_storage sa_storage;
struct sockaddr_in *sin;
struct sockaddr_in6 *sin6;
// struct in_addr b1, b2;
/* Test tor_inet_ntop and tor_inet_pton: IPv6 */
/* ==== Converting to and from sockaddr_t. */
sin = (struct sockaddr_in *)&sa_storage;
sin->sin_family = AF_INET;
sin->sin_port = 9090;
sin->sin_addr.s_addr = htonl(0x7f7f0102); /*127.127.1.2*/
tor_addr_from_sockaddr(&t1, (struct sockaddr *)sin, NULL);
test_eq(tor_addr_family(&t1), AF_INET);
test_eq(tor_addr_to_ipv4h(&t1), 0x7f7f0102);
memset(&sa_storage, 0, sizeof(sa_storage));
test_eq(sizeof(struct sockaddr_in),
tor_addr_to_sockaddr(&t1, 1234, (struct sockaddr *)&sa_storage,
sizeof(sa_storage)));
test_eq(1234, ntohs(sin->sin_port));
test_eq(0x7f7f0102, ntohl(sin->sin_addr.s_addr));
memset(&sa_storage, 0, sizeof(sa_storage));
sin6 = (struct sockaddr_in6 *)&sa_storage;
sin6->sin6_family = AF_INET6;
sin6->sin6_port = htons(7070);
sin6->sin6_addr.s6_addr[0] = 128;
tor_addr_from_sockaddr(&t1, (struct sockaddr *)sin6, NULL);
test_eq(tor_addr_family(&t1), AF_INET6);
p1 = tor_addr_to_str(buf, &t1, sizeof(buf), 0);
test_streq(p1, "8000::");
memset(&sa_storage, 0, sizeof(sa_storage));
test_eq(sizeof(struct sockaddr_in6),
tor_addr_to_sockaddr(&t1, 9999, (struct sockaddr *)&sa_storage,
sizeof(sa_storage)));
test_eq(AF_INET6, sin6->sin6_family);
test_eq(9999, ntohs(sin6->sin6_port));
test_eq(0x80000000, ntohl(S6_ADDR32(sin6->sin6_addr)[0]));
/* ==== tor_addr_lookup: static cases. (Can't test dns without knowing we
* have a good resolver. */
test_eq(0, tor_addr_lookup("127.128.129.130", AF_UNSPEC, &t1));
test_eq(AF_INET, tor_addr_family(&t1));
test_eq(tor_addr_to_ipv4h(&t1), 0x7f808182);
test_eq(0, tor_addr_lookup("9000::5", AF_UNSPEC, &t1));
test_eq(AF_INET6, tor_addr_family(&t1));
test_eq(0x90, tor_addr_to_in6_addr8(&t1)[0]);
test_assert(tor_mem_is_zero((char*)tor_addr_to_in6_addr8(&t1)+1, 14));
test_eq(0x05, tor_addr_to_in6_addr8(&t1)[15]);
/* === Test pton: valid af_inet6 */
/* Simple, valid parsing. */
r = tor_inet_pton(AF_INET6,
"0102:0304:0506:0708:090A:0B0C:0D0E:0F10", &a1);
test_assert(r==1);
for (i=0;i<16;++i) { test_eq(i+1, (int)a1.s6_addr[i]); }
/* ipv4 ending. */
test_pton6_same("0102:0304:0506:0708:090A:0B0C:0D0E:0F10",
"0102:0304:0506:0708:090A:0B0C:13.14.15.16");
/* shortened words. */
test_pton6_same("0001:0099:BEEF:0000:0123:FFFF:0001:0001",
"1:99:BEEF:0:0123:FFFF:1:1");
/* zeros at the beginning */
test_pton6_same("0000:0000:0000:0000:0009:C0A8:0001:0001",
"::9:c0a8:1:1");
test_pton6_same("0000:0000:0000:0000:0009:C0A8:0001:0001",
"::9:c0a8:0.1.0.1");
/* zeros in the middle. */
test_pton6_same("fe80:0000:0000:0000:0202:1111:0001:0001",
"fe80::202:1111:1:1");
/* zeros at the end. */
test_pton6_same("1000:0001:0000:0007:0000:0000:0000:0000",
"1000:1:0:7::");
/* === Test ntop: af_inet6 */
test_ntop6_reduces("0:0:0:0:0:0:0:0", "::");
test_ntop6_reduces("0001:0099:BEEF:0006:0123:FFFF:0001:0001",
"1:99:beef:6:123:ffff:1:1");
//test_ntop6_reduces("0:0:0:0:0:0:c0a8:0101", "::192.168.1.1");
test_ntop6_reduces("0:0:0:0:0:ffff:c0a8:0101", "::ffff:192.168.1.1");
test_ntop6_reduces("002:0:0000:0:3::4", "2::3:0:0:4");
test_ntop6_reduces("0:0::1:0:3", "::1:0:3");
test_ntop6_reduces("008:0::0", "8::");
test_ntop6_reduces("0:0:0:0:0:ffff::1", "::ffff:0.0.0.1");
test_ntop6_reduces("abcd:0:0:0:0:0:7f00::", "abcd::7f00:0");
test_ntop6_reduces("0000:0000:0000:0000:0009:C0A8:0001:0001",
"::9:c0a8:1:1");
test_ntop6_reduces("fe80:0000:0000:0000:0202:1111:0001:0001",
"fe80::202:1111:1:1");
test_ntop6_reduces("1000:0001:0000:0007:0000:0000:0000:0000",
"1000:1:0:7::");
/* === Test pton: invalid in6. */
test_pton6_bad("foobar.");
test_pton6_bad("55555::");
test_pton6_bad("9:-60::");
test_pton6_bad("1:2:33333:4:0002:3::");
//test_pton6_bad("1:2:3333:4:00002:3::");// BAD, but glibc doesn't say so.
test_pton6_bad("1:2:3333:4:fish:3::");
test_pton6_bad("1:2:3:4:5:6:7:8:9");
test_pton6_bad("1:2:3:4:5:6:7");
test_pton6_bad("1:2:3:4:5:6:1.2.3.4.5");
test_pton6_bad("1:2:3:4:5:6:1.2.3");
test_pton6_bad("::1.2.3");
test_pton6_bad("::1.2.3.4.5");
test_pton6_bad("99");
test_pton6_bad("");
test_pton6_bad("1::2::3:4");
test_pton6_bad("a:::b:c");
test_pton6_bad(":::a:b:c");
test_pton6_bad("a:b:c:::");
/* test internal checking */
test_external_ip("fbff:ffff::2:7", 0);
test_internal_ip("fc01::2:7", 0);
test_internal_ip("fdff:ffff::f:f", 0);
test_external_ip("fe00::3:f", 0);
test_external_ip("fe7f:ffff::2:7", 0);
test_internal_ip("fe80::2:7", 0);
test_internal_ip("febf:ffff::f:f", 0);
test_internal_ip("fec0::2:7:7", 0);
test_internal_ip("feff:ffff::e:7:7", 0);
test_external_ip("ff00::e:7:7", 0);
test_internal_ip("::", 0);
test_internal_ip("::1", 0);
test_internal_ip("::1", 1);
test_internal_ip("::", 0);
test_external_ip("::", 1);
test_external_ip("::2", 0);
test_external_ip("2001::", 0);
test_external_ip("ffff::", 0);
test_external_ip("::ffff:0.0.0.0", 1);
test_internal_ip("::ffff:0.0.0.0", 0);
test_internal_ip("::ffff:0.255.255.255", 0);
test_external_ip("::ffff:1.0.0.0", 0);
test_external_ip("::ffff:9.255.255.255", 0);
test_internal_ip("::ffff:10.0.0.0", 0);
test_internal_ip("::ffff:10.255.255.255", 0);
test_external_ip("::ffff:11.0.0.0", 0);
test_external_ip("::ffff:126.255.255.255", 0);
test_internal_ip("::ffff:127.0.0.0", 0);
test_internal_ip("::ffff:127.255.255.255", 0);
test_external_ip("::ffff:128.0.0.0", 0);
test_external_ip("::ffff:172.15.255.255", 0);
test_internal_ip("::ffff:172.16.0.0", 0);
test_internal_ip("::ffff:172.31.255.255", 0);
test_external_ip("::ffff:172.32.0.0", 0);
test_external_ip("::ffff:192.167.255.255", 0);
test_internal_ip("::ffff:192.168.0.0", 0);
test_internal_ip("::ffff:192.168.255.255", 0);
test_external_ip("::ffff:192.169.0.0", 0);
test_external_ip("::ffff:169.253.255.255", 0);
test_internal_ip("::ffff:169.254.0.0", 0);
test_internal_ip("::ffff:169.254.255.255", 0);
test_external_ip("::ffff:169.255.0.0", 0);
test_assert(is_internal_IP(0x7f000001, 0));
/* tor_addr_compare(tor_addr_t x2) */
test_addr_compare("ffff::", ==, "ffff::0");
test_addr_compare("0::3:2:1", >, "0::ffff:0.3.2.1");
test_addr_compare("0::2:2:1", >, "0::ffff:0.3.2.1");
test_addr_compare("0::ffff:0.3.2.1", <, "0::0:0:0");
test_addr_compare("0::ffff:5.2.2.1", <, "::ffff:6.0.0.0"); /* XXXX wrong. */
tor_addr_parse_mask_ports("[::ffff:2.3.4.5]", &t1, NULL, NULL, NULL);
tor_addr_parse_mask_ports("2.3.4.5", &t2, NULL, NULL, NULL);
test_assert(tor_addr_compare(&t1, &t2, CMP_SEMANTIC) == 0);
tor_addr_parse_mask_ports("[::ffff:2.3.4.4]", &t1, NULL, NULL, NULL);
tor_addr_parse_mask_ports("2.3.4.5", &t2, NULL, NULL, NULL);
test_assert(tor_addr_compare(&t1, &t2, CMP_SEMANTIC) < 0);
/* test compare_masked */
test_addr_compare_masked("ffff::", ==, "ffff::0", 128);
test_addr_compare_masked("ffff::", ==, "ffff::0", 64);
test_addr_compare_masked("0::2:2:1", <, "0::8000:2:1", 81);
test_addr_compare_masked("0::2:2:1", ==, "0::8000:2:1", 80);
/* Test decorated addr_to_string. */
test_eq(AF_INET6, tor_addr_from_str(&t1, "[123:45:6789::5005:11]"));
p1 = tor_addr_to_str(buf, &t1, sizeof(buf), 1);
test_streq(p1, "[123:45:6789::5005:11]");
test_eq(AF_INET, tor_addr_from_str(&t1, "18.0.0.1"));
p1 = tor_addr_to_str(buf, &t1, sizeof(buf), 1);
test_streq(p1, "18.0.0.1");
/* test tor_addr_parse_mask_ports */
test_addr_mask_ports_parse("[::f]/17:47-95", AF_INET6,
0, 0, 0, 0x0000000f, 17, 47, 95);
//test_addr_parse("[::fefe:4.1.1.7/120]:999-1000");
//test_addr_parse_check("::fefe:401:107", 120, 999, 1000);
test_addr_mask_ports_parse("[::ffff:4.1.1.7]/120:443", AF_INET6,
0, 0, 0x0000ffff, 0x04010107, 120, 443, 443);
test_addr_mask_ports_parse("[abcd:2::44a:0]:2-65000", AF_INET6,
0xabcd0002, 0, 0, 0x044a0000, 128, 2, 65000);
r=tor_addr_parse_mask_ports("[fefef::]/112", &t1, NULL, NULL, NULL);
test_assert(r == -1);
r=tor_addr_parse_mask_ports("efef::/112", &t1, NULL, NULL, NULL);
test_assert(r == -1);
r=tor_addr_parse_mask_ports("[f:f:f:f:f:f:f:f::]", &t1, NULL, NULL, NULL);
test_assert(r == -1);
r=tor_addr_parse_mask_ports("[::f:f:f:f:f:f:f:f]", &t1, NULL, NULL, NULL);
test_assert(r == -1);
r=tor_addr_parse_mask_ports("[f:f:f:f:f:f:f:f:f]", &t1, NULL, NULL, NULL);
test_assert(r == -1);
/* Test for V4-mapped address with mask < 96. (arguably not valid) */
r=tor_addr_parse_mask_ports("[::ffff:1.1.2.2/33]", &t1, &mask, NULL, NULL);
test_assert(r == -1);
r=tor_addr_parse_mask_ports("1.1.2.2/33", &t1, &mask, NULL, NULL);
test_assert(r == -1);
r=tor_addr_parse_mask_ports("1.1.2.2/31", &t1, &mask, NULL, NULL);
test_assert(r == AF_INET);
r=tor_addr_parse_mask_ports("[efef::]/112", &t1, &mask, &port1, &port2);
test_assert(r == AF_INET6);
test_assert(port1 == 1);
test_assert(port2 == 65535);
/* make sure inet address lengths >= max */
test_assert(INET_NTOA_BUF_LEN >= sizeof("255.255.255.255"));
test_assert(TOR_ADDR_BUF_LEN >=
sizeof("ffff:ffff:ffff:ffff:ffff:ffff:255.255.255.255"));
test_assert(sizeof(tor_addr_t) >= sizeof(struct in6_addr));
/* get interface addresses */
r = get_interface_address6(LOG_DEBUG, AF_INET, &t1);
i = get_interface_address6(LOG_DEBUG, AF_INET6, &t2);
#if 0
tor_inet_ntop(AF_INET, &t1.sa.sin_addr, buf, sizeof(buf));
printf("\nv4 address: %s (family=%i)", buf, IN_FAMILY(&t1));
tor_inet_ntop(AF_INET6, &t2.sa6.sin6_addr, buf, sizeof(buf));
printf("\nv6 address: %s (family=%i)", buf, IN_FAMILY(&t2));
#endif
}
static void
test_util_smartlist(void)
{
smartlist_t *sl;
char *cp;
size_t sz;
/* XXXX test sort_digests, uniq_strings, uniq_digests */
/* Test smartlist add, del_keeporder, insert, get. */
sl = smartlist_create();
smartlist_add(sl, (void*)1);
smartlist_add(sl, (void*)2);
smartlist_add(sl, (void*)3);
smartlist_add(sl, (void*)4);
smartlist_del_keeporder(sl, 1);
smartlist_insert(sl, 1, (void*)22);
smartlist_insert(sl, 0, (void*)0);
smartlist_insert(sl, 5, (void*)555);
test_eq_ptr((void*)0, smartlist_get(sl,0));
test_eq_ptr((void*)1, smartlist_get(sl,1));
test_eq_ptr((void*)22, smartlist_get(sl,2));
test_eq_ptr((void*)3, smartlist_get(sl,3));
test_eq_ptr((void*)4, smartlist_get(sl,4));
test_eq_ptr((void*)555, smartlist_get(sl,5));
/* Try deleting in the middle. */
smartlist_del(sl, 1);
test_eq_ptr((void*)555, smartlist_get(sl, 1));
/* Try deleting at the end. */
smartlist_del(sl, 4);
test_eq(4, smartlist_len(sl));
/* test isin. */
test_assert(smartlist_isin(sl, (void*)3));
test_assert(!smartlist_isin(sl, (void*)99));
/* Test split and join */
smartlist_clear(sl);
test_eq(0, smartlist_len(sl));
smartlist_split_string(sl, "abc", ":", 0, 0);
test_eq(1, smartlist_len(sl));
test_streq("abc", smartlist_get(sl, 0));
smartlist_split_string(sl, "a::bc::", "::", 0, 0);
test_eq(4, smartlist_len(sl));
test_streq("a", smartlist_get(sl, 1));
test_streq("bc", smartlist_get(sl, 2));
test_streq("", smartlist_get(sl, 3));
cp = smartlist_join_strings(sl, "", 0, NULL);
test_streq(cp, "abcabc");
tor_free(cp);
cp = smartlist_join_strings(sl, "!", 0, NULL);
test_streq(cp, "abc!a!bc!");
tor_free(cp);
cp = smartlist_join_strings(sl, "XY", 0, NULL);
test_streq(cp, "abcXYaXYbcXY");
tor_free(cp);
cp = smartlist_join_strings(sl, "XY", 1, NULL);
test_streq(cp, "abcXYaXYbcXYXY");
tor_free(cp);
cp = smartlist_join_strings(sl, "", 1, NULL);
test_streq(cp, "abcabc");
tor_free(cp);
smartlist_split_string(sl, "/def/ /ghijk", "/", 0, 0);
test_eq(8, smartlist_len(sl));
test_streq("", smartlist_get(sl, 4));
test_streq("def", smartlist_get(sl, 5));
test_streq(" ", smartlist_get(sl, 6));
test_streq("ghijk", smartlist_get(sl, 7));
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
smartlist_split_string(sl, "a,bbd,cdef", ",", SPLIT_SKIP_SPACE, 0);
test_eq(3, smartlist_len(sl));
test_streq("a", smartlist_get(sl,0));
test_streq("bbd", smartlist_get(sl,1));
test_streq("cdef", smartlist_get(sl,2));
smartlist_split_string(sl, " z <> zhasd <> <> bnud<> ", "<>",
SPLIT_SKIP_SPACE, 0);
test_eq(8, smartlist_len(sl));
test_streq("z", smartlist_get(sl,3));
test_streq("zhasd", smartlist_get(sl,4));
test_streq("", smartlist_get(sl,5));
test_streq("bnud", smartlist_get(sl,6));
