tor/src/or/test.c

896 lines
26 KiB
C
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2003-12-13 23:53:17 +01:00
/* Copyright 2001,2002,2003 Roger Dingledine. */
/* See LICENSE for licensing information */
/* $Id$ */
#include <stdio.h>
#ifdef HAVE_FCNTL_H
#include <fcntl.h>
#endif
#ifdef MS_WINDOWS
/* For mkdir() */
#include <direct.h>
#endif
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#include "or.h"
#include "../common/test.h"
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extern or_options_t options;
int have_failed = 0;
/* These functions are file-local, but are exposed so we can test. */
int router_get_routerlist_from_directory_impl(
const char *s, routerlist_t **dest, crypto_pk_env_t *pkey);
void add_fingerprint_to_dir(const char *nickname, const char *fp);
void get_platform_str(char *platform, int len);
void
dump_hex(char *s, int len)
{
static const char TABLE[] = "0123456789ABCDEF";
unsigned char *d = s;
int i, j, nyb;
for(i=0;i<len;++i) {
for (j=1;j>=0;--j) {
nyb = (((int) d[i]) >> (j*4)) & 0x0f;
tor_assert(0<=nyb && nyb <=15);
putchar(TABLE[nyb]);
}
}
}
void
setup_directory() {
char buf[256];
int r;
sprintf(buf, "/tmp/tor_test");
#ifdef _MSC_VER
r = mkdir(buf);
#else
r = mkdir(buf, 0700);
#endif
if (r && errno != EEXIST)
fprintf(stderr, "Can't create directory %s", buf);
}
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void
test_buffers() {
#define MAX_BUF_SIZE 1024*1024
char str[256];
char str2[256];
buf_t *buf;
buf_t *buf2;
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int s, i, j, eof;
/****
* buf_new
****/
if (!(buf = buf_new()))
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test_fail();
test_eq(buf_capacity(buf), 512*1024);
test_eq(buf_datalen(buf), 0);
/****
* read_to_buf
****/
s = open("/tmp/tor_test/data", O_WRONLY|O_CREAT|O_TRUNC, 0600);
for (j=0;j<256;++j) {
str[j] = (char)j;
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}
write(s, str, 256);
close(s);
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s = open("/tmp/tor_test/data", O_RDONLY, 0);
eof = 0;
i = read_to_buf(s, 10, buf, &eof);
test_eq(buf_capacity(buf), 512*1024);
test_eq(buf_datalen(buf), 10);
test_eq(eof, 0);
test_eq(i, 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);
close(s);
/****
* fetch_from_buf
****/
memset(str2, 255, 256);
test_eq(246, fetch_from_buf(str2, 10, buf));
test_memeq(str2, str, 10);
test_memeq(str+10,(char*)_buf_peek_raw_buffer(buf),246);
test_eq(buf_datalen(buf),246);
test_eq(0, fetch_from_buf(str2, 246, buf));
test_memeq(str2, str+10, 246);
test_eq(buf_capacity(buf),MAX_BUF_SIZE);
test_eq(buf_datalen(buf),0);
/****
* write_to_buf
****/
memset((char *)_buf_peek_raw_buffer(buf), (int)'-', 256);
i = write_to_buf("Hello world", 11, buf);
test_eq(i, 11);
test_eq(buf_datalen(buf), 11);
test_memeq((char*)_buf_peek_raw_buffer(buf), "Hello world", 11);
i = write_to_buf("XYZZY", 5, buf);
test_eq(i, 16);
test_eq(buf_datalen(buf), 16);
test_memeq((char*)_buf_peek_raw_buffer(buf), "Hello worldXYZZY", 16);
/* Test when buffer is overfull. */
#if 0
buflen = 18;
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test_eq(-1, write_to_buf("This string will not fit.", 25,
&buf, &buflen, &buf_datalen));
test_eq(buf_datalen, 16);
test_memeq(buf, "Hello worldXYZZY--", 18);
buflen = MAX_BUF_SIZE;
#endif
/****
* flush_buf
****/
/* XXXX Needs tests. */
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buf_free(buf);
}
void
test_crypto_dh()
{
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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crypto_dh_free(dh1);
crypto_dh_free(dh2);
}
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void
test_crypto()
{
crypto_cipher_env_t *env1, *env2;
crypto_pk_env_t *pk1, *pk2;
