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|
/* Copyright (c) 2001-2004, Roger Dingledine.
* Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
* Copyright (c) 2007-2013, The Tor Project, Inc. */
/* See LICENSE for licensing information */
#define BUFFERS_PRIVATE
#include "or.h"
#include "buffers.h"
#include "ext_orport.h"
#include "test.h"
/** Run unit tests for buffers.c */
static void
test_buffers_basic(void *arg)
{
char str[256];
char str2[256];
buf_t *buf = NULL, *buf2 = NULL;
const char *cp;
int j;
size_t r;
(void) arg;
/****
* buf_new
****/
if (!(buf = buf_new()))
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;
}
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. */
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);
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);
buf = NULL;
/* 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 = buf2 = NULL;
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);
buf = NULL;
/* Try adding a string too long for any freelist. */
{
char *cp = tor_malloc_zero(65536);
buf = buf_new();
write_to_buf(cp, 65536, buf);
tor_free(cp);
tt_int_op(buf_datalen(buf), ==, 65536);
buf_free(buf);
buf = NULL;
}
done:
if (buf)
buf_free(buf);
if (buf2)
buf_free(buf2);
buf_shrink_freelists(1);
}
static void
test_buffer_pullup(void *arg)
{
buf_t *buf;
char *stuff, *tmp;
const char *cp;
size_t sz;
(void)arg;
stuff = tor_malloc(16384);
tmp = tor_malloc(16384);
/* Note: this test doesn't check the nulterminate argument to buf_pullup,
since nothing actually uses it. We should remove it some time. */
buf = buf_new_with_capacity(3000); /* rounds up to next power of 2. */
tt_assert(buf);
tt_int_op(buf_get_default_chunk_size(buf), ==, 4096);
tt_int_op(buf_get_total_allocation(), ==, 0);
/* There are a bunch of cases for pullup. One is the trivial case. Let's
mess around with an empty buffer. */
buf_pullup(buf, 16, 1);
buf_get_first_chunk_data(buf, &cp, &sz);
tt_ptr_op(cp, ==, NULL);
tt_ptr_op(sz, ==, 0);
/* Let's make sure nothing got allocated */
tt_int_op(buf_get_total_allocation(), ==, 0);
/* Case 1: everything puts into the first chunk with some moving. */
/* Let's add some data. */
crypto_rand(stuff, 16384);
write_to_buf(stuff, 3000, buf);
write_to_buf(stuff+3000, 3000, buf);
buf_get_first_chunk_data(buf, &cp, &sz);
tt_ptr_op(cp, !=, NULL);
tt_int_op(sz, <=, 4096);
/* Make room for 3000 bytes in the first chunk, so that the pullup-move code
* can get tested. */
tt_int_op(fetch_from_buf(tmp, 3000, buf), ==, 3000);
test_memeq(tmp, stuff, 3000);
buf_pullup(buf, 2048, 0);
assert_buf_ok(buf);
buf_get_first_chunk_data(buf, &cp, &sz);
tt_ptr_op(cp, !=, NULL);
tt_int_op(sz, >=, 2048);
test_memeq(cp, stuff+3000, 2048);
tt_int_op(3000, ==, buf_datalen(buf));
tt_int_op(fetch_from_buf(tmp, 3000, buf), ==, 0);
test_memeq(tmp, stuff+3000, 2048);
buf_free(buf);
/* Now try the large-chunk case. */