test_streq("", smartlist_get(sl,7));
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
smartlist_split_string(sl, " ab\tc \td ef ", NULL,
SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
test_eq(4, smartlist_len(sl));
test_streq("ab", smartlist_get(sl,0));
test_streq("c", smartlist_get(sl,1));
test_streq("d", smartlist_get(sl,2));
test_streq("ef", smartlist_get(sl,3));
smartlist_split_string(sl, "ghi\tj", NULL,
SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
test_eq(6, smartlist_len(sl));
test_streq("ghi", smartlist_get(sl,4));
test_streq("j", smartlist_get(sl,5));
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
cp = smartlist_join_strings(sl, "XY", 0, NULL);
test_streq(cp, "");
tor_free(cp);
cp = smartlist_join_strings(sl, "XY", 1, NULL);
test_streq(cp, "XY");
tor_free(cp);
smartlist_split_string(sl, " z <> zhasd <> <> bnud<> ", "<>",
SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
test_eq(3, smartlist_len(sl));
test_streq("z", smartlist_get(sl, 0));
test_streq("zhasd", smartlist_get(sl, 1));
test_streq("bnud", smartlist_get(sl, 2));
smartlist_split_string(sl, " z <> zhasd <> <> bnud<> ", "<>",
SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 2);
test_eq(5, smartlist_len(sl));
test_streq("z", smartlist_get(sl, 3));
test_streq("zhasd <> <> bnud<>", smartlist_get(sl, 4));
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
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smartlist_split_string(sl, "abcd\n", "\n",
SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
2004-11-07 23:58:16 +01:00
test_eq(1, smartlist_len(sl));
test_streq("abcd", smartlist_get(sl, 0));
smartlist_split_string(sl, "efgh", "\n",
SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
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test_eq(2, smartlist_len(sl));
test_streq("efgh", smartlist_get(sl, 1));
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
/* Test swapping, shuffling, and sorting. */
smartlist_split_string(sl, "the,onion,router,by,arma,and,nickm", ",", 0, 0);
test_eq(7, smartlist_len(sl));
smartlist_sort(sl, _compare_strs);
cp = smartlist_join_strings(sl, ",", 0, NULL);
test_streq(cp,"and,arma,by,nickm,onion,router,the");
tor_free(cp);
smartlist_swap(sl, 1, 5);
cp = smartlist_join_strings(sl, ",", 0, NULL);
test_streq(cp,"and,router,by,nickm,onion,arma,the");
tor_free(cp);
smartlist_shuffle(sl);
test_eq(7, smartlist_len(sl));
test_assert(smartlist_string_isin(sl, "and"));
test_assert(smartlist_string_isin(sl, "router"));
test_assert(smartlist_string_isin(sl, "by"));
test_assert(smartlist_string_isin(sl, "nickm"));
test_assert(smartlist_string_isin(sl, "onion"));
test_assert(smartlist_string_isin(sl, "arma"));
test_assert(smartlist_string_isin(sl, "the"));
/* Test bsearch. */
smartlist_sort(sl, _compare_strs);
test_streq("nickm", smartlist_bsearch(sl, "zNicKM",
_compare_without_first_ch));
test_streq("and", smartlist_bsearch(sl, " AND", _compare_without_first_ch));
test_eq_ptr(NULL, smartlist_bsearch(sl, " ANz", _compare_without_first_ch));
/* Test bsearch_idx */
{
int f;
test_eq(0, smartlist_bsearch_idx(sl," aaa",_compare_without_first_ch,&f));
test_eq(f, 0);
test_eq(0, smartlist_bsearch_idx(sl," and",_compare_without_first_ch,&f));
test_eq(f, 1);
test_eq(1, smartlist_bsearch_idx(sl," arm",_compare_without_first_ch,&f));
test_eq(f, 0);
test_eq(1, smartlist_bsearch_idx(sl," arma",_compare_without_first_ch,&f));
test_eq(f, 1);
test_eq(2, smartlist_bsearch_idx(sl," armb",_compare_without_first_ch,&f));
test_eq(f, 0);
test_eq(7, smartlist_bsearch_idx(sl," zzzz",_compare_without_first_ch,&f));
test_eq(f, 0);
}
/* Test reverse() and pop_last() */
smartlist_reverse(sl);
cp = smartlist_join_strings(sl, ",", 0, NULL);
test_streq(cp,"the,router,onion,nickm,by,arma,and");
tor_free(cp);
cp = smartlist_pop_last(sl);
test_streq(cp, "and");
tor_free(cp);
test_eq(smartlist_len(sl), 6);
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
cp = smartlist_pop_last(sl);
test_eq(cp, NULL);
/* Test uniq() */
smartlist_split_string(sl,
"50,noon,radar,a,man,a,plan,a,canal,panama,radar,noon,50",
",", 0, 0);
smartlist_sort(sl, _compare_strs);
smartlist_uniq(sl, _compare_strs, _tor_free);
cp = smartlist_join_strings(sl, ",", 0, NULL);
test_streq(cp, "50,a,canal,man,noon,panama,plan,radar");
tor_free(cp);
/* Test string_isin and isin_case and num_isin */
test_assert(smartlist_string_isin(sl, "noon"));
test_assert(!smartlist_string_isin(sl, "noonoon"));
test_assert(smartlist_string_isin_case(sl, "nOOn"));
test_assert(!smartlist_string_isin_case(sl, "nooNooN"));
test_assert(smartlist_string_num_isin(sl, 50));
test_assert(!smartlist_string_num_isin(sl, 60));
/* Test smartlist_choose */
{
int i;
int allsame = 1;
int allin = 1;
void *first = smartlist_choose(sl);
test_assert(smartlist_isin(sl, first));
for (i = 0; i < 100; ++i) {
void *second = smartlist_choose(sl);
if (second != first)
allsame = 0;
if (!smartlist_isin(sl, second))
allin = 0;
}
test_assert(!allsame);
test_assert(allin);
}
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
/* Test string_remove and remove and join_strings2 */
smartlist_split_string(sl,
"Some say the Earth will end in ice and some in fire",
" ", 0, 0);
cp = smartlist_get(sl, 4);
test_streq(cp, "will");
smartlist_add(sl, cp);
smartlist_remove(sl, cp);
tor_free(cp);
cp = smartlist_join_strings(sl, ",", 0, NULL);
test_streq(cp, "Some,say,the,Earth,fire,end,in,ice,and,some,in");
tor_free(cp);
smartlist_string_remove(sl, "in");
cp = smartlist_join_strings2(sl, "+XX", 1, 0, &sz);
test_streq(cp, "Some+say+the+Earth+fire+end+some+ice+and");
test_eq((int)sz, 40);
tor_free(cp);
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
{
smartlist_t *ints = smartlist_create();
smartlist_t *odds = smartlist_create();
smartlist_t *evens = smartlist_create();
smartlist_t *primes = smartlist_create();
int i;
for (i=1; i < 10; i += 2)
2006-10-23 07:36:56 +02:00
smartlist_add(odds, (void*)(uintptr_t)i);
for (i=0; i < 10; i += 2)
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smartlist_add(evens, (void*)(uintptr_t)i);
/* add_all */
smartlist_add_all(ints, odds);
smartlist_add_all(ints, evens);
test_eq(smartlist_len(ints), 10);
smartlist_add(primes, (void*)2);
smartlist_add(primes, (void*)3);
smartlist_add(primes, (void*)5);
smartlist_add(primes, (void*)7);
/* overlap */
test_assert(smartlist_overlap(ints, odds));
test_assert(smartlist_overlap(odds, primes));
test_assert(smartlist_overlap(evens, primes));
test_assert(!smartlist_overlap(odds, evens));
/* intersect */
smartlist_add_all(sl, odds);
smartlist_intersect(sl, primes);
test_eq(smartlist_len(sl), 3);
test_assert(smartlist_isin(sl, (void*)3));
test_assert(smartlist_isin(sl, (void*)5));
test_assert(smartlist_isin(sl, (void*)7));
/* subtract */
smartlist_add_all(sl, primes);
smartlist_subtract(sl, odds);
test_eq(smartlist_len(sl), 1);
test_assert(smartlist_isin(sl, (void*)2));
smartlist_free(odds);
smartlist_free(evens);
smartlist_free(ints);
smartlist_free(primes);
smartlist_clear(sl);
}
{
/* digest_isin. */
smartlist_add(sl, tor_memdup("AAAAAAAAAAAAAAAAAAAA", DIGEST_LEN));
smartlist_add(sl, tor_memdup("\00090AAB2AAAAaasdAAAAA", DIGEST_LEN));
smartlist_add(sl, tor_memdup("\00090AAB2AAAAaasdAAAAA", DIGEST_LEN));
test_eq(0, smartlist_digest_isin(NULL, "AAAAAAAAAAAAAAAAAAAA"));
test_assert(smartlist_digest_isin(sl, "AAAAAAAAAAAAAAAAAAAA"));
test_assert(smartlist_digest_isin(sl, "\00090AAB2AAAAaasdAAAAA"));
test_eq(0, smartlist_digest_isin(sl, "\00090AAB2AAABaasdAAAAA"));
/* sort digests */
smartlist_sort_digests(sl);
test_memeq(smartlist_get(sl, 0), "\00090AAB2AAAAaasdAAAAA", DIGEST_LEN);
test_memeq(smartlist_get(sl, 1), "\00090AAB2AAAAaasdAAAAA", DIGEST_LEN);
test_memeq(smartlist_get(sl, 2), "AAAAAAAAAAAAAAAAAAAA", DIGEST_LEN);
test_eq(3, smartlist_len(sl));
/* uniq_digests */
smartlist_uniq_digests(sl);
test_eq(2, smartlist_len(sl));
test_memeq(smartlist_get(sl, 0), "\00090AAB2AAAAaasdAAAAA", DIGEST_LEN);
test_memeq(smartlist_get(sl, 1), "AAAAAAAAAAAAAAAAAAAA", DIGEST_LEN);
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
}
{
smartlist_t *sl2 = smartlist_create(), *sl3 = smartlist_create(),
*sl4 = smartlist_create();
/* unique, sorted. */
smartlist_split_string(sl,
"Abashments Ambush Anchorman Bacon Banks Borscht "
"Bunks Inhumane Insurance Knish Know Manners "
"Maraschinos Stamina Sunbonnets Unicorns Wombats",
" ", 0, 0);
/* non-unique, sorted. */
smartlist_split_string(sl2,
"Ambush Anchorman Anchorman Anemias Anemias Bacon "
"Crossbowmen Inhumane Insurance Knish Know Manners "
"Manners Maraschinos Wombats Wombats Work",
" ", 0, 0);
SMARTLIST_FOREACH_JOIN(sl, char *, cp1,
sl2, char *, cp2,
strcmp(cp1,cp2),
smartlist_add(sl3, cp2)) {
test_streq(cp1, cp2);
smartlist_add(sl4, cp1);
} SMARTLIST_FOREACH_JOIN_END(cp1, cp2);
SMARTLIST_FOREACH(sl3, const char *, cp,
test_assert(smartlist_isin(sl2, cp) &&
!smartlist_string_isin(sl, cp)));
SMARTLIST_FOREACH(sl4, const char *, cp,
test_assert(smartlist_isin(sl, cp) &&
smartlist_string_isin(sl2, cp)));
cp = smartlist_join_strings(sl3, ",", 0, NULL);
test_streq(cp, "Anemias,Anemias,Crossbowmen,Work");
tor_free(cp);
cp = smartlist_join_strings(sl4, ",", 0, NULL);
test_streq(cp, "Ambush,Anchorman,Anchorman,Bacon,Inhumane,Insurance,"
"Knish,Know,Manners,Manners,Maraschinos,Wombats,Wombats");
tor_free(cp);
smartlist_free(sl4);
smartlist_free(sl3);
SMARTLIST_FOREACH(sl2, char *, cp, tor_free(cp));
smartlist_free(sl2);
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
smartlist_clear(sl);
}
smartlist_free(sl);
}
static void
test_util_bitarray(void)
{
bitarray_t *ba;
int i, j, ok=1;
ba = bitarray_init_zero(1);
test_assert(! bitarray_is_set(ba, 0));
bitarray_set(ba, 0);
test_assert(bitarray_is_set(ba, 0));
bitarray_clear(ba, 0);
test_assert(! bitarray_is_set(ba, 0));
bitarray_free(ba);
ba = bitarray_init_zero(1023);
for (i = 1; i < 64; ) {
for (j = 0; j < 1023; ++j) {
if (j % i)
bitarray_set(ba, j);
else
bitarray_clear(ba, j);
}
for (j = 0; j < 1023; ++j) {
if (!bool_eq(bitarray_is_set(ba, j), j%i))
ok = 0;
}
test_assert(ok);
if (i < 7)
++i;
else if (i == 28)
i = 32;
else
i += 7;
}
bitarray_free(ba);
}
static void
test_util_digestset(void)
{
smartlist_t *included = smartlist_create();
char d[DIGEST_LEN];
int i;
int ok = 1;
int false_positives = 0;
digestset_t *set;
for (i = 0; i < 1000; ++i) {
crypto_rand(d, DIGEST_LEN);
smartlist_add(included, tor_memdup(d, DIGEST_LEN));
}
set = digestset_new(1000);
SMARTLIST_FOREACH(included, const char *, cp,
if (digestset_isin(set, cp))
ok = 0);
test_assert(ok);
SMARTLIST_FOREACH(included, const char *, cp,
digestset_add(set, cp));
SMARTLIST_FOREACH(included, const char *, cp,
if (!digestset_isin(set, cp))
ok = 0);
test_assert(ok);
for (i = 0; i < 1000; ++i) {
crypto_rand(d, DIGEST_LEN);
if (digestset_isin(set, d))
++false_positives;
}
test_assert(false_positives < 50); /* Should be far lower. */
digestset_free(set);
}
/* stop threads running at once. */
static tor_mutex_t *_thread_test_mutex = NULL;
/* make sure that threads have to run at the same time. */
static tor_mutex_t *_thread_test_start1 = NULL;
static tor_mutex_t *_thread_test_start2 = NULL;
static strmap_t *_thread_test_strmap = NULL;
static void _thread_test_func(void* _s) ATTR_NORETURN;
static int t1_count = 0;
static int t2_count = 0;
static void
_thread_test_func(void* _s)
{
char *s = _s;
int i, *count;
tor_mutex_t *m;
char buf[64];
char *cp;
if (!strcmp(s, "thread 1")) {
m = _thread_test_start1;
count = &t1_count;
} else {
m = _thread_test_start2;
count = &t2_count;
}
tor_mutex_acquire(m);
tor_snprintf(buf, sizeof(buf), "%lu", tor_get_thread_id());
cp = tor_strdup(buf);
for (i=0; i<10000; ++i) {
tor_mutex_acquire(_thread_test_mutex);
strmap_set(_thread_test_strmap, "last to run", cp);
++*count;
tor_mutex_release(_thread_test_mutex);
}
tor_mutex_acquire(_thread_test_mutex);
strmap_set(_thread_test_strmap, s, tor_strdup(buf));
tor_mutex_release(_thread_test_mutex);
tor_mutex_release(m);
spawn_exit();
}
static void