char *data1, *data2, *data3, *cp;
int i, j, p, len;
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data1 = tor_malloc(1024);
data2 = tor_malloc(1024);
data3 = tor_malloc(1024);
test_assert(data1 && data2 && data3);
/* Try out RNG. */
test_assert(! crypto_seed_rng());
crypto_rand(100, data1);
crypto_rand(100, data2);
test_memneq(data1,data2,100);
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#if 0
/* Try out identity ciphers. */
env1 = crypto_new_cipher_env(CRYPTO_CIPHER_IDENTITY);
test_neq(env1, 0);
test_eq(crypto_cipher_generate_key(env1), 0);
test_eq(crypto_cipher_encrypt_init_cipher(env1), 0);
for(i = 0; i < 1024; ++i) {
data1[i] = (char) i*73;
}
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crypto_cipher_encrypt(env1, data1, 1024, data2);
test_memeq(data1, data2, 1024);
crypto_free_cipher_env(env1);
#endif
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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, data1, 512, data2);
crypto_cipher_decrypt(env2, data2, 512, data3);
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, data1+j, 1, data2+j);
}
for (j = 512; j < 560; ++j) {
crypto_cipher_decrypt(env2, data2+j, 1, data3+j);
}
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, data1+j, 3, data2+j);
}
for (j = 560; j < 1024-5; j += 5) {
crypto_cipher_decrypt(env2, data2+j, 5, data3+j);
}
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, data1+j, 17, data3+j);
}
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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/* Test vectors for stream ciphers. */
/* XXXX Look up some test vectors for the ciphers and make sure we match. */
/* Test SHA-1 with a test vector from the specification. */
i = crypto_digest("abc", 3, data1);
test_memeq(data1,
"\xA9\x99\x3E\x36\x47\x06\x81\x6A\xBA\x3E\x25\x71\x78"
"\x50\xC2\x6C\x9C\xD0\xD8\x9D", 20);
/* Public-key ciphers */
pk1 = crypto_new_pk_env();
pk2 = crypto_new_pk_env();
test_assert(pk1 && pk2);
test_assert(! crypto_pk_generate_key(pk1));
test_assert(! crypto_pk_write_public_key_to_string(pk1, &cp, &i));
test_assert(! crypto_pk_read_public_key_from_string(pk2, cp, i));
test_eq(0, crypto_pk_cmp_keys(pk1, pk2));
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, "Hello whirled.", 15, data1,
PK_PKCS1_OAEP_PADDING));
test_eq(128, crypto_pk_public_encrypt(pk1, "Hello whirled.", 15, data2,
PK_PKCS1_OAEP_PADDING));
/* oaep padding should make encryption not match */
test_memneq(data1, data2, 128);
test_eq(15, crypto_pk_private_decrypt(pk1, data1, 128, data3,
PK_PKCS1_OAEP_PADDING));
test_streq(data3, "Hello whirled.");
memset(data3, 0, 1024);
test_eq(15, crypto_pk_private_decrypt(pk1, data2, 128, data3,
PK_PKCS1_OAEP_PADDING));
test_streq(data3, "Hello whirled.");
/* Can't decrypt with public key. */
test_eq(-1, crypto_pk_private_decrypt(pk2, data2, 128, data3,
PK_PKCS1_OAEP_PADDING));
/* 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, data2, 128, data3,
PK_PKCS1_OAEP_PADDING));
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/* File operations: save and load private key */
test_assert(! crypto_pk_write_private_key_to_filename(pk1,
"/tmp/tor_test/pke1y"));
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test_assert(! crypto_pk_read_private_key_from_filename(pk2,
"/tmp/tor_test/pke1y"));
test_eq(15, crypto_pk_private_decrypt(pk2, data1, 128, data3,
PK_PKCS1_OAEP_PADDING));
/* Now try signing. */
strcpy(data1, "Ossifrage");
test_eq(128, crypto_pk_private_sign(pk1, data1, 10, data2));
test_eq(10, crypto_pk_public_checksig(pk1, data2, 128, data3));
test_streq(data3, "Ossifrage");
/* Try signing digests. */
test_eq(128, crypto_pk_private_sign_digest(pk1, data1, 10, data2));
test_eq(20, crypto_pk_public_checksig(pk1, data2, 128, data3));