buf = buf_new_with_capacity(3000); /* rounds up to next power of 2. */
write_to_buf(stuff, 4000, buf);
write_to_buf(stuff+4000, 4000, buf);
write_to_buf(stuff+8000, 4000, buf);
write_to_buf(stuff+12000, 4000, buf);
tt_int_op(buf_datalen(buf), ==, 16000);
buf_get_first_chunk_data(buf, &cp, &sz);
tt_ptr_op(cp, !=, NULL);
tt_int_op(sz, <=, 4096);
buf_pullup(buf, 12500, 0);
assert_buf_ok(buf);
buf_get_first_chunk_data(buf, &cp, &sz);
tt_ptr_op(cp, !=, NULL);
tt_int_op(sz, >=, 12500);
test_memeq(cp, stuff, 12500);
tt_int_op(buf_datalen(buf), ==, 16000);
fetch_from_buf(tmp, 12400, buf);
test_memeq(tmp, stuff, 12400);
tt_int_op(buf_datalen(buf), ==, 3600);
fetch_from_buf(tmp, 3500, buf);
test_memeq(tmp, stuff+12400, 3500);
fetch_from_buf(tmp, 100, buf);
test_memeq(tmp, stuff+15900, 10);
buf_free(buf);
/* Make sure that the pull-up-whole-buffer case works */
buf = buf_new_with_capacity(3000); /* rounds up to next power of 2. */
write_to_buf(stuff, 4000, buf);
write_to_buf(stuff+4000, 4000, buf);
fetch_from_buf(tmp, 100, buf); /* dump 100 bytes from first chunk */
buf_pullup(buf, 16000, 0); /* Way too much. */
assert_buf_ok(buf);
buf_get_first_chunk_data(buf, &cp, &sz);
tt_ptr_op(cp, !=, NULL);
tt_int_op(sz, ==, 7900);
test_memeq(cp, stuff+100, 7900);
buf_free(buf);
buf = NULL;
buf_shrink_freelists(1);
tt_int_op(buf_get_total_allocation(), ==, 0);
done:
buf_free(buf);
buf_shrink_freelists(1);
tor_free(stuff);
tor_free(tmp);
}
static void
test_buffer_copy(void *arg)
{
generic_buffer_t *buf=NULL, *buf2=NULL;
const char *s;
size_t len;
char b[256];
int i;
(void)arg;
buf = generic_buffer_new();
tt_assert(buf);
/* Copy an empty buffer. */
tt_int_op(0, ==, generic_buffer_set_to_copy(&buf2, buf));
tt_assert(buf2);
tt_int_op(0, ==, generic_buffer_len(buf2));
/* Now try with a short buffer. */
s = "And now comes an act of enormous enormance!";
len = strlen(s);
generic_buffer_add(buf, s, len);
tt_int_op(len, ==, generic_buffer_len(buf));
/* Add junk to buf2 so we can test replacing.*/
generic_buffer_add(buf2, "BLARG", 5);
tt_int_op(0, ==, generic_buffer_set_to_copy(&buf2, buf));
tt_int_op(len, ==, generic_buffer_len(buf2));
generic_buffer_get(buf2, b, len);
test_mem_op(b, ==, s, len);
/* Now free buf2 and retry so we can test allocating */
generic_buffer_free(buf2);
buf2 = NULL;
tt_int_op(0, ==, generic_buffer_set_to_copy(&buf2, buf));
tt_int_op(len, ==, generic_buffer_len(buf2));
generic_buffer_get(buf2, b, len);
test_mem_op(b, ==, s, len);
/* Clear buf for next test */
generic_buffer_get(buf, b, len);
tt_int_op(generic_buffer_len(buf),==,0);
/* Okay, now let's try a bigger buffer. */
s = "Quis autem vel eum iure reprehenderit qui in ea voluptate velit "
"esse quam nihil molestiae consequatur, vel illum qui dolorem eum "
"fugiat quo voluptas nulla pariatur?";
len = strlen(s);
for (i = 0; i < 256; ++i) {
b[0]=i;
generic_buffer_add(buf, b, 1);