test_util_threads(void)
{
char *s1, *s2;
int done = 0, timedout = 0;
time_t started;
#ifndef TOR_IS_MULTITHREADED
/* Skip this test if we aren't threading. We should be threading most
* everywhere by now. */
if (1)
return;
#endif
_thread_test_mutex = tor_mutex_new();
_thread_test_start1 = tor_mutex_new();
_thread_test_start2 = tor_mutex_new();
_thread_test_strmap = strmap_new();
s1 = tor_strdup("thread 1");
s2 = tor_strdup("thread 2");
tor_mutex_acquire(_thread_test_start1);
tor_mutex_acquire(_thread_test_start2);
spawn_func(_thread_test_func, s1);
spawn_func(_thread_test_func, s2);
tor_mutex_release(_thread_test_start2);
tor_mutex_release(_thread_test_start1);
started = time(NULL);
while (!done) {
tor_mutex_acquire(_thread_test_mutex);
strmap_assert_ok(_thread_test_strmap);
if (strmap_get(_thread_test_strmap, "thread 1") &&
strmap_get(_thread_test_strmap, "thread 2")) {
done = 1;
} else if (time(NULL) > started + 25) {
timedout = done = 1;
}
tor_mutex_release(_thread_test_mutex);
}
tor_mutex_free(_thread_test_mutex);
if (timedout) {
printf("\nTimed out: %d %d", t1_count, t2_count);
test_assert(strmap_get(_thread_test_strmap, "thread 1"));
test_assert(strmap_get(_thread_test_strmap, "thread 2"));
test_assert(!timedout);
}
/* different thread IDs. */
test_assert(strcmp(strmap_get(_thread_test_strmap, "thread 1"),
strmap_get(_thread_test_strmap, "thread 2")));
test_assert(!strcmp(strmap_get(_thread_test_strmap, "thread 1"),
strmap_get(_thread_test_strmap, "last to run")) ||
!strcmp(strmap_get(_thread_test_strmap, "thread 2"),
strmap_get(_thread_test_strmap, "last to run")));
strmap_free(_thread_test_strmap, _tor_free);
tor_free(s1);
tor_free(s2);
}
static int
_compare_strings_for_pqueue(const void *s1, const void *s2)
{
return strcmp((const char*)s1, (const char*)s2);
}
static void
test_util_pqueue(void)
{
smartlist_t *sl;
int (*cmp)(const void *, const void*);
#define OK() smartlist_pqueue_assert_ok(sl, cmp)
cmp = _compare_strings_for_pqueue;
sl = smartlist_create();
smartlist_pqueue_add(sl, cmp, (char*)"cows");
smartlist_pqueue_add(sl, cmp, (char*)"zebras");
smartlist_pqueue_add(sl, cmp, (char*)"fish");
smartlist_pqueue_add(sl, cmp, (char*)"frogs");
smartlist_pqueue_add(sl, cmp, (char*)"apples");
smartlist_pqueue_add(sl, cmp, (char*)"squid");
smartlist_pqueue_add(sl, cmp, (char*)"daschunds");
smartlist_pqueue_add(sl, cmp, (char*)"eggplants");
smartlist_pqueue_add(sl, cmp, (char*)"weissbier");
smartlist_pqueue_add(sl, cmp, (char*)"lobsters");
smartlist_pqueue_add(sl, cmp, (char*)"roquefort");
OK();
test_eq(smartlist_len(sl), 11);
test_streq(smartlist_get(sl, 0), "apples");
test_streq(smartlist_pqueue_pop(sl, cmp), "apples");
test_eq(smartlist_len(sl), 10);
OK();
test_streq(smartlist_pqueue_pop(sl, cmp), "cows");
test_streq(smartlist_pqueue_pop(sl, cmp), "daschunds");
smartlist_pqueue_add(sl, cmp, (char*)"chinchillas");
OK();
smartlist_pqueue_add(sl, cmp, (char*)"fireflies");
OK();
test_streq(smartlist_pqueue_pop(sl, cmp), "chinchillas");
test_streq(smartlist_pqueue_pop(sl, cmp), "eggplants");
test_streq(smartlist_pqueue_pop(sl, cmp), "fireflies");
OK();
test_streq(smartlist_pqueue_pop(sl, cmp), "fish");
test_streq(smartlist_pqueue_pop(sl, cmp), "frogs");
test_streq(smartlist_pqueue_pop(sl, cmp), "lobsters");
test_streq(smartlist_pqueue_pop(sl, cmp), "roquefort");
OK();
test_eq(smartlist_len(sl), 3);
test_streq(smartlist_pqueue_pop(sl, cmp), "squid");
test_streq(smartlist_pqueue_pop(sl, cmp), "weissbier");
test_streq(smartlist_pqueue_pop(sl, cmp), "zebras");
test_eq(smartlist_len(sl), 0);
OK();
#undef OK
smartlist_free(sl);
}
static void
test_util_gzip(void)
{
char *buf1, *buf2=NULL, *buf3=NULL, *cp1, *cp2;
const char *ccp2;
size_t len1, len2;
tor_zlib_state_t *state;
buf1 = tor_strdup("AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAZAAAAAAAAAAAAAAAAAAAZ");
test_assert(detect_compression_method(buf1, strlen(buf1)) == UNKNOWN_METHOD);
if (is_gzip_supported()) {
test_assert(!tor_gzip_compress(&buf2, &len1, buf1, strlen(buf1)+1,
GZIP_METHOD));
test_assert(buf2);
test_assert(!memcmp(buf2, "\037\213", 2)); /* Gzip magic. */
test_assert(detect_compression_method(buf2, len1) == GZIP_METHOD);
test_assert(!tor_gzip_uncompress(&buf3, &len2, buf2, len1,
GZIP_METHOD, 1, LOG_INFO));
test_assert(buf3);
test_streq(buf1,buf3);
tor_free(buf2);
tor_free(buf3);
}
test_assert(!tor_gzip_compress(&buf2, &len1, buf1, strlen(buf1)+1,
ZLIB_METHOD));
test_assert(buf2);
test_assert(!memcmp(buf2, "\x78\xDA", 2)); /* deflate magic. */
test_assert(detect_compression_method(buf2, len1) == ZLIB_METHOD);
test_assert(!tor_gzip_uncompress(&buf3, &len2, buf2, len1,
ZLIB_METHOD, 1, LOG_INFO));
test_assert(buf3);
test_streq(buf1,buf3);
/* Check whether we can uncompress concatenated, compresed strings. */
tor_free(buf3);
buf2 = tor_realloc(buf2, len1*2);
memcpy(buf2+len1, buf2, len1);
test_assert(!tor_gzip_uncompress(&buf3, &len2, buf2, len1*2,
ZLIB_METHOD, 1, LOG_INFO));
test_eq(len2, (strlen(buf1)+1)*2);
test_memeq(buf3,
"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAZAAAAAAAAAAAAAAAAAAAZ\0"
"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAZAAAAAAAAAAAAAAAAAAAZ\0",
(strlen(buf1)+1)*2);
tor_free(buf1);
tor_free(buf2);
tor_free(buf3);
/* Check whether we can uncompress partial strings. */
buf1 =
tor_strdup("String with low redundancy that won't be compressed much.");
test_assert(!tor_gzip_compress(&buf2, &len1, buf1, strlen(buf1)+1,
ZLIB_METHOD));
tor_assert(len1>16);
/* when we allow an uncomplete string, we should succeed.*/
tor_assert(!tor_gzip_uncompress(&buf3, &len2, buf2, len1-16,
ZLIB_METHOD, 0, LOG_INFO));
buf3[len2]='\0';
tor_assert(len2 > 5);
tor_assert(!strcmpstart(buf1, buf3));
/* when we demand a complete string, this must fail. */
tor_free(buf3);
tor_assert(tor_gzip_uncompress(&buf3, &len2, buf2, len1-16,
ZLIB_METHOD, 1, LOG_INFO));
tor_assert(!buf3);
/* Now, try streaming compression. */
tor_free(buf1);
tor_free(buf2);
tor_free(buf3);
state = tor_zlib_new(1, ZLIB_METHOD);
tor_assert(state);
cp1 = buf1 = tor_malloc(1024);
len1 = 1024;
ccp2 = "ABCDEFGHIJABCDEFGHIJ";
len2 = 21;
test_assert(tor_zlib_process(state, &cp1, &len1, &ccp2, &len2, 0)
== TOR_ZLIB_OK);
test_eq(len2, 0); /* Make sure we compressed it all. */
test_assert(cp1 > buf1);
len2 = 0;
cp2 = cp1;
test_assert(tor_zlib_process(state, &cp1, &len1, &ccp2, &len2, 1)
== TOR_ZLIB_DONE);
test_eq(len2, 0);
test_assert(cp1 > cp2); /* Make sure we really added something. */
tor_assert(!tor_gzip_uncompress(&buf3, &len2, buf1, 1024-len1,
ZLIB_METHOD, 1, LOG_WARN));
test_streq(buf3, "ABCDEFGHIJABCDEFGHIJ"); /*Make sure it compressed right.*/
tor_free(buf3);
tor_zlib_free(state);
tor_free(buf2);
tor_free(buf3);
tor_free(buf1);
}
static void
test_util_strmap(void)
{
strmap_t *map;
strmap_iter_t *iter;
const char *k;
void *v;
char *visited;
smartlist_t *found_keys;
map = strmap_new();
test_eq(strmap_size(map), 0);
test_assert(strmap_isempty(map));
v = strmap_set(map, "K1", (void*)99);
test_eq(v, NULL);
test_assert(!strmap_isempty(map));
v = strmap_set(map, "K2", (void*)101);
test_eq(v, NULL);
v = strmap_set(map, "K1", (void*)100);
test_eq(v, (void*)99);
test_eq_ptr(strmap_get(map,"K1"), (void*)100);
test_eq_ptr(strmap_get(map,"K2"), (void*)101);
test_eq_ptr(strmap_get(map,"K-not-there"), NULL);
strmap_assert_ok(map);
v = strmap_remove(map,"K2");
strmap_assert_ok(map);
test_eq_ptr(v, (void*)101);
test_eq_ptr(strmap_get(map,"K2"), NULL);
test_eq_ptr(strmap_remove(map,"K2"), NULL);
strmap_set(map, "K2", (void*)101);
strmap_set(map, "K3", (void*)102);
strmap_set(map, "K4", (void*)103);
test_eq(strmap_size(map), 4);
strmap_assert_ok(map);
strmap_set(map, "K5", (void*)104);
strmap_set(map, "K6", (void*)105);
strmap_assert_ok(map);
/* Test iterator. */
iter = strmap_iter_init(map);
found_keys = smartlist_create();
while (!strmap_iter_done(iter)) {
strmap_iter_get(iter,&k,&v);
smartlist_add(found_keys, tor_strdup(k));
test_eq_ptr(v, strmap_get(map, k));
if (!strcmp(k, "K2")) {
iter = strmap_iter_next_rmv(map,iter);
} else {
iter = strmap_iter_next(map,iter);
}
}
/* Make sure we removed K2, but not the others. */
test_eq_ptr(strmap_get(map, "K2"), NULL);
test_eq_ptr(strmap_get(map, "K5"), (void*)104);
/* Make sure we visited everyone once */
smartlist_sort_strings(found_keys);
visited = smartlist_join_strings(found_keys, ":", 0, NULL);
test_streq(visited, "K1:K2:K3:K4:K5:K6");
tor_free(visited);
SMARTLIST_FOREACH(found_keys, char *, cp, tor_free(cp));
smartlist_free(found_keys);
strmap_assert_ok(map);
/* Clean up after ourselves. */
strmap_free(map, NULL);
/* Now try some lc functions. */
map = strmap_new();
strmap_set_lc(map,"Ab.C", (void*)1);
test_eq_ptr(strmap_get(map,"ab.c"), (void*)1);
strmap_assert_ok(map);
test_eq_ptr(strmap_get_lc(map,"AB.C"), (void*)1);
test_eq_ptr(strmap_get(map,"AB.C"), NULL);
test_eq_ptr(strmap_remove_lc(map,"aB.C"), (void*)1);
strmap_assert_ok(map);
test_eq_ptr(strmap_get_lc(map,"AB.C"), NULL);
strmap_free(map,NULL);
}
static void
test_util_mmap(void)
{
char *fname1 = tor_strdup(get_fname("mapped_1"));
char *fname2 = tor_strdup(get_fname("mapped_2"));
char *fname3 = tor_strdup(get_fname("mapped_3"));
const size_t buflen = 17000;
char *buf = tor_malloc(17000);
tor_mmap_t *mapping;
crypto_rand(buf, buflen);
mapping = tor_mmap_file(fname1);
test_assert(! mapping);
write_str_to_file(fname1, "Short file.", 1);
write_bytes_to_file(fname2, buf, buflen, 1);
write_bytes_to_file(fname3, buf, 16384, 1);
mapping = tor_mmap_file(fname1);
test_assert(mapping);
test_eq(mapping->size, strlen("Short file."));
test_streq(mapping->data, "Short file.");
#ifdef MS_WINDOWS
tor_munmap_file(mapping);
test_assert(unlink(fname1) == 0);
#else
/* make sure we can unlink. */
test_assert(unlink(fname1) == 0);
test_streq(mapping->data, "Short file.");
tor_munmap_file(mapping);
#endif
/* Now a zero-length file. */
write_str_to_file(fname1, "", 1);
mapping = tor_mmap_file(fname1);
test_eq(mapping, NULL);
test_eq(ERANGE, errno);
unlink(fname1);
/* Make sure that we fail to map a no-longer-existent file. */
mapping = tor_mmap_file(fname1);
test_assert(mapping == NULL);
/* Now try a big file that stretches across a few pages and isn't aligned */
mapping = tor_mmap_file(fname2);
test_assert(mapping);
test_eq(mapping->size, buflen);
test_memeq(mapping->data, buf, buflen);
tor_munmap_file(mapping);
/* Now try a big aligned file. */
mapping = tor_mmap_file(fname3);
test_assert(mapping);
test_eq(mapping->size, 16384);
test_memeq(mapping->data, buf, 16384);
tor_munmap_file(mapping);
/* fname1 got unlinked above */
unlink(fname2);
unlink(fname3);
tor_free(fname1);
tor_free(fname2);
tor_free(fname3);
tor_free(buf);
}
static void
test_util_control_formats(void)
{
char *out;
const char *inp =
"..This is a test\r\nof the emergency \nbroadcast\r\n..system.\r\nZ.\r\n";
size_t sz;
sz = read_escaped_data(inp, strlen(inp), &out);
test_streq(out,
".This is a test\nof the emergency \nbroadcast\n.system.\nZ.\n");
test_eq(sz, strlen(out));
tor_free(out);
}
static void
test_onion_handshake(void)
{
/* client-side */
crypto_dh_env_t *c_dh = NULL;
char c_buf[ONIONSKIN_CHALLENGE_LEN];
char c_keys[40];
/* server-side */
char s_buf[ONIONSKIN_REPLY_LEN];
char s_keys[40];
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/* shared */
crypto_pk_env_t *pk = NULL;
pk = pk_generate(0);
/* client handshake 1. */
memset(c_buf, 0, ONIONSKIN_CHALLENGE_LEN);
test_assert(! onion_skin_create(pk, &c_dh, c_buf));
/* server handshake */
memset(s_buf, 0, ONIONSKIN_REPLY_LEN);
memset(s_keys, 0, 40);
test_assert(! onion_skin_server_handshake(c_buf, pk, NULL,
s_buf, s_keys, 40));
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/* client handshake 2 */
memset(c_keys, 0, 40);
test_assert(! onion_skin_client_handshake(c_dh, s_buf, c_keys, 40));
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crypto_dh_free(c_dh);
if (memcmp(c_keys, s_keys, 40)) {
puts("Aiiiie");
exit(1);
}
test_memeq(c_keys, s_keys, 40);
memset(s_buf, 0, 40);