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*/
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/* 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(1024, data1);
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,data1,j,data2,p,0);
test_assert(len>=0);
len = crypto_pk_private_hybrid_decrypt(pk1,data2,len,data3,p);
test_eq(len,j);
test_memeq(data1,data3,j);
}
}
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crypto_free_pk_env(pk1);
crypto_free_pk_env(pk2);
/* Base64 tests */
strcpy(data1, "Test string that contains 35 chars.");
strcat(data1, " 2nd string that contains 35 chars.");
i = base64_encode(data2, 1024, data1, 71);
j = base64_decode(data3, 1024, data2, i);
test_streq(data3, data1);
test_eq(j, 71);
test_assert(data2[i] == '\0');
/* Base32 tests */
strcpy(data1, "5chrs");
/* bit pattern is: [35 63 68 72 73] ->
* [00110101 01100011 01101000 01110010 01110011]
* By 5s: [00110 10101 10001 10110 10000 11100 10011 10011]
*/
i = base32_encode(data2, 9, data1, 5);
test_streq(data2, "gvrwq4tt");
strcpy(data1, "\xFF\xF5\x6D\x44\xAE\x0D\x5C\xC9\x62\xC4");
i = base32_encode(data2, 30, data1, 10);
test_eq(i,0);
test_streq(data2, "772w2rfobvomsywe");
free(data1);
free(data2);
free(data3);
}
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void
test_util() {
struct timeval start, end;
struct tm a_time;
smartlist_t *sl;
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(0L, tv_udiff(&start, &end));
/* 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));
/* Test smartlist */
sl = smartlist_create();
smartlist_add(sl, (void*)1);
smartlist_add(sl, (void*)2);
smartlist_add(sl, (void*)3);
smartlist_add(sl, (void*)4);
test_eq((void*)2, 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((void*)0, smartlist_get(sl,0));
test_eq((void*)1, smartlist_get(sl,1));
test_eq((void*)22, smartlist_get(sl,2));
test_eq((void*)3, smartlist_get(sl,3));
test_eq((void*)4, smartlist_get(sl,4));
test_eq((void*)555, smartlist_get(sl,5));
/* XXXX test older functions. */
smartlist_free(sl);
}
static void* _squareAndRemoveK4(const char *key, void*val, void *data)
{
int *ip = (int*)data;
int v;
if (strcmp(key,"K4") == 0) {
++(*ip);
return NULL;
}
v = (int)val;
return (void*)(v*v);
}
void test_strmap() {
strmap_t *map;
strmap_iter_t *iter;
const char *k;
void *v;
int count;
map = strmap_new();
v = strmap_set(map, "K1", (void*)99);
test_eq(v, NULL);
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(strmap_get(map,"K1"), (void*)100);
test_eq(strmap_get(map,"K2"), (void*)101);
test_eq(strmap_get(map,"K-not-there"), NULL);
v = strmap_remove(map,"K2");
test_eq(v, (void*)101);
test_eq(strmap_get(map,"K2"), NULL);
test_eq(strmap_remove(map,"K2"), NULL);
strmap_set(map, "K2", (void*)101);
strmap_set(map, "K3", (void*)102);
strmap_set(map, "K4", (void*)103);
strmap_set(map, "K5", (void*)104);
strmap_set(map, "K6", (void*)105);
count = 0;
strmap_foreach(map, _squareAndRemoveK4, &count);
test_eq(count, 1);
test_eq(strmap_get(map, "K4"), NULL);
test_eq(strmap_get(map, "K1"), (void*)10000);
test_eq(strmap_get(map, "K6"), (void*)11025);
iter = strmap_iter_init(map);
strmap_iter_get(iter,&k,&v);
test_streq(k, "K1");
test_eq(v, (void*)10000);
iter = strmap_iter_next(map,iter);
strmap_iter_get(iter,&k,&v);
test_streq(k, "K2");
test_eq(v, (void*)10201);
iter = strmap_iter_next_rmv(map,iter);
strmap_iter_get(iter,&k,&v);
test_streq(k, "K3");
test_eq(v, (void*)10404);
iter = strmap_iter_next(map,iter); /* K5 */
test_assert(!strmap_iter_done(iter));
iter = strmap_iter_next(map,iter); /* K6 */
test_assert(!strmap_iter_done(iter));
iter = strmap_iter_next(map,iter); /* done */
test_assert(strmap_iter_done(iter));
/* Make sure we removed K2, but not the others. */
test_eq(strmap_get(map, "K2"), NULL);