generic_buffer_add(buf, s, len);
}
tt_int_op(0, ==, generic_buffer_set_to_copy(&buf2, buf));
tt_int_op(generic_buffer_len(buf2), ==, generic_buffer_len(buf));
for (i = 0; i < 256; ++i) {
generic_buffer_get(buf2, b, len+1);
tt_int_op((unsigned char)b[0],==,i);
test_mem_op(b+1, ==, s, len);
}
done:
if (buf)
generic_buffer_free(buf);
if (buf2)
generic_buffer_free(buf2);
buf_shrink_freelists(1);
}
static void
test_buffer_ext_or_cmd(void *arg)
{
ext_or_cmd_t *cmd = NULL;
generic_buffer_t *buf = generic_buffer_new();
char *tmp = NULL;
(void) arg;
/* Empty -- should give "not there. */
tt_int_op(0, ==, generic_buffer_fetch_ext_or_cmd(buf, &cmd));
tt_ptr_op(NULL, ==, cmd);
/* Three bytes: shouldn't work. */
generic_buffer_add(buf, "\x00\x20\x00", 3);
tt_int_op(0, ==, generic_buffer_fetch_ext_or_cmd(buf, &cmd));
tt_ptr_op(NULL, ==, cmd);
tt_int_op(3, ==, generic_buffer_len(buf));
/* 0020 0000: That's a nil command. It should work. */
generic_buffer_add(buf, "\x00", 1);
tt_int_op(1, ==, generic_buffer_fetch_ext_or_cmd(buf, &cmd));
tt_ptr_op(NULL, !=, cmd);
tt_int_op(0x20, ==, cmd->cmd);
tt_int_op(0, ==, cmd->len);
tt_int_op(0, ==, generic_buffer_len(buf));
ext_or_cmd_free(cmd);
cmd = NULL;
/* Now try a length-6 command with one byte missing. */
generic_buffer_add(buf, "\x10\x21\x00\x06""abcde", 9);
tt_int_op(0, ==, generic_buffer_fetch_ext_or_cmd(buf, &cmd));
tt_ptr_op(NULL, ==, cmd);
generic_buffer_add(buf, "f", 1);
tt_int_op(1, ==, generic_buffer_fetch_ext_or_cmd(buf, &cmd));
tt_ptr_op(NULL, !=, cmd);
tt_int_op(0x1021, ==, cmd->cmd);
tt_int_op(6, ==, cmd->len);
test_mem_op("abcdef", ==, cmd->body, 6);
tt_int_op(0, ==, generic_buffer_len(buf));
ext_or_cmd_free(cmd);
cmd = NULL;
/* Now try a length-10 command with 4 extra bytes. */
generic_buffer_add(buf, "\xff\xff\x00\x0a"
"loremipsum\x10\x00\xff\xff", 18);
tt_int_op(1, ==, generic_buffer_fetch_ext_or_cmd(buf, &cmd));
tt_ptr_op(NULL, !=, cmd);
tt_int_op(0xffff, ==, cmd->cmd);
tt_int_op(10, ==, cmd->len);
test_mem_op("loremipsum", ==, cmd->body, 10);
tt_int_op(4, ==, generic_buffer_len(buf));
ext_or_cmd_free(cmd);
cmd = NULL;
/* Finally, let's try a maximum-length command. We already have the header
* waiting. */
tt_int_op(0, ==, generic_buffer_fetch_ext_or_cmd(buf, &cmd));
tmp = tor_malloc_zero(65535);
generic_buffer_add(buf, tmp, 65535);
tt_int_op(1, ==, generic_buffer_fetch_ext_or_cmd(buf, &cmd));
tt_ptr_op(NULL, !=, cmd);
tt_int_op(0x1000, ==, cmd->cmd);
tt_int_op(0xffff, ==, cmd->len);
test_mem_op(tmp, ==, cmd->body, 65535);
tt_int_op(0, ==, generic_buffer_len(buf));
ext_or_cmd_free(cmd);
cmd = NULL;
done:
ext_or_cmd_free(cmd);
generic_buffer_free(buf);
tor_free(tmp);
buf_shrink_freelists(1);
}
static void
test_buffer_allocation_tracking(void *arg)
{
char *junk = tor_malloc(16384);
buf_t *buf1 = NULL, *buf2 = NULL;
int i;
(void)arg;
crypto_rand(junk, 16384);
tt_int_op(buf_get_total_allocation(), ==, 0);