test_memneq(c_keys, s_buf, 40);
crypto_free_pk_env(pk);
}
extern smartlist_t *fingerprint_list;
static void
test_dir_format(void)
{
char buf[8192], buf2[8192];
char platform[256];
char fingerprint[FINGERPRINT_LEN+1];
char *pk1_str = NULL, *pk2_str = NULL, *pk3_str = NULL, *cp;
size_t pk1_str_len, pk2_str_len, pk3_str_len;
routerinfo_t *r1, *r2;
crypto_pk_env_t *pk1 = NULL, *pk2 = NULL, *pk3 = NULL;
routerinfo_t *rp1 = NULL, *rp2 = NULL;
addr_policy_t *ex1, *ex2;
routerlist_t *dir1 = NULL, *dir2 = NULL;
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tor_version_t ver1;
pk1 = pk_generate(0);
pk2 = pk_generate(1);
pk3 = pk_generate(2);
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test_assert( is_legal_nickname("a"));
test_assert(!is_legal_nickname(""));
test_assert(!is_legal_nickname("abcdefghijklmnopqrst")); /* 20 chars */
test_assert(!is_legal_nickname("hyphen-")); /* bad char */
test_assert( is_legal_nickname("abcdefghijklmnopqrs")); /* 19 chars */
test_assert(!is_legal_nickname("$AAAAAAAA01234AAAAAAAAAAAAAAAAAAAAAAAAAAA"));
/* valid */
test_assert( is_legal_nickname_or_hexdigest(
"$AAAAAAAA01234AAAAAAAAAAAAAAAAAAAAAAAAAAA"));
test_assert( is_legal_nickname_or_hexdigest(
"$AAAAAAAA01234AAAAAAAAAAAAAAAAAAAAAAAAAAA=fred"));
test_assert( is_legal_nickname_or_hexdigest(
"$AAAAAAAA01234AAAAAAAAAAAAAAAAAAAAAAAAAAA~fred"));
/* too short */
test_assert(!is_legal_nickname_or_hexdigest(
"$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"));
/* illegal char */
test_assert(!is_legal_nickname_or_hexdigest(
"$AAAAAAzAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"));
/* hex part too long */
test_assert(!is_legal_nickname_or_hexdigest(
"$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"));
test_assert(!is_legal_nickname_or_hexdigest(
"$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=fred"));
/* Bad nickname */
test_assert(!is_legal_nickname_or_hexdigest(
"$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA="));
test_assert(!is_legal_nickname_or_hexdigest(
"$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA~"));
test_assert(!is_legal_nickname_or_hexdigest(
"$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA~hyphen-"));
test_assert(!is_legal_nickname_or_hexdigest(
"$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA~"
"abcdefghijklmnoppqrst"));
/* Bad extra char. */
test_assert(!is_legal_nickname_or_hexdigest(
"$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA!"));
test_assert(is_legal_nickname_or_hexdigest("xyzzy"));
test_assert(is_legal_nickname_or_hexdigest("abcdefghijklmnopqrs"));
test_assert(!is_legal_nickname_or_hexdigest("abcdefghijklmnopqrst"));
get_platform_str(platform, sizeof(platform));
r1 = tor_malloc_zero(sizeof(routerinfo_t));
r1->address = tor_strdup("18.244.0.1");
r1->addr = 0xc0a80001u; /* 192.168.0.1 */
r1->cache_info.published_on = 0;
r1->or_port = 9000;
r1->dir_port = 9003;
r1->onion_pkey = crypto_pk_dup_key(pk1);
r1->identity_pkey = crypto_pk_dup_key(pk2);
r1->bandwidthrate = 1000;
r1->bandwidthburst = 5000;
r1->bandwidthcapacity = 10000;
r1->exit_policy = NULL;
r1->nickname = tor_strdup("Magri");
r1->platform = tor_strdup(platform);
ex1 = tor_malloc_zero(sizeof(addr_policy_t));
ex2 = tor_malloc_zero(sizeof(addr_policy_t));
ex1->policy_type = ADDR_POLICY_ACCEPT;
tor_addr_from_ipv4h(&ex1->addr, 0);
ex1->maskbits = 0;
ex1->prt_min = ex1->prt_max = 80;
ex2->policy_type = ADDR_POLICY_REJECT;
tor_addr_from_ipv4h(&ex2->addr, 18<<24);
ex2->maskbits = 8;
ex2->prt_min = ex2->prt_max = 24;
r2 = tor_malloc_zero(sizeof(routerinfo_t));
r2->address = tor_strdup("1.1.1.1");
r2->addr = 0x0a030201u; /* 10.3.2.1 */
r2->platform = tor_strdup(platform);
r2->cache_info.published_on = 5;
r2->or_port = 9005;
r2->dir_port = 0;
r2->onion_pkey = crypto_pk_dup_key(pk2);
r2->identity_pkey = crypto_pk_dup_key(pk1);
r2->bandwidthrate = r2->bandwidthburst = r2->bandwidthcapacity = 3000;
r2->exit_policy = smartlist_create();
smartlist_add(r2->exit_policy, ex2);
smartlist_add(r2->exit_policy, ex1);
r2->nickname = tor_strdup("Fred");
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test_assert(!crypto_pk_write_public_key_to_string(pk1, &pk1_str,
&pk1_str_len));
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test_assert(!crypto_pk_write_public_key_to_string(pk2 , &pk2_str,
&pk2_str_len));
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test_assert(!crypto_pk_write_public_key_to_string(pk3 , &pk3_str,
&pk3_str_len));
memset(buf, 0, 2048);
test_assert(router_dump_router_to_string(buf, 2048, r1, pk2)>0);
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strlcpy(buf2, "router Magri 18.244.0.1 9000 0 9003\n"
"platform Tor "VERSION" on ", sizeof(buf2));
strlcat(buf2, get_uname(), sizeof(buf2));
strlcat(buf2, "\n"
"opt protocols Link 1 2 Circuit 1\n"
"published 1970-01-01 00:00:00\n"
"opt fingerprint ", sizeof(buf2));
test_assert(!crypto_pk_get_fingerprint(pk2, fingerprint, 1));
strlcat(buf2, fingerprint, sizeof(buf2));
strlcat(buf2, "\nuptime 0\n"
/* XXX the "0" above is hardcoded, but even if we made it reflect
* uptime, that still wouldn't make it right, because the two
* descriptors might be made on different seconds... hm. */
"bandwidth 1000 5000 10000\n"
"opt extra-info-digest 0000000000000000000000000000000000000000\n"
"onion-key\n", sizeof(buf2));
strlcat(buf2, pk1_str, sizeof(buf2));
strlcat(buf2, "signing-key\n", sizeof(buf2));
strlcat(buf2, pk2_str, sizeof(buf2));
strlcat(buf2, "reject *:*\nrouter-signature\n", sizeof(buf2));
buf[strlen(buf2)] = '\0'; /* Don't compare the sig; it's never the same
* twice */
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test_streq(buf, buf2);
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test_assert(router_dump_router_to_string(buf, 2048, r1, pk2)>0);
cp = buf;
rp1 = router_parse_entry_from_string((const char*)cp,NULL,1,0,NULL);
test_assert(rp1);
test_streq(rp1->address, r1->address);
test_eq(rp1->or_port, r1->or_port);
//test_eq(rp1->dir_port, r1->dir_port);
test_eq(rp1->bandwidthrate, r1->bandwidthrate);
test_eq(rp1->bandwidthburst, r1->bandwidthburst);
test_eq(rp1->bandwidthcapacity, r1->bandwidthcapacity);
test_assert(crypto_pk_cmp_keys(rp1->onion_pkey, pk1) == 0);
test_assert(crypto_pk_cmp_keys(rp1->identity_pkey, pk2) == 0);
//test_assert(rp1->exit_policy == NULL);
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#if 0
/* XXX Once we have exit policies, test this again. XXX */
strlcpy(buf2, "router tor.tor.tor 9005 0 0 3000\n", sizeof(buf2));
strlcat(buf2, pk2_str, sizeof(buf2));
strlcat(buf2, "signing-key\n", sizeof(buf2));
strlcat(buf2, pk1_str, sizeof(buf2));
strlcat(buf2, "accept *:80\nreject 18.*:24\n\n", sizeof(buf2));
test_assert(router_dump_router_to_string(buf, 2048, &r2, pk2)>0);
test_streq(buf, buf2);
cp = buf;
rp2 = router_parse_entry_from_string(&cp,1);
test_assert(rp2);
test_streq(rp2->address, r2.address);
test_eq(rp2->or_port, r2.or_port);
test_eq(rp2->dir_port, r2.dir_port);
test_eq(rp2->bandwidth, r2.bandwidth);
test_assert(crypto_pk_cmp_keys(rp2->onion_pkey, pk2) == 0);
test_assert(crypto_pk_cmp_keys(rp2->identity_pkey, pk1) == 0);
test_eq(rp2->exit_policy->policy_type, EXIT_POLICY_ACCEPT);
test_streq(rp2->exit_policy->string, "accept *:80");
test_streq(rp2->exit_policy->address, "*");
test_streq(rp2->exit_policy->port, "80");
test_eq(rp2->exit_policy->next->policy_type, EXIT_POLICY_REJECT);
test_streq(rp2->exit_policy->next->string, "reject 18.*:24");
test_streq(rp2->exit_policy->next->address, "18.*");
test_streq(rp2->exit_policy->next->port, "24");
test_assert(rp2->exit_policy->next->next == NULL);
/* Okay, now for the directories. */
{
fingerprint_list = smartlist_create();
crypto_pk_get_fingerprint(pk2, buf, 1);
add_fingerprint_to_dir("Magri", buf, fingerprint_list);
crypto_pk_get_fingerprint(pk1, buf, 1);
add_fingerprint_to_dir("Fred", buf, fingerprint_list);
}
2006-01-10 21:47:24 +01:00
{
char d[DIGEST_LEN];
const char *m;
/* XXXX NM re-enable. */
/* Make sure routers aren't too far in the past any more. */
r1->cache_info.published_on = time(NULL);
r2->cache_info.published_on = time(NULL)-3*60*60;
test_assert(router_dump_router_to_string(buf, 2048, r1, pk2)>0);
test_eq(dirserv_add_descriptor(buf,&m), 2);
test_assert(router_dump_router_to_string(buf, 2048, r2, pk1)>0);
test_eq(dirserv_add_descriptor(buf,&m), 2);
get_options()->Nickname = tor_strdup("DirServer");
test_assert(!dirserv_dump_directory_to_string(&cp,pk3, 0));
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crypto_pk_get_digest(pk3, d);
test_assert(!router_parse_directory(cp));
test_eq(2, smartlist_len(dir1->routers));
2006-01-10 21:47:24 +01:00
tor_free(cp);
}
2005-09-15 07:28:18 +02:00
#endif
dirserv_free_fingerprint_list();
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tor_free(pk1_str);
tor_free(pk2_str);
tor_free(pk3_str);
if (pk1) crypto_free_pk_env(pk1);
if (pk2) crypto_free_pk_env(pk2);
if (pk3) crypto_free_pk_env(pk3);
if (rp1) routerinfo_free(rp1);
if (rp2) routerinfo_free(rp2);
tor_free(dir1); /* XXXX And more !*/
tor_free(dir2); /* And more !*/
routerinfo_free(r1);
routerinfo_free(r2);
/* Try out version parsing functionality */
test_eq(0, tor_version_parse("0.3.4pre2-cvs", &ver1));
test_eq(0, ver1.major);
test_eq(3, ver1.minor);
test_eq(4, ver1.micro);
test_eq(VER_PRE, ver1.status);
test_eq(2, ver1.patchlevel);
test_eq(0, tor_version_parse("0.3.4rc1", &ver1));
test_eq(0, ver1.major);
test_eq(3, ver1.minor);
test_eq(4, ver1.micro);
test_eq(VER_RC, ver1.status);
test_eq(1, ver1.patchlevel);
test_eq(0, tor_version_parse("1.3.4", &ver1));
test_eq(1, ver1.major);
test_eq(3, ver1.minor);
test_eq(4, ver1.micro);
test_eq(VER_RELEASE, ver1.status);
test_eq(0, ver1.patchlevel);
test_eq(0, tor_version_parse("1.3.4.999", &ver1));
test_eq(1, ver1.major);
test_eq(3, ver1.minor);
test_eq(4, ver1.micro);
test_eq(VER_RELEASE, ver1.status);
test_eq(999, ver1.patchlevel);
test_eq(0, tor_version_parse("0.1.2.4-alpha", &ver1));
test_eq(0, ver1.major);
test_eq(1, ver1.minor);
test_eq(2, ver1.micro);
test_eq(4, ver1.patchlevel);
test_eq(VER_RELEASE, ver1.status);
test_streq("alpha", ver1.status_tag);
test_eq(0, tor_version_parse("0.1.2.4", &ver1));
test_eq(0, ver1.major);
test_eq(1, ver1.minor);
test_eq(2, ver1.micro);
test_eq(4, ver1.patchlevel);
test_eq(VER_RELEASE, ver1.status);
test_streq("", ver1.status_tag);
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#define test_eq_vs(vs1, vs2) test_eq_type(version_status_t, "%d", (vs1), (vs2))
#define test_v_i_o(val, ver, lst) \
test_eq_vs(val, tor_version_is_obsolete(ver, lst))
2005-09-23 19:11:20 +02:00
/* make sure tor_version_is_obsolete() works */
test_v_i_o(VS_OLD, "0.0.1", "Tor 0.0.2");
test_v_i_o(VS_OLD, "0.0.1", "0.0.2, Tor 0.0.3");
test_v_i_o(VS_OLD, "0.0.1", "0.0.2,Tor 0.0.3");
test_v_i_o(VS_OLD, "0.0.1","0.0.3,BetterTor 0.0.1");
test_v_i_o(VS_RECOMMENDED, "0.0.2", "Tor 0.0.2,Tor 0.0.3");
test_v_i_o(VS_NEW_IN_SERIES, "0.0.2", "Tor 0.0.2pre1,Tor 0.0.3");
test_v_i_o(VS_OLD, "0.0.2", "Tor 0.0.2.1,Tor 0.0.3");
test_v_i_o(VS_NEW, "0.1.0", "Tor 0.0.2,Tor 0.0.3");
test_v_i_o(VS_RECOMMENDED, "0.0.7rc2", "0.0.7,Tor 0.0.7rc2,Tor 0.0.8");
test_v_i_o(VS_OLD, "0.0.5.0", "0.0.5.1-cvs");
test_v_i_o(VS_NEW_IN_SERIES, "0.0.5.1-cvs", "0.0.5, 0.0.6");
/* Not on list, but newer than any in same series. */
test_v_i_o(VS_NEW_IN_SERIES, "0.1.0.3",
"Tor 0.1.0.2,Tor 0.0.9.5,Tor 0.1.1.0");
/* Series newer than any on list. */
test_v_i_o(VS_NEW, "0.1.2.3", "Tor 0.1.0.2,Tor 0.0.9.5,Tor 0.1.1.0");
/* Series older than any on list. */
test_v_i_o(VS_OLD, "0.0.1.3", "Tor 0.1.0.2,Tor 0.0.9.5,Tor 0.1.1.0");
/* Not on list, not newer than any on same series. */
test_v_i_o(VS_UNRECOMMENDED, "0.1.0.1",
"Tor 0.1.0.2,Tor 0.0.9.5,Tor 0.1.1.0");
/* On list, not newer than any on same series. */
test_v_i_o(VS_UNRECOMMENDED,
"0.1.0.1", "Tor 0.1.0.2,Tor 0.0.9.5,Tor 0.1.1.0");
test_eq(0, tor_version_as_new_as("Tor 0.0.5", "0.0.9pre1-cvs"));
test_eq(1, tor_version_as_new_as(
"Tor 0.0.8 on Darwin 64-121-192-100.c3-0."