test_eq(strmap_get(map, "K5"), (void*)10816);
/* 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(strmap_get(map,"ab.c"), (void*)1);
test_eq(strmap_get_lc(map,"AB.C"), (void*)1);
test_eq(strmap_get(map,"AB.C"), NULL);
test_eq(strmap_remove_lc(map,"aB.C"), (void*)1);
test_eq(strmap_get_lc(map,"AB.C"), NULL);
strmap_free(map,NULL);
}
void test_onion() {
#if 0
char **names;
int i,num;
names = parse_nickname_list(" foo bar\t baz quux ", &num);
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test_eq(num,4);
test_streq(names[0],"foo");
test_streq(names[1],"bar");
test_streq(names[2],"baz");
test_streq(names[3],"quux");
for(i=0;i<num;i++)
tor_free(names[i]);
tor_free(names);
#endif
}
void
test_onion_handshake() {
/* 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 = crypto_new_pk_env();
test_assert(! crypto_pk_generate_key(pk));
/* 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);
}
/* from routers.c */
int is_recommended_version(char *myversion, char *start);
void
test_dir_format()
{
char buf[8192], buf2[8192];
char platform[256];
char *pk1_str = NULL, *pk2_str = NULL, *pk3_str = NULL, *cp;
int 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;
struct exit_policy_t ex1, ex2;
routerlist_t *dir1 = NULL, *dir2 = NULL;
test_assert( (pk1 = crypto_new_pk_env()) );
test_assert( (pk2 = crypto_new_pk_env()) );
test_assert( (pk3 = crypto_new_pk_env()) );
test_assert(! crypto_pk_generate_key(pk1));
test_assert(! crypto_pk_generate_key(pk2));
test_assert(! crypto_pk_generate_key(pk3));
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get_platform_str(platform, sizeof(platform));
r1.address = "testaddr1.foo.bar";
r1.addr = 0xc0a80001u; /* 192.168.0.1 */
r1.published_on = 0;
r1.or_port = 9000;
r1.socks_port = 9002;
r1.dir_port = 9003;
r1.onion_pkey = pk1;
r1.identity_pkey = pk2;
r1.bandwidthrate = 1000;
r1.bandwidthburst = 5000;
r1.exit_policy = NULL;
r1.nickname = "Magri";
r1.platform = tor_strdup(platform);
ex1.policy_type = EXIT_POLICY_ACCEPT;
ex1.string = NULL;
ex1.addr = 0;
ex1.msk = 0;
ex1.prt_min = ex1.prt_max = 80;
ex1.next = &ex2;
ex2.policy_type = EXIT_POLICY_REJECT;
ex2.addr = 18 << 24;
ex2.msk = 0xFF000000u;
ex2.prt_min = ex1.prt_max = 24;
ex2.next = NULL;
r2.address = "tor.tor.tor";
r2.addr = 0x0a030201u; /* 10.3.2.1 */
r2.platform = tor_strdup(platform);
r2.published_on = 5;
r2.or_port = 9005;
r2.socks_port = 0;
r2.dir_port = 0;
r2.onion_pkey = pk2;
r2.identity_pkey = pk1;
r2.bandwidthrate = r2.bandwidthburst = 3000;
r2.exit_policy = &ex1;
r2.nickname = "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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strcpy(buf2, "router Magri testaddr1.foo.bar 9000 9002 9003\n"
"platform Tor "VERSION" on ");
strcat(buf2, get_uname());
strcat(buf2, "\n"
"published 1970-01-01 00:00:00\n"
"bandwidth 1000 5000\n"
"onion-key\n");
strcat(buf2, pk1_str);
strcat(buf2, "signing-key\n");
strcat(buf2, pk2_str);
strcat(buf2, "router-signature\n");
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_get_entry_from_string((const char*)cp,NULL);
test_assert(rp1);
test_streq(rp1->address, r1.address);
test_eq(rp1->or_port, r1.or_port);
test_eq(rp1->socks_port, r1.socks_port);
test_eq(rp1->dir_port, r1.dir_port);
test_eq(rp1->bandwidthrate, r1.bandwidthrate);
test_eq(rp1->bandwidthburst, r1.bandwidthburst);
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 */
strcpy(buf2, "router tor.tor.tor 9005 0 0 3000\n");
strcat(buf2, pk2_str);
strcat(buf2, "signing-key\n");
strcat(buf2, pk1_str);
strcat(buf2, "accept *:80\nreject 18.*:24\n\n");
test_assert(router_dump_router_to_string(buf, 2048, &r2, pk2)>0);
test_streq(buf, buf2);
cp = buf;
rp2 = router_get_entry_from_string(&cp);
test_assert(rp2);
test_streq(rp2->address, r2.address);