buf1 = buf_new();
tt_assert(buf1);
buf2 = buf_new();
tt_assert(buf2);
tt_int_op(buf_allocation(buf1), ==, 0);
tt_int_op(buf_get_total_allocation(), ==, 0);
write_to_buf(junk, 4000, buf1);
write_to_buf(junk, 4000, buf1);
write_to_buf(junk, 4000, buf1);
write_to_buf(junk, 4000, buf1);
tt_int_op(buf_allocation(buf1), ==, 16384);
fetch_from_buf(junk, 100, buf1);
tt_int_op(buf_allocation(buf1), ==, 16384); /* still 4 4k chunks */
tt_int_op(buf_get_total_allocation(), ==, 16384);
fetch_from_buf(junk, 4096, buf1); /* drop a 1k chunk... */
tt_int_op(buf_allocation(buf1), ==, 3*4096); /* now 3 4k chunks */
#ifdef ENABLE_BUF_FREELISTS
tt_int_op(buf_get_total_allocation(), ==, 16384); /* that chunk went onto
the freelist. */
#else
tt_int_op(buf_get_total_allocation(), ==, 12288); /* that chunk was really
freed. */
#endif
write_to_buf(junk, 4000, buf2);
tt_int_op(buf_allocation(buf2), ==, 4096); /* another 4k chunk. */
/*
* If we're using freelists, size stays at 16384 because we just pulled a
* chunk from the freelist. If we aren't, we bounce back up to 16384 by
* allocating a new chunk.
*/
tt_int_op(buf_get_total_allocation(), ==, 16384);
write_to_buf(junk, 4000, buf2);
tt_int_op(buf_allocation(buf2), ==, 8192); /* another 4k chunk. */
tt_int_op(buf_get_total_allocation(), ==, 5*4096); /* that chunk was new. */
/* Make a really huge buffer */
for (i = 0; i < 1000; ++i) {
write_to_buf(junk, 4000, buf2);
}
tt_int_op(buf_allocation(buf2), >=, 4008000);
tt_int_op(buf_get_total_allocation(), >=, 4008000);
buf_free(buf2);
buf2 = NULL;
tt_int_op(buf_get_total_allocation(), <, 4008000);
buf_shrink_freelists(1);
tt_int_op(buf_get_total_allocation(), ==, buf_allocation(buf1));
buf_free(buf1);
buf1 = NULL;
buf_shrink_freelists(1);
tt_int_op(buf_get_total_allocation(), ==, 0);
done:
buf_free(buf1);
buf_free(buf2);
buf_shrink_freelists(1);
tor_free(junk);
}
static void
test_buffer_time_tracking(void *arg)
{
buf_t *buf=NULL, *buf2=NULL;
struct timeval tv0;
const time_t START = 1389288246;
const uint32_t START_MSEC = (uint32_t) ((uint64_t)START * 1000);
int i;
char tmp[4096];
(void)arg;
crypto_rand(tmp, sizeof(tmp));
tv0.tv_sec = START;
tv0.tv_usec = 0;
buf = buf_new_with_capacity(3000); /* rounds up to next power of 2. */
tt_assert(buf);
/* Empty buffer means the timestamp is 0. */
tt_int_op(0, ==, buf_get_oldest_chunk_timestamp(buf, START_MSEC));
tt_int_op(0, ==, buf_get_oldest_chunk_timestamp(buf, START_MSEC+1000));
tor_gettimeofday_cache_set(&tv0);
write_to_buf("ABCDEFG", 7, buf);
tt_int_op(1000, ==, buf_get_oldest_chunk_timestamp(buf, START_MSEC+1000));
buf2 = buf_copy(buf);
tt_assert(buf2);
tt_int_op(1234, ==, buf_get_oldest_chunk_timestamp(buf2, START_MSEC+1234));
/* Now add more bytes; enough to overflow the first chunk. */
tv0.tv_usec += 123 * 1000;
tor_gettimeofday_cache_set(&tv0);
for (i = 0; i < 600; ++i)