"sfpo-ubr1.sfrn-sfpo.ca.cable.rcn.com Power Macintosh",
"0.0.8rc2"));
test_eq(0, tor_version_as_new_as(
"Tor 0.0.8 on Darwin 64-121-192-100.c3-0."
"sfpo-ubr1.sfrn-sfpo.ca.cable.rcn.com Power Macintosh", "0.0.8.2"));
/* Now try svn revisions. */
test_eq(1, tor_version_as_new_as("Tor 0.2.1.0-dev (r100)",
"Tor 0.2.1.0-dev (r99)"));
test_eq(1, tor_version_as_new_as("Tor 0.2.1.0-dev (r100) on Banana Jr",
"Tor 0.2.1.0-dev (r99) on Hal 9000"));
test_eq(1, tor_version_as_new_as("Tor 0.2.1.0-dev (r100)",
"Tor 0.2.1.0-dev on Colossus"));
test_eq(0, tor_version_as_new_as("Tor 0.2.1.0-dev (r99)",
"Tor 0.2.1.0-dev (r100)"));
test_eq(0, tor_version_as_new_as("Tor 0.2.1.0-dev (r99) on MCP",
"Tor 0.2.1.0-dev (r100) on AM"));
test_eq(0, tor_version_as_new_as("Tor 0.2.1.0-dev",
"Tor 0.2.1.0-dev (r99)"));
test_eq(1, tor_version_as_new_as("Tor 0.2.1.1",
"Tor 0.2.1.0-dev (r99)"));
}
extern const char AUTHORITY_CERT_1[];
extern const char AUTHORITY_SIGNKEY_1[];
extern const char AUTHORITY_CERT_2[];
extern const char AUTHORITY_SIGNKEY_2[];
extern const char AUTHORITY_CERT_3[];
extern const char AUTHORITY_SIGNKEY_3[];
static void
test_same_voter(networkstatus_voter_info_t *v1,
networkstatus_voter_info_t *v2)
{
test_streq(v1->nickname, v2->nickname);
test_memeq(v1->identity_digest, v2->identity_digest, DIGEST_LEN);
test_streq(v1->address, v2->address);
test_eq(v1->addr, v2->addr);
test_eq(v1->dir_port, v2->dir_port);
test_eq(v1->or_port, v2->or_port);
test_streq(v1->contact, v2->contact);
test_memeq(v1->vote_digest, v2->vote_digest, DIGEST_LEN);
}
static void
test_util_order_functions(void)
{
int lst[25], n = 0;
// int a=12,b=24,c=25,d=60,e=77;
#define median() median_int(lst, n)
lst[n++] = 12;
test_eq(12, median()); /* 12 */
lst[n++] = 77;
//smartlist_shuffle(sl);
test_eq(12, median()); /* 12, 77 */
lst[n++] = 77;
//smartlist_shuffle(sl);
test_eq(77, median()); /* 12, 77, 77 */
lst[n++] = 24;
test_eq(24, median()); /* 12,24,77,77 */
lst[n++] = 60;
lst[n++] = 12;
lst[n++] = 25;
//smartlist_shuffle(sl);
test_eq(25, median()); /* 12,12,24,25,60,77,77 */
#undef median
}
static routerinfo_t *
generate_ri_from_rs(const vote_routerstatus_t *vrs) {
routerinfo_t *r;
const routerstatus_t *rs = &vrs->status;
static time_t published = 0;
r = tor_malloc_zero(sizeof(routerinfo_t));
memcpy(r->cache_info.identity_digest, rs->identity_digest, DIGEST_LEN);
memcpy(r->cache_info.signed_descriptor_digest, rs->descriptor_digest, DIGEST_LEN);
r->cache_info.do_not_cache = 1;
r->cache_info.routerlist_index = -1;
r->cache_info.signed_descriptor_body = tor_strdup("123456789012345678901234567890123");
r->cache_info.signed_descriptor_len = strlen(r->cache_info.signed_descriptor_body);
r->exit_policy = smartlist_create();
r->cache_info.published_on = ++published + time(NULL);
return r;
};
static void
test_v3_networkstatus(void)
{
authority_cert_t *cert1, *cert2, *cert3;
crypto_pk_env_t *sign_skey_1, *sign_skey_2, *sign_skey_3;
crypto_pk_env_t *sign_skey_leg1;
const char *msg=NULL;
time_t now = time(NULL);
networkstatus_voter_info_t *voter;
networkstatus_t *vote, *v1, *v2, *v3, *con;
vote_routerstatus_t *vrs;
routerstatus_t *rs;
char *v1_text, *v2_text, *v3_text, *consensus_text, *cp;
smartlist_t *votes = smartlist_create();
/* Parse certificates and keys. */
cert1 = authority_cert_parse_from_string(AUTHORITY_CERT_1, NULL);
test_assert(cert1);
cert2 = authority_cert_parse_from_string(AUTHORITY_CERT_2, NULL);
test_assert(cert2);
cert3 = authority_cert_parse_from_string(AUTHORITY_CERT_3, NULL);
test_assert(cert3);
sign_skey_1 = crypto_new_pk_env();
sign_skey_2 = crypto_new_pk_env();
sign_skey_3 = crypto_new_pk_env();
sign_skey_leg1 = pk_generate(4);
test_assert(!crypto_pk_read_private_key_from_string(sign_skey_1,
AUTHORITY_SIGNKEY_1));
test_assert(!crypto_pk_read_private_key_from_string(sign_skey_2,
AUTHORITY_SIGNKEY_2));
test_assert(!crypto_pk_read_private_key_from_string(sign_skey_3,
AUTHORITY_SIGNKEY_3));
test_assert(!crypto_pk_cmp_keys(sign_skey_1, cert1->signing_key));
test_assert(!crypto_pk_cmp_keys(sign_skey_2, cert2->signing_key));
/*
* Set up a vote; generate it; try to parse it.
*/
vote = tor_malloc_zero(sizeof(networkstatus_t));
vote->type = NS_TYPE_VOTE;
vote->published = now;
vote->valid_after = now+1000;
vote->fresh_until = now+2000;
vote->valid_until = now+3000;
vote->vote_seconds = 100;
vote->dist_seconds = 200;
vote->supported_methods = smartlist_create();
smartlist_split_string(vote->supported_methods, "1 2 3", NULL, 0, -1);
vote->client_versions = tor_strdup("0.1.2.14,0.1.2.15");
vote->server_versions = tor_strdup("0.1.2.14,0.1.2.15,0.1.2.16");
vote->known_flags = smartlist_create();
smartlist_split_string(vote->known_flags,
"Authority Exit Fast Guard Running Stable V2Dir Valid",
0, SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
vote->voters = smartlist_create();
voter = tor_malloc_zero(sizeof(networkstatus_voter_info_t));
voter->nickname = tor_strdup("Voter1");
voter->address = tor_strdup("1.2.3.4");
voter->addr = 0x01020304;
voter->dir_port = 80;
voter->or_port = 9000;
voter->contact = tor_strdup("voter@example.com");
crypto_pk_get_digest(cert1->identity_key, voter->identity_digest);
smartlist_add(vote->voters, voter);
vote->cert = authority_cert_dup(cert1);
vote->routerstatus_list = smartlist_create();
/* add the first routerstatus. */
vrs = tor_malloc_zero(sizeof(vote_routerstatus_t));
rs = &vrs->status;
vrs->version = tor_strdup("0.1.2.14");
rs->published_on = now-1500;
strlcpy(rs->nickname, "router2", sizeof(rs->nickname));
memset(rs->identity_digest, 3, DIGEST_LEN);
memset(rs->descriptor_digest, 78, DIGEST_LEN);
rs->addr = 0x99008801;
rs->or_port = 443;
rs->dir_port = 8000;
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/* all flags but running cleared */
rs->is_running = 1;
smartlist_add(vote->routerstatus_list, vrs);
test_assert(router_add_to_routerlist(generate_ri_from_rs(vrs), &msg, 0, 0) >= 0);
/* add the second routerstatus. */
vrs = tor_malloc_zero(sizeof(vote_routerstatus_t));
rs = &vrs->status;
vrs->version = tor_strdup("0.2.0.5");
rs->published_on = now-1000;
strlcpy(rs->nickname, "router1", sizeof(rs->nickname));
memset(rs->identity_digest, 5, DIGEST_LEN);
memset(rs->descriptor_digest, 77, DIGEST_LEN);
rs->addr = 0x99009901;
rs->or_port = 443;
rs->dir_port = 0;
rs->is_exit = rs->is_stable = rs->is_fast = rs->is_running =
rs->is_valid = rs->is_v2_dir = rs->is_possible_guard = 1;
smartlist_add(vote->routerstatus_list, vrs);
test_assert(router_add_to_routerlist(generate_ri_from_rs(vrs), &msg, 0, 0) >= 0);
/* add the third routerstatus. */
vrs = tor_malloc_zero(sizeof(vote_routerstatus_t));
rs = &vrs->status;
vrs->version = tor_strdup("0.1.0.3");
rs->published_on = now-1000;
strlcpy(rs->nickname, "router3", sizeof(rs->nickname));
memset(rs->identity_digest, 33, DIGEST_LEN);
memset(rs->descriptor_digest, 79, DIGEST_LEN);
rs->addr = 0xAA009901;
rs->or_port = 400;
rs->dir_port = 9999;
rs->is_authority = rs->is_exit = rs->is_stable = rs->is_fast =
rs->is_running = rs->is_valid = rs->is_v2_dir = rs->is_possible_guard = 1;
smartlist_add(vote->routerstatus_list, vrs);
test_assert(router_add_to_routerlist(generate_ri_from_rs(vrs), &msg, 0, 0) >= 0);
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/* add a fourth routerstatus that is not running. */
vrs = tor_malloc_zero(sizeof(vote_routerstatus_t));
rs = &vrs->status;
vrs->version = tor_strdup("0.1.6.3");
rs->published_on = now-1000;
strlcpy(rs->nickname, "router4", sizeof(rs->nickname));
memset(rs->identity_digest, 34, DIGEST_LEN);
memset(rs->descriptor_digest, 48, DIGEST_LEN);
rs->addr = 0xC0000203;
rs->or_port = 500;
rs->dir_port = 1999;
/* Running flag (and others) cleared */
smartlist_add(vote->routerstatus_list, vrs);
test_assert(router_add_to_routerlist(generate_ri_from_rs(vrs), &msg, 0, 0) >= 0);
/* dump the vote and try to parse it. */
v1_text = format_networkstatus_vote(sign_skey_1, vote);
test_assert(v1_text);
v1 = networkstatus_parse_vote_from_string(v1_text, NULL, NS_TYPE_VOTE);
test_assert(v1);
/* Make sure the parsed thing was right. */
test_eq(v1->type, NS_TYPE_VOTE);
test_eq(v1->published, vote->published);
test_eq(v1->valid_after, vote->valid_after);
test_eq(v1->fresh_until, vote->fresh_until);
test_eq(v1->valid_until, vote->valid_until);
test_eq(v1->vote_seconds, vote->vote_seconds);
test_eq(v1->dist_seconds, vote->dist_seconds);
test_streq(v1->client_versions, vote->client_versions);
test_streq(v1->server_versions, vote->server_versions);
test_assert(v1->voters && smartlist_len(v1->voters));
voter = smartlist_get(v1->voters, 0);
test_streq(voter->nickname, "Voter1");
test_streq(voter->address, "1.2.3.4");
test_eq(voter->addr, 0x01020304);
test_eq(voter->dir_port, 80);
test_eq(voter->or_port, 9000);
test_streq(voter->contact, "voter@example.com");
test_assert(v1->cert);
test_assert(!crypto_pk_cmp_keys(sign_skey_1, v1->cert->signing_key));
cp = smartlist_join_strings(v1->known_flags, ":", 0, NULL);
test_streq(cp, "Authority:Exit:Fast:Guard:Running:Stable:V2Dir:Valid");
tor_free(cp);
2008-06-14 01:24:11 +02:00
test_eq(smartlist_len(v1->routerstatus_list), 4);
/* Check the first routerstatus. */
vrs = smartlist_get(v1->routerstatus_list, 0);
rs = &vrs->status;
test_streq(vrs->version, "0.1.2.14");
test_eq(rs->published_on, now-1500);
test_streq(rs->nickname, "router2");
test_memeq(rs->identity_digest,
"\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3",
DIGEST_LEN);
test_memeq(rs->descriptor_digest, "NNNNNNNNNNNNNNNNNNNN", DIGEST_LEN);
test_eq(rs->addr, 0x99008801);
test_eq(rs->or_port, 443);
test_eq(rs->dir_port, 8000);
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test_eq(vrs->flags, U64_LITERAL(16)); // no flags except "running"
/* Check the second routerstatus. */
vrs = smartlist_get(v1->routerstatus_list, 1);
rs = &vrs->status;
test_streq(vrs->version, "0.2.0.5");
test_eq(rs->published_on, now-1000);
test_streq(rs->nickname, "router1");
test_memeq(rs->identity_digest,
"\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5",
DIGEST_LEN);
test_memeq(rs->descriptor_digest, "MMMMMMMMMMMMMMMMMMMM", DIGEST_LEN);
test_eq(rs->addr, 0x99009901);
test_eq(rs->or_port, 443);
test_eq(rs->dir_port, 0);
test_eq(vrs->flags, U64_LITERAL(254)); // all flags except "authority."