test_eq(rp2->or_port, r2.or_port);
test_eq(rp2->socks_port, r2.socks_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);
#endif
/* Okay, now for the directories. */
crypto_pk_get_fingerprint(pk2, buf);
add_fingerprint_to_dir("Magri", buf);
crypto_pk_get_fingerprint(pk1, buf);
add_fingerprint_to_dir("Fred", buf);
/* Make sure routers aren't too far in the past any more. */
r1.published_on = time(NULL);
r2.published_on = time(NULL)-3*60*60;
test_assert(router_dump_router_to_string(buf, 2048, &r1, pk2)>0);
cp = buf;
test_eq(dirserv_add_descriptor((const char**)&cp), 1);
test_assert(router_dump_router_to_string(buf, 2048, &r2, pk1)>0);
cp = buf;
test_eq(dirserv_add_descriptor((const char**)&cp), 1);
options.Nickname = "DirServer";
test_assert(!dirserv_dump_directory_to_string(buf,8192,pk3));
cp = buf;
test_assert(!router_get_routerlist_from_directory_impl(buf, &dir1, pk3));
test_eq(2, smartlist_len(dir1->routers));
dirserv_free_fingerprint_list();
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tor_free(pk1_str);
tor_free(pk2_str);
if (pk1) crypto_free_pk_env(pk1);
if (pk2) crypto_free_pk_env(pk2);
if (rp1) routerinfo_free(rp1);
if (rp2) routerinfo_free(rp2);
tor_free(dir1); /* XXXX And more !*/
tor_free(dir2); /* And more !*/
/* make sure is_recommended_version() works */
test_eq(1, is_recommended_version("abc", "abc"));
test_eq(1, is_recommended_version("abc", "ab,abd,abde,abc,abcde"));
test_eq(1, is_recommended_version("abc", "ab,abd,abde,abcde,abc"));
test_eq(1, is_recommended_version("abc", "abc,abd,abde,abc,abcde"));
test_eq(1, is_recommended_version("a", "a,ab,abd,abde,abc,abcde"));
test_eq(0, is_recommended_version("a", "ab,abd,abde,abc,abcde"));
test_eq(0, is_recommended_version("abb", "ab,abd,abde,abc,abcde"));
test_eq(0, is_recommended_version("a", ""));
}
void test_rend_fns()
{
char address1[] = "fooaddress.onion";
char address2[] = "aaaaaaaaaaaaaaaa.onion";
rend_service_descriptor_t *d1, *d2;
char *encoded;
int len;
crypto_pk_env_t *pk1;
time_t now;
pk1 = crypto_new_pk_env();
test_assert(!crypto_pk_generate_key(pk1));
d1 = tor_malloc_zero(sizeof(rend_service_descriptor_t));
d1->pk = pk1;
now = time(NULL);
d1->timestamp = now;
d1->n_intro_points = 3;
d1->intro_points = tor_malloc(sizeof(char*)*3);
d1->intro_points[0] = tor_strdup("tom");
d1->intro_points[1] = tor_strdup("crow");
d1->intro_points[2] = tor_strdup("joel");
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->n_intro_points, 3);
test_streq(d2->intro_points[0], "tom");
test_streq(d2->intro_points[1], "crow");
test_streq(d2->intro_points[2], "joel");
test_eq(-1, rend_parse_rendezvous_address(address1));
test_eq( 0, rend_parse_rendezvous_address(address2));
rend_service_descriptor_free(d1);
rend_service_descriptor_free(d2);
}
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int
main(int c, char**v){
#if 0
or_options_t options; /* command-line and config-file options */
if(getconfig(c,v,&options))
exit(1);
#endif
crypto_seed_rng();
setup_directory();
// puts("========================== Buffers =========================");
// test_buffers();
puts("\n========================== Crypto ==========================");
test_crypto();
test_crypto_dh();
puts("\n========================= Util ============================");
test_util();
test_strmap();
puts("\n========================= Onion Skins =====================");
test_onion();
test_onion_handshake();
puts("\n========================= Directory Formats ===============");
/* add_stream_log(LOG_DEBUG, NULL, stdout); */
test_dir_format();
puts("\n========================= Rendezvous functionality ========");
test_rend_fns();
puts("");
if (have_failed)
return 1;
else
return 0;
}
/*
Local Variables:
mode:c
indent-tabs-mode:nil
c-basic-offset:2
End:
*/