write_to_buf("ABCDEFG", 7, buf);
tt_int_op(4207, ==, buf_datalen(buf));
/* The oldest bytes are still in the front. */
tt_int_op(2000, ==, buf_get_oldest_chunk_timestamp(buf, START_MSEC+2000));
/* Once those bytes are dropped, the chunk is still on the first
* timestamp. */
fetch_from_buf(tmp, 100, buf);
tt_int_op(2000, ==, buf_get_oldest_chunk_timestamp(buf, START_MSEC+2000));
/* But once we discard the whole first chunk, we get the data in the second
* chunk. */
fetch_from_buf(tmp, 4000, buf);
tt_int_op(107, ==, buf_datalen(buf));
tt_int_op(2000, ==, buf_get_oldest_chunk_timestamp(buf, START_MSEC+2123));
/* This time we'll be grabbing a chunk from the freelist, and making sure
its time gets updated */
tv0.tv_sec += 5;
tv0.tv_usec = 617*1000;
tor_gettimeofday_cache_set(&tv0);
for (i = 0; i < 600; ++i)
write_to_buf("ABCDEFG", 7, buf);
tt_int_op(4307, ==, buf_datalen(buf));
tt_int_op(2000, ==, buf_get_oldest_chunk_timestamp(buf, START_MSEC+2123));
fetch_from_buf(tmp, 4000, buf);
fetch_from_buf(tmp, 306, buf);
tt_int_op(0, ==, buf_get_oldest_chunk_timestamp(buf, START_MSEC+5617));
tt_int_op(383, ==, buf_get_oldest_chunk_timestamp(buf, START_MSEC+6000));
done:
buf_free(buf);
buf_free(buf2);
}
static void
test_buffers_zlib(void *arg)
{
char *msg = NULL;
char *contents = NULL;
char *expanded = NULL;
buf_t *buf = NULL;
tor_zlib_state_t *zlib_state = NULL;
size_t out_len, in_len;
(void) arg;
buf = buf_new_with_capacity(128); /* will round up */
zlib_state = tor_zlib_new(1, ZLIB_METHOD);
msg = tor_malloc(512);
crypto_rand(msg, 512);
tt_int_op(write_to_buf_zlib(buf, zlib_state, msg, 128, 0), ==, 0);
tt_int_op(write_to_buf_zlib(buf, zlib_state, msg+128, 128, 0), ==, 0);
tt_int_op(write_to_buf_zlib(buf, zlib_state, msg+256, 256, 0), ==, 0);
tt_int_op(write_to_buf_zlib(buf, zlib_state, "all done", 9, 1), ==, 0);
in_len = buf_datalen(buf);
contents = tor_malloc(in_len);
tt_int_op(fetch_from_buf(contents, in_len, buf), ==, 0);
tt_int_op(0, ==, tor_gzip_uncompress(&expanded, &out_len,
contents, in_len,
ZLIB_METHOD, 1,
LOG_WARN));
tt_int_op(out_len, >=, 128);
tt_mem_op(msg, ==, expanded, 128);
tt_int_op(out_len, >=, 512);
tt_mem_op(msg, ==, expanded, 512);
tt_int_op(out_len, ==, 512+9);
tt_mem_op("all done", ==, expanded+512, 9);
done:
buf_free(buf);
tor_zlib_free(zlib_state);
tor_free(contents);
tor_free(expanded);
tor_free(msg);
}
struct testcase_t buffer_tests[] = {
{ "basic", test_buffers_basic, TT_FORK, NULL, NULL },
{ "copy", test_buffer_copy, TT_FORK, NULL, NULL },
{ "pullup", test_buffer_pullup, TT_FORK, NULL, NULL },
{ "ext_or_cmd", test_buffer_ext_or_cmd, TT_FORK, NULL, NULL },
{ "allocation_tracking", test_buffer_allocation_tracking, TT_FORK,
NULL, NULL },
{ "time_tracking", test_buffer_time_tracking, TT_FORK, NULL, NULL },
{ "zlib", test_buffers_zlib, TT_FORK, NULL, NULL },
END_OF_TESTCASES
};
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