/* Generate second vote. It disagrees on some of the times,
* and doesn't list versions, and knows some crazy flags */
vote->published = now+1;
vote->fresh_until = now+3005;
vote->dist_seconds = 300;
authority_cert_free(vote->cert);
vote->cert = authority_cert_dup(cert2);
tor_free(vote->client_versions);
tor_free(vote->server_versions);
voter = smartlist_get(vote->voters, 0);
tor_free(voter->nickname);
tor_free(voter->address);
voter->nickname = tor_strdup("Voter2");
voter->address = tor_strdup("2.3.4.5");
voter->addr = 0x02030405;
crypto_pk_get_digest(cert2->identity_key, voter->identity_digest);
smartlist_add(vote->known_flags, tor_strdup("MadeOfCheese"));
smartlist_add(vote->known_flags, tor_strdup("MadeOfTin"));
smartlist_sort_strings(vote->known_flags);
vrs = smartlist_get(vote->routerstatus_list, 2);
smartlist_del_keeporder(vote->routerstatus_list, 2);
tor_free(vrs->version);
tor_free(vrs);
vrs = smartlist_get(vote->routerstatus_list, 0);
vrs->status.is_fast = 1;
/* generate and parse. */
v2_text = format_networkstatus_vote(sign_skey_2, vote);
test_assert(v2_text);
v2 = networkstatus_parse_vote_from_string(v2_text, NULL, NS_TYPE_VOTE);
test_assert(v2);
/* Check that flags come out right.*/
cp = smartlist_join_strings(v2->known_flags, ":", 0, NULL);
test_streq(cp, "Authority:Exit:Fast:Guard:MadeOfCheese:MadeOfTin:"
"Running:Stable:V2Dir:Valid");
tor_free(cp);
vrs = smartlist_get(v2->routerstatus_list, 1);
/* 1023 - authority(1) - madeofcheese(16) - madeoftin(32) */
test_eq(vrs->flags, U64_LITERAL(974));
/* Generate the third vote. */
vote->published = now;
vote->fresh_until = now+2003;
vote->dist_seconds = 250;
authority_cert_free(vote->cert);
vote->cert = authority_cert_dup(cert3);
smartlist_add(vote->supported_methods, tor_strdup("4"));
vote->client_versions = tor_strdup("0.1.2.14,0.1.2.17");
vote->server_versions = tor_strdup("0.1.2.10,0.1.2.15,0.1.2.16");
voter = smartlist_get(vote->voters, 0);
tor_free(voter->nickname);
tor_free(voter->address);
voter->nickname = tor_strdup("Voter3");
voter->address = tor_strdup("3.4.5.6");
voter->addr = 0x03040506;
crypto_pk_get_digest(cert3->identity_key, voter->identity_digest);
/* This one has a legacy id. */
memset(voter->legacy_id_digest, (int)'A', DIGEST_LEN);
vrs = smartlist_get(vote->routerstatus_list, 0);
smartlist_del_keeporder(vote->routerstatus_list, 0);
tor_free(vrs->version);
tor_free(vrs);
vrs = smartlist_get(vote->routerstatus_list, 0);
memset(vrs->status.descriptor_digest, (int)'Z', DIGEST_LEN);
test_assert(router_add_to_routerlist(generate_ri_from_rs(vrs), &msg, 0, 0) >= 0);
v3_text = format_networkstatus_vote(sign_skey_3, vote);
test_assert(v3_text);
v3 = networkstatus_parse_vote_from_string(v3_text, NULL, NS_TYPE_VOTE);
test_assert(v3);
/* Compute a consensus as voter 3. */
smartlist_add(votes, v3);
smartlist_add(votes, v1);
smartlist_add(votes, v2);
consensus_text = networkstatus_compute_consensus(votes, 3,
cert3->identity_key,
sign_skey_3,
"AAAAAAAAAAAAAAAAAAAA",
sign_skey_leg1);
test_assert(consensus_text);
con = networkstatus_parse_vote_from_string(consensus_text, NULL,
NS_TYPE_CONSENSUS);
test_assert(con);
//log_notice(LD_GENERAL, "<<%s>>\n<<%s>>\n<<%s>>\n",
// v1_text, v2_text, v3_text);
/* Check consensus contents. */
test_assert(con->type == NS_TYPE_CONSENSUS);
test_eq(con->published, 0); /* this field only appears in votes. */
test_eq(con->valid_after, now+1000);
test_eq(con->fresh_until, now+2003); /* median */
test_eq(con->valid_until, now+3000);
test_eq(con->vote_seconds, 100);
test_eq(con->dist_seconds, 250); /* median */
test_streq(con->client_versions, "0.1.2.14");
test_streq(con->server_versions, "0.1.2.15,0.1.2.16");
cp = smartlist_join_strings(v2->known_flags, ":", 0, NULL);
test_streq(cp, "Authority:Exit:Fast:Guard:MadeOfCheese:MadeOfTin:"
"Running:Stable:V2Dir:Valid");
tor_free(cp);
test_eq(4, smartlist_len(con->voters)); /*3 voters, 1 legacy key.*/
/* The voter id digests should be in this order. */
test_assert(memcmp(cert2->cache_info.identity_digest,
cert3->cache_info.identity_digest,DIGEST_LEN)<0);
test_assert(memcmp(cert3->cache_info.identity_digest,
cert1->cache_info.identity_digest,DIGEST_LEN)<0);
test_same_voter(smartlist_get(con->voters, 1),
smartlist_get(v2->voters, 0));
test_same_voter(smartlist_get(con->voters, 2),
smartlist_get(v3->voters, 0));
test_same_voter(smartlist_get(con->voters, 3),
smartlist_get(v1->voters, 0));
test_assert(!con->cert);
test_eq(2, smartlist_len(con->routerstatus_list));
/* There should be two listed routers: one with identity 3, one with
* identity 5. */
/* This one showed up in 2 digests. */
rs = smartlist_get(con->routerstatus_list, 0);
test_memeq(rs->identity_digest,
"\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3\x3",
DIGEST_LEN);
test_memeq(rs->descriptor_digest, "NNNNNNNNNNNNNNNNNNNN", DIGEST_LEN);
test_assert(!rs->is_authority);
test_assert(!rs->is_exit);
test_assert(!rs->is_fast);
test_assert(!rs->is_possible_guard);
test_assert(!rs->is_stable);
2008-06-14 01:24:11 +02:00
test_assert(rs->is_running); /* If it wasn't running it wouldn't be here */
test_assert(!rs->is_v2_dir);
test_assert(!rs->is_valid);
test_assert(!rs->is_named);
/* XXXX check version */
rs = smartlist_get(con->routerstatus_list, 1);
/* This one showed up in 3 digests. Twice with ID 'M', once with 'Z'. */
test_memeq(rs->identity_digest,
"\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5\x5",
DIGEST_LEN);
test_streq(rs->nickname, "router1");
test_memeq(rs->descriptor_digest, "MMMMMMMMMMMMMMMMMMMM", DIGEST_LEN);
test_eq(rs->published_on, now-1000);
test_eq(rs->addr, 0x99009901);
test_eq(rs->or_port, 443);
test_eq(rs->dir_port, 0);
test_assert(!rs->is_authority);
test_assert(rs->is_exit);
test_assert(rs->is_fast);
test_assert(rs->is_possible_guard);
test_assert(rs->is_stable);
test_assert(rs->is_running);
test_assert(rs->is_v2_dir);
test_assert(rs->is_valid);
test_assert(!rs->is_named);
/* XXXX check version */
/* Check signatures. the first voter is pseudo. The second one hasn't
signed. The third one has signed: validate it. */
voter = smartlist_get(con->voters, 1);
test_assert(!voter->signature);
test_assert(!voter->good_signature);
test_assert(!voter->bad_signature);
voter = smartlist_get(con->voters, 2);
test_assert(voter->signature);
test_assert(!voter->good_signature);
test_assert(!voter->bad_signature);
test_assert(!networkstatus_check_voter_signature(con,
smartlist_get(con->voters, 2),
cert3));
test_assert(voter->signature);
test_assert(voter->good_signature);
test_assert(!voter->bad_signature);
{
char *consensus_text2, *consensus_text3;
networkstatus_t *con2, *con3;
char *detached_text1, *detached_text2;
ns_detached_signatures_t *dsig1, *dsig2;
const char *msg=NULL;
/* Compute the other two signed consensuses. */
smartlist_shuffle(votes);
consensus_text2 = networkstatus_compute_consensus(votes, 3,
cert2->identity_key,
sign_skey_2, NULL,NULL);
smartlist_shuffle(votes);
consensus_text3 = networkstatus_compute_consensus(votes, 3,
cert1->identity_key,
sign_skey_1, NULL,NULL);
test_assert(consensus_text2);
test_assert(consensus_text3);
con2 = networkstatus_parse_vote_from_string(consensus_text2, NULL,
NS_TYPE_CONSENSUS);
con3 = networkstatus_parse_vote_from_string(consensus_text3, NULL,
NS_TYPE_CONSENSUS);
test_assert(con2);
test_assert(con3);
/* All three should have the same digest. */
test_memeq(con->networkstatus_digest, con2->networkstatus_digest,
DIGEST_LEN);
test_memeq(con->networkstatus_digest, con3->networkstatus_digest,
DIGEST_LEN);
/* Extract a detached signature from con3. */
detached_text1 = networkstatus_get_detached_signatures(con3);
tor_assert(detached_text1);
/* Try to parse it. */
dsig1 = networkstatus_parse_detached_signatures(detached_text1, NULL);
tor_assert(dsig1);
/* Are parsed values as expected? */
test_eq(dsig1->valid_after, con3->valid_after);
test_eq(dsig1->fresh_until, con3->fresh_until);
test_eq(dsig1->valid_until, con3->valid_until);
test_memeq(dsig1->networkstatus_digest, con3->networkstatus_digest,
DIGEST_LEN);
test_eq(1, smartlist_len(dsig1->signatures));
voter = smartlist_get(dsig1->signatures, 0);
test_memeq(voter->identity_digest, cert1->cache_info.identity_digest,
DIGEST_LEN);
/* Try adding it to con2. */
detached_text2 = networkstatus_get_detached_signatures(con2);
test_eq(1, networkstatus_add_detached_signatures(con2, dsig1, &msg));
tor_free(detached_text2);
detached_text2 = networkstatus_get_detached_signatures(con2);
//printf("\n<%s>\n", detached_text2);
dsig2 = networkstatus_parse_detached_signatures(detached_text2, NULL);
test_assert(dsig2);
/*
printf("\n");
SMARTLIST_FOREACH(dsig2->signatures, networkstatus_voter_info_t *, vi, {
char hd[64];
base16_encode(hd, sizeof(hd), vi->identity_digest, DIGEST_LEN);
printf("%s\n", hd);
});
*/
test_eq(2, smartlist_len(dsig2->signatures));
/* Try adding to con2 twice; verify that nothing changes. */
test_eq(0, networkstatus_add_detached_signatures(con2, dsig1, &msg));
/* Add to con. */
test_eq(2, networkstatus_add_detached_signatures(con, dsig2, &msg));
/* Check signatures */
test_assert(!networkstatus_check_voter_signature(con,
smartlist_get(con->voters, 1),
cert2));
test_assert(!networkstatus_check_voter_signature(con,
smartlist_get(con->voters, 3),
cert1));
networkstatus_vote_free(con2);
networkstatus_vote_free(con3);
tor_free(consensus_text2);
tor_free(consensus_text3);
tor_free(detached_text1);
tor_free(detached_text2);
ns_detached_signatures_free(dsig1);
ns_detached_signatures_free(dsig2);
}
smartlist_free(votes);
tor_free(v1_text);
tor_free(v2_text);
tor_free(v3_text);
tor_free(consensus_text);
networkstatus_vote_free(vote);
networkstatus_vote_free(v1);
networkstatus_vote_free(v2);
networkstatus_vote_free(v3);
networkstatus_vote_free(con);
crypto_free_pk_env(sign_skey_1);
crypto_free_pk_env(sign_skey_2);
crypto_free_pk_env(sign_skey_3);
authority_cert_free(cert1);
authority_cert_free(cert2);
authority_cert_free(cert3);
}
static void
test_policy_summary_helper(const char *policy_str,
const char *expected_summary)
{
config_line_t line;
smartlist_t *policy;
char *summary;
policy = NULL;
line.key = (char*)"foo";
line.value = (char *)policy_str;
line.next = NULL;
test_assert(0 == policies_parse_exit_policy(&line, &policy, 0, NULL));
summary = policy_summarize(policy);
test_assert(summary != NULL);
test_streq(summary, expected_summary);
tor_free(summary);
addr_policy_list_free(policy);
}
static void
test_policies(void)
{
int i;
smartlist_t *policy, *policy2;
addr_policy_t *p;
tor_addr_t tar;
config_line_t line;
smartlist_t *sm;
char *policy_str;
policy = smartlist_create();
p = router_parse_addr_policy_item_from_string("reject 192.168.0.0/16:*",-1);
test_assert(p != NULL);
test_eq(ADDR_POLICY_REJECT, p->policy_type);
tor_addr_from_ipv4h(&tar, 0xc0a80000u);
test_eq(0, tor_addr_compare(&p->addr, &tar, CMP_EXACT));
test_eq(16, p->maskbits);
test_eq(1, p->prt_min);
test_eq(65535, p->prt_max);
smartlist_add(policy, p);
test_assert(ADDR_POLICY_ACCEPTED ==
compare_addr_to_addr_policy(0x01020304u, 2, policy));
test_assert(ADDR_POLICY_PROBABLY_ACCEPTED ==
compare_addr_to_addr_policy(0, 2, policy));
test_assert(ADDR_POLICY_REJECTED ==
compare_addr_to_addr_policy(0xc0a80102, 2, policy));
policy2 = NULL;
test_assert(0 == policies_parse_exit_policy(NULL, &policy2, 1, NULL));
test_assert(policy2);
test_assert(!exit_policy_is_general_exit(policy));
test_assert(exit_policy_is_general_exit(policy2));
test_assert(!exit_policy_is_general_exit(NULL));
test_assert(cmp_addr_policies(policy, policy2));
test_assert(cmp_addr_policies(policy, NULL));
test_assert(!cmp_addr_policies(policy2, policy2));
test_assert(!cmp_addr_policies(NULL, NULL));
test_assert(!policy_is_reject_star(policy2));
test_assert(policy_is_reject_star(policy));
test_assert(policy_is_reject_star(NULL));
addr_policy_list_free(policy);
addr_policy_list_free(policy2);
/* make sure compacting logic works. */
policy = NULL;
line.key = (char*)"foo";
line.value = (char*)"accept *:80,reject private:*,reject *:*";
line.next = NULL;
test_assert(0 == policies_parse_exit_policy(&line, &policy, 0, NULL));
test_assert(policy);
//test_streq(policy->string, "accept *:80");
//test_streq(policy->next->string, "reject *:*");
test_eq(smartlist_len(policy), 2);
addr_policy_list_free(policy);
/* 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_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 15.0.0.0:80,"
"accept *:*",
"reject 80");
/* 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");
/* truncation ports */
sm = smartlist_create();
for (i=1; i<2000; i+=2) {
char buf[POLICY_BUF_LEN];
tor_snprintf(buf, sizeof(buf), "reject *:%d", i);
smartlist_add(sm, tor_strdup(buf));
}
smartlist_add(sm, tor_strdup("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");
tor_free(policy_str);
SMARTLIST_FOREACH(sm, char *, s, tor_free(s));
smartlist_clear(sm);
}
static void
test_rend_fns(void)
{
char address1[] = "fooaddress.onion";
char address2[] = "aaaaaaaaaaaaaaaa.onion";
char address3[] = "fooaddress.exit";
char address4[] = "www.torproject.org";
rend_service_descriptor_t *d1, *d2;
char *encoded;
2004-10-14 05:13:08 +02:00
size_t len;
crypto_pk_env_t *pk1, *pk2;
time_t now;
int i;
pk1 = pk_generate(0);
pk2 = pk_generate(1);
/* Test unversioned (v0) descriptor */
d1 = tor_malloc_zero(sizeof(rend_service_descriptor_t));
d1->pk = crypto_pk_dup_key(pk1);
now = time(NULL);
d1->timestamp = now;
d1->version = 0;
d1->intro_nodes = smartlist_create();
for (i = 0; i < 3; i++) {
rend_intro_point_t *intro = tor_malloc_zero(sizeof(rend_intro_point_t));
intro->extend_info = tor_malloc_zero(sizeof(extend_info_t));
crypto_rand(intro->extend_info->identity_digest, DIGEST_LEN);
intro->extend_info->nickname[0] = '$';
base16_encode(intro->extend_info->nickname+1, HEX_DIGEST_LEN+1,
intro->extend_info->identity_digest, DIGEST_LEN);
smartlist_add(d1->intro_nodes, intro);
}
test_assert(! rend_encode_service_descriptor(d1, pk1, &encoded, &len));
d2 = rend_parse_service_descriptor(encoded, len);
test_assert(d2);
test_assert(!crypto_pk_cmp_keys(d1->pk, d2->pk));
test_eq(d2->timestamp, now);
test_eq(d2->version, 0);
test_eq(d2->protocols, 1<<2);
test_eq(smartlist_len(d2->intro_nodes), 3);
for (i = 0; i < 3; i++) {
rend_intro_point_t *intro1 = smartlist_get(d1->intro_nodes, i);
rend_intro_point_t *intro2 = smartlist_get(d2->intro_nodes, i);
test_streq(intro1->extend_info->nickname,
intro2->extend_info->nickname);
}
rend_service_descriptor_free(d1);
rend_service_descriptor_free(d2);
tor_free(encoded);
test_assert(BAD_HOSTNAME == parse_extended_hostname(address1));
test_assert(ONION_HOSTNAME == parse_extended_hostname(address2));
test_assert(EXIT_HOSTNAME == parse_extended_hostname(address3));
test_assert(NORMAL_HOSTNAME == parse_extended_hostname(address4));
crypto_free_pk_env(pk1);
crypto_free_pk_env(pk2);
}
static void
bench_aes(void)
{
int len, i;
char *b1, *b2;
crypto_cipher_env_t *c;
struct timeval start, end;
const int iters = 100000;
uint64_t nsec;
c = crypto_new_cipher_env();
crypto_cipher_generate_key(c);
crypto_cipher_encrypt_init_cipher(c);
for (len = 1; len <= 8192; len *= 2) {
b1 = tor_malloc_zero(len);
b2 = tor_malloc_zero(len);
tor_gettimeofday(&start);
for (i = 0; i < iters; ++i) {
crypto_cipher_encrypt(c, b1, b2, len);
}
tor_gettimeofday(&end);
tor_free(b1);
tor_free(b2);
nsec = (uint64_t) tv_udiff(&start,&end);
nsec *= 1000;
nsec /= (iters*len);
printf("%d bytes: "U64_FORMAT" nsec per byte\n", len,
U64_PRINTF_ARG(nsec));
}
crypto_free_cipher_env(c);
}
static void
bench_dmap(void)
{
smartlist_t *sl = smartlist_create();
smartlist_t *sl2 = smartlist_create();
struct timeval start, end, pt2, pt3, pt4;
const int iters = 10000;
const int elts = 4000;
const int fpostests = 1000000;
char d[20];
int i,n=0, fp = 0;
digestmap_t *dm = digestmap_new();
digestset_t *ds = digestset_new(elts);
for (i = 0; i < elts; ++i) {
crypto_rand(d, 20);
smartlist_add(sl, tor_memdup(d, 20));
}
for (i = 0; i < elts; ++i) {
crypto_rand(d, 20);
smartlist_add(sl2, tor_memdup(d, 20));
}
printf("nbits=%d\n", ds->mask+1);
tor_gettimeofday(&start);
for (i = 0; i < iters; ++i) {
SMARTLIST_FOREACH(sl, const char *, cp, digestmap_set(dm, cp, (void*)1));
}
tor_gettimeofday(&pt2);
for (i = 0; i < iters; ++i) {
SMARTLIST_FOREACH(sl, const char *, cp, digestmap_get(dm, cp));
SMARTLIST_FOREACH(sl2, const char *, cp, digestmap_get(dm, cp));
}
tor_gettimeofday(&pt3);
for (i = 0; i < iters; ++i) {
SMARTLIST_FOREACH(sl, const char *, cp, digestset_add(ds, cp));
}
tor_gettimeofday(&pt4);
for (i = 0; i < iters; ++i) {
SMARTLIST_FOREACH(sl, const char *, cp, n += digestset_isin(ds, cp));
SMARTLIST_FOREACH(sl2, const char *, cp, n += digestset_isin(ds, cp));
}
tor_gettimeofday(&end);
for (i = 0; i < fpostests; ++i) {
crypto_rand(d, 20);
if (digestset_isin(ds, d)) ++fp;
}
printf("%ld\n",(unsigned long)tv_udiff(&start, &pt2));
printf("%ld\n",(unsigned long)tv_udiff(&pt2, &pt3));
printf("%ld\n",(unsigned long)tv_udiff(&pt3, &pt4));
printf("%ld\n",(unsigned long)tv_udiff(&pt4, &end));
printf("-- %d\n", n);
printf("++ %f\n", fp/(double)fpostests);
digestmap_free(dm, NULL);
digestset_free(ds);
SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
SMARTLIST_FOREACH(sl2, char *, cp, tor_free(cp));
smartlist_free(sl);
smartlist_free(sl2);
}
static void
test_util_mempool(void)
{
mp_pool_t *pool;
smartlist_t *allocated;
int i;
pool = mp_pool_new(1, 100);
test_assert(pool->new_chunk_capacity >= 100);
test_assert(pool->item_alloc_size >= sizeof(void*)+1);
mp_pool_destroy(pool);
pool = mp_pool_new(241, 2500);
test_assert(pool->new_chunk_capacity >= 10);
test_assert(pool->item_alloc_size >= sizeof(void*)+241);
test_eq(pool->item_alloc_size & 0x03, 0);
test_assert(pool->new_chunk_capacity < 60);
allocated = smartlist_create();
for (i = 0; i < 100000; ++i) {
if (smartlist_len(allocated) < 20 || crypto_rand_int(2)) {
void *m = mp_pool_get(pool);
memset(m, 0x09, 241);
smartlist_add(allocated, m);
//printf("%d: %p\n", i, m);
//mp_pool_assert_ok(pool);
} else {
int idx = crypto_rand_int(smartlist_len(allocated));
void *m = smartlist_get(allocated, idx);
//printf("%d: free %p\n", i, m);
smartlist_del(allocated, idx);
mp_pool_release(m);
//mp_pool_assert_ok(pool);
}
if (crypto_rand_int(777)==0)
mp_pool_clean(pool, 1, 1);
if (i % 777)
mp_pool_assert_ok(pool);
}
SMARTLIST_FOREACH(allocated, void *, m, mp_pool_release(m));
mp_pool_assert_ok(pool);
mp_pool_clean(pool, 0, 0);
mp_pool_assert_ok(pool);
mp_pool_destroy(pool);
smartlist_free(allocated);
}
static void
test_util_memarea(void)
{
memarea_t *area = memarea_new(1024);
char *p1, *p2, *p3, *p1_orig;
int i;
test_assert(area);
p1_orig = p1 = memarea_alloc(area,64);
p2 = memarea_alloc_zero(area,52);
p3 = memarea_alloc(area,11);
test_assert(memarea_owns_ptr(area, p1));
test_assert(memarea_owns_ptr(area, p2));
test_assert(memarea_owns_ptr(area, p3));
/* Make sure we left enough space. */
test_assert(p1+64 <= p2);
test_assert(p2+52 <= p3);
/* Make sure we aligned. */
test_eq(((uintptr_t)p1) % sizeof(void*), 0);
test_eq(((uintptr_t)p2) % sizeof(void*), 0);
test_eq(((uintptr_t)p3) % sizeof(void*), 0);
test_assert(!memarea_owns_ptr(area, p3+8192));
test_assert(!memarea_owns_ptr(area, p3+30));
test_assert(tor_mem_is_zero(p2, 52));
/* Make sure we don't overalign. */
p1 = memarea_alloc(area, 1);
p2 = memarea_alloc(area, 1);
test_eq(p1+sizeof(void*), p2);
{
void *ptr = tor_malloc(64);
test_assert(!memarea_owns_ptr(area, ptr));
tor_free(ptr);
}
/* memarea_memdup */
{
char *ptr = tor_malloc(64);
crypto_rand(ptr, 64);
p1 = memarea_memdup(area, ptr, 64);
test_assert(p1 != ptr);
test_memeq(p1, ptr, 64);
tor_free(ptr);
}
/* memarea_strdup. */
p1 = memarea_strdup(area,"");
p2 = memarea_strdup(area, "abcd");
test_assert(p1);
test_assert(p2);
test_streq(p1, "");
test_streq(p2, "abcd");
/* memarea_strndup. */
{
const char *s = "Ad ogni porta batte la morte e grida: il nome!";
/* (From Turandot, act 3.) */
size_t len = strlen(s);
p1 = memarea_strndup(area, s, 1000);
p2 = memarea_strndup(area, s, 10);
test_streq(p1, s);
test_assert(p2 >= p1 + len + 1);
test_memeq(s, p2, 10);
test_eq(p2[10], '\0');
p3 = memarea_strndup(area, s, len);
test_streq(p3, s);
p3 = memarea_strndup(area, s, len-1);
test_memeq(s, p3, len-1);
test_eq(p3[len-1], '\0');
}
memarea_clear(area);
p1 = memarea_alloc(area, 1);
test_eq(p1, p1_orig);
memarea_clear(area);
/* Check for running over an area's size. */
for (i = 0; i < 512; ++i) {
p1 = memarea_alloc(area, crypto_rand_int(5)+1);
test_assert(memarea_owns_ptr(area, p1));
}
memarea_assert_ok(area);
/* Make sure we can allocate a too-big object. */
p1 = memarea_alloc_zero(area, 9000);
p2 = memarea_alloc_zero(area, 16);
test_assert(memarea_owns_ptr(area, p1));
test_assert(memarea_owns_ptr(area, p2));
memarea_drop_all(area);
}
static void
test_util_datadir(void)
{
char buf[1024];
char *f;
f = get_datadir_fname(NULL);
test_streq(f, temp_dir);
tor_free(f);
f = get_datadir_fname("state");
tor_snprintf(buf, sizeof(buf), "%s"PATH_SEPARATOR"state", temp_dir);
test_streq(f, buf);
tor_free(f);
f = get_datadir_fname2("cache", "thingy");
tor_snprintf(buf, sizeof(buf),
"%s"PATH_SEPARATOR"cache"PATH_SEPARATOR"thingy", temp_dir);
test_streq(f, buf);
tor_free(f);
f = get_datadir_fname2_suffix("cache", "thingy", ".foo");
tor_snprintf(buf, sizeof(buf),
"%s"PATH_SEPARATOR"cache"PATH_SEPARATOR"thingy.foo", temp_dir);
test_streq(f, buf);
tor_free(f);
f = get_datadir_fname_suffix("cache", ".foo");
tor_snprintf(buf, sizeof(buf), "%s"PATH_SEPARATOR"cache.foo",
temp_dir);
test_streq(f, buf);
tor_free(f);
}
/* Test AES-CTR encryption and decryption with IV. */
static void
test_crypto_aes_iv(void)
{
crypto_cipher_env_t *cipher;
char *plain, *encrypted1, *encrypted2, *decrypted1, *decrypted2;
char plain_1[1], plain_15[15], plain_16[16], plain_17[17];
char key1[16], key2[16];
size_t encrypted_size, decrypted_size;
plain = tor_malloc(4095);
encrypted1 = tor_malloc(4095 + 1 + 16);
encrypted2 = tor_malloc(4095 + 1 + 16);
decrypted1 = tor_malloc(4095 + 1);
decrypted2 = tor_malloc(4095 + 1);
crypto_rand(plain, 4095);
crypto_rand(key1, 16);
crypto_rand(key2, 16);
crypto_rand(plain_1, 1);
crypto_rand(plain_15, 15);
crypto_rand(plain_16, 16);
crypto_rand(plain_17, 17);
key1[0] = key2[0] + 128; /* Make sure that contents are different. */
/* Encrypt and decrypt with the same key. */
cipher = crypto_create_init_cipher(key1, 1);
encrypted_size = crypto_cipher_encrypt_with_iv(cipher, encrypted1, 16 + 4095,
plain, 4095);
crypto_free_cipher_env(cipher);
test_eq(encrypted_size, 16 + 4095);
cipher = crypto_create_init_cipher(key1, 0);
decrypted_size = crypto_cipher_decrypt_with_iv(cipher, decrypted1, 4095,
encrypted1, encrypted_size);
crypto_free_cipher_env(cipher);
test_eq(decrypted_size, 4095);
test_memeq(plain, decrypted1, 4095);
/* Encrypt a second time (with a new random initialization vector). */
cipher = crypto_create_init_cipher(key1, 1);
encrypted_size = crypto_cipher_encrypt_with_iv(cipher, encrypted2, 16 + 4095,
plain, 4095);
crypto_free_cipher_env(cipher);
test_eq(encrypted_size, 16 + 4095);
cipher = crypto_create_init_cipher(key1, 0);
decrypted_size = crypto_cipher_decrypt_with_iv(cipher, decrypted2, 4095,
encrypted2, encrypted_size);
crypto_free_cipher_env(cipher);
test_eq(decrypted_size, 4095);
test_memeq(plain, decrypted2, 4095);
test_memneq(encrypted1, encrypted2, encrypted_size);
/* Decrypt with the wrong key. */
cipher = crypto_create_init_cipher(key2, 0);
decrypted_size = crypto_cipher_decrypt_with_iv(cipher, decrypted2, 4095,
encrypted1, encrypted_size);
crypto_free_cipher_env(cipher);
test_memneq(plain, decrypted2, encrypted_size);
/* Alter the initialization vector. */
encrypted1[0] += 42;
cipher = crypto_create_init_cipher(key1, 0);
decrypted_size = crypto_cipher_decrypt_with_iv(cipher, decrypted1, 4095,
encrypted1, encrypted_size);
crypto_free_cipher_env(cipher);
test_memneq(plain, decrypted2, 4095);
/* Special length case: 1. */
cipher = crypto_create_init_cipher(key1, 1);
encrypted_size = crypto_cipher_encrypt_with_iv(cipher, encrypted1, 16 + 1,
plain_1, 1);
crypto_free_cipher_env(cipher);
test_eq(encrypted_size, 16 + 1);
cipher = crypto_create_init_cipher(key1, 0);
decrypted_size = crypto_cipher_decrypt_with_iv(cipher, decrypted1, 1,
encrypted1, encrypted_size);
crypto_free_cipher_env(cipher);
test_eq(decrypted_size, 1);
test_memeq(plain_1, decrypted1, 1);
/* Special length case: 15. */
cipher = crypto_create_init_cipher(key1, 1);
encrypted_size = crypto_cipher_encrypt_with_iv(cipher, encrypted1, 16 + 15,
plain_15, 15);
crypto_free_cipher_env(cipher);
test_eq(encrypted_size, 16 + 15);
cipher = crypto_create_init_cipher(key1, 0);
decrypted_size = crypto_cipher_decrypt_with_iv(cipher, decrypted1, 15,
encrypted1, encrypted_size);
crypto_free_cipher_env(cipher);
test_eq(decrypted_size, 15);
test_memeq(plain_15, decrypted1, 15);
/* Special length case: 16. */
cipher = crypto_create_init_cipher(key1, 1);
encrypted_size = crypto_cipher_encrypt_with_iv(cipher, encrypted1, 16 + 16,
plain_16, 16);
crypto_free_cipher_env(cipher);
test_eq(encrypted_size, 16 + 16);
cipher = crypto_create_init_cipher(key1, 0);
decrypted_size = crypto_cipher_decrypt_with_iv(cipher, decrypted1, 16,
encrypted1, encrypted_size);
crypto_free_cipher_env(cipher);
test_eq(decrypted_size, 16);
test_memeq(plain_16, decrypted1, 16);
/* Special length case: 17. */
cipher = crypto_create_init_cipher(key1, 1);
encrypted_size = crypto_cipher_encrypt_with_iv(cipher, encrypted1, 16 + 17,
plain_17, 17);
crypto_free_cipher_env(cipher);
test_eq(encrypted_size, 16 + 17);
cipher = crypto_create_init_cipher(key1, 0);
decrypted_size = crypto_cipher_decrypt_with_iv(cipher, decrypted1, 17,
encrypted1, encrypted_size);
crypto_free_cipher_env(cipher);
test_eq(decrypted_size, 17);
test_memeq(plain_17, decrypted1, 17);
/* Free memory. */
tor_free(plain);
tor_free(encrypted1);
tor_free(encrypted2);
tor_free(decrypted1);
tor_free(decrypted2);
}
/* Test base32 decoding. */
static void
test_crypto_base32_decode(void)
{
char plain[60], encoded[96 + 1], decoded[60];
int res;
crypto_rand(plain, 60);
/* Encode and decode a random string. */
base32_encode(encoded, 96 + 1, plain, 60);
res = base32_decode(decoded, 60, encoded, 96);
test_eq(res, 0);
test_memeq(plain, decoded, 60);
/* Encode, uppercase, and decode a random string. */
base32_encode(encoded, 96 + 1, plain, 60);
tor_strupper(encoded);
res = base32_decode(decoded, 60, encoded, 96);
test_eq(res, 0);
test_memeq(plain, decoded, 60);
/* Change encoded string and decode. */
if (encoded[0] == 'A' || encoded[0] == 'a')
encoded[0] = 'B';
else
encoded[0] = 'A';
res = base32_decode(decoded, 60, encoded, 96);
test_eq(res, 0);
test_memneq(plain, decoded, 60);
/* Bad encodings. */
encoded[0] = '!';
res = base32_decode(decoded, 60, encoded, 96);
test_assert(res < 0);
}
/* Test encoding and parsing of v2 rendezvous service descriptors. */
static void
test_rend_fns_v2(void)
{
rend_service_descriptor_t *generated, *parsed;
char service_id[DIGEST_LEN];
char service_id_base32[REND_SERVICE_ID_LEN_BASE32+1];
const char *next_desc;
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smartlist_t *descs = smartlist_create();
char computed_desc_id[DIGEST_LEN];
char parsed_desc_id[DIGEST_LEN];
crypto_pk_env_t *pk1, *pk2;
time_t now;
char *intro_points_encrypted;
size_t intro_points_size;
size_t encoded_size;
int i;
pk1 = pk_generate(0);
pk2 = pk_generate(1);
generated = tor_malloc_zero(sizeof(rend_service_descriptor_t));
generated->pk = crypto_pk_dup_key(pk1);
crypto_pk_get_digest(generated->pk, service_id);
base32_encode(service_id_base32, REND_SERVICE_ID_LEN_BASE32+1,
service_id, REND_SERVICE_ID_LEN);
now = time(NULL);
generated->timestamp = now;
generated->version = 2;
generated->protocols = 42;
generated->intro_nodes = smartlist_create();
for (i = 0; i < 3; i++) {
rend_intro_point_t *intro = tor_malloc_zero(sizeof(rend_intro_point_t));
crypto_pk_env_t *okey = pk_generate(2 + i);
intro->extend_info = tor_malloc_zero(sizeof(extend_info_t));
intro->extend_info->onion_key = crypto_pk_dup_key(okey);
crypto_pk_get_digest(intro->extend_info->onion_key,
intro->extend_info->identity_digest);
//crypto_rand(info->identity_digest, DIGEST_LEN); /* Would this work? */
intro->extend_info->nickname[0] = '$';
base16_encode(intro->extend_info->nickname + 1,
sizeof(intro->extend_info->nickname) - 1,
intro->extend_info->identity_digest, DIGEST_LEN);
/* Does not cover all IP addresses. */
tor_addr_from_ipv4h(&intro->extend_info->addr, crypto_rand_int(65536));
intro->extend_info->port = crypto_rand_int(65536);
intro->intro_key = crypto_pk_dup_key(pk2);
smartlist_add(generated->intro_nodes, intro);
}
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test_assert(rend_encode_v2_descriptors(descs, generated, now,
NULL, 0) > 0);
test_assert(rend_compute_v2_desc_id(computed_desc_id, service_id_base32,
NULL, now, 0) == 0);
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test_memeq(((rend_encoded_v2_service_descriptor_t *)
smartlist_get(descs, 0))->desc_id, computed_desc_id, DIGEST_LEN);
test_assert(rend_parse_v2_service_descriptor(&parsed, parsed_desc_id,
&intro_points_encrypted,
&intro_points_size,
&encoded_size,
&next_desc,
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((rend_encoded_v2_service_descriptor_t *)
smartlist_get(descs, 0))->desc_str) == 0);
test_assert(parsed);
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test_memeq(((rend_encoded_v2_service_descriptor_t *)
smartlist_get(descs, 0))->desc_id, parsed_desc_id, DIGEST_LEN);
test_assert(rend_decrypt_introduction_points(parsed, NULL,
intro_points_encrypted,
intro_points_size) == 3);
test_assert(!crypto_pk_cmp_keys(generated->pk, parsed->pk));
test_eq(parsed->timestamp, now);
test_eq(parsed->version, 2);
test_eq(parsed->protocols, 42);
test_eq(smartlist_len(parsed->intro_nodes), 3);
for (i = 0; i < smartlist_len(parsed->intro_nodes); i++) {
rend_intro_point_t *par_intro = smartlist_get(parsed->intro_nodes, i),
*gen_intro = smartlist_get(generated->intro_nodes, i);
extend_info_t *par_info = par_intro->extend_info;
extend_info_t *gen_info = gen_intro->extend_info;
test_assert(!crypto_pk_cmp_keys(gen_info->onion_key, par_info->onion_key));
test_memeq(gen_info->identity_digest, par_info->identity_digest,
DIGEST_LEN);
test_streq(gen_info->nickname, par_info->nickname);
test_assert(tor_addr_eq(&gen_info->addr, &par_info->addr));
test_eq(gen_info->port, par_info->port);
}
tor_free(intro_points_encrypted);
for (i = 0; i < smartlist_len(descs); i++)
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rend_encoded_v2_service_descriptor_free(smartlist_get(descs, i));
smartlist_free(descs);
rend_service_descriptor_free(parsed);
rend_service_descriptor_free(generated);
}
static void
test_geoip(void)
{
int i, j;
time_t now = time(NULL);
char *s;
/* Populate the DB a bit. Add these in order, since we can't do the final
* 'sort' step. These aren't very good IP addresses, but they're perfectly
* fine uint32_t values. */
test_eq(0, geoip_parse_entry("10,50,AB"));
test_eq(0, geoip_parse_entry("52,90,XY"));
test_eq(0, geoip_parse_entry("95,100,AB"));
test_eq(0, geoip_parse_entry("\"105\",\"140\",\"ZZ\""));
test_eq(0, geoip_parse_entry("\"150\",\"190\",\"XY\""));
test_eq(0, geoip_parse_entry("\"200\",\"250\",\"AB\""));
/* We should have 3 countries: ab, xy, zz. */
test_eq(3, geoip_get_n_countries());
/* Make sure that country ID actually works. */
#define NAMEFOR(x) geoip_get_country_name(geoip_get_country_by_ip(x))
test_streq("ab", NAMEFOR(32));
test_streq("??", NAMEFOR(5));
test_streq("??", NAMEFOR(51));
test_streq("xy", NAMEFOR(150));
test_streq("xy", NAMEFOR(190));
test_streq("??", NAMEFOR(2000));
#undef NAMEFOR
get_options()->BridgeRelay = 1;
get_options()->BridgeRecordUsageByCountry = 1;
/* Put 9 observations in AB... */
for (i=32; i < 40; ++i)
geoip_note_client_seen(GEOIP_CLIENT_CONNECT, i, now);
geoip_note_client_seen(GEOIP_CLIENT_CONNECT, 225, now);
/* and 3 observations in XY, several times. */
for (j=0; j < 10; ++j)
for (i=52; i < 55; ++i)
geoip_note_client_seen(GEOIP_CLIENT_CONNECT, i, now-3600);
/* and 17 observations in ZZ... */
for (i=110; i < 127; ++i)
geoip_note_client_seen(GEOIP_CLIENT_CONNECT, i, now-7200);
s = geoip_get_client_history(now+5*24*60*60, GEOIP_CLIENT_CONNECT);
test_assert(s);
test_streq("zz=24,ab=16,xy=8", s);
tor_free(s);
/* Now clear out all the zz observations. */
geoip_remove_old_clients(now-6000);
s = geoip_get_client_history(now+5*24*60*60, GEOIP_CLIENT_CONNECT);
test_assert(s);
test_streq("ab=16,xy=8", s);
tor_free(s);
}
#define ENT(x) { #x, test_ ## x, 0, 0 }
#define SUBENT(x,y) { #x "/" #y, test_ ## x ## _ ## y, 1, 0 }
static struct {
const char *test_name;
void (*test_fn)(void);
int is_subent;
int selected;
} test_array[] = {
ENT(buffers),
ENT(crypto),
SUBENT(crypto, dh),
SUBENT(crypto, s2k),
SUBENT(crypto, aes_iv),
SUBENT(crypto, base32_decode),
ENT(util),
SUBENT(util, ip6_helpers),
SUBENT(util, gzip),
SUBENT(util, datadir),
SUBENT(util, smartlist),
SUBENT(util, bitarray),
SUBENT(util, digestset),
SUBENT(util, mempool),
SUBENT(util, memarea),
SUBENT(util, strmap),
SUBENT(util, control_formats),
SUBENT(util, pqueue),
SUBENT(util, mmap),
SUBENT(util, threads),
SUBENT(util, order_functions),
ENT(onion_handshake),
ENT(dir_format),
ENT(v3_networkstatus),
ENT(policies),
ENT(rend_fns),
SUBENT(rend_fns, v2),
ENT(geoip),
{ NULL, NULL, 0, 0 },
};
static void syntax(void) ATTR_NORETURN;
static void
syntax(void)
{
int i;
printf("Syntax:\n"
" test [-v|--verbose] [--warn|--notice|--info|--debug]\n"
" [testname...]\n"
"Recognized tests are:\n");
for (i = 0; test_array[i].test_name; ++i) {
printf(" %s\n", test_array[i].test_name);
}
exit(0);
}
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int
main(int c, char**v)
{
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or_options_t *options = options_new();
char *errmsg = NULL;
int i;
int verbose = 0, any_selected = 0;
int loglevel = LOG_ERR;
tor_threads_init();
init_logging();
for (i = 1; i < c; ++i) {
if (!strcmp(v[i], "-v") || !strcmp(v[i], "--verbose"))
verbose++;
else if (!strcmp(v[i], "--warn"))
loglevel = LOG_WARN;
else if (!strcmp(v[i], "--notice"))
loglevel = LOG_NOTICE;
else if (!strcmp(v[i], "--info"))
loglevel = LOG_INFO;
else if (!strcmp(v[i], "--debug"))
loglevel = LOG_DEBUG;
else if (!strcmp(v[i], "--help") || !strcmp(v[i], "-h") || v[i][0] == '-')
syntax();
else {
int j, found=0;
for (j = 0; test_array[j].test_name; ++j) {
if (!strcmp(v[i], test_array[j].test_name) ||
(test_array[j].is_subent &&
!strcmpstart(test_array[j].test_name, v[i]) &&
test_array[j].test_name[strlen(v[i])] == '/') ||
(v[i][0] == '=' && !strcmp(v[i]+1, test_array[j].test_name))) {
test_array[j].selected = 1;
any_selected = 1;
found = 1;
}
}
if (!found) {
printf("Unknown test: %s\n", v[i]);
syntax();
}
}
}
if (!any_selected) {
for (i = 0; test_array[i].test_name; ++i) {
test_array[i].selected = 1;
}
}
{
log_severity_list_t *s = tor_malloc_zero(sizeof(log_severity_list_t));
set_log_severity_config(loglevel, LOG_ERR, s);
add_stream_log(s, "", stdout);
}
options->command = CMD_RUN_UNITTESTS;
crypto_global_init(0);
rep_hist_init();
network_init();
setup_directory();
options_init(options);
options->DataDirectory = tor_strdup(temp_dir);
if (set_options(options, &errmsg) < 0) {
printf("Failed to set initial options: %s\n", errmsg);
tor_free(errmsg);
return 1;
}
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crypto_seed_rng(1);
if (0) {
bench_aes();
return 0;
}
if (0) {
bench_dmap();
return 0;
}
atexit(remove_directory);
printf("Running Tor unit tests on %s\n", get_uname());
for (i = 0; test_array[i].test_name; ++i) {
if (!test_array[i].selected)
continue;
if (!test_array[i].is_subent) {
printf("\n============================== %s\n",test_array[i].test_name);
} else if (test_array[i].is_subent && verbose) {
printf("\n%s", test_array[i].test_name);
}
test_array[i].test_fn();
}
puts("");
crypto_global_cleanup();
if (have_failed)
return 1;
else
return 0;